a AWS SDK를 사용한 Auto Scaling의 기본 사항 알아보기 - AWS SDK 코드 예제

AWS Doc SDK ExamplesWord AWS SDK 리포지토리에는 더 많은 GitHub 예제가 있습니다.

기계 번역으로 제공되는 번역입니다. 제공된 번역과 원본 영어의 내용이 상충하는 경우에는 영어 버전이 우선합니다.

a AWS SDK를 사용한 Auto Scaling의 기본 사항 알아보기

다음 코드 예제는 다음과 같은 작업을 수행하는 방법을 보여줍니다.

  • 시작 템플릿과 가용 영역으로 Amazon EC2 Auto Scaling 그룹을 생성하고 인스턴스 실행에 대한 정보를 가져옵니다.

  • Amazon CloudWatch 지표 수집을 활성화합니다.

  • 그룹의 원하는 용량을 업데이트하고 인스턴스가 시작될 때까지 기다립니다.

  • 그룹에서 인스턴스를 종료합니다.

  • 사용자 요청 및 용량 변경에 따라 발생하는 조정 활동을 나열합니다.

  • CloudWatch 지표에 대한 통계를 가져온 다음 리소스를 정리합니다.

.NET
AWS SDK for .NET
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

global using Amazon.AutoScaling; global using Amazon.AutoScaling.Model; global using Amazon.CloudWatch; global using AutoScalingActions; global using Microsoft.Extensions.DependencyInjection; global using Microsoft.Extensions.Hosting; global using Microsoft.Extensions.Logging; global using Microsoft.Extensions.Logging.Console; global using Microsoft.Extensions.Logging.Debug; using Amazon.EC2; using Microsoft.Extensions.Configuration; using Host = Microsoft.Extensions.Hosting.Host; namespace AutoScalingBasics; public class AutoScalingBasics { static async Task Main(string[] args) { // Set up dependency injection for Amazon EC2 Auto Scaling, Amazon // CloudWatch, and Amazon EC2. using var host = Host.CreateDefaultBuilder(args) .ConfigureLogging(logging => logging.AddFilter("System", LogLevel.Debug) .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information) .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace)) .ConfigureServices((_, services) => services.AddAWSService<IAmazonAutoScaling>() .AddAWSService<IAmazonCloudWatch>() .AddAWSService<IAmazonEC2>() .AddTransient<AutoScalingWrapper>() .AddTransient<CloudWatchWrapper>() .AddTransient<EC2Wrapper>() .AddTransient<UIWrapper>() ) .Build(); var autoScalingWrapper = host.Services.GetRequiredService<AutoScalingWrapper>(); var cloudWatchWrapper = host.Services.GetRequiredService<CloudWatchWrapper>(); var ec2Wrapper = host.Services.GetRequiredService<EC2Wrapper>(); var uiWrapper = host.Services.GetRequiredService<UIWrapper>(); var configuration = new ConfigurationBuilder() .SetBasePath(Directory.GetCurrentDirectory()) .AddJsonFile("settings.json") // Load test settings from .json file. .AddJsonFile("settings.local.json", true) // Optionally load local settings. .Build(); var imageId = configuration["ImageId"]; var instanceType = configuration["InstanceType"]; var launchTemplateName = configuration["LaunchTemplateName"]; launchTemplateName += Guid.NewGuid().ToString(); // The name of the Auto Scaling group. var groupName = configuration["GroupName"]; uiWrapper.DisplayTitle("Auto Scaling Basics"); uiWrapper.DisplayAutoScalingBasicsDescription(); // Create the launch template and save the template Id to use when deleting the // launch template at the end of the application. var launchTemplateId = await ec2Wrapper.CreateLaunchTemplateAsync(imageId!, instanceType!, launchTemplateName); // Confirm that the template was created by asking for a description of it. await ec2Wrapper.DescribeLaunchTemplateAsync(launchTemplateName); uiWrapper.PressEnter(); var availabilityZones = await ec2Wrapper.ListAvailabilityZonesAsync(); Console.WriteLine($"Creating an Auto Scaling group named {groupName}."); await autoScalingWrapper.CreateAutoScalingGroupAsync( groupName!, launchTemplateName, availabilityZones.First().ZoneName); // Keep checking the details of the new group until its lifecycle state // is "InService". Console.WriteLine($"Waiting for the Auto Scaling group to be active."); List<AutoScalingInstanceDetails> instanceDetails; do { instanceDetails = await autoScalingWrapper.DescribeAutoScalingInstancesAsync(groupName!); } while (instanceDetails.Count <= 0); Console.WriteLine($"Auto scaling group {groupName} successfully created."); Console.WriteLine($"{instanceDetails.Count} instances were created for the group."); // Display the details of the Auto Scaling group. instanceDetails.ForEach(detail => { Console.WriteLine($"Group name: {detail.AutoScalingGroupName}"); }); uiWrapper.PressEnter(); uiWrapper.DisplayTitle("Metrics collection"); Console.WriteLine($"Enable metrics collection for {groupName}"); await autoScalingWrapper.EnableMetricsCollectionAsync(groupName!); // Show the metrics that are collected for the group. // Update the maximum size of the group to three instances. Console.WriteLine("--- Update the Auto Scaling group to increase max size to 3 ---"); int maxSize = 3; await autoScalingWrapper.UpdateAutoScalingGroupAsync(groupName!, launchTemplateName, maxSize); Console.WriteLine("--- Describe all Auto Scaling groups to show the current state of the group ---"); var groups = await autoScalingWrapper.DescribeAutoScalingGroupsAsync(groupName!); uiWrapper.DisplayGroupDetails(groups!); uiWrapper.PressEnter(); uiWrapper.DisplayTitle("Describe account limits"); await autoScalingWrapper.DescribeAccountLimitsAsync(); uiWrapper.WaitABit(60, "Waiting for the resources to be ready."); uiWrapper.DisplayTitle("Set desired capacity"); int desiredCapacity = 2; await autoScalingWrapper.SetDesiredCapacityAsync(groupName!, desiredCapacity); Console.WriteLine("Get the two instance Id values"); // Empty the group before getting the details again. groups!.Clear(); groups = await autoScalingWrapper.DescribeAutoScalingGroupsAsync(groupName!); if (groups is not null) { foreach (AutoScalingGroup group in groups) { Console.WriteLine($"The group name is {group.AutoScalingGroupName}"); Console.WriteLine($"The group ARN is {group.AutoScalingGroupARN}"); var instances = group.Instances; foreach (Amazon.AutoScaling.Model.Instance instance in instances) { Console.WriteLine($"The instance id is {instance.InstanceId}"); Console.WriteLine($"The lifecycle state is {instance.LifecycleState}"); } } } uiWrapper.DisplayTitle("Scaling Activities"); Console.WriteLine("Let's list the scaling activities that have occurred for the group."); var activities = await autoScalingWrapper.DescribeScalingActivitiesAsync(groupName!); if (activities is not null) { activities.ForEach(activity => { Console.WriteLine($"The activity Id is {activity.ActivityId}"); Console.WriteLine($"The activity details are {activity.Details}"); }); } // Display the Amazon CloudWatch metrics that have been collected. var metrics = await cloudWatchWrapper.GetCloudWatchMetricsAsync(groupName!); Console.WriteLine($"Metrics collected for {groupName}:"); metrics.ForEach(metric => { Console.Write($"Metric name: {metric.MetricName}\t"); Console.WriteLine($"Namespace: {metric.Namespace}"); }); var dataPoints = await cloudWatchWrapper.GetMetricStatisticsAsync(groupName!); Console.WriteLine("Details for the metrics collected:"); dataPoints.ForEach(detail => { Console.WriteLine(detail); }); // Disable metrics collection. Console.WriteLine("Disabling the collection of metrics for {groupName}."); var success = await autoScalingWrapper.DisableMetricsCollectionAsync(groupName!); if (success) { Console.WriteLine($"Successfully stopped metrics collection for {groupName}."); } else { Console.WriteLine($"Could not stop metrics collection for {groupName}."); } // Terminate all instances in the group. uiWrapper.DisplayTitle("Terminating Auto Scaling instances"); Console.WriteLine("Now terminating all instances in the Auto Scaling group."); if (groups is not null) { groups.ForEach(group => { // Only delete instances in the AutoScaling group we created. if (group.AutoScalingGroupName == groupName) { group.Instances.ForEach(async instance => { await autoScalingWrapper.TerminateInstanceInAutoScalingGroupAsync(instance.InstanceId); }); } }); } // After all instances are terminated, delete the group. uiWrapper.DisplayTitle("Clean up resources"); Console.WriteLine("Deleting the Auto Scaling group."); await autoScalingWrapper.DeleteAutoScalingGroupAsync(groupName!); // Delete the launch template. var deletedLaunchTemplateName = await ec2Wrapper.DeleteLaunchTemplateAsync(launchTemplateId); if (deletedLaunchTemplateName == launchTemplateName) { Console.WriteLine("Successfully deleted the launch template."); } Console.WriteLine("The demo is now concluded."); } } namespace AutoScalingBasics; /// <summary> /// A class to provide user interface methods for the EC2 AutoScaling Basics /// scenario. /// </summary> public class UIWrapper { public readonly string SepBar = new('-', Console.WindowWidth); /// <summary> /// Describe the steps in the EC2 AutoScaling Basics scenario. /// </summary> public void DisplayAutoScalingBasicsDescription() { Console.WriteLine("This code example performs the following operations:"); Console.WriteLine(" 1. Creates an Amazon EC2 launch template."); Console.WriteLine(" 2. Creates an Auto Scaling group."); Console.WriteLine(" 3. Shows the details of the new Auto Scaling group"); Console.WriteLine(" to show that only one instance was created."); Console.WriteLine(" 4. Enables metrics collection."); Console.WriteLine(" 5. Updates the Auto Scaling group to increase the"); Console.WriteLine(" capacity to three."); Console.WriteLine(" 6. Describes Auto Scaling groups again to show the"); Console.WriteLine(" current state of the group."); Console.WriteLine(" 7. Changes the desired capacity of the Auto Scaling"); Console.WriteLine(" group to use an additional instance."); Console.WriteLine(" 8. Shows that there are now instances in the group."); Console.WriteLine(" 9. Lists the scaling activities that have occurred for the group."); Console.WriteLine("10. Displays the Amazon CloudWatch metrics that have"); Console.WriteLine(" been collected."); Console.WriteLine("11. Disables metrics collection."); Console.WriteLine("12. Terminates all instances in the Auto Scaling group."); Console.WriteLine("13. Deletes the Auto Scaling group."); Console.WriteLine("14. Deletes the Amazon EC2 launch template."); PressEnter(); } /// <summary> /// Display information about the Amazon Ec2 AutoScaling groups passed /// in the list of AutoScalingGroup objects. /// </summary> /// <param name="groups">A list of AutoScalingGroup objects.</param> public void DisplayGroupDetails(List<AutoScalingGroup> groups) { if (groups is null) return; groups.ForEach(group => { Console.WriteLine($"Group name:\t{group.AutoScalingGroupName}"); Console.WriteLine($"Group created:\t{group.CreatedTime}"); Console.WriteLine($"Maximum number of instances:\t{group.MaxSize}"); Console.WriteLine($"Desired number of instances:\t{group.DesiredCapacity}"); }); } /// <summary> /// Display a message and wait until the user presses enter. /// </summary> public void PressEnter() { Console.Write("\nPress <Enter> to continue. "); _ = Console.ReadLine(); Console.WriteLine(); } /// <summary> /// Pad a string with spaces to center it on the console display. /// </summary> /// <param name="strToCenter">The string to be centered.</param> /// <returns>The padded string.</returns> public string CenterString(string strToCenter) { var padAmount = (Console.WindowWidth - strToCenter.Length) / 2; var leftPad = new string(' ', padAmount); return $"{leftPad}{strToCenter}"; } /// <summary> /// Display a line of hyphens, the centered text of the title and another /// line of hyphens. /// </summary> /// <param name="strTitle">The string to be displayed.</param> public void DisplayTitle(string strTitle) { Console.WriteLine(SepBar); Console.WriteLine(CenterString(strTitle)); Console.WriteLine(SepBar); } /// <summary> /// Display a countdown and wait for a number of seconds. /// </summary> /// <param name="numSeconds">The number of seconds to wait.</param> public void WaitABit(int numSeconds, string msg) { Console.WriteLine(msg); // Wait for the requested number of seconds. for (int i = numSeconds; i > 0; i--) { System.Threading.Thread.Sleep(1000); Console.Write($"{i}..."); } PressEnter(); } }

시작 템플릿과 지표를 관리하기 위해 시나리오가 호출하는 함수를 정의합니다. 이러한 함수는 Auto Scaling, Amazon EC2 및 CloudWatch 작업을 래핑합니다.

namespace AutoScalingActions; using Amazon.AutoScaling; using Amazon.AutoScaling.Model; /// <summary> /// A class that includes methods to perform Amazon EC2 Auto Scaling /// actions. /// </summary> public class AutoScalingWrapper { private readonly IAmazonAutoScaling _amazonAutoScaling; /// <summary> /// Constructor for the AutoScalingWrapper class. /// </summary> /// <param name="amazonAutoScaling">The injected Amazon EC2 Auto Scaling client.</param> public AutoScalingWrapper(IAmazonAutoScaling amazonAutoScaling) { _amazonAutoScaling = amazonAutoScaling; } /// <summary> /// Create a new Amazon EC2 Auto Scaling group. /// </summary> /// <param name="groupName">The name to use for the new Auto Scaling /// group.</param> /// <param name="launchTemplateName">The name of the Amazon EC2 Auto Scaling /// launch template to use to create instances in the group.</param> /// <returns>A Boolean value indicating the success of the action.</returns> public async Task<bool> CreateAutoScalingGroupAsync( string groupName, string launchTemplateName, string availabilityZone) { var templateSpecification = new LaunchTemplateSpecification { LaunchTemplateName = launchTemplateName, }; var zoneList = new List<string> { availabilityZone, }; var request = new CreateAutoScalingGroupRequest { AutoScalingGroupName = groupName, AvailabilityZones = zoneList, LaunchTemplate = templateSpecification, MaxSize = 6, MinSize = 1 }; var response = await _amazonAutoScaling.CreateAutoScalingGroupAsync(request); Console.WriteLine($"{groupName} Auto Scaling Group created"); return response.HttpStatusCode == System.Net.HttpStatusCode.OK; } /// <summary> /// Retrieve information about Amazon EC2 Auto Scaling quotas to the /// active AWS account. /// </summary> /// <returns>A Boolean value indicating the success of the action.</returns> public async Task<bool> DescribeAccountLimitsAsync() { var response = await _amazonAutoScaling.DescribeAccountLimitsAsync(); Console.WriteLine("The maximum number of Auto Scaling groups is " + response.MaxNumberOfAutoScalingGroups); Console.WriteLine("The current number of Auto Scaling groups is " + response.NumberOfAutoScalingGroups); return response.HttpStatusCode == System.Net.HttpStatusCode.OK; } /// <summary> /// Retrieve a list of the Amazon EC2 Auto Scaling activities for an /// Amazon EC2 Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param> /// <returns>A list of Amazon EC2 Auto Scaling activities.</returns> public async Task<List<Amazon.AutoScaling.Model.Activity>> DescribeScalingActivitiesAsync( string groupName) { var scalingActivitiesRequest = new DescribeScalingActivitiesRequest { AutoScalingGroupName = groupName, MaxRecords = 10, }; var response = await _amazonAutoScaling.DescribeScalingActivitiesAsync(scalingActivitiesRequest); return response.Activities; } /// <summary> /// Get data about the instances in an Amazon EC2 Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param> /// <returns>A list of Amazon EC2 Auto Scaling details.</returns> public async Task<List<AutoScalingInstanceDetails>> DescribeAutoScalingInstancesAsync( string groupName) { var groups = await DescribeAutoScalingGroupsAsync(groupName); var instanceIds = new List<string>(); groups!.ForEach(group => { if (group.AutoScalingGroupName == groupName) { group.Instances.ForEach(instance => { instanceIds.Add(instance.InstanceId); }); } }); var scalingGroupsRequest = new DescribeAutoScalingInstancesRequest { MaxRecords = 10, InstanceIds = instanceIds, }; var response = await _amazonAutoScaling.DescribeAutoScalingInstancesAsync(scalingGroupsRequest); var instanceDetails = response.AutoScalingInstances; return instanceDetails; } /// <summary> /// Retrieve a list of information about Amazon EC2 Auto Scaling groups. /// </summary> /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param> /// <returns>A list of Amazon EC2 Auto Scaling groups.</returns> public async Task<List<AutoScalingGroup>?> DescribeAutoScalingGroupsAsync( string groupName) { var groupList = new List<string> { groupName, }; var request = new DescribeAutoScalingGroupsRequest { AutoScalingGroupNames = groupList, }; var response = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(request); var groups = response.AutoScalingGroups; return groups; } /// <summary> /// Delete an Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param> /// <returns>A Boolean value indicating the success of the action.</returns> public async Task<bool> DeleteAutoScalingGroupAsync( string groupName) { var deleteAutoScalingGroupRequest = new DeleteAutoScalingGroupRequest { AutoScalingGroupName = groupName, ForceDelete = true, }; var response = await _amazonAutoScaling.DeleteAutoScalingGroupAsync(deleteAutoScalingGroupRequest); if (response.HttpStatusCode == System.Net.HttpStatusCode.OK) { Console.WriteLine($"You successfully deleted {groupName}"); return true; } Console.WriteLine($"Couldn't delete {groupName}."); return false; } /// <summary> /// Disable the collection of metric data for an Amazon EC2 Auto Scaling /// group. /// </summary> /// <param name="groupName">The name of the Auto Scaling group.</param> /// <returns>A Boolean value that indicates the success or failure of /// the operation.</returns> public async Task<bool> DisableMetricsCollectionAsync(string groupName) { var request = new DisableMetricsCollectionRequest { AutoScalingGroupName = groupName, }; var response = await _amazonAutoScaling.DisableMetricsCollectionAsync(request); return response.HttpStatusCode == System.Net.HttpStatusCode.OK; } /// <summary> /// Enable the collection of metric data for an Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Auto Scaling group.</param> /// <returns>A Boolean value indicating the success of the action.</returns> public async Task<bool> EnableMetricsCollectionAsync(string groupName) { var listMetrics = new List<string> { "GroupMaxSize", }; var collectionRequest = new EnableMetricsCollectionRequest { AutoScalingGroupName = groupName, Metrics = listMetrics, Granularity = "1Minute", }; var response = await _amazonAutoScaling.EnableMetricsCollectionAsync(collectionRequest); return response.HttpStatusCode == System.Net.HttpStatusCode.OK; } /// <summary> /// Set the desired capacity of an Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Auto Scaling group.</param> /// <param name="desiredCapacity">The desired capacity for the Auto /// Scaling group.</param> /// <returns>A Boolean value indicating the success of the action.</returns> public async Task<bool> SetDesiredCapacityAsync( string groupName, int desiredCapacity) { var capacityRequest = new SetDesiredCapacityRequest { AutoScalingGroupName = groupName, DesiredCapacity = desiredCapacity, }; var response = await _amazonAutoScaling.SetDesiredCapacityAsync(capacityRequest); Console.WriteLine($"You have set the DesiredCapacity to {desiredCapacity}."); return response.HttpStatusCode == System.Net.HttpStatusCode.OK; } /// <summary> /// Terminate all instances in the Auto Scaling group in preparation for /// deleting the group. /// </summary> /// <param name="instanceId">The instance Id of the instance to terminate.</param> /// <returns>A Boolean value that indicates the success or failure of /// the operation.</returns> public async Task<bool> TerminateInstanceInAutoScalingGroupAsync( string instanceId) { var request = new TerminateInstanceInAutoScalingGroupRequest { InstanceId = instanceId, ShouldDecrementDesiredCapacity = false, }; var response = await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(request); if (response.HttpStatusCode == System.Net.HttpStatusCode.OK) { Console.WriteLine($"You have terminated the instance: {instanceId}"); return true; } Console.WriteLine($"Could not terminate {instanceId}"); return false; } /// <summary> /// Update the capacity of an Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Auto Scaling group.</param> /// <param name="launchTemplateName">The name of the EC2 launch template.</param> /// <param name="maxSize">The maximum number of instances that can be /// created for the Auto Scaling group.</param> /// <returns>A Boolean value indicating the success of the action.</returns> public async Task<bool> UpdateAutoScalingGroupAsync( string groupName, string launchTemplateName, int maxSize) { var templateSpecification = new LaunchTemplateSpecification { LaunchTemplateName = launchTemplateName, }; var groupRequest = new UpdateAutoScalingGroupRequest { MaxSize = maxSize, AutoScalingGroupName = groupName, LaunchTemplate = templateSpecification, }; var response = await _amazonAutoScaling.UpdateAutoScalingGroupAsync(groupRequest); if (response.HttpStatusCode == System.Net.HttpStatusCode.OK) { Console.WriteLine($"You successfully updated the Auto Scaling group {groupName}."); return true; } else { return false; } } } namespace AutoScalingActions; using Amazon.EC2; using Amazon.EC2.Model; public class EC2Wrapper { private readonly IAmazonEC2 _amazonEc2; /// <summary> /// Constructor for the EC2Wrapper class. /// </summary> /// <param name="amazonEc2">The injected Amazon EC2 client.</param> public EC2Wrapper(IAmazonEC2 amazonEc2) { _amazonEc2 = amazonEc2; } /// <summary> /// Create a new Amazon EC2 launch template. /// </summary> /// <param name="imageId">The image Id to use for instances launched /// using the Amazon EC2 launch template.</param> /// <param name="instanceType">The type of EC2 instances to create.</param> /// <param name="launchTemplateName">The name of the launch template.</param> /// <returns>Returns the TemplateID of the new launch template.</returns> public async Task<string> CreateLaunchTemplateAsync( string imageId, string instanceType, string launchTemplateName) { var request = new CreateLaunchTemplateRequest { LaunchTemplateData = new RequestLaunchTemplateData { ImageId = imageId, InstanceType = instanceType, }, LaunchTemplateName = launchTemplateName, }; var response = await _amazonEc2.CreateLaunchTemplateAsync(request); return response.LaunchTemplate.LaunchTemplateId; } /// <summary> /// Delete an Amazon EC2 launch template. /// </summary> /// <param name="launchTemplateId">The TemplateId of the launch template to /// delete.</param> /// <returns>The name of the EC2 launch template that was deleted.</returns> public async Task<string> DeleteLaunchTemplateAsync(string launchTemplateId) { var request = new DeleteLaunchTemplateRequest { LaunchTemplateId = launchTemplateId, }; var response = await _amazonEc2.DeleteLaunchTemplateAsync(request); return response.LaunchTemplate.LaunchTemplateName; } /// <summary> /// Retrieve information about an EC2 launch template. /// </summary> /// <param name="launchTemplateName">The name of the EC2 launch template.</param> /// <returns>A Boolean value that indicates the success or failure of /// the operation.</returns> public async Task<bool> DescribeLaunchTemplateAsync(string launchTemplateName) { var request = new DescribeLaunchTemplatesRequest { LaunchTemplateNames = new List<string> { launchTemplateName, }, }; var response = await _amazonEc2.DescribeLaunchTemplatesAsync(request); if (response.LaunchTemplates is not null) { response.LaunchTemplates.ForEach(template => { Console.Write($"{template.LaunchTemplateName}\t"); Console.WriteLine(template.LaunchTemplateId); }); return true; } return false; } /// <summary> /// Retrieve the availability zones for the current region. /// </summary> /// <returns>A collection of availability zones.</returns> public async Task<List<AvailabilityZone>> ListAvailabilityZonesAsync() { var response = await _amazonEc2.DescribeAvailabilityZonesAsync( new DescribeAvailabilityZonesRequest()); return response.AvailabilityZones; } } namespace AutoScalingActions; using Amazon.CloudWatch; using Amazon.CloudWatch.Model; /// <summary> /// Contains methods to access Amazon CloudWatch metrics for the /// Amazon EC2 Auto Scaling basics scenario. /// </summary> public class CloudWatchWrapper { private readonly IAmazonCloudWatch _amazonCloudWatch; /// <summary> /// Constructor for the CloudWatchWrapper. /// </summary> /// <param name="amazonCloudWatch">The injected CloudWatch client.</param> public CloudWatchWrapper(IAmazonCloudWatch amazonCloudWatch) { _amazonCloudWatch = amazonCloudWatch; } /// <summary> /// Retrieve the metrics information collection for the Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Auto Scaling group.</param> /// <returns>A list of Metrics collected for the Auto Scaling group.</returns> public async Task<List<Amazon.CloudWatch.Model.Metric>> GetCloudWatchMetricsAsync(string groupName) { var filter = new DimensionFilter { Name = "AutoScalingGroupName", Value = $"{groupName}", }; var request = new ListMetricsRequest { MetricName = "AutoScalingGroupName", Dimensions = new List<DimensionFilter> { filter }, Namespace = "AWS/AutoScaling", }; var response = await _amazonCloudWatch.ListMetricsAsync(request); return response.Metrics; } /// <summary> /// Retrieve the metric data collected for an Amazon EC2 Auto Scaling group. /// </summary> /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param> /// <returns>A list of data points.</returns> public async Task<List<Datapoint>> GetMetricStatisticsAsync(string groupName) { var metricDimensions = new List<Dimension> { new Dimension { Name = "AutoScalingGroupName", Value = $"{groupName}", }, }; // The start time will be yesterday. var startTime = DateTime.UtcNow.AddDays(-1); var request = new GetMetricStatisticsRequest { MetricName = "AutoScalingGroupName", Dimensions = metricDimensions, Namespace = "AWS/AutoScaling", Period = 60, // 60 seconds. Statistics = new List<string>() { "Minimum" }, StartTimeUtc = startTime, EndTimeUtc = DateTime.UtcNow, }; var response = await _amazonCloudWatch.GetMetricStatisticsAsync(request); return response.Datapoints; } }
C++
C++ SDK
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

//! Routine which demonstrates using an Auto Scaling group //! to manage Amazon EC2 instances. /*! \sa groupsAndInstancesScenario() \param clientConfig: AWS client configuration. \return bool: Successful completion. */ bool AwsDoc::AutoScaling::groupsAndInstancesScenario( const Aws::Client::ClientConfiguration &clientConfig) { Aws::String templateName; Aws::EC2::EC2Client ec2Client(clientConfig); std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " " << std::endl; std::cout << "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) Auto Scaling " << "demo for managing groups and instances." << std::endl; std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " \n" << std::endl; std::cout << "This example requires an EC2 launch template." << std::endl; if (askYesNoQuestion( "Would you like to use an existing EC2 launch template (y/n)? ")) { // 1. Specify the name of an existing EC2 launch template. templateName = askQuestion( "Enter the name of the existing EC2 launch template. "); Aws::EC2::Model::DescribeLaunchTemplatesRequest request; request.AddLaunchTemplateNames(templateName); Aws::EC2::Model::DescribeLaunchTemplatesOutcome outcome = ec2Client.DescribeLaunchTemplates(request); if (outcome.IsSuccess()) { std::cout << "Validated the EC2 launch template '" << templateName << "' exists by calling DescribeLaunchTemplate." << std::endl; } else { std::cerr << "Error validating the existence of the launch template. " << outcome.GetError().GetMessage() << std::endl; } } else { // 2. Or create a new EC2 launch template. templateName = askQuestion("Enter the name for a new EC2 launch template: "); Aws::EC2::Model::CreateLaunchTemplateRequest request; request.SetLaunchTemplateName(templateName); Aws::EC2::Model::RequestLaunchTemplateData requestLaunchTemplateData; requestLaunchTemplateData.SetInstanceType(EC2_LAUNCH_TEMPLATE_INSTANCE_TYPE); requestLaunchTemplateData.SetImageId(EC2_LAUNCH_TEMPLATE_IMAGE_ID); request.SetLaunchTemplateData(requestLaunchTemplateData); Aws::EC2::Model::CreateLaunchTemplateOutcome outcome = ec2Client.CreateLaunchTemplate(request); if (outcome.IsSuccess()) { std::cout << "The EC2 launch template '" << templateName << " was created." << std::endl; } else if (outcome.GetError().GetExceptionName() == "InvalidLaunchTemplateName.AlreadyExistsException") { std::cout << "The EC2 template '" << templateName << "' already exists" << std::endl; } else { std::cerr << "Error with EC2::CreateLaunchTemplate. " << outcome.GetError().GetMessage() << std::endl; } } Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig); std::cout << "Let's create an Auto Scaling group." << std::endl; Aws::String groupName = askQuestion( "Enter a name for the Auto Scaling group: "); // 3. Retrieve a list of EC2 Availability Zones. Aws::Vector<Aws::EC2::Model::AvailabilityZone> availabilityZones; { Aws::EC2::Model::DescribeAvailabilityZonesRequest request; Aws::EC2::Model::DescribeAvailabilityZonesOutcome outcome = ec2Client.DescribeAvailabilityZones(request); if (outcome.IsSuccess()) { std::cout << "EC2 instances can be created in the following Availability Zones:" << std::endl; availabilityZones = outcome.GetResult().GetAvailabilityZones(); for (size_t i = 0; i < availabilityZones.size(); ++i) { std::cout << " " << i + 1 << ". " << availabilityZones[i].GetZoneName() << std::endl; } } else { std::cerr << "Error with EC2::DescribeAvailabilityZones. " << outcome.GetError().GetMessage() << std::endl; cleanupResources("", templateName, autoScalingClient, ec2Client); return false; } } int availabilityZoneChoice = askQuestionForIntRange( "Choose an Availability Zone: ", 1, static_cast<int>(availabilityZones.size())); // 4. Create an Auto Scaling group with the specified Availability Zone. { Aws::AutoScaling::Model::CreateAutoScalingGroupRequest request; request.SetAutoScalingGroupName(groupName); Aws::Vector<Aws::String> availabilityGroupZones; availabilityGroupZones.push_back( availabilityZones[availabilityZoneChoice - 1].GetZoneName()); request.SetAvailabilityZones(availabilityGroupZones); request.SetMaxSize(1); request.SetMinSize(1); Aws::AutoScaling::Model::LaunchTemplateSpecification launchTemplateSpecification; launchTemplateSpecification.SetLaunchTemplateName(templateName); request.SetLaunchTemplate(launchTemplateSpecification); Aws::AutoScaling::Model::CreateAutoScalingGroupOutcome outcome = autoScalingClient.CreateAutoScalingGroup(request); if (outcome.IsSuccess()) { std::cout << "Created Auto Scaling group '" << groupName << "'..." << std::endl; } else if (outcome.GetError().GetErrorType() == Aws::AutoScaling::AutoScalingErrors::ALREADY_EXISTS_FAULT) { std::cout << "Auto Scaling group '" << groupName << "' already exists." << std::endl; } else { std::cerr << "Error with AutoScaling::CreateAutoScalingGroup. " << outcome.GetError().GetMessage() << std::endl; cleanupResources("", templateName, autoScalingClient, ec2Client); return false; } } Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> autoScalingGroups; if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups, autoScalingClient)) { std::cout << "Here is the Auto Scaling group description." << std::endl; if (!autoScalingGroups.empty()) { logAutoScalingGroupInfo(autoScalingGroups); } } else { cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } std::cout << "Waiting for the EC2 instance in the Auto Scaling group to become active..." << std::endl; if (!waitForInstances(groupName, autoScalingGroups, autoScalingClient)) { cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } bool enableMetrics = askYesNoQuestion( "Do you want to collect metrics about the A" "Auto Scaling group during this demo (y/n)? "); // 7. Optionally enable metrics collection for the Auto Scaling group. if (enableMetrics) { Aws::AutoScaling::Model::EnableMetricsCollectionRequest request; request.SetAutoScalingGroupName(groupName); request.AddMetrics("GroupMinSize"); request.AddMetrics("GroupMaxSize"); request.AddMetrics("GroupDesiredCapacity"); request.AddMetrics("GroupInServiceInstances"); request.AddMetrics("GroupTotalInstances"); request.SetGranularity("1Minute"); Aws::AutoScaling::Model::EnableMetricsCollectionOutcome outcome = autoScalingClient.EnableMetricsCollection(request); if (outcome.IsSuccess()) { std::cout << "Auto Scaling metrics have been enabled." << std::endl; } else { std::cerr << "Error with AutoScaling::EnableMetricsCollection. " << outcome.GetError().GetMessage() << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } std::cout << "Let's update the maximum number of EC2 instances in '" << groupName << "' from 1 to 3." << std::endl; askQuestion("Press enter to continue: ", alwaysTrueTest); // 8. Update the Auto Scaling group, setting a new maximum size. { Aws::AutoScaling::Model::UpdateAutoScalingGroupRequest request; request.SetAutoScalingGroupName(groupName); request.SetMaxSize(3); Aws::AutoScaling::Model::UpdateAutoScalingGroupOutcome outcome = autoScalingClient.UpdateAutoScalingGroup(request); if (!outcome.IsSuccess()) { std::cerr << "Error with AutoScaling::UpdateAutoScalingGroup. " << outcome.GetError().GetMessage() << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups, autoScalingClient)) { if (!autoScalingGroups.empty()) { const auto &instances = autoScalingGroups[0].GetInstances(); std::cout << "The group still has one running EC2 instance, but it can have up to 3.\n" << std::endl; logAutoScalingGroupInfo(autoScalingGroups); } else { std::cerr << "No EC2 launch groups were retrieved from DescribeGroup request." << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } std::cout << "\n" << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << "\n" << std::endl; std::cout << "Let's update the desired capacity in '" << groupName << "' from 1 to 2." << std::endl; askQuestion("Press enter to continue: ", alwaysTrueTest); // 9. Update the Auto Scaling group, setting a new desired capacity. { Aws::AutoScaling::Model::SetDesiredCapacityRequest request; request.SetAutoScalingGroupName(groupName); request.SetDesiredCapacity(2); Aws::AutoScaling::Model::SetDesiredCapacityOutcome outcome = autoScalingClient.SetDesiredCapacity(request); if (!outcome.IsSuccess()) { std::cerr << "Error with AutoScaling::SetDesiredCapacityRequest. " << outcome.GetError().GetMessage() << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups, autoScalingClient)) { if (!autoScalingGroups.empty()) { std::cout << "Here is the current state of the group." << std::endl; logAutoScalingGroupInfo(autoScalingGroups); } else { std::cerr << "No EC2 launch groups were retrieved from DescribeGroup request." << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } std::cout << "Waiting for the new EC2 instance to start..." << std::endl; waitForInstances(groupName, autoScalingGroups, autoScalingClient); std::cout << "\n" << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << "\n" << std::endl; std::cout << "Let's terminate one of the EC2 instances in " << groupName << "." << std::endl; std::cout << "Because the desired capacity is 2, another EC2 instance will start " << "to replace the terminated EC2 instance." << std::endl; std::cout << "The currently running EC2 instances are:" << std::endl; if (autoScalingGroups.empty()) { std::cerr << "Error describing groups. No groups returned." << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } int instanceNumber = 1; Aws::Vector<Aws::String> instanceIDs = instancesToInstanceIDs( autoScalingGroups[0].GetInstances()); for (const Aws::String &instanceID: instanceIDs) { std::cout << " " << instanceNumber << ". " << instanceID << std::endl; ++instanceNumber; } instanceNumber = askQuestionForIntRange("Which EC2 instance do you want to stop? ", 1, static_cast<int>(instanceIDs.size())); // 10. Terminate an EC2 instance in the Auto Scaling group. { Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupRequest request; request.SetInstanceId(instanceIDs[instanceNumber - 1]); request.SetShouldDecrementDesiredCapacity(false); Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupOutcome outcome = autoScalingClient.TerminateInstanceInAutoScalingGroup(request); if (outcome.IsSuccess()) { std::cout << "Waiting for EC2 instance with ID '" << instanceIDs[instanceNumber - 1] << "' to terminate..." << std::endl; } else { std::cerr << "Error with AutoScaling::TerminateInstanceInAutoScalingGroup. " << outcome.GetError().GetMessage() << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } waitForInstances(groupName, autoScalingGroups, autoScalingClient); std::cout << "\n" << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << "\n" << std::endl; std::cout << "Let's get a report of scaling activities for EC2 launch group '" << groupName << "'." << std::endl; askQuestion("Press enter to continue: ", alwaysTrueTest); // 11. Get a description of activities for the Auto Scaling group. { Aws::AutoScaling::Model::DescribeScalingActivitiesRequest request; request.SetAutoScalingGroupName(groupName); Aws::Vector<Aws::AutoScaling::Model::Activity> allActivities; Aws::String nextToken; // Used for pagination; do { if (!nextToken.empty()) { request.SetNextToken(nextToken); } Aws::AutoScaling::Model::DescribeScalingActivitiesOutcome outcome = autoScalingClient.DescribeScalingActivities(request); if (outcome.IsSuccess()) { const Aws::Vector<Aws::AutoScaling::Model::Activity> &activities = outcome.GetResult().GetActivities(); allActivities.insert(allActivities.end(), activities.begin(), activities.end()); nextToken = outcome.GetResult().GetNextToken(); } else { std::cerr << "Error with AutoScaling::DescribeScalingActivities. " << outcome.GetError().GetMessage() << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } while (!nextToken.empty()); std::cout << "Found " << allActivities.size() << " activities." << std::endl; std::cout << "Activities are ordered with the most recent first." << std::endl; for (const Aws::AutoScaling::Model::Activity &activity: allActivities) { std::cout << activity.GetDescription() << std::endl; std::cout << activity.GetDetails() << std::endl; } } if (enableMetrics) { if (!logAutoScalingMetrics(groupName, clientConfig)) { cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } std::cout << "Let's clean up." << std::endl; askQuestion("Press enter to continue: ", alwaysTrueTest); // 13. Disable metrics collection if enabled. if (enableMetrics) { Aws::AutoScaling::Model::DisableMetricsCollectionRequest request; request.SetAutoScalingGroupName(groupName); Aws::AutoScaling::Model::DisableMetricsCollectionOutcome outcome = autoScalingClient.DisableMetricsCollection(request); if (outcome.IsSuccess()) { std::cout << "Metrics collection has been disabled." << std::endl; } else { std::cerr << "Error with AutoScaling::DisableMetricsCollection. " << outcome.GetError().GetMessage() << std::endl; cleanupResources(groupName, templateName, autoScalingClient, ec2Client); return false; } } return cleanupResources(groupName, templateName, autoScalingClient, ec2Client); } //! Routine which waits for EC2 instances in an Auto Scaling group to //! complete startup or shutdown. /*! \sa waitForInstances() \param groupName: An Auto Scaling group name. \param autoScalingGroups: Vector to receive 'AutoScalingGroup' records. \param client: 'AutoScalingClient' instance. \return bool: Successful completion. */ bool AwsDoc::AutoScaling::waitForInstances(const Aws::String &groupName, Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> &autoScalingGroups, const Aws::AutoScaling::AutoScalingClient &client) { bool ready = false; const std::vector<Aws::String> READY_STATES = {"InService", "Terminated"}; int count = 0; int desiredCapacity = 0; std::this_thread::sleep_for(std::chrono::seconds(4)); while (!ready) { if (WAIT_FOR_INSTANCES_TIMEOUT < count) { std::cerr << "Wait for instance timed out." << std::endl; return false; } std::this_thread::sleep_for(std::chrono::seconds(1)); ++count; if (!describeGroup(groupName, autoScalingGroups, client)) { return false; } Aws::Vector<Aws::String> instanceIDs; if (!autoScalingGroups.empty()) { instanceIDs = instancesToInstanceIDs(autoScalingGroups[0].GetInstances()); desiredCapacity = autoScalingGroups[0].GetDesiredCapacity(); } if (instanceIDs.empty()) { if (desiredCapacity == 0) { break; } else { if ((count % 5) == 0) { std::cout << "No instance IDs returned for group." << std::endl; } continue; } } // 6. Check lifecycle state of the instances using DescribeAutoScalingInstances. Aws::AutoScaling::Model::DescribeAutoScalingInstancesRequest request; request.SetInstanceIds(instanceIDs); Aws::AutoScaling::Model::DescribeAutoScalingInstancesOutcome outcome = client.DescribeAutoScalingInstances(request); if (outcome.IsSuccess()) { const Aws::Vector<Aws::AutoScaling::Model::AutoScalingInstanceDetails> &instancesDetails = outcome.GetResult().GetAutoScalingInstances(); ready = instancesDetails.size() >= desiredCapacity; for (const Aws::AutoScaling::Model::AutoScalingInstanceDetails &details: instancesDetails) { if (!stringInVector(details.GetLifecycleState(), READY_STATES)) { ready = false; break; } } // Log the status while waiting. if (((count % 5) == 1) || ready) { logInstancesLifecycleState(instancesDetails); } } else { std::cerr << "Error with AutoScaling::DescribeAutoScalingInstances. " << outcome.GetError().GetMessage() << std::endl; return false; } } if (!describeGroup(groupName, autoScalingGroups, client)) { return false; } return true; } //! Routine to cleanup resources created in 'groupsAndInstancesScenario'. /*! \sa cleanupResources() \param groupName: Optional Auto Scaling group name. \param templateName: Optional EC2 launch template name. \param autoScalingClient: 'AutoScalingClient' instance. \param ec2Client: 'EC2Client' instance. \return bool: Successful completion. */ bool AwsDoc::AutoScaling::cleanupResources(const Aws::String &groupName, const Aws::String &templateName, const Aws::AutoScaling::AutoScalingClient &autoScalingClient, const Aws::EC2::EC2Client &ec2Client) { bool result = true; // 14. Delete the Auto Scaling group. if (!groupName.empty() && (askYesNoQuestion( Aws::String("Delete the Auto Scaling group '") + groupName + "' (y/n)?"))) { { Aws::AutoScaling::Model::UpdateAutoScalingGroupRequest request; request.SetAutoScalingGroupName(groupName); request.SetMinSize(0); request.SetDesiredCapacity(0); Aws::AutoScaling::Model::UpdateAutoScalingGroupOutcome outcome = autoScalingClient.UpdateAutoScalingGroup(request); if (outcome.IsSuccess()) { std::cout << "The minimum size and desired capacity of the Auto Scaling group " << "was set to zero before terminating the instances." << std::endl; } else { std::cerr << "Error with AutoScaling::UpdateAutoScalingGroup. " << outcome.GetError().GetMessage() << std::endl; result = false; } } Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> autoScalingGroups; if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups, autoScalingClient)) { if (!autoScalingGroups.empty()) { Aws::Vector<Aws::String> instanceIDs = instancesToInstanceIDs( autoScalingGroups[0].GetInstances()); for (const Aws::String &instanceID: instanceIDs) { Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupRequest request; request.SetInstanceId(instanceID); request.SetShouldDecrementDesiredCapacity(true); Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupOutcome outcome = autoScalingClient.TerminateInstanceInAutoScalingGroup( request); if (outcome.IsSuccess()) { std::cout << "Initiating termination of EC2 instance '" << instanceID << "'." << std::endl; } else { std::cerr << "Error with AutoScaling::TerminateInstanceInAutoScalingGroup. " << outcome.GetError().GetMessage() << std::endl; result = false; } } } std::cout << "Waiting for the EC2 instances to terminate before deleting the " << "Auto Scaling group..." << std::endl; waitForInstances(groupName, autoScalingGroups, autoScalingClient); } { Aws::AutoScaling::Model::DeleteAutoScalingGroupRequest request; request.SetAutoScalingGroupName(groupName); Aws::AutoScaling::Model::DeleteAutoScalingGroupOutcome outcome = autoScalingClient.DeleteAutoScalingGroup(request); if (outcome.IsSuccess()) { std::cout << "Auto Scaling group '" << groupName << "' was deleted." << std::endl; } else { std::cerr << "Error with AutoScaling::DeleteAutoScalingGroup. " << outcome.GetError().GetMessage() << std::endl; result = false; } } } // 15. Delete the EC2 launch template. if (!templateName.empty() && (askYesNoQuestion( Aws::String("Delete the EC2 launch template '") + templateName + "' (y/n)?"))) { Aws::EC2::Model::DeleteLaunchTemplateRequest request; request.SetLaunchTemplateName(templateName); Aws::EC2::Model::DeleteLaunchTemplateOutcome outcome = ec2Client.DeleteLaunchTemplate(request); if (outcome.IsSuccess()) { std::cout << "EC2 launch template '" << templateName << "' was deleted." << std::endl; } else { std::cerr << "Error with EC2::DeleteLaunchTemplate. " << outcome.GetError().GetMessage() << std::endl; result = false; } } return result; } //! Routine which retrieves Auto Scaling group descriptions. /*! \sa describeGroup() \param groupName: An Auto Scaling group name. \param autoScalingGroups: Vector to receive 'AutoScalingGroup' records. \param client: 'AutoScalingClient' instance. \return bool: Successful completion. */ bool AwsDoc::AutoScaling::describeGroup(const Aws::String &groupName, Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> &autoScalingGroup, const Aws::AutoScaling::AutoScalingClient &client) { // 5. Retrieve a description of the Auto Scaling group. Aws::AutoScaling::Model::DescribeAutoScalingGroupsRequest request; Aws::Vector<Aws::String> groupNames; groupNames.push_back(groupName); request.SetAutoScalingGroupNames(groupNames); Aws::AutoScaling::Model::DescribeAutoScalingGroupsOutcome outcome = client.DescribeAutoScalingGroups(request); if (outcome.IsSuccess()) { autoScalingGroup = outcome.GetResult().GetAutoScalingGroups(); } else { std::cerr << "Error with AutoScaling::DescribeAutoScalingGroups. " << outcome.GetError().GetMessage() << std::endl; } return outcome.IsSuccess(); }
Java
Java 2.x용 SDK
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

/** * Before running this SDK for Java (v2) code example, set up your development * environment, including your credentials. * * For more information, see the following documentation: * * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html * * In addition, create a launch template. For more information, see the * following topic: * * https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-launch-templates.html#create-launch-template * * This code example performs the following operations: * 1. Creates an Auto Scaling group using an AutoScalingWaiter. * 2. Gets a specific Auto Scaling group and returns an instance Id value. * 3. Describes Auto Scaling with the Id value. * 4. Enables metrics collection. * 5. Update an Auto Scaling group. * 6. Describes Account details. * 7. Describe account details" * 8. Updates an Auto Scaling group to use an additional instance. * 9. Gets the specific Auto Scaling group and gets the number of instances. * 10. List the scaling activities that have occurred for the group. * 11. Terminates an instance in the Auto Scaling group. * 12. Stops the metrics collection. * 13. Deletes the Auto Scaling group. */ public class AutoScalingScenario { public static final String DASHES = new String(new char[80]).replace("\0", "-"); public static void main(String[] args) throws InterruptedException { final String usage = """ Usage: <groupName> <launchTemplateName> <vpcZoneId> Where: groupName - The name of the Auto Scaling group. launchTemplateName - The name of the launch template.\s vpcZoneId - A subnet Id for a virtual private cloud (VPC) where instances in the Auto Scaling group can be created. """; if (args.length != 3) { System.out.println(usage); System.exit(1); } String groupName = args[0]; String launchTemplateName = args[1]; String vpcZoneId = args[2]; AutoScalingClient autoScalingClient = AutoScalingClient.builder() .region(Region.US_EAST_1) .build(); System.out.println(DASHES); System.out.println("Welcome to the Amazon EC2 Auto Scaling example scenario."); System.out.println(DASHES); System.out.println(DASHES); System.out.println("1. Create an Auto Scaling group named " + groupName); createAutoScalingGroup(autoScalingClient, groupName, launchTemplateName, vpcZoneId); System.out.println( "Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned"); Thread.sleep(60000); System.out.println(DASHES); System.out.println(DASHES); System.out.println("2. Get Auto Scale group Id value"); String instanceId = getSpecificAutoScalingGroups(autoScalingClient, groupName); if (instanceId.compareTo("") == 0) { System.out.println("Error - no instance Id value"); System.exit(1); } else { System.out.println("The instance Id value is " + instanceId); } System.out.println(DASHES); System.out.println(DASHES); System.out.println("3. Describe Auto Scaling with the Id value " + instanceId); describeAutoScalingInstance(autoScalingClient, instanceId); System.out.println(DASHES); System.out.println(DASHES); System.out.println("4. Enable metrics collection " + instanceId); enableMetricsCollection(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("5. Update an Auto Scaling group to update max size to 3"); updateAutoScalingGroup(autoScalingClient, groupName, launchTemplateName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("6. Describe Auto Scaling groups"); describeAutoScalingGroups(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("7. Describe account details"); describeAccountLimits(autoScalingClient); System.out.println( "Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned"); Thread.sleep(60000); System.out.println(DASHES); System.out.println(DASHES); System.out.println("8. Set desired capacity to 2"); setDesiredCapacity(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("9. Get the two instance Id values and state"); getSpecificAutoScalingGroups(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("10. List the scaling activities that have occurred for the group"); describeScalingActivities(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("11. Terminate an instance in the Auto Scaling group"); terminateInstanceInAutoScalingGroup(autoScalingClient, instanceId); System.out.println(DASHES); System.out.println(DASHES); System.out.println("12. Stop the metrics collection"); disableMetricsCollection(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("13. Delete the Auto Scaling group"); deleteAutoScalingGroup(autoScalingClient, groupName); System.out.println(DASHES); System.out.println(DASHES); System.out.println("The Scenario has successfully completed."); System.out.println(DASHES); autoScalingClient.close(); } public static void describeScalingActivities(AutoScalingClient autoScalingClient, String groupName) { try { DescribeScalingActivitiesRequest scalingActivitiesRequest = DescribeScalingActivitiesRequest.builder() .autoScalingGroupName(groupName) .maxRecords(10) .build(); DescribeScalingActivitiesResponse response = autoScalingClient .describeScalingActivities(scalingActivitiesRequest); List<Activity> activities = response.activities(); for (Activity activity : activities) { System.out.println("The activity Id is " + activity.activityId()); System.out.println("The activity details are " + activity.details()); } } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void setDesiredCapacity(AutoScalingClient autoScalingClient, String groupName) { try { SetDesiredCapacityRequest capacityRequest = SetDesiredCapacityRequest.builder() .autoScalingGroupName(groupName) .desiredCapacity(2) .build(); autoScalingClient.setDesiredCapacity(capacityRequest); System.out.println("You have set the DesiredCapacity to 2"); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void createAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName, String launchTemplateName, String vpcZoneId) { try { AutoScalingWaiter waiter = autoScalingClient.waiter(); LaunchTemplateSpecification templateSpecification = LaunchTemplateSpecification.builder() .launchTemplateName(launchTemplateName) .build(); CreateAutoScalingGroupRequest request = CreateAutoScalingGroupRequest.builder() .autoScalingGroupName(groupName) .availabilityZones("us-east-1a") .launchTemplate(templateSpecification) .maxSize(1) .minSize(1) .vpcZoneIdentifier(vpcZoneId) .build(); autoScalingClient.createAutoScalingGroup(request); DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder() .autoScalingGroupNames(groupName) .build(); WaiterResponse<DescribeAutoScalingGroupsResponse> waiterResponse = waiter .waitUntilGroupExists(groupsRequest); waiterResponse.matched().response().ifPresent(System.out::println); System.out.println("Auto Scaling Group created"); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void describeAutoScalingInstance(AutoScalingClient autoScalingClient, String id) { try { DescribeAutoScalingInstancesRequest describeAutoScalingInstancesRequest = DescribeAutoScalingInstancesRequest .builder() .instanceIds(id) .build(); DescribeAutoScalingInstancesResponse response = autoScalingClient .describeAutoScalingInstances(describeAutoScalingInstancesRequest); List<AutoScalingInstanceDetails> instances = response.autoScalingInstances(); for (AutoScalingInstanceDetails instance : instances) { System.out.println("The instance lifecycle state is: " + instance.lifecycleState()); } } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void describeAutoScalingGroups(AutoScalingClient autoScalingClient, String groupName) { try { DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder() .autoScalingGroupNames(groupName) .maxRecords(10) .build(); DescribeAutoScalingGroupsResponse response = autoScalingClient.describeAutoScalingGroups(groupsRequest); List<AutoScalingGroup> groups = response.autoScalingGroups(); for (AutoScalingGroup group : groups) { System.out.println("*** The service to use for the health checks: " + group.healthCheckType()); } } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static String getSpecificAutoScalingGroups(AutoScalingClient autoScalingClient, String groupName) { try { String instanceId = ""; DescribeAutoScalingGroupsRequest scalingGroupsRequest = DescribeAutoScalingGroupsRequest.builder() .autoScalingGroupNames(groupName) .build(); DescribeAutoScalingGroupsResponse response = autoScalingClient .describeAutoScalingGroups(scalingGroupsRequest); List<AutoScalingGroup> groups = response.autoScalingGroups(); for (AutoScalingGroup group : groups) { System.out.println("The group name is " + group.autoScalingGroupName()); System.out.println("The group ARN is " + group.autoScalingGroupARN()); List<Instance> instances = group.instances(); for (Instance instance : instances) { instanceId = instance.instanceId(); System.out.println("The instance id is " + instanceId); System.out.println("The lifecycle state is " + instance.lifecycleState()); } } return instanceId; } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } return ""; } public static void enableMetricsCollection(AutoScalingClient autoScalingClient, String groupName) { try { EnableMetricsCollectionRequest collectionRequest = EnableMetricsCollectionRequest.builder() .autoScalingGroupName(groupName) .metrics("GroupMaxSize") .granularity("1Minute") .build(); autoScalingClient.enableMetricsCollection(collectionRequest); System.out.println("The enable metrics collection operation was successful"); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void disableMetricsCollection(AutoScalingClient autoScalingClient, String groupName) { try { DisableMetricsCollectionRequest disableMetricsCollectionRequest = DisableMetricsCollectionRequest.builder() .autoScalingGroupName(groupName) .metrics("GroupMaxSize") .build(); autoScalingClient.disableMetricsCollection(disableMetricsCollectionRequest); System.out.println("The disable metrics collection operation was successful"); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void describeAccountLimits(AutoScalingClient autoScalingClient) { try { DescribeAccountLimitsResponse response = autoScalingClient.describeAccountLimits(); System.out.println("The max number of auto scaling groups is " + response.maxNumberOfAutoScalingGroups()); System.out.println("The current number of auto scaling groups is " + response.numberOfAutoScalingGroups()); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void updateAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName, String launchTemplateName) { try { AutoScalingWaiter waiter = autoScalingClient.waiter(); LaunchTemplateSpecification templateSpecification = LaunchTemplateSpecification.builder() .launchTemplateName(launchTemplateName) .build(); UpdateAutoScalingGroupRequest groupRequest = UpdateAutoScalingGroupRequest.builder() .maxSize(3) .autoScalingGroupName(groupName) .launchTemplate(templateSpecification) .build(); autoScalingClient.updateAutoScalingGroup(groupRequest); DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder() .autoScalingGroupNames(groupName) .build(); WaiterResponse<DescribeAutoScalingGroupsResponse> waiterResponse = waiter .waitUntilGroupInService(groupsRequest); waiterResponse.matched().response().ifPresent(System.out::println); System.out.println("You successfully updated the auto scaling group " + groupName); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void terminateInstanceInAutoScalingGroup(AutoScalingClient autoScalingClient, String instanceId) { try { TerminateInstanceInAutoScalingGroupRequest request = TerminateInstanceInAutoScalingGroupRequest.builder() .instanceId(instanceId) .shouldDecrementDesiredCapacity(false) .build(); autoScalingClient.terminateInstanceInAutoScalingGroup(request); System.out.println("You have terminated instance " + instanceId); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } public static void deleteAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName) { try { DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder() .autoScalingGroupName(groupName) .forceDelete(true) .build(); autoScalingClient.deleteAutoScalingGroup(deleteAutoScalingGroupRequest); System.out.println("You successfully deleted " + groupName); } catch (AutoScalingException e) { System.err.println(e.awsErrorDetails().errorMessage()); System.exit(1); } } }
Kotlin
Kotlin용 SDK
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

suspend fun main(args: Array<String>) { val usage = """ Usage: <groupName> <launchTemplateName> <serviceLinkedRoleARN> <vpcZoneId> Where: groupName - The name of the Auto Scaling group. launchTemplateName - The name of the launch template. serviceLinkedRoleARN - The Amazon Resource Name (ARN) of the service-linked role that the Auto Scaling group uses. vpcZoneId - A subnet Id for a virtual private cloud (VPC) where instances in the Auto Scaling group can be created. """ if (args.size != 4) { println(usage) exitProcess(1) } val groupName = args[0] val launchTemplateName = args[1] val serviceLinkedRoleARN = args[2] val vpcZoneId = args[3] println("**** Create an Auto Scaling group named $groupName") createAutoScalingGroup(groupName, launchTemplateName, serviceLinkedRoleARN, vpcZoneId) println("Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned") delay(60000) val instanceId = getSpecificAutoScaling(groupName) if (instanceId.compareTo("") == 0) { println("Error - no instance Id value") exitProcess(1) } else { println("The instance Id value is $instanceId") } println("**** Describe Auto Scaling with the Id value $instanceId") describeAutoScalingInstance(instanceId) println("**** Enable metrics collection $instanceId") enableMetricsCollection(groupName) println("**** Update an Auto Scaling group to maximum size of 3") updateAutoScalingGroup(groupName, launchTemplateName, serviceLinkedRoleARN) println("**** Describe all Auto Scaling groups to show the current state of the groups") describeAutoScalingGroups(groupName) println("**** Describe account details") describeAccountLimits() println("Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned") delay(60000) println("**** Set desired capacity to 2") setDesiredCapacity(groupName) println("**** Get the two instance Id values and state") getAutoScalingGroups(groupName) println("**** List the scaling activities that have occurred for the group") describeScalingActivities(groupName) println("**** Terminate an instance in the Auto Scaling group") terminateInstanceInAutoScalingGroup(instanceId) println("**** Stop the metrics collection") disableMetricsCollection(groupName) println("**** Delete the Auto Scaling group") deleteSpecificAutoScalingGroup(groupName) } suspend fun describeAutoScalingGroups(groupName: String) { val groupsReques = DescribeAutoScalingGroupsRequest { autoScalingGroupNames = listOf(groupName) maxRecords = 10 } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> val response = autoScalingClient.describeAutoScalingGroups(groupsReques) response.autoScalingGroups?.forEach { group -> println("The service to use for the health checks: ${group.healthCheckType}") } } } suspend fun disableMetricsCollection(groupName: String) { val disableMetricsCollectionRequest = DisableMetricsCollectionRequest { autoScalingGroupName = groupName metrics = listOf("GroupMaxSize") } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.disableMetricsCollection(disableMetricsCollectionRequest) println("The disable metrics collection operation was successful") } } suspend fun describeScalingActivities(groupName: String?) { val scalingActivitiesRequest = DescribeScalingActivitiesRequest { autoScalingGroupName = groupName maxRecords = 10 } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> val response = autoScalingClient.describeScalingActivities(scalingActivitiesRequest) response.activities?.forEach { activity -> println("The activity Id is ${activity.activityId}") println("The activity details are ${activity.details}") } } } suspend fun getAutoScalingGroups(groupName: String) { val scalingGroupsRequest = DescribeAutoScalingGroupsRequest { autoScalingGroupNames = listOf(groupName) } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> val response = autoScalingClient.describeAutoScalingGroups(scalingGroupsRequest) response.autoScalingGroups?.forEach { group -> println("The group name is ${group.autoScalingGroupName}") println("The group ARN is ${group.autoScalingGroupArn}") group.instances?.forEach { instance -> println("The instance id is ${instance.instanceId}") println("The lifecycle state is " + instance.lifecycleState) } } } } suspend fun setDesiredCapacity(groupName: String) { val capacityRequest = SetDesiredCapacityRequest { autoScalingGroupName = groupName desiredCapacity = 2 } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.setDesiredCapacity(capacityRequest) println("You set the DesiredCapacity to 2") } } suspend fun updateAutoScalingGroup( groupName: String, launchTemplateNameVal: String, serviceLinkedRoleARNVal: String, ) { val templateSpecification = LaunchTemplateSpecification { launchTemplateName = launchTemplateNameVal } val groupRequest = UpdateAutoScalingGroupRequest { maxSize = 3 serviceLinkedRoleArn = serviceLinkedRoleARNVal autoScalingGroupName = groupName launchTemplate = templateSpecification } val groupsRequestWaiter = DescribeAutoScalingGroupsRequest { autoScalingGroupNames = listOf(groupName) } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.updateAutoScalingGroup(groupRequest) autoScalingClient.waitUntilGroupExists(groupsRequestWaiter) println("You successfully updated the Auto Scaling group $groupName") } } suspend fun createAutoScalingGroup( groupName: String, launchTemplateNameVal: String, serviceLinkedRoleARNVal: String, vpcZoneIdVal: String, ) { val templateSpecification = LaunchTemplateSpecification { launchTemplateName = launchTemplateNameVal } val request = CreateAutoScalingGroupRequest { autoScalingGroupName = groupName availabilityZones = listOf("us-east-1a") launchTemplate = templateSpecification maxSize = 1 minSize = 1 vpcZoneIdentifier = vpcZoneIdVal serviceLinkedRoleArn = serviceLinkedRoleARNVal } // This object is required for the waiter call. val groupsRequestWaiter = DescribeAutoScalingGroupsRequest { autoScalingGroupNames = listOf(groupName) } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.createAutoScalingGroup(request) autoScalingClient.waitUntilGroupExists(groupsRequestWaiter) println("$groupName was created!") } } suspend fun describeAutoScalingInstance(id: String) { val describeAutoScalingInstancesRequest = DescribeAutoScalingInstancesRequest { instanceIds = listOf(id) } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> val response = autoScalingClient.describeAutoScalingInstances(describeAutoScalingInstancesRequest) response.autoScalingInstances?.forEach { group -> println("The instance lifecycle state is: ${group.lifecycleState}") } } } suspend fun enableMetricsCollection(groupName: String?) { val collectionRequest = EnableMetricsCollectionRequest { autoScalingGroupName = groupName metrics = listOf("GroupMaxSize") granularity = "1Minute" } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.enableMetricsCollection(collectionRequest) println("The enable metrics collection operation was successful") } } suspend fun getSpecificAutoScaling(groupName: String): String { var instanceId = "" val scalingGroupsRequest = DescribeAutoScalingGroupsRequest { autoScalingGroupNames = listOf(groupName) } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> val response = autoScalingClient.describeAutoScalingGroups(scalingGroupsRequest) response.autoScalingGroups?.forEach { group -> println("The group name is ${group.autoScalingGroupName}") println("The group ARN is ${group.autoScalingGroupArn}") group.instances?.forEach { instance -> instanceId = instance.instanceId.toString() } } } return instanceId } suspend fun describeAccountLimits() { AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> val response = autoScalingClient.describeAccountLimits(DescribeAccountLimitsRequest {}) println("The max number of Auto Scaling groups is ${response.maxNumberOfAutoScalingGroups}") println("The current number of Auto Scaling groups is ${response.numberOfAutoScalingGroups}") } } suspend fun terminateInstanceInAutoScalingGroup(instanceIdVal: String) { val request = TerminateInstanceInAutoScalingGroupRequest { instanceId = instanceIdVal shouldDecrementDesiredCapacity = false } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.terminateInstanceInAutoScalingGroup(request) println("You have terminated instance $instanceIdVal") } } suspend fun deleteSpecificAutoScalingGroup(groupName: String) { val deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest { autoScalingGroupName = groupName forceDelete = true } AutoScalingClient { region = "us-east-1" }.use { autoScalingClient -> autoScalingClient.deleteAutoScalingGroup(deleteAutoScalingGroupRequest) println("You successfully deleted $groupName") } }
PHP
PHP용 SDK
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

namespace AutoScaling; use Aws\AutoScaling\AutoScalingClient; use Aws\CloudWatch\CloudWatchClient; use Aws\Ec2\Ec2Client; use AwsUtilities\AWSServiceClass; use AwsUtilities\RunnableExample; class GettingStartedWithAutoScaling implements RunnableExample { protected Ec2Client $ec2Client; protected AutoScalingClient $autoScalingClient; protected AutoScalingService $autoScalingService; protected CloudWatchClient $cloudWatchClient; protected string $templateName; protected string $autoScalingGroupName; protected array $role; public function runExample() { echo("\n"); echo("--------------------------------------\n"); print("Welcome to the Amazon EC2 Auto Scaling getting started demo using PHP!\n"); echo("--------------------------------------\n"); $clientArgs = [ 'region' => 'us-west-2', 'version' => 'latest', 'profile' => 'default', ]; $uniqid = uniqid(); $this->autoScalingClient = new AutoScalingClient($clientArgs); $this->autoScalingService = new AutoScalingService($this->autoScalingClient); $this->cloudWatchClient = new CloudWatchClient($clientArgs); AWSServiceClass::$waitTime = 5; AWSServiceClass::$maxWaitAttempts = 20; /** * Step 0: Create an EC2 launch template that you'll use to create an Auto Scaling group. */ $this->ec2Client = new EC2Client($clientArgs); $this->templateName = "example_launch_template_$uniqid"; $instanceType = "t1.micro"; $amiId = "ami-0ca285d4c2cda3300"; $launchTemplate = $this->ec2Client->createLaunchTemplate( [ 'LaunchTemplateName' => $this->templateName, 'LaunchTemplateData' => [ 'InstanceType' => $instanceType, 'ImageId' => $amiId, ] ] ); /** * Step 1: CreateAutoScalingGroup: pass it the launch template you created in step 0. */ $availabilityZones[] = $this->ec2Client->describeAvailabilityZones([])['AvailabilityZones'][1]['ZoneName']; $this->autoScalingGroupName = "demoAutoScalingGroupName_$uniqid"; $minSize = 1; $maxSize = 1; $launchTemplateId = $launchTemplate['LaunchTemplate']['LaunchTemplateId']; $this->autoScalingService->createAutoScalingGroup( $this->autoScalingGroupName, $availabilityZones, $minSize, $maxSize, $launchTemplateId ); $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]); $autoScalingGroup = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]); /** * Step 2: DescribeAutoScalingInstances: show that one instance has launched. */ $instanceIds = [$autoScalingGroup['AutoScalingGroups'][0]['Instances'][0]['InstanceId']]; $instances = $this->autoScalingService->describeAutoScalingInstances($instanceIds); echo "The Auto Scaling group {$this->autoScalingGroupName} was created successfully.\n"; echo count($instances['AutoScalingInstances']) . " instances were created for the group.\n"; echo $autoScalingGroup['AutoScalingGroups'][0]['MaxSize'] . " is the max number of instances for the group.\n"; /** * Step 3: EnableMetricsCollection: enable all metrics or a subset. */ $this->autoScalingService->enableMetricsCollection($this->autoScalingGroupName, "1Minute"); /** * Step 4: UpdateAutoScalingGroup: update max size to 3. */ echo "Updating the max number of instances to 3.\n"; $this->autoScalingService->updateAutoScalingGroup($this->autoScalingGroupName, ['MaxSize' => 3]); /** * Step 5: DescribeAutoScalingGroups: show the current state of the group. */ $autoScalingGroup = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]); echo $autoScalingGroup['AutoScalingGroups'][0]['MaxSize']; echo " is the updated max number of instances for the group.\n"; $limits = $this->autoScalingService->describeAccountLimits(); echo "Here are your account limits:\n"; echo "MaxNumberOfAutoScalingGroups: {$limits['MaxNumberOfAutoScalingGroups']}\n"; echo "MaxNumberOfLaunchConfigurations: {$limits['MaxNumberOfLaunchConfigurations']}\n"; echo "NumberOfAutoScalingGroups: {$limits['NumberOfAutoScalingGroups']}\n"; echo "NumberOfLaunchConfigurations: {$limits['NumberOfLaunchConfigurations']}\n"; /** * Step 6: SetDesiredCapacity: set desired capacity to 2. */ $this->autoScalingService->setDesiredCapacity($this->autoScalingGroupName, 2); sleep(10); // Wait for the group to start processing the request. $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]); /** * Step 7: DescribeAutoScalingInstances: show that two instances are launched. */ $autoScalingGroups = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]); foreach ($autoScalingGroups['AutoScalingGroups'] as $autoScalingGroup) { echo "There is a group named: {$autoScalingGroup['AutoScalingGroupName']}"; echo "with an ARN of {$autoScalingGroup['AutoScalingGroupARN']}.\n"; foreach ($autoScalingGroup['Instances'] as $instance) { echo "{$autoScalingGroup['AutoScalingGroupName']} has an instance with id of: "; echo "{$instance['InstanceId']} and a lifecycle state of: {$instance['LifecycleState']}.\n"; } } /** * Step 8: TerminateInstanceInAutoScalingGroup: terminate one of the instances in the group. */ $this->autoScalingService->terminateInstanceInAutoScalingGroup($instance['InstanceId'], false); do { sleep(10); $instances = $this->autoScalingService->describeAutoScalingInstances([$instance['InstanceId']]); } while (count($instances['AutoScalingInstances']) > 0); do { sleep(10); $autoScalingGroups = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]); $instances = $autoScalingGroups['AutoScalingGroups'][0]['Instances']; } while (count($instances) < 2); $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]); foreach ($autoScalingGroups['AutoScalingGroups'] as $autoScalingGroup) { echo "There is a group named: {$autoScalingGroup['AutoScalingGroupName']}"; echo "with an ARN of {$autoScalingGroup['AutoScalingGroupARN']}.\n"; foreach ($autoScalingGroup['Instances'] as $instance) { echo "{$autoScalingGroup['AutoScalingGroupName']} has an instance with id of: "; echo "{$instance['InstanceId']} and a lifecycle state of: {$instance['LifecycleState']}.\n"; } } /** * Step 9: DescribeScalingActivities: list the scaling activities that have occurred for the group so far. */ $activities = $this->autoScalingService->describeScalingActivities($autoScalingGroup['AutoScalingGroupName']); echo "We found " . count($activities['Activities']) . " activities.\n"; foreach ($activities['Activities'] as $activity) { echo "{$activity['ActivityId']} - {$activity['StartTime']} - {$activity['Description']}\n"; } /** * Step 10: Use the Amazon CloudWatch API to get and show some metrics collected for the group. */ $metricsNamespace = 'AWS/AutoScaling'; $metricsDimensions = [ [ 'Name' => 'AutoScalingGroupName', 'Value' => $autoScalingGroup['AutoScalingGroupName'], ], ]; $metrics = $this->cloudWatchClient->listMetrics( [ 'Dimensions' => $metricsDimensions, 'Namespace' => $metricsNamespace, ] ); foreach ($metrics['Metrics'] as $metric) { $timespan = 5; if ($metric['MetricName'] != 'GroupTotalCapacity' && $metric['MetricName'] != 'GroupMaxSize') { continue; } echo "Over the last $timespan minutes, {$metric['MetricName']} recorded:\n"; $stats = $this->cloudWatchClient->getMetricStatistics( [ 'Dimensions' => $metricsDimensions, 'EndTime' => time(), 'StartTime' => time() - (5 * 60), 'MetricName' => $metric['MetricName'], 'Namespace' => $metricsNamespace, 'Period' => 60, 'Statistics' => ['Sum'], ] ); foreach ($stats['Datapoints'] as $stat) { echo "{$stat['Timestamp']}: {$stat['Sum']}\n"; } } return $instances; } public function cleanUp() { /** * Step 11: DisableMetricsCollection: disable all metrics. */ $this->autoScalingService->disableMetricsCollection($this->autoScalingGroupName); /** * Step 12: DeleteAutoScalingGroup: to delete the group you must stop all instances. * - UpdateAutoScalingGroup with MinSize=0 * - TerminateInstanceInAutoScalingGroup for each instance, * specify ShouldDecrementDesiredCapacity=True. Wait for instances to stop. * - Now you can delete the group. */ $this->autoScalingService->updateAutoScalingGroup($this->autoScalingGroupName, ['MinSize' => 0]); $this->autoScalingService->terminateAllInstancesInAutoScalingGroup($this->autoScalingGroupName); $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]); $this->autoScalingService->deleteAutoScalingGroup($this->autoScalingGroupName); /** * Step 13: Delete launch template. */ $this->ec2Client->deleteLaunchTemplate( [ 'LaunchTemplateName' => $this->templateName, ] ); } public function helloService() { $autoScalingClient = new AutoScalingClient([ 'region' => 'us-west-2', 'version' => 'latest', 'profile' => 'default', ]); $groups = $autoScalingClient->describeAutoScalingGroups([]); var_dump($groups); } }
Python
Python용 SDK(Boto3)
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

명령 프롬프트에서 대화형 시나리오를 실행합니다.

def run_scenario(as_wrapper: AutoScalingWrapper, svc_helper: ServiceHelper) -> None: """ Runs the scenario demonstrating the management of Auto Scaling groups and instances. :param as_wrapper: An instance of the AutoScalingWrapper that manages Auto Scaling groups. :param svc_helper: An instance of the ServiceHelper that interacts with AWS services. :return: None """ logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s") logger.info("Starting the Amazon EC2 Auto Scaling demo.") print("-" * 88) print( "Welcome to the Amazon EC2 Auto Scaling demo for managing groups and instances." ) print("-" * 88) print( "This example requires a launch template that specifies how to create " "EC2 instances. You can use an existing template or create a new one." ) template_name = q.ask( "Enter the name of an existing launch template or press Enter to create a new one: " ) template = None if template_name: template = svc_helper.get_template(template_name) if template is None: inst_type = "t1.micro" ami_id = "ami-0ca285d4c2cda3300" print("Let's create a launch template with the following specifications:") print(f"\tInstanceType: {inst_type}") print(f"\tAMI ID: {ami_id}") template_name = q.ask("Enter a name for the template: ", q.non_empty) template = svc_helper.create_template(template_name, inst_type, ami_id) print("-" * 88) print("Let's create an Auto Scaling group.") group_name = q.ask("Enter a name for the group: ", q.non_empty) zones = svc_helper.get_availability_zones() print("EC2 instances can be created in the following Availability Zones:") for index, zone in enumerate(zones): print(f"\t{index+1}. {zone}") print(f"\t{len(zones)+1}. All zones") zone_sel = q.ask( "Which zone do you want to use? ", q.is_int, q.in_range(1, len(zones) + 1) ) group_zones = [zones[zone_sel - 1]] if zone_sel <= len(zones) else zones print(f"Creating group {group_name}...") as_wrapper.create_autoscaling_group(group_name, group_zones, template_name, 1, 1) wait(10) group = as_wrapper.describe_group(group_name) logger.info("Created Auto Scaling group %s.", group_name) print("Created group:") pp(group) print("Waiting for instance to start...") wait_for_group(group_name, as_wrapper) print("-" * 88) use_metrics = q.ask( "Do you want to collect metrics about Amazon EC2 Auto Scaling during this demo (y/n)? ", q.is_yesno, ) if use_metrics: as_wrapper.enable_metrics( group_name, [ "GroupMinSize", "GroupMaxSize", "GroupDesiredCapacity", "GroupInServiceInstances", "GroupTotalInstances", ], ) logger.info("Enabled metrics for Auto Scaling group %s.", group_name) print(f"Metrics enabled for {group_name}.") print("-" * 88) print(f"Let's update the maximum number of instances in {group_name} from 1 to 3.") q.ask("Press Enter when you're ready.") as_wrapper.update_group(group_name, MaxSize=3) group = as_wrapper.describe_group(group_name) logger.info("Updated maximum size for group %s to 3.", group_name) print("The group still has one running instance, but can have up to three:") print_simplified_group(group) print("-" * 88) print(f"Let's update the desired capacity of {group_name} from 1 to 2.") q.ask("Press Enter when you're ready.") as_wrapper.set_desired_capacity(group_name, 2) wait(10) group = as_wrapper.describe_group(group_name) logger.info("Set desired capacity for group %s to 2.", group_name) print("Here's the current state of the group:") print_simplified_group(group) print("-" * 88) print("Waiting for the new instance to start...") instance_ids = wait_for_group(group_name, as_wrapper) print("-" * 88) print(f"Let's terminate one of the instances in {group_name}.") print("Because the desired capacity is 2, another instance will start.") print("The currently running instances are:") for index, inst_id in enumerate(instance_ids): print(f"\t{index+1}. {inst_id}") inst_sel = q.ask( "Which instance do you want to stop? ", q.is_int, q.in_range(1, len(instance_ids) + 1), ) print(f"Stopping {instance_ids[inst_sel-1]}...") as_wrapper.terminate_instance(instance_ids[inst_sel - 1], False) wait(10) group = as_wrapper.describe_group(group_name) logger.info( "Terminated instance %s in group %s.", instance_ids[inst_sel - 1], group_name ) print(f"Here's the state of {group_name}:") print_simplified_group(group) print("Waiting for the scaling activities to complete...") wait_for_group(group_name, as_wrapper) print("-" * 88) print(f"Let's get a report of scaling activities for {group_name}.") q.ask("Press Enter when you're ready.") activities = as_wrapper.describe_scaling_activities(group_name) logger.info( "Retrieved %d scaling activities for group %s.", len(activities), group_name ) print( f"Found {len(activities)} activities.\n" f"Activities are ordered with the most recent one first:" ) for act in activities: pp(act) print("-" * 88) if use_metrics: print("Let's look at CloudWatch metrics.") metric_namespace = "AWS/AutoScaling" metric_dimensions = [{"Name": "AutoScalingGroupName", "Value": group_name}] print(f"The following metrics are enabled for {group_name}:") done = False while not done: metrics = svc_helper.get_metrics(metric_namespace, metric_dimensions) for index, metric in enumerate(metrics): print(f"\t{index+1}. {metric.name}") print(f"\t{len(metrics)+1}. None") metric_sel = q.ask( "Which metric do you want to see? ", q.is_int, q.in_range(1, len(metrics) + 1), ) if metric_sel < len(metrics) + 1: span = 5 metric = metrics[metric_sel - 1] print(f"Over the last {span} minutes, {metric.name} recorded:") # CloudWatch metric times are in the UTC+0 time zone. now = datetime.now(timezone.utc) metric_data = svc_helper.get_metric_statistics( metric_dimensions, metric, now - timedelta(minutes=span), now ) pp(metric_data) if not q.ask("Do you want to see another metric (y/n)? ", q.is_yesno): done = True else: done = True print(f"Let's clean up.") q.ask("Press Enter when you're ready.") if use_metrics: print(f"Stopping metrics collection for {group_name}.") as_wrapper.disable_metrics(group_name) logger.info("Disabled metrics collection for group %s.", group_name) print( "You must terminate all instances in the group before you can delete the group." ) print("Set minimum size to 0.") as_wrapper.update_group(group_name, MinSize=0) group = as_wrapper.describe_group(group_name) instance_ids = [inst["InstanceId"] for inst in group["Instances"]] for inst_id in instance_ids: print(f"Stopping {inst_id}.") as_wrapper.terminate_instance(inst_id, True) logger.info("Terminated instance %s in group %s.", inst_id, group_name) print("Waiting for instances to stop...") wait_for_instances(instance_ids, as_wrapper) print(f"Deleting {group_name}.") as_wrapper.delete_autoscaling_group(group_name) logger.info("Deleted Auto Scaling group %s.", group_name) print("-" * 88) if template is not None: if q.ask( f"Do you want to delete launch template {template_name} used in this demo (y/n)? " ): svc_helper.delete_template(template_name) logger.info("Deleted launch template %s.", template_name) print("Template deleted.") print("\nThanks for watching!") print("-" * 88) if __name__ == "__main__": try: wrapper = AutoScalingWrapper(boto3.client("autoscaling")) helper = ServiceHelper(boto3.client("ec2"), boto3.resource("cloudwatch")) run_scenario(wrapper, helper) except Exception: logger.exception("Something went wrong with the demo!")

시작 템플릿과 지표를 관리하기 위해 시나리오가 호출하는 함수를 정의합니다. 이러한 함수는 Amazon EC2 and CloudWatch 작업을 래핑합니다.

class ServiceHelper: """Encapsulates Amazon EC2 and CloudWatch actions for the example.""" def __init__(self, ec2_client, cloudwatch_resource): """ :param ec2_client: A Boto3 Amazon EC2 client. :param cloudwatch_resource: A Boto3 CloudWatch resource. """ self.ec2_client = ec2_client self.cloudwatch_resource = cloudwatch_resource def get_template(self, template_name: str) -> dict: """ Gets a launch template. Launch templates specify configuration for instances that are launched by Amazon EC2 Auto Scaling. :param template_name: The name of the template to look up. :return: The template, if it exists. :raises ClientError: If there is an error retrieving the launch template. """ try: response = self.ec2_client.describe_launch_templates( LaunchTemplateNames=[template_name] ) template = response["LaunchTemplates"][0] logger.info("Launch template %s retrieved successfully.", template_name) return template except ClientError as err: if ( err.response["Error"]["Code"] == "InvalidLaunchTemplateName.NotFoundException" ): logger.warning("Launch template %s does not exist.", template_name) else: logger.error( "Couldn't verify launch template %s. Error: %s: %s", template_name, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def create_template(self, template_name: str, inst_type: str, ami_id: str) -> dict: """ Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. :param template_name: The name to give to the template. :param inst_type: The type of the instance, such as t1.micro. :param ami_id: The ID of the Amazon Machine Image (AMI) to use when creating an instance. :return: Information about the newly created template. :raises ClientError: If there is an error creating the launch template. """ try: response = self.ec2_client.create_launch_template( LaunchTemplateName=template_name, LaunchTemplateData={"InstanceType": inst_type, "ImageId": ami_id}, ) template = response["LaunchTemplate"] logger.info( "Created launch template %s with instance type %s and AMI ID %s.", template_name, inst_type, ami_id, ) return template except ClientError as err: logger.error( "Couldn't create launch template %s. Error: %s: %s", template_name, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def delete_template(self, template_name: str) -> None: """ Deletes a launch template. :param template_name: The name of the template to delete. :raises ClientError: If there is an error deleting the launch template. """ try: self.ec2_client.delete_launch_template(LaunchTemplateName=template_name) logger.info("Deleted launch template %s.", template_name) except ClientError as err: logger.error( "Couldn't delete launch template %s. Error: %s: %s", template_name, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def get_availability_zones(self) -> list: """ Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client. :return: The list of Availability Zones for the client Region. :raises ClientError: If there is an error retrieving availability zones. """ try: response = self.ec2_client.describe_availability_zones() zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]] logger.info("Retrieved availability zones: %s.", ", ".join(zones)) return zones except ClientError as err: logger.error( "Couldn't get availability zones. Error: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def get_metrics(self, namespace: str, dimensions: list) -> list: """ Gets a list of CloudWatch metrics filtered by namespace and dimensions. :param namespace: The namespace of the metrics to look up. :param dimensions: The dimensions of the metrics to look up. :return: The list of metrics. :raises ClientError: If there is an error retrieving CloudWatch metrics. """ try: metrics = list( self.cloudwatch_resource.metrics.filter( Namespace=namespace, Dimensions=dimensions ) ) logger.info( "Retrieved metrics for namespace %s with dimensions %s.", namespace, dimensions, ) return metrics except ClientError as err: logger.error( "Couldn't get metrics for %s, %s. Error: %s: %s", namespace, dimensions, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise @staticmethod def get_metric_statistics( dimensions: list, metric, start: datetime, end: datetime ) -> list: """ Gets statistics for a CloudWatch metric within a specified time span. :param dimensions: The dimensions of the metric. :param metric: The metric to look up. :param start: The start of the time span for retrieved metrics. :param end: The end of the time span for retrieved metrics. :return: The list of data points found for the specified metric. :raises ClientError: If there is an error retrieving metric statistics. """ try: response = metric.get_statistics( Dimensions=dimensions, StartTime=start, EndTime=end, Period=60, Statistics=["Sum"], ) data = response["Datapoints"] logger.info("Retrieved statistics for metric %s.", metric.name) return data except ClientError as err: logger.error( "Couldn't get statistics for metric %s. Error: %s: %s", metric.name, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def print_simplified_group(group: dict) -> None: """ Prints a subset of data for an Auto Scaling group. :param group: The Auto Scaling group data to print. :return: None """ print(group["AutoScalingGroupName"]) print(f"\tLaunch template: {group['LaunchTemplate']['LaunchTemplateName']}") print( f"\tMin: {group['MinSize']}, Max: {group['MaxSize']}, Desired: {group['DesiredCapacity']}" ) if group["Instances"]: print(f"\tInstances:") for inst in group["Instances"]: print(f"\t\t{inst['InstanceId']}: {inst['LifecycleState']}") def wait_for_group(group_name: str, as_wrapper: AutoScalingWrapper) -> list: """ Waits for instances to start or stop in an Auto Scaling group. Prints the data for each instance after scaling activities are complete. :param group_name: The name of the Auto Scaling group. :param as_wrapper: The AutoScalingWrapper that manages Auto Scaling groups. :return: A list of instance IDs in the group. """ group = as_wrapper.describe_group(group_name) instance_ids = [i["InstanceId"] for i in group["Instances"]] return wait_for_instances(instance_ids, as_wrapper) def wait_for_instances(instance_ids: list, as_wrapper: AutoScalingWrapper) -> list: """ Waits for instances to start or stop in an Auto Scaling group. Prints the data for each instance after scaling activities are complete. :param instance_ids: A list of instance IDs to wait for. :param as_wrapper: The AutoScalingWrapper that manages Auto Scaling groups. :return: A list of instance IDs that were waited on. """ ready = False instances = [] while not ready: instances = as_wrapper.describe_instances(instance_ids) if instance_ids else [] if all([x["LifecycleState"] in ["Terminated", "InService"] for x in instances]): ready = True else: wait(10) if instances: print( f"Here are the details of the instance{'s' if len(instances) > 1 else ''}:" ) for instance in instances: pp(instance) return instance_ids
Rust
Rust용 SDK
참고

더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요.

[package] name = "autoscaling-code-examples" version = "0.1.0" authors = ["Doug Schwartz <dougsch@amazon.com>", "David Souther <dpsouth@amazon.com>"] edition = "2021" # See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html [dependencies] aws-config = { version = "1.0.1", features = ["behavior-version-latest"] } aws-sdk-autoscaling = { version = "1.3.0" } aws-sdk-ec2 = { version = "1.3.0" } aws-types = { version = "1.0.1" } tokio = { version = "1.20.1", features = ["full"] } clap = { version = "4.4", features = ["derive"] } tracing-subscriber = { version = "0.3.15", features = ["env-filter"] } anyhow = "1.0.75" tracing = "0.1.37" tokio-stream = "0.1.14" use std::{collections::BTreeSet, fmt::Display}; use anyhow::anyhow; use autoscaling_code_examples::scenario::{AutoScalingScenario, ScenarioError}; use tracing::{info, warn}; async fn show_scenario_description(scenario: &AutoScalingScenario, event: &str) { let description = scenario.describe_scenario().await; info!("DescribeAutoScalingInstances: {event}\n{description}"); } #[derive(Default, Debug)] struct Warnings(Vec<String>); impl Warnings { pub fn push(&mut self, warning: &str, error: ScenarioError) { let formatted = format!("{warning}: {error}"); warn!("{formatted}"); self.0.push(formatted); } pub fn is_empty(&self) -> bool { self.0.is_empty() } } impl Display for Warnings { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { writeln!(f, "Warnings:")?; for warning in &self.0 { writeln!(f, "{: >4}- {warning}", "")?; } Ok(()) } } #[tokio::main] async fn main() -> Result<(), anyhow::Error> { tracing_subscriber::fmt::init(); let shared_config = aws_config::from_env().load().await; let mut warnings = Warnings::default(); // 1. Create an EC2 launch template that you'll use to create an auto scaling group. Bonus: use SDK with EC2.CreateLaunchTemplate to create the launch template. // 2. CreateAutoScalingGroup: pass it the launch template you created in step 0. Give it min/max of 1 instance. // 4. EnableMetricsCollection: enable all metrics or a subset. let scenario = match AutoScalingScenario::prepare_scenario(&shared_config).await { Ok(scenario) => scenario, Err(errs) => { let err_str = errs .into_iter() .map(|e| e.to_string()) .collect::<Vec<String>>() .join(", "); return Err(anyhow!("Failed to initialize scenario: {err_str}")); } }; info!("Prepared autoscaling scenario:\n{scenario}"); let stable = scenario.wait_for_stable(1).await; if let Err(err) = stable { warnings.push( "There was a problem while waiting for group to be stable", err, ); } // 3. DescribeAutoScalingInstances: show that one instance has launched. show_scenario_description( &scenario, "show that the group was created and one instance has launched", ) .await; // 5. UpdateAutoScalingGroup: update max size to 3. let scale_max_size = scenario.scale_max_size(3).await; if let Err(err) = scale_max_size { warnings.push("There was a problem scaling max size", err); } // 6. DescribeAutoScalingGroups: the current state of the group show_scenario_description( &scenario, "show the current state of the group after setting max size", ) .await; // 7. SetDesiredCapacity: set desired capacity to 2. let scale_desired_capacity = scenario.scale_desired_capacity(2).await; if let Err(err) = scale_desired_capacity { warnings.push("There was a problem setting desired capacity", err); } // Wait for a second instance to launch. let stable = scenario.wait_for_stable(2).await; if let Err(err) = stable { warnings.push( "There was a problem while waiting for group to be stable", err, ); } // 8. DescribeAutoScalingInstances: show that two instances are launched. show_scenario_description( &scenario, "show that two instances are launched after setting desired capacity", ) .await; let ids_before = scenario .list_instances() .await .map(|v| v.into_iter().collect::<BTreeSet<_>>()) .unwrap_or_default(); // 9. TerminateInstanceInAutoScalingGroup: terminate one of the instances in the group. let terminate_some_instance = scenario.terminate_some_instance().await; if let Err(err) = terminate_some_instance { warnings.push("There was a problem replacing an instance", err); } let wait_after_terminate = scenario.wait_for_stable(1).await; if let Err(err) = wait_after_terminate { warnings.push( "There was a problem waiting after terminating an instance", err, ); } let wait_scale_up_after_terminate = scenario.wait_for_stable(2).await; if let Err(err) = wait_scale_up_after_terminate { warnings.push( "There was a problem waiting for scale up after terminating an instance", err, ); } let ids_after = scenario .list_instances() .await .map(|v| v.into_iter().collect::<BTreeSet<_>>()) .unwrap_or_default(); let difference = ids_after.intersection(&ids_before).count(); if !(difference == 1 && ids_before.len() == 2 && ids_after.len() == 2) { warnings.push( "Before and after set not different", ScenarioError::with(format!("{difference}")), ); } // 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far. show_scenario_description( &scenario, "list the scaling activities that have occurred for the group so far", ) .await; // 11. DisableMetricsCollection let scale_group = scenario.scale_group_to_zero().await; if let Err(err) = scale_group { warnings.push("There was a problem scaling the group to 0", err); } show_scenario_description(&scenario, "Scenario scaled to 0").await; // 12. DeleteAutoScalingGroup (to delete the group you must stop all instances): // 13. Delete LaunchTemplate. let clean_scenario = scenario.clean_scenario().await; if let Err(errs) = clean_scenario { for err in errs { warnings.push("There was a problem cleaning the scenario", err); } } else { info!("The scenario has been cleaned up!"); } if warnings.is_empty() { Ok(()) } else { Err(anyhow!( "There were warnings during scenario execution:\n{warnings}" )) } } pub mod scenario; use std::{ error::Error, fmt::{Debug, Display}, time::{Duration, SystemTime}, }; use anyhow::anyhow; use aws_config::SdkConfig; use aws_sdk_autoscaling::{ error::{DisplayErrorContext, ProvideErrorMetadata}, types::{Activity, AutoScalingGroup, LaunchTemplateSpecification}, }; use aws_sdk_ec2::types::RequestLaunchTemplateData; use tracing::trace; const LAUNCH_TEMPLATE_NAME: &str = "SDK_Code_Examples_EC2_Autoscaling_template_from_Rust_SDK"; const AUTOSCALING_GROUP_NAME: &str = "SDK_Code_Examples_EC2_Autoscaling_Group_from_Rust_SDK"; const MAX_WAIT: Duration = Duration::from_secs(5 * 60); // Wait at most 25 seconds. const WAIT_TIME: Duration = Duration::from_millis(500); // Wait half a second at a time. struct Waiter { start: SystemTime, max: Duration, } impl Waiter { fn new() -> Self { Waiter { start: SystemTime::now(), max: MAX_WAIT, } } async fn sleep(&self) -> Result<(), ScenarioError> { if SystemTime::now() .duration_since(self.start) .unwrap_or(Duration::MAX) > self.max { Err(ScenarioError::with( "Exceeded maximum wait duration for stable group", )) } else { tokio::time::sleep(WAIT_TIME).await; Ok(()) } } } pub struct AutoScalingScenario { ec2: aws_sdk_ec2::Client, autoscaling: aws_sdk_autoscaling::Client, launch_template_arn: String, auto_scaling_group_name: String, } impl Display for AutoScalingScenario { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_fmt(format_args!( "\tLaunch Template ID: {}\n", self.launch_template_arn ))?; f.write_fmt(format_args!( "\tScaling Group Name: {}\n", self.auto_scaling_group_name ))?; Ok(()) } } pub struct AutoScalingScenarioDescription { group: Result<Vec<String>, ScenarioError>, instances: Result<Vec<String>, anyhow::Error>, activities: Result<Vec<Activity>, anyhow::Error>, } impl Display for AutoScalingScenarioDescription { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { writeln!(f, "\t Group status:")?; match &self.group { Ok(groups) => { for status in groups { writeln!(f, "\t\t- {status}")?; } } Err(e) => writeln!(f, "\t\t! - {e}")?, } writeln!(f, "\t Instances:")?; match &self.instances { Ok(instances) => { for instance in instances { writeln!(f, "\t\t- {instance}")?; } } Err(e) => writeln!(f, "\t\t! {e}")?, } writeln!(f, "\t Activities:")?; match &self.activities { Ok(activities) => { for activity in activities { writeln!( f, "\t\t- {} Progress: {}% Status: {:?} End: {:?}", activity.cause().unwrap_or("Unknown"), activity.progress.unwrap_or(-1), activity.status_code(), // activity.status_message().unwrap_or_default() activity.end_time(), )?; } } Err(e) => writeln!(f, "\t\t! {e}")?, } Ok(()) } } #[derive(Debug)] struct MetadataError { message: Option<String>, code: Option<String>, } impl MetadataError { fn from(err: &dyn ProvideErrorMetadata) -> Self { MetadataError { message: err.message().map(|s| s.to_string()), code: err.code().map(|s| s.to_string()), } } } impl Display for MetadataError { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let display = match (&self.message, &self.code) { (None, None) => "Unknown".to_string(), (None, Some(code)) => format!("({code})"), (Some(message), None) => message.to_string(), (Some(message), Some(code)) => format!("{message} ({code})"), }; write!(f, "{display}") } } #[derive(Debug)] pub struct ScenarioError { message: String, context: Option<MetadataError>, } impl ScenarioError { pub fn with(message: impl Into<String>) -> Self { ScenarioError { message: message.into(), context: None, } } pub fn new(message: impl Into<String>, err: &dyn ProvideErrorMetadata) -> Self { ScenarioError { message: message.into(), context: Some(MetadataError::from(err)), } } } impl Error for ScenarioError { // While `Error` can capture `source` information about the underlying error, for this example // the ScenarioError captures the underlying information in MetadataError and treats it as a // single Error from this Crate. In other contexts, it may be appropriate to model the error // as including the SdkError as its source. } impl Display for ScenarioError { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match &self.context { Some(c) => write!(f, "{}: {}", self.message, c), None => write!(f, "{}", self.message), } } } impl AutoScalingScenario { pub async fn prepare_scenario(sdk_config: &SdkConfig) -> Result<Self, Vec<ScenarioError>> { let ec2 = aws_sdk_ec2::Client::new(sdk_config); let autoscaling = aws_sdk_autoscaling::Client::new(sdk_config); let auto_scaling_group_name = String::from(AUTOSCALING_GROUP_NAME); // Before creating any resources, prepare the list of AZs let availablity_zones = ec2.describe_availability_zones().send().await; if let Err(err) = availablity_zones { return Err(vec![ScenarioError::new("Failed to find AZs", &err)]); } let availability_zones: Vec<String> = availablity_zones .unwrap() .availability_zones .unwrap_or_default() .iter() .take(3) .map(|z| z.zone_name.clone().unwrap()) .collect(); // 1. Create an EC2 launch template that you'll use to create an auto scaling group. Bonus: use SDK with EC2.CreateLaunchTemplate to create the launch template. // * Recommended: InstanceType='t1.micro', ImageId='ami-0ca285d4c2cda3300' let create_launch_template = ec2 .create_launch_template() .launch_template_name(LAUNCH_TEMPLATE_NAME) .launch_template_data( RequestLaunchTemplateData::builder() .instance_type(aws_sdk_ec2::types::InstanceType::T1Micro) .image_id("ami-0ca285d4c2cda3300") .build(), ) .send() .await .map_err(|err| vec![ScenarioError::new("Failed to create launch template", &err)])?; let launch_template_arn = match create_launch_template.launch_template { Some(launch_template) => launch_template.launch_template_id.unwrap_or_default(), None => { // Try to delete the launch template let _ = ec2 .delete_launch_template() .launch_template_name(LAUNCH_TEMPLATE_NAME) .send() .await; return Err(vec![ScenarioError::with("Failed to load launch template")]); } }; // 2. CreateAutoScalingGroup: pass it the launch template you created in step 0. Give it min/max of 1 instance. // You can use EC2.describe_availability_zones() to get a list of AZs (you have to specify an AZ when you create the group). // Wait for instance to launch. Use a waiter if you have one, otherwise DescribeAutoScalingInstances until LifecycleState='InService' if let Err(err) = autoscaling .create_auto_scaling_group() .auto_scaling_group_name(auto_scaling_group_name.as_str()) .launch_template( LaunchTemplateSpecification::builder() .launch_template_id(launch_template_arn.clone()) .version("$Latest") .build(), ) .max_size(1) .min_size(1) .set_availability_zones(Some(availability_zones)) .send() .await { let mut errs = vec![ScenarioError::new( "Failed to create autoscaling group", &err, )]; if let Err(err) = autoscaling .delete_auto_scaling_group() .auto_scaling_group_name(auto_scaling_group_name.as_str()) .send() .await { errs.push(ScenarioError::new( "Failed to clean up autoscaling group", &err, )); } if let Err(err) = ec2 .delete_launch_template() .launch_template_id(launch_template_arn.clone()) .send() .await { errs.push(ScenarioError::new( "Failed to clean up launch template", &err, )); } return Err(errs); } let scenario = AutoScalingScenario { ec2, autoscaling: autoscaling.clone(), // Clients are cheap so cloning here to prevent a move is ok. auto_scaling_group_name: auto_scaling_group_name.clone(), launch_template_arn, }; let enable_metrics_collection = autoscaling .enable_metrics_collection() .auto_scaling_group_name(auto_scaling_group_name.as_str()) .granularity("1Minute") .set_metrics(Some(vec![ String::from("GroupMinSize"), String::from("GroupMaxSize"), String::from("GroupDesiredCapacity"), String::from("GroupInServiceInstances"), String::from("GroupTotalInstances"), ])) .send() .await; match enable_metrics_collection { Ok(_) => Ok(scenario), Err(err) => { scenario.clean_scenario().await?; Err(vec![ScenarioError::new( "Failed to enable metrics collections for group", &err, )]) } } } pub async fn clean_scenario(self) -> Result<(), Vec<ScenarioError>> { let _ = self.wait_for_no_scaling().await; let delete_group = self .autoscaling .delete_auto_scaling_group() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .send() .await; // 14. Delete LaunchTemplate. let delete_launch_template = self .ec2 .delete_launch_template() .launch_template_id(self.launch_template_arn.clone()) .send() .await; let early_exit = match (delete_group, delete_launch_template) { (Ok(_), Ok(_)) => Ok(()), (Ok(_), Err(e)) => Err(vec![ScenarioError::new( "There was an error cleaning the launch template", &e, )]), (Err(e), Ok(_)) => Err(vec![ScenarioError::new( "There was an error cleaning the scale group", &e, )]), (Err(e1), Err(e2)) => Err(vec![ ScenarioError::new("Multiple error cleaning the scenario Scale Group", &e1), ScenarioError::new("Multiple error cleaning the scenario Launch Template", &e2), ]), }; if early_exit.is_err() { early_exit } else { // Wait for delete_group to finish let waiter = Waiter::new(); let mut errors = Vec::<ScenarioError>::new(); while errors.len() < 3 { if let Err(e) = waiter.sleep().await { errors.push(e); continue; } let describe_group = self .autoscaling .describe_auto_scaling_groups() .auto_scaling_group_names(self.auto_scaling_group_name.clone()) .send() .await; match describe_group { Ok(group) => match group.auto_scaling_groups().first() { Some(group) => { if group.status() != Some("Delete in progress") { errors.push(ScenarioError::with(format!( "Group in an unknown state while deleting: {}", group.status().unwrap_or("unknown error") ))); return Err(errors); } } None => return Ok(()), }, Err(err) => { errors.push(ScenarioError::new("Failed to describe autoscaling group during cleanup 3 times, last error", &err)); } } if errors.len() > 3 { return Err(errors); } } Err(vec![ScenarioError::with( "Exited cleanup wait loop without retuning success or failing after three rounds", )]) } } pub async fn describe_scenario(&self) -> AutoScalingScenarioDescription { let group = self .autoscaling .describe_auto_scaling_groups() .auto_scaling_group_names(self.auto_scaling_group_name.clone()) .send() .await .map(|s| { s.auto_scaling_groups() .iter() .map(|s| { format!( "{}: {}", s.auto_scaling_group_name().unwrap_or("Unknown"), s.status().unwrap_or("Unknown") ) }) .collect::<Vec<String>>() }) .map_err(|e| { ScenarioError::new("Failed to describe auto scaling groups for scenario", &e) }); let instances = self .list_instances() .await .map_err(|e| anyhow!("There was an error listing instances: {e}",)); // 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far. // Bonus: use CloudWatch API to get and show some metrics collected for the group. // CW.ListMetrics with Namespace='AWS/AutoScaling' and Dimensions=[{'Name': 'AutoScalingGroupName', 'Value': }] // CW.GetMetricStatistics with Statistics='Sum'. Start and End times must be in UTC! let activities = self .autoscaling .describe_scaling_activities() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .into_paginator() .items() .send() .collect::<Result<Vec<_>, _>>() .await .map_err(|e| { anyhow!( "There was an error retrieving scaling activities: {}", DisplayErrorContext(&e) ) }); AutoScalingScenarioDescription { group, instances, activities, } } async fn get_group(&self) -> Result<AutoScalingGroup, ScenarioError> { let describe_auto_scaling_groups = self .autoscaling .describe_auto_scaling_groups() .auto_scaling_group_names(self.auto_scaling_group_name.clone()) .send() .await; if let Err(err) = describe_auto_scaling_groups { return Err(ScenarioError::new( format!( "Failed to get status of autoscaling group {}", self.auto_scaling_group_name.clone() ) .as_str(), &err, )); } let describe_auto_scaling_groups_output = describe_auto_scaling_groups.unwrap(); let auto_scaling_groups = describe_auto_scaling_groups_output.auto_scaling_groups(); let auto_scaling_group = auto_scaling_groups.first(); if auto_scaling_group.is_none() { return Err(ScenarioError::with(format!( "Could not find autoscaling group {}", self.auto_scaling_group_name.clone() ))); } Ok(auto_scaling_group.unwrap().clone()) } pub async fn wait_for_no_scaling(&self) -> Result<(), ScenarioError> { let waiter = Waiter::new(); let mut scaling = true; while scaling { waiter.sleep().await?; let describe_activities = self .autoscaling .describe_scaling_activities() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .send() .await .map_err(|e| { ScenarioError::new("Failed to get autoscaling activities for group", &e) })?; let activities = describe_activities.activities(); trace!( "Waiting for no scaling found {} activities", activities.len() ); scaling = activities.iter().any(|a| a.progress() < Some(100)); } Ok(()) } pub async fn wait_for_stable(&self, size: usize) -> Result<(), ScenarioError> { self.wait_for_no_scaling().await?; let mut group = self.get_group().await?; let mut count = count_group_instances(&group); let waiter = Waiter::new(); while count != size { trace!("Waiting for stable {size} (current: {count})"); waiter.sleep().await?; group = self.get_group().await?; count = count_group_instances(&group); } Ok(()) } pub async fn list_instances(&self) -> Result<Vec<String>, ScenarioError> { // The direct way to list instances is by using DescribeAutoScalingGroup's instances property. However, this returns a Vec<Instance>, as opposed to a Vec<AutoScalingInstanceDetails>. // Ok(self.get_group().await?.instances.unwrap_or_default().map(|i| i.instance_id.clone().unwrap_or_default()).filter(|id| !id.is_empty()).collect()) // Alternatively, and for the sake of example, DescribeAutoScalingInstances returns a list that can be filtered by the client. self.autoscaling .describe_auto_scaling_instances() .into_paginator() .items() .send() .try_collect() .await .map(|items| { items .into_iter() .filter(|i| { i.auto_scaling_group_name.as_deref() == Some(self.auto_scaling_group_name.as_str()) }) .map(|i| i.instance_id.unwrap_or_default()) .filter(|id| !id.is_empty()) .collect::<Vec<String>>() }) .map_err(|err| ScenarioError::new("Failed to get list of auto scaling instances", &err)) } pub async fn scale_min_size(&self, size: i32) -> Result<(), ScenarioError> { let update_group = self .autoscaling .update_auto_scaling_group() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .min_size(size) .send() .await; if let Err(err) = update_group { return Err(ScenarioError::new( format!("Failer to update group to min size ({size}))").as_str(), &err, )); } Ok(()) } pub async fn scale_max_size(&self, size: i32) -> Result<(), ScenarioError> { // 5. UpdateAutoScalingGroup: update max size to 3. let update_group = self .autoscaling .update_auto_scaling_group() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .max_size(size) .send() .await; if let Err(err) = update_group { return Err(ScenarioError::new( format!("Failed to update group to max size ({size})").as_str(), &err, )); } Ok(()) } pub async fn scale_desired_capacity(&self, capacity: i32) -> Result<(), ScenarioError> { // 7. SetDesiredCapacity: set desired capacity to 2. // Wait for a second instance to launch. let update_group = self .autoscaling .set_desired_capacity() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .desired_capacity(capacity) .send() .await; if let Err(err) = update_group { return Err(ScenarioError::new( format!("Failed to update group to desired capacity ({capacity}))").as_str(), &err, )); } Ok(()) } pub async fn scale_group_to_zero(&self) -> Result<(), ScenarioError> { // If this fails it's fine, just means there are extra cloudwatch metrics events for the scale-down. let _ = self .autoscaling .disable_metrics_collection() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .send() .await; // 12. DeleteAutoScalingGroup (to delete the group you must stop all instances): // UpdateAutoScalingGroup with MinSize=0 let update_group = self .autoscaling .update_auto_scaling_group() .auto_scaling_group_name(self.auto_scaling_group_name.clone()) .min_size(0) .desired_capacity(0) .send() .await; if let Err(err) = update_group { return Err(ScenarioError::new( "Failed to update group for scaling down&", &err, )); } let stable = self.wait_for_stable(0).await; if let Err(err) = stable { return Err(ScenarioError::with(format!( "Error while waiting for group to be stable on scale down: {err}" ))); } Ok(()) } pub async fn terminate_some_instance(&self) -> Result<(), ScenarioError> { // Retrieve a list of instances in the auto scaling group. let auto_scaling_group = self.get_group().await?; let instances = auto_scaling_group.instances(); // Or use other logic to find an instance to terminate. let instance = instances.first(); if let Some(instance) = instance { let instance_id = if let Some(instance_id) = instance.instance_id() { instance_id } else { return Err(ScenarioError::with("Missing instance id")); }; let termination = self .ec2 .terminate_instances() .instance_ids(instance_id) .send() .await; if let Err(err) = termination { Err(ScenarioError::new( "There was a problem terminating an instance", &err, )) } else { Ok(()) } } else { Err(ScenarioError::with("There was no instance to terminate")) } } } fn count_group_instances(group: &AutoScalingGroup) -> usize { group.instances.as_ref().map(|i| i.len()).unwrap_or(0) }