Die vorliegende Übersetzung wurde maschinell erstellt. Im Falle eines Konflikts oder eines Widerspruchs zwischen dieser übersetzten Fassung und der englischen Fassung (einschließlich infolge von Verzögerungen bei der Übersetzung) ist die englische Fassung maßgeblich.
SQSAmazon-Beispiele mit AWS SDK for .NET
Die folgenden Codebeispiele zeigen Ihnen, wie Sie mithilfe von AWS SDK for .NET mit Amazon Aktionen ausführen und allgemeine Szenarien implementierenSQS.
Aktionen sind Codeauszüge aus größeren Programmen und müssen im Kontext ausgeführt werden. Aktionen zeigen Ihnen zwar, wie Sie einzelne Servicefunktionen aufrufen, aber Sie können Aktionen im Kontext der zugehörigen Szenarien sehen.
Szenarien sind Codebeispiele, die Ihnen zeigen, wie Sie bestimmte Aufgaben ausführen, indem Sie mehrere Funktionen innerhalb eines Dienstes oder in Kombination mit anderen aufrufen AWS-Services.
Jedes Beispiel enthält einen Link zum vollständigen Quellcode, in dem Sie Anweisungen zum Einrichten und Ausführen des Codes im Kontext finden.
Erste Schritte
Die folgenden Codebeispiele zeigen, wie Sie mit Amazon beginnen könnenSQS.
- AWS SDK for .NET
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Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. using Amazon.SQS; using Amazon.SQS.Model; namespace SQSActions; public static class HelloSQS { static async Task Main(string[] args) { var sqsClient = new AmazonSQSClient(); Console.WriteLine($"Hello Amazon SQS! Following are some of your queues:"); Console.WriteLine(); // You can use await and any of the async methods to get a response. // Let's get the first five queues. var response = await sqsClient.ListQueuesAsync( new ListQueuesRequest() { MaxResults = 5 }); foreach (var queue in response.QueueUrls) { Console.WriteLine($"\tQueue Url: {queue}"); Console.WriteLine(); } } }-
APIEinzelheiten finden Sie ListQueuesin der AWS SDK for .NET APIReferenz.
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Aktionen
Das folgende Codebeispiel zeigt die VerwendungCreateQueue.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Erstellen Sie eine Warteschlange mit einem bestimmten Namen.
/// <summary> /// Create a queue with a specific name. /// </summary> /// <param name="queueName">The name for the queue.</param> /// <param name="useFifoQueue">True to use a FIFO queue.</param> /// <returns>The url for the queue.</returns> public async Task<string> CreateQueueWithName(string queueName, bool useFifoQueue) { int maxMessage = 256 * 1024; var queueAttributes = new Dictionary<string, string> { { QueueAttributeName.MaximumMessageSize, maxMessage.ToString() } }; var createQueueRequest = new CreateQueueRequest() { QueueName = queueName, Attributes = queueAttributes }; if (useFifoQueue) { // Update the name if it is not correct for a FIFO queue. if (!queueName.EndsWith(".fifo")) { createQueueRequest.QueueName = queueName + ".fifo"; } // Add an attribute for a FIFO queue. createQueueRequest.Attributes.Add( QueueAttributeName.FifoQueue, "true"); } var createResponse = await _amazonSQSClient.CreateQueueAsync( new CreateQueueRequest() { QueueName = queueName }); return createResponse.QueueUrl; }Erstellen Sie eine SQS Amazon-Warteschlange und senden Sie eine Nachricht an diese.
using System; using System.Collections.Generic; using System.Threading.Tasks; using Amazon; using Amazon.SQS; using Amazon.SQS.Model; public class CreateSendExample { // Specify your AWS Region (an example Region is shown). private static readonly string QueueName = "Example_Queue"; private static readonly RegionEndpoint ServiceRegion = RegionEndpoint.USWest2; private static IAmazonSQS client; public static async Task Main() { client = new AmazonSQSClient(ServiceRegion); var createQueueResponse = await CreateQueue(client, QueueName); string queueUrl = createQueueResponse.QueueUrl; Dictionary<string, MessageAttributeValue> messageAttributes = new Dictionary<string, MessageAttributeValue> { { "Title", new MessageAttributeValue { DataType = "String", StringValue = "The Whistler" } }, { "Author", new MessageAttributeValue { DataType = "String", StringValue = "John Grisham" } }, { "WeeksOn", new MessageAttributeValue { DataType = "Number", StringValue = "6" } }, }; string messageBody = "Information about current NY Times fiction bestseller for week of 12/11/2016."; var sendMsgResponse = await SendMessage(client, queueUrl, messageBody, messageAttributes); } /// <summary> /// Creates a new Amazon SQS queue using the queue name passed to it /// in queueName. /// </summary> /// <param name="client">An SQS client object used to send the message.</param> /// <param name="queueName">A string representing the name of the queue /// to create.</param> /// <returns>A CreateQueueResponse that contains information about the /// newly created queue.</returns> public static async Task<CreateQueueResponse> CreateQueue(IAmazonSQS client, string queueName) { var request = new CreateQueueRequest { QueueName = queueName, Attributes = new Dictionary<string, string> { { "DelaySeconds", "60" }, { "MessageRetentionPeriod", "86400" }, }, }; var response = await client.CreateQueueAsync(request); Console.WriteLine($"Created a queue with URL : {response.QueueUrl}"); return response; } /// <summary> /// Sends a message to an SQS queue. /// </summary> /// <param name="client">An SQS client object used to send the message.</param> /// <param name="queueUrl">The URL of the queue to which to send the /// message.</param> /// <param name="messageBody">A string representing the body of the /// message to be sent to the queue.</param> /// <param name="messageAttributes">Attributes for the message to be /// sent to the queue.</param> /// <returns>A SendMessageResponse object that contains information /// about the message that was sent.</returns> public static async Task<SendMessageResponse> SendMessage( IAmazonSQS client, string queueUrl, string messageBody, Dictionary<string, MessageAttributeValue> messageAttributes) { var sendMessageRequest = new SendMessageRequest { DelaySeconds = 10, MessageAttributes = messageAttributes, MessageBody = messageBody, QueueUrl = queueUrl, }; var response = await client.SendMessageAsync(sendMessageRequest); Console.WriteLine($"Sent a message with id : {response.MessageId}"); return response; } }-
APIEinzelheiten finden Sie CreateQueueunter AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungDeleteMessage.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Empfangen Sie eine Nachricht aus einer SQS Amazon-Warteschlange und löschen Sie die Nachricht dann.
public static async Task Main() { // If the AWS Region you want to use is different from // the AWS Region defined for the default user, supply // the specify your AWS Region to the client constructor. var client = new AmazonSQSClient(); string queueName = "Example_Queue"; var queueUrl = await GetQueueUrl(client, queueName); Console.WriteLine($"The SQS queue's URL is {queueUrl}"); var response = await ReceiveAndDeleteMessage(client, queueUrl); Console.WriteLine($"Message: {response.Messages[0]}"); } /// <summary> /// Retrieve the queue URL for the queue named in the queueName /// property using the client object. /// </summary> /// <param name="client">The Amazon SQS client used to retrieve the /// queue URL.</param> /// <param name="queueName">A string representing name of the queue /// for which to retrieve the URL.</param> /// <returns>The URL of the queue.</returns> public static async Task<string> GetQueueUrl(IAmazonSQS client, string queueName) { var request = new GetQueueUrlRequest { QueueName = queueName, }; GetQueueUrlResponse response = await client.GetQueueUrlAsync(request); return response.QueueUrl; } /// <summary> /// Retrieves the message from the quque at the URL passed in the /// queueURL parameters using the client. /// </summary> /// <param name="client">The SQS client used to retrieve a message.</param> /// <param name="queueUrl">The URL of the queue from which to retrieve /// a message.</param> /// <returns>The response from the call to ReceiveMessageAsync.</returns> public static async Task<ReceiveMessageResponse> ReceiveAndDeleteMessage(IAmazonSQS client, string queueUrl) { // Receive a single message from the queue. var receiveMessageRequest = new ReceiveMessageRequest { AttributeNames = { "SentTimestamp" }, MaxNumberOfMessages = 1, MessageAttributeNames = { "All" }, QueueUrl = queueUrl, VisibilityTimeout = 0, WaitTimeSeconds = 0, }; var receiveMessageResponse = await client.ReceiveMessageAsync(receiveMessageRequest); // Delete the received message from the queue. var deleteMessageRequest = new DeleteMessageRequest { QueueUrl = queueUrl, ReceiptHandle = receiveMessageResponse.Messages[0].ReceiptHandle, }; await client.DeleteMessageAsync(deleteMessageRequest); return receiveMessageResponse; } }-
APIEinzelheiten finden Sie DeleteMessageunter AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungDeleteMessageBatch.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. /// <summary> /// Delete a batch of messages from a queue by its url. /// </summary> /// <param name="queueUrl">The url of the queue.</param> /// <returns>True if successful.</returns> public async Task<bool> DeleteMessageBatchByUrl(string queueUrl, List<Message> messages) { var deleteRequest = new DeleteMessageBatchRequest() { QueueUrl = queueUrl, Entries = new List<DeleteMessageBatchRequestEntry>() }; foreach (var message in messages) { deleteRequest.Entries.Add(new DeleteMessageBatchRequestEntry() { ReceiptHandle = message.ReceiptHandle, Id = message.MessageId }); } var deleteResponse = await _amazonSQSClient.DeleteMessageBatchAsync(deleteRequest); return deleteResponse.Failed.Any(); }-
APIEinzelheiten finden Sie DeleteMessageBatchin der AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungDeleteQueue.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Löschen Sie eine Warteschlange mithilfe ihrerURL.
/// <summary> /// Delete a queue by its URL. /// </summary> /// <param name="queueUrl">The url of the queue.</param> /// <returns>True if successful.</returns> public async Task<bool> DeleteQueueByUrl(string queueUrl) { var deleteResponse = await _amazonSQSClient.DeleteQueueAsync( new DeleteQueueRequest() { QueueUrl = queueUrl }); return deleteResponse.HttpStatusCode == HttpStatusCode.OK; }-
APIEinzelheiten finden Sie DeleteQueueunter AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungGetQueueAttributes.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. /// <summary> /// Get the ARN for a queue from its URL. /// </summary> /// <param name="queueUrl">The URL of the queue.</param> /// <returns>The ARN of the queue.</returns> public async Task<string> GetQueueArnByUrl(string queueUrl) { var getAttributesRequest = new GetQueueAttributesRequest() { QueueUrl = queueUrl, AttributeNames = new List<string>() { QueueAttributeName.QueueArn } }; var getAttributesResponse = await _amazonSQSClient.GetQueueAttributesAsync( getAttributesRequest); return getAttributesResponse.QueueARN; }-
APIEinzelheiten finden Sie GetQueueAttributesin der AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungGetQueueUrl.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. using System; using System.Threading.Tasks; using Amazon.SQS; using Amazon.SQS.Model; public class GetQueueUrl { /// <summary> /// Initializes the Amazon SQS client object and then calls the /// GetQueueUrlAsync method to retrieve the URL of an Amazon SQS /// queue. /// </summary> public static async Task Main() { // If the Amazon SQS message queue is not in the same AWS Region as your // default user, you need to provide the AWS Region as a parameter to the // client constructor. var client = new AmazonSQSClient(); string queueName = "New-Example-Queue"; try { var response = await client.GetQueueUrlAsync(queueName); if (response.HttpStatusCode == System.Net.HttpStatusCode.OK) { Console.WriteLine($"The URL for {queueName} is: {response.QueueUrl}"); } } catch (QueueDoesNotExistException ex) { Console.WriteLine(ex.Message); Console.WriteLine($"The queue {queueName} was not found."); } } }-
APIEinzelheiten finden Sie GetQueueUrlin der AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungReceiveMessage.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Empfangen Sie Nachrichten aus einer Warteschlange, indem Sie ihre verwendenURL.
/// <summary> /// Receive messages from a queue by its URL. /// </summary> /// <param name="queueUrl">The url of the queue.</param> /// <returns>The list of messages.</returns> public async Task<List<Message>> ReceiveMessagesByUrl(string queueUrl, int maxMessages) { // Setting WaitTimeSeconds to non-zero enables long polling. // For information about long polling, see // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html var messageResponse = await _amazonSQSClient.ReceiveMessageAsync( new ReceiveMessageRequest() { QueueUrl = queueUrl, MaxNumberOfMessages = maxMessages, WaitTimeSeconds = 1 }); return messageResponse.Messages; }Empfangen Sie eine Nachricht aus einer SQS Amazon-Warteschlange und löschen Sie die Nachricht dann.
public static async Task Main() { // If the AWS Region you want to use is different from // the AWS Region defined for the default user, supply // the specify your AWS Region to the client constructor. var client = new AmazonSQSClient(); string queueName = "Example_Queue"; var queueUrl = await GetQueueUrl(client, queueName); Console.WriteLine($"The SQS queue's URL is {queueUrl}"); var response = await ReceiveAndDeleteMessage(client, queueUrl); Console.WriteLine($"Message: {response.Messages[0]}"); } /// <summary> /// Retrieve the queue URL for the queue named in the queueName /// property using the client object. /// </summary> /// <param name="client">The Amazon SQS client used to retrieve the /// queue URL.</param> /// <param name="queueName">A string representing name of the queue /// for which to retrieve the URL.</param> /// <returns>The URL of the queue.</returns> public static async Task<string> GetQueueUrl(IAmazonSQS client, string queueName) { var request = new GetQueueUrlRequest { QueueName = queueName, }; GetQueueUrlResponse response = await client.GetQueueUrlAsync(request); return response.QueueUrl; } /// <summary> /// Retrieves the message from the quque at the URL passed in the /// queueURL parameters using the client. /// </summary> /// <param name="client">The SQS client used to retrieve a message.</param> /// <param name="queueUrl">The URL of the queue from which to retrieve /// a message.</param> /// <returns>The response from the call to ReceiveMessageAsync.</returns> public static async Task<ReceiveMessageResponse> ReceiveAndDeleteMessage(IAmazonSQS client, string queueUrl) { // Receive a single message from the queue. var receiveMessageRequest = new ReceiveMessageRequest { AttributeNames = { "SentTimestamp" }, MaxNumberOfMessages = 1, MessageAttributeNames = { "All" }, QueueUrl = queueUrl, VisibilityTimeout = 0, WaitTimeSeconds = 0, }; var receiveMessageResponse = await client.ReceiveMessageAsync(receiveMessageRequest); // Delete the received message from the queue. var deleteMessageRequest = new DeleteMessageRequest { QueueUrl = queueUrl, ReceiptHandle = receiveMessageResponse.Messages[0].ReceiptHandle, }; await client.DeleteMessageAsync(deleteMessageRequest); return receiveMessageResponse; } }-
APIEinzelheiten finden Sie ReceiveMessageunter AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungSendMessage.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Erstellen Sie eine SQS Amazon-Warteschlange und senden Sie eine Nachricht an diese.
using System; using System.Collections.Generic; using System.Threading.Tasks; using Amazon; using Amazon.SQS; using Amazon.SQS.Model; public class CreateSendExample { // Specify your AWS Region (an example Region is shown). private static readonly string QueueName = "Example_Queue"; private static readonly RegionEndpoint ServiceRegion = RegionEndpoint.USWest2; private static IAmazonSQS client; public static async Task Main() { client = new AmazonSQSClient(ServiceRegion); var createQueueResponse = await CreateQueue(client, QueueName); string queueUrl = createQueueResponse.QueueUrl; Dictionary<string, MessageAttributeValue> messageAttributes = new Dictionary<string, MessageAttributeValue> { { "Title", new MessageAttributeValue { DataType = "String", StringValue = "The Whistler" } }, { "Author", new MessageAttributeValue { DataType = "String", StringValue = "John Grisham" } }, { "WeeksOn", new MessageAttributeValue { DataType = "Number", StringValue = "6" } }, }; string messageBody = "Information about current NY Times fiction bestseller for week of 12/11/2016."; var sendMsgResponse = await SendMessage(client, queueUrl, messageBody, messageAttributes); } /// <summary> /// Creates a new Amazon SQS queue using the queue name passed to it /// in queueName. /// </summary> /// <param name="client">An SQS client object used to send the message.</param> /// <param name="queueName">A string representing the name of the queue /// to create.</param> /// <returns>A CreateQueueResponse that contains information about the /// newly created queue.</returns> public static async Task<CreateQueueResponse> CreateQueue(IAmazonSQS client, string queueName) { var request = new CreateQueueRequest { QueueName = queueName, Attributes = new Dictionary<string, string> { { "DelaySeconds", "60" }, { "MessageRetentionPeriod", "86400" }, }, }; var response = await client.CreateQueueAsync(request); Console.WriteLine($"Created a queue with URL : {response.QueueUrl}"); return response; } /// <summary> /// Sends a message to an SQS queue. /// </summary> /// <param name="client">An SQS client object used to send the message.</param> /// <param name="queueUrl">The URL of the queue to which to send the /// message.</param> /// <param name="messageBody">A string representing the body of the /// message to be sent to the queue.</param> /// <param name="messageAttributes">Attributes for the message to be /// sent to the queue.</param> /// <returns>A SendMessageResponse object that contains information /// about the message that was sent.</returns> public static async Task<SendMessageResponse> SendMessage( IAmazonSQS client, string queueUrl, string messageBody, Dictionary<string, MessageAttributeValue> messageAttributes) { var sendMessageRequest = new SendMessageRequest { DelaySeconds = 10, MessageAttributes = messageAttributes, MessageBody = messageBody, QueueUrl = queueUrl, }; var response = await client.SendMessageAsync(sendMessageRequest); Console.WriteLine($"Sent a message with id : {response.MessageId}"); return response; } }-
APIEinzelheiten finden Sie SendMessageunter AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungSetQueueAttributes.
- AWS SDK for .NET
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Legt das Richtlinienattribut einer Warteschlange für ein Thema fest.
/// <summary> /// Set the policy attribute of a queue for a topic. /// </summary> /// <param name="queueArn">The ARN of the queue.</param> /// <param name="topicArn">The ARN of the topic.</param> /// <param name="queueUrl">The url for the queue.</param> /// <returns>True if successful.</returns> public async Task<bool> SetQueuePolicyForTopic(string queueArn, string topicArn, string queueUrl) { var queuePolicy = "{" + "\"Version\": \"2012-10-17\"," + "\"Statement\": [{" + "\"Effect\": \"Allow\"," + "\"Principal\": {" + $"\"Service\": " + "\"sns.amazonaws.com\"" + "}," + "\"Action\": \"sqs:SendMessage\"," + $"\"Resource\": \"{queueArn}\"," + "\"Condition\": {" + "\"ArnEquals\": {" + $"\"aws:SourceArn\": \"{topicArn}\"" + "}" + "}" + "}]" + "}"; var attributesResponse = await _amazonSQSClient.SetQueueAttributesAsync( new SetQueueAttributesRequest() { QueueUrl = queueUrl, Attributes = new Dictionary<string, string>() { { "Policy", queuePolicy } } }); return attributesResponse.HttpStatusCode == HttpStatusCode.OK; }-
APIEinzelheiten finden Sie SetQueueAttributesunter AWS SDK for .NET APIReferenz.
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Szenarien
Wie das aussehen kann, sehen Sie am nachfolgenden Beispielcode:
Thema erstellen (FIFOoder nichtFIFO).
Abonnieren Sie mehrere Warteschlangen für das Thema mit der Option, einen Filter anzuwenden.
Veröffentlichen Sie eine Nachricht im Thema.
Fragen Sie die Warteschlangen nach empfangenen Nachrichten ab.
- AWS SDK for .NET
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Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Führen Sie ein interaktives Szenario an einer Eingabeaufforderung aus.
/// <summary> /// Console application to run a workflow scenario for topics and queues. /// </summary> public static class TopicsAndQueues { private static bool _useFifoTopic = false; private static bool _useContentBasedDeduplication = false; private static string _topicName = null!; private static string _topicArn = null!; private static readonly int _queueCount = 2; private static readonly string[] _queueUrls = new string[_queueCount]; private static readonly string[] _subscriptionArns = new string[_queueCount]; private static readonly string[] _tones = { "cheerful", "funny", "serious", "sincere" }; public static SNSWrapper SnsWrapper { get; set; } = null!; public static SQSWrapper SqsWrapper { get; set; } = null!; public static bool UseConsole { get; set; } = true; static async Task Main(string[] args) { // Set up dependency injection for Amazon EventBridge. 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<IAmazonSQS>() .AddAWSService<IAmazonSimpleNotificationService>() .AddTransient<SNSWrapper>() .AddTransient<SQSWrapper>() ) .Build(); ServicesSetup(host); PrintDescription(); await RunScenario(); } /// <summary> /// Populate the services for use within the console application. /// </summary> /// <param name="host">The services host.</param> private static void ServicesSetup(IHost host) { SnsWrapper = host.Services.GetRequiredService<SNSWrapper>(); SqsWrapper = host.Services.GetRequiredService<SQSWrapper>(); } /// <summary> /// Run the scenario for working with topics and queues. /// </summary> /// <returns>True if successful.</returns> public static async Task<bool> RunScenario() { try { await SetupTopic(); await SetupQueues(); await PublishMessages(); foreach (var queueUrl in _queueUrls) { var messages = await PollForMessages(queueUrl); if (messages.Any()) { await DeleteMessages(queueUrl, messages); } } await CleanupResources(); Console.WriteLine("Messaging with topics and queues workflow is complete."); return true; } catch (Exception ex) { Console.WriteLine(new string('-', 80)); Console.WriteLine($"There was a problem running the scenario: {ex.Message}"); await CleanupResources(); Console.WriteLine(new string('-', 80)); return false; } } /// <summary> /// Print a description for the tasks in the workflow. /// </summary> /// <returns>Async task.</returns> private static void PrintDescription() { Console.WriteLine(new string('-', 80)); Console.WriteLine($"Welcome to messaging with topics and queues."); Console.WriteLine(new string('-', 80)); Console.WriteLine($"In this workflow, you will create an SNS topic and subscribe {_queueCount} SQS queues to the topic." + $"\r\nYou can select from several options for configuring the topic and the subscriptions for the 2 queues." + $"\r\nYou can then post to the topic and see the results in the queues.\r\n"); Console.WriteLine(new string('-', 80)); } /// <summary> /// Set up the SNS topic to be used with the queues. /// </summary> /// <returns>Async task.</returns> private static async Task<string> SetupTopic() { Console.WriteLine(new string('-', 80)); Console.WriteLine($"SNS topics can be configured as FIFO (First-In-First-Out)." + $"\r\nFIFO topics deliver messages in order and support deduplication and message filtering." + $"\r\nYou can then post to the topic and see the results in the queues.\r\n"); _useFifoTopic = GetYesNoResponse("Would you like to work with FIFO topics?"); if (_useFifoTopic) { Console.WriteLine(new string('-', 80)); _topicName = GetUserResponse("Enter a name for your SNS topic: ", "example-topic"); Console.WriteLine( "Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.\r\n"); Console.WriteLine(new string('-', 80)); Console.WriteLine($"Because you have chosen a FIFO topic, deduplication is supported." + $"\r\nDeduplication IDs are either set in the message or automatically generated " + $"\r\nfrom content using a hash function.\r\n" + $"\r\nIf a message is successfully published to an SNS FIFO topic, any message " + $"\r\npublished and determined to have the same deduplication ID, " + $"\r\nwithin the five-minute deduplication interval, is accepted but not delivered.\r\n" + $"\r\nFor more information about deduplication, " + $"\r\nsee https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html."); _useContentBasedDeduplication = GetYesNoResponse("Use content-based deduplication instead of entering a deduplication ID?"); Console.WriteLine(new string('-', 80)); } _topicArn = await SnsWrapper.CreateTopicWithName(_topicName, _useFifoTopic, _useContentBasedDeduplication); Console.WriteLine($"Your new topic with the name {_topicName}" + $"\r\nand Amazon Resource Name (ARN) {_topicArn}" + $"\r\nhas been created.\r\n"); Console.WriteLine(new string('-', 80)); return _topicArn; } /// <summary> /// Set up the queues. /// </summary> /// <returns>Async task.</returns> private static async Task SetupQueues() { Console.WriteLine(new string('-', 80)); Console.WriteLine($"Now you will create {_queueCount} Amazon Simple Queue Service (Amazon SQS) queues to subscribe to the topic."); // Repeat this section for each queue. for (int i = 0; i < _queueCount; i++) { var queueName = GetUserResponse("Enter a name for an Amazon SQS queue: ", $"example-queue-{i}"); if (_useFifoTopic) { // Only explain this once. if (i == 0) { Console.WriteLine( "Because you have selected a FIFO topic, '.fifo' must be appended to the queue name."); } var queueUrl = await SqsWrapper.CreateQueueWithName(queueName, _useFifoTopic); _queueUrls[i] = queueUrl; Console.WriteLine($"Your new queue with the name {queueName}" + $"\r\nand queue URL {queueUrl}" + $"\r\nhas been created.\r\n"); if (i == 0) { Console.WriteLine( $"The queue URL is used to retrieve the queue ARN,\r\n" + $"which is used to create a subscription."); Console.WriteLine(new string('-', 80)); } var queueArn = await SqsWrapper.GetQueueArnByUrl(queueUrl); if (i == 0) { Console.WriteLine( $"An AWS Identity and Access Management (IAM) policy must be attached to an SQS queue, enabling it to receive\r\n" + $"messages from an SNS topic"); } await SqsWrapper.SetQueuePolicyForTopic(queueArn, _topicArn, queueUrl); await SetupFilters(i, queueArn, queueName); } } Console.WriteLine(new string('-', 80)); } /// <summary> /// Set up filters with user options for a queue. /// </summary> /// <param name="queueCount">The number of this queue.</param> /// <param name="queueArn">The ARN of the queue.</param> /// <param name="queueName">The name of the queue.</param> /// <returns>Async Task.</returns> public static async Task SetupFilters(int queueCount, string queueArn, string queueName) { if (_useFifoTopic) { Console.WriteLine(new string('-', 80)); // Only explain this once. if (queueCount == 0) { Console.WriteLine( "Subscriptions to a FIFO topic can have filters." + "If you add a filter to this subscription, then only the filtered messages " + "will be received in the queue."); Console.WriteLine( "For information about message filtering, " + "see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html"); Console.WriteLine( "For this example, you can filter messages by a" + "TONE attribute."); } var useFilter = GetYesNoResponse($"Filter messages for {queueName}'s subscription to the topic?"); string? filterPolicy = null; if (useFilter) { filterPolicy = CreateFilterPolicy(); } var subscriptionArn = await SnsWrapper.SubscribeTopicWithFilter(_topicArn, filterPolicy, queueArn); _subscriptionArns[queueCount] = subscriptionArn; Console.WriteLine( $"The queue {queueName} has been subscribed to the topic {_topicName} " + $"with the subscription ARN {subscriptionArn}"); Console.WriteLine(new string('-', 80)); } } /// <summary> /// Use user input to create a filter policy for a subscription. /// </summary> /// <returns>The serialized filter policy.</returns> public static string CreateFilterPolicy() { Console.WriteLine(new string('-', 80)); Console.WriteLine( $"You can filter messages by one or more of the following" + $"TONE attributes."); List<string> filterSelections = new List<string>(); var selectionNumber = 0; do { Console.WriteLine( $"Enter a number to add a TONE filter, or enter 0 to stop adding filters."); for (int i = 0; i < _tones.Length; i++) { Console.WriteLine($"\t{i + 1}. {_tones[i]}"); } var selection = GetUserResponse("", filterSelections.Any() ? "0" : "1"); int.TryParse(selection, out selectionNumber); if (selectionNumber > 0 && !filterSelections.Contains(_tones[selectionNumber - 1])) { filterSelections.Add(_tones[selectionNumber - 1]); } } while (selectionNumber != 0); var filters = new Dictionary<string, List<string>> { { "tone", filterSelections } }; string filterPolicy = JsonSerializer.Serialize(filters); return filterPolicy; } /// <summary> /// Publish messages using user settings. /// </summary> /// <returns>Async task.</returns> public static async Task PublishMessages() { Console.WriteLine("Now we can publish messages."); var keepSendingMessages = true; string? deduplicationId = null; string? toneAttribute = null; while (keepSendingMessages) { Console.WriteLine(); var message = GetUserResponse("Enter a message to publish.", "This is a sample message"); if (_useFifoTopic) { Console.WriteLine("Because you are using a FIFO topic, you must set a message group ID." + "\r\nAll messages within the same group will be received in the order " + "they were published."); Console.WriteLine(); var messageGroupId = GetUserResponse("Enter a message group ID for this message:", "1"); if (!_useContentBasedDeduplication) { Console.WriteLine("Because you are not using content-based deduplication, " + "you must enter a deduplication ID."); Console.WriteLine("Enter a deduplication ID for this message."); deduplicationId = GetUserResponse("Enter a deduplication ID for this message.", "1"); } if (GetYesNoResponse("Add an attribute to this message?")) { Console.WriteLine("Enter a number for an attribute."); for (int i = 0; i < _tones.Length; i++) { Console.WriteLine($"\t{i + 1}. {_tones[i]}"); } var selection = GetUserResponse("", "1"); int.TryParse(selection, out var selectionNumber); if (selectionNumber > 0 && selectionNumber < _tones.Length) { toneAttribute = _tones[selectionNumber - 1]; } } var messageID = await SnsWrapper.PublishToTopicWithAttribute( _topicArn, message, "tone", toneAttribute, deduplicationId, messageGroupId); Console.WriteLine($"Message published with id {messageID}."); } keepSendingMessages = GetYesNoResponse("Send another message?", false); } } /// <summary> /// Poll for the published messages to see the results of the user's choices. /// </summary> /// <returns>Async task.</returns> public static async Task<List<Message>> PollForMessages(string queueUrl) { Console.WriteLine(new string('-', 80)); Console.WriteLine($"Now the SQS queue at {queueUrl} will be polled to retrieve the messages." + "\r\nPress any key to continue."); if (UseConsole) { Console.ReadLine(); } var moreMessages = true; var messages = new List<Message>(); while (moreMessages) { var newMessages = await SqsWrapper.ReceiveMessagesByUrl(queueUrl, 10); moreMessages = newMessages.Any(); if (moreMessages) { messages.AddRange(newMessages); } } Console.WriteLine($"{messages.Count} message(s) were received by the queue at {queueUrl}."); foreach (var message in messages) { Console.WriteLine("\tMessage:" + $"\n\t{message.Body}"); } Console.WriteLine(new string('-', 80)); return messages; } /// <summary> /// Delete the message using handles in a batch. /// </summary> /// <returns>Async task.</returns> public static async Task DeleteMessages(string queueUrl, List<Message> messages) { Console.WriteLine(new string('-', 80)); Console.WriteLine("Now we can delete the messages in this queue in a batch."); await SqsWrapper.DeleteMessageBatchByUrl(queueUrl, messages); Console.WriteLine(new string('-', 80)); } /// <summary> /// Clean up the resources from the scenario. /// </summary> /// <returns>Async task.</returns> private static async Task CleanupResources() { Console.WriteLine(new string('-', 80)); Console.WriteLine($"Clean up resources."); try { foreach (var queueUrl in _queueUrls) { if (!string.IsNullOrEmpty(queueUrl)) { var deleteQueue = GetYesNoResponse($"Delete queue with url {queueUrl}?"); if (deleteQueue) { await SqsWrapper.DeleteQueueByUrl(queueUrl); } } } foreach (var subscriptionArn in _subscriptionArns) { if (!string.IsNullOrEmpty(subscriptionArn)) { await SnsWrapper.UnsubscribeByArn(subscriptionArn); } } var deleteTopic = GetYesNoResponse($"Delete topic {_topicName}?"); if (deleteTopic) { await SnsWrapper.DeleteTopicByArn(_topicArn); } } catch (Exception ex) { Console.WriteLine($"Unable to clean up resources. Here's why: {ex.Message}."); } Console.WriteLine(new string('-', 80)); } /// <summary> /// Helper method to get a yes or no response from the user. /// </summary> /// <param name="question">The question string to print on the console.</param> /// <param name="defaultAnswer">Optional default answer to use.</param> /// <returns>True if the user responds with a yes.</returns> private static bool GetYesNoResponse(string question, bool defaultAnswer = true) { if (UseConsole) { Console.WriteLine(question); var ynResponse = Console.ReadLine(); var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase); return response; } // If not using the console, use the default. return defaultAnswer; } /// <summary> /// Helper method to get a string response from the user through the console. /// </summary> /// <param name="question">The question string to print on the console.</param> /// <param name="defaultAnswer">Optional default answer to use.</param> /// <returns>True if the user responds with a yes.</returns> private static string GetUserResponse(string question, string defaultAnswer) { if (UseConsole) { var response = ""; while (string.IsNullOrEmpty(response)) { Console.WriteLine(question); response = Console.ReadLine(); } return response; } // If not using the console, use the default. return defaultAnswer; } }Erstellen Sie eine Klasse, die SQS Amazon-Operationen umschließt.
/// <summary> /// Wrapper for Amazon Simple Queue Service (SQS) operations. /// </summary> public class SQSWrapper { private readonly IAmazonSQS _amazonSQSClient; /// <summary> /// Constructor for the Amazon SQS wrapper. /// </summary> /// <param name="amazonSQS">The injected Amazon SQS client.</param> public SQSWrapper(IAmazonSQS amazonSQS) { _amazonSQSClient = amazonSQS; } /// <summary> /// Create a queue with a specific name. /// </summary> /// <param name="queueName">The name for the queue.</param> /// <param name="useFifoQueue">True to use a FIFO queue.</param> /// <returns>The url for the queue.</returns> public async Task<string> CreateQueueWithName(string queueName, bool useFifoQueue) { int maxMessage = 256 * 1024; var queueAttributes = new Dictionary<string, string> { { QueueAttributeName.MaximumMessageSize, maxMessage.ToString() } }; var createQueueRequest = new CreateQueueRequest() { QueueName = queueName, Attributes = queueAttributes }; if (useFifoQueue) { // Update the name if it is not correct for a FIFO queue. if (!queueName.EndsWith(".fifo")) { createQueueRequest.QueueName = queueName + ".fifo"; } // Add an attribute for a FIFO queue. createQueueRequest.Attributes.Add( QueueAttributeName.FifoQueue, "true"); } var createResponse = await _amazonSQSClient.CreateQueueAsync( new CreateQueueRequest() { QueueName = queueName }); return createResponse.QueueUrl; } /// <summary> /// Get the ARN for a queue from its URL. /// </summary> /// <param name="queueUrl">The URL of the queue.</param> /// <returns>The ARN of the queue.</returns> public async Task<string> GetQueueArnByUrl(string queueUrl) { var getAttributesRequest = new GetQueueAttributesRequest() { QueueUrl = queueUrl, AttributeNames = new List<string>() { QueueAttributeName.QueueArn } }; var getAttributesResponse = await _amazonSQSClient.GetQueueAttributesAsync( getAttributesRequest); return getAttributesResponse.QueueARN; } /// <summary> /// Set the policy attribute of a queue for a topic. /// </summary> /// <param name="queueArn">The ARN of the queue.</param> /// <param name="topicArn">The ARN of the topic.</param> /// <param name="queueUrl">The url for the queue.</param> /// <returns>True if successful.</returns> public async Task<bool> SetQueuePolicyForTopic(string queueArn, string topicArn, string queueUrl) { var queuePolicy = "{" + "\"Version\": \"2012-10-17\"," + "\"Statement\": [{" + "\"Effect\": \"Allow\"," + "\"Principal\": {" + $"\"Service\": " + "\"sns.amazonaws.com\"" + "}," + "\"Action\": \"sqs:SendMessage\"," + $"\"Resource\": \"{queueArn}\"," + "\"Condition\": {" + "\"ArnEquals\": {" + $"\"aws:SourceArn\": \"{topicArn}\"" + "}" + "}" + "}]" + "}"; var attributesResponse = await _amazonSQSClient.SetQueueAttributesAsync( new SetQueueAttributesRequest() { QueueUrl = queueUrl, Attributes = new Dictionary<string, string>() { { "Policy", queuePolicy } } }); return attributesResponse.HttpStatusCode == HttpStatusCode.OK; } /// <summary> /// Receive messages from a queue by its URL. /// </summary> /// <param name="queueUrl">The url of the queue.</param> /// <returns>The list of messages.</returns> public async Task<List<Message>> ReceiveMessagesByUrl(string queueUrl, int maxMessages) { // Setting WaitTimeSeconds to non-zero enables long polling. // For information about long polling, see // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html var messageResponse = await _amazonSQSClient.ReceiveMessageAsync( new ReceiveMessageRequest() { QueueUrl = queueUrl, MaxNumberOfMessages = maxMessages, WaitTimeSeconds = 1 }); return messageResponse.Messages; } /// <summary> /// Delete a batch of messages from a queue by its url. /// </summary> /// <param name="queueUrl">The url of the queue.</param> /// <returns>True if successful.</returns> public async Task<bool> DeleteMessageBatchByUrl(string queueUrl, List<Message> messages) { var deleteRequest = new DeleteMessageBatchRequest() { QueueUrl = queueUrl, Entries = new List<DeleteMessageBatchRequestEntry>() }; foreach (var message in messages) { deleteRequest.Entries.Add(new DeleteMessageBatchRequestEntry() { ReceiptHandle = message.ReceiptHandle, Id = message.MessageId }); } var deleteResponse = await _amazonSQSClient.DeleteMessageBatchAsync(deleteRequest); return deleteResponse.Failed.Any(); } /// <summary> /// Delete a queue by its URL. /// </summary> /// <param name="queueUrl">The url of the queue.</param> /// <returns>True if successful.</returns> public async Task<bool> DeleteQueueByUrl(string queueUrl) { var deleteResponse = await _amazonSQSClient.DeleteQueueAsync( new DeleteQueueRequest() { QueueUrl = queueUrl }); return deleteResponse.HttpStatusCode == HttpStatusCode.OK; } }Erstellen Sie eine Klasse, die SNS Amazon-Operationen umschließt.
/// <summary> /// Wrapper for Amazon Simple Notification Service (SNS) operations. /// </summary> public class SNSWrapper { private readonly IAmazonSimpleNotificationService _amazonSNSClient; /// <summary> /// Constructor for the Amazon SNS wrapper. /// </summary> /// <param name="amazonSQS">The injected Amazon SNS client.</param> public SNSWrapper(IAmazonSimpleNotificationService amazonSNS) { _amazonSNSClient = amazonSNS; } /// <summary> /// Create a new topic with a name and specific FIFO and de-duplication attributes. /// </summary> /// <param name="topicName">The name for the topic.</param> /// <param name="useFifoTopic">True to use a FIFO topic.</param> /// <param name="useContentBasedDeduplication">True to use content-based de-duplication.</param> /// <returns>The ARN of the new topic.</returns> public async Task<string> CreateTopicWithName(string topicName, bool useFifoTopic, bool useContentBasedDeduplication) { var createTopicRequest = new CreateTopicRequest() { Name = topicName, }; if (useFifoTopic) { // Update the name if it is not correct for a FIFO topic. if (!topicName.EndsWith(".fifo")) { createTopicRequest.Name = topicName + ".fifo"; } // Add the attributes from the method parameters. createTopicRequest.Attributes = new Dictionary<string, string> { { "FifoTopic", "true" } }; if (useContentBasedDeduplication) { createTopicRequest.Attributes.Add("ContentBasedDeduplication", "true"); } } var createResponse = await _amazonSNSClient.CreateTopicAsync(createTopicRequest); return createResponse.TopicArn; } /// <summary> /// Subscribe a queue to a topic with optional filters. /// </summary> /// <param name="topicArn">The ARN of the topic.</param> /// <param name="useFifoTopic">The optional filtering policy for the subscription.</param> /// <param name="queueArn">The ARN of the queue.</param> /// <returns>The ARN of the new subscription.</returns> public async Task<string> SubscribeTopicWithFilter(string topicArn, string? filterPolicy, string queueArn) { var subscribeRequest = new SubscribeRequest() { TopicArn = topicArn, Protocol = "sqs", Endpoint = queueArn }; if (!string.IsNullOrEmpty(filterPolicy)) { subscribeRequest.Attributes = new Dictionary<string, string> { { "FilterPolicy", filterPolicy } }; } var subscribeResponse = await _amazonSNSClient.SubscribeAsync(subscribeRequest); return subscribeResponse.SubscriptionArn; } /// <summary> /// Publish a message to a topic with an attribute and optional deduplication and group IDs. /// </summary> /// <param name="topicArn">The ARN of the topic.</param> /// <param name="message">The message to publish.</param> /// <param name="attributeName">The optional attribute for the message.</param> /// <param name="attributeValue">The optional attribute value for the message.</param> /// <param name="deduplicationId">The optional deduplication ID for the message.</param> /// <param name="groupId">The optional group ID for the message.</param> /// <returns>The ID of the message published.</returns> public async Task<string> PublishToTopicWithAttribute( string topicArn, string message, string? attributeName = null, string? attributeValue = null, string? deduplicationId = null, string? groupId = null) { var publishRequest = new PublishRequest() { TopicArn = topicArn, Message = message, MessageDeduplicationId = deduplicationId, MessageGroupId = groupId }; if (attributeValue != null) { // Add the string attribute if it exists. publishRequest.MessageAttributes = new Dictionary<string, MessageAttributeValue> { { attributeName!, new MessageAttributeValue() { StringValue = attributeValue, DataType = "String"} } }; } var publishResponse = await _amazonSNSClient.PublishAsync(publishRequest); return publishResponse.MessageId; } /// <summary> /// Unsubscribe from a topic by a subscription ARN. /// </summary> /// <param name="subscriptionArn">The ARN of the subscription.</param> /// <returns>True if successful.</returns> public async Task<bool> UnsubscribeByArn(string subscriptionArn) { var unsubscribeResponse = await _amazonSNSClient.UnsubscribeAsync( new UnsubscribeRequest() { SubscriptionArn = subscriptionArn }); return unsubscribeResponse.HttpStatusCode == HttpStatusCode.OK; } /// <summary> /// Delete a topic by its topic ARN. /// </summary> /// <param name="topicArn">The ARN of the topic.</param> /// <returns>True if successful.</returns> public async Task<bool> DeleteTopicByArn(string topicArn) { var deleteResponse = await _amazonSNSClient.DeleteTopicAsync( new DeleteTopicRequest() { TopicArn = topicArn }); return deleteResponse.HttpStatusCode == HttpStatusCode.OK; } }-
APIEinzelheiten finden Sie in den folgenden Themen unter AWS SDK for .NET APIReferenz.
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Das folgende Codebeispiel zeigt, wie Sie mithilfe des AWS Message Processing Framework für Anwendungen erstellen, die SQS Amazon-Nachrichten veröffentlichen und empfangen. NET.
- AWS SDK for .NET
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Bietet ein Tutorial für das AWS Message Processing Framework für. NET. Das Tutorial erstellt eine Webanwendung, die es dem Benutzer ermöglicht, eine SQS Amazon-Nachricht zu veröffentlichen, und eine Befehlszeilenanwendung, die die Nachricht empfängt.
Den vollständigen Quellcode und Anweisungen zur Einrichtung und Ausführung finden Sie im vollständigen Tutorial im AWS SDK for .NET Entwicklerhandbuch und im Beispiel unter. GitHub
In diesem Beispiel verwendete Dienste
Amazon SQS
Serverless-Beispiele
Das folgende Codebeispiel zeigt, wie eine Lambda-Funktion implementiert wird, die ein Ereignis empfängt, das durch den Empfang von Nachrichten aus einer SQS Warteschlange ausgelöst wird. Die Funktion ruft die Nachrichten aus dem Ereignisparameter ab und protokolliert den Inhalt jeder Nachricht.
- AWS SDK for .NET
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Anmerkung
Es gibt noch mehr dazu. GitHub Das vollständige Beispiel sowie eine Anleitung zum Einrichten und Ausführen finden Sie im Repository mit Serverless-Beispielen
. Konsumieren eines SQS Ereignisses mit Lambda unter Verwendung. NET.
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using Amazon.Lambda.Core; using Amazon.Lambda.SQSEvents; // Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class. [assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))] namespace SqsIntegrationSampleCode { public async Task FunctionHandler(SQSEvent evnt, ILambdaContext context) { foreach (var message in evnt.Records) { await ProcessMessageAsync(message, context); } context.Logger.LogInformation("done"); } private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context) { try { context.Logger.LogInformation($"Processed message {message.Body}"); // TODO: Do interesting work based on the new message await Task.CompletedTask; } catch (Exception e) { //You can use Dead Letter Queue to handle failures. By configuring a Lambda DLQ. context.Logger.LogError($"An error occurred"); throw; } } }
Das folgende Codebeispiel zeigt, wie eine partielle Batch-Antwort für Lambda-Funktionen implementiert wird, die Ereignisse aus einer SQS Warteschlange empfangen. Die Funktion meldet die Batch-Elementfehler in der Antwort und signalisiert Lambda, diese Nachrichten später erneut zu versuchen.
- AWS SDK for .NET
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Anmerkung
Es gibt noch mehr dazu. GitHub Das vollständige Beispiel sowie eine Anleitung zum Einrichten und Ausführen finden Sie im Repository mit Serverless-Beispielen
. Melden von SQS Batch-Artikelfehlern mit Lambda unter Verwendung von. NET.
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using Amazon.Lambda.Core; using Amazon.Lambda.SQSEvents; // Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class. [assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))] namespace sqsSample; public class Function { public async Task<SQSBatchResponse> FunctionHandler(SQSEvent evnt, ILambdaContext context) { List<SQSBatchResponse.BatchItemFailure> batchItemFailures = new List<SQSBatchResponse.BatchItemFailure>(); foreach(var message in evnt.Records) { try { //process your message await ProcessMessageAsync(message, context); } catch (System.Exception) { //Add failed message identifier to the batchItemFailures list batchItemFailures.Add(new SQSBatchResponse.BatchItemFailure{ItemIdentifier=message.MessageId}); } } return new SQSBatchResponse(batchItemFailures); } private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context) { if (String.IsNullOrEmpty(message.Body)) { throw new Exception("No Body in SQS Message."); } context.Logger.LogInformation($"Processed message {message.Body}"); // TODO: Do interesting work based on the new message await Task.CompletedTask; } }
