AWS Compute Blog
Introducing maximum concurrency of AWS Lambda functions when using Amazon SQS as an event source
This blog post is written by Solutions Architects John Lee and Jeetendra Vaidya.
AWS Lambda now provides a way to control the maximum number of concurrent functions invoked by Amazon SQS as an event source. You can use this feature to control the concurrency of Lambda functions processing messages in individual SQS queues.
This post describes how to set the maximum concurrency of SQS triggers when using SQS as an event source with Lambda. It also provides an overview of the scaling behavior of Lambda using this architectural pattern, challenges this feature helps address, and a demo of the maximum concurrency feature.
Overview
Lambda uses an event source mapping to process items from a stream or queue. The event source mapping reads from an event source, such as an SQS queue, optionally filters the messages, batches them, and invokes the mapped Lambda function.
The scaling behavior for Lambda integration with SQS FIFO queues is simple. A single Lambda function processes batches of messages within a single message group to ensure that messages are processed in order.
For SQS standard queues, the event source mapping polls the queue to consume incoming messages, starting at five concurrent batches with five functions at a time. As messages are added to the SQS queue, Lambda continues to scale out to meet demand, adding up to 60 functions per minute, up to 1,000 functions, to consume those messages. To learn more about Lambda scaling behavior, read ”Understanding how AWS Lambda scales with Amazon SQS standard queues.”
Challenges
When a large number of messages are in the SQS queue, Lambda scales out, adding additional functions to process the messages. The scale out can consume the concurrency quota in the account. To prevent this from happening, you can set reserved concurrency for individual Lambda functions. This ensures that the specified Lambda function can always scale to that much concurrency, but it also cannot exceed this number.
When the Lambda function concurrency reaches the reserved concurrency limit, the queue configuration specifies the subsequent behavior. The message is returned to the queue and retried based on the redrive policy, expired based on its retention policy, or sent to another SQS dead-letter queue (DLQ). While sending unprocessed messages to a DLQ is a good option to preserve messages, it requires a separate mechanism to inspect and process messages from the DLQ.
The following example shows a Lambda function reaching its reserved concurrency quota of 10.
Maximum Lambda concurrency with SQS as an event source
The launch of maximum concurrency for SQS as an event source allows you to control Lambda function concurrency per source. You set the maximum concurrency on the event source mapping, not on the Lambda function.
This event source mapping setting does not change the scaling or batching behavior of Lambda with SQS. You can continue to batch messages with a customized batch size and window. It rather sets a limit on the maximum number of concurrent function invocations per SQS event source. Once Lambda scales and reaches the maximum concurrency configured on the event source, Lambda stops reading more messages from the queue. This feature also provides you with the flexibility to define the maximum concurrency for individual event sources when the Lambda function has multiple event sources.
This feature can help prevent a Lambda function from consuming all available Lambda concurrency of the account and avoids messages returning to the queue unnecessarily because of Lambda functions being throttled. It provides an easier way to control and consume messages at a desired pace, controlled by the maximum number of concurrent Lambda functions.
The maximum concurrency setting does not replace the existing reserved concurrency feature. Both serve distinct purposes and the two features can be used together. Maximum concurrency can help prevent overwhelming downstream systems and unnecessary throttled invocations. Reserved concurrency guarantees a maximum number of concurrent instances for the function.
When used together, the Lambda function can have its own allocated capacity (reserved concurrency), while being able to control the throughput for each event source (maximum concurrency). When using the two features together, you must set the function reserved concurrency higher than the maximum concurrency on the SQS event source mapping to prevent throttling.
Setting maximum concurrency for SQS as an event source
You can configure the maximum concurrency for an SQS event source through the AWS Management Console, AWS Command Line Interface (CLI), or infrastructure as code tools such as AWS Serverless Application Model (AWS SAM). The minimum supported value is 2 and the maximum value is 1000. Refer to the Lambda quotas documentation for the latest limits.
You can set the maximum concurrency through the create-event-source-mapping AWS CLI command.
aws lambda create-event-source-mapping --function-name my-function --ScalingConfig {MaxConcurrency=2} --event-source-arn arn:aws:sqs:us-east-2:123456789012:my-queue
Seeing the maximum concurrency setting in action
The following demo compares Lambda receiving and processes messages differently when using maximum concurrency compared to reserved concurrency.
This GitHub repository contains an AWS SAM template that deploys the following resources:
- ReservedConcurrencyQueue (SQS queue)
- ReservedConcurrencyDeadLetterQueue (SQS queue)
- ReservedConcurrencyFunction (Lambda function)
- MaxConcurrencyQueue (SQS queue)
- MaxConcurrencyDeadLetterQueue (SQS queue)
- MaxConcurrencyFunction (Lambda function)
- CloudWatchDashboard (CloudWatch dashboard)
The AWS SAM template provisions two sets of identical architectures and an Amazon CloudWatch dashboard to monitor the resources. Each architecture comprises a Lambda function receiving messages from an SQS queue, and a DLQ for the SQS queue.
The maxReceiveCount is set as 1 for the SQS queues, which sends any returned messages directly to the DLQ. The ReservedConcurrencyFunction has its reserved concurrency set to 5, and the MaxConcurrencyFunction has the maximum concurrency for the SQS event source set to 5.
Pre-requisites
Running this demo requires the AWS CLI and the AWS SAM CLI. After installing both CLIs, clone this GitHub repository and navigate to the root of the directory:
git clone https://github.com/aws-samples/aws-lambda-amazon-sqs-max-concurrency
cd aws-lambda-amazon-sqs-max-concurrency
Deploying the AWS SAM template
-
- Build the AWS SAM template with the build command to prepare for deployment to your AWS environment.
sam build
-
- Use the guided deploy command to deploy the resources in your account.
sam deploy --guided
- Give the stack a name and accept the remaining default values. Once deployed, you can track the progress through the CLI or by navigating to the AWS CloudFormation page in the AWS Management Console.
- Note the queue URLs from the Outputs tab in the AWS SAM CLI, CloudFormation console, or navigate to the SQS console to find the queue URLs.
Running the demo
The deployed Lambda function code simulates processing by sleeping for 10 seconds before returning a 200 response. This allows the function to reach a high function concurrency number with only a small number of messages.
To add 25 messages to the Reserved Concurrency queue, run the following commands. Replace <ReservedConcurrencyQueueURL>
with your queue URL from the AWS SAM Outputs.
for i in {1..25}; do aws sqs send-message --queue-url <ReservedConcurrencyQueueURL> --message-body testing; done
To add 25 messages to the Maximum Concurrency queue, run the following commands. Replace <MaxConcurrencyQueueURL>
with your queue URL from the AWS SAM Outputs.
for i in {1..25}; do aws sqs send-message --queue-url <MaxConcurrencyQueueURL> --message-body testing; done
After sending messages to both queues, navigate to the dashboard URL available in the Outputs tab to view the CloudWatch dashboard.
Validating results
Both Lambda functions have the same number of invocations and the same concurrent invocations fixed at 5. The CloudWatch dashboard shows the ReservedConcurrencyFunction experienced throttling and 9 messages, as seen in the top-right metric, were sent to the corresponding DLQ. The MaxConcurrencyFunction did not experience any throttling and messages were not delivered to the DLQ.
Clean up
To remove all the resources created in this demo, use the delete command and follow the prompts:
sam delete
Conclusion
You can now control the maximum number of concurrent functions invoked by SQS as a Lambda event source. This post explains the scaling behavior of Lambda using this architectural pattern, challenges this feature helps address, and a demo of maximum concurrency in action.
There are no additional charges to use this feature besides the standard SQS and Lambda charges. You can start using maximum concurrency for SQS as an event source with new or existing event source mappings by connecting it with SQS. This feature is available in all commercial Regions where Lambda is available.
For more serverless learning resources, visit Serverless Land.