« Lambda » : différence entre les versions
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var result = JsonSerializer.Deserialize<AwsJobResult<LambdaJob>>(response.Payload, jsonSerializerOptions); | var result = JsonSerializer.Deserialize<AwsJobResult<LambdaJob>>(response.Payload, jsonSerializerOptions); | ||
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Version du 31 mai 2024 à 14:20
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Description
Serverless service / Function as a service allowing to run code without having to worry about underlying hardware and OS.
Event driven: the lambda is triggered by an event.
Pay only for what you use: per request and based on the duration of the code execution.
Use cases
- Data transformation (Kinesis Data Stream as input)
- File processing (when uploaded to S3 bucket)
- Website backend microservice
- Scheduled tasks
Bad use cases
- Long running processes (timeout after 15mn)
- Constant workload (no scalability and high cost)
- Large code base (needed to be loaded at startup)
- State management (lambda are stateless)
Anti-patterns
- Monolithic function
- increase package size
- hard to enforce least privilege permissions
- hard to upgrade, maintain and test
- Recursion
- endless loop
- Orchestration
- avoid complex workflow logic
- ties lambda with other systems
- instead consider AWS Step Functions or EventBridge
- Chaining (synchronously invoke another lambda)
- instead use EventBridge or QueueService
- Waiting (synchronously call services or databases)
- instead use asynchronous calls
Runtime
- OS
- Libraries
- Programming language (.NET, Node.js, Python, Go, Ruby, Java)
Environnement variables
DOTNET_STARTUP_HOOKS | ex: path to an assembly to inject logging |
Wrapper scripts
Execute the wrapper on top of the runtime and the lambda function.
- run shell commands and binaries
Use AWS_LAMBDA_EXEC_WRAPPER to point to your wrapper script.
Custom runtime
Provide your custom runtime.
- unsupported programming language
Handler (entry point)
Method responsible for processing input events.
synchronous execution | result returned to the calling app |
asynchronous execution | result sent to the configured destination otherwise lost |
Configuration
Setting | Description |
---|---|
Memory | from 128 MB (default) to 10 GB |
vCPU | 1'769 MB = 1 vCPU, 10 GB = 6 vCPU, for single-threaded code allocated more than 1'769 MB is useless. Compare ARM and x86. |
timeout | from 1s to 15mn, default to 3s |
VPC |
|
Ephemeral storage | /tmp from 512 MB (default) to 10 GB |
Execution role | grants permissions to access AWS services |
Resource-based policy | define what others are allowed to do to the function |
Environment variables |
|
Logging | format (text or JSON), level, group |
Storage
Directories
Path | Description |
---|---|
/var/task | Lambda package (function files) |
/tmp | Temporary storage with write access |
/opt | Lambda layer (layer files) |
Elastic File System (EFS)
- Persistent
- Serverless, scalable
- Support concurrent access
- Require VPC access
S3
- Persistent
- No VPC required
- Accessed via API
IAM entities
Type | Description |
---|---|
User | individual with unique credentials |
Role | entity for temporary access (access to a db) |
Policy | permission for access to resources (apply to a user or a role to read from a specific db table) |
User group | logical collection of users for easier management |
Synchronous execution
Invocation result
Result content | Description |
---|---|
Status code | 200 success, 4xx or 5xx error |
Executed version | |
Log result | last 4 KB of the execution log in base64 encoding |
Function error | only if an error occured. Code error, timeout, invalid JSON output |
Response body | payload |
Asynchronous execution
The Lambda is executed and its result (Invocation Record) is sent to a destination.
Destinations
- Simple Notification Service (SNS) topic
- Simple Queue Service (SQS) queue
- Lambda function
- EventBridge event bus
Event Source
- Simple Queue Service (SQS) queue
- DynamoDB stream
- DocumentDB stream
- Kinesis data stream
- Message Queue (MQ)
- Kafka
Lambda has builtin functionalities to poll the event source with batching and filtering functionality.
Event source mapping polls and gathers records before it will initialize a Lambda function and send a batch of events to it for processing.
Error handling
If the invocation errors, then it will try the same invocation again after a minute.
After X fails that exceeds the configured retry attempts (0, 1 or 2), the failed invocation goes to:
- a dead-letter queue
- a failure destination
Optimization
Make the most of warm start
The initialization of the function is run only during the cold start.
During the warm start the environment is thawed and only the function handler is executed.
Use function initialization to: (outside of the handler function)
- load external libraries
- open db connection
- load configuration and secrets
- use the ephemeral storage, such as a local cache for files
SnapStart
Only for Java runtime |
Lambda initializes the function at publish rather than during cold-start invocation.
If not invoked, snapshots are deleted after 14 days.
Limitations:
- cannot be used with provisioned concurrency
- supports limited runtimes, architecture and ephemeral storage
Ensure to (with post-snapshot hook):
- reestablish network connections
- have preloaded data up to date
- take care of uniqueness (generation of random numbers or GUID), each function starts with a clone of the snapshot
Concurrency
Concurrency type | Description |
---|---|
Account concurrency | max number of concurrent instances across all functions (AWS → Lambda → Dashboard) |
Reserved concurrency | upper limit of a function's concurrency |
Burst concurrency | increase quota, default to 1'000 instances every 10 s |
Provisioned concurrency | initialize execution env ahead of time. Application Auto Scaling can be used to automatically adjust provisioned concurrency |
Setting up your .NET development environment
# install the VS project template dotnet new install Amazon.Lambda.Templates # install the command line tools dotnet tool install -g Amazon.Lambda.Tools |
Install the AWS Toolkit for Visual Studio extension.
AWS Lambda application types
AWS Lambda application type | Description |
---|---|
Class library | |
Executable assembly | |
AWS Serverless Application | ASP.NET application hosted in the AWS environment. It has a handful of additional dependencies that make it interoperate with AWS runtime. |
C# class library
You provide Lambda with information about your function's handler in the form of a handler string: ASSEMBLY::TYPE::METHOD
- ASSEMBLY is the name of the .NET assembly file for your application. If you use the Amazon.Lambda.Tools CLI to build your application and you don't set the assembly name using the AssemblyName property in the .csproj file, then ASSEMBLY is simply the name of your .csproj file.
- TYPE is the full name of the handler type, which consists of the Namespace and the ClassName.
- METHOD is the name of the function handler method in your code.
ex: MyProject::MyNamespace.MyClass::MyFunctionHandler
Function.cs |
// 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 MyProject; public class Function { public string FunctionHandler(string input, ILambdaContext context) { return input.ToUpper(); } } |
aws-lambda-tools-defaults.json |
{ "Information": [ ], "profile": "MyAwsProfile", "region": "eu-central-1", "configuration": "Release", "function-architecture": "x86_64", "function-runtime": "dotnet8", "function-memory-size": 512, "function-timeout": 30, "function-handler": "MyProject::MyProject.Function::FunctionHandler" } |
On VS, if the extension AWS Toolkit is installed, you have the AWS .NET Mock Lambda Test Tool available which allows you to debug locally.
Properties/launchSettings.json |
{ "profiles": { "Mock Lambda Test Tool": { "commandName": "Executable", "commandLineArgs": "--port 5050", "workingDirectory": ".\\bin\\$(Configuration)\\net8.0", "executablePath": "%USERPROFILE%\\.dotnet\\tools\\dotnet-lambda-test-tool-8.0.exe" } } } |
C# executable assembly
Using the C# 9's top-level statements feature, you generate an executable assembly which will be run by the Lambda. You provide Lambda only with the name of the executable assembly to run.
var handler = async (string argument1, ILambdaContext context) => { }; // bootstrap the Lambda runtime and pass it the handler method await LambdaBootstrapBuilder.Create(handler, new DefaultLambdaJsonSerializer()).Build().RunAsync(); |
To debug locally you have to create the debug configuration file for you lambda.
Properties\launchSettings.json |
{ "profiles": { "Mock Lambda Test Tool": { "commandName": "Executable", "commandLineArgs": "--port 5050", "executablePath": "%USERPROFILE%\\.dotnet\\tools\\dotnet-lambda-test-tool-8.0.exe", "workingDirectory": ".\\bin\\$(Configuration)\\net8.0", "environmentVariables": { "AWS_LAMBDA_RUNTIME_API": "localhost:5050", "AWS_PROFILE": "MyProfile", "AWS_REGION": "us-east-1" } } } } |
Handle Enums in the input arguments of .NET AWS Lambda Functions
Function.cs |
// create a serializer to handle enums public class LambdaEnumSerializer : DefaultLambdaJsonSerializer { public LambdaEnumSerializer() : base(options => options.Converters.Add(new JsonStringEnumConverter())) { } } // then use it [assembly: LambdaSerializer(typeof(LambdaEnumSerializer))] // OR use a stream as input argument and deserialize it handling enums public string FunctionHandler(Stream input, ILambdaContext context) { var options = new JsonSerializerOptions { PropertyNameCaseInsensitive = true, Converters = { new JsonStringEnumConverter() } }; JsonSerializer.Deserialize<MyClass>(input, options); } |
Logging
Lambda pushes logs to the CloudWatch Logs service under /aws/lambda/[FunctionName].
Permissions (function's execution role, ex: AWSLambdaBasicExecutionRole policy):
- create CloudWatch groups
- create CloudWatch streams
- write log events
- Logs are organized into groups (1 group per function)
- each group contains a collection of streams (1 stream per function instance) YYYY/MM/DD[Function version][Execution env GUID]
LambdaLogger.Log("Message"); |
Asynchronous invocation
When you invoke a function asynchronously, you don't wait for a response from the function code.
You hand off the event to Lambda and Lambda handles the rest.
You can configure how Lambda handles errors, and can send invocation records to a downstream resource (destination) to chain together components of your application.
For asynchronous invocation, Lambda places the event in a queue and returns a success response without additional information.
A separate process reads events from the queue and sends them to your function.
Destination
Allow to route asynchronous function results as an execution record to a destination resource.
Available destinations:
- Lambda
- Simple Notification Service
- Simple Queue Service
- EventBridge
Works only if the lambda is called asynchronously (invoke via queue) |
Deployment
dotnet lambda deploy-function [AssemblyName] --profile [Profile] |
Permissions
WatchLogs
EventBridge
Call a lambda from code
var jsonSerializerOptions = new JsonSerializerOptions { PropertyNamingPolicy = JsonNamingPolicy.CamelCase, Converters = { new JsonStringEnumConverter() } }; var amazonLambdaClient = new AmazonLambdaClient(); var request = new InvokeRequest { FunctionName = functionName, Payload = JsonSerializer.Serialize(myObject, jsonSerializerOptions), LogType = LogType.Tail }; var response = await this.amazonLambdaClient.InvokeAsync(request); if(response.HttpStatusCode == System.Net.HttpStatusCode.OK) { var payload = Encoding.ASCII.GetString(response.Payload.ToArray()); // to debug only var result = JsonSerializer.Deserialize<AwsJobResult<LambdaJob>>(response.Payload, jsonSerializerOptions); } |
Templates
# list your installed Amazon Lambda Templates dotnet new list lambda # install Amazon Lambda Templates dotnet new install Amazon.Lambda.Templates |
Template | Description |
---|---|
Lambda ASP.NET Core Web API | Web API |
Lambda ASP.NET Core Web Application with Razor Pages | Razor MVC Web Application |
Lambda Serverless with Powertools for AWS Lambda (.NET) | Powertools is a developer toolkit to implement Serverless best practices and increase developer velocity |
Lambda ASP.NET Core Web API
Use a CloudFormation stack and an S3 to upload the application (zip) and the CloudFormation template file.
- CloudFormation stack
- IAM Role (Lambda Role)
- IAM Role (Lambda Role)
- Lambda Function (Web API)
- VPC
- API Gateway (REST)
Errors
Could not find the specified handler assembly with the file name LambdaTest
The Lambda on AWS has wrongly set the handler to LambdaTest.
AWS - Lambda - Functions - select your function - Code tab - Runtime settings - Edit - change the Handler
Your function doesn't have permission to write to Amazon CloudWatch Logs
- AWS → IAM → Roles → [the roles used by your lambda] → Persissions policies → Add permission → Create inline policy
- Service = CloudWatch Logs
- All CloudWatch Logs actions (logs:*)
- All Resources