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Http Lambda CDK

A CDK construct for writing AWS Lambda functions that run a regular http server.

It consists of three parts:

  1. an AWS lambda function
  2. the aws-lambda-web-adapter extension
  3. an API endpoint via Lambda function URLs

Installation

npm install http-lambda-cdk

Example

The only requirement for your web server is that it listens on port 8080.

Take this rust server for example:

use axum::{
    http::{HeaderMap, StatusCode},
    response::IntoResponse,
    routing::get,
    Router,
};

use std::net::SocketAddr;

#[tokio::main]
async fn main() {
    let port = 8080;
    let addr = SocketAddr::from(([127, 0, 0, 1], port));

    let app = Router::new().route("/", get(root));

    axum::Server::bind(&addr)
        .serve(app.into_make_service())
        .await
        .unwrap();
}

async fn root() -> impl IntoResponse {
    let mut headers = HeaderMap::new();
    headers.insert("Content-Type", "text/html".parse().unwrap());

    (StatusCode::OK, headers, "<h1>Hello World!</h1>")
}

Deploy the web server

The following CDK stack shows how you would deploy our rust server to AWS Lambda (you can find the full example here):

import { CfnOutput, Duration, Stack, StackProps } from "aws-cdk-lib";
import { Construct } from "constructs";
import * as path from "path";
import * as lambda from "aws-cdk-lib/aws-lambda";
import { HttpLambda } from "http-lambda-cdk";

export class RustHttpStack extends Stack {
  constructor(scope: Construct, id: string, props?: StackProps) {
    super(scope, id, props);

    const buildScript = path.join(process.cwd(), "..", "app", "build.sh");

    const { functionUrl } = new HttpLambda(this, "Lambda", {
      // see section 'Build script'
      buildScript,
      // 'bootstrap' is the name of our rust executable
      handler: "bootstrap",
      // our executable is compiled for ARM64
      architecture: lambda.Architecture.ARM_64,
      runtime: lambda.Runtime.PROVIDED_AL2,
      memorySize: 512,
      timeout: Duration.seconds(10),
    });

    new CfnOutput(this, "HttpEndpoint", {
      value: functionUrl.url,
    });
  }
}

Build script

The construct expects you to define a build script that compiles your application. While deploying, the construct will call the script with two parameters:

  • $1: a path to a temporary directory, where the build script should copy its output to
  • $2: the selected CPU architecture ("arm64" or "x86_64")

Your build script has to copy your application code to the path provided by the first parameter.

Take a look at this build script for our rust server (build.sh):

# Exit on error
set -e

architecture=$2
if [[ $2 == "x86_64" ]]
then
  architecture=""
else 
  architecture="--arm64"
fi

# Use cargo lambda plugin to cross compile our app
cargo lambda build --release $architecture

# Copy application to the deployment folder
cp -r ./target/lambda/app/ $1

You can find a Node.js example here.

How does it work

  1. a new AWS lambda http event is triggered
  2. the lambda starts the aws-lambda-web-adapter extension automatically
  3. the lambda starts your http server defined by handler
  4. the aws-lambda-web-adapter does a healthcheck on your server and waits for it to return http status 200. By default the extension will call GET /, but you can also change it to be another path.
  5. the aws-lambda-web-adapter receives the event and transforms the event to a http request and calls your http server on port 8080
  6. your http server returns a http response
  7. the aws-lambda-web-adapter transforms the response to the AWS lambda response format

Healthcheck configuration

You can change the healthcheck path via the READINESS_CHECK_PATH environment variable:

new HttpLambda(this, "Lambda", {
  [...]
  environment: {
    READINESS_CHECK_PATH: "/healthcheck"
  }
});

Troubleshooting

  • ensure that handler is set to your executable / script file
  • node.js scripts have to include a node shebang
  • ensure that the runtime is node when running a node http server

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