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Creating Multi-Arch docker images for ARM64/x86 (amd64) using CodeBuild from Jenkins. Headless browsing with Chromium and Puppeteer.

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AdamTylerLynch/puppeteer-multiarch

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⚠️ FOR EDUCATIONAL PURPOSES ONLY ⚠️

Docker images, buildspecs, and guidance provided as proof of concept only and for educational purposes only.

Creating multi-arch headless browsing (Puppeteer) Docker image

For building the multi-arch images, we are going to produce native build docker images using AWS CodeBuild, publish them to ECR, and then tie them together with a docker image manifest.

I referenced the following documentation to complete the solution: https://docs.aws.amazon.com/codebuild/latest/userguide/sample-docker.html https://docs.aws.amazon.com/AmazonECR/latest/userguide/docker-push-multi-architecture-image.html https://aws.amazon.com/blogs/containers/introducing-multi-architecture-container-images-for-amazon-ecr/

CodeBuild Projects

Let's start with creating two CodeBuild projects, one for building amd64 and one for arm64 Docker images (we will create a third for Docker manifest creation later). The projects should be boilerplate, reading source from your SCM or getting it via the CodeBuild Jenkins Plugin. Each should be configured to run the standard image of your choice and on the proper architecture (amd64 or arm64), I chose Amazon Linux 2.

Important things to note:

  1. Use Amazon Linux 2 (not Ubuntu)
  2. Mark the project as "Privileged"
  3. Configure the project to use the buildspec.yml from source.
  4. Since I am using the same buildspec.yml file for both CodeBuild projects, we are going to use environment variables on the CodeBuild projects to handle image tagging.
  5. Make sure to specify the following environment variables:
Environment Variable arm64 Project amd64 Project manifest Project
AWS_DEFAULT_REGION us-east-1 us-east-1 us-east-1
AWS_ACCOUNT_ID 33nnnnnn33 33nnnnnn33 33nnnnnn33
IMAGE_REPO_NAME multi-arch-test multi-arch-test multi-arch-test
IMAGE_TAG latest-arm64v8 latest-amd64
IMAGE_ARCH arm64v8 amd64

Image of ARM Project

Image of x86 Project

Building native Docker images with a shared buildspec.yml

The CodeBuild projects for creating the Docker images will share the buildspec.yml file. The buildspec.yml file uses environment variables defined in CodeBuild for building, tagging, and pushing the docker images.

It is important to note that the IMAGE_TAG and IMAGE_ARCH be properly defined as to be recognized in the buildspec-manifest.yml file (detailed later).

Each project will be executed independently to produce a platform native image, and push that image to ECR. In the next section we will tie them together with a Docker manifest.

- docker build -t $IMAGE_REPO_NAME:$IMAGE_TAG --build-arg ARCH=$IMAGE_ARCH/ .

- docker tag $IMAGE_REPO_NAME:$IMAGE_TAG $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME:$IMAGE_TAG

- docker push $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME:$IMAGE_TAG

Creating a Docker manifest to reference native architecture images

Create a CodeBuild project that reads from the same source repo. Make sure to specify the name of the manifest buildspec file, I chose buildspec-manifest.yml.

Image of specifying buildspec name

This project will will create a Docker manifest pointing to the amd64 and arm64 images created & pushed by the previous projects, annotate the manifest with the proper architectures, and then push the manifest to ECR. Let's talk through it:

Create the manifest, and during that creation reference the two native images that were built and pushed previously. We do not yet push the manifest to ECR. I also did not specify a tag for this manifest, so latest is assumed. Note that I hardcoded the previous image tags here, but you can easily use environment variables.

- docker manifest create $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME:latest-arm64v8 $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME:latest-amd64

Now, we annotate the newly created manifest to specify the platform architecture, and we again reference the two native images that were built and pushed previously. Note that I hardcoded the previous image tags here, but you can easily use environment variables.

- docker manifest annotate --arch arm64 $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME:latest-arm64v8

- docker manifest annotate --arch amd64 $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME:latest-amd64

Last, we push this manifest to ECR.

- docker manifest push $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/$IMAGE_REPO_NAME

Using Jenkins to orchestrate

We will use a Jenkins pipeline to orchestrate the building of the native images and the creation of the manifest. We will use the Jenkins plugin for Code Build to initiate the builds.

The Jenkins Pipeline project will initiate two other Jenkins projects in parallel (using stages) to create the native docker images, and then create the manifest. The project hierarchy looks like this:

  • Multi-Arch Pipeline
    • Stages
      • In Parallel
        • Build arm64
        • Build amd64
      • Create Manifest

See the jenkinsfile to see the details of the Pipeline

Individual Jenkins projects

The individual Jenkins projects initiate their respective CodeBuild projects with default settings and only specifying the CodeBuild project name. The CodeBuild project will use the buildspec.yml and buildspec-manifest.yml specified earlier for operational control.

Image of Jenkins stages

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Creating Multi-Arch docker images for ARM64/x86 (amd64) using CodeBuild from Jenkins. Headless browsing with Chromium and Puppeteer.

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