gecko-dev/taskcluster/docker
Carsten "Tomcat" Book 89882dc5f4 merge mozilla-inbound to mozilla-central a=merge 2017-01-10 12:11:31 +01:00
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android-gradle-build Backed out changeset fe7303de56be (bug 1302763) for failing webdriver tests on Linux x64 debug (geckodriver.manifest fetch failed). r=backout 2016-12-19 21:15:07 +01:00
base-build Merge mozilla-central to mozilla-inbound 2016-12-22 16:25:35 +01:00
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decision Merge mozilla-central to mozilla-inbound 2016-12-22 16:25:35 +01:00
desktop-build Bug 1324492 - Install CMake 3.7.1 in desktop-build images; r=dustin 2017-01-04 16:50:08 -05:00
desktop-test Backed out changeset fe7303de56be (bug 1302763) for failing webdriver tests on Linux x64 debug (geckodriver.manifest fetch failed). r=backout 2016-12-19 21:15:07 +01:00
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image_builder Bug 1329701 - robustcheckout.py moved r=gps 2017-01-09 11:29:38 -06:00
lint Backed out changeset fe7303de56be (bug 1302763) for failing webdriver tests on Linux x64 debug (geckodriver.manifest fetch failed). r=backout 2016-12-19 21:15:07 +01:00
recipes Bug 1287099 - Update Ubuntu 16.04 docker image for linux32; r=jmaher 2017-01-09 12:01:11 -07:00
rust-build Bug 1325445 - Use sha256sum to verify rust releases. r=mshal 2016-12-23 13:29:13 -08:00
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README.md Backed out changeset fe7303de56be (bug 1302763) for failing webdriver tests on Linux x64 debug (geckodriver.manifest fetch failed). r=backout 2016-12-19 21:15:07 +01:00
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README.md

Docker Images for use in TaskCluster

This folder contains various docker images used in taskcluster as well as other misc docker images which may be useful for hacking on gecko.

Organization

Each folder describes a single docker image. We have two types of images that can be defined:

  1. Task Images (build-on-push)
  2. Docker Images (prebuilt)

These images depend on one another, as described in the FROM line at the top of the Dockerfile in each folder.

Images could either be an image intended for pushing to a docker registry, or one that is meant either for local testing or being built as an artifact when pushed to vcs.

Task Images (build-on-push)

Images can be uploaded as a task artifact, indexed under a given namespace, and used in other tasks by referencing the task ID.

Important to note, these images do not require building and pushing to a docker registry, and are build per push (if necessary) and uploaded as task artifacts.

The decision task that is run per push will determine if the image needs to be built based on the hash of the context directory and if the image exists under the namespace for a given branch.

As an additional convenience, and a precaution to loading images per branch, if an image has been indexed with a given context hash for mozilla-central, any tasks requiring that image will use that indexed task. This is to ensure there are not multiple images built/used that were built from the same context. In summary, if the image has been built for mozilla-central, pushes to any branch will use that already built image.

To use within an in-tree task definition, the format is:

image:
  type: 'task-image'
  path: 'public/image.tar.zst'
  taskId: '{{#task_id_for_image}}builder{{/task_id_for_image}}'
Context Directory Hashing

Decision tasks will calculate the sha256 hash of the contents of the image directory and will determine if the image already exists for a given branch and hash or if a new image must be built and indexed.

Note: this is the contents of only the context directory, not the image contents.

The decision task will:

  1. Recursively collect the paths of all files within the context directory
  2. Sort the filenames alphabetically to ensure the hash is consistently calculated
  3. Generate a sha256 hash of the contents of each file.
  4. All file hashes will then be combined with their path and used to update the hash of the context directory.

This ensures that the hash is consistently calculated and path changes will result in different hashes being generated.

Task Image Index Namespace

Images that are built on push and uploaded as an artifact of a task will be indexed under the following namespaces.

  • docker.images.v2.level-{level}.{image_name}.latest
  • docker.images.v2.level-{level}.{image_name}.pushdate.{year}.{month}-{day}-{pushtime}
  • docker.images.v2.level-{level}.{image_name}.hash.{context_hash}

Not only can images be browsed by the pushdate and context hash, but the 'latest' namespace is meant to view the latest built image. This functions similarly to the 'latest' tag for docker images that are pushed to a registry.

Docker Registry Images (prebuilt)

Deprecation Warning: Use of prebuilt images should only be used for base images (those that other images will inherit from), or private images that must be stored in a private docker registry account. Existing public images will be converted to images that are built on push and any newly added image should follow this pattern.

These are images that are intended to be pushed to a docker registry and used by specifying the folder name in task definitions. This information is automatically populated by using the 'docker_image' convenience method in task definitions.

Example: image: {#docker_image}builder{/docker_image}

Each image has a hash and a version, given by its HASH and VERSION files. When rebuilding a prebuilt image the VERSION should be bumped. Once a new version of the image has been built the HASH file should be updated with the hash of the image.

The HASH file is the image hash as computed by docker, this is always on the format sha256:<digest>. In production images will be referenced by image hash. This mitigates attacks against the registry as well as simplifying validate of correctness. The VERSION file only serves to provide convenient names, such that old versions are easy to discover in the registry (and ensuring old versions aren't deleted by garbage-collection).

This way, older tasks which were designed to run on an older version of the image can still be executed in taskcluster, while new tasks can use the new version. Further more, this mitigates attacks against the registry as docker will verify the image hash when loading the image.

Each image also has a REGISTRY, defaulting to the REGISTRY in this directory, and specifying the image registry to which the completed image should be uploaded.

Building images

Generally, images can be pulled from the registry rather than built locally, however, for developing new images it's often helpful to hack on them locally.

To build an image, invoke mach taskcluster-build-image with the name of the folder (without a trailing slash):

./mach taskcluster-build-image <image-name>

This is a tiny wrapper around docker build -t $REGISTRY/$FOLDER:$VERSION. Once a new version image has been built and pushed to the remote registry using docker push $REGISTRY/$FOLDER:$VERSION the HASH file must be updated for the change to effect in production.

Note: If no "VERSION" file present in the image directory, the tag 'latest' will be used and no registry will be defined. The image is only meant to run locally and will overwrite any existing image with the same name and tag.

Adding a new image

The docker image primitives are very basic building block for constructing an "image" but generally don't help much with tagging it for deployment so we have a wrapper (./build.sh) which adds some sugar to help with tagging/versioning... Each folder should look something like this:

  - your_amazing_image/
    - your_amazing_image/Dockerfile: Standard docker file syntax
    - your_amazing_image/VERSION: The version of the docker file
      (required* used during tagging)
    - your_amazing_image/REGISTRY: Override default registry
      (useful for secret registries)

Conventions

In some image folders you will see .env files these can be used in conjunction with the --env-file flag in docker to provide a environment with the given environment variables. These are primarily for convenience when manually hacking on the images.

You will also see a system-setup.sh script used to build the image. Do not replicate this technique - prefer to include the commands and options directly in the Dockerfile.