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Continuous Integration is important component of making Apache Airflow robust and stable. We are running a lot of tests for every pull request, for main and v2-*-test branches and regularly as CRON jobs.

Our execution environment for CI is GitHub Actions. GitHub Actions (GA) are very well integrated with GitHub code and Workflow and it has evolved fast in 2019/202 to become a fully-fledged CI environment, easy to use and develop for, so we decided to switch to it. Our previous CI system was Travis CI.

However part of the philosophy we have is that we are not tightly coupled with any of the CI environments we use. Most of our CI jobs are written as bash scripts which are executed as steps in the CI jobs. And we have a number of variables determine build behaviour.

Our builds on CI are highly optimized. They utilise some of the latest features provided by GitHub Actions environment that make it possible to reuse parts of the build process across different Jobs.

Big part of our CI runs use Container Images. Airflow has a lot of dependencies and in order to make sure that we are running tests in a well configured and repeatable environment, most of the tests, documentation building, and some more sophisticated static checks are run inside a docker container environment. This environment consist of two types of images: CI images and PROD images. CI Images are used for most of the tests and checks where PROD images are used in the Kubernetes tests.

In order to run the tests, we need to make sure that the images are built using latest sources and that it is done quickly (full rebuild of such image from scratch might take ~15 minutes). Therefore optimisation techniques have been implemented that use efficiently cache from the GitHub Docker registry - in most cases this brings down the time needed to rebuild the image to ~4 minutes. In some cases (when dependencies change) it can be ~6-7 minutes and in case base image of Python releases new patch-level, it can be ~12 minutes.

We are using GitHub Container Registry to store the results of the Build Images workflow which is used in the Tests workflow.

Currently in main version of Airflow we run tests in 4 different versions of Python (3.6, 3.7, 3.8, 3.9) which means that we have to build 8 images (4 CI ones and 4 PROD ones). Yet we run around 12 jobs with each of the CI images. That is a lot of time to just build the environment to run. Therefore we are utilising pull_request_target feature of GitHub Actions.

This feature allows to run a separate, independent workflow, when the main workflow is run - this separate workflow is different than the main one, because by default it runs using main version of the sources but also - and most of all - that it has WRITE access to the Github Container Image registry.

This is especially important in our case where Pull Requests to Airflow might come from any repository, and it would be a huge security issue if anyone from outside could utilise the WRITE access to the Container Image Registry via external Pull Request.

Thanks to the WRITE access and fact that the pull_request_target by default uses the main version of the sources, we can safely run some logic there will checkout the incoming Pull Request, build the container image from the sources from the incoming PR and push such image to an GitHub Docker Registry - so that this image can be built only once and used by all the jobs running tests. The image is tagged with unique COMMIT_SHA of the incoming Pull Request and the tests run in the Pull Request can simply pull such image rather than build it from the scratch. Pulling such image takes ~ 1 minute, thanks to that we are saving a lot of precious time for jobs.

We use GitHub Container Registry. GITHUB_TOKEN is needed to push to the registry and we configured scopes of the tokens in our jobs to be able to write to the registry.

The main goal of the CI philosophy we have that no matter how complex the test and integration infrastructure, as a developer you should be able to reproduce and re-run any of the failed checks locally. One part of it are pre-commit checks, that allow you to run the same static checks in CI and locally, but another part is the CI environment which is replicated locally with Breeze.

You can read more about Breeze in BREEZE.rst but in essence it is a script that allows you to re-create CI environment in your local development instance and interact with it. In its basic form, when you do development you can run all the same tests that will be run in CI - but locally, before you submit them as PR. Another use case where Breeze is useful is when tests fail on CI. You can take the full COMMIT_SHA of the failed build pass it as --github-image-id parameter of Breeze and it will download the very same version of image that was used in CI and run it locally. This way, you can very easily reproduce any failed test that happens in CI - even if you do not check out the sources connected with the run.

You can read more about it in BREEZE.rst and TESTING.rst

Depending whether the scripts are run locally (most often via Breeze) or whether they are run in Build Images or Tests workflows they can take different values.

You can use those variables when you try to reproduce the build locally.

Variable Local development Build Images CI workflow Tests Workflow Comment
Basic variables
PYTHON_MAJOR_MINOR_VERSION       Major/Minor version of Python used.
DB_RESET false true
true | Determines whether database should be reset
at the container entry. By default locally
the database is not reset, which allows to
keep the database content between runs in
case of Postgres or MySQL. However,
it requires to perform manual init/reset
if you stop the environment.
Mount variables
MOUNT_SELECTED_LOCAL_SOURCES true false false Determines whether local sources are mounted to inside the container. Useful for local development, as changes you make locally can be immediately tested in the container. We mount only selected, important folders. We do not mount the whole project folder in order to avoid accidental use of artifacts (such as egg-info directories) generated locally on the host during development.
MOUNT_ALL_LOCAL_SOURCES false false false Determines whether all local sources are mounted to inside the container. Useful for local development when you need to access .git folders and other folders excluded when MOUNT_SELECTED_LOCAL_SOURCES is true. You might need to manually delete egg-info folder when you enter breeze and the folder was generated using different Python versions.
Force variables
FORCE_PULL_IMAGES true true true Determines if images are force-pulled, no matter if they are already present locally. This includes not only the CI/PROD images but also the Python base images. Note that if Python base images change, also the CI and PROD images need to be fully rebuild unless they were already built with that base Python image. This is false for local development to avoid often pulling and rebuilding the image. It is true for CI workflow in case waiting from images is enabled as the images needs to be force-pulled from GitHub Registry, but it is set to false when waiting for images is disabled.
FORCE_BUILD_IMAGES false false false Forces building images. This is generally not very useful in CI as in CI environment image is built or pulled only once, so there is no need to set the variable to true. For local builds it forces rebuild, regardless if it is determined to be needed.
FORCE_ANSWER_TO_QUESTIONS   yes yes This variable determines if answer to questions during the build process should be automatically given. For local development, the user is occasionally asked to provide answers to questions such as - whether the image should be rebuilt. By default the user has to answer but in the CI environment, we force "yes" answer.
SKIP_CHECK_REMOTE_IMAGE false true true Determines whether we check if remote image is "fresher" than the current image. When doing local breeze runs we try to determine if it will be faster to rebuild the image or whether the image should be pulled first from the cache because it has been rebuilt. This is slightly experimental feature and will be improved in the future as the current mechanism does not always work properly.
Host variables
HOST_USER_ID       User id of the host user.
HOST_GROUP_ID       Group id of the host user.
HOST_OS   Linux Linux OS of the Host (Darwin/Linux).
HOST_HOME       Home directory on the host.
Version suffix variables
VERSION_SUFFIX_FOR_PYPI       Version suffix used during provider package preparation for PyPI builds.
Git variables
COMMIT_SHA   GITHUB_SHA GITHUB_SHA SHA of the commit of the build is run
Verbosity variables
PRINT_INFO_FROM_SCRIPTS true* true* true*

Allows to print output to terminal from running scripts. It prints some extra outputs if true including what the commands do, results of some operations, summary of variable values, exit status from the scripts, outputs of failing commands. If verbose is on it also prints the commands executed by docker, kind, helm, kubectl. Disabled in pre-commit checks.

* set to false in pre-commits

VERBOSE false true true Determines whether docker, helm, kind, kubectl commands should be printed before execution. This is useful to determine what exact commands were executed for debugging purpose as well as allows to replicate those commands easily by copy&pasting them from the output. requires PRINT_INFO_FROM_SCRIPTS set to true.
VERBOSE_COMMANDS false false false Determines whether every command executed in bash should also be printed before execution. This is a low-level debugging feature of bash (set -x) and it should only be used if you are lost at where the script failed.
Image build variables
UPGRADE_TO_NEWER_DEPENDENCIES false false false*

Determines whether the build should attempt to upgrade Python base image and all PIP dependencies to latest ones matching setup.py limits. This tries to replicate the situation of "fresh" user who just installs airflow and uses latest version of matching dependencies. By default we are using a tested set of dependency constraints stored in separated "orphan" branches of the airflow repository ("constraints-main, "constraints-2-0") but when this flag is set to anything but false (for example random value), they are not used used and "eager" upgrade strategy is used when installing dependencies. We set it to true in case of direct pushes (merges) to main and scheduled builds so that the constraints are tested. In those builds, in case we determine that the tests pass we automatically push latest set of "tested" constraints to the repository.

Setting the value to random value is best way to assure that constraints are upgraded even if there is no change to setup.py

This way our constraints are automatically tested and updated whenever new versions of libraries are released.

* true in case of direct pushes and
scheduled builds
CHECK_IMAGE_FOR_REBUILD true true true*

Determines whether attempt should be made to rebuild the CI image with latest sources. It is true by default for local builds, however it is set to true in case we know that the image we pulled or built already contains the right sources. In such case we should set it to false, especially in case our local sources are not the ones we intend to use (for example when --github-image-id is used in Breeze.

In CI jobs it is set to true in case of the Build Images workflow or when waiting for images is disabled in the "Tests" workflow.

* if waiting for images the variable is set
to false automatically.
SKIP_BUILDING_PROD_IMAGE false false false*

Determines whether we should skip building the PROD image with latest sources. It is set to false, but in deploy app for kubernetes step it is set to "true", because at this stage we know we have good image build or pulled.

* set to true in "Deploy App to Kubernetes"
to false automatically.

The scripts and configuration files for CI jobs are all in scripts/ci - so that in the pull_request_target target workflow, we can copy those scripts from the main branch and use them regardless of the changes done in the PR. This way we are kept safe from PRs injecting code into the builds.

  • build_airflow - builds airflow packages
  • constraints - scripts to build and publish latest set of valid constraints
  • docs - scripts to build documentation
  • images - scripts to build and push CI and PROD images
  • kubernetes - scripts to setup kubernetes cluster, deploy airflow and run kubernetes tests with it
  • openapi - scripts to run openapi generation
  • pre_commit - scripts to run pre-commit checks
  • provider_packages - scripts to build and test provider packages
  • static_checks - scripts to run static checks manually
  • testing - scripts that run unit and integration tests
  • tools - scripts that can be used for various clean-up and preparation tasks

Common libraries of functions for all the scripts can be found in libraries folder. The dockerfiles, mysql.d, openldap, spectral_rules folders contains DockerFiles and configuration of integrations needed to run tests.

For detailed use of those scripts you can refer to .github/workflows/ - those scripts are used by the CI workflows of ours. There are some variables that you can set to change the behaviour of the scripts.

The default values are "sane" you can change them to interact with your own repositories or registries. Note that you need to set "CI" variable to true in order to get the same results as in CI.

Variable Default Comment
CI false If set to "true", we simulate behaviour of all scripts as if they are in CI environment
CI_TARGET_REPO apache/airflow Target repository for the CI job. Used to compare incoming changes from PR with the target.
CI_TARGET_BRANCH main Target branch where the PR should land. Used to compare incoming changes from PR with the target.
CI_BUILD_ID 0 Unique id of the build that is kept across re runs (for GitHub actions it is GITHUB_RUN_ID)
CI_JOB_ID 0 Unique id of the job - used to produce unique artifact names.
CI_EVENT_TYPE pull_request

Type of the event. It can be one of [pull_request, pull_request_target,

schedule, push]
CI_REF refs/head/main Branch in the source repository that is used to make the pull request.

Our CI uses GitHub Registry to pull and push images to/from by default. You can use your own repo by changing GITHUB_REPOSITORY and providing your own GitHub Username and Token.

Variable Default Comment
GITHUB_REPOSITORY apache/airflow Prefix of the image. It indicates which. registry from GitHub to use
GITHUB_USERNAME   Username to use to login to GitHub
GITHUB_TOKEN   Token to use to login to GitHub. Only used when pushing images on CI.
GITHUB_REGISTRY_WAIT_FOR_IMAGE false Wait for the image to be available. This is useful if commit SHA is used as pull tag
GITHUB_REGISTRY_PULL_IMAGE_TAG latest Pull this image tag. This is "latest" by default, can also be full-length commit SHA.
GITHUB_REGISTRY_PUSH_IMAGE_TAG latest Pull this image tag. This is "latest" by default, can also be full-length commit SHA.

We are using GitHub Container Registry as cache for our images. Authentication uses GITHUB_TOKEN mechanism. Authentication is needed for pushing the images (WRITE) only in "push", "pull_request_target" workflows.

The following components are part of the CI infrastructure

  • Apache Airflow Code Repository - our code repository at https://github.com/apache/airflow
  • Apache Airflow Forks - forks of the Apache Airflow Code Repository from which contributors make Pull Requests
  • GitHub Actions - (GA) UI + execution engine for our jobs
  • GA CRON trigger - GitHub Actions CRON triggering our jobs
  • GA Workers - virtual machines running our jobs at GitHub Actions (max 20 in parallel)
  • GitHub Image Registry - image registry used as build cache for CI jobs. It is at https://ghcr.io/apache/airflow
  • DockerHub Image Registry - image registry used to pull base Python images and (manually) publish the released Production Airflow images. It is at https://dockerhub.com/apache/airflow
  • Official Images (future) - these are official images that are prominently visible in DockerHub. We aim our images to become official images so that you will be able to pull them with docker pull apache-airflow

The following CI Job run types are currently run for Apache Airflow (run by ci.yaml workflow) and each of the run types has different purpose and context.

Those runs are results of PR from the forks made by contributors. Most builds for Apache Airflow fall into this category. They are executed in the context of the "Fork", not main Airflow Code Repository which means that they have only "read" permission to all the GitHub resources (container registry, code repository). This is necessary as the code in those PRs (including CI job definition) might be modified by people who are not committers for the Apache Airflow Code Repository.

The main purpose of those jobs is to check if PR builds cleanly, if the test run properly and if the PR is ready to review and merge. The runs are using cached images from the Private GitHub registry - CI, Production Images as well as base Python images that are also cached in the Private GitHub registry. Also for those builds we only execute Python tests if important files changed (so for example if it is "no-code" change, no tests will be executed.

The workflow involved in Pull Requests review and approval is a bit more complex than simple workflows in most of other projects because we've implemented some optimizations related to efficient use of queue slots we share with other Apache Software Foundation projects. More details about it can be found in PULL_REQUEST_WORKFLOW.rst.

Those runs are results of direct pushes done by the committers or as result of merge of a Pull Request by the committers. Those runs execute in the context of the Apache Airflow Code Repository and have also write permission for GitHub resources (container registry, code repository). The main purpose for the run is to check if the code after merge still holds all the assertions - like whether it still builds, all tests are green.

This is needed because some of the conflicting changes from multiple PRs might cause build and test failures after merge even if they do not fail in isolation. Also those runs are already reviewed and confirmed by the committers so they can be used to do some housekeeping: - pushing most recent image build in the PR to the GitHub Container Registry (for caching) - upgrading to latest constraints and pushing those constraints if all tests succeed - refresh latest Python base images in case new patch-level is released

The housekeeping is important - Python base images are refreshed with varying frequency (once every few months usually but sometimes several times per week) with the latest security and bug fixes. Those patch level images releases can occasionally break Airflow builds (specifically Docker image builds based on those images) therefore in PRs we only use latest "good" Python image that we store in the GitHub Container Registry and those push requests will refresh the latest images if they changed.

Those runs are results of (nightly) triggered job - only for main branch. The main purpose of the job is to check if there was no impact of external dependency changes on the Apache Airflow code (for example transitive dependencies released that fail the build). It also checks if the Docker images can be build from the scratch (again - to see if some dependencies have not changed - for example downloaded package releases etc.

All runs consist of the same jobs, but the jobs behave slightly differently or they are skipped in different run categories. Here is a summary of the run categories with regards of the jobs they are running. Those jobs often have matrix run strategy which runs several different variations of the jobs (with different Backend type / Python version, type of the tests to run for example). The following chapter describes the workflows that execute for each run.

Those runs and their corresponding Build Images runs are only executed in main apache/airflow repository, they are not executed in forks - we want to be nice to the contributors and not use their free build minutes on GitHub Actions.

A general note about cancelling duplicated workflows: for the Build Images, Tests and CodeQL workflows we use the concurrency feature of GitHub actions to automatically cancel "old" workflow runs of each type -- meaning if you push a new commit to a branch or to a pull request and there is a workflow running, GitHub Actions will cancel the old workflow run automatically.

This workflow builds images for the CI Workflow.

It's a special type of workflow: pull_request_target which means that it is triggered when a pull request is opened. This also means that the workflow has Write permission to push to the GitHub registry the images used by CI jobs which means that the images can be built only once and reused by all the CI jobs (including the matrix jobs). We've implemented it so that the Tests workflow waits until the images are built by the Build Images workflow before running.

This workflow is also triggered on normal pushes to our "main" branches, i.e. after a pull request is merged and whenever scheduled run is triggered.

It's possible to disable this feature and go back to the previous behaviour via GITHUB_REGISTRY_WAIT_FOR_IMAGE flag in the "Build Workflow image". Setting it to "false" switches back to the behaviour that each job builds its own image.

The workflow has the following jobs:

Job Description
Build Info Prints detailed information about the build
Build CI images Builds all configured CI images
Build PROD images Builds all configured PROD images

The images are stored in the GitHub Container Registry and the names of those images follow the patterns described in Naming conventions for stored images

Image building is configured in "fail-fast" mode. When any of the images fails to build, it cancels other builds and the source Tests workflow run that triggered it.

This workflow is a regular workflow that performs all checks of Airflow code.

Job Description PR Push Merge CRON (1)
Build info Prints detailed information about the build Yes Yes Yes
Test OpenAPI client gen Tests if OpenAPIClient continues to generate Yes Yes Yes
UI tests React UI tests for new Airflow UI Yes Yes Yes
Test image building Tests if PROD image build examples work Yes Yes Yes
CI Images Waits for and verify CI Images (3) Yes Yes Yes
(Basic) Static checks Performs static checks (full or basic) Yes Yes Yes
Build docs Builds documentation Yes Yes Yes
Tests Run all the Pytest tests for Python code Yes(2) Yes Yes
Tests provider packages Tests if provider packages work Yes Yes Yes
Upload coverage Uploads test coverage from all the tests
Yes
PROD Images Waits for and verify PROD Images (3) Yes Yes Yes
Tests Kubernetes Run Kubernetes test Yes(2) Yes Yes
Constraints Upgrade constraints to latest ones (4)
Yes Yes
Push images Pushes latest images to GitHub Registry (4)
Yes Yes

Comments:

  1. CRON jobs builds images from scratch - to test if everything works properly for clean builds
  2. The tests are run when the Trigger Tests job determine that important files change (this allows for example "no-code" changes to build much faster)
  3. The jobs wait for CI images if GITHUB_REGISTRY_WAIT_FOR_IMAGE variable is set to "true". You can set it to "false" to disable using shared images - this is slower though as the images are rebuilt in every job that needs them.
  4. PROD and CI images are pushed as "latest" to GitHub Container registry and constraints are upgraded only if all tests are successful. The images are rebuilt in this step using constraints pushed in the previous step.

The CodeQL security scan uses GitHub security scan framework to scan our code for security violations. It is run for JavaScript and Python code.

Documentation from the main branch is automatically published on Amazon S3.

To make this possible, GitHub Action has secrets set up with credentials for an Amazon Web Service account - DOCS_AWS_ACCESS_KEY_ID and DOCS_AWS_SECRET_ACCESS_KEY.

This account has permission to write/list/put objects to bucket apache-airflow-docs. This bucket has public access configured, which means it is accessible through the website endpoint. For more information, see: Hosting a static website on Amazon S3

Website endpoint: http://apache-airflow-docs.s3-website.eu-central-1.amazonaws.com/

The images produced during the Build Images workflow of CI jobs are stored in the GitHub Container Registry

The images are stored with both "latest" tag (for last main push image that passes all the tests as well with the COMMIT_SHA id for images that were used in particular build.

The image names follow the patterns (except the Python image, all the images are stored in https://ghcr.io/ in apache organization.

The packages are available under (CONTAINER_NAME is url-encoded name of the image). Note that "/" are supported now in the ghcr.io as apart of the image name within apache organization, but they have to be percent-encoded when you access them via UI (/ = %2F)

https://github.com/apache/airflow/pkgs/container/<CONTAINER_NAME>

Image Name:tag (both cases latest version and per-build) Description
Python image (DockerHub) python:<X.Y>-slim-buster Base Python image used by both production and CI image. Python maintainer release new versions of those image with security fixes every few weeks in DockerHub.
Airflow python base image airflow/<BRANCH>/python:<X.Y>-slim-buster Version of python base image used in Airflow Builds We keep the "latest" version only to mark last "good" python base that went through testing and was pushed.
PROD Build image airflow/<BRANCH>/prod-build/python<X.Y>:latest Production Build image - this is the "build" stage of production image. It contains build-essentials and all necessary apt packages to build/install PIP packages. We keep the "latest" version only to speed up builds.
Manifest CI image airflow/<BRANCH>/ci-manifest/python<X.Y>:latest CI manifest image - this is the image used to optimize pulls and builds for Breeze development environment They store hash indicating whether the image will be faster to build or pull. We keep the "latest" version only to help breeze to check if new image should be pulled.
CI image airflow/<BRANCH>/ci/python<X.Y>:latest or airflow/<BRANCH>/ci/python<X.Y>:<COMMIT_SHA> CI image - this is the image used for most of the tests. Contains all provider dependencies and tools useful For testing. This image is used in Breeze.
PROD image airflow/<BRANCH>/prod/python<X.Y>:latest or airflow/<BRANCH>/prod/python<X.Y>:<COMMIT_SHA> faster to build or pull. Production image. This is the actual production image optimized for size. It contains only compiled libraries and minimal set of dependencies to run Airflow.
  • <BRANCH> might be either "main" or "v2-*-test"
  • <X.Y> - Python version (Major + Minor).Should be one of ["3.6", "3.7", "3.8", "3.9"].
  • <COMMIT_SHA> - full-length SHA of commit either from the tip of the branch (for pushes/schedule) or commit from the tip of the branch used for the PR.

Since we store images from every CI run, you should be able easily reproduce any of the CI tests problems locally. You can do it by pulling and using the right image and running it with the right docker command, For example knowing that the CI job was for commit cd27124534b46c9688a1d89e75fcd137ab5137e3:

docker pull ghcr.io/apache/airflow/main/ci/python3.6:cd27124534b46c9688a1d89e75fcd137ab5137e3

docker run -it ghcr.io/apache/airflow/main/ci/python3.6:cd27124534b46c9688a1d89e75fcd137ab5137e3

But you usually need to pass more variables and complex setup if you want to connect to a database or enable some integrations. Therefore it is easiest to use Breeze for that. For example if you need to reproduce a MySQL environment with kerberos integration enabled for commit cd27124534b46c9688a1d89e75fcd137ab5137e3, in python 3.8 environment you can run:

./breeze --github-image-id cd27124534b46c9688a1d89e75fcd137ab5137e3 --python 3.8

You will be dropped into a shell with the exact version that was used during the CI run and you will be able to run pytest tests manually, easily reproducing the environment that was used in CI. Note that in this case, you do not need to checkout the sources that were used for that run - they are already part of the image - but remember that any changes you make in those sources are lost when you leave the image as the sources are not mapped from your host machine.

Sequence diagrams are shown of the flow happening during the CI Jobs.

Pull request flow from fork

Direct Push/Merge flow

Scheduled build flow

In 2.0 line we currently support Python 3.6, 3.7, 3.8, 3.9.

In order to add a new version the following operations should be done (example uses Python 3.10)

  • copy the latest constraints in constraints-main branch from previous versions and name it using the new Python version (constraints-3.10.txt). Commit and push
  • add the new Python version to breeze-complete and _initialization.sh - tests will fail if they are not in sync.
  • build image locally for both prod and CI locally using Breeze:
./breeze build-image --python 3.10
  • push image as cache to GitHub:
./breeze push-image --python 3.10
  • Find the 4 new images (main, ci, build, ci-manifest) created in GitHub Container registry go to Package Settings and turn on Public Visibility and set "Inherit access from Repository" flag.