Airflow Breeze CI environment
Prerequisites
Installation
Running tests in the CI interactive environment
Choosing different Breeze environment configuration
Troubleshooting
Other uses of the Airflow Breeze environment
Internal details of Breeze
Breeze Command-Line Interface Reference
- Airflow Breeze Syntax

Airflow Breeze CI environment

Airflow Breeze is an easy-to-use development and test environment using Docker Compose. The environment is available for local use and is also used in Airflow's CI tests.

We called it Airflow Breeze as It's a Breeze to contribute to Airflow.

The advantages and disadvantages of using the Breeze environment vs. other ways of testing Airflow are described in CONTRIBUTING.rst.

Watch the video below about Airflow Breeze. It explains the motivation for Breeze and screencasts all its uses.

Prerequisites

Docker Community Edition

Version: Install the latest stable Docker Community Edition and add it to the PATH.
Permissions: Configure to run the docker commands directly and not only via root user. Your user should be in the docker group. See Docker installation guide for details.
Disk space: On macOS, increase your available disk space before starting to work with the environment. At least 128 GB of free disk space is recommended. You can also get by with a smaller space but make sure to clean up the Docker disk space periodically. See also Docker for Mac - Space for details on increasing disk space available for Docker on Mac.
Docker problems: Sometimes it is not obvious that space is an issue when you run into a problem with Docker. If you see a weird behaviour, try breeze cleanup-image command. Also see pruning instructions from Docker.

Here is an example configuration with more than 200GB disk space for Docker:

Docker Compose

Version: Install the latest stable Docker Compose and add it to the PATH. See Docker Compose Installation Guide for details.
Permissions: Configure permission to run the docker-compose command.

Docker in WSL 2

WSL 2 installation :

Install WSL 2 and a Linux Distro (e.g. Ubuntu) see WSL 2 Installation Guide for details.
Docker Desktop installation :

Install Docker Desktop for Windows. For Windows Home follow the Docker Windows Home Installation Guide. For Windows Pro, Enterprise, or Education follow the Docker Windows Installation Guide.
Docker setting :

WSL integration needs to be enabled

Airflow Breeze - Docker WSL2 integration

WSL 2 Filesystem Performance :

Accessing the host Windows filesystem incurs a performance penalty, it is therefore recommended to do development on the Linux filesystem. E.g. Run cd ~ and create a development folder in your Linux distro home and git pull the Airflow repo there.
WSL 2 Memory Usage :
WSL 2 can consume a lot of memory under the process name "Vmmem". To reclaim the memory after development you can:
- On the Linux distro clear cached memory: sudo sysctl -w vm.drop_caches=3
- If no longer using Docker you can quit Docker Desktop (right click system try icon and select "Quit Docker Desktop")
- If no longer using WSL you can shut it down on the Windows Host with the following command: wsl --shutdown
Developing in WSL 2 :

You can use all the standard Linux command line utilities to develop on WSL 2. Further VS Code supports developing in Windows but remotely executing in WSL. If VS Code is installed on the Windows host system then in the WSL Linux Distro you can run code . in the root directory of you Airflow repo to launch VS Code.

Getopt and gstat

For Linux, run apt install util-linux coreutils or an equivalent if your system is not Debian-based.
For macOS, install GNU getopt and gstat utilities to get Airflow Breeze running.

Run brew install gnu-getopt coreutils and then follow instructions to link the gnu-getopt version to become the first on the PATH. Make sure to re-login after you make the suggested changes.

Examples:

If you use bash, run this command and re-login:

echo 'export PATH="/usr/local/opt/gnu-getopt/bin:$PATH"' >> ~/.bash_profile
. ~/.bash_profile

If you use zsh, run this command and re-login:

echo 'export PATH="/usr/local/opt/gnu-getopt/bin:$PATH"' >> ~/.zprofile
. ~/.zprofile

Memory

Minimum 4GB RAM is required to run the full Breeze environment.

On macOS, 2GB of RAM are available for your Docker containers by default, but more memory is recommended (4GB should be comfortable). For details see Docker for Mac - Advanced tab.

On Windows WSL 2 expect the Linux Distro and Docker containers to use 7 - 8 GB of RAM.

You may need to clean up your Docker environment occasionally. The images are quite big (1.5GB for both images needed for static code analysis and CI tests) and, if you often rebuild/update them, you may end up with some unused image data.

To clean up the Docker environment:

Stop Breeze with ./breeze stop.
Run the docker system prune command.
Run docker images --all and docker ps --all to verify that your Docker is clean.

Both commands should return an empty list of images and containers respectively.

If you run into disk space errors, consider pruning your Docker images with the docker system prune --all command. You may need to restart the Docker Engine before running this command.

In case of disk space errors on macOS, increase the disk space available for Docker. See Prerequisites for details.

Installation

Installation is as easy as checking out Airflow repository and running Breeze command. You enter the Breeze test environment by running the ./breeze script. You can run it with the help command to see the list of available options. See Breeze Command-Line Interface Reference for details.

./breeze

The First time you run Breeze, it pulls and builds a local version of Docker images. It pulls the latest Airflow CI images from Airflow DockerHub and uses them to build your local Docker images. Note that the first run (per python) might take up to 10 minutes on a fast connection to start. Subsequent runs should be much faster.

Once you enter the environment, you are dropped into bash shell of the Airflow container and you can run tests immediately.

To use the full potential of breeze you should set up autocomplete and you can add the checked-out Airflow repository to your PATH to run Breeze without the ./ and from any directory.

The breeze command comes with a built-in bash/zsh autocomplete setup command. After installing, when you start typing the command, you can use <TAB> to show all the available switches and get auto-completion on typical values of parameters that you can use.

You should set up the autocomplete option automatically by running:

./breeze setup-autocomplete

You get the auto-completion working when you re-enter the shell.

When you enter the Breeze environment, automatically an environment file is sourced from files/airflow-breeze-config/variables.env. The files folder from your local sources is automatically mounted to the container under /files path and you can put there any files you want to make available for the Breeze container.

Running tests in the CI interactive environment

Breeze helps with running tests in the same environment/way as CI tests are run. You can run various types of tests while you enter Breeze CI interactive environment - this is described in detail in TESTING.rst

Choosing different Breeze environment configuration

You can use additional breeze flags to choose your environment. You can specify a Python version to use, and backend (the meta-data database). Thanks to that, with Breeze, you can recreate the same environments as we have in matrix builds in the CI.

For example, you can choose to run Python 3.6 tests with MySQL as backend and in the Docker environment as follows:

./breeze --python 3.6 --backend mysql

The choices you make are persisted in the ./.build/ cache directory so that next time when you use the breeze script, it could use the values that were used previously. This way you do not have to specify them when you run the script. You can delete the .build/ directory in case you want to restore the default settings.

The defaults when you run the Breeze environment are Python 3.6 version and SQLite database.

Airflow Breeze - Selecting Python and Backend version

Troubleshooting

If you are having problems with the Breeze environment, try the steps below. After each step you can check whether your problem is fixed.

If you are on macOS, check if you have enough disk space for Docker.
Restart Breeze with ./breeze restart.
Delete the .build directory and run ./breeze build-image --force-pull-images.
Clean up Docker images via breeze cleanup-image command.
Restart your Docker Engine and try again.
Restart your machine and try again.
Re-install Docker CE and try again.

In case the problems are not solved, you can set the VERBOSE_COMMANDS variable to "true":

export VERBOSE_COMMANDS="true"

Then run the failed command, copy-and-paste the output from your terminal to the Airflow Slack #airflow-breeze channel and describe your problem.

Other uses of the Airflow Breeze environment

Airflow Breeze is a bash script serving as a "swiss-army-knife" of Airflow testing. Under the hood it uses other scripts that you can also run manually if you have problem with running the Breeze environment.

Breeze script allows performing the following tasks:

Managing CI environment:

Build CI docker image with breeze build-image command

Enter interactive shell in CI container when shell (or no command) is specified

Join running interactive shell with breeze exec command

Stop running interactive environment with breeze stop command

Restart running interactive environment with breeze restart command

Run test specified with breeze tests command

Generate constraints with breeze generate-constraints command

Execute arbitrary command in the test environment with breeze shell command

Execute arbitrary docker-compose command with breeze docker-compose command

Push docker images with breeze push-image command (require committer's rights to push images)

You can optionally reset database if specified as extra --db-reset flag and for CI image you can also start integrations (separate Docker images) if specified as extra --integration flags. You can also chose which backend database should be used with --backend flag and python version with --python flag.

You can also have breeze launch Airflow automatically breeze --start-airflow, this will drop you in a tmux session with three panes (one to monitor the scheduler, one for the webserver and one with a shell for additional commands.

Managing Prod environment (with --production-image flag):

Build CI docker image with breeze build-image command

Enter interactive shell in PROD container when shell (or no command) is specified

Join running interactive shell with breeze exec command

Stop running interactive environment with breeze stop command

Restart running interactive environment with breeze restart command

Execute arbitrary command in the test environment with breeze shell command

Execute arbitrary docker-compose command with breeze docker-compose command

Push docker images with breeze push-image command (require committer's rights to push images)

You can optionally reset database if specified as extra --db-reset flag. You can also chose which backend database should be used with --backend flag and python version with --python flag.

Manage and Interact with Kubernetes tests environment:

Manage KinD Kubernetes cluster and deploy Airflow to KinD cluster breeze kind-cluster commands

Run Kubernetes tests specified with breeze kind-cluster tests command

Enter the interactive kubernetes test environment with breeze kind-cluster shell command

Run static checks:

Run static checks - either for currently staged change or for all files with breeze static-check command

Build documentation:

Build documentation with breeze build-docs command

Set up local development environment:

Setup local virtualenv with breeze setup-virtualenv command

Setup autocomplete for itself with breeze setup-autocomplete command

Launching multiple terminals

Often if you want to run full airflow in the Breeze environment you need to launch multiple terminals and run airflow webserver, airflow scheduler, airflow worker in separate terminals.

This can be achieved either via tmux or via exec-ing into the running container from the host. Tmux is installed inside the container and you can launch it with tmux command. Tmux provides you with the capability of creating multiple virtual terminals and multiplex between them. More about tmux can be found at tmux github wiki page . Tmux has several useful shortcuts that allow you to split the terminals, open new tabs etc - it's pretty useful to learn it.

Another way is to exec into Breeze terminal from the host's terminal. Often you can have multiple terminals in the host (Linux/MacOS/WSL2 on Windows) and you can simply use those terminals to enter the running container. It's as easy as launching breeze exec while you already started the Breeze environment. You will be dropped into bash and environment variables will be read in the same way as when you enter the environment. You can do it multiple times and open as many terminals as you need.

CLIs for cloud providers

For development convenience we installed simple wrappers for the most common cloud providers CLIs. Those CLIs are not installed when you build or pull the image - they will be downloaded as docker images the first time you attempt to use them. It is downloaded and executed in your host's docker engine so once it is downloaded, it will stay until you remove the downloaded images from your host container.

For each of those CLI credentials are taken (automatically) from the credentials you have defined in your ${HOME} directory on host.

Those tools also have host Airflow source directory mounted in /opt/airflow path so you can directly transfer files to/from your airflow host sources.

Those are currently installed CLIs (they are available as aliases to the docker commands):

Cloud Provider	CLI tool	Docker image	Configuration dir
Amazon Web Services	aws	amazon/aws-cli:latest	.aws
Microsoft Azure	az	mcr.microsoft.com/azure-cli:latest	.azure
Google Cloud	bq	gcr.io/google.com/cloudsdktool/cloud-sdk:latest	.config/gcloud
	gcloud	gcr.io/google.com/cloudsdktool/cloud-sdk:latest	.config/gcloud
	gsutil	gcr.io/google.com/cloudsdktool/cloud-sdk:latest	.config/gcloud

For each of the CLIs we have also an accompanying *-update alias (for example aws-update) which will pull the latest image for the tool. Note that all Google Cloud tools are served by one image and they are updated together.

Also - in case you run several different Breeze containers in parallel (from different directories, with different versions) - they docker images for CLI Cloud Providers tools are shared so if you update it for one Breeze container, they will also get updated for all the other containers.

Launching Breeze integrations

When Breeze starts, it can start additional integrations. Those are additional docker containers that are started in the same docker-compose command. Those are required by some of the tests as described in TESTING.rst#airflow-integration-tests.

By default Breeze starts only airflow container without any integration enabled. If you selected postgres or mysql backend, the container for the selected backend is also started (but only the one that is selected). You can start the additional integrations by passing --integration flag with appropriate integration name when starting Breeze. You can specify several --integration flags to start more than one integration at a time. Finally you can specify --integration all to start all integrations.

Once integration is started, it will continue to run until the environment is stopped with breeze stop command. or restarted via breeze restart command

Note that running integrations uses significant resources - CPU and memory.

Building CI images

With Breeze you can build images that are used by Airflow CI and production ones.

For all development tasks, unit tests, integration tests, and static code checks, we use the CI image maintained on the DockerHub in the apache/airflow repository. This Docker image contains a lot of test-related packages (size of ~1GB). Its tag follows the pattern of <BRANCH>-python<PYTHON_MAJOR_MINOR_VERSION>-ci (for example, apache/airflow:master-python3.6-ci or apache/airflow:v1-10-test-python3.6-ci). The image is built using the Dockerfile.ci Dockerfile.

The CI image is built automatically as needed, however it can be rebuilt manually with build-image command. The production image should be built manually - but also a variant of this image is built automatically when kubernetes tests are executed see Running Kubernetes tests

Building the image first time pulls a pre-built version of images from the Docker Hub, which may take some time. But for subsequent source code changes, no wait time is expected. However, changes to sensitive files like setup.py or Dockerfile.ci will trigger a rebuild that may take more time though it is highly optimized to only rebuild what is needed.

Breeze has built in mechanism to check if your local image has not diverged too much from the latest image build on CI. This might happen when for example latest patches have been released as new Python images or when significant changes are made in the Dockerfile. In such cases, Breeze will download the latest images before rebuilding because this is usually faster than rebuilding the image.

In most cases, rebuilding an image requires network connectivity (for example, to download new dependencies). If you work offline and do not want to rebuild the images when needed, you can set the FORCE_ANSWER_TO_QUESTIONS variable to no as described in the Setting default behaviour for user interaction section.

Building Production images

The Production image is also maintained on the DockerHub in the `apache/airflow repository. This Docker image (and Dockerfile) contains size-optimised Airflow installation with selected extras and dependencies. Its tag follows the pattern of <BRANCH>-python<PYTHON_MAJOR_MINOR_VERSION> (for example, apache/airflow:master-python3.6 or apache/airflow:v1-10-test-python3.6).

However in many cases you want to add your own custom version of the image - with added apt dependencies, python dependencies, additional Airflow extras. Breeze's build-image command helps to build your own, customized variant of the image that contains everything you need.

You can switch to building the production image by adding --production-image flag to the build_image command. Note, that the images can also be build using docker build command by passing appropriate build-args as described in IMAGES.rst , but Breeze provides several flags that makes it easier to do it. You can see all the flags by running ./breeze build-image --help, but here typical examples are presented:

./breeze build-image --production-image --additional-extras "jira"

This installs additional jira extra while installing airflow in the image.

./breeze build-image --production-image --additional-python-deps "torchio==0.17.10"

This install additional pypi dependency - torchio in specified version.

./breeze build-image --production-image --additional-dev-apt-deps "libasound2-dev" \
   --additional-runtime-apt-deps "libasound2"

This install additional apt dependencies - libasound2-dev in build image and libasound in the final image. Those are development dependencies that might be needed to build and use python packages added via the --additional-python-deps flag. The dev dependencies are not installed in the final production image, they are only installed in the build "segment" of the production image that is used as an intermediate step to build the final image. Usually names of the dev dependencies end with -dev suffix and they need to also be paired with corresponding runtime dependency added for the runtime image (without -dev).

./breeze build-image --production-image --python 3.7 --additional-dev-deps "libasound2-dev" \
   --additional-runtime-apt-deps "libasound2"

Same as above but uses python 3.7.

Airflow Breeze - Building Production images

Building Production images for 1.10 Airflow versions

With Breeze you can also use the master Dockerfile to build custom images for released Airflow versions. This works in the same way as building production image from master, but you need to add additional switch --install-airflow-version. You should pass version of airflow (as released in PyPI). It can be used to install both released versions and release candidates. Similarly as in case of master images, we can pass additional extras/dependencies to install via the additional flags.

./breeze build-image --production-image --additional-extras "jira" --install-airflow-version="1.10.11"

Builds airflow image with released Airflow version 1.10.11 and additional extra "jira" added.

./breeze build-image --production-image --install-airflow-version="1.10.11rc2"

Builds airflow image with released Airflow version 1.10.11rc2.

You can also build airflow directly from GitHub source code - by providing Git Reference via --install-airflow-reference. The reference can be a branch name, tag name, or commit hash. This is useful mostly for testing.

./breeze build-image --production-image --install-airflow-reference="v1-10-test"

This Builds airflow image from the current v1-10-test branch of Airflow.

./breeze build-image --production-image \
     --install-airflow-reference="0d91fcf725f69e10f0969ca36f9e38e1d74110d0"

This Builds airflow image from the 0d91fcf725f69e10f0969ca36f9e38e1d74110d0 commit hash on GitHub.

Airflow Breeze - Building Production images for 1.10 Airflow versions

Running static checks

You can run static checks via Breeze. You can also run them via pre-commit command but with auto-completion Breeze makes it easier to run selective static checks. If you press <TAB> after the static-check and if you have auto-complete setup you should see auto-completable list of all checks available.

./breeze static-check mypy

The above will run mypy check for currently staged files.

You can also add arbitrary pre-commit flag after --

./breeze static-check mypy -- --all-files

The above will run mypy check for all files.

Building the Documentation

To build documentation in Breeze, use the build-docs command:

./breeze build-docs

Results of the build can be found in the docs/_build folder.

The documentation build consists of three steps:

verifying consistency of indexes
building documentation
spell checking

You can choose only one stage of the two by providing --spellcheck-only or --docs-only after extra -- flag.

./breeze build-docs -- --spellcheck-only

Often errors during documentation generation come from the docstrings of auto-api generated classes. During the docs building auto-api generated files are stored in the docs/_api folder. This helps you easily identify the location the problems with documentation originated from.

Generating constraints

Whenever setup.py gets modified, the CI master job will re-generate constraint files. Those constraint files are stored in separated orphan branches: constraints-master and constraint-1-10. They are stored separately for each python version. Those are constraint files as described in detail in the CONTRIBUTING.rst#pinned-constraint-files contributing documentation.

In case someone modifies setup.py, the CRON scheduled CI build automatically upgrades and pushes changed to the constraint files, however you can also perform test run of this locally using generate-constraints command of Breeze.

./breeze generate-constraints --python 3.6

./breeze generate-constraints --python 3.7

./breeze generate-constraints --python 3.8

This bumps the constraint files to latest versions and stores hash of setup.py. The generated constraint and setup.py hash files are stored in the files folder and while generating the constraints diff of changes vs the previous constraint files is printed.

Using local virtualenv environment in Your Host IDE

You can set up your host IDE (for example, IntelliJ's PyCharm/Idea) to work with Breeze and benefit from all the features provided by your IDE, such as local and remote debugging, language auto-completion, documentation support, etc.

To use your host IDE with Breeze:

Create a local virtual environment:

You can use any of the following wrappers to create and manage your virtual environments: pyenv, pyenv-virtualenv, or virtualenvwrapper.

Ideally, you should have virtualenvs for all Python versions supported by Airflow (3.5, 3.6, 3.7)
Use the right command to activate the virtualenv (workon if you use virtualenvwrapper or pyenv activate if you use pyenv.
Initialize the created local virtualenv:

./breeze initialize-local-virtualenv --python 3.8

Select the virtualenv you created as the project's default virtualenv in your IDE.

Note that you can also use the local virtualenv for Airflow development without Breeze. This is a lightweight solution that has its own limitations.

More details on using the local virtualenv are available in the LOCAL_VIRTUALENV.rst.

Running Kubernetes tests

Breeze helps with running Kubernetes tests in the same environment/way as CI tests are run. Breeze helps to setup KinD cluster for testing, setting up virtualenv and downloads the right tools automatically to run the tests.

This is described in detail in Testing Kubernetes.

Stopping the interactive environment

After starting up, the environment runs in the background and takes precious memory. You can always stop it via:

./breeze stop

Internal details of Breeze

Airflow directory structure inside container

When you are in the CI container, the following directories are used:

/opt/airflow - Contains sources of Airflow mounted from the host (AIRFLOW_SOURCES).
/root/airflow - Contains all the "dynamic" Airflow files (AIRFLOW_HOME), such as:
    airflow.db - sqlite database in case sqlite is used;
    dags - folder with non-test dags (test dags are in /opt/airflow/tests/dags);
    logs - logs from Airflow executions;
    unittest.cfg - unit test configuration generated when entering the environment;
    webserver_config.py - webserver configuration generated when running Airflow in the container.

Note that when running in your local environment, the /root/airflow/logs folder is actually mounted from your logs directory in the Airflow sources, so all logs created in the container are automatically visible in the host as well. Every time you enter the container, the logs directory is cleaned so that logs do not accumulate.

When you are in the production container, the following directories are used:

/opt/airflow - Contains sources of Airflow mounted from the host (AIRFLOW_SOURCES).
/root/airflow - Contains all the "dynamic" Airflow files (AIRFLOW_HOME), such as:
    airflow.db - sqlite database in case sqlite is used;
    dags - folder with non-test dags (test dags are in /opt/airflow/tests/dags);
    logs - logs from Airflow executions;
    unittest.cfg - unit test configuration generated when entering the environment;
    webserver_config.py - webserver configuration generated when running Airflow in the container.

Note that when running in your local environment, the /root/airflow/logs folder is actually mounted from your logs directory in the Airflow sources, so all logs created in the container are automatically visible in the host as well. Every time you enter the container, the logs directory is cleaned so that logs do not accumulate.

Running Arbitrary commands in the Breeze environment

To run other commands/executables inside the Breeze Docker-based environment, use the ./breeze shell command. You should add your command as -c "command" after -- as extra arguments.

./breeze shell -- -c "ls -la"

Running "Docker Compose" commands

To run Docker Compose commands (such as help, pull, etc), use the docker-compose command. To add extra arguments, specify them after -- as extra arguments.

./breeze docker-compose pull -- --ignore-pull-failures

Restarting Breeze environment

You can also restart the environment and enter it via:

./breeze restart

Setting default answers for user interaction

Sometimes during the build, you are asked whether to perform an action, skip it, or quit. This happens when rebuilding or removing an image - actions that take a lot of time and could be potentially destructive.

For automation scripts, you can export one of the three variables to control the default interaction behaviour:

export FORCE_ANSWER_TO_QUESTIONS="yes"

If FORCE_ANSWER_TO_QUESTIONS is set to yes, the images are automatically rebuilt when needed. Images are deleted without asking.

export FORCE_ANSWER_TO_QUESTIONS="no"

If FORCE_ANSWER_TO_QUESTIONS is set to no, the old images are used even if rebuilding is needed. This is useful when you work offline. Deleting images is aborted.

export FORCE_ANSWER_TO_QUESTIONS="quit"

If FORCE_ANSWER_TO_QUESTIONS is set to quit, the whole script is aborted. Deleting images is aborted.

If more than one variable is set, yes takes precedence over no, which takes precedence over quit.

Fixing File/Directory Ownership

On Linux, there is a problem with propagating ownership of created files (a known Docker problem). The files and directories created in the container are not owned by the host user (but by the root user in our case). This may prevent you from switching branches, for example, if files owned by the root user are created within your sources. In case you are on a Linux host and have some files in your sources created by the root user, you can fix the ownership of those files by running this script:

./scripts/ci/tools/ci_fix_ownership.sh

Mounting Local Sources to Breeze

Important sources of Airflow are mounted inside the airflow container that you enter. This means that you can continue editing your changes on the host in your favourite IDE and have them visible in the Docker immediately and ready to test without rebuilding images. You can disable mounting by specifying --skip-mounting-local-sources flag when running Breeze. In this case you will have sources embedded in the container and changes to these sources will not be persistent.

After you run Breeze for the first time, you will have empty directory files in your source code, which will be mapped to /files in your Docker container. You can pass there any files you need to configure and run Docker. They will not be removed between Docker runs.

By default /files/dags folder is mounted from your local <AIRFLOW_SOURCES>/files/dags and this is the directory used by airflow scheduler and webserver to scan dags for. You can use it to test your dags from local sources in Airflow. If you wish to add local DAGs that can be run by Breeze.

Port Forwarding

When you run Airflow Breeze, the following ports are automatically forwarded:

28080 -> forwarded to Airflow webserver -> airflow:8080
25433 -> forwarded to Postgres database -> postgres:5432
23306 -> forwarded to MySQL database -> mysql:3306

You can connect to these ports/databases using:

Webserver: http://127.0.0.1:28080
Postgres: jdbc:postgresql://127.0.0.1:25433/airflow?user=postgres&password=airflow
Mysql: jdbc:mysql://localhost:23306/airflow?user=root

Start the webserver manually with the airflow webserver command if you want to connect to the webserver. You can use tmux to multiply terminals. You may need to create a user prior to running the webserver in order to log in. This can be done with the following command:

airflow users create --role Admin --username admin --password admin --email admin@example.com --firstname foo --lastname bar

For databases, you need to run airflow db reset at least once (or run some tests) after you started Airflow Breeze to get the database/tables created. You can connect to databases with IDE or any other database client:

You can change the used host port numbers by setting appropriate environment variables:

WEBSERVER_HOST_PORT
POSTGRES_HOST_PORT
MYSQL_HOST_PORT

If you set these variables, next time when you enter the environment the new ports should be in effect.

Managing Dependencies

If you need to change apt dependencies in the Dockerfile.ci, add Python packages in setup.py or add javascript dependencies in package.json, you can either add dependencies temporarily for a single Breeze session or permanently in setup.py, Dockerfile.ci, or package.json files.

Installing Dependencies for a Single Breeze Session

You can install dependencies inside the container using sudo apt install, pip install or yarn install (in airflow/www folder) respectively. This is useful if you want to test something quickly while you are in the container. However, these changes are not retained: they disappear once you exit the container (except for the node.js dependencies if your sources are mounted to the container). Therefore, if you want to retain a new dependency, follow the second option described below.

Adding Dependencies Permanently

You can add dependencies to the Dockerfile.ci, setup.py or package.json and rebuild the image. This should happen automatically if you modify any of these files. After you exit the container and re-run breeze, Breeze detects changes in dependencies, asks you to confirm rebuilding the image and proceeds with rebuilding if you confirm (or skip it if you do not confirm). After rebuilding is done, Breeze drops you to shell. You may also use the build-image command to only rebuild CI image and not to go into shell.

Incremental apt Dependencies in the Dockerfile.ci during development

During development, changing dependencies in apt-get closer to the top of the Dockerfile.ci invalidates cache for most of the image. It takes long time for Breeze to rebuild the image. So, it is a recommended practice to add new dependencies initially closer to the end of the Dockerfile.ci. This way dependencies will be added incrementally.

Before merge, these dependencies should be moved to the appropriate apt-get install command, which is already in the Dockerfile.ci.

Breeze Command-Line Interface Reference

Airflow Breeze Syntax

This is the current syntax for ./breeze:

####################################################################################################

usage: breeze [FLAGS] [COMMAND] -- <EXTRA_ARGS>

By default the script enters the CI container and drops you to bash shell, but you can choose
one of the commands to run specific actions instead.

Add --help after each command to see details:

Commands without arguments:

shell [Default] Enters interactive shell in the container
build-docs Builds documentation in the container
build-image Builds CI or Production docker image
cleanup-image Cleans up the container image created
exec Execs into running breeze container in new terminal
generate-constraints Generates pinned constraint files
push-image Pushes images to registry
initialize-local-virtualenv Initializes local virtualenv
setup-autocomplete Sets up autocomplete for breeze
start-airflow Starts Scheduler and Webserver and enters the shell
stop Stops the docker-compose environment
restart Stops the docker-compose environment including DB cleanup
toggle-suppress-cheatsheet Toggles on/off cheatsheet
toggle-suppress-asciiart Toggles on/off asciiart

Commands with arguments:

docker-compose <ARG> Executes specified docker-compose command
kind-cluster <ARG> Manages KinD cluster on the host
prepare-backport-readme <ARG> Prepares backport packages readme files
prepare-backport-packages <ARG> Prepares backport packages
static-check <ARG> Performs selected static check for changed files
tests <ARG> Runs selected tests in the container

Help commands:

flags Shows all breeze's flags
help Shows this help message
help-all Shows detailed help for all commands and flags

####################################################################################################

Detailed usage

####################################################################################################

Detailed usage for command: shell

breeze shell [FLAGS] [-- <EXTRA_ARGS>]

This is default subcommand if no subcommand is used.

Enters interactive shell where you can run all tests, start Airflow webserver, scheduler,
workers, interact with the database, run DAGs etc. It is the default command if no command
is selected. The shell is executed in the container and in case integrations are chosen,
the integrations will be started as separated docker containers - under the docker-compose
supervision. Local sources are by default mounted to within the container so you can edit
them locally and run tests immediately in the container. Several folders ('files', 'dist')
are also mounted so that you can exchange files between the host and container.

The 'files/airflow-breeze-config/variables.env' file can contain additional variables
and setup. This file is automatically sourced when you enter the container. Database
and webserver ports are forwarded to appropriate database/webserver so that you can
connect to it from your host environment.

You can also pass <EXTRA_ARGS> after -- they will be passed as bash parameters, this is
especially useful to pass bash options, for example -c to execute command:

'breeze shell -- -c "ls -la"'
'breeze -- -c "ls -la"'

For DockerHub pull --dockerhub-user and --dockerhub-repo flags can be used to specify
the repository to pull from. For GitHub repository, the --github-repository
flag can be used for the same purpose. You can also use
--github-image-id <COMMIT_SHA>|<RUN_ID> in case you want to pull the image
with specific COMMIT_SHA tag or RUN_ID.

'breeze shell \
--github-image-id 9a621eaa394c0a0a336f8e1b31b35eff4e4ee86e' - pull/use image with SHA
'breeze \
--github-image-id 9a621eaa394c0a0a336f8e1b31b35eff4e4ee86e' - pull/use image with SHA
'breeze shell \
--github-image-id 209845560' - pull/use image with RUN_ID
'breeze \
--github-image-id 209845560' - pull/use image with RUN_ID

Flags:

Run 'breeze flags' to see all applicable flags.

####################################################################################################

Detailed usage for command: build-docs

breeze build-docs [-- <EXTRA_ARGS>]

Builds Airflow documentation. The documentation is build inside docker container - to
maintain the same build environment for everyone. Appropriate sources are mapped from
the host to the container so that latest sources are used. The folders where documentation
is generated ('docs/_build') are also mounted to the container - this way results of
the documentation build is available in the host.

The possible extra args are: --docs-only, --spellcheck-only, --help

####################################################################################################

Detailed usage for command: build-image

breeze build-image [FLAGS]

Builds docker image (CI or production) without entering the container. You can pass
additional options to this command, such as '--force-build-image',
'--force-pull-image', '--python', '--build-cache-local' or '-build-cache-pulled'
in order to modify build behaviour.

You can also pass '--production-image' flag to build production image rather than CI image.

For DockerHub pull --dockerhub-user and --dockerhub-repo flags can be used to specify
the repository to pull from. For GitHub repository, the --github-repository
flag can be used for the same purpose. You can also use
--github-image-id <COMMIT_SHA>|<RUN_ID> in case you want to pull the image with
specific COMMIT_SHA tag or RUN_ID.

Flags:

-p, --python PYTHON_MAJOR_MINOR_VERSION
Python version used for the image. This is always major/minor version.

Note that versions 2.7 and 3.5 are only valid when installing Airflow 1.10 with
--install-airflow-version or --install-airflow-reference flags.

One of:

2.7 3.5 3.6 3.7 3.8

-a, --install-airflow-version INSTALL_AIRFLOW_VERSION
If specified, installs Airflow directly from PIP released version. This happens at
image building time in production image and at container entering time for CI image. One of:

1.10.12 1.10.11 1.10.10 1.10.9 1.10.8 1.10.7 1.10.6 1.10.5 1.10.4 1.10.3 1.10.2
master v1-10-test

-t, --install-airflow-reference INSTALL_AIRFLOW_REFERENCE
If specified, installs Airflow directly from reference in GitHub. This happens at
image building time in production image and at container entering time for CI image.

-I, --production-image
Use production image for entering the environment and builds (not for tests).

-F, --force-build-images
Forces building of the local docker images. The images are rebuilt
automatically for the first time or when changes are detected in
package-related files, but you can force it using this flag.

-P, --force-pull-images
Forces pulling of images from DockerHub before building to populate cache. The
images are pulled by default only for the first time you run the
environment, later the locally build images are used as cache.

Customization options:

-E, --extras EXTRAS
Extras to pass to build images The default are different for CI and production images:

CI image:
devel_ci

Production image:
async,aws,azure,celery,dask,elasticsearch,gcp,kubernetes,mysql,postgres,redis,slack,
ssh,statsd,virtualenv

--image-tag TAG
Additional tag in the image.

--disable-pip-cache
Disables GitHub PIP cache during the build. Useful if github is not reachable during build.

--additional-extras ADDITIONAL_EXTRAS
Additional extras to pass to build images The default is no additional extras.

--additional-python-deps ADDITIONAL_PYTHON_DEPS
Additional python dependencies to use when building the images.

--dev-apt-command DEV_APT_COMMAND
The basic command executed before dev apt deps are installed.

--additional-dev-apt-command ADDITIONAL_DEV_APT_COMMAND
Additional command executed before dev apt deps are installed.

--additional-dev-apt-deps ADDITIONAL_DEV_APT_DEPS
Additional apt dev dependencies to use when building the images.

--dev-apt-deps DEV_APT_DEPS
The basic apt dev dependencies to use when building the images.

--additional-dev-apt-deps ADDITIONAL_DEV_DEPS
Additional apt dev dependencies to use when building the images.

--additional-dev-apt-envs ADDITIONAL_DEV_APT_ENVS
Additional environment variables set when adding dev dependencies.

--runtime-apt-command RUNTIME_APT_COMMAND
The basic command executed before runtime apt deps are installed.

--additional-runtime-apt-command ADDITIONAL_RUNTIME_APT_COMMAND
Additional command executed before runtime apt deps are installed.

--runtime-apt-deps ADDITIONAL_RUNTIME_APT_DEPS
The basic apt runtime dependencies to use when building the images.

--additional-runtime-apt-deps ADDITIONAL_RUNTIME_DEPS
Additional apt runtime dependencies to use when building the images.

--additional-runtime-apt-envs ADDITIONAL_RUNTIME_APT_DEPS
Additional environment variables set when adding runtime dependencies.

Build options:

--disable-mysql-client-installation
Disables installation of the mysql client which might be problematic if you are building
image in controlled environment. Only valid for production image.

-C, --force-clean-images
Force build images with cache disabled. This will remove the pulled or build images
and start building images from scratch. This might take a long time.

-r, --skip-rebuild-check
Skips checking image for rebuilds. It will use whatever image is available locally/pulled.

-L, --build-cache-local
Uses local cache to build images. No pulled images will be used, but results of local
builds in the Docker cache are used instead. This will take longer than when the pulled
cache is used for the first time, but subsequent '--build-cache-local' builds will be
faster as they will use mostly the locally build cache.

This is default strategy used by the Production image builds.

-U, --build-cache-pulled
Uses images pulled from registry (either DockerHub or GitHub depending on
--github-registry flag) to build images. The pulled images will be used as cache.
Those builds are usually faster than when ''--build-cache-local'' with the exception if
the registry images are not yet updated. The DockerHub images are updated nightly and the
GitHub images are updated after merges to master so it might be that the images are still
outdated vs. the latest version of the Dockerfiles you are using. In this case, the
''--build-cache-local'' might be faster, especially if you iterate and change the
Dockerfiles yourself.

This is default strategy used by the CI image builds.

-X, --build-cache-disabled
Disables cache during docker builds. This is useful if you want to make sure you want to
rebuild everything from scratch.

This strategy is used by default for both Production and CI images for the scheduled
(nightly) builds in CI.

-D, --dockerhub-user DOCKERHUB_USER
DockerHub user used to pull, push and build images. Default: apache.

-H, --dockerhub-repo DOCKERHUB_REPO
DockerHub repository used to pull, push, build images. Default: airflow.

-c, --github-registry GITHUB_REGISTRY
If GitHub registry is enabled, pulls and pushes are done from the GitHub registry not
DockerHub. You need to be logged in to the registry in order to be able to pull/push from
and you need to be committer to push to Apache Airflow' GitHub registry.

-g, --github-repository GITHUB_REPOSITORY
GitHub repository used to pull, push images when cache is used.
Default: apache/airflow.

If you use this flag, automatically --github-registry flag is enabled.

-s, --github-image-id COMMIT_SHA|RUN_ID
<RUN_ID> or <COMMIT_SHA> of the image. Images in GitHub registry are stored with those
to be able to easily find the image for particular CI runs. Once you know the
<RUN_ID> or <COMMIT_SHA>, you can specify it in github-image-id flag and Breeze will
automatically pull and use that image so that you can easily reproduce a problem
that occurred in CI.

If you use this flag, automatically --github-registry is enabled.

Default: latest.

-v, --verbose
Show verbose information about executed docker, kind, kubectl, helm commands. Useful for
debugging - when you run breeze with --verbose flags you will be able to see the commands
executed under the hood and copy&paste them to your terminal to debug them more easily.

Note that you can further increase verbosity and see all the commands executed by breeze
by running 'export VERBOSE_COMMANDS="true"' before running breeze.

####################################################################################################

Detailed usage for command: cleanup-image

breeze cleanup-image [FLAGS]

Removes the breeze-related images created in your local docker image cache. This will
not reclaim space in docker cache. You need to 'docker system prune' (optionally
with --all) to reclaim that space.

Flags:

-p, --python PYTHON_MAJOR_MINOR_VERSION
Python version used for the image. This is always major/minor version.

Note that versions 2.7 and 3.5 are only valid when installing Airflow 1.10 with
--install-airflow-version or --install-airflow-reference flags.

One of:

2.7 3.5 3.6 3.7 3.8

-I, --production-image
Use production image for entering the environment and builds (not for tests).

-v, --verbose
Show verbose information about executed docker, kind, kubectl, helm commands. Useful for
debugging - when you run breeze with --verbose flags you will be able to see the commands
executed under the hood and copy&paste them to your terminal to debug them more easily.

Note that you can further increase verbosity and see all the commands executed by breeze
by running 'export VERBOSE_COMMANDS="true"' before running breeze.

####################################################################################################

Detailed usage for command: exec

breeze exec [-- <EXTRA_ARGS>]

Execs into interactive shell to an already running container. The container mus be started
already by breeze shell command. If you are not familiar with tmux, this is the best
way to run multiple processes in the same container at the same time for example scheduler,
webserver, workers, database console and interactive terminal.

####################################################################################################

Detailed usage for command: generate-constraints

breeze generate-constraints [FLAGS]

Generates pinned constraint files from setup.py. Those files are generated in files folder
- separate files for different python version. Those constraint files when pushed to orphan
constraint-master and constraint-1-10 branches are used to generate repeatable
CI builds as well as run repeatable production image builds. You can use those constraints
to predictably install released Airflow versions. This is mainly used to test the constraint
generation - constraints are pushed to the orphan branches by a successful scheduled
CRON job in CI automatically.

Flags:

-p, --python PYTHON_MAJOR_MINOR_VERSION
Python version used for the image. This is always major/minor version.

Note that versions 2.7 and 3.5 are only valid when installing Airflow 1.10 with
--install-airflow-version or --install-airflow-reference flags.

One of:

2.7 3.5 3.6 3.7 3.8

-v, --verbose
Show verbose information about executed docker, kind, kubectl, helm commands. Useful for
debugging - when you run breeze with --verbose flags you will be able to see the commands
executed under the hood and copy&paste them to your terminal to debug them more easily.

Note that you can further increase verbosity and see all the commands executed by breeze
by running 'export VERBOSE_COMMANDS="true"' before running breeze.

####################################################################################################

Detailed usage for command: push-image

breeze push_image [FLAGS]

Pushes images to docker registry. You can push the images to DockerHub registry (default)
or to the GitHub registry (if --github-registry flag is used).

For DockerHub pushes --dockerhub-user and --dockerhub-repo flags can be used to specify
the repository to push to. For GitHub repository, the --github-repository
flag can be used for the same purpose. You can also add
--github-image-id <COMMIT_SHA>|<RUN_ID> in case you want to push image with specific
SHA tag or run id. In case you specify --github-repository or --github-image-id, you
do not need to specify --github-registry flag.

You can also add --production-image flag to switch to production image (default is CI one)

Examples:

'breeze push-image' or
'breeze push-image --dockerhub-user user' to push to your private registry or
'breeze push-image --production-image' - to push production image or
'breeze push-image --github-registry' - to push to GitHub image registry or
'breeze push-image \
--github-repository user/airflow' - to push to your user's fork
'breeze push-image \
--github-image-id 9a621eaa394c0a0a336f8e1b31b35eff4e4ee86e' - to push with COMMIT_SHA
'breeze push-image \
--github-image-id 209845560' - to push with RUN_ID

Flags:

-D, --dockerhub-user DOCKERHUB_USER
DockerHub user used to pull, push and build images. Default: apache.

-H, --dockerhub-repo DOCKERHUB_REPO
DockerHub repository used to pull, push, build images. Default: airflow.

-c, --github-registry GITHUB_REGISTRY
If GitHub registry is enabled, pulls and pushes are done from the GitHub registry not
DockerHub. You need to be logged in to the registry in order to be able to pull/push from
and you need to be committer to push to Apache Airflow' GitHub registry.

-g, --github-repository GITHUB_REPOSITORY
GitHub repository used to pull, push images when cache is used.
Default: apache/airflow.

If you use this flag, automatically --github-registry flag is enabled.

-s, --github-image-id COMMIT_SHA|RUN_ID
<RUN_ID> or <COMMIT_SHA> of the image. Images in GitHub registry are stored with those
to be able to easily find the image for particular CI runs. Once you know the
<RUN_ID> or <COMMIT_SHA>, you can specify it in github-image-id flag and Breeze will
automatically pull and use that image so that you can easily reproduce a problem
that occurred in CI.

If you use this flag, automatically --github-registry is enabled.

Default: latest.

-v, --verbose
Show verbose information about executed docker, kind, kubectl, helm commands. Useful for
debugging - when you run breeze with --verbose flags you will be able to see the commands
executed under the hood and copy&paste them to your terminal to debug them more easily.

Note that you can further increase verbosity and see all the commands executed by breeze
by running 'export VERBOSE_COMMANDS="true"' before running breeze.

####################################################################################################

Detailed usage for command: initialize-local-virtualenv

breeze initialize-local-virtualenv [FLAGS]

Initializes locally created virtualenv installing all dependencies of Airflow
taking into account the constraints for the version specified.
This local virtualenv can be used to aid auto-completion and IDE support as
well as run unit tests directly from the IDE. You need to have virtualenv
activated before running this command.

Flags:

-p, --python PYTHON_MAJOR_MINOR_VERSION
Python version used for the image. This is always major/minor version.

Note that versions 2.7 and 3.5 are only valid when installing Airflow 1.10 with
--install-airflow-version or --install-airflow-reference flags.

One of:

2.7 3.5 3.6 3.7 3.8

####################################################################################################

Detailed usage for command: setup-autocomplete

breeze setup-autocomplete

Sets up autocomplete for breeze commands. Once you do it you need to re-enter the bash
shell and when typing breeze command <TAB> will provide autocomplete for
parameters and values.

####################################################################################################

Detailed usage for command: start-airflow

breeze start-airflow

Like the Shell command this will enter the interactive shell, but it will also start
automatically the Scheduler and the Webserver. It will leave you in a tmux session where you
can also observe what is happening in your Airflow.

This is a convenient way to setup a development environment. Your dags will be loaded from the
folder 'files/dags' on your host machine (it could take some times).

If you want to load default connections and example dags you can use the dedicated flags.

Flags:

--load-example-dags
Include Airflow example dags.

--load-default-connections
Include Airflow Default Connections.

####################################################################################################

Detailed usage for command: stop

breeze stop

Brings down running docker compose environment. When you start the environment, the docker
containers will continue running so that startup time is shorter. But they take quite a lot of
memory and CPU. This command stops all running containers from the environment.

####################################################################################################

Detailed usage for command: restart

breeze restart [FLAGS]

Restarts running docker compose environment. When you restart the environment, the docker
containers will be restarted. That includes cleaning up the databases. This is
especially useful if you switch between different versions of Airflow.

Flags:

Run 'breeze flags' to see all applicable flags.

####################################################################################################

Detailed usage for command: toggle-suppress-cheatsheet

breeze toggle-suppress-cheatsheet

Toggles on/off cheatsheet displayed before starting bash shell.

####################################################################################################

Detailed usage for command: toggle-suppress-asciiart

breeze toggle-suppress-asciiart

Toggles on/off asciiart displayed before starting bash shell.

####################################################################################################

Detailed usage for command: docker-compose

breeze docker-compose [FLAGS] COMMAND [-- <EXTRA_ARGS>]

Run docker-compose command instead of entering the environment. Use 'help' as command
to see available commands. The <EXTRA_ARGS> passed after -- are treated
as additional options passed to docker-compose. For example

'breeze docker-compose pull -- --ignore-pull-failures'

Flags:

-p, --python PYTHON_MAJOR_MINOR_VERSION
Python version used for the image. This is always major/minor version.

Note that versions 2.7 and 3.5 are only valid when installing Airflow 1.10 with
--install-airflow-version or --install-airflow-reference flags.

One of:

2.7 3.5 3.6 3.7 3.8

-b, --backend BACKEND
Backend to use for tests - it determines which database is used.
One of:

sqlite mysql postgres

Default: sqlite

--postgres-version POSTGRES_VERSION
Postgres version used. One of:

9.6 10

--mysql-version MYSQL_VERSION
Mysql version used. One of:

5.7 8

-v, --verbose
Show verbose information about executed docker, kind, kubectl, helm commands. Useful for
debugging - when you run breeze with --verbose flags you will be able to see the commands
executed under the hood and copy&paste them to your terminal to debug them more easily.

Note that you can further increase verbosity and see all the commands executed by breeze
by running 'export VERBOSE_COMMANDS="true"' before running breeze.

####################################################################################################

Detailed usage for command: kind-cluster

breeze kind-cluster [FLAGS] OPERATION

Manages host-side Kind Kubernetes cluster that is used to run Kubernetes integration tests.
It allows to start/stop/restart/status the Kind Kubernetes cluster and deploy Airflow to it.
This enables you to run tests inside the breeze environment with latest airflow images.
Note that in case of deploying airflow, the first step is to rebuild the image and loading it
to the cluster so you can also pass appropriate build image flags that will influence
rebuilding the production image. Operation is one of:

start stop restart status deploy test shell