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Contributing

Welcome!

This document is fairly extensive and you aren't really expected to study this in detail for small contributions;

The most important rule is that contributing must be easy and that the community is friendly and not nitpicking on details, such as coding style.

If you're reporting a bug you should read the Reporting bugs section below to ensure that your bug report contains enough information to successfully diagnose the issue, and if you're contributing code you should try to mimic the conventions you see surrounding the code you're working on, but in the end all patches will be cleaned up by the person merging the changes so don't worry too much.

The goal is to maintain a diverse community that's pleasant for everyone. That's why we would greatly appreciate it if everyone contributing to and interacting with the community also followed this Code of Conduct.

The Code of Conduct covers our behavior as members of the community, in any forum, mailing list, wiki, website, Internet relay chat (IRC), public meeting or private correspondence.

The Code of Conduct is heavily based on the Ubuntu Code of Conduct, and the Pylons Code of Conduct.

Your work will be used by other people, and you in turn will depend on the work of others. Any decision you take will affect users and colleagues, and we expect you to take those consequences into account when making decisions. Even if it's not obvious at the time, our contributions to Celery will impact the work of others. For example, changes to code, infrastructure, policy, documentation and translations during a release may negatively impact others work.

The Celery community and its members treat one another with respect. Everyone can make a valuable contribution to Celery. We may not always agree, but disagreement is no excuse for poor behavior and poor manners. We might all experience some frustration now and then, but we cannot allow that frustration to turn into a personal attack. It's important to remember that a community where people feel uncomfortable or threatened isn't a productive one. We expect members of the Celery community to be respectful when dealing with other contributors as well as with people outside the Celery project and with users of Celery.

Collaboration is central to Celery and to the larger free software community. We should always be open to collaboration. Your work should be done transparently and patches from Celery should be given back to the community when they're made, not just when the distribution releases. If you wish to work on new code for existing upstream projects, at least keep those projects informed of your ideas and progress. It many not be possible to get consensus from upstream, or even from your colleagues about the correct implementation for an idea, so don't feel obliged to have that agreement before you begin, but at least keep the outside world informed of your work, and publish your work in a way that allows outsiders to test, discuss, and contribute to your efforts.

Disagreements, both political and technical, happen all the time and the Celery community is no exception. It's important that we resolve disagreements and differing views constructively and with the help of the community and community process. If you really want to go a different way, then we encourage you to make a derivative distribution or alternate set of packages that still build on the work we've done to utilize as common of a core as possible.

Nobody knows everything, and nobody is expected to be perfect. Asking questions avoids many problems down the road, and so questions are encouraged. Those who are asked questions should be responsive and helpful. However, when asking a question, care must be taken to do so in an appropriate forum.

Developers on every project come and go and Celery is no different. When you leave or disengage from the project, in whole or in part, we ask that you do so in a way that minimizes disruption to the project. This means you should tell people you're leaving and take the proper steps to ensure that others can pick up where you leave off.

You must never report security related issues, vulnerabilities or bugs including sensitive information to the bug tracker, or elsewhere in public. Instead sensitive bugs must be sent by email to [email protected].

If you'd like to submit the information encrypted our PGP key is:

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Bugs can always be described to the :ref:`mailing-list`, but the best way to report an issue and to ensure a timely response is to use the issue tracker.

  1. Create a GitHub account.

You need to create a GitHub account to be able to create new issues and participate in the discussion.

  1. Determine if your bug is really a bug.

You shouldn't file a bug if you're requesting support. For that you can use the :ref:`mailing-list`, or :ref:`irc-channel`. If you still need support you can open a github issue, please prepend the title with [QUESTION].

  1. Make sure your bug hasn't already been reported.

Search through the appropriate Issue tracker. If a bug like yours was found, check if you have new information that could be reported to help the developers fix the bug.

  1. Check if you're using the latest version.

A bug could be fixed by some other improvements and fixes - it might not have an existing report in the bug tracker. Make sure you're using the latest releases of celery, billiard, kombu, amqp, and vine.

  1. Collect information about the bug.

To have the best chance of having a bug fixed, we need to be able to easily reproduce the conditions that caused it. Most of the time this information will be from a Python traceback message, though some bugs might be in design, spelling or other errors on the website/docs/code.

  1. If the error is from a Python traceback, include it in the bug report.

  2. We also need to know what platform you're running (Windows, macOS, Linux, etc.), the version of your Python interpreter, and the version of Celery, and related packages that you were running when the bug occurred.

  3. If you're reporting a race condition or a deadlock, tracebacks can be hard to get or might not be that useful. Try to inspect the process to get more diagnostic data. Some ideas:

  4. Include the output from the :command:`celery report` command:

    $ celery -A proj report

    This will also include your configuration settings and it try to remove values for keys known to be sensitive, but make sure you also verify the information before submitting so that it doesn't contain confidential information like API tokens and authentication credentials.

  5. You issue might be tagged as Needs Test Case. A test case represents all the details needed to reproduce what your issue is reporting. A test case can be some minimal code that reproduces the issue or detailed instructions and configuration values that reproduces said issue.

  1. Submit the bug.

By default GitHub will email you to let you know when new comments have been made on your bug. In the event you've turned this feature off, you should check back on occasion to ensure you don't miss any questions a developer trying to fix the bug might ask.

Bugs for a package in the Celery ecosystem should be reported to the relevant issue tracker.

If you're unsure of the origin of the bug you can ask the :ref:`mailing-list`, or just use the Celery issue tracker.

There's a separate section for internal details, including details about the code base and a style guide.

Read :ref:`internals-guide` for more!

Version numbers consists of a major version, minor version and a release number. Since version 2.1.0 we use the versioning semantics described by SemVer: http://semver.org.

Stable releases are published at PyPI while development releases are only available in the GitHub git repository as tags. All version tags starts with “v”, so version 0.8.0 is the tag v0.8.0.

Current active version branches:

You can see the state of any branch by looking at the Changelog:

https://github.com/celery/celery/blob/master/Changelog

If the branch is in active development the topmost version info should contain meta-data like:

4.3.0
======
:release-date: TBA
:status: DEVELOPMENT
:branch: dev (git calls this master)

The status field can be one of:

  • PLANNING

    The branch is currently experimental and in the planning stage.

  • DEVELOPMENT

    The branch is in active development, but the test suite should be passing and the product should be working and possible for users to test.

  • FROZEN

    The branch is frozen, and no more features will be accepted. When a branch is frozen the focus is on testing the version as much as possible before it is released.

The dev branch (called "master" by git), is where development of the next version happens.

Maintenance branches are named after the version -- for example, the maintenance branch for the 2.2.x series is named 2.2.

Previously these were named releaseXX-maint.

The versions we currently maintain is:

  • 4.2

    This is the current series.

  • 4.1

    Drop support for python 2.6. Add support for python 3.4, 3.5 and 3.6.

  • 3.1

    Official support for python 2.6, 2.7 and 3.3, and also supported on PyPy.

Archived branches are kept for preserving history only, and theoretically someone could provide patches for these if they depend on a series that's no longer officially supported.

An archived version is named X.Y-archived.

To maintain a cleaner history and drop compatibility to continue improving the project we do not have any archived version right now.

Major new features are worked on in dedicated branches. There's no strict naming requirement for these branches.

Feature branches are removed once they've been merged into a release branch.

  • Tags are used exclusively for tagging releases. A release tag is named with the format vX.Y.Z -- for example v2.3.1.
  • Experimental releases contain an additional identifier vX.Y.Z-id -- for example v3.0.0-rc1.
  • Experimental tags may be removed after the official release.

Note

Contributing to Celery should be as simple as possible, so none of these steps should be considered mandatory.

You can even send in patches by email if that's your preferred work method. We won't like you any less, any contribution you make is always appreciated!

However following these steps may make maintainers life easier, and may mean that your changes will be accepted sooner.

First you need to fork the Celery repository, a good introduction to this is in the GitHub Guide: Fork a Repo.

After you have cloned the repository you should checkout your copy to a directory on your machine:

$ git clone [email protected]:username/celery.git

When the repository is cloned enter the directory to set up easy access to upstream changes:

$ cd celery
$ git remote add upstream git://github.com/celery/celery.git
$ git fetch upstream

If you need to pull in new changes from upstream you should always use the --rebase option to git pull:

git pull --rebase upstream master

With this option you don't clutter the history with merging commit notes. See Rebasing merge commits in git. If you want to learn more about rebasing see the Rebase section in the GitHub guides.

If you need to work on a different branch than the one git calls master, you can fetch and checkout a remote branch like this:

git checkout --track -b 5.0-devel upstream/5.0-devel

Note: Any feature or fix branch should be created from upstream/master.

Because of the many components of Celery, such as a broker and backend, Docker and docker-compose can be utilized to greatly simplify the development and testing cycle. The Docker configuration here requires a Docker version of at least 17.13.0 and docker-compose 1.13.0+.

The Docker components can be found within the :file:`docker/` folder and the Docker image can be built via:

$ docker-compose build celery

and run via:

$ docker-compose run --rm celery <command>

where <command> is a command to execute in a Docker container. The --rm flag indicates that the container should be removed after it is exited and is useful to prevent accumulation of unwanted containers.

Some useful commands to run:

  • bash

    To enter the Docker container like a normal shell

  • make test

    To run the test suite. Note: This will run tests using python 3.6 by default.

  • tox

    To run tox and test against a variety of configurations. Note: This command will run tests for every environment defined in :file:`tox.ini`. It takes a while.

  • pyenv exec python{2.7,3.4,3.5,3.6} -m pytest t/unit

    To run unit tests using pytest.

    Note: {2.7,3.4,3.5,3.6} means you can use any of those options. e.g. pyenv exec python3.6 -m pytest t/unit

  • pyenv exec python{2.7,3.4,3.5,3.6} -m pytest t/integration

    To run integration tests using pytest

    Note: {2.7,3.4,3.5,3.6} means you can use any of those options. e.g. pyenv exec python3.6 -m pytest t/unit

By default, docker-compose will mount the Celery and test folders in the Docker container, allowing code changes and testing to be immediately visible inside the Docker container. Environment variables, such as the broker and backend to use are also defined in the :file:`docker/docker-compose.yml` file.

By running docker-compose build celery an image will be created with the name celery/celery:dev. This docker image has every dependency needed for development installed. pyenv is used to install multiple python versions, the docker images offers python 2.7, 3.4, 3.5 and 3.6. The default python version is set to 2.7.

The :file:`docker-compose.yml` file defines the necessary environment variables to run integration tests. The celery service also mounts the codebase and sets the PYTHONPATH environment variable to /home/developer. By setting PYTHONPATH the service allows to use the mounted codebase as global module for development. If you prefer you can also run python -m pip install -e . to install the codebase in development mode.

If you would like to run a Django or stand alone project to manually test or debug a feature you can use the image built by docker-compose and mount your custom code. Here's an example:

Assuming a folder structure such as:

+ celery_project
  + celery # repository cloned here.
  + my_project
    - manage.py
    + my_project
      - views.py
version: "3"

services:
    celery:
        image: celery/celery:dev
        environment:
            TEST_BROKER: amqp://rabbit:5672
            TEST_BACKEND: redis://redis
         volumes:
             - ../../celery:/home/developer/celery
             - ../my_project:/home/developer/my_project
         depends_on:
             - rabbit
             - redis
     rabbit:
         image: rabbitmq:latest
     redis:
         image: redis:latest

In the previous example we are using the image that we can build from this repository and mounting the celery code base as well as our custom project.

If you like to develop using virtual environments or just outside docker you must make sure all necessary dependencies are installed. There are multiple requirements files to make it easier to install all dependencies. You do not have to use every requirements file but you must use default.txt.

# pip install -U -r requirements/default.txt

To run the Celery test suite you need to install :file:`requirements/test.txt`.

$ pip install -U -r requirements/test.txt
$ pip install -U -r requirements/default.txt

After installing the dependencies required, you can now execute the test suite by calling :pypi:`py.test <pytest>`:

$ py.test t/unit
$ py.test t/integration

Some useful options to :command:`py.test` are:

  • -x

    Stop running the tests at the first test that fails.

  • -s

    Don't capture output

  • -v

    Run with verbose output.

If you want to run the tests for a single test file only you can do so like this:

$ py.test t/unit/worker/test_worker.py

To calculate test coverage you must first install the :pypi:`pytest-cov` module.

Installing the :pypi:`pytest-cov` module:

$ pip install -U pytest-cov
  1. Run :command:`py.test` with the --cov-report=html argument enabled:

    $ py.test --cov=celery --cov-report=html
  2. The coverage output will then be located in the :file:`htmlcov/` directory:

    $ open htmlcov/index.html
  1. Run :command:`py.test` with the --cov-report=xml argument enabled:
$ py.test --cov=celery --cov-report=xml
  1. The coverage XML output will then be located in the :file:`coverage.xml` file.

There's a :pypi:`tox` configuration file in the top directory of the distribution.

To run the tests for all supported Python versions simply execute:

$ tox

Use the tox -e option if you only want to test specific Python versions:

$ tox -e 2.7

To build the documentation you need to install the dependencies listed in :file:`requirements/docs.txt` and :file:`requirements/default.txt`:

$ pip install -U -r requirements/docs.txt
$ pip install -U -r requirements/default.txt

Additionally, to build with no warnings, you will need to install the following packages:

$ apt-get install texlive texlive-latex-extra dvipng

After these dependencies are installed you should be able to build the docs by running:

$ cd docs
$ rm -rf _build
$ make html

Make sure there are no errors or warnings in the build output. After building succeeds the documentation is available at :file:`_build/html`.

To use these tools you need to install a few dependencies. These dependencies can be found in :file:`requirements/pkgutils.txt`.

Installing the dependencies:

$ pip install -U -r requirements/pkgutils.txt

To ensure that your changes conform to PEP 8 and to run pyflakes execute:

$ make flakecheck

To not return a negative exit code when this command fails use the flakes target instead:

$ make flakes

To make sure that all modules have a corresponding section in the API reference please execute:

$ make apicheck

If files are missing you can add them by copying an existing reference file.

If the module is internal it should be part of the internal reference located in :file:`docs/internals/reference/`. If the module is public it should be located in :file:`docs/reference/`.

For example if reference is missing for the module celery.worker.awesome and this module is considered part of the public API, use the following steps:

Use an existing file as a template:

$ cd docs/reference/
$ cp celery.schedules.rst celery.worker.awesome.rst

Edit the file using your favorite editor:

$ vim celery.worker.awesome.rst

    # change every occurrence of ``celery.schedules`` to
    # ``celery.worker.awesome``

Edit the index using your favorite editor:

$ vim index.rst

    # Add ``celery.worker.awesome`` to the index.

Commit your changes:

# Add the file to git
$ git add celery.worker.awesome.rst
$ git add index.rst
$ git commit celery.worker.awesome.rst index.rst \
    -m "Adds reference for celery.worker.awesome"

Isort is a python utility to help sort imports alphabetically and separated into sections. The Celery project uses isort to better maintain imports on every module. Please run isort if there are any new modules or the imports on an existent module had to be modified.

$ isort my_module.py # Run isort for one file
$ isort -rc . # Run it recursively
$ isort m_module.py --diff # Do a dry-run to see the proposed changes

When your feature/bugfix is complete you may want to submit a pull requests so that it can be reviewed by the maintainers.

Before submitting a pull requests please make sure you go through this checklist to make it easier for the maintainers to accept your proposed changes:

  • [ ] Make sure any change or new feature has a unit and/or integration test.

    If a test is not written a label will be assigned to your PR with the name Needs Test Coverage.

  • [ ] Make sure unit test coverage does not decrease.

    py.test -xv --cov=celery --cov-report=xml --cov-report term. You can check the current test coverage here: https://codecov.io/gh/celery/celery

  • [ ] Run flake8 against the code. The following commands are valid

    and equivalent.:

    $ flake8 -j 2 celery/ t/
    $ make flakecheck
    $ tox -e flake8
  • [ ] Run flakeplus against the code. The following commands are valid

    and equivalent.:

    $ flakeplus --2.7 celery/ t/
    $ make flakes
    $ tox -e flakeplus
  • [ ] Run pydocstyle against the code. The following commands are valid

    and equivalent.:

    $ pydocstyle celery/
    $ tox -e pydocstyle
  • [ ] Build api docs to make sure everything is OK. The following commands are valid

    and equivalent.:

    $ make apicheck
    $ cd docs && sphinx-build -b apicheck -d _build/doctrees . _build/apicheck
    $ tox -e apicheck
  • [ ] Build configcheck. The following commands are valid

    and equivalent.:

    $ make configcheck
    $ cd docs && sphinx-build -b configcheck -d _build/doctrees   . _build/configcheck
    $ tox -e configcheck
  • [ ] Run bandit to make sure there's no security issues. The following commands are valid

    and equivalent.:

    $ pip install -U bandit
    $ bandit -b bandit.json celery/
    $ tox -e bandit
  • [ ] Run unit and integration tests for every python version. The following commands are valid

    and equivalent.:

    $ tox -v
  • [ ] Confirm isort on any new or modified imports:

    $ isort my_module.py --diff

Creating pull requests is easy, and also let you track the progress of your contribution. Read the Pull Requests section in the GitHub Guide to learn how this is done.

You can also attach pull requests to existing issues by following the steps outlined here: https://bit.ly/koJoso

You can also use hub to create pull requests. Example: https://theiconic.tech/git-hub-fbe2e13ef4d1

There are different labels _ used to easily manage github issues and PRs. Most of these labels make it easy to categorize each issue with important details. For instance, you might see a Component:canvas label on an issue or PR. The Component:canvas label means the issue or PR corresponds to the canvas functionality. These labels are set by the maintainers and for the most part external contributors should not worry about them. A subset of these labels are prepended with Status:. Usually the Status: labels show important actions which the issue or PR needs. Here is a summary of such statuses:

  • Status: Cannot Reproduce

    One or more Celery core team member has not been able to reproduce the issue.

  • Status: Confirmed

    The issue or PR has been confirmed by one or more Celery core team member.

  • Status: Duplicate

    A duplicate issue or PR.

  • Status: Feedback Needed

    One or more Celery core team member has asked for feedback on the issue or PR.

  • Status: Has Testcase

    It has been confirmed the issue or PR includes a test case. This is particularly important to correctly write tests for any new feature or bug fix.

  • Status: In Progress

    The PR is still in progress.

  • Status: Invalid

    The issue reported or the PR is not valid for the project.

  • Status: Needs Documentation

    The PR does not contain documentation for the feature or bug fix proposed.

  • Status: Needs Rebase

    The PR has not been rebased with master. It is very important to rebase PRs before they can be merged to master to solve any merge conflicts.

  • Status: Needs Test Coverage

    Celery uses codecov _ to verify code coverage. Please, make sure PRs do not decrease code coverage. This label will identify PRs which need code coverage.

  • Status: Needs Test Case

    The issue or PR needs a test case. A test case can be a minimal code snippet that reproduces an issue or a detailed set of instructions and configuration values that reproduces the issue reported. If possible a test case can be submitted in the form of a PR to Celery's integration suite. The test case will be marked as failed until the bug is fixed. When a test case cannot be run by Celery's integration suite then it's better to describe in the issue itself.

  • Status: Needs Verification

    This label is used to notify other users we need to verify the test case offered by the reporter and/or we need to include the test in our integration suite.

  • Status: Not a Bug

    It has been decided the issue reported is not a bug.

  • Status: Won't Fix

    It has been decided the issue will not be fixed. Sadly the Celery project does not have unlimited resources and sometimes this decision has to be made. Although, any external contributors are invited to help out even if an issue or PR is labeled as Status: Won't Fix.

  • Status: Works For Me

    One or more Celery core team members have confirmed the issue reported works for them.

You should probably be able to pick up the coding style from surrounding code, but it is a good idea to be aware of the following conventions.

  • All Python code must follow the PEP 8 guidelines.

:pypi:`pep8` is a utility you can use to verify that your code is following the conventions.

  • Docstrings must follow the PEP 257 conventions, and use the following style.

    Do this:

    def method(self, arg):
        """Short description.
    
        More details.
    
        """

    or:

    def method(self, arg):
        """Short description."""

    but not this:

    def method(self, arg):
        """
        Short description.
        """
  • Lines shouldn't exceed 78 columns.

    You can enforce this in :command:`vim` by setting the textwidth option:

    set textwidth=78

    If adhering to this limit makes the code less readable, you have one more character to go on. This means 78 is a soft limit, and 79 is the hard limit :)

  • Import order

    • Python standard library (import xxx)
    • Python standard library (from xxx import)
    • Third-party packages.
    • Other modules from the current package.

    or in case of code using Django:

    • Python standard library (import xxx)
    • Python standard library (from xxx import)
    • Third-party packages.
    • Django packages.
    • Other modules from the current package.

    Within these sections the imports should be sorted by module name.

    Example:

    import threading
    import time
    
    from collections import deque
    from Queue import Queue, Empty
    
    from .platforms import Pidfile
    from .five import zip_longest, items, range
    from .utils.time import maybe_timedelta
  • Wild-card imports must not be used (from xxx import *).

  • For distributions where Python 2.5 is the oldest support version additional rules apply:

    • Absolute imports must be enabled at the top of every module:

      from __future__ import absolute_import
      
    • If the module uses the :keyword:`with` statement and must be compatible with Python 2.5 (celery isn't) then it must also enable that:

      from __future__ import with_statement
      
    • Every future import must be on its own line, as older Python 2.5 releases didn't support importing multiple features on the same future import line:

      # Good
      from __future__ import absolute_import
      from __future__ import with_statement
      
      # Bad
      from __future__ import absolute_import, with_statement
      

    (Note that this rule doesn't apply if the package doesn't include support for Python 2.5)

  • Note that we use "new-style" relative imports when the distribution doesn't support Python versions below 2.5

    This requires Python 2.5 or later:

    from . import submodule

Some features like a new result backend may require additional libraries that the user must install.

We use setuptools extra_requires for this, and all new optional features that require third-party libraries must be added.

  1. Add a new requirements file in requirements/extras

    For the Cassandra backend this is :file:`requirements/extras/cassandra.txt`, and the file looks like this:

    pycassa
    

    These are pip requirement files so you can have version specifiers and multiple packages are separated by newline. A more complex example could be:

    # pycassa 2.0 breaks Foo
    pycassa>=1.0,<2.0
    thrift
    
  2. Modify setup.py

    After the requirements file is added you need to add it as an option to :file:`setup.py` in the extras_require section:

    extra['extras_require'] = {
        # ...
        'cassandra': extras('cassandra.txt'),
    }
    
  3. Document the new feature in :file:`docs/includes/installation.txt`

    You must add your feature to the list in the :ref:`bundles` section of :file:`docs/includes/installation.txt`.

    After you've made changes to this file you need to render the distro :file:`README` file:

    $ pip install -U requirements/pkgutils.txt
    $ make readme

That's all that needs to be done, but remember that if your feature adds additional configuration options then these needs to be documented in :file:`docs/configuration.rst`. Also all settings need to be added to the :file:`celery/app/defaults.py` module.

Result backends require a separate section in the :file:`docs/configuration.rst` file.

This is a list of people that can be contacted for questions regarding the official git repositories, PyPI packages Read the Docs pages.

If the issue isn't an emergency then it's better to :ref:`report an issue <reporting-bugs>`.

github:https://github.com/ask
twitter:https://twitter.com/#!/asksol
github:https://github.com/auvipy
twitter:https://twitter.com/#!/auvipy
github:https://github.com/malinoff
twitter:https://twitter.com/__malinoff__
github:https://github.com/ionelmc
twitter:https://twitter.com/ionelmc
github:https://github.com/mher
twitter:https://twitter.com/#!/movsm
github:https://github.com/thedrow
twitter:https://twitter.com/the_drow
github:https://github.com/steeve
twitter:https://twitter.com/#!/steeve
github:https://github.com/xirdneh
twitter:https://twitter.com/eusoj_xirdneh

The Celery Project website is run and maintained by

github:https://github.com/fireantology
twitter:https://twitter.com/#!/fireantology

with design by:

web:http://www.helmersworks.com
twitter:https://twitter.com/#!/helmers
git:https://github.com/celery/celery
CI:https://travis-ci.org/#!/celery/celery
Windows-CI:https://ci.appveyor.com/project/ask/celery
PyPI::pypi:`celery`
docs:http://docs.celeryproject.org

Messaging library.

git:https://github.com/celery/kombu
CI:https://travis-ci.org/#!/celery/kombu
Windows-CI:https://ci.appveyor.com/project/ask/kombu
PyPI::pypi:`kombu`
docs:https://kombu.readthedocs.io

Python AMQP 0.9.1 client.

git:https://github.com/celery/py-amqp
CI:https://travis-ci.org/#!/celery/py-amqp
Windows-CI:https://ci.appveyor.com/project/ask/py-amqp
PyPI::pypi:`amqp`
docs:https://amqp.readthedocs.io

Promise/deferred implementation.

git:https://github.com/celery/vine/
CI:https://travis-ci.org/#!/celery/vine/
Windows-CI:https://ci.appveyor.com/project/ask/vine
PyPI::pypi:`vine`
docs:https://vine.readthedocs.io

Fork of multiprocessing containing improvements that'll eventually be merged into the Python stdlib.

git:https://github.com/celery/billiard
CI:https://travis-ci.org/#!/celery/billiard/
Windows-CI:https://ci.appveyor.com/project/ask/billiard
PyPI::pypi:`billiard`

Database-backed Periodic Tasks with admin interface using the Django ORM.

git:https://github.com/celery/django-celery-beat
CI:https://travis-ci.org/#!/celery/django-celery-beat
Windows-CI:https://ci.appveyor.com/project/ask/django-celery-beat
PyPI::pypi:`django-celery-beat`

Store task results in the Django ORM, or using the Django Cache Framework.

git:https://github.com/celery/django-celery-results
CI:https://travis-ci.org/#!/celery/django-celery-results
Windows-CI:https://ci.appveyor.com/project/ask/django-celery-results
PyPI::pypi:`django-celery-results`

Very fast Python AMQP client written in C.

git:https://github.com/celery/librabbitmq
PyPI::pypi:`librabbitmq`

Actor library.

git:https://github.com/celery/cell
PyPI::pypi:`cell`

Distributed Celery Instance manager.

git:https://github.com/celery/cyme
PyPI::pypi:`cyme`
docs:https://cyme.readthedocs.io/
  • django-celery
git:https://github.com/celery/django-celery
PyPI::pypi:`django-celery`
docs:http://docs.celeryproject.org/en/latest/django
  • Flask-Celery
git:https://github.com/ask/Flask-Celery
PyPI::pypi:`Flask-Celery`
  • celerymon
git:https://github.com/celery/celerymon
PyPI::pypi:`celerymon`
  • carrot
git:https://github.com/ask/carrot
PyPI::pypi:`carrot`
  • ghettoq
git:https://github.com/ask/ghettoq
PyPI::pypi:`ghettoq`
  • kombu-sqlalchemy
git:https://github.com/ask/kombu-sqlalchemy
PyPI::pypi:`kombu-sqlalchemy`
  • django-kombu
git:https://github.com/ask/django-kombu
PyPI::pypi:`django-kombu`
  • pylibrabbitmq

Old name for :pypi:`librabbitmq`.

git::const:`None`
PyPI::pypi:`pylibrabbitmq`

The version number must be updated three places:

The changes to the previous files can be handled with the [bumpversion command line tool] (https://pypi.org/project/bumpversion/). The corresponding configuration lives in :file:`.bumpversion.cfg`. To do the necessary changes run:

$ bumpversion

After you have changed these files you must render the :file:`README` files. There's a script to convert sphinx syntax to generic reStructured Text syntax, and the make target readme does this for you:

$ make readme

Now commit the changes:

$ git commit -a -m "Bumps version to X.Y.Z"

and make a new version tag:

$ git tag vX.Y.Z
$ git push --tags

Commands to make a new public stable release:

$ make distcheck  # checks pep8, autodoc index, runs tests and more
$ make dist  # NOTE: Runs git clean -xdf and removes files not in the repo.
$ python setup.py sdist upload --sign --identity='Celery Security Team'
$ python setup.py bdist_wheel upload --sign --identity='Celery Security Team'

If this is a new release series then you also need to do the following:

  • Go to the Read The Docs management interface at:

    https://readthedocs.org/projects/celery/?fromdocs=celery

  • Enter "Edit project"

    Change default branch to the branch of this series, for example, use the 2.4 branch for the 2.4 series.

  • Also add the previous version under the "versions" tab.