Contributing

This document aims to get you started with contributing to Synapse!

1. Who can contribute to Synapse?

Everyone is welcome to contribute code to matrix.org projects, provided that they are willing to license their contributions under the same license as the project itself. We follow a simple 'inbound=outbound' model for contributions: the act of submitting an 'inbound' contribution means that the contributor agrees to license the code under the same terms as the project's overall 'outbound' license - in our case, this is almost always Apache Software License v2 (see LICENSE).

2. What do I need?

If you are running Windows, the Windows Subsystem for Linux (WSL) is strongly recommended for development. More information about WSL can be found at https://docs.microsoft.com/en-us/windows/wsl/install. Running Synapse natively on Windows is not officially supported.

The code of Synapse is written in Python 3. To do pretty much anything, you'll need a recent version of Python 3. Your Python also needs support for virtual environments. This is usually built-in, but some Linux distributions like Debian and Ubuntu split it out into its own package. Running sudo apt install python3-venv should be enough.

Synapse can connect to PostgreSQL via the psycopg2 Python library. Building this library from source requires access to PostgreSQL's C header files. On Debian or Ubuntu Linux, these can be installed with sudo apt install libpq-dev.

The source code of Synapse is hosted on GitHub. You will also need a recent version of git.

For some tests, you will need a recent version of Docker.

3. Get the source.

The preferred and easiest way to contribute changes is to fork the relevant project on GitHub, and then create a pull request to ask us to pull your changes into our repo.

Please base your changes on the develop branch.

git clone git@github.com:YOUR_GITHUB_USER_NAME/synapse.git
git checkout develop

If you need help getting started with git, this is beyond the scope of the document, but you can find many good git tutorials on the web.

4. Install the dependencies

Synapse uses the poetry project to manage its dependencies and development environment. Once you have installed Python 3 and added the source, you should install poetry. Of their installation methods, we recommend installing poetry using pipx,

pip install --user pipx
pipx install poetry

but see poetry's installation instructions for other installation methods.

Next, open a terminal and install dependencies as follows:

cd path/where/you/have/cloned/the/repository
poetry install --extras all

This will install the runtime and developer dependencies for the project.

5. Get in touch.

Join our developer community on Matrix: #synapse-dev:matrix.org!

6. Pick an issue.

Fix your favorite problem or perhaps find a Good First Issue to work on.

7. Turn coffee into code and documentation!

There is a growing amount of documentation located in the docs directory, with a rendered version available online. This documentation is intended primarily for sysadmins running their own Synapse instance, as well as developers interacting externally with Synapse. docs/development exists primarily to house documentation for Synapse developers. docs/admin_api houses documentation regarding Synapse's Admin API, which is used mostly by sysadmins and external service developers.

Synapse's code style is documented here. Please follow it, including the conventions for the sample configuration file.

We welcome improvements and additions to our documentation itself! When writing new pages, please build docs to a book to check that your contributions render correctly. The docs are written in GitHub-Flavoured Markdown.

Some documentation also exists in Synapse's GitHub Wiki, although this is primarily contributed to by community authors.

8. Test, test, test!

While you're developing and before submitting a patch, you'll want to test your code.

Run the linters.

The linters look at your code and do two things:

  • ensure that your code follows the coding style adopted by the project;
  • catch a number of errors in your code.

The linter takes no time at all to run as soon as you've downloaded the dependencies.

poetry run ./scripts-dev/lint.sh

Note that this script will modify your files to fix styling errors. Make sure that you have saved all your files.

If you wish to restrict the linters to only the files changed since the last commit (much faster!), you can instead run:

poetry run ./scripts-dev/lint.sh -d

Or if you know exactly which files you wish to lint, you can instead run:

poetry run ./scripts-dev/lint.sh path/to/file1.py path/to/file2.py path/to/folder

Run the unit tests (Twisted trial).

The unit tests run parts of Synapse, including your changes, to see if anything was broken. They are slower than the linters but will typically catch more errors.

poetry run trial tests

If you wish to only run some unit tests, you may specify another module instead of tests - or a test class or a method:

poetry run trial tests.rest.admin.test_room tests.handlers.test_admin.ExfiltrateData.test_invite

If your tests fail, you may wish to look at the logs (the default log level is ERROR):

less _trial_temp/test.log

To increase the log level for the tests, set SYNAPSE_TEST_LOG_LEVEL:

SYNAPSE_TEST_LOG_LEVEL=DEBUG poetry run trial tests

By default, tests will use an in-memory SQLite database for test data. For additional help with debugging, one can use an on-disk SQLite database file instead, in order to review database state during and after running tests. This can be done by setting the SYNAPSE_TEST_PERSIST_SQLITE_DB environment variable. Doing so will cause the database state to be stored in a file named test.db under the trial process' working directory. Typically, this ends up being _trial_temp/test.db. For example:

SYNAPSE_TEST_PERSIST_SQLITE_DB=1 poetry run trial tests

The database file can then be inspected with:

sqlite3 _trial_temp/test.db

Note that the database file is cleared at the beginning of each test run. Thus it will always only contain the data generated by the last run test. Though generally when debugging, one is only running a single test anyway.

Running tests under PostgreSQL

Invoking trial as above will use an in-memory SQLite database. This is great for quick development and testing. However, we recommend using a PostgreSQL database in production (and indeed, we have some code paths specific to each database). This means that we need to run our unit tests against PostgreSQL too. Our CI does this automatically for pull requests and release candidates, but it's sometimes useful to reproduce this locally.

Using Docker

The easiest way to do so is to run Postgres via a docker container. In one terminal:

docker run --rm -e POSTGRES_PASSWORD=mysecretpassword -e POSTGRES_USER=postgres -e POSTGRES_DB=postgress -p 5432:5432 postgres:14

If you see an error like

docker: Error response from daemon: driver failed programming external connectivity on endpoint nice_ride (b57bbe2e251b70015518d00c9981e8cb8346b5c785250341a6c53e3c899875f1): Error starting userland proxy: listen tcp4 0.0.0.0:5432: bind: address already in use.

then something is already bound to port 5432. You're probably already running postgres locally.

Once you have a postgres server running, invoke trial in a second terminal:

SYNAPSE_POSTGRES=1 SYNAPSE_POSTGRES_HOST=127.0.0.1 SYNAPSE_POSTGRES_USER=postgres SYNAPSE_POSTGRES_PASSWORD=mysecretpassword poetry run trial tests

Using an existing Postgres installation

If you have postgres already installed on your system, you can run trial with the following environment variables matching your configuration:

  • SYNAPSE_POSTGRES to anything nonempty
  • SYNAPSE_POSTGRES_HOST (optional if it's the default: UNIX socket)
  • SYNAPSE_POSTGRES_PORT (optional if it's the default: 5432)
  • SYNAPSE_POSTGRES_USER (optional if using a UNIX socket)
  • SYNAPSE_POSTGRES_PASSWORD (optional if using a UNIX socket)

For example:

export SYNAPSE_POSTGRES=1
export SYNAPSE_POSTGRES_HOST=localhost
export SYNAPSE_POSTGRES_USER=postgres
export SYNAPSE_POSTGRES_PASSWORD=mydevenvpassword
trial

You don't need to specify the host, user, port or password if your Postgres server is set to authenticate you over the UNIX socket (i.e. if the psql command works without further arguments).

Your Postgres account needs to be able to create databases; see the postgres docs for ALTER ROLE.

Run the integration tests (Sytest).

The integration tests are a more comprehensive suite of tests. They run a full version of Synapse, including your changes, to check if anything was broken. They are slower than the unit tests but will typically catch more errors.

The following command will let you run the integration test with the most common configuration:

$ docker run --rm -it -v /path/where/you/have/cloned/the/repository\:/src:ro -v /path/to/where/you/want/logs\:/logs matrixdotorg/sytest-synapse:buster

(Note that the paths must be full paths! You could also write $(realpath relative/path) if needed.)

This configuration should generally cover your needs.

  • To run with Postgres, supply the -e POSTGRES=1 -e MULTI_POSTGRES=1 environment flags.
  • To run with Synapse in worker mode, supply the -e WORKERS=1 -e REDIS=1 environment flags (in addition to the Postgres flags).

For more details about other configurations, see the Docker-specific documentation in the SyTest repo.

Run the integration tests (Complement).

Complement is a suite of black box tests that can be run on any homeserver implementation. It can also be thought of as end-to-end (e2e) tests.

It's often nice to develop on Synapse and write Complement tests at the same time. Here is how to run your local Synapse checkout against your local Complement checkout.

(checkout complement alongside your synapse checkout)

COMPLEMENT_DIR=../complement ./scripts-dev/complement.sh

To run a specific test file, you can pass the test name at the end of the command. The name passed comes from the naming structure in your Complement tests. If you're unsure of the name, you can do a full run and copy it from the test output:

COMPLEMENT_DIR=../complement ./scripts-dev/complement.sh -run TestImportHistoricalMessages

To run a specific test, you can specify the whole name structure:

COMPLEMENT_DIR=../complement ./scripts-dev/complement.sh -run TestImportHistoricalMessages/parallel/Historical_events_resolve_in_the_correct_order

The above will run a monolithic (single-process) Synapse with SQLite as the database. For other configurations, try:

  • Passing POSTGRES=1 as an environment variable to use the Postgres database instead.
  • Passing WORKERS=1 as an environment variable to use a workerised setup instead. This option implies the use of Postgres.

To increase the log level for the tests, set SYNAPSE_TEST_LOG_LEVEL, e.g:

SYNAPSE_TEST_LOG_LEVEL=DEBUG COMPLEMENT_DIR=../complement ./scripts-dev/complement.sh -run TestImportHistoricalMessages

Prettier formatting with gotestfmt

If you want to format the output of the tests the same way as it looks in CI, install gotestfmt.

You can then use this incantation to format the tests appropriately:

COMPLEMENT_DIR=../complement ./scripts-dev/complement.sh -json | gotestfmt -hide successful-tests

(Remove -hide successful-tests if you don't want to hide successful tests.)

Access database for homeserver after Complement test runs.

If you're curious what the database looks like after you run some tests, here are some steps to get you going in Synapse:

  1. In your Complement test comment out defer deployment.Destroy(t) and replace with defer time.Sleep(2 * time.Hour) to keep the homeserver running after the tests complete
  2. Start the Complement tests
  3. Find the name of the container, docker ps -f name=complement_ (this will filter for just the Compelement related Docker containers)
  4. Access the container replacing the name with what you found in the previous step: docker exec -it complement_1_hs_with_application_service.hs1_2 /bin/bash
  5. Install sqlite (database driver), apt-get update && apt-get install -y sqlite3
  6. Then run sqlite3 and open the database .open /conf/homeserver.db (this db path comes from the Synapse homeserver.yaml)

9. Submit your patch.

Once you're happy with your patch, it's time to prepare a Pull Request.

To prepare a Pull Request, please:

  1. verify that all the tests pass, including the coding style;
  2. sign off your contribution;
  3. git push your commit to your fork of Synapse;
  4. on GitHub, create the Pull Request;
  5. add a changelog entry and push it to your Pull Request;
  6. that's it for now, a non-draft pull request will automatically request review from the team;
  7. if you need to update your PR, please avoid rebasing and just add new commits to your branch.

Changelog

All changes, even minor ones, need a corresponding changelog / newsfragment entry. These are managed by Towncrier.

To create a changelog entry, make a new file in the changelog.d directory named in the format of PRnumber.type. The type can be one of the following:

  • feature
  • bugfix
  • docker (for updates to the Docker image)
  • doc (for updates to the documentation)
  • removal (also used for deprecations)
  • misc (for internal-only changes)

This file will become part of our changelog at the next release, so the content of the file should be a short description of your change in the same style as the rest of the changelog. The file can contain Markdown formatting, and should end with a full stop (.) or an exclamation mark (!) for consistency.

Adding credits to the changelog is encouraged, we value your contributions and would like to have you shouted out in the release notes!

For example, a fix in PR #1234 would have its changelog entry in changelog.d/1234.bugfix, and contain content like:

The security levels of Florbs are now validated when received via the /federation/florb endpoint. Contributed by Jane Matrix.

If there are multiple pull requests involved in a single bugfix/feature/etc, then the content for each changelog.d file should be the same. Towncrier will merge the matching files together into a single changelog entry when we come to release.

How do I know what to call the changelog file before I create the PR?

Obviously, you don't know if you should call your newsfile 1234.bugfix or 5678.bugfix until you create the PR, which leads to a chicken-and-egg problem.

There are two options for solving this:

  1. Open the PR without a changelog file, see what number you got, and then add the changelog file to your branch (see Updating your pull request), or:

  2. Look at the list of all issues/PRs, add one to the highest number you see, and quickly open the PR before somebody else claims your number.

    This script might be helpful if you find yourself doing this a lot.

Sorry, we know it's a bit fiddly, but it's really helpful for us when we come to put together a release!

Debian changelog

Changes which affect the debian packaging files (in debian) are an exception to the rule that all changes require a changelog.d file.

In this case, you will need to add an entry to the debian changelog for the next release. For this, run the following command:

dch

This will make up a new version number (if there isn't already an unreleased version in flight), and open an editor where you can add a new changelog entry. (Our release process will ensure that the version number and maintainer name is corrected for the release.)

If your change affects both the debian packaging and files outside the debian directory, you will need both a regular newsfragment and an entry in the debian changelog. (Though typically such changes should be submitted as two separate pull requests.)

Sign off

In order to have a concrete record that your contribution is intentional and you agree to license it under the same terms as the project's license, we've adopted the same lightweight approach that the Linux Kernel submitting patches process, Docker, and many other projects use: the DCO (Developer Certificate of Origin). This is a simple declaration that you wrote the contribution or otherwise have the right to contribute it to Matrix:

Developer Certificate of Origin
Version 1.1

Copyright (C) 2004, 2006 The Linux Foundation and its contributors.
660 York Street, Suite 102,
San Francisco, CA 94110 USA

Everyone is permitted to copy and distribute verbatim copies of this
license document, but changing it is not allowed.

Developer's Certificate of Origin 1.1

By making a contribution to this project, I certify that:

(a) The contribution was created in whole or in part by me and I
    have the right to submit it under the open source license
    indicated in the file; or

(b) The contribution is based upon previous work that, to the best
    of my knowledge, is covered under an appropriate open source
    license and I have the right under that license to submit that
    work with modifications, whether created in whole or in part
    by me, under the same open source license (unless I am
    permitted to submit under a different license), as indicated
    in the file; or

(c) The contribution was provided directly to me by some other
    person who certified (a), (b) or (c) and I have not modified
    it.

(d) I understand and agree that this project and the contribution
    are public and that a record of the contribution (including all
    personal information I submit with it, including my sign-off) is
    maintained indefinitely and may be redistributed consistent with
    this project or the open source license(s) involved.

If you agree to this for your contribution, then all that's needed is to include the line in your commit or pull request comment:

Signed-off-by: Your Name <your@email.example.org>

We accept contributions under a legally identifiable name, such as your name on government documentation or common-law names (names claimed by legitimate usage or repute). Unfortunately, we cannot accept anonymous contributions at this time.

Git allows you to add this signoff automatically when using the -s flag to git commit, which uses the name and email set in your user.name and user.email git configs.

Private Sign off

If you would like to provide your legal name privately to the Matrix.org Foundation (instead of in a public commit or comment), you can do so by emailing your legal name and a link to the pull request to dco@matrix.org. It helps to include "sign off" or similar in the subject line. You will then be instructed further.

Once private sign off is complete, doing so for future contributions will not be required.

10. Turn feedback into better code.

Once the Pull Request is opened, you will see a few things:

  1. our automated CI (Continuous Integration) pipeline will run (again) the linters, the unit tests, the integration tests and more;
  2. one or more of the developers will take a look at your Pull Request and offer feedback.

From this point, you should:

  1. Look at the results of the CI pipeline.
    • If there is any error, fix the error.
  2. If a developer has requested changes, make these changes and let us know if it is ready for a developer to review again.
    • A pull request is a conversation, if you disagree with the suggestions, please respond and discuss it.
  3. Create a new commit with the changes.
    • Please do NOT overwrite the history. New commits make the reviewer's life easier.
    • Push this commits to your Pull Request.
  4. Back to 1.
  5. Once the pull request is ready for review again please re-request review from whichever developer did your initial review (or leave a comment in the pull request that you believe all required changes have been done).

Once both the CI and the developers are happy, the patch will be merged into Synapse and released shortly!

11. Find a new issue.

By now, you know the drill!

Notes for maintainers on merging PRs etc

There are some notes for those with commit access to the project on how we manage git here.

Conclusion

That's it! Matrix is a very open and collaborative project as you might expect given our obsession with open communication. If we're going to successfully matrix together all the fragmented communication technologies out there we are reliant on contributions and collaboration from the community to do so. So please get involved - and we hope you have as much fun hacking on Matrix as we do!