GitHub, Git, and related topics =============================== GitHub ------ Open MPI's Git repositories are `hosted at GitHub `_. #. First, you will need a Git client. We recommend getting the latest version available. If you do not have the command ``git`` in your path, you will likely need to download and install Git. #. `ompi `_ is the main Open MPI repository where most active development is done. Git clone this repository. Note that the use of the ``--recursive`` CLI option is necessary because Open MPI uses Git submodules:: shell$ git clone --recursive https://github.com/open-mpi/ompi.git Note that Git is natively capable of using many forms of web proxies. If your network setup requires the user of a web proxy, `consult the Git documentation for more details `_. Git commits: open source / contributor's declaration ---------------------------------------------------- In order to remain open source, all new commits to the Open MPI repository must include a ``Signed-off-by:`` line, indicating the submitter's agreement to the :ref:`Open MPI Contributor's Declaration `. .. tip:: You can use the ``-s`` option to ``git commit`` to automatically add the ``Signed-off-by:`` line to your commit message. .. _git-github-branch-scheme-label: Git branch scheme ----------------- Generally, Open MPI has two types of branches in its Git repository: #. ``main``: * All active development occurs on the ``main`` branch (new features, bug fixes, etc.). #. Release branches of the form ``vMAJOR.MINOR.x`` (e.g., ``v4.0.x``, ``v4.1.x``, ``v5.0.x``). * The ``.x`` suffix indicates that this branch is used to create all releases in the Open MPI vMAJOR.MINOR series. * Periodically, the Open MPI community will make a new release branch, typically from ``main``. * A Git tag of the form ``vMAJOR.MINOR.RELEASE`` is used to indicate the specific commit on a release branch from where official Open MPI release tarball was created (e.g., ``v4.1.0``, ``v4.1.1``, ``v4.1.2``, etc.). Once a bug is fixed or a new feature is implemented on ``main``, it is cherry-picked over to the relevant release branch(es). .. attention:: It may seem odd to some, but the Open MPI community development model does *not* PR bug fixes or new features directly to release branches. Instead, initial bug-fix / feature PRs are generally first made to ``main``. This helps us ensure that future releases (with ``main`` as a Git ancestor) will contain the bug fix / feature. For example: .. code:: sh shell$ git checkout main shell$ git pull --rebase shell$ git checkout pr/bug-fix # ... make changes / fix a bug / etc. ... shell$ git add ... shell$ git commit -s ... shell$ git push myfork At this point, you go create a PR from your fork's ``pr/bug-fix`` branch to the Open MPI community GitHub repo ``main`` branch. Work with the community to get the PR completed and merged. Then you can open a new PR to cherry pick the Git commits from that bug fix to each of the relevant release branches. Depending on how far the release branch has diverged from ``main``, there may be some porting effort involved in the cherry-pick. For example, if your bug fix on ``main`` is comprised of a single Git commit hash ``123abc``: .. code:: sh # Fetch all upstream git activity, including the merge of the "main" PR. shell$ get fetch --all # Check out the target release branch, and advance to the most recent commit. shell$ git checkout v5.0.x shell$ git pull --rebase # Make a branch for your bug fix shell$ git checkout -b pr/v5.0.x/bug-fix # Cherry pick the commit from the "main" branch shell$ git cherry-pick -x 123abc # Push to your fork shell$ git push myfork The Open MPI development community *requires* adding the following line to the commit message of cherry-picked commits on release branches: .. code:: text (cherry picked from commit [git_hash_of_original_commit]) .. note:: Note the use of the ``-x`` option to ``git cherry-pick``. This option automatically adds the ``(cherry picked from ...)`` line to your commit message. .. admonition:: Rationale :class: tip Git does not actually store any meta data about Git cherry-picks in the commit. Having a standardized text line containing the source Git commit hash in the commit messages helps the Open MPI development community track where commits came from on release branches, and therefore allows us to check whether all relevant commits have been ported to a given release branch. Once your commits are ready and pushed up to your fork, make a PR to the target release branch. .. warning:: A GitHub PR CI job checks all commits on release branches for the ``(cherry picked from...)`` line. It will also ensure that the Git hash cited in that line actually exists on the ``main`` branch. This check ensures that commits are not made to release branches before their corresponding ``main`` PR was merged. All this being said, sometimes there is a need for a non-cherry-picked commit on a release branch. E.g., sometimes a release branch has diverged so much that the bug no longer exists on ``main``. It would therefore not make sense |mdash| or even be impossible |mdash| to commit the bug fix in question to ``main``. In such cases, make a regular PR to the target branch (with commits that do *not* include ``(cherry picked from ...)`` lines). In the PR description, add a line with the following token: .. code:: text bot:notacherrypick This tells the GitHub CI job that this PR contains commits that are not cherry-picked from ``main``. .. warning:: ``bot:notacherrypick`` should only be used when absolutely necessary. It is not a license to avoid the process of PR'ing to ``main`` first. CI (testing) ------------ The Open MPI community generally runs two flavors of testing: #. A bunch of tests on each PR (Continuous Integration / CI). These tests are a mixture of GitHub Actions and other CI systems (e.g., Jenkins). Examples include (but are not limited to): * Check each Git commit for bozo email addresses * Check that each Git commit contains a ``Signed-off-by`` line * Check that commits on release branches contain a cherry-pick notice * Build and publish the docs * Build Open MPI in a variety of environments and run sanity tests with that installation #. Daily testing via the MPI Testing Tool (MTT). * These are generally tests that take much longer to run than on a per-PR basis. `A "nightly snapshot" tarball `_ is created for ``main`` and each relevant release branch. * MTT tests are run with this snapshot tarball so that all organizations are testing with the same snapshots. * `Results are available here `_.