salt/doc/topics/development/hacking.rst

Developing Salt
===============

There is a great need for contributions to Salt and patches are welcome! The goal
here is to make contributions clear, make sure there is a trail for where the code
has come from, and most importantly, to give credit where credit is due!

There are a number of ways to contribute to salt development.


Sending a GitHub pull request
-----------------------------

This is the preferred method for contributions. Simply create a GitHub
fork, commit changes to the fork, and then open up a pull request.

The following is an example (from `Open Comparison Contributing Docs`_ )
of an efficient workflow for forking, cloning, branching, committing, and
sending a pull request for a GitHub repository.

First, make a local clone of your GitHub fork of the salt GitHub repo and make
edits and changes locally.

Then, create a new branch on your clone by entering the following commands:

.. code-block:: bash

    git checkout -b fixed-broken-thing

    Switched to a new branch 'fixed-broken-thing'

Choose a name for your branch that describes its purpose.

Now commit your changes to this new branch with the following command:

.. code-block:: bash

    git commit -am 'description of my fixes for the broken thing'

.. note::

    Using ``git commit -am``, followed by a quoted string, both stages and
    commits all modified files in a single command. Depending on the nature of
    your changes, you may wish to stage and commit them separately. Also, note
    that if you wish to add newly-tracked files as part of your commit, they
    will not be caught using ``git commit -am`` and will need to be added using
    ``git add`` before committing.

Push your locally-committed changes back up to GitHub:

.. code-block:: bash

    git push --set-upstream origin fixed-broken-thing

Now go look at your fork of the salt repo on the GitHub website. The new
branch will now be listed under the "Source" tab where it says "Switch Branches".
Select the new branch from this list, and then click the "Pull request" button.

Put in a descriptive comment, and include links to any project issues related
to the pull request.

The repo managers will be notified of your pull request and it will be
reviewed. If a reviewer asks for changes, just make the changes locally in the
same local feature branch, push them to GitHub, then add a comment to the
discussion section of the pull request.

.. note:: Jenkins

    Whenever you make a pull request against the main Salt repository your
    changes will be tested on a variety of operating systems and
    configurations. On average these tests take 30 minutes to run and once
    they are complete a PASS/FAIL message will be added to your pull
    request. This message contains a link to http://jenkins.saltstack.com
    where you can review the test results. This message will also generate an
    email which will be sent to the email address associated with your GitHub
    account informing you of these results. It should be noted that a test
    failure does not necessarily mean there is an issue in the associated pull
    request as the entire development branch is tested.

Keeping Salt Forks in Sync
--------------------------

Salt is advancing quickly. It is therefore critical to pull upstream changes
from master into forks on a regular basis. Nothing is worse than putting in a
days of hard work into a pull request only to have it rejected because it has
diverged too far from master.

To pull in upstream changes:

.. code-block:: bash

    # For ssh github
    git remote add upstream git@github.com:saltstack/salt.git
    git fetch upstream

    # For https github
    git remote add upstream https://github.com/saltstack/salt.git
    git fetch upstream


To check the log to be sure that you actually want the changes, run the
following before merging:

.. code-block:: bash

    git log upstream/develop

Then to accept the changes and merge into the current branch:

.. code-block:: bash

    git merge upstream/develop

For more info, see `GitHub Fork a Repo Guide`_ or `Open Comparison Contributing
Docs`_

.. _`GitHub Fork a Repo Guide`: https://help.github.com/articles/fork-a-repo
.. _`Open Comparison Contributing Docs`: http://opencomparison.readthedocs.org/en/latest/contributing.html

Posting patches to the mailing list
-----------------------------------

Patches will also be accepted by email. Format patches using `git
format-patch`_ and send them to the Salt users mailing list. The contributor
will then get credit for the patch, and the Salt community will have an archive
of the patch and a place for discussion.

.. _`git format-patch`: https://www.kernel.org/pub/software/scm/git/docs/git-format-patch.html

.. _installing-for-development:

Installing Salt for development
-------------------------------

Clone the repository using:

.. code-block:: bash

    git clone https://github.com/saltstack/salt

.. note:: tags

    Just cloning the repository is enough to work with Salt and make
    contributions. However, fetching additional tags from git is required to
    have Salt report the correct version for itself. To do this, first
    add the git repository as an upstream source:

    .. code-block:: bash

        git remote add upstream https://github.com/saltstack/salt

    Fetching tags is done with the git 'fetch' utility:

    .. code-block:: bash

        git fetch --tags upstream

Create a new `virtualenv`_:

.. code-block:: bash

    virtualenv /path/to/your/virtualenv

.. _`virtualenv`: https://pypi.python.org/pypi/virtualenv

On Arch Linux, where Python 3 is the default installation of Python, use the
``virtualenv2`` command instead of ``virtualenv``.

.. note:: Using system Python modules in the virtualenv

    To use already-installed python modules in virtualenv (instead of having pip
    download and compile new ones), run ``virtualenv --system-site-packages``
    Using this method eliminates the requirement to install the salt dependencies
    again, although it does assume that the listed modules are all installed in the
    system PYTHONPATH at the time of virtualenv creation.

Activate the virtualenv:

.. code-block:: bash

    source /path/to/your/virtualenv/bin/activate

Install Salt (and dependencies) into the virtualenv:

.. code-block:: bash

    pip install M2Crypto    # Don't install on Debian/Ubuntu (see below)
    pip install pyzmq PyYAML pycrypto msgpack-python jinja2 psutil
    pip install -e ./salt   # the path to the salt git clone from above

.. note:: Installing M2Crypto

    ``swig`` and ``libssl-dev`` are required to build M2Crypto. To fix
    the error ``command 'swig' failed with exit status 1`` while installing M2Crypto,
    try installing it with the following command:

    .. code-block:: bash

        env SWIG_FEATURES="-cpperraswarn -includeall -D__`uname -m`__ -I/usr/include/openssl" pip install M2Crypto

    Debian and Ubuntu systems have modified openssl libraries and mandate that
    a patched version of M2Crypto be installed. This means that M2Crypto
    needs to be installed via apt:

    .. code-block:: bash

        apt-get install python-m2crypto

    This also means that pulling in the M2Crypto installed using apt requires using
    ``--system-site-packages`` when creating the virtualenv.

    If you're using a platform other than Debian or Ubuntu, and you are
    installing M2Crypto via pip instead of a system package, then you will also
    need the ``gcc`` compiler.

.. note:: Installing psutil

    Python header files are required to build this module, otherwise the pip
    install will fail. If your distribution separates binaries and headers into
    separate packages, make sure that you have the headers installed. In most
    Linux distributions which split the headers into their own package, this
    can be done by installing the ``python-dev`` or ``python-devel`` package.
    For other platforms, the package will likely be similarly named.

.. _`RHEL`: https://www.redhat.com/products/enterprise-linux/
.. _`CentOS`: http://centos.org/
.. _`Fedora Linux`: http://fedoraproject.org/
.. _`Amazon Linux`: https://aws.amazon.com/amazon-linux-ami/

.. note:: Installing dependencies on OS X.

    You can install needed dependencies on OS X using homebrew or macports.
    See :doc:`OS X Installation </topics/installation/osx>`

.. warning:: Installing on RedHat-based Distros

    If installing from pip (or from source using ``setup.py install``), be
    advised that the ``yum-utils`` package is needed for Salt to manage
    packages on RedHat-based systems.

Running a self-contained development version
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

During development it is easiest to be able to run the Salt master and minion
that are installed in the virtualenv you created above, and also to have all
the configuration, log, and cache files contained in the virtualenv as well.

Copy the master and minion config files into your virtualenv:

.. code-block:: bash

    mkdir -p /path/to/your/virtualenv/etc/salt
    cp ./salt/conf/master /path/to/your/virtualenv/etc/salt/master
    cp ./salt/conf/minion /path/to/your/virtualenv/etc/salt/minion

Edit the master config file:

1.  Uncomment and change the ``user: root`` value to your own user.
2.  Uncomment and change the ``root_dir: /`` value to point to
    ``/path/to/your/virtualenv``.
3.  If you are running version 0.11.1 or older, uncomment and change the
    ``pidfile: /var/run/salt-master.pid`` value to point to
    ``/path/to/your/virtualenv/salt-master.pid``.
4.  If you are also running a non-development version of Salt you will have to
    change the ``publish_port`` and ``ret_port`` values as well.

Edit the minion config file:

1.  Repeat the edits you made in the master config for the ``user`` and
    ``root_dir`` values as well as any port changes.
2.  If you are running version 0.11.1 or older, uncomment and change the
    ``pidfile: /var/run/salt-minion.pid`` value to point to
    ``/path/to/your/virtualenv/salt-minion.pid``.
3.  Uncomment and change the ``master: salt`` value to point at ``localhost``.
4.  Uncomment and change the ``id:`` value to something descriptive like
    "saltdev". This isn't strictly necessary but it will serve as a reminder of
    which Salt installation you are working with.
5.  If you changed the ``ret_port`` value in the master config because you are
    also running a non-development version of Salt, then you will have to
    change the ``master_port`` value in the minion config to match.

.. note:: Using `salt-call` with a :doc:`Standalone Minion </topics/tutorials/standalone_minion>`

    If you plan to run `salt-call` with this self-contained development
    environment in a masterless setup, you should invoke `salt-call` with
    ``-c /path/to/your/virtualenv/etc/salt`` so that salt can find the minion
    config file. Without the ``-c`` option, Salt finds its config files in
    `/etc/salt`.

Start the master and minion, accept the minion's key, and verify your local Salt
installation is working:

.. code-block:: bash

    cd /path/to/your/virtualenv
    salt-master -c ./etc/salt -d
    salt-minion -c ./etc/salt -d
    salt-key -c ./etc/salt -L
    salt-key -c ./etc/salt -A
    salt -c ./etc/salt '*' test.ping

Running the master and minion in debug mode can be helpful when developing. To
do this, add ``-l debug`` to the calls to ``salt-master`` and ``salt-minion``.
If you would like to log to the console instead of to the log file, remove the
``-d``.

Once the minion starts, you may see an error like the following::

    zmq.core.error.ZMQError: ipc path "/path/to/your/virtualenv/var/run/salt/minion/minion_event_7824dcbcfd7a8f6755939af70b96249f_pub.ipc" is longer than 107 characters (sizeof(sockaddr_un.sun_path)).

This means the the path to the socket the minion is using is too long. This is
a system limitation, so the only workaround is to reduce the length of this
path. This can be done in a couple different ways:

1.  Create your virtualenv in a path that is short enough.
2.  Edit the :conf_minion:`sock_dir` minion config variable and reduce its
    length. Remember that this path is relative to the value you set in
    :conf_minion:`root_dir`.

``NOTE:`` The socket path is limited to 107 characters on Solaris and Linux,
and 103 characters on BSD-based systems.

.. note:: File descriptor limits

    Ensure that the system open file limit is raised to at least 2047:

    .. code-block:: bash

        # check your current limit
        ulimit -n

        # raise the limit. persists only until reboot
        # use 'limit descriptors 2047' for c-shell
        ulimit -n 2047

    To set file descriptors on OSX, refer to the :doc:`OS X Installation
    </topics/installation/osx>` instructions.


Installing Salt from the Python Package Index
---------------------------------------------

If you are installing using ``easy_install``, you will need to define a
:strong:`USE_SETUPTOOLS` environment variable, otherwise dependencies will not
be installed:

.. code-block:: bash

    USE_SETUPTOOLS=1 easy_install salt


Editing and previewing the documentation
----------------------------------------

You need ``sphinx-build`` command to build the docs. In Debian/Ubuntu this is
provided in the ``python-sphinx`` package. Sphinx can also be installed
to a virtualenv using pip:

.. code-block:: bash

    pip install Sphinx

Change to salt documentation directory, then:

.. code-block:: bash

    cd doc; make html

- This will build the HTML docs. Run ``make`` without any arguments to see the
  available make targets, which include :strong:`html`, :strong:`man`, and
  :strong:`text`.
- The docs then are built within the :strong:`docs/_build/` folder. To update
  the docs after making changes, run ``make`` again.
- The docs use `reStructuredText <http://sphinx-doc.org/rest.html>`_ for markup.
  See a live demo at http://rst.ninjs.org/.
- The help information on each module or state is culled from the python code
  that runs for that piece. Find them in ``salt/modules/`` or ``salt/states/``.

- To build the docs on Arch Linux, the :strong:`python2-sphinx` package is
  required. Additionally, it is necessary to tell :strong:`make` where to find
  the proper :strong:`sphinx-build` binary, like so:

.. code-block:: bash

    make SPHINXBUILD=sphinx-build2 html

- To build the docs on RHEL/CentOS 6, the :strong:`python-sphinx10` package
  must be installed from EPEL, and the following make command must be used:

.. code-block:: bash

    make SPHINXBUILD=sphinx-1.0-build html

Once you've updated the documentation, you can run the following command to
launch a simple Python HTTP server to see your changes:

.. code-block:: bash

    cd _build/html; python -m SimpleHTTPServer

Running unit and integration tests
----------------------------------

Run the test suite with following command:

.. code-block:: bash

    ./setup.py test

See :doc:`here <tests/index>` for more information regarding the test suite.