.. _developing_modules_general:
.. _module_dev_tutorial_sample:

**************************
Developing Ansible modules
**************************

A module is a reusable, standalone script that Ansible runs on your behalf, either locally or remotely. Modules interact with your local machine, an API, or a remote system to perform specific tasks like changing a database password or spinning up a cloud instance. Each module can be used by the Ansible API, or by the :command:`ansible` or :command:`ansible-playbook` programs. A module provides a defined interface, accepts arguments, and returns information to Ansible by printing a JSON string to stdout before exiting. 

If you need functionality that is not available in any of the thousands of Ansible modules found in collections, you can easily write your own custom module. When you write a module for local use, you can choose any programming language and follow your own rules. Use this topic to learn how to create an Ansible module in Python. After you create a module, you must add it locally to the appropriate directory so that Ansible can find and execute it. For details about adding a module locally, see :ref:`developing_locally`.

.. contents:: Topics
   :local:

.. _environment_setup:

Preparing an environment for developing Ansible modules
=======================================================

Installing prerequisites via apt (Ubuntu)
-----------------------------------------

Due to dependencies (for example ansible -> paramiko -> pynacl -> libffi):

.. code:: bash

    sudo apt update
    sudo apt install build-essential libssl-dev libffi-dev python-dev

Creating a development environment (platform-agnostic steps)
------------------------------------------------------------

1. Clone the Ansible repository:
   ``$ git clone https://github.com/ansible/ansible.git``
2. Change directory into the repository root dir: ``$ cd ansible``
3. Create a virtual environment: ``$ python3 -m venv venv`` (or for
   Python 2 ``$ virtualenv venv``. Note, this requires you to install
   the virtualenv package: ``$ pip install virtualenv``)
4. Activate the virtual environment: ``$ . venv/bin/activate``
5. Install development requirements:
   ``$ pip install -r requirements.txt``
6. Run the environment setup script for each new dev shell process:
   ``$ . hacking/env-setup``

.. note:: After the initial setup above, every time you are ready to start
   developing Ansible you should be able to just run the following from the
   root of the Ansible repo:
   ``$ . venv/bin/activate && . hacking/env-setup``


Creating a module
=================

To create a module:

1. Navigate to the correct directory for your new module: ``$ cd lib/ansible/modules/``
2. Create your new module file: ``$ touch my_test.py``
3. Paste the content below into your new module file. It includes the :ref:`required Ansible format and documentation <developing_modules_documenting>` and some example code.
4. Modify and extend the code to do what you want your new module to do. See the :ref:`programming tips <developing_modules_best_practices>` and :ref:`Python 3 compatibility <developing_python_3>` pages for pointers on writing clean and concise module code.

.. code-block:: python

    #!/usr/bin/python

    # Copyright: (c) 2018, Terry Jones <terry.jones@example.org>
    # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
    from __future__ import (absolute_import, division, print_function)
    __metaclass__ = type

    DOCUMENTATION = r'''
    ---
    module: my_test

    short_description: This is my test module

    version_added: "2.4"

    description:
        - "This is my longer description explaining my test module."

    options:
        name:
            description:
                - This is the message to send to the test module.
            required: true
            type: str
        new:
            description:
                - Control to demo if the result of this module is changed or not.
            required: false
            type: bool

    extends_documentation_fragment:
        - azure

    author:
        - Your Name (@yourhandle)
    '''

    EXAMPLES = r'''
    # Pass in a message
    - name: Test with a message
      my_test:
        name: hello world

    # pass in a message and have changed true
    - name: Test with a message and changed output
      my_test:
        name: hello world
        new: true

    # fail the module
    - name: Test failure of the module
      my_test:
        name: fail me
    '''

    RETURN = r'''
    original_message:
        description: The original name param that was passed in
        type: str
        returned: always
    message:
        description: The output message that the test module generates
        type: str
        returned: always
    '''

    from ansible.module_utils.basic import AnsibleModule

    def run_module():
        # define available arguments/parameters a user can pass to the module
        module_args = dict(
            name=dict(type='str', required=True),
            new=dict(type='bool', required=False, default=False)
        )

        # seed the result dict in the object
        # we primarily care about changed and state
        # changed is if this module effectively modified the target
        # state will include any data that you want your module to pass back
        # for consumption, for example, in a subsequent task
        result = dict(
            changed=False,
            original_message='',
            message=''
        )

        # the AnsibleModule object will be our abstraction working with Ansible
        # this includes instantiation, a couple of common attr would be the
        # args/params passed to the execution, as well as if the module
        # supports check mode
        module = AnsibleModule(
            argument_spec=module_args,
            supports_check_mode=True
        )

        # if the user is working with this module in only check mode we do not
        # want to make any changes to the environment, just return the current
        # state with no modifications
        if module.check_mode:
            module.exit_json(**result)

        # manipulate or modify the state as needed (this is going to be the
        # part where your module will do what it needs to do)
        result['original_message'] = module.params['name']
        result['message'] = 'goodbye'

        # use whatever logic you need to determine whether or not this module
        # made any modifications to your target
        if module.params['new']:
            result['changed'] = True

        # during the execution of the module, if there is an exception or a
        # conditional state that effectively causes a failure, run
        # AnsibleModule.fail_json() to pass in the message and the result
        if module.params['name'] == 'fail me':
            module.fail_json(msg='You requested this to fail', **result)

        # in the event of a successful module execution, you will want to
        # simple AnsibleModule.exit_json(), passing the key/value results
        module.exit_json(**result)

    def main():
        run_module()

    if __name__ == '__main__':
        main()


Verifying your module code
==========================

Once you've modified the sample code above to do what you want, you can try out your module.
Our :ref:`debugging tips <debugging_modules>` will help if you run into bugs as you verify your module code.


Verifying your module code locally
----------------------------------

If your module does not need to target a remote host, you can quickly and easily exercise your code locally like this:

-  Create an arguments file, a basic JSON config file that passes parameters to your module so that you can run it. Name the arguments file ``/tmp/args.json`` and add the following content:

.. code:: json

    {
        "ANSIBLE_MODULE_ARGS": {
            "name": "hello",
            "new": true
        }
    }

-  If you are using a virtual environment (which is highly recommended for
   development) activate it: ``$ . venv/bin/activate``
-  Set up the environment for development: ``$ . hacking/env-setup``
-  Run your test module locally and directly:
   ``$ python -m ansible.modules.my_test /tmp/args.json``

This should return output like this:

.. code:: json

    {"changed": true, "state": {"original_message": "hello", "new_message": "goodbye"}, "invocation": {"module_args": {"name": "hello", "new": true}}}


Verifying your module code in a playbook
----------------------------------------

The next step in verifying your new module is to consume it with an Ansible playbook.

-  Create a playbook in any directory: ``$ touch testmod.yml``
-  Add the following to the new playbook file::

    - name: test my new module
      hosts: localhost
      tasks:
      - name: run the new module
        my_test:
          name: 'hello'
          new: true
        register: testout
      - name: dump test output
        debug:
          msg: '{{ testout }}'

- Run the playbook and analyze the output: ``$ ansible-playbook ./testmod.yml``

Testing your newly-created module
=================================

The following two examples will get you started with testing your module code. Please review our :ref:`testing <developing_testing>` section for more detailed
information, including instructions for :ref:`testing module documentation <testing_module_documentation>`, adding :ref:`integration tests <testing_integration>`, and more.

Performing sanity tests
-----------------------

You can run through Ansible's sanity checks in a container:

``$ ansible-test sanity -v --docker --python 2.7 MODULE_NAME``

.. note:: 
	Note that this example requires Docker to be installed and running. If you'd rather not use a container for this, you can choose to use ``--venv`` instead of ``--docker``.

Adding unit tests
-----------------

You can add unit tests for your module in ``./test/units/modules``. You must first set up your testing environment. In this example, we're using Python 3.5.

- Install the requirements (outside of your virtual environment): ``$ pip3 install -r ./test/lib/ansible_test/_data/requirements/units.txt``
- Run ``. hacking/env-setup``
- To run all tests do the following: ``$ ansible-test units --python 3.5``. If you are using a CI enviornment, these tests will run automatically. 

.. note:: Ansible uses pytest for unit testing.

To run pytest against a single test module, you can run the following command. Ensure that you are providing the correct path of the test module:

``$ pytest -r a --cov=. --cov-report=html --fulltrace --color yes
test/units/modules/.../test/my_test.py``

Contributing back to Ansible
============================

If you would like to contribute to the main Ansible repository
by adding a new feature or fixing a bug, `create a fork <https://help.github.com/articles/fork-a-repo/>`_
of the Ansible repository and develop against a new feature
branch using the ``devel`` branch as a starting point.
When you you have a good working code change, you can
submit a pull request to the Ansible repository by selecting
your feature branch as a source and the Ansible devel branch as
a target.

If you want to contribute your module back to the upstream Ansible repo,
review our :ref:`submission checklist <developing_modules_checklist>`, :ref:`programming tips <developing_modules_best_practices>`,
and :ref:`strategy for maintaining Python 2 and Python 3 compatibility <developing_python_3>`, as well as
information about :ref:`testing <developing_testing>` before you open a pull request.
The :ref:`Community Guide <ansible_community_guide>` covers how to open a pull request and what happens next.


Communication and development support
=====================================

Join the IRC channel ``#ansible-devel`` on freenode for discussions
surrounding Ansible development.

For questions and discussions pertaining to using the Ansible product,
use the ``#ansible`` channel.

For more specific IRC channels look at :ref:`Community Guide, Communicating <communication_irc>`.

Credit
======

Thank you to Thomas Stringer (`@trstringer <https://github.com/trstringer>`_) for contributing source
material for this topic.