1
0
Fork 0
mirror of https://github.com/ansible-collections/community.general.git synced 2024-09-14 20:13:21 +02:00
community.general/docs/docsite/rst/dev_guide/developing_modules_general.rst

309 lines
11 KiB
ReStructuredText
Raw Normal View History

.. _developing_modules_general:
.. _module_dev_tutorial_sample:
*******************************************
Ansible module development: getting started
*******************************************
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, accepting arguments and returning information to Ansible by printing a JSON string to stdout before exiting. Ansible ships with thousands of modules, and you can easily write your own. If you're writing a module for local use, you can choose any programming language and follow your own rules. This tutorial illustrates how to get started developing an Ansible module in Python.
.. contents:: Topics
:local:
.. _environment_setup:
Environment setup
=================
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
Common environment setup
------------------------------
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``
Starting a new module
=====================
To create a new module:
1. Navigate to the correct directory for your new module: ``$ cd lib/ansible/modules/cloud/azure/``
2. Create your new module file: ``$ touch my_new_test_module.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, concise module code.
.. code:: 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)
ANSIBLE_METADATA = {
'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'
}
DOCUMENTATION = '''
---
module: my_sample_module
short_description: This is my sample module
version_added: "2.4"
description:
- "This is my longer description explaining my sample module"
options:
name:
description:
- This is the message to send to the sample module
required: true
new:
description:
- Control to demo if the result of this module is changed or not
required: false
extends_documentation_fragment:
- azure
author:
- Your Name (@yourhandle)
'''
EXAMPLES = '''
# Pass in a message
- name: Test with a message
my_new_test_module:
name: hello world
# pass in a message and have changed true
- name: Test with a message and changed output
my_new_test_module:
name: hello world
new: true
# fail the module
- name: Test failure of the module
my_new_test_module:
name: fail me
'''
RETURN = '''
original_message:
description: The original name param that was passed in
type: str
message:
description: The output message that the sample module generates
'''
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
# change 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:
return 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()
Exercising 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>` will help if you run into bugs as you exercise your module code.
Exercising module code locally
------------------------------
If you module does not need to target a remote host, you can quickly and easily exercise you code locally like this:
- Create an arguments file, a basic JSON config file that passes parameters to your module so 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 (highly recommended for
development) activate it: ``$ . venv/bin/activate``
- Setup the environment for development: ``$ . hacking/env-setup``
- Run your test module locally and directly:
``$ python -m ansible.modules.cloud.azure.my_new_test_module /tmp/args.json``
This should return output something like this:
.. code:: json
{"changed": true, "state": {"original_message": "hello", "new_message": "goodbye"}, "invocation": {"module_args": {"name": "hello", "new": true}}}
Exercising module code in a playbook
------------------------------------
The next step in testing your new module is to consume it with an Ansible playbook.
- Create a playbook in any directory: ``$ touch testmod.yml``
2017-08-14 02:09:19 +02:00
- Add the following to the new playbook file::
2017-08-14 02:09:19 +02:00
- name: test my new module
hosts: localhost
tasks:
- name: run the new module
my_new_test_module:
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 basics
====================
These 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 documentation <testing_documentation>`, adding :ref:`integration tests <testing_integration>`, and more.
Sanity tests
------------
You can run through Ansible's sanity checks in a container:
``$ ansible-test sanity -v --docker --python 2.7 MODULE_NAME``
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 ``--tox`` instead of ``--docker``.
Unit tests
----------
You can add unit tests for your module in ``./test/units/modules``. You must first setup your testing environment. In this example, we're using Python 3.5.
- Install the requirements (outside of your virtual environment): ``$ pip3 install -r ./test/runner/requirements/units.txt``
- To run all tests do the following: ``$ ansible-test units --python 3.5`` (you must run ``. hacking/env-setup`` prior to this)
.. note:: Ansible uses pytest for unit testing.
To run pytest against a single test module, you can do the following (provide the path to the test module appropriately):
``$ pytest -r a --cov=. --cov-report=html --fulltrace --color yes
test/units/modules/.../test/my_new_test_module.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.
Credit
======
Thank you to Thomas Stringer (`@tstringer <https://github.com/tstringer>`_) for contributing source
material for this topic.