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194 lines
6.6 KiB
ReStructuredText
Python API
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==========
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.. contents:: Topics
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Please note that while we make this API available it is not intended for direct consumption, it is here
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for the support of the Ansible command line tools. We try not to make breaking changes but we reserve the
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right to do so at any time if it makes sense for the Ansible toolset.
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The following documentation is provided for those that still want to use the API directly, but be mindful this is not something the Ansible team supports.
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There are several interesting ways to use Ansible from an API perspective. You can use
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the Ansible python API to control nodes, you can extend Ansible to respond to various python events, you can
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write various plugins, and you can plug in inventory data from external data sources. This document
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covers the execution and Playbook API at a basic level.
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If you are looking to use Ansible programmatically from something other than Python, trigger events asynchronously,
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or have access control and logging demands, take a look at :doc:`tower`
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as it has a very nice REST API that provides all of these things at a higher level.
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Ansible is written in its own API so you have a considerable amount of power across the board.
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This chapter discusses the Python API.
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.. _python_api:
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The Python API is very powerful, and is how the all the ansible CLI tools are implemented.
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In version 2.0 the core ansible got rewritten and the API was mostly rewritten.
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.. note:: Ansible relies on forking processes, as such the API is not thread safe.
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.. _python_api_20:
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Python API 2.0
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--------------
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In 2.0 things get a bit more complicated to start, but you end up with much more discrete and readable classes::
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#!/usr/bin/env python
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import json
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from collections import namedtuple
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from ansible.parsing.dataloader import DataLoader
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from ansible.vars import VariableManager
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from ansible.inventory import Inventory
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from ansible.playbook.play import Play
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from ansible.executor.task_queue_manager import TaskQueueManager
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from ansible.plugins.callback import CallbackBase
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class ResultCallback(CallbackBase):
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"""A sample callback plugin used for performing an action as results come in
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If you want to collect all results into a single object for processing at
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the end of the execution, look into utilizing the ``json`` callback plugin
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or writing your own custom callback plugin
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"""
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def v2_runner_on_ok(self, result, **kwargs):
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"""Print a json representation of the result
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This method could store the result in an instance attribute for retrieval later
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"""
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host = result._host
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print json.dumps({host.name: result._result}, indent=4)
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Options = namedtuple('Options', ['connection', 'module_path', 'forks', 'become', 'become_method', 'become_user', 'check'])
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# initialize needed objects
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variable_manager = VariableManager()
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loader = DataLoader()
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options = Options(connection='local', module_path='/path/to/mymodules', forks=100, become=None, become_method=None, become_user=None, check=False)
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passwords = dict(vault_pass='secret')
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# Instantiate our ResultCallback for handling results as they come in
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results_callback = ResultCallback()
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# create inventory and pass to var manager
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inventory = Inventory(loader=loader, variable_manager=variable_manager, host_list='localhost')
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variable_manager.set_inventory(inventory)
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# create play with tasks
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play_source = dict(
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name = "Ansible Play",
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hosts = 'localhost',
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gather_facts = 'no',
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tasks = [
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dict(action=dict(module='shell', args='ls'), register='shell_out'),
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dict(action=dict(module='debug', args=dict(msg='{{shell_out.stdout}}')))
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]
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)
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play = Play().load(play_source, variable_manager=variable_manager, loader=loader)
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# actually run it
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tqm = None
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try:
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tqm = TaskQueueManager(
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inventory=inventory,
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variable_manager=variable_manager,
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loader=loader,
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options=options,
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passwords=passwords,
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stdout_callback=results_callback, # Use our custom callback instead of the ``default`` callback plugin
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)
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result = tqm.run(play)
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finally:
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if tqm is not None:
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tqm.cleanup()
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.. _python_api_old:
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Python API pre 2.0
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------------------
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It's pretty simple::
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import ansible.runner
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runner = ansible.runner.Runner(
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module_name='ping',
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module_args='',
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pattern='web*',
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forks=10
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)
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datastructure = runner.run()
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The run method returns results per host, grouped by whether they
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could be contacted or not. Return types are module specific, as
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expressed in the :doc:`modules` documentation.::
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{
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"dark" : {
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"web1.example.com" : "failure message"
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},
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"contacted" : {
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"web2.example.com" : 1
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}
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}
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A module can return any type of JSON data it wants, so Ansible can
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be used as a framework to rapidly build powerful applications and scripts.
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.. _detailed_api_old_example:
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Detailed API Example
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````````````````````
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The following script prints out the uptime information for all hosts::
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#!/usr/bin/python
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import ansible.runner
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import sys
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# construct the ansible runner and execute on all hosts
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results = ansible.runner.Runner(
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pattern='*', forks=10,
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module_name='command', module_args='/usr/bin/uptime',
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).run()
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if results is None:
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print "No hosts found"
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sys.exit(1)
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print "UP ***********"
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for (hostname, result) in results['contacted'].items():
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if not 'failed' in result:
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print "%s >>> %s" % (hostname, result['stdout'])
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print "FAILED *******"
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for (hostname, result) in results['contacted'].items():
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if 'failed' in result:
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print "%s >>> %s" % (hostname, result['msg'])
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print "DOWN *********"
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for (hostname, result) in results['dark'].items():
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print "%s >>> %s" % (hostname, result)
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Advanced programmers may also wish to read the source to ansible itself,
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for it uses the API (with all available options) to implement the ``ansible``
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command line tools (``lib/ansible/cli/``).
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.. seealso::
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:doc:`developing_inventory`
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Developing dynamic inventory integrations
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:doc:`developing_modules`
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How to develop modules
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:doc:`developing_plugins`
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How to develop plugins
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`Development Mailing List <http://groups.google.com/group/ansible-devel>`_
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Mailing list for development topics
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`irc.freenode.net <http://irc.freenode.net>`_
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#ansible IRC chat channel
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