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921 lines
32 KiB
Python
921 lines
32 KiB
Python
# Authors:
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# Jason Gerard DeRose <jderose@redhat.com>
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#
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# Copyright (C) 2008 Red Hat
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# see file 'COPYING' for use and warranty information
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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'''
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Package containing the core library.
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=============================
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Tutorial for Plugin Authors
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=============================
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This tutorial will introduce you to writing plugins for freeIPA v2. It does
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not cover every detail, but it provides enough to get you started and is
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heavily cross-referenced with further documentation that (hopefully) fills
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in the missing details.
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In addition to this tutorial, the many built-in plugins in `ipalib.plugins`
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and `ipaserver.plugins` provide real-life examples of how to write good
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plugins.
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----------------------------
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How this tutorial is written
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----------------------------
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The code examples in this tutorial are presented as if entered into a Python
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interactive interpreter session. As such, when you create a real plugin in
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a source file, a few details will be different (in addition to the fact that
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you will never include the ``>>>`` nor ``...`` that the interpreter places at
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the beginning of each line of code).
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The tutorial examples all have this pattern:
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::
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>>> from ipalib import Command, create_api
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>>> api = create_api()
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>>> class my_command(Command):
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... pass
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...
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>>> api.register(my_command)
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>>> api.finalize()
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In the tutorial we call `create_api()` to create an *example* instance
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of `plugable.API` to work with. But a real plugin will simply use
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``ipalib.api``, the standard run-time instance of `plugable.API`.
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A real plugin will have this pattern:
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::
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from ipalib import Command, api
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class my_command(Command):
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pass
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api.register(my_command)
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As seen above, also note that in a real plugin you will *not* call
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`plugable.API.finalize()`. When in doubt, look at some of the built-in
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plugins for guidance, like those in `ipalib.plugins`.
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If you don't know what the Python *interactive interpreter* is, or are
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confused about what this *Python* is in the first place, then you probably
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should start with the Python tutorial:
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http://docs.python.org/tutorial/index.html
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------------------------------------
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First steps: A simple command plugin
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------------------------------------
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Our first example will create the most basic command plugin possible. This
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command will be seen in the list of command plugins, but it wont be capable
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of actually doing anything yet.
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A command plugin simultaneously adds a new command that can be called through
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the command-line ``ipa`` script *and* adds a new XML-RPC method... the two are
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one in the same, simply invoked in different ways.
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A freeIPA plugin is a Python class, and when you create a plugin, you register
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this class itself (instead of an instance of the class). To be a command
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plugin, your plugin must subclass from `frontend.Command` (or from a subclass
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thereof). Here is our first example:
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>>> from ipalib import Command, create_api
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>>> api = create_api()
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>>> class my_command(Command): # Step 1, define class
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... """My example plugin."""
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...
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>>> api.register(my_command) # Step 2, register class
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Notice that we are registering the ``my_command`` class itself, not an
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instance of ``my_command``.
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Until `plugable.API.finalize()` is called, your plugin class has not been
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instantiated nor does the ``Command`` namespace yet exist. For example:
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>>> hasattr(api, 'Command')
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False
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>>> api.finalize() # plugable.API.finalize()
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>>> hasattr(api.Command, 'my_command')
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True
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>>> api.Command.my_command.doc
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Gettext('My example plugin.', domain='ipa', localedir=None)
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Notice that your plugin instance is accessed through an attribute named
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``my_command``, the same name as your plugin class name.
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------------------------------
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Make your command do something
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------------------------------
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This simplest way to make your example command plugin do something is to
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implement a ``run()`` method, like this:
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>>> class my_command(Command):
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... """My example plugin with run()."""
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...
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... def run(self):
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... return dict(result='My run() method was called!')
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...
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>>> api = create_api()
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>>> api.register(my_command)
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>>> api.finalize()
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>>> api.Command.my_command() # Call your command
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{'result': 'My run() method was called!'}
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When `frontend.Command.__call__()` is called, it first validates any arguments
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and options your command plugin takes (if any) and then calls its ``run()``
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method.
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------------------------
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Forwarding vs. execution
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------------------------
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However, unlike the example above, a typical command plugin will implement an
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``execute()`` method instead of a ``run()`` method. Your command plugin can
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be loaded in two distinct contexts:
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1. In a *client* context - Your command plugin is only used to validate
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any arguments and options it takes, and then ``self.forward()`` is
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called, which forwards the call over XML-RPC to an IPA server where
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the actual work is done.
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2. In a *server* context - Your same command plugin validates any
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arguments and options it takes, and then ``self.execute()`` is called,
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which you should implement to perform whatever work your plugin does.
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The base `frontend.Command.run()` method simply dispatches the call to
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``self.execute()`` if ``self.env.in_server`` is True, or otherwise
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dispatches the call to ``self.forward()``.
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For example, say you have a command plugin like this:
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>>> class my_command(Command):
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... """Forwarding vs. execution."""
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...
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... def forward(self):
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... return dict(
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... result='forward(): in_server=%r' % self.env.in_server
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... )
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...
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... def execute(self):
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... return dict(
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... result='execute(): in_server=%r' % self.env.in_server
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... )
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...
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If ``my_command`` is loaded in a *client* context, ``forward()`` will be
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called:
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>>> api = create_api()
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>>> api.env.in_server = False # run() will dispatch to forward()
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>>> api.register(my_command)
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>>> api.finalize()
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>>> api.Command.my_command() # Call your command plugin
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{'result': 'forward(): in_server=False'}
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On the other hand, if ``my_command`` is loaded in a *server* context,
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``execute()`` will be called:
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>>> api = create_api()
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>>> api.env.in_server = True # run() will dispatch to execute()
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>>> api.register(my_command)
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>>> api.finalize()
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>>> api.Command.my_command() # Call your command plugin
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{'result': 'execute(): in_server=True'}
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Normally there should be no reason to override `frontend.Command.forward()`,
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but, as above, it can be done for demonstration purposes. In contrast, there
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*is* a reason you might want to override `frontend.Command.run()`: if it only
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makes sense to execute your command locally, if it should never be forwarded
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to the server. In this case, you should implement your *do-stuff* in the
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``run()`` method instead of in the ``execute()`` method.
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For example, the ``ipa`` command line script has a ``help`` command
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(`ipalib.cli.help`) that is specific to the command-line-interface and should
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never be forwarded to the server.
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---------------
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Backend plugins
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---------------
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There are two types of plugins:
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1. *Frontend plugins* - These are loaded in both the *client* and *server*
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contexts. These need to be installed with any application built atop
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the `ipalib` library. The built-in frontend plugins can be found in
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`ipalib.plugins`. The ``my_command`` example above is a frontend
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plugin.
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2. *Backend plugins* - These are only loaded in a *server* context and
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only need to be installed on the IPA server. The built-in backend
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plugins can be found in `ipaserver.plugins`.
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Backend plugins should provide a set of methods that standardize how IPA
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interacts with some external system or library. For example, all interaction
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with LDAP is done through the ``ldap`` backend plugin defined in
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`ipaserver.plugins.b_ldap`. As a good rule of thumb, anytime you need to
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import some package that is not part of the Python standard library, you
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should probably interact with that package via a corresponding backend
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plugin you implement.
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Backend plugins are much more free-form than command plugins. Aside from a
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few reserved attribute names, you can define arbitrary public methods on your
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backend plugin.
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Here is a simple example:
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>>> from ipalib import Backend
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>>> class my_backend(Backend):
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... """My example backend plugin."""
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...
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... def do_stuff(self):
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... """Part of your API."""
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... return 'Stuff got done.'
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...
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>>> api = create_api()
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>>> api.register(my_backend)
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>>> api.finalize()
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>>> api.Backend.my_backend.do_stuff()
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'Stuff got done.'
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-------------------------------
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How your command should do work
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-------------------------------
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We now return to our ``my_command`` plugin example.
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Plugins are separated into frontend and backend plugins so that there are not
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unnecessary dependencies required by an application that only uses `ipalib` and
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its built-in frontend plugins (and then forwards over XML-RPC for execution).
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But how do we avoid introducing additional dependencies? For example, the
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``user_add`` command needs to talk to LDAP to add the user, yet we want to
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somehow load the ``user_add`` plugin on client machines without requiring the
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``python-ldap`` package (Python bindings to openldap) to be installed. To
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answer that, we consult our golden rule:
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**The golden rule:** A command plugin should implement its ``execute()``
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method strictly via calls to methods on one or more backend plugins.
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So the module containing the ``user_add`` command does not itself import the
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Python LDAP bindings, only the module containing the ``ldap`` backend plugin
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does that, and the backend plugins are only installed on the server. The
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``user_add.execute()`` method, which is only called when in a server context,
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is implemented as a series of calls to methods on the ``ldap`` backend plugin.
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When `plugable.Plugin.set_api()` is called, each plugin stores a reference to
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the `plugable.API` instance it has been loaded into. So your plugin can
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access the ``my_backend`` plugin as ``self.api.Backend.my_backend``.
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Additionally, convenience attributes are set for each namespace, so your
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plugin can also access the ``my_backend`` plugin as simply
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``self.Backend.my_backend``.
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This next example will tie everything together. First we create our backend
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plugin:
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>>> api = create_api()
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>>> api.env.in_server = True # We want to execute, not forward
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>>> class my_backend(Backend):
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... """My example backend plugin."""
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...
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... def do_stuff(self):
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... """my_command.execute() calls this."""
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... return 'my_backend.do_stuff() indeed did do stuff!'
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...
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>>> api.register(my_backend)
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Second, we have our frontend plugin, the command:
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>>> class my_command(Command):
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... """My example command plugin."""
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...
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... def execute(self):
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... """Implemented against Backend.my_backend"""
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... return dict(result=self.Backend.my_backend.do_stuff())
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...
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>>> api.register(my_command)
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Lastly, we call ``api.finalize()`` and see what happens when we call
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``my_command()``:
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>>> api.finalize()
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>>> api.Command.my_command()
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{'result': 'my_backend.do_stuff() indeed did do stuff!'}
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When not in a server context, ``my_command.execute()`` never gets called, so
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it never tries to access the non-existent backend plugin at
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``self.Backend.my_backend.`` To emphasize this point, here is one last
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example:
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>>> api = create_api()
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>>> api.env.in_server = False # We want to forward, not execute
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>>> class my_command(Command):
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... """My example command plugin."""
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...
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... def execute(self):
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... """Same as above."""
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... return dict(result=self.Backend.my_backend.do_stuff())
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...
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... def forward(self):
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... return dict(result='Just my_command.forward() getting called here.')
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...
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>>> api.register(my_command)
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>>> api.finalize()
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Notice that the ``my_backend`` plugin has certainly not be registered:
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>>> hasattr(api.Backend, 'my_backend')
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False
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And yet we can call ``my_command()``:
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>>> api.Command.my_command()
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{'result': 'Just my_command.forward() getting called here.'}
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----------------------------------------
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Calling other commands from your command
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----------------------------------------
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It can be useful to have your ``execute()`` method call other command plugins.
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Among other things, this allows for meta-commands that conveniently call
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several other commands in a single operation. For example:
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>>> api = create_api()
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>>> api.env.in_server = True # We want to execute, not forward
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>>> class meta_command(Command):
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... """My meta-command plugin."""
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...
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... def execute(self):
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... """Calls command_1(), command_2()"""
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... msg = '%s; %s.' % (
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... self.Command.command_1()['result'],
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... self.Command.command_2()['result'],
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... )
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... return dict(result=msg)
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>>> class command_1(Command):
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... def execute(self):
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... return dict(result='command_1.execute() called')
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...
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>>> class command_2(Command):
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... def execute(self):
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... return dict(result='command_2.execute() called')
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...
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>>> api.register(meta_command)
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>>> api.register(command_1)
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>>> api.register(command_2)
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>>> api.finalize()
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>>> api.Command.meta_command()
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{'result': 'command_1.execute() called; command_2.execute() called.'}
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Because this is quite useful, we are going to revise our golden rule somewhat:
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**The revised golden rule:** A command plugin should implement its
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``execute()`` method strictly via what it can access through ``self.api``,
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most likely via the backend plugins in ``self.api.Backend`` (which can also
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be conveniently accessed as ``self.Backend``).
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-----------------------------------------------
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Defining arguments and options for your command
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-----------------------------------------------
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You can define a command that will accept specific arguments and options.
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For example:
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>>> from ipalib import Str
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>>> class nudge(Command):
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... """Takes one argument, one option"""
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...
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... takes_args = ('programmer',)
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...
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... takes_options = (Str('stuff', default=u'documentation'))
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...
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... def execute(self, programmer, **kw):
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... return dict(
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... result='%s, go write more %s!' % (programmer, kw['stuff'])
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... )
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...
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>>> api = create_api()
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>>> api.env.in_server = True
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>>> api.register(nudge)
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>>> api.finalize()
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>>> api.Command.nudge(u'Jason')
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{'result': u'Jason, go write more documentation!'}
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>>> api.Command.nudge(u'Jason', stuff=u'unit tests')
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{'result': u'Jason, go write more unit tests!'}
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The ``args`` and ``options`` attributes are `plugable.NameSpace` instances
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containing a command's arguments and options, respectively, as you can see:
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>>> list(api.Command.nudge.args) # Iterates through argument names
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['programmer']
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>>> api.Command.nudge.args.programmer
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Str('programmer')
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>>> list(api.Command.nudge.options) # Iterates through option names
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['stuff']
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>>> api.Command.nudge.options.stuff
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Str('stuff', default=u'documentation')
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>>> api.Command.nudge.options.stuff.default
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u'documentation'
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The arguments and options must not contain colliding names. They are both
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merged together into the ``params`` attribute, another `plugable.NameSpace`
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instance, as you can see:
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>>> api.Command.nudge.params
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NameSpace(<2 members>, sort=False)
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>>> list(api.Command.nudge.params) # Iterates through the param names
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['programmer', 'stuff']
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When calling a command, its positional arguments can also be provided as
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keyword arguments, and in any order. For example:
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>>> api.Command.nudge(stuff=u'lines of code', programmer=u'Jason')
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{'result': u'Jason, go write more lines of code!'}
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When a command plugin is called, the values supplied for its parameters are
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put through a sophisticated processing pipeline that includes steps for
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normalization, type conversion, validation, and dynamically constructing
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the defaults for missing values. The details wont be covered here; however,
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here is a quick teaser:
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>>> from ipalib import Int
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>>> class create_player(Command):
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... takes_options = (
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... 'first',
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... 'last',
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... Str('nick',
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... normalizer=lambda value: value.lower(),
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... default_from=lambda first, last: first[0] + last,
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... ),
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... Int('points', default=0),
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... )
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...
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>>> cp = create_player()
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>>> cp.finalize()
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>>> cp.convert(points=u' 1000 ')
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{'points': 1000}
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>>> cp.normalize(nick=u'NickName')
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{'nick': u'nickname'}
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>>> cp.get_default(first=u'Jason', last=u'DeRose')
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{'nick': u'jderose', 'points': 0}
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For the full details on the parameter system, see the
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`frontend.parse_param_spec()` function, and the `frontend.Param` and
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`frontend.Command` classes.
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|
|
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---------------------------------------
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Allowed return values from your command
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---------------------------------------
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The return values from your command can be rendered by different user
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interfaces (CLI, web-UI); furthermore, a call to your command can be
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transparently forwarded over the network (XML-RPC, JSON). As such, the return
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values from your command must be usable by the least common denominator.
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Your command should return only simple data types and simple data structures,
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the kinds that can be represented in an XML-RPC request or in the JSON format.
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The return values from your command's ``execute()`` method can include only
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the following:
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Simple scalar values:
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These can be ``str``, ``unicode``, ``int``, and ``float`` instances,
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plus the ``True``, ``False``, and ``None`` constants.
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Simple compound values:
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|
These can be ``dict``, ``list``, and ``tuple`` instances. These
|
|
compound values must contain only the simple scalar values above or
|
|
other simple compound values. These compound values can also be empty.
|
|
For our purposes here, the ``list`` and ``tuple`` types are equivalent
|
|
and can be used interchangeably.
|
|
|
|
Also note that your ``execute()`` method should not contain any ``print``
|
|
statements or otherwise cause any output on ``sys.stdout``. Your command can
|
|
(and should) produce log messages by using ``self.log`` (see below).
|
|
|
|
To learn more about XML-RPC (XML Remote Procedure Call), see:
|
|
|
|
http://docs.python.org/library/xmlrpclib.html
|
|
|
|
http://en.wikipedia.org/wiki/XML-RPC
|
|
|
|
To learn more about JSON (Java Script Object Notation), see:
|
|
|
|
http://docs.python.org/library/json.html
|
|
|
|
http://www.json.org/
|
|
|
|
|
|
---------------------------------------
|
|
How your command should print to stdout
|
|
---------------------------------------
|
|
|
|
As noted above, your command should not print anything while in its
|
|
``execute()`` method. So how does your command format its output when
|
|
called from the ``ipa`` script?
|
|
|
|
After the `cli.CLI.run_cmd()` method calls your command, it will call your
|
|
command's ``output_for_cli()`` method (if you have implemented one).
|
|
|
|
If you implement an ``output_for_cli()`` method, it must have the following
|
|
signature:
|
|
|
|
::
|
|
|
|
output_for_cli(textui, result, *args, **options)
|
|
|
|
textui
|
|
An object implementing methods for outputting to the console.
|
|
Currently the `ipalib.cli.textui` plugin is passed, which your method
|
|
can also access as ``self.Backend.textui``. However, in case this
|
|
changes in the future, your method should use the instance passed to
|
|
it in this first argument.
|
|
|
|
result
|
|
This is the return value from calling your command plugin. Depending
|
|
upon how your command is implemented, this is probably the return
|
|
value from your ``execute()`` method.
|
|
|
|
args
|
|
The arguments your command was called with. If your command takes no
|
|
arguments, you can omit this. You can also explicitly list your
|
|
arguments rather than using the generic ``*args`` form.
|
|
|
|
options
|
|
The options your command was called with. If your command takes no
|
|
options, you can omit this. If your command takes any options, you
|
|
must use the ``**options`` form as they will be provided strictly as
|
|
keyword arguments.
|
|
|
|
For example, say we setup a command like this:
|
|
|
|
>>> class show_items(Command):
|
|
...
|
|
... takes_args = ('key?',)
|
|
...
|
|
... takes_options = (Flag('reverse'),)
|
|
...
|
|
... def execute(self, key, **options):
|
|
... items = dict(
|
|
... fruit=u'apple',
|
|
... pet=u'dog',
|
|
... city=u'Berlin',
|
|
... )
|
|
... if key in items:
|
|
... return dict(result=items[key])
|
|
... items = [
|
|
... (k, items[k]) for k in sorted(items, reverse=options['reverse'])
|
|
... ]
|
|
... return dict(result=items)
|
|
...
|
|
... def output_for_cli(self, textui, result, key, **options):
|
|
... result = result['result']
|
|
... if key is not None:
|
|
... textui.print_plain('%s = %r' % (key, result))
|
|
... else:
|
|
... textui.print_name(self.name)
|
|
... textui.print_keyval(result)
|
|
... format = '%d items'
|
|
... if options['reverse']:
|
|
... format += ' (in reverse order)'
|
|
... textui.print_count(result, format)
|
|
...
|
|
>>> api = create_api()
|
|
>>> api.bootstrap(in_server=True) # We want to execute, not forward
|
|
>>> api.register(show_items)
|
|
>>> api.finalize()
|
|
|
|
Normally when you invoke the ``ipa`` script, `cli.CLI.load_plugins()` will
|
|
register the `cli.textui` backend plugin, but for the sake of our example,
|
|
we will just create an instance here:
|
|
|
|
>>> from ipalib import cli
|
|
>>> textui = cli.textui() # We'll pass this to output_for_cli()
|
|
|
|
Now for what we are concerned with in this example, calling your command
|
|
through the ``ipa`` script basically will do the following:
|
|
|
|
>>> result = api.Command.show_items()
|
|
>>> api.Command.show_items.output_for_cli(textui, result, None, reverse=False)
|
|
-----------
|
|
show-items:
|
|
-----------
|
|
city = u'Berlin'
|
|
fruit = u'apple'
|
|
pet = u'dog'
|
|
-------
|
|
3 items
|
|
-------
|
|
|
|
Similarly, calling it with ``reverse=True`` would result in the following:
|
|
|
|
>>> result = api.Command.show_items(reverse=True)
|
|
>>> api.Command.show_items.output_for_cli(textui, result, None, reverse=True)
|
|
-----------
|
|
show-items:
|
|
-----------
|
|
pet = u'dog'
|
|
fruit = u'apple'
|
|
city = u'Berlin'
|
|
--------------------------
|
|
3 items (in reverse order)
|
|
--------------------------
|
|
|
|
Lastly, providing a ``key`` would result in the following:
|
|
|
|
>>> result = api.Command.show_items(u'city')
|
|
>>> api.Command.show_items.output_for_cli(textui, result, 'city', reverse=False)
|
|
city = u'Berlin'
|
|
|
|
See the `ipalib.cli.textui` plugin for a description of its methods.
|
|
|
|
|
|
------------------------
|
|
Logging from your plugin
|
|
------------------------
|
|
|
|
After `plugable.Plugin.set_api()` is called, your plugin will have a
|
|
``self.log`` attribute. Plugins should only log through this attribute.
|
|
For example:
|
|
|
|
>>> class paint_house(Command):
|
|
...
|
|
... takes_args = 'color'
|
|
...
|
|
... def execute(self, color):
|
|
... """Uses self.log.error()"""
|
|
... if color not in ('red', 'blue', 'green'):
|
|
... self.log.error("I don't have %s paint!", color) # Log error
|
|
... return
|
|
... return 'I painted the house %s.' % color
|
|
...
|
|
|
|
Some basic knowledge of the Python ``logging`` module might be helpful. See:
|
|
|
|
http://docs.python.org/library/logging.html
|
|
|
|
The important thing to remember is that your plugin should not configure
|
|
logging itself, but should instead simply use the ``self.log`` logger.
|
|
|
|
Also see the `plugable.API.bootstrap()` method for details on how the logging
|
|
is configured.
|
|
|
|
|
|
---------------------
|
|
Environment variables
|
|
---------------------
|
|
|
|
Plugins access configuration variables and run-time information through
|
|
``self.api.env`` (or for convenience, ``self.env`` is equivalent). This
|
|
attribute is a refences to the `ipalib.config.Env` instance created in
|
|
`plugable.API.__init__()`.
|
|
|
|
After `API.bootstrap()` has been called, the `Env` instance will be populated
|
|
with all the environment information used by the built-in plugins.
|
|
This will be called before any plugins are registered, so plugin authors can
|
|
assume these variables will all exist by the time the module containing their
|
|
plugin (or plugins) is imported.
|
|
|
|
`Env._bootstrap()`, which is called by `API.bootstrap()`, will create several
|
|
run-time variables that connot be overriden in configuration files or through
|
|
command-line options. Here is an overview of this run-time information:
|
|
|
|
============= ============================= =======================
|
|
Key Example value Description
|
|
============= ============================= =======================
|
|
bin '/usr/bin' Dir. containing script
|
|
dot_ipa '/home/jderose/.ipa' User config directory
|
|
home os.environ['HOME'] User home dir.
|
|
ipalib '.../site-packages/ipalib' Dir. of ipalib package
|
|
mode 'unit_test' The mode ipalib is in
|
|
script sys.argv[0] Path of script
|
|
site_packages '.../python2.5/site-packages' Dir. containing ipalib/
|
|
============= ============================= =======================
|
|
|
|
If your plugin requires new environment variables *and* will be included in
|
|
the freeIPA built-in plugins, you should add the defaults for your variables
|
|
in `ipalib.constants.DEFAULT_CONFIG`. Also, you should consider whether your
|
|
new environment variables should have any auto-magic logic to determine their
|
|
values if they haven't already been set by the time `config.Env._bootstrap()`,
|
|
`config.Env._finalize_core()`, or `config.Env._finalize()` is called.
|
|
|
|
On the other hand, if your plugin requires new environment variables and will
|
|
be installed in a 3rd-party package, your plugin should set these variables
|
|
in the module it is defined in.
|
|
|
|
`config.Env` values work on a first-one-wins basis... after a value has been
|
|
set, it can not be overridden with a new value. As any variables can be set
|
|
using the command-line ``-e`` global option or set in a configuration file,
|
|
your module must check whether a variable has already been set before
|
|
setting its default value. For example:
|
|
|
|
>>> if 'message_of_the_day' not in api.env:
|
|
... api.env.message_of_the_day = 'Hello, world!'
|
|
...
|
|
|
|
Your plugin can access any environment variables via ``self.env``.
|
|
For example:
|
|
|
|
>>> class motd(Command):
|
|
... """Print message of the day."""
|
|
...
|
|
... def execute(self):
|
|
... return dict(result=self.env.message)
|
|
...
|
|
>>> api = create_api()
|
|
>>> api.bootstrap(in_server=True, message='Hello, world!')
|
|
>>> api.register(motd)
|
|
>>> api.finalize()
|
|
>>> api.Command.motd()
|
|
{'result': u'Hello, world!'}
|
|
|
|
Also see the `plugable.API.bootstrap_with_global_options()` method.
|
|
|
|
|
|
---------------------------------------------
|
|
Indispensable ipa script commands and options
|
|
---------------------------------------------
|
|
|
|
The ``console`` command will launch a custom interactive Python interpreter
|
|
session. The global environment will have an ``api`` variable, which is the
|
|
standard `plugable.API` instance found at ``ipalib.api``. All plugins will
|
|
have been loaded (well, except the backend plugins if ``in_server`` is False)
|
|
and ``api`` will be fully initialized. To launch the console from within the
|
|
top-level directory in the the source tree, just run ``ipa console`` from a
|
|
terminal, like this:
|
|
|
|
::
|
|
|
|
$ ./ipa console
|
|
|
|
By default, ``in_server`` is False. If you want to start the console in a
|
|
server context (so that all the backend plugins are loaded), you can use the
|
|
``-e`` option to set the ``in_server`` environment variable, like this:
|
|
|
|
::
|
|
|
|
$ ./ipa -e in_server=True console
|
|
|
|
You can specify multiple environment variables by including the ``-e`` option
|
|
multiple times, like this:
|
|
|
|
::
|
|
|
|
$ ./ipa -e in_server=True -e mode=dummy console
|
|
|
|
The space after the ``-e`` is optional. This is equivalent to the above command:
|
|
|
|
::
|
|
|
|
$ ./ipa -ein_server=True -emode=dummy console
|
|
|
|
The ``env`` command will print out the full environment in key=value pairs,
|
|
like this:
|
|
|
|
::
|
|
|
|
$ ./ipa env
|
|
|
|
If you use the ``--server`` option, it will forward the call to the server
|
|
over XML-RPC and print out what the environment is on the server, like this:
|
|
|
|
::
|
|
|
|
$ ./ipa env --server
|
|
|
|
The ``plugins`` command will show details of all the plugin that are loaded,
|
|
like this:
|
|
|
|
::
|
|
|
|
$ ./ipa plugins
|
|
|
|
|
|
-----------------------------------
|
|
Learning more about freeIPA plugins
|
|
-----------------------------------
|
|
|
|
To learn more about writing freeIPA plugins, you should:
|
|
|
|
1. Look at some of the built-in plugins, like the frontend plugins in
|
|
`ipalib.plugins.f_user` and the backend plugins in
|
|
`ipaserver.plugins.b_ldap`.
|
|
|
|
2. Learn about the base classes for frontend plugins in `ipalib.frontend`.
|
|
|
|
3. Learn about the core plugin framework in `ipalib.plugable`.
|
|
|
|
Furthermore, the freeIPA plugin architecture was inspired by the Bazaar plugin
|
|
architecture. Although the two are different enough that learning how to
|
|
write plugins for Bazaar will not particularly help you write plugins for
|
|
freeIPA, some might be interested in the documentation on writing plugins for
|
|
Bazaar, available here:
|
|
|
|
http://bazaar-vcs.org/WritingPlugins
|
|
|
|
If nothing else, we just want to give credit where credit is deserved!
|
|
However, freeIPA does not use any *code* from Bazaar... it merely borrows a
|
|
little inspiration.
|
|
|
|
|
|
--------------------------
|
|
A note on docstring markup
|
|
--------------------------
|
|
|
|
Lastly, a quick note on markup: All the Python docstrings in freeIPA v2
|
|
(including this tutorial) use the *reStructuredText* markup language. For
|
|
information on reStructuredText, see:
|
|
|
|
http://docutils.sourceforge.net/rst.html
|
|
|
|
For information on using reStructuredText markup with epydoc, see:
|
|
|
|
http://epydoc.sourceforge.net/manual-othermarkup.html
|
|
|
|
|
|
--------------------------------------------------
|
|
Next steps: get involved with freeIPA development!
|
|
--------------------------------------------------
|
|
|
|
The freeIPA team is always interested in feedback and contribution from the
|
|
community. To get involved with freeIPA, see the *Contribute* page on
|
|
freeIPA.org:
|
|
|
|
http://freeipa.org/page/Contribute
|
|
|
|
'''
|
|
|
|
import os
|
|
import plugable
|
|
from backend import Backend
|
|
from frontend import Command, LocalOrRemote
|
|
from frontend import Object, Method, Property
|
|
from crud import Create, Retrieve, Update, Delete, Search
|
|
from parameters import DefaultFrom, Bool, Flag, Int, Float, Bytes, Str, IA5Str, Password,List
|
|
from parameters import BytesEnum, StrEnum, AccessTime, File
|
|
from errors import SkipPluginModule
|
|
from text import _, ngettext, GettextFactory, NGettextFactory
|
|
|
|
version_info = (2, 0, 0, 'alpha', 0)
|
|
if version_info[3] == 'final':
|
|
__version__ = '%d.%d.%d' % version_info[:3]
|
|
else:
|
|
__version__ = '%d.%d.%d.%s.%d' % version_info
|
|
|
|
|
|
def create_api(mode='dummy'):
|
|
"""
|
|
Return standard `plugable.API` instance.
|
|
|
|
This standard instance allows plugins that subclass from the following
|
|
base classes:
|
|
|
|
- `frontend.Command`
|
|
|
|
- `frontend.Object`
|
|
|
|
- `frontend.Method`
|
|
|
|
- `frontend.Property`
|
|
|
|
- `backend.Backend`
|
|
"""
|
|
api = plugable.API(Command, Object, Method, Property, Backend)
|
|
if mode is not None:
|
|
api.env.mode = mode
|
|
assert mode != 'production'
|
|
return api
|
|
|
|
api = create_api(mode=None)
|
|
|
|
if os.environ.get('IPA_UNIT_TEST_MODE', None) == 'cli_test':
|
|
api.bootstrap(context='cli', in_server=False, in_tree=True)
|
|
api.finalize()
|