salt/doc/topics/development/external_pillars.rst
Thomas L. Kula a28414b1e4 Update ext_pillar documentation for new ext_pillar signature
With issue #5911 the signature of ext_pillar was changed to
make the ID of the minion be the first argument. Update the
documentation to reflext that.
2013-11-12 17:38:40 -05:00

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===================
External Pillars
===================
Salt provides a mechanism for generating pillar data by calling external
pillar interfaces. This document will describe an outline of an ext_pillar
module.
Location
--------
Salt expects to find your ``ext_pillar`` module in the same location where it
looks for other python modules. If the ``extension_modules`` option in your
Salt master configuration is set, Salt will look for a ``pillar`` directory
under there and load all the modules it finds. Otherwise, it will look in
your Python site-packages ``salt/pillar`` directory.
Configuration
-------------
The external pillars that are called when a minion refreshes its pillars is
controlled by the ``ext_pillar`` option in the Salt master configuration. You
can pass a single argument, a list of arguments or a dictionary of arguments
to your pillar:
.. code-block:: yaml
ext_pillar:
- example_a: some argument
- example_b:
- argumentA
- argumentB
- example_c:
keyA: valueA
keyB: valueB
The Module
----------
Imports and Logging
-------------------
Import modules your external pillar module needs. You should first include
generic modules that come with stock Python:
.. code-block:: python
import logging
And then start logging. This is an idiomatic way of setting up logging in Salt:
.. code-block:: python
log = logging.getLogger(__name__)
Finally, load modules that are specific to what you are doing. You should catch
import errors and set a flag that the the ``__virtual__`` function can use later.
.. code-block:: python
try:
import weird_thing
example_a_loaded = True
except ImportError:
example_a_loaded = False
Options
-------
If you define an ``__opts__`` dictionary, it will be merged into the
``__opts__`` dictionary handed to the ``ext_pillar`` function later. This is a
good place to put default configuration items. The convention is to name
things ``modulename.option``.
.. code-block:: python
__opts__ = { 'example_a.someconfig': 137 }
Initialization
--------------
If you define an ``__init__`` function, it will be called with the following
signature:
.. code-block:: python
def __init__( __opts__ ):
# Do init work here
**Note**: The ``__init__`` function is ran every time a particular minion causes
the external pillar to be called, so don't put heavy initialization code here.
The ``__init__`` functionality is a side-effect of the Salt loader, so it may
not be as useful in pillars as it is in other Salt items.
__virtual__
-----------
If you define a ``__virtual__`` function, you can control whether or not this
module is visible. If it returns ``False`` then Salt ignores this module. If
it returns a string, then that string will be how Salt identifies this external
pillar in its ``ext_pillar`` configuration. If this function does not exist,
then the name Salt's ``ext_pillar`` will use to identify this module is its
conventional name in Python.
This is useful to write modules that can be installed on all Salt masters, but
will only be visible if a particular piece of software your module requires is
installed.
.. code-block:: python
# This external pillar will be known as `example_a`
def __virtual__():
if example_a_loaded:
return 'example_a'
else:
return False
.. code-block:: python
# This external pillar will be known as `something_else`
def __virtual__():
if example_a_loaded:
return 'something_else'
else:
return False
ext_pillar
----------
This is where the real work of an external pillar is done. If this module is
active and has a function called ``ext_pillar``, whenever a minion updates its
pillar this function is called.
How it is called depends on how it is configured in the Salt master
configuration. The first argument is always the current pillar dictionary, this
contains pillar items that have already been added, starting with the data from
``pillar_roots``, and then from any already-ran external pillars.
Using our example above:
.. code-block:: python
ext_pillar( id, pillar, 'some argument' ) # example_a
ext_pillar( id, pillar, 'argumentA', 'argumentB' ) # example_b
ext_pillar( id, pillar, keyA='valueA', keyB='valueB' } ) # example_c
In the ``example_a`` case, ``pillar`` will contain the items from the
``pillar_roots``, in ``example_b`` ``pillar`` will contain that plus the items
added by ``example_a``, and in ``example_c`` ``pillar`` will contain that plus
the items added by ``example_b``. In all three cases, ``id`` will contain the
ID of the minion making the pillar request.
This function should return a dictionary, the contents of which are merged in
with all of the other pillars and returned to the minion. **Note**: this function
is called once for each minion that fetches its pillar data.
.. code-block:: python
def ext_pillar( minion_id, pillar, *args, **kwargs ):
my_pillar = {}
# Do stuff
return my_pillar
You shouldn't just add items to ``pillar`` and return that, since that will
cause Salt to merge data that already exists. Rather, just return the items
you are adding or changing. You could, however, use ``pillar`` in your module
to make some decision based on pillar data that already exists.
This function has access to some useful globals:
:__opts__:
A dictionary of mostly Salt configuration options. If you had an
``__opts__`` dictionary defined in your module, those values will be
included.
:__salt__:
A dictionary of Salt module functions, useful so you don't have to
duplicate functions that already exist. E.g.
``__salt__['cmd.run']( 'ls -l' )`` **Note**, runs on the *master*
:__grains__:
A dictionary of the grains of the minion making this pillar call.
Example configuration
---------------------
As an example, if you wanted to add external pillar via the ``cmd_json``
external pillar, add something like this to your master config:
.. code-block:: yaml
ext_pillar:
- cmd_json: "echo {'arg':'value'}"