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338 lines
8.7 KiB
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338 lines
8.7 KiB
ReStructuredText
==================
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Pillar Walkthrough
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==================
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.. note::
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This walkthrough assumes that the reader has already completed the initial
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Salt :doc:`walkthrough </topics/tutorials/walkthrough>`.
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Pillars are tree-like structures of data defined on the Salt Master and passed
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through to minions. They allow confidential, targeted data to be securely sent
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only to the relevant minion.
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.. note::
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Grains and Pillar are sometimes confused, just remember that Grains
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are data about a minion which is stored or generated from the minion.
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This is why information like the OS and CPU type are found in Grains.
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Pillar is information about a minion or many minions stored or generated
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on the Salt Master.
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Pillar data is useful for:
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Highly Sensitive Data:
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Information transferred via pillar is guaranteed to only be presented to
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the minions that are targeted, making Pillar suitable
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for managing security information, such as cryptographic keys and
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passwords.
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Minion Configuration:
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Minion modules such as the execution modules, states, and returners can
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often be configured via data stored in pillar.
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Variables:
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Variables which need to be assigned to specific minions or groups of
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minions can be defined in pillar and then accessed inside sls formulas
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and template files.
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Arbitrary Data:
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Pillar can contain any basic data structure, so a list of values, or a
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key/value store can be defined making it easy to iterate over a group
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of values in sls formulas
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Pillar is therefore one of the most important systems when using Salt. This
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walkthrough is designed to get a simple Pillar up and running in a few minutes
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and then to dive into the capabilities of Pillar and where the data is
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available.
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Setting Up Pillar
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=================
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The pillar is already running in Salt by default. To see the minion's
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pillar data:
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.. code-block:: bash
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salt '*' pillar.items
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.. note::
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Prior to version 0.16.2, this function is named ``pillar.data``. This
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function name is still supported for backwards compatibility.
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By default the contents of the master configuration file are loaded into
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pillar for all minions. This enables the master configuration file to
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be used for global configuration of minions.
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Similar to the state tree, the pillar is comprised of sls files and has a top file.
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The default location for the pillar is in /srv/pillar.
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.. note::
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The pillar location can be configured via the `pillar_roots` option inside
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the master configuration file. It must not be in a subdirectory of the state
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tree.
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To start setting up the pillar, the /srv/pillar directory needs to be present:
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.. code-block:: bash
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mkdir /srv/pillar
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Now create a simple top file, following the same format as the top file used for
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states:
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``/srv/pillar/top.sls``:
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.. code-block:: yaml
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base:
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'*':
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- data
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This top file associates the data.sls file to all minions. Now the
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``/srv/pillar/data.sls`` file needs to be populated:
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``/srv/pillar/data.sls``:
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.. code-block:: yaml
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info: some data
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To ensure that the minions have the new pillar data, issue a command
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to them asking that they fetch their pillars from the master:
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.. code-block:: bash
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salt '*' saltutil.refresh_pillar
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Now that the minions have the new pillar, it can be retreived:
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.. code-block:: bash
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salt '*' pillar.items
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The key ``info`` should now appear in the returned pillar data.
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More Complex Data
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~~~~~~~~~~~~~~~~~
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Unlike states, pillar files do not need to define :strong:`formulas`.
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This example sets up user data with a UID:
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``/srv/pillar/users/init.sls``:
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.. code-block:: yaml
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users:
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thatch: 1000
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shouse: 1001
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utahdave: 1002
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redbeard: 1003
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.. note::
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The same directory lookups that exist in states exist in pillar, so the
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file ``users/init.sls`` can be referenced with ``users`` in the :term:`top
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file`.
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The top file will need to be updated to include this sls file:
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``/srv/pillar/top.sls``:
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.. code-block:: yaml
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base:
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'*':
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- data
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- users
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Now the data will be available to the minions. To use the pillar data in a
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state, you can use Jinja:
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``/srv/salt/users/init.sls``
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.. code-block:: jinja
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{% for user, uid in pillar.get('users', {}).items() %}
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{{user}}:
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user.present:
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- uid: {{uid}}
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{% endfor %}
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This approach allows for users to be safely defined in a pillar and then the
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user data is applied in an sls file.
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Parameterizing States With Pillar
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=================================
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Pillar data can be accessed in state files to customise behavior for each
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minion. All pillar (and grain) data applicable to each minion is substituted
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into the state files through templating before being run. Typical uses
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include setting directories appropriate for the minion and skipping states
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that don't apply.
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A simple example is to set up a mapping of package names in pillar for
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separate Linux distributions:
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``/srv/pillar/pkg/init.sls``:
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.. code-block:: jinja
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pkgs:
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{% if grains['os_family'] == 'RedHat' %}
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apache: httpd
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vim: vim-enhanced
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{% elif grains['os_family'] == 'Debian' %}
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apache: apache2
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vim: vim
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{% elif grains['os'] == 'Arch' %}
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apache: apache
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vim: vim
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{% endif %}
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The new ``pkg`` sls needs to be added to the top file:
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``/srv/pillar/top.sls``:
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.. code-block:: yaml
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base:
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'*':
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- data
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- users
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- pkg
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Now the minions will auto map values based on respective operating systems
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inside of the pillar, so sls files can be safely parameterized:
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``/srv/salt/apache/init.sls``:
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.. code-block:: jinja
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apache:
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pkg.installed:
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- name: {{ pillar['pkgs']['apache'] }}
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Or, if no pillar is available a default can be set as well:
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.. note::
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The function ``pillar.get`` used in this example was added to Salt in
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version 0.14.0
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``/srv/salt/apache/init.sls``:
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.. code-block:: jinja
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apache:
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pkg.installed:
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- name: {{ salt['pillar.get']('pkgs:apache', 'httpd') }}
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In the above example, if the pillar value ``pillar['pkgs']['apache']`` is not
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set in the minion's pillar, then the default of ``httpd`` will be used.
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.. note::
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Under the hood, pillar is just a Python dict, so Python dict methods such
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as `get` and `items` can be used.
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Pillar Makes Simple States Grow Easily
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======================================
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One of the design goals of pillar is to make simple sls formulas easily grow
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into more flexible formulas without refactoring or complicating the states.
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A simple formula:
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``/srv/salt/edit/vim.sls``:
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.. code-block:: yaml
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vim:
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pkg:
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- installed
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/etc/vimrc:
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file.managed:
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- source: salt://edit/vimrc
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- mode: 644
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- user: root
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- group: root
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- require:
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- pkg: vim
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Can be easily transformed into a powerful, parameterized formula:
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``/srv/salt/edit/vim.sls``:
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.. code-block:: jinja
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vim:
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pkg:
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- installed
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- name: {{ pillar['pkgs']['vim'] }}
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/etc/vimrc:
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file.managed:
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- source: {{ pillar['vimrc'] }}
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- mode: 644
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- user: root
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- group: root
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- require:
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- pkg: vim
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Where the vimrc source location can now be changed via pillar:
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``/srv/pillar/edit/vim.sls``:
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.. code-block:: jinja
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{% if grains['id'].startswith('dev') %}
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vimrc: salt://edit/dev_vimrc
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{% elif grains['id'].startswith('qa') %}
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vimrc: salt://edit/qa_vimrc
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{% else %}
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vimrc: salt://edit/vimrc
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{% endif %}
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Ensuring that the right vimrc is sent out to the correct minions.
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Setting Pillar Data on the Command Line
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=======================================
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Pillar data can be set on the command line like so:
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.. code-block:: bash
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salt '*' state.highstate pillar='{"foo": "bar"}'
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The ``state.sls`` command can also be used to set pillar values via the command
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line:
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.. code-block:: bash
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salt '*' state.sls my_sls_file pillar='{"hello": "world"}'
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Lists can be passed in pillar as well:
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.. code-block:: bash
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salt '*' state.highstate pillar='["foo", "bar", "baz"]'
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.. note::
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If a key is passed on the command line that already exists on the minion,
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the key that is passed in will overwrite the entire value of that key,
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rather than merging only the specified value set via the command line.
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More On Pillar
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==============
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Pillar data is generated on the Salt master and securely distributed to
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minions. Salt is not restricted to the pillar sls files when defining the
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pillar but can retrieve data from external sources. This can be useful when
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information about an infrastructure is stored in a separate location.
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Reference information on pillar and the external pillar interface can be found
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in the Salt documentation:
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:doc:`Pillar </topics/pillar/index>`
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