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Conflicts: - doc/ref/states/compiler_ordering.rst - doc/topics/installation/suse.rst - doc/topics/jobs/schedule.rst - doc/topics/targeting/grains.rst - doc/topics/tutorials/preseed_key.rst - doc/topics/tutorials/states_pt5.rst - pkg/suse/use-forking-daemon.patch - salt/minion.py - salt/modules/pacman.py - salt/modules/state.py - salt/modules/yumpkg.py
321 lines
8.9 KiB
ReStructuredText
321 lines
8.9 KiB
ReStructuredText
======================
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State System Reference
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======================
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Salt offers an interface to manage the configuration or "state" of the
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Salt minions. This interface is a fully capable mechanism used to enforce the
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state of systems from a central manager.
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.. toctree::
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:glob:
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*
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State Management
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================
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State management, also frequently called Software Configuration Management
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(SCM), is a program that puts and keeps a system into a predetermined state. It
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installs software packages, starts or restarts services or puts configuration
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files in place and watches them for changes.
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Having a state management system in place allows one to easily and reliably
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configure and manage a few servers or a few thousand servers. It allows
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configurations to be kept under version control.
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Salt States is an extension of the Salt Modules that we discussed in the
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previous :doc:`remote execution </topics/tutorials/modules>` tutorial. Instead
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of calling one-off executions the state of a system can be easily defined and
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then enforced.
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Understanding the Salt State System Components
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==============================================
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The Salt state system is comprised of a number of components. As a user, an
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understanding of the SLS and renderer systems are needed. But as a developer,
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an understanding of Salt states and how to write the states is needed as well.
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.. note::
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States are compiled and executed only on minions that have been targeted.
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To execute functions directly on masters, see :doc:`runners </ref/runners/index>`.
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Salt SLS System
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---------------
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The primary system used by the Salt state system is the SLS system. SLS stands
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for **S**\ a\ **L**\ t **S**\ tate.
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The Salt States are files which contain the information about how to configure
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Salt minions. The states are laid out in a directory tree and can be written in
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many different formats.
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The contents of the files and they way they are laid out is intended to be as
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simple as possible while allowing for maximum flexibility. The files are laid
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out in states and contains information about how the minion needs to be
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configured.
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SLS File Layout
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```````````````
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SLS files are laid out in the Salt file server.
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A simple layout can look like this:
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.. code-block:: yaml
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top.sls
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ssh.sls
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sshd_config
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users/init.sls
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users/admin.sls
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salt/master.sls
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web/init.sls
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The ``top.sls`` file is a key component. The ``top.sls`` files
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is used to determine which SLS files should be applied to which minions.
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The rest of the files with the ``.sls`` extension in the above example are
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state files.
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Files without a ``.sls`` extensions are seen by the Salt master as
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files that can be downloaded to a Salt minion.
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States are translated into dot notation. For example, the ``ssh.sls`` file is
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seen as the ssh state and the ``users/admin.sls`` file is seen as the
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users.admin state.
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Files named ``init.sls`` are translated to be the state name of the parent
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directory, so the ``web/init.sls`` file translates to the ``web`` state.
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In Salt, everything is a file; there is no "magic translation" of files and file
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types. This means that a state file can be distributed to minions just like a
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plain text or binary file.
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SLS Files
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`````````
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The Salt state files are simple sets of data. Since SLS files are just data
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they can be represented in a number of different ways.
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The default format is YAML generated from a Jinja template. This allows for the
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states files to have all the language constructs of Python and the simplicity of YAML.
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State files can then be complicated Jinja templates that translate down to YAML, or just
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plain and simple YAML files.
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The State files are simply common data structures such as dictionaries and lists, constructed
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using a templating language such as YAML.
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Here is an example of a Salt State:
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.. code-block:: yaml
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vim:
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pkg.installed: []
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salt:
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pkg.latest:
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- name: salt
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service.running:
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- names:
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- salt-master
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- salt-minion
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- require:
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- pkg: salt
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- watch:
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- file: /etc/salt/minion
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/etc/salt/minion:
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file.managed:
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- source: salt://salt/minion
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- user: root
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- group: root
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- mode: 644
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- require:
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- pkg: salt
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This short stanza will ensure that vim is installed, Salt is installed and up
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to date, the salt-master and salt-minion daemons are running and the Salt
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minion configuration file is in place. It will also ensure everything is
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deployed in the right order and that the Salt services are restarted when the
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watched file updated.
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The Top File
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````````````
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The top file controls the mapping between minions and the states which should be
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applied to them.
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The top file specifies which minions should have which SLS files applied and which
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environments they should draw those SLS files from.
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The top file works by specifying environments on the top-level.
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Each environment contains globs to match minions. Finally, each glob contains a list of
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lists of Salt states to apply to matching minions:
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.. code-block:: yaml
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base:
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'*':
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- salt
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- users
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- users.admin
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'saltmaster.*':
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- match: pcre
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- salt.master
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This above example uses the base environment which is built into the default
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Salt setup.
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The base environment has two globs. First, the '*' glob contains a list of
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SLS files to apply to all minions.
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The second glob contains a regular expression that will match all minions with
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an ID matching saltmaster.* and specifies that for those minions, the salt.master
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state should be applied.
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.. _reloading-modules:
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Reloading Modules
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-----------------
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Some Salt states require that specific packages be installed in order for the
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module to load. As an example the :mod:`pip <salt.states.pip_state>` state
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module requires the `pip`_ package for proper name and version parsing.
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In most of the common cases, Salt is clever enough to transparently reload the
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modules. For example, if you install a package, Salt reloads modules because
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some other module or state might require just that package which was installed.
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On some edge-cases salt might need to be told to reload the modules. Consider
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the following state file which we'll call ``pep8.sls``:
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.. code-block:: yaml
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python-pip:
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cmd.run:
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- name: |
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easy_install --script-dir=/usr/bin -U pip
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- cwd: /
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pep8:
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pip.installed:
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- require:
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- cmd: python-pip
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The above example installs `pip`_ using ``easy_install`` from `setuptools`_ and
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installs `pep8`_ using :mod:`pip <salt.states.pip_state>`, which, as told
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earlier, requires `pip`_ to be installed system-wide. Let's execute this state:
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.. code-block:: bash
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salt-call state.apply pep8
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The execution output would be something like:
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.. code-block:: text
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----------
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State: - pip
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Name: pep8
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Function: installed
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Result: False
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Comment: State pip.installed found in sls pep8 is unavailable
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Changes:
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Summary
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------------
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Succeeded: 1
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Failed: 1
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------------
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Total: 2
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If we executed the state again the output would be:
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.. code-block:: text
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----------
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State: - pip
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Name: pep8
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Function: installed
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Result: True
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Comment: Package was successfully installed
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Changes: pep8==1.4.6: Installed
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Summary
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------------
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Succeeded: 2
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Failed: 0
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------------
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Total: 2
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Since we installed `pip`_ using :mod:`cmd <salt.states.cmd>`, Salt has no way
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to know that a system-wide package was installed.
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On the second execution, since the required `pip`_ package was installed, the
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state executed correctly.
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.. note::
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Salt does not reload modules on every state run because doing so would greatly
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slow down state execution.
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So how do we solve this *edge-case*? ``reload_modules``!
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``reload_modules`` is a boolean option recognized by salt on **all** available
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states which forces salt to reload its modules once a given state finishes.
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The modified state file would now be:
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.. code-block:: yaml
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python-pip:
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cmd.run:
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- name: |
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easy_install --script-dir=/usr/bin -U pip
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- cwd: /
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- reload_modules: true
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pep8:
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pip.installed:
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- require:
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- cmd: python-pip
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Let's run it, once:
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.. code-block:: bash
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salt-call state.apply pep8
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The output is:
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.. code-block:: text
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----------
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State: - pip
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Name: pep8
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Function: installed
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Result: True
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Comment: Package was successfully installed
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Changes: pep8==1.4.6: Installed
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Summary
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------------
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Succeeded: 2
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Failed: 0
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------------
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Total: 2
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.. _`pip`: https://pypi.python.org/pypi/pip
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.. _`pep8`: https://pypi.python.org/pypi/pep8
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.. _`setuptools`: https://pypi.python.org/pypi/setuptools
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.. _`runners`: /ref/runners
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