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319 lines
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319 lines
10 KiB
ReStructuredText
===============
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Ordering States
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===============
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The way in which configuration management systems are executed is a hotly
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debated topic in the configuration management world. Two
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major philosophies exist on the subject, to either execute in an imperative
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fashion where things are executed in the order in which they are defined, or
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in a declarative fashion where dependencies need to be mapped between objects.
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Imperative ordering is finite and generally considered easier to write, but
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declarative ordering is much more powerful and flexible but generally considered
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more difficult to create.
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Salt has been created to get the best of both worlds. States are evaluated in
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a finite order, which guarantees that states are always executed in the same
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order, and the states runtime is declarative, making Salt fully aware of
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dependencies via the `requisite` system.
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State Auto Ordering
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===================
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.. versionadded: 0.17.0
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Salt always executes states in a finite manner, meaning that they will always
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execute in the same order regardless of the system that is executing them.
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But in Salt 0.17.0, the ``state_auto_order`` option was added. This option
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makes states get evaluated in the order in which they are defined in sls
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files.
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The evaluation order makes it easy to know what order the states will be
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executed in, but it is important to note that the requisite system will
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override the ordering defined in the files, and the ``order`` option described
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below will also override the order in which states are defined in sls files.
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If the classic ordering is preferred (lexicographic), then set
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``state_auto_order`` to ``False`` in the master configuration file.
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Requisite Statements
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====================
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.. note::
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This document represents behavior exhibited by Salt requisites as of
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version 0.9.7 of Salt.
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Often when setting up states any single action will require or depend on
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another action. Salt allows for the building of relationships between states
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with requisite statements. A requisite statement ensures that the named state
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is evaluated before the state requiring it. There are three types of requisite
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statements in Salt, **require**, **watch** and **prereq**.
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These requisite statements are applied to a specific state declaration:
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.. code-block:: yaml
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httpd:
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pkg:
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- installed
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file.managed:
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- name: /etc/httpd/conf/httpd.conf
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- source: salt://httpd/httpd.conf
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- require:
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- pkg: httpd
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In this example, the **require** requisite is used to declare that the file
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/etc/httpd/conf/httpd.conf should only be set up if the pkg state executes
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successfully.
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The requisite system works by finding the states that are required and
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executing them before the state that requires them. Then the required states
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can be evaluated to see if they have executed correctly.
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Require statements can refer to the following requisite types: pkg, file, sls
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In addition to state declarations such as pkg, file, etc., **sls** type requisites
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are also recognized, and essentially allow 'chaining' of states. This provides a
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mechanism to ensure the proper sequence for complex state formulas, especially when
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the discrete states are split or groups into separate sls files:
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.. code-block:: yaml
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include:
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- network
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httpd:
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pkg:
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- installed
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service:
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- running
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- require:
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- pkg: httpd
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- sls: network
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In this example, the httpd sevice running state will not be applied
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(i.e., the httpd service will not be started) unless both the https package is
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installed AND the network state is satisfied.
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.. note:: Requisite matching
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Requisites match on both the ID Declaration and the ``name`` parameter.
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Therefore, if using the ``pkgs`` or ``sources`` argument to install
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a list of packages in a pkg state, it's important to note that it is
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impossible to match an individual package in the list, since all packages
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are installed as a single state.
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Multiple Requisites
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-------------------
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The requisite statement is passed as a list, allowing for the easy addition of
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more requisites. Both requisite types can also be separately declared:
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.. code-block:: yaml
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httpd:
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pkg:
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- installed
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service.running:
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- enable: True
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- watch:
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- file: /etc/httpd/conf/httpd.conf
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- require:
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- pkg: httpd
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- user: httpd
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- group: httpd
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file.managed:
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- name: /etc/httpd/conf/httpd.conf
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- source: salt://httpd/httpd.conf
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- require:
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- pkg: httpd
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user:
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- present
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group:
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- present
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In this example, the httpd service is only going to be started if the package,
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user, group and file are executed successfully.
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The Require Requisite
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---------------------
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The foundation of the requisite system is the ``require`` requisite. The
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require requisite ensures that the required state(s) are executed before the
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requiring state. So, if a state is declared that sets down a vimrc, then it
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would be pertinent to make sure that the vimrc file would only be set down if
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the vim package has been installed:
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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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file.managed:
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- source: salt://vim/vimrc
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- require:
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- pkg: vim
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In this case, the vimrc file will only be applied by Salt if and after the vim
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package is installed.
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The Watch Requisite
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-------------------
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The ``watch`` requisite is more advanced than the ``require`` requisite. The
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watch requisite executes the same logic as require (therefore if something is
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watched it does not need to also be required) with the addition of executing
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logic if the required states have changed in some way.
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The watch requisite checks to see if the watched states have returned any
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changes. If the watched state returns changes, and the watched states execute
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successfully, then the watching state will execute a function that reacts to
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the changes in the watched states.
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Perhaps an example can better explain the behavior:
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.. code-block:: yaml
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redis:
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pkg:
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- latest
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file.managed:
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- source: salt://redis/redis.conf
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- name: /etc/redis.conf
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- require:
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- pkg: redis
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service.running:
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- enable: True
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- watch:
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- file: /etc/redis.conf
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- pkg: redis
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In this example, the redis service will only be started if the file
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/etc/redis.conf is applied, and the file is only applied if the package is
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installed. This is normal require behavior, but if the watched file changes,
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or the watched package is installed or upgraded, then the redis service is
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restarted.
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Watch and the mod_watch Function
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--------------------------------
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The watch requisite is based on the ``mod_watch`` function. Python state
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modules can include a function called ``mod_watch`` which is then called
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if the watch call is invoked. When ``mod_watch`` is called depends on the
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execution of the watched state, which:
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- If no changes then just run the watching state itself as usual.
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``mod_watch`` is not called. This behavior is same as using a ``require``.
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- If changes then run the watching state *AND* if that changes nothing then
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react by calling ``mod_watch``.
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When reacting, in the case of the service module the underlying service is
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restarted. In the case of the cmd state the command is executed.
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The ``mod_watch`` function for the service state looks like this:
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.. code-block:: python
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def mod_watch(name, sig=None, reload=False, full_restart=False):
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'''
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The service watcher, called to invoke the watch command.
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name
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The name of the init or rc script used to manage the service
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sig
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The string to search for when looking for the service process with ps
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'''
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if __salt__['service.status'](name, sig):
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if 'service.reload' in __salt__ and reload:
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restart_func = __salt__['service.reload']
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elif 'service.full_restart' in __salt__ and full_restart:
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restart_func = __salt__['service.full_restart']
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else:
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restart_func = __salt__['service.restart']
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else:
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restart_func = __salt__['service.start']
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result = restart_func(name)
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return {'name': name,
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'changes': {name: result},
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'result': result,
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'comment': 'Service restarted' if result else \
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'Failed to restart the service'
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}
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The watch requisite only works if the state that is watching has a
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``mod_watch`` function written. If watch is set on a state that does not have
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a ``mod_watch`` function (like pkg), then the listed states will behave only
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as if they were under a ``require`` statement.
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Also notice that a ``mod_watch`` may accept additional keyword arguments,
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which, in the sls file, will be taken from the same set of arguments specified
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for the state that includes the ``watch`` requisite. This means, for the
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earlier ``service.running`` example above, the service can be set to
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``reload`` instead of restart like this:
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.. code-block:: yaml
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redis:
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# ... other state declarations omitted ...
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service.running:
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- enable: True
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- reload: True
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- watch:
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- file: /etc/redis.conf
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- pkg: redis
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The Order Option
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================
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Before using the order option, remember that the majority of state ordering
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should be done with a :term:`requisite declaration`, and that a requisite
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declaration will override an order option.
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The order option is used by adding an order number to a state declaration
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with the option `order`:
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.. code-block:: yaml
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vim:
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pkg.installed:
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- order: 1
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By adding the order option to `1` this ensures that the vim package will be
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installed in tandem with any other state declaration set to the order `1`.
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Any state declared without an order option will be executed after all states
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with order options are executed.
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But this construct can only handle ordering states from the beginning.
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Certain circumstances will present a situation where it is desirable to send
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a state to the end of the line. To do this, set the order to ``last``:
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.. code-block:: yaml
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vim:
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pkg.installed:
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- order: last
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Remember that requisite statements overrid<e the order option. So the order
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option should be applied to the highest component of the requisite chain:
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.. code-block:: yaml
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vim:
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pkg.installed:
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- order: last
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- require:
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- file: /etc/vimrc
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/etc/vimrc:
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file.managed:
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- source: salt://edit/vimrc
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