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Conflicts: - doc/ref/states/include.rst - doc/topics/cloud/reactor.rst - doc/topics/reactor/index.rst - doc/topics/releases/2015.5.10.rst - doc/topics/tutorials/states_pt5.rst - doc/topics/windows/windows-package-manager.rst - salt/config.py - salt/modules/state.py - salt/states/grains.py - tests/integration/modules/sysmod.py - tests/unit/states/grains_test.py
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ReStructuredText
250 lines
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ReStructuredText
=======================================
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Using Salt Cloud with the Event Reactor
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=======================================
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One of the most powerful features of the Salt framework is the Event Reactor.
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As the Reactor was in development, Salt Cloud was regularly updated to take
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advantage of the Reactor upon completion. As such, various aspects of both the
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creation and destruction of instances with Salt Cloud fire events to the Salt
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Master, which can be used by the Event Reactor.
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Event Structure
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===============
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As of this writing, all events in Salt Cloud have a tag, which includes the ID
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of the instance being managed, and a payload which describes the task that is
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currently being handled. A Salt Cloud tag looks like:
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.. code-block:: yaml
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salt/cloud/<minion_id>/<task>
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For instance, the first event fired when creating an instance named ``web1``
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would look like:
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.. code-block:: yaml
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salt/cloud/web1/creating
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Assuming this instance is using the ``ec2-centos`` profile, which is in turn
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using the ``ec2-config`` provider, the payload for this tag would look like:
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.. code-block:: python
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{'name': 'web1',
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'profile': 'ec2-centos',
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'provider': 'ec2-config:ec2'}
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Available Events
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================
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When an instance is created in Salt Cloud, whether by map, profile, or directly
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through an API, a minimum of five events are normally fired. More may be
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available, depending upon the cloud provider being used. Some of the common
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events are described below.
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salt/cloud/<minion_id>/creating
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-------------------------------
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This event states simply that the process to create an instance has begun. At
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this point in time, no actual work has begun. The payload for this event
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includes:
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name
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profile
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provider
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salt/cloud/<minion_id>/requesting
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---------------------------------
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Salt Cloud is about to make a request to the cloud provider to create an
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instance. At this point, all of the variables required to make the request have
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been gathered, and the payload of the event will reflect those variables which
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do not normally pose a security risk. What is returned here is dependent upon
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the cloud provider. Some common variables are:
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name
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image
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size
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location
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salt/cloud/<minion_id>/querying
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-------------------------------
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The instance has been successfully requested, but the necessary information to
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log into the instance (such as IP address) is not yet available. This event
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marks the beginning of the process to wait for this information.
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The payload for this event normally only includes the ``instance_id``.
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salt/cloud/<minion_id>/waiting_for_ssh
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--------------------------------------
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The information required to log into the instance has been retrieved, but the
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instance is not necessarily ready to be accessed. Following this event, Salt
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Cloud will wait for the IP address to respond to a ping, then wait for the
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specified port (usually 22) to respond to a connection, and on Linux systems,
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for SSH to become available. Salt Cloud will attempt to issue the ``date``
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command on the remote system, as a means to check for availability. If no
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``ssh_username`` has been specified, a list of usernames (starting with
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``root``) will be attempted. If one or more usernames was configured for
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``ssh_username``, they will be added to the beginning of the list, in order.
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The payload for this event normally only includes the ``ip_address``.
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salt/cloud/<minion_id>/deploying
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--------------------------------
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The necessary port has been detected as available, and now Salt Cloud can log
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into the instance, upload any files used for deployment, and run the deploy
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script. Once the script has completed, Salt Cloud will log back into the
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instance and remove any remaining files.
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A number of variables are used to deploy instances, and the majority of these
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will be available in the payload. Any keys, passwords or other sensitive data
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will be scraped from the payload. Most of the variables returned will be
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related to the profile or provider config, and any default values that could
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have been changed in the profile or provider, but weren't.
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salt/cloud/<minion_id>/created
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------------------------------
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The deploy sequence has completed, and the instance is now available, Salted,
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and ready for use. This event is the final task for Salt Cloud, before returning
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instance information to the user and exiting.
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The payload for this event contains little more than the initial ``creating``
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event. This event is required in all cloud providers.
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Configuring the Event Reactor
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=============================
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The Event Reactor is built into the Salt Master process, and as such is
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configured via the master configuration file. Normally this will be a YAML
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file located at ``/etc/salt/master``. Additionally, master configuration items
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can be stored, in YAML format, inside the ``/etc/salt/master.d/`` directory.
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These configuration items may be stored in either location; however, they may
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only be stored in one location. For organizational and security purposes, it
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may be best to create a single configuration file, which contains only Event
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Reactor configuration, at ``/etc/salt/master.d/reactor``.
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The Event Reactor uses a top-level configuration item called ``reactor``. This
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block contains a list of tags to be watched for, each of which also includes a
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list of ``sls`` files. For instance:
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.. code-block:: yaml
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reactor:
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- 'salt/minion/*/start':
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- '/srv/reactor/custom-reactor.sls'
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- 'salt/cloud/*/created':
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- '/srv/reactor/cloud-alert.sls'
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- 'salt/cloud/*/destroyed':
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- '/srv/reactor/cloud-destroy-alert.sls'
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The above configuration configures reactors for three different tags: one which
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is fired when a minion process has started and is available to receive commands,
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one which is fired when a cloud instance has been created, and one which is
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fired when a cloud instance is destroyed.
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Note that each tag contains a wildcard (``*``) in it. For each of these tags,
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this will normally refer to a ``minion_id``. This is not required of event tags,
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but is very common.
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Reactor SLS Files
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=================
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Reactor ``sls`` files should be placed in the ``/srv/reactor/`` directory for
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consistency between environments, but this is not currently enforced by Salt.
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Reactor ``sls`` files follow a similar format to other ``sls`` files in
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Salt. By default they are written in YAML and can be templated using Jinja, but
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since they are processed through Salt's rendering system, any available
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renderer (JSON, Mako, Cheetah, etc.) can be used.
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As with other ``sls`` files, each stanza will start with a declaration ID,
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followed by the function to run, and then any arguments for that function. For
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example:
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.. code-block:: yaml
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# /srv/reactor/cloud-alert.sls
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new_instance_alert:
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cmd.pagerduty.create_event:
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- tgt: alertserver
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- kwarg:
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description: "New instance: {{ data['name'] }}"
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details: "New cloud instance created on {{ data['provider'] }}"
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service_key: 1626dead5ecafe46231e968eb1be29c4
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profile: my-pagerduty-account
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When the Event Reactor receives an event notifying it that a new instance has
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been created, this ``sls`` will create a new incident in PagerDuty, using the
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configured PagerDuty account.
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The declaration ID in this example is ``new_instance_alert``. The function
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called is ``cmd.pagerduty.create_event``. The ``cmd`` portion of this function
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specifies that an execution module and function will be called, in this case,
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the ``pagerduty.create_event`` function.
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Because an execution module is specified, a target (``tgt``) must be specified
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on which to call the function. In this case, a minion called ``alertserver``
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has been used. Any arguments passed through to the function are declared in the
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``kwarg`` block.
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Example: Reactor-Based Highstate
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================================
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When Salt Cloud creates an instance, by default it will install the Salt Minion
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onto the instance, along with any specified minion configuration, and
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automatically accept that minion's keys on the master. One of the configuration
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options that can be specified is ``startup_states``, which is commonly set to
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``highstate``. This will tell the minion to immediately apply a :ref:`highstate
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<running-highstate>`, as soon as it is able to do so.
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This can present a problem with some system images on some cloud hosts. For
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instance, Salt Cloud can be configured to log in as either the ``root`` user, or
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a user with ``sudo`` access. While some hosts commonly use images that
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lock out remote ``root`` access and require a user with ``sudo`` privileges to
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log in (notably EC2, with their ``ec2-user`` login), most cloud hosts fall
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back to ``root`` as the default login on all images, including for operating
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systems (such as Ubuntu) which normally disallow remote ``root`` login.
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For users of these operating systems, it is understandable that a
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:ref:`highstate <running-highstate>` would include configuration to block
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remote ``root`` logins again. However, Salt Cloud may not have finished
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cleaning up its deployment files by the time the minion process has started,
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and kicked off a :ref:`highstate <running-highstate>` run. Users have reported
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errors from Salt Cloud getting locked out while trying to clean up after
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itself.
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The goal of a startup state may be achieved using the Event Reactor. Because a
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minion fires an event when it is able to receive commands, this event can
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effectively be used inside the reactor system instead. The following will point
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the reactor system to the right ``sls`` file:
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.. code-block:: yaml
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reactor:
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- 'salt/cloud/*/created':
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- '/srv/reactor/startup_highstate.sls'
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And the following ``sls`` file will start a :ref:`highstate
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<running-highstate>` run on the target minion:
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.. code-block:: yaml
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# /srv/reactor/startup_highstate.sls
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reactor_highstate:
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cmd.state.apply:
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- tgt: {{ data['name'] }}
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Because this event will not be fired until Salt Cloud has cleaned up after
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itself, the :ref:`highstate <running-highstate>` run will not step on
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salt-cloud's toes. And because every file on the minion is configurable,
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including ``/etc/salt/minion``, the ``startup_states`` can still be configured
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for future minion restarts, if desired.
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