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	diff --git a/doc/sphinx/Pacemaker_Explained/resources.rst b/doc/sphinx/Pacemaker_Explained/resources.rst
	index aa7bdb82ad..16d437f71a 100644
	--- a/doc/sphinx/Pacemaker_Explained/resources.rst
	+++ b/doc/sphinx/Pacemaker_Explained/resources.rst
	@@ -1,831 +1,832 @@
	.. _resource:

	Resources
	---------

	.. _s-resource-primitive:

	.. index::
	single: resource

	A resource is a service managed by Pacemaker. The simplest type of resource,
	a primitive, is described in this chapter. More complex forms, such as groups
	and clones, are described in later chapters.

	Every primitive has a resource agent that provides Pacemaker a standardized
	interface for managing the service. This allows Pacemaker to be agnostic about
	the services it manages. Pacemaker doesn't need to understand how the service
	works because it relies on the resource agent to do the right thing when asked.

	Every resource has a standard (also called class) specifying the interface
	that its resource agent follows, and a type identifying the specific service
	being managed.


	.. _s-resource-supported:

	.. index::
	single: resource; standard

	Resource Standards
	##################

	Pacemaker can use resource agents complying with these standards, described in
	more detail below:

	* ocf
	* lsb
	* systemd
	* service
	* stonith

	Support for some standards is controlled by build options and so might not be
	available in any particular build of Pacemaker. The command ``crm_resource
	--list-standards`` will show which standards are supported by the local build.

	.. index::
	single: resource; OCF
	single: OCF; resources
	single: Open Cluster Framework; resources

	Open Cluster Framework
	______________________

	The Open Cluster Framework (OCF) Resource Agent API is a ClusterLabs
	standard for managing services. It is the most preferred since it is
	specifically designed for use in a Pacemaker cluster.

	OCF agents are scripts that support a variety of actions including ``start``,
	``stop``, and ``monitor``. They may accept parameters, making them more
	flexible than other standards. The number and purpose of parameters is left to
	the agent, which advertises them via the ``meta-data`` action.

	Unlike other standards, OCF agents have a provider as well as a standard and
	type.

	For more information, see the "Resource Agents" chapter of *Pacemaker
	Administration* and the `OCF standard
	<https://github.com/ClusterLabs/OCF-spec/tree/main/ra>`_.


	.. _s-resource-supported-systemd:

	.. index::
	single: Resource; Systemd
	single: Systemd; resources

	Systemd
	_______

	Most Linux distributions use `Systemd
	<http://www.freedesktop.org/wiki/Software/systemd>`_ for system initialization
	and service management. Unit files specify how to manage services and are
	usually provided by the distribution.

	-Pacemaker can manage systemd services. Simply create a resource with
	-``systemd`` as the resource standard and the unit file name as the resource
	-type. Do not run ``systemctl enable`` on the unit.
	+Pacemaker can manage systemd units of type service, socket, mount, timer, or
	+path. Simply create a resource with ``systemd`` as the resource standard and
	+the unit file name as the resource type. Do not run ``systemctl enable`` on
	+the unit.

	.. important::

	Make sure that any systemd services to be controlled by the cluster are
	not enabled to start at boot.


	.. index::
	single: resource; LSB
	single: LSB; resources
	single: Linux Standard Base; resources

	Linux Standard Base
	___________________

	LSB resource agents, also known as `SysV-style
	<https://en.wikipedia.org/wiki/Init#SysV-style init scripts>`_, are scripts that
	provide start, stop, and status actions for a service.

	They are provided by some operating system distributions. If a full path is not
	given, they are assumed to be located in a directory specified when your
	Pacemaker software was built (usually ``/etc/init.d``).

	In order to be used with Pacemaker, they must conform to the `LSB specification
	<http://refspecs.linux-foundation.org/LSB_5.0.0/LSB-Core-generic/LSB-Core-generic/iniscrptact.html>`_
	as it relates to init scripts.

	.. warning::

	Some LSB scripts do not fully comply with the standard. For details on how
	to check whether your script is LSB-compatible, see the "Resource Agents"
	chapter of `Pacemaker Administration`. Common problems include:

	* Not implementing the ``status`` action
	* Not observing the correct exit status codes
	* Starting a started resource returns an error
	* Stopping a stopped resource returns an error

	.. important::

	Make sure the host is not configured to start any LSB services at boot
	that will be controlled by the cluster.


	.. index::
	single: Resource; System Services
	single: System Service; resources

	System Services
	_______________

	Since there is more than one type of system service (``systemd`` and ``lsb``),
	Pacemaker supports a special ``service`` alias which intelligently figures out
	which one applies to a given cluster node.

	This is particularly useful when the cluster contains a mix of ``systemd`` and
	``lsb``.

	If the ``service`` standard is specified, Pacemaker will try to find the named
	service as an LSB init script, and if none exists, a systemd unit file.


	.. index::
	single: Resource; STONITH
	single: STONITH; resources

	STONITH
	_______

	The ``stonith`` standard is used for managing fencing devices, discussed later
	in :ref:`fencing`.


	.. _primitive-resource:

	Resource Properties
	###################

	These values tell the cluster which resource agent to use for the resource,
	where to find that resource agent and what standards it conforms to.

	.. table:: Properties of a Primitive Resource
	:widths: 1 4

	+-------------+------------------------------------------------------------------+
	\| Field \| Description \|
	+=============+==================================================================+
	\| id \| .. index:: \|
	\| \| single: id; resource \|
	\| \| single: resource; property, id \|
	\| \| \|
	\| \| Your name for the resource \|
	+-------------+------------------------------------------------------------------+
	\| class \| .. index:: \|
	\| \| single: class; resource \|
	\| \| single: resource; property, class \|
	\| \| \|
	\| \| The standard the resource agent conforms to. Allowed values: \|
	\| \| ``lsb``, ``ocf``, ``service``, ``stonith``, and ``systemd`` \|
	+-------------+------------------------------------------------------------------+
	\| description \| .. index:: \|
	\| \| single: description; resource \|
	\| \| single: resource; property, description \|
	\| \| \|
	\| \| Arbitrary text for user's use (ignored by Pacemaker) \|
	+-------------+------------------------------------------------------------------+
	\| type \| .. index:: \|
	\| \| single: type; resource \|
	\| \| single: resource; property, type \|
	\| \| \|
	\| \| The name of the Resource Agent you wish to use. E.g. \|
	\| \| ``IPaddr`` or ``Filesystem`` \|
	+-------------+------------------------------------------------------------------+
	\| provider \| .. index:: \|
	\| \| single: provider; resource \|
	\| \| single: resource; property, provider \|
	\| \| \|
	\| \| The OCF spec allows multiple vendors to supply the same resource \|
	\| \| agent. To use the OCF resource agents supplied by the Heartbeat \|
	\| \| project, you would specify ``heartbeat`` here. \|
	+-------------+------------------------------------------------------------------+

	The XML definition of a resource can be queried with the crm_resource tool.
	For example:

	.. code-block:: none

	# crm_resource --resource Email --query-xml

	might produce:

	.. topic:: A system resource definition

	.. code-block:: xml

	<primitive id="Email" class="service" type="exim"/>

	.. note::

	One of the main drawbacks to system services (lsb and systemd)
	is that they do not allow parameters

	.. topic:: An OCF resource definition

	.. code-block:: xml

	<primitive id="Public-IP" class="ocf" type="IPaddr" provider="heartbeat">
	<instance_attributes id="Public-IP-params">
	<nvpair id="Public-IP-ip" name="ip" value="192.0.2.2"/>
	</instance_attributes>
	</primitive>

	.. _resource_options:

	Resource Options
	################

	Resources have two types of options: meta-attributes and instance attributes.
	Meta-attributes apply to any type of resource, while instance attributes
	are specific to each resource agent.

	Resource Meta-Attributes
	________________________

	Meta-attributes are used by the cluster to decide how a resource should
	behave and can be easily set using the ``--meta`` option of the
	crm_resource command.

	.. list-table:: Meta-attributes of a Primitive Resource
	:class: longtable
	:widths: 2 2 3 5
	:header-rows: 1

	* - Name
	- Type
	- Default
	- Description

	* - .. _meta_priority:

	.. index::
	single: priority; resource option
	single: resource; option, priority

	priority
	- :ref:`score <score>`
	- 0
	- If not all resources can be active, the cluster will stop lower-priority
	resources in order to keep higher-priority ones active.

	* - .. _meta_critical:

	.. index::
	single: critical; resource option
	single: resource; option, critical

	critical
	- :ref:`boolean <boolean>`
	- true
	- Use this value as the default for ``influence`` in all
	:ref:`colocation constraints <s-resource-colocation>` involving this
	resource, as well as in the implicit colocation constraints created if
	this resource is in a :ref:`group <group-resources>`. For details, see
	:ref:`s-coloc-influence`. (since 2.1.0)

	* - .. _meta_target_role:

	.. index::
	single: target-role; resource option
	single: resource; option, target-role

	target-role
	- :ref:`enumeration <enumeration>`
	- Started
	- What state should the cluster attempt to keep this resource in? Allowed
	values:

	* ``Stopped:`` Force the resource to be stopped
	* ``Started:`` Allow the resource to be started (and in the case of
	:ref:`promotable <s-resource-promotable>` clone resources, promoted if
	appropriate)
	* ``Unpromoted:`` Allow the resource to be started, but only in the
	unpromoted role if the resource is
	:ref:`promotable <s-resource-promotable>`
	* ``Promoted:`` Equivalent to ``Started``

	* - .. _meta_is_managed:
	.. _is_managed:

	.. index::
	single: is-managed; resource option
	single: resource; option, is-managed

	is-managed
	- :ref:`boolean <boolean>`
	- true
	- If false, the cluster will not start, stop, promote, or demote the
	resource on any node. Recurring actions for the resource are
	unaffected. Maintenance mode overrides this setting.

	* - .. _meta_maintenance:
	.. _rsc_maintenance:

	.. index::
	single: maintenance; resource option
	single: resource; option, maintenance

	maintenance
	- :ref:`boolean <boolean>`
	- false
	- If true, the cluster will not start, stop, promote, or demote the
	resource on any node, and will pause any recurring monitors (except those
	specifying ``role`` as ``Stopped``). If true, the
	:ref:`maintenance-mode <maintenance_mode>` cluster option or
	:ref:`maintenance <node_maintenance>` node attribute overrides this.

	* - .. _meta_resource_stickiness:
	.. _resource-stickiness:

	.. index::
	single: resource-stickiness; resource option
	single: resource; option, resource-stickiness

	resource-stickiness
	- :ref:`score <score>`
	- 1 for individual clone instances, 0 for all other resources
	- A score that will be added to the current node when a resource is already
	active. This allows running resources to stay where they are, even if
	they would be placed elsewhere if they were being started from a stopped
	state.

	* - .. _meta_requires:
	.. _requires:

	.. index::
	single: requires; resource option
	single: resource; option, requires

	requires
	- :ref:`enumeration <enumeration>`
	- ``quorum`` for resources with a ``class`` of ``stonith``, otherwise
	``unfencing`` if unfencing is active in the cluster, otherwise
	``fencing`` if ``stonith-enabled`` is true, otherwise ``quorum``
	- Conditions under which the resource can be started. Allowed values:

	* ``nothing:`` The cluster can always start this resource.
	* ``quorum:`` The cluster can start this resource only if a majority of
	the configured nodes are active.
	* ``fencing:`` The cluster can start this resource only if a majority of
	the configured nodes are active and any failed or unknown nodes have
	been :ref:`fenced <fencing>`.
	* ``unfencing:`` The cluster can only start this resource if a majority
	of the configured nodes are active and any failed or unknown nodes
	have been fenced and only on nodes that have been
	:ref:`unfenced <unfencing>`.

	* - .. _meta_migration_threshold:

	.. index::
	single: migration-threshold; resource option
	single: resource; option, migration-threshold

	migration-threshold
	- :ref:`score <score>`
	- INFINITY
	- How many failures may occur for this resource on a node, before this node
	is marked ineligible to host this resource. A value of 0 indicates that
	this feature is disabled (the node will never be marked ineligible); by
	contrast, the cluster treats ``INFINITY`` (the default) as a very large
	but finite number. This option has an effect only if the failed operation
	specifies ``on-fail`` as ``restart`` (the default), and additionally for
	failed ``start`` operations, if the cluster property
	``start-failure-is-fatal`` is ``false``.

	* - .. _meta_failure_timeout:

	.. index::
	single: failure-timeout; resource option
	single: resource; option, failure-timeout

	failure-timeout
	- :ref:`duration <duration>`
	- 0
	- Ignore previously failed resource actions after this much time has
	passed without new failures (potentially allowing the resource back to
	the node on which it failed, if it previously reached its
	``migration-threshold`` there). A value of 0 indicates that failures do
	not expire. WARNING: If this value is low, and pending cluster
	activity prevents the cluster from responding to a failure within that
	time, then the failure will be ignored completely and will not cause
	recovery of the resource, even if a recurring action continues to report
	failure. It should be at least greater than the longest :ref:`action
	timeout <op_timeout>` for all resources in the cluster. A value in hours
	or days is reasonable.

	* - .. _meta_multiple_active:

	.. index::
	single: multiple-active; resource option
	single: resource; option, multiple-active

	multiple-active
	- :ref:`enumeration <enumeration>`
	- stop_start
	- What should the cluster do if it ever finds the resource active on more
	than one node? Allowed values:

	* ``block``: mark the resource as unmanaged
	* ``stop_only``: stop all active instances and leave them that way
	* ``stop_start``: stop all active instances and start the resource in one
	location only
	* ``stop_unexpected``: stop all active instances except where the
	resource should be active (this should be used only when extra
	instances are not expected to disrupt existing instances, and the
	resource agent's monitor of an existing instance is capable of
	detecting any problems that could be caused; note that any resources
	ordered after this will still need to be restarted) (since 2.1.3)

	* - .. _meta_allow_migrate:

	.. index::
	single: allow-migrate; resource option
	single: resource; option, allow-migrate

	allow-migrate
	- :ref:`boolean <boolean>`
	- true for ``ocf:pacemaker:remote`` resources, false otherwise
	- Whether the cluster should try to "live migrate" this resource when it
	needs to be moved (see :ref:`live-migration`)

	* - .. _meta_allow_unhealthy_nodes:

	.. index::
	single: allow-unhealthy-nodes; resource option
	single: resource; option, allow-unhealthy-nodes

	allow-unhealthy-nodes
	- :ref:`boolean <boolean>`
	- false
	- Whether the resource should be able to run on a node even if the node's
	health score would otherwise prevent it (see :ref:`node-health`) *(since
	2.1.3)*

	* - .. _meta_container_attribute_target:

	.. index::
	single: container-attribute-target; resource option
	single: resource; option, container-attribute-target

	container-attribute-target
	- :ref:`enumeration <enumeration>`
	-
	- Specific to bundle resources; see :ref:`s-bundle-attributes`

	As an example of setting resource options, if you performed the following
	commands on an LSB Email resource:

	.. code-block:: none

	# crm_resource --meta --resource Email --set-parameter priority --parameter-value 100
	# crm_resource -m -r Email -p multiple-active -v block

	the resulting resource definition might be:

	.. topic:: An LSB resource with cluster options

	.. code-block:: xml

	<primitive id="Email" class="lsb" type="exim">
	<meta_attributes id="Email-meta_attributes">
	<nvpair id="Email-meta_attributes-priority" name="priority" value="100"/>
	<nvpair id="Email-meta_attributes-multiple-active" name="multiple-active" value="block"/>
	</meta_attributes>
	</primitive>

	In addition to the cluster-defined meta-attributes described above, you may
	also configure arbitrary meta-attributes of your own choosing. Most commonly,
	this would be done for use in :ref:`rules <rules>`. For example, an IT department
	might define a custom meta-attribute to indicate which company department each
	resource is intended for. To reduce the chance of name collisions with
	cluster-defined meta-attributes added in the future, it is recommended to use
	a unique, organization-specific prefix for such attributes.

	.. _s-resource-defaults:

	Setting Global Defaults for Resource Meta-Attributes
	____________________________________________________

	To set a default value for a resource option, add it to the
	``rsc_defaults`` section with ``crm_attribute``. For example,

	.. code-block:: none

	# crm_attribute --type rsc_defaults --name is-managed --update false

	would prevent the cluster from starting or stopping any of the
	resources in the configuration (unless of course the individual
	resources were specifically enabled by having their ``is-managed`` set to
	``true``).

	Resource Instance Attributes
	____________________________

	The resource agents of some resource standards (lsb and systemd not among
	them) can be given parameters which determine how they behave and which
	instance of a service they control.

	If your resource agent supports parameters, you can add them with the
	``crm_resource`` command. For example,

	.. code-block:: none

	# crm_resource --resource Public-IP --set-parameter ip --parameter-value 192.0.2.2

	would create an entry in the resource like this:

	.. topic:: An example OCF resource with instance attributes

	.. code-block:: xml

	<primitive id="Public-IP" class="ocf" type="IPaddr" provider="heartbeat">
	<instance_attributes id="params-public-ip">
	<nvpair id="public-ip-addr" name="ip" value="192.0.2.2"/>
	</instance_attributes>
	</primitive>

	For an OCF resource, the result would be an environment variable
	called ``OCF_RESKEY_ip`` with a value of ``192.0.2.2``.

	The list of instance attributes supported by an OCF resource agent can be
	found by calling the resource agent with the ``meta-data`` command.
	The output contains an XML description of all the supported
	attributes, their purpose and default values.

	.. topic:: Displaying the metadata for the Dummy resource agent template

	.. code-block:: none

	# export OCF_ROOT=/usr/lib/ocf
	# $OCF_ROOT/resource.d/pacemaker/Dummy meta-data

	.. code-block:: xml

	<?xml version="1.0"?>
	<!DOCTYPE resource-agent SYSTEM "ra-api-1.dtd">
	<resource-agent name="Dummy" version="2.0">
	<version>1.1</version>

	<longdesc lang="en">
	This is a dummy OCF resource agent. It does absolutely nothing except keep track
	of whether it is running or not, and can be configured so that actions fail or
	take a long time. Its purpose is primarily for testing, and to serve as a
	template for resource agent writers.
	</longdesc>
	<shortdesc lang="en">Example stateless resource agent</shortdesc>

	<parameters>
	<parameter name="state" unique-group="state">
	<longdesc lang="en">
	Location to store the resource state in.
	</longdesc>
	<shortdesc lang="en">State file</shortdesc>
	<content type="string" default="/var/run/Dummy-RESOURCE_ID.state" />
	</parameter>

	<parameter name="passwd" reloadable="1">
	<longdesc lang="en">
	Fake password field
	</longdesc>
	<shortdesc lang="en">Password</shortdesc>
	<content type="string" default="" />
	</parameter>

	<parameter name="fake" reloadable="1">
	<longdesc lang="en">
	Fake attribute that can be changed to cause a reload
	</longdesc>
	<shortdesc lang="en">Fake attribute that can be changed to cause a reload</shortdesc>
	<content type="string" default="dummy" />
	</parameter>

	<parameter name="op_sleep" reloadable="1">
	<longdesc lang="en">
	Number of seconds to sleep during operations. This can be used to test how
	the cluster reacts to operation timeouts.
	</longdesc>
	<shortdesc lang="en">Operation sleep duration in seconds.</shortdesc>
	<content type="string" default="0" />
	</parameter>

	<parameter name="fail_start_on" reloadable="1">
	<longdesc lang="en">
	Start, migrate_from, and reload-agent actions will return failure if running on
	the host specified here, but the resource will run successfully anyway (future
	monitor calls will find it running). This can be used to test on-fail=ignore.
	</longdesc>
	<shortdesc lang="en">Report bogus start failure on specified host</shortdesc>
	<content type="string" default="" />
	</parameter>
	<parameter name="envfile" reloadable="1">
	<longdesc lang="en">
	If this is set, the environment will be dumped to this file for every call.
	</longdesc>
	<shortdesc lang="en">Environment dump file</shortdesc>
	<content type="string" default="" />
	</parameter>

	</parameters>

	<actions>
	<action name="start" timeout="20s" />
	<action name="stop" timeout="20s" />
	<action name="monitor" timeout="20s" interval="10s" depth="0"/>
	<action name="reload" timeout="20s" />
	<action name="reload-agent" timeout="20s" />
	<action name="migrate_to" timeout="20s" />
	<action name="migrate_from" timeout="20s" />
	<action name="validate-all" timeout="20s" />
	<action name="meta-data" timeout="5s" />
	</actions>
	</resource-agent>


	Pacemaker Remote Resources
	##########################

	:ref:`Pacemaker Remote <pacemaker_remote>` nodes are defined by resources.

	.. _remote_nodes:

	.. index::
	single: node; remote
	single: Pacemaker Remote; remote node
	single: remote node

	Remote nodes
	____________

	A remote node is defined by a connection resource using the special,
	built-in ocf:pacemaker:remote resource agent.

	.. list-table:: ocf:pacemaker:remote Instance Attributes
	:class: longtable
	:widths: 2 2 3 5
	:header-rows: 1

	* - Name
	- Type
	- Default
	- Description

	* - .. _remote_server:

	.. index::
	pair: remote node; server

	server
	- :ref:`text <text>`
	- resource ID
	- Hostname or IP address used to connect to the remote node. The remote
	executor on the remote node must be configured to accept connections on
	this address.

	* - .. _remote_port:

	.. index::
	pair: remote node; port

	port
	- :ref:`port <port>`
	- 3121
	- TCP port on the remote node used for its Pacemaker Remote connection.
	The remote executor on the remote node must be configured to listen on
	this port.

	* - .. _remote_reconnect_interval:

	.. index::
	pair: remote node; reconnect_interval

	reconnect_interval
	- :ref:`duration <duration>`
	- 0
	- If positive, the cluster will attempt to reconnect to a remote node
	at this interval after an active connection has been lost. Otherwise,
	the cluster will attempt to reconnect immediately (after any fencing, if
	needed).

	.. _guest_nodes:

	.. index::
	single: node; guest
	single: Pacemaker Remote; guest node
	single: guest node

	Guest Nodes
	___________

	When configuring a virtual machine as a guest node, the virtual machine is
	created using one of the usual resource agents for that purpose (for example,
	ocf:heartbeat:VirtualDomain or ocf:heartbeat:Xen), with additional
	meta-attributes.

	No restrictions are enforced on what agents may be used to create a guest node,
	but obviously the agent must create a distinct environment capable of running
	the remote executor and cluster resources. An additional requirement is that
	fencing the node hosting the guest node resource must be sufficient for
	ensuring the guest node is stopped. This means that not all hypervisors
	supported by VirtualDomain may be used to create guest nodes; if the guest
	can survive the hypervisor being fenced, it is unsuitable for use as a guest
	node.

	.. list-table:: Guest node meta-attributes
	:class: longtable
	:widths: 2 2 3 5
	:header-rows: 1

	* - Name
	- Type
	- Default
	- Description

	* - .. _meta_remote_node:

	.. index::
	single: remote-node; resource option
	single: resource; option, remote-node

	remote-node
	- :ref:`text <text>`
	-
	- If specified, this resource defines a guest node using this node name.
	The guest must be configured to run the remote executor when it is
	started. This value must not be the same as any resource or node ID.

	* - .. _meta_remote_addr:

	.. index::
	single: remote-addr; resource option
	single: resource; option, remote-addr

	remote-addr
	- :ref:`text <text>`
	- value of ``remote-node``
	- If ``remote-node`` is specified, the hostname or IP address used to
	connect to the guest. The remote executor on the guest must be
	configured to accept connections on this address.

	* - .. _meta_remote_port:

	.. index::
	single: remote-port; resource option
	single: resource; option, remote-port

	remote-port
	- :ref:`port <port>`
	- 3121
	- If ``remote-node`` is specified, the port on the guest used for its
	Pacemaker Remote connection. The remote executor on the guest must be
	configured to listen on this port.

	* - .. _meta_remote_connect_timeout:

	.. index::
	single: remote-connect-timeout; resource option
	single: resource; option, remote-connect-timeout

	remote-connect-timeout
	- :ref:`timeout <timeout>`
	- 60s
	- If ``remote-node`` is specified, how long before a pending guest
	connection will time out.

	* - .. _meta_remote_allow_migrate:

	.. index::
	single: remote-allow-migrate; resource option
	single: resource; option, remote-allow-migrate

	remote-allow-migrate
	- :ref:`boolean <boolean>`
	- true
	- If ``remote-node`` is specified, this acts as the ``allow-migrate``
	meta-attribute for its implicitly created remote connection resource
	(``ocf:pacemaker:remote``).

	Removing Pacemaker Remote Nodes
	_______________________________

	If the resource creating a remote node connection or guest node is removed from
	the configuration, status output may continue to show the affected node (as
	offline).

	If you want to get rid of that output, run the following command, replacing
	``$NODE_NAME`` appropriately:

	.. code-block:: none

	# crm_node --force --remove $NODE_NAME

	.. WARNING::

	Be absolutely sure that there are no references to the node's resource in the
	configuration before running the above command.

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