:compat-mode: legacy
= Alerts =
////
We prefer [[ch-alerts]], but older versions of asciidoc don't deal well
with that construct for chapter headings
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anchor:ch-alerts[Chapter 7, Alerts]
indexterm:[Resource,Alerts]
'Alerts' may be configured to take some external action when a cluster event
occurs (node failure, resource starting or stopping, etc.).
== Alert Agents ==
As with resource agents, the cluster calls an external program (an
'alert agent') to handle alerts. The cluster passes information about the event
to the agent via environment variables. Agents can do anything
desired with this information (send an e-mail, log to a file,
update a monitoring system, etc.).
.Simple alert configuration
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="my-alert" path="/path/to/my-script.sh" />
</alerts>
</configuration>
-----
=====
In the example above, the cluster will call +my-script.sh+ for each event.
Multiple alert agents may be configured; the cluster will call all of them for
each event.
Alert agents will be called only on cluster nodes. They will be called for
events involving Pacemaker Remote nodes, but they will never be called _on_
those nodes.
== Alert Recipients ==
Usually alerts are directed towards a recipient. Thus each alert may be additionally configured with one or more recipients.
The cluster will call the agent separately for each recipient.
.Alert configuration with recipient
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="my-alert" path="/path/to/my-script.sh">
<recipient id="my-alert-recipient" value="some-address"/>
</alert>
</alerts>
</configuration>
-----
=====
In the above example, the cluster will call +my-script.sh+ for each event,
passing the recipient +some-address+ as an environment variable.
The recipient may be anything the alert agent can recognize --
an IP address, an e-mail address, a file name, whatever the particular
agent supports.
== Alert Meta-Attributes ==
As with resource agents, meta-attributes can be configured for alert agents
to affect how Pacemaker calls them.
.Meta-Attributes of an Alert
[width="95%",cols="m,1,<2",options="header",align="center"]
|=========================================================
|Meta-Attribute
|Default
|Description
|timestamp-format
|%H:%M:%S.%06N
|Format the cluster will use when sending the event's timestamp to the agent.
This is a string as used with the `date(1)` command.
indexterm:[Alert,Option,timestamp-format]
|timeout
|30s
|If the alert agent does not complete within this amount of time, it will be
terminated.
indexterm:[Alert,Option,timeout]
|=========================================================
Meta-attributes can be configured per alert agent and/or per recipient.
.Alert configuration with meta-attributes
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="my-alert" path="/path/to/my-script.sh">
<meta_attributes id="my-alert-attributes">
<nvpair id="my-alert-attributes-timeout" name="timeout"
value="15s"/>
</meta_attributes>
<recipient id="my-alert-recipient1" value="someuser@example.com">
<meta_attributes id="my-alert-recipient1-attributes">
<nvpair id="my-alert-recipient1-timestamp-format"
name="timestamp-format" value="%D %H:%M"/>
</meta_attributes>
</recipient>
<recipient id="my-alert-recipient2" value="otheruser@example.com">
<meta_attributes id="my-alert-recipient2-attributes">
<nvpair id="my-alert-recipient2-timestamp-format"
name="timestamp-format" value="%c"/>
</meta_attributes>
</recipient>
</alert>
</alerts>
</configuration>
-----
=====
In the above example, the +my-script.sh+ will get called twice for each event,
with each call using a 15-second timeout. One call will be passed the recipient
+someuser@example.com+ and a timestamp in the format +%D %H:%M+, while the
other call will be passed the recipient +otheruser@example.com+ and a timestamp
in the format +%c+.
== Alert Instance Attributes ==
As with resource agents, agent-specific configuration values may be configured
as instance attributes. These will be passed to the agent as additional
environment variables. The number, names and allowed values of these
instance attributes are completely up to the particular agent.
.Alert configuration with instance attributes
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="my-alert" path="/path/to/my-script.sh">
<meta_attributes id="my-alert-attributes">
<nvpair id="my-alert-attributes-timeout" name="timeout"
value="15s"/>
</meta_attributes>
<instance_attributes id="my-alert-options">
<nvpair id="my-alert-options-debug" name="debug" value="false"/>
</instance_attributes>
<recipient id="my-alert-recipient1" value="someuser@example.com"/>
</alert>
</alerts>
</configuration>
-----
=====
== Alert Filters ==
By default, an alert agent will be called for node events, fencing events, and
resource events. An agent may choose to ignore certain types of events, but
there is still the overhead of calling it for those events. To eliminate that
overhead, you may select which types of events the agent should receive.
.Alert configuration to receive only node events and fencing events
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="my-alert" path="/path/to/my-script.sh">
<select>
<select_nodes />
<select_fencing />
</select>
<recipient id="my-alert-recipient1" value="someuser@example.com"/>
</alert>
</alerts>
</configuration>
-----
=====
The possible options within +<select>+ are +<select_nodes>+,
+<select_fencing>+, +<select_resources>+, and +<select_attributes>+.
With +<select_attributes>+ (the only event type not enabled by default), the
agent will receive alerts when a node attribute changes. If you wish the agent
to be called only when certain attributes change, you can configure that as well.
.Alert configuration to be called when certain node attributes change
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="my-alert" path="/path/to/my-script.sh">
<select>
<select_attributes>
<attribute id="alert-standby" name="standby" />
<attribute id="alert-shutdown" name="shutdown" />
</select_attributes>
</select>
<recipient id="my-alert-recipient1" value="someuser@example.com"/>
</alert>
</alerts>
</configuration>
-----
=====
Node attribute alerts are currently considered experimental. Alerts may be
limited to attributes set via attrd_updater, and agents may be called multiple
times with the same attribute value.
== Using the Sample Alert Agents ==
Pacemaker provides several sample alert agents, installed in
+/usr/share/pacemaker/alerts+ by default.
While these sample scripts may be copied and used as-is, they are provided
mainly as templates to be edited to suit your purposes.
See their source code for the full set of instance attributes they support.
.Sending cluster events as SNMP traps
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="snmp_alert" path="/path/to/alert_snmp.sh">
<instance_attributes id="config_for_alert_snmp">
<nvpair id="trap_node_states" name="trap_node_states" value="all"/>
</instance_attributes>
<meta_attributes id="config_for_timestamp">
<nvpair id="ts_fmt" name="timestamp-format"
value="%Y-%m-%d,%H:%M:%S.%01N"/>
</meta_attributes>
<recipient id="snmp_destination" value="192.168.1.2"/>
</alert>
</alerts>
</configuration>
-----
=====
.Sending cluster events as e-mails
=====
[source,XML]
-----
<configuration>
<alerts>
<alert id="smtp_alert" path="/path/to/alert_smtp.sh">
<instance_attributes id="config_for_alert_smtp">
<nvpair id="email_sender" name="email_sender"
value="donotreply@example.com"/>
</instance_attributes>
<recipient id="smtp_destination" value="admin@example.com"/>
</alert>
</alerts>
</configuration>
-----
=====
== Writing an Alert Agent ==
.Environment variables passed to alert agents
[width="95%",cols="m,<2",options="header",align="center"]
|=========================================================
|Environment Variable
|Description
|CRM_alert_kind
|The type of alert (+node+, +fencing+, +resource+, or +attribute+)
indexterm:[Environment Variable,CRM_alert_,kind]
|CRM_alert_version
|The version of Pacemaker sending the alert
indexterm:[Environment Variable,CRM_alert_,version]
|CRM_alert_recipient
|The configured recipient
indexterm:[Environment Variable,CRM_alert_,recipient]
|CRM_alert_node_sequence
|A sequence number increased whenever an alert is being issued on the
local node, which can be used to reference the order in which alerts have been
issued by Pacemaker. An alert for an event that happened later in time
reliably has a higher sequence number than alerts for earlier events.
Be aware that this number has no cluster-wide meaning.
indexterm:[Environment Variable,CRM_alert_node_,sequence]
|CRM_alert_timestamp
|A timestamp created prior to executing the agent, in the format
specified by the +timestamp-format+ meta-attribute. This allows the agent
to have a reliable, high-precision time of when the event occurred,
regardless of when the agent itself was invoked (which could potentially
be delayed due to system load, etc.).
indexterm:[Environment Variable,CRM_alert_,timestamp]
|CRM_alert_timestamp_epoch
|The same time as +CRM_alert_timestamp+, expressed as the integer number of
seconds since January 1, 1970. This (along with +CRM_alert_timestamp_usec+)
can be useful for alert agents that need to format time in a specific way
rather than let the user configure it.
indexterm:[Environment Variable,CRM_alert_,timestamp_epoch]
|CRM_alert_timestamp_usec
|The same time as +CRM_alert_timestamp+, expressed as the integer number of
microseconds since +CRM_alert_timestamp_epoch+.
indexterm:[Environment Variable,CRM_alert_,timestamp_usec]
|CRM_alert_node
|Name of affected node
indexterm:[Environment Variable,CRM_alert_,node]
|CRM_alert_desc
|Detail about event. For +node+ alerts, this is the node's current state
(+member+ or +lost+). For +fencing+ alerts, this is a summary of the
requested fencing operation, including origin, target, and fencing operation
error code, if any. For +resource+ alerts, this is a readable string
equivalent of +CRM_alert_status+.
indexterm:[Environment Variable,CRM_alert_,desc]
|CRM_alert_nodeid
|ID of node whose status changed (provided with +node+ alerts only)
indexterm:[Environment Variable,CRM_alert_,nodeid]
|CRM_alert_task
|The requested fencing or resource operation
(provided with +fencing+ and +resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,task]
|CRM_alert_rc
|The numerical return code of the fencing or resource operation
(provided with +fencing+ and +resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,rc]
|CRM_alert_rsc
|The name of the affected resource (+resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,rsc]
|CRM_alert_interval
|The interval of the resource operation (+resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,interval]
|CRM_alert_target_rc
|The expected numerical return code of the operation (+resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,target_rc]
|CRM_alert_status
|A numerical code used by Pacemaker to represent the operation result
(+resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,status]
|CRM_alert_exec_time
|The (wall-clock) time, in milliseconds, that it took to execute the action. If
the action timed out, +CRM_alert_status+ will be 2, +CRM_alert_desc+ will be
"Timed Out", and this value will be the action timeout. May not be supported
on all platforms. (+resource+ alerts only)
indexterm:[Environment Variable,CRM_alert_,exec_time]
|CRM_alert_attribute_name
|The name of the node attribute that changed (+attribute+ alerts only)
indexterm:[Environment Variable,CRM_alert_,attribute_name]
|CRM_alert_attribute_value
|The new value of the node attribute that changed (+attribute+ alerts only)
indexterm:[Environment Variable,CRM_alert_,attribute_value]
|=========================================================
Special concerns when writing alert agents:
* Alert agents may be called with no recipient (if none is configured),
so the agent must be able to handle this situation, even if it
only exits in that case. (Users may modify the configuration in
stages, and add a recipient later.)
* If more than one recipient is configured for an alert, the alert agent will
be called once per recipient. If an agent is not able to run concurrently, it
should be configured with only a single recipient. The agent is free,
however, to interpret the recipient as a list.
* When a cluster event occurs, all alerts are fired off at the same time as
separate processes. Depending on how many alerts and recipients are
configured, and on what is done within the alert agents,
a significant load burst may occur. The agent could be written to take
this into consideration, for example by queueing resource-intensive actions
into some other instance, instead of directly executing them.
* Alert agents are run as the +hacluster+ user, which has a minimal set
of permissions. If an agent requires additional privileges, it is
recommended to configure +sudo+ to allow the agent to run the necessary
commands as another user with the appropriate privileges.
* As always, take care to validate and sanitize user-configured parameters,
such as CRM_alert_timestamp (whose content is specified by the
user-configured timestamp-format), CRM_alert_recipient, and all instance
attributes. Mostly this is needed simply to protect against configuration
errors, but if some user can modify the CIB without having hacluster-level
access to the cluster nodes, it is a potential security concern as well, to
avoid the possibility of code injection.
[NOTE]
=====
The alerts interface is designed to be backward compatible with the external
scripts interface used by the +ocf:pacemaker:ClusterMon+ resource, which is
now deprecated. To preserve this compatibility, the environment variables
passed to alert agents are available prepended with +CRM_notify_+
as well as +CRM_alert_+. One break in compatibility is that ClusterMon ran
external scripts as the +root+ user, while alert agents are run as the
+hacluster+ user.
=====