11. Alert Agents¶
11.1. 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 v2c traps
<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>
Note
SNMP alert agent attributes
The timestamp-format
meta-attribute should always be set to
%Y-%m-%d,%H:%M:%S.%01N
when using the SNMP agent, to match the SNMP
standard.
The SNMP agent provides a number of instance attributes in addition to the
one used in the example above. The most useful are trap_version
, which
defaults to 2c
, and trap_community
, which defaults to public
.
See the source code for more details.
Sending cluster events as SNMP v3 traps
<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"/>
<nvpair id="trap_version" name="trap_version" value="3"/>
<nvpair id="trap_community" name="trap_community" value=""/>
<nvpair id="trap_options" name="trap_options"
value="-l authNoPriv -a MD5 -u testuser -A secret1"/>
</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>
Note
SNMP v3 trap configuration
To use SNMP v3, trap_version
must be set to 3
. trap_community
will be ignored.
The example above uses the trap_options
instance attribute to override
the security level, authentication protocol, authentication user, and
authentication password from snmp.conf. These will be passed to the snmptrap
command. Passing the password on the command line is considered insecure;
specify authentication and privacy options suitable for your environment.
Sending cluster events as e-mails
<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>
11.2. Writing an Alert Agent¶
Environment Variable | Description |
---|---|
CRM_alert_kind | The type of alert ( |
CRM_alert_node | Name of affected node |
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. |
CRM_alert_recipient | The configured recipient |
CRM_alert_timestamp | A timestamp created prior to executing the agent, in the
format specified by the |
CRM_alert_timestamp_epoch | The same time as |
CRM_alert_timestamp_usec | The same time as |
CRM_alert_version | The version of Pacemaker sending the alert |
CRM_alert_desc | Detail about event. For |
CRM_alert_nodeid | ID of node whose status changed (provided with |
CRM_alert_rc | The numerical return code of the fencing or resource operation
(provided with |
CRM_alert_task | The requested fencing or resource operation (provided with
|
CRM_alert_exec_time | The (wall-clock) time, in milliseconds, that it took to
execute the action. If the action timed out,
|
CRM_alert_interval | The interval of the resource operation ( |
CRM_alert_rsc | The name of the affected resource ( |
CRM_alert_status | A numerical code used by Pacemaker to represent the operation
result ( |
CRM_alert_target_rc | The expected numerical return code of the operation
( |
CRM_alert_attribute_name | The name of the node attribute that changed ( |
CRM_alert_attribute_value | The new value of the node attribute that changed
( |
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 configuresudo
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-configuredtimestamp-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 havinghacluster
access to the cluster nodes, it is a potential security concern as well, to avoid the possibility of code injection.
Note
ocf:pacemaker:ClusterMon compatibility
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.