Analysis and maintenance
This section covers the following topics.
Topics
Viewing the cluster state
You can view the state of the cluster based on your operating system.
Operating system based
There are multiple operating system commands that can be run as root or as a user with appropriate permissions. The commands enable you to get an overview of the status of the cluster and its services. See the following commands for more details.
# pcs status
Sample output:
# pcs status Cluster name: rhelha Stack: corosync Current DC: rhxhost01 (version 1.1.23-1.el7_9.1-9acf116022) - partition with quorum Last updated: Sat Jan 14 20:55:26 2023 Last change: Sat Jan 14 17:45:40 2023 by hacluster via crmd on rhxhost01 2 nodes configured 7 resource instances configured Online: [ rhxhost01 rhxhost02 ] Full list of resources: rsc_aws_stonith_RHX (stonith:fence_aws): Started rhxhost01 Resource Group: grp_RHX_ASCS00 rsc_fs_RHX_ASCS00 (ocf::heartbeat:Filesystem): Started rhxhost01 rsc_ip_RHX_ASCS00 (ocf::heartbeat:aws-vpc-move-ip): Started rhxhost01 rsc_sap_RHX_ASCS00 (ocf::heartbeat:SAPInstance): Started rhxhost01 Resource Group: grp_RHX_ERS10 rsc_fs_RHX_ERS10 (ocf::heartbeat:Filesystem): Started rhxhost02 rsc_ip_RHX_ERS10 (ocf::heartbeat:aws-vpc-move-ip): Started rhxhost02 rsc_sap_RHX_ERS10 (ocf::heartbeat:SAPInstance): Started rhxhost02 Daemon Status: corosync: active/enabled pacemaker: active/enabled pcsd: active/enabled
The following table provides a list of useful commands.
Command | Description |
---|---|
crm_mon |
Display cluster status on the console with updates as they occur |
crm_mon -1 |
Display cluster status on the console just once, and exit |
crm_mon -Arnf |
-A Display node attributes -n Group resources by node -r Display inactive resources -f Display resource fail counts |
pcs help |
View more options |
crm_mon --help-all |
View more options |
Performing planned maintenance
The cluster connector is designed to integrate the cluster with SAP start framework
(sapstartsrv
), including the rolling kernel switch (RKS) awareness. Stopping
and starting the SAP system using sapcontrol
should not result in any cluster
remediation activities as these actions are not interpreted as failures. Validate this
scenario when testing your cluster.
There are different options to perform planned maintenance on nodes, resources, and the cluster.
Maintenance mode
Use maintenance mode if you want to make any changes to the configuration or take control of the resources and nodes in the cluster. In most cases, this is the safest option for administrative tasks.
Placing a node in standby mode
To perform maintenance on the cluster without system outage, the recommended method for moving active resources is to place the node you want to remove from the cluster in standby mode.
# pcs node standby
rhxhost01
The cluster will cleanly relocate resources, and you can perform activities, including reboots on the node in standby mode. When maintenance activities are complete, you can re-introduce the node with the following command.
# pcs node unstandby
rhxhost01
Moving a resource (not recommended)
Moving individual resources is not recommended because of the migration or move constraints that are created to lock the resource in its new location. These can be cleared as described in the info messages, but this introduces an additional setup.
rhxhost01
:~ # pcs resource movegrp_RHX_ASCS00 rhxhost02
Note: Move constraint created forgrp_RHX_ASCS00
torhxhost02
Note: Use “pcs constraint location remove cli-prefer-grp_RHX_ASCS00
” to remove this constraint.
Post-failure analysis and reset
A review must be conducted after each failure to understand the source of failure as well the reaction of the cluster. In most scenarios, the cluster prevents an application outage. However, a manual action is often required to reset the cluster to a protective state for any subsequent failures.
Checking the logs
Start your troubleshooting by checking the operating system log
/var/log/messages
. You can find additional information in the cluster and
pacemaker logs.
-
Cluster logs – updated in the
corosync.conf
file located at/etc/corosync/corosync.conf
. -
Pacemaker logs – updated in the
pacemaker.log
file located at/var/log/pacemaker
. -
Resource agents –
/var/log/messages
Application based failures can be investigated in the SAP work directory.
Cleanup pcs status
If failed actions are reported using the crm status
command, and if they
have already been investigated, then you can clear the reports with the following
command.
pcs resource cleanup <resource> <hostname>
pcs stonith cleanup
Note
Use the help command to understand the impact of these commands.
Restart failed nodes or pacemaker
It is recommended that failed (or fenced) nodes are not automatically restarted. It gives operators a chance to investigate the failure, and ensure that the cluster doesn't make assumptions about the state of resources.
You need to restart the instance or the pacemaker service based on your approach.
Further analysis
If further analysis from Red Hat is required, they may request an sos report, or logs of
the cluster from crm_report
or pcs cluster report
.
sos report – The sos report command is a tool that collects
configuration details, system information, and diagnostic information from a Red Hat
Enterprise Linux system. For instance, the running kernel version, loaded modules, and
system and service configuration files. The command also runs external programs to collect
further information, and stores this output in the resulting archive. For more information,
see Red Hat documentation What is an sos report and is it different from an sosreport?
crm report – collects the cluster logs/information from the
node where the command is being run. For more information, see Red Hat documentation How do I generate a crm_report from a
RHEL 6 or 7 High Availability cluster node using pacemaker?
crm_report
pcs cluster report – command collects the cluster logs/information from all the nodes involved in the cluster.
pcs cluster report <destination_path>
Note
The pcs cluster report
command relies on passwordless ssh being set up
between the nodes.
Alerting and monitoring
This section covers the following topics.
Using Amazon CloudWatch Application Insights
For monitoring and visibility of cluster state and actions, Application Insights includes metrics for monitoring enqueue replication state, cluster metrics, and SAP and high availability checks. Additional metrics, such as EFS and CPU monitoring can also help with root cause analysis.
For more information, see Get started with Amazon CloudWatch Application Insights and SAP NetWeaver High Availability on Amazon EC2.
Using the cluster alert agents
Within the cluster configuration, you can call an external program (an alert agent) to handle alerts. This is a push notification. It passes information about the event via environment variables.
The agents can then be configured to send emails, log to a file, update a monitoring system, etc. For example, the following script can be used to access Amazon SNS.
#!/bin/sh # # alert_sns.sh # modified from /usr/share/pacemaker/alerts/alert_smtp.sh.sample # ############################################################################## # SETUP # * Create an SNS Topic and subscribe email or chatbot # * Note down the ARN for the SNS topic # * Give the IAM Role attached to both Instances permission to publish to the SNS Topic # * Ensure the aws cli is installed # * Copy this file to /usr/share/pacemaker/alerts/alert_sns.sh or other location on BOTH nodes # * Ensure the permissions allow for hacluster and root to execute the script # * Run the following as root (modify file location if necessary and replace SNS ARN): # SLES: # crm configure alert aws_sns_alert /usr/share/pacemaker/alerts/alert_sns.sh meta timeout=30s timestamp-format="%Y-%m-%d_%H:%M:%S" to
{ arn:aws:sns:region:account-id:myPacemakerAlerts }
# RHEL: # pcs alert create id=aws_sns_alert path=/usr/share/pacemaker/alerts/alert_sns.sh meta timeout=30s timestamp-format="%Y-%m-%d_%H:%M:%S" # pcs alert recipient add aws_sns_alert value=arn:aws:sns:region:account-id:myPacemakerAlerts
# Additional information to send with the alerts. node_name=`uname -n` sns_body=`env | grep CRM_alert_` # Required for SNS TOKEN=$(/usr/bin/curl --noproxy '*' -s -X PUT "http://169.254.169.254/latest/api/token" -H "X-aws-ec2-metadata-token-ttl-seconds: 21600") # Get metadata REGION=$(/usr/bin/curl --noproxy '*' -w "\n" -s -H "X-aws-ec2-metadata-token: $TOKEN" http://169.254.169.254/latest/dynamic/instance-identity/document | grep region | awk -F\" '{print $4}') sns_subscription_arn=${CRM_alert_recipient} # Format depending on alert type case ${CRM_alert_kind} in node) sns_subject="${CRM_alert_timestamp} ${cluster_name}: Node '${CRM_alert_node}' is now '${CRM_alert_desc}'" ;; fencing) sns_subject="${CRM_alert_timestamp} ${cluster_name}: Fencing ${CRM_alert_desc}" ;; resource) if [ ${CRM_alert_interval} = "0" ]; then CRM_alert_interval="" else CRM_alert_interval=" (${CRM_alert_interval})" fi if [ ${CRM_alert_target_rc} = "0" ]; then CRM_alert_target_rc="" else CRM_alert_target_rc=" (target: ${CRM_alert_target_rc})" fi case ${CRM_alert_desc} in Cancelled) ;; *) sns_subject="${CRM_alert_timestamp}: Resource operation '${CRM_alert_task}${CRM_alert_interval}' for '${CRM_alert_rsc}' on '${CRM_alert_node}': ${CRM_alert_desc}${CRM_alert_target_rc}" ;; esac ;; attribute) sns_subject="${CRM_alert_timestamp}: The '${CRM_alert_attribute_name}' attribute of the '${CRM_alert_node}' node was updated in '${CRM_alert_attribute_value}'" ;; *) sns_subject="${CRM_alert_timestamp}: Unhandled $CRM_alert_kind alert" ;; esac # Use this information to send the email. aws sns publish --topic-arn "${sns_subscription_arn}" --subject "${sns_subject}" --message "${sns_body}" --region ${REGION}