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Setting Up IBM Data Server Manager as a Highly Available Service

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Published on 11 July 2017

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IBM Form #: TIPS1352


Authors: Min Xiao Zhao

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    Abstract

    This IBM® Redbooks® web doc describes how to build, configure, and deploy IBM Data Server Manager as a high availability (HA) service on a Linux system. Data Server Manager runs on an HA cluster that includes one master node and one backup node. If Data Server Manager stops running on one of the nodes, the other instance of Data Server Manager starts to ensure that the Data Server Manager service is always available. Critical configuration and user data for Data Server Manager are continuously synchronized between the two Data Server Manager nodes.

    This web doc guides you through building a Data Server Manager HA solution based on IBM Tivoli® System Administration for Multiplatforms (Tivoli SA MP). Because it needs to operate on system files, the Data Server Manager HA system installation and configuration requires Linux root authority in most of the following steps. After Data Server Manager HA is installed and configured, a user can view HA cluster information and manage Data Server Manager without root authority.

    If you are using the Data Server Manager historical repository, you should also consider making the IBM Db2® database that stores the historical repository highly available. This action helps to ensure uninterrupted access to critical historical monitoring data. IBM DB2® High Availability Disaster Recovery (HADR) or IBM DB2 pureScale® are good options to consider. This document applies to IBM Data Server Manager Version 2.1.2 and later.

    Contents

    IBM® Data Server Manager is a web-based, integrated database management tools platform that manages the following databases:

    • IBM Db2® for Linux, UNIX, Windows
    • IBM Db2 for z/OS® databases
    • IBM dashDB® for Analytics
    • IBM Db2 on Cloud (formerly IBM dashDB for Transactions)
    • IBM dashDB Local

    With IBM Data Server Manager, you can monitor, analyze, tune, and administer Db2 databases. This document describes how to build the Data Server Manager high availability (HA) environment, based on IBM Tivoli® System Administration for Multiplatforms (Tivoli SA MP). Two servers with the Linux operating system are needed. The operating system used in this document is Red Hat Enterprise Linux Server Release 6.7.

    Figure 1 shows the Data Server Manager HA structure. In the figure, TSA identifies the IBM Tivoli SA MP product in the environment.

    Figure 1. Data Server Manager HA structure
    Figure 1. Data Server Manager HA structure


    Install Tivoli SA MP

    Generally, the Tivoli SA MP installation package is bound together with the Db2 installation package. You need to manually install Tivoli SA MP on both the master and backup nodes. The Tivoli SA MP installation package can be obtained from the Db2 installation package directory server/db2/linuxamd64/tsamp. Perform the following steps to install Tivoli SA MP:
    1. Install the prerequisite components by running the following commands (you must have root authority).

      [root@dsm-master tsamp]# yum install ksh libstdc++.i686 compat-libstdc++-33.x86_64 compat-libstdc++-33.i686 –y
      [root@dsm-master tsamp]# echo 'multilib_policy=all' >> /etc/yum.conf
      [root@dsm-master tsamp]# yum install pam.i686
    2. Run the following Tivoli SA MP command, to verify that Tivoli SA MP is ready to be installed:

      [root@dsm-master tsamp]# ./prereqSAM

      Figure 2 shows the output of the prereqSAM command.

      Figure 2. Command prereqSAM output
      Figure 2. Command prereqSAM output
    3. Install Tivoli SA MP (root authority needed) using the following command:

      [root@dsm-master tsamp]# ./installSAM
    4. Enter Y to accept the license agreement. Figure 3 shows the installSAM command.

      Figure 3. The installSAM command
      Figure 3. The installSAM command
    Figure 4 shows the results of executing the installSAM command.

    Figure 4. Results of the installSAM command
    Figure 4. Results of the installSAM command


    Install rsync and inotify tools

    Data Server Manager user data in the ibm-datasrvrmgr/Config folder is sensitive. The Data Server Manager HA cluster keeps this data safe by synchronizing backups across nodes. With the installation of rsync and inotify tools, any changes in this folder are synchronized from one node to the other node. If Data Server Manager is failing on a node, the other node starts with the same configuration data.

    The rsync and inotify tools need to be installed on both master and backup nodes. Run the following commands on both nodes. These tools monitor and synchronize ibm-datasrvrmgr/Config file changes that are on the two nodes (root authority is needed):

    [root@dsm-master tsamp]# yum install rsync
    [root@dsm-master tsamp]# yum install inotify-tools


    Creating a Tivoli SA MP cluster

    Two nodes act as a Tivoli SA MP cluster. For the remainder of this document, the host names for the two nodes are dsm-master and dsm-backup. You can use different host names, but be sure to replace the host names in subsequent steps where the names are used. Complete these steps.
    1. On both master and backup nodes, update the /etc/hosts file with the fully qualified domain name (root authority needed). Figure 5 shows the file contents.

      Figure 5. The contents of /etc/hosts
      Figure 5. The contents of /etc/hosts
    2. (Optional) Modify the host name value on both nodes by editing the /etc/sysconfig/network system file. Set HOSTNAME to dsm-master on the master node (Figure 6) and dsm-backup on the backup node (Figure 7); root authority is needed:

      [root@dsm-master ~]# cat /etc/sysconfig/network

      Figure 6. Set hostname for dsm-master
      Figure 6. Set hostname for dsm-master

      Figure 7. Set hostname for dsm-backup
      Figure 7. Set hostname for dsm-backup
    3. On the master node, run the following command:

      [root@dsm-master ~]# hostname dsm-master
    4. On the backup node, run the following command:

      [root@dsm-master ~]# hostname dsm-backup
    5. Reboot the master and backup nodes after these configuration changes are complete.


    Configuration on both nodes

    Configure Secure Shell (SSH) on both nodes so that file changes can be synchronized between these two nodes:
    1. Run the ssh-keygen command on both the master and backup nodes:

      [root@dsm-master .ssh]# ssh-keygen -t rsa
    2. Copy the contents of the id_rsa.pub file (Figure 8) on the master node and append it to the /root/.ssh/authorized_keys file on the backup node. Also copy the contents of id_rsa.pub on the backup node and append it to the /root/.ssh/authorized_keys file on the master node.

      Figure 8. Content of the id_rsa.pub file
      Figure 8. Content of the id_rsa.pub file
    3. Run the Tivoli SA MP preprpnode command on both nodes before creating a domain (root authority needed):

      [root@dsm-master .ssh]# preprpnode dsm-master dsm-backup


    Creating a domain for two nodes

    Run the Tivoli SA MP commands to create a domain for Data Server Manager HA cluster only on the master node. To start the domain and check its status, make dsm a resource on the master node (root authority needed) by using the following commands:

    [root@dsm-master init.d]# mkrpdomain SA_Domain dsm-master dsm-backup
    [root@dsm-master init.d]# startrpdomain SA_Domain
    [root@dsm-master init.d]# lsrpdomain

    Figure 9 shows the lsrpdomain command execution.

    Figure 9. Executing the lsrpdomian command
    Figure 9. Executing the lsrpdomain command


    Creating dsm resource

    To create a resource, you need a script that includes start, stop, and status commands. You also need a definition file. Create a resource for Data Server Manager as follows:
    1. On both the dsm-master and dsm-backup nodes, create a script with the name dsm. The script includes the Tivoli SA MP definition of start, stop, and status, and aligns with Data Server Manager start, stop, and status scripts. Save the script in a directory, such as /etc/init.d/, illustrated in this example. The directory highlighted in bold is the directory where Data Server Manager is installed (root authority might be needed).

      #!/bin/bash
      OPSTATE_ONLINE=1
      OPSTATE_OFFLINE=2
      Action=${1}
      case ${Action} in
      ..start)
      ../root/ibm-datasrvrmgr/bin/start.sh >/dev/null 2>&1
      ..logger -i -t "SAM-dsm" "Apache started"
      ..RC=0
      ..;;
      ..stop)
      ../root/ibm-datasrvrmgr/bin/stop.sh >/dev/null 2>&1
      ..logger -i -t "SAM-dsm" "Apache stopped"
      ..RC=0
      ..;;
      ..status)
      ..active=`/root/ibm-datasrvrmgr/bin/status.sh | grep " ACTIVE" | wc -l `
      ..if [ "$active" -eq "1" ]
      ..then
      ..RC=${OPSTATE_ONLINE}
      ..else
      ..RC=${OPSTATE_OFFLINE}
      ..fi
      ..;;
      ..esac
      ..echo "RC:"${RC}
      ..exit $RC

      Figure 10 shows the content of the dsm script.

      Figure 10. Contents of the dsm script
      Figure 10. Contents of the dsm script
    2. On the dsm-master node, create a definition file named dsm.def. The directory highlighted in bold is the directory where the dsm script is created. Save the file in the same directory as the dsm script, which is /etc/init.d/.

      PersistentResourceAttributes::
      ....Name="dsm"
      ....StartCommand="/etc/init.d/dsm start"
      ....StopCommand="/etc/init.d/dsm stop"
      ....MonitorCommand="/etc/init.d/dsm status"
      ....MonitorCommandPeriod=5
      ....MonitorCommandTimeout=5
      ....NodeNameList={"dsm-master","dsm-backup"}
      ....StartCommandTimeout=90
      ....StopCommandTimeout=90
      ....UserName="root"
      ....ResourceType=1

      Figure 11 shows the contents of the dsm.def file.

      Figure 11. Content of dsm.def file
      Figure 11. Content of dsm.def file
    3. Run the export command on the master node (root authority needed):

      [root@dsm-master init.d]# export CT_MANAGEMENT_SCOPE=2
      [root@dsm-master init.d]# echo 'export CT_MANAGEMENT_SCOPE=2' >> ~/.bash_profile
    4. Generate the dsm resource on the master node by running the following command in the directory where dsm.def is located (root authority needed):

      [root@dsm-master init.d]]# mkrsrc -f dsm.def IBM.Application
      [root@dsm-master init.d]]# lsrsrc -s "Name='dsm'" IBM.Application

    Figure 12 shows generating the dsm resource on the master node.

    Figure 12. Creating dsm resource
    Figure 12. Creating dsm resource

    Creating a virtual Internet Protocol (IP) resource

    Choose an available IP address as the virtual IP for the Data Server Manager service. Using this virtual IP makes Data Server Manager switching between the master and backup nodes transparent to users. Regardless of the Data Server Manager service active on either node, users see only the virtual IP. Complete these steps:
    1. Choose an available IP (9.111.97.120 is used in this example) as the virtual IP. Next create the virtual IP resource on the master node (root authority needed):

      [root@dsm-master init.d]]# mkrsrc IBM.ServiceIP NodeNameList="{'dsm-master','dsm-backup'}" Name="dsmIP" NetMask=255.255.255.0 IPAddress=9.111.97.120 ResourceType=1
      [root@dsm-master init.d]# lsrsrc -s "Name='dsmIP'" IBM.ServiceIP

      Run the lsrsrc IBM.NetworkInterface command. This command shows that the IP resource is bound on eth4 (this variable is used later).

      [root@dsm-master init.d]# lsrsrc IBM.NetworkInterface

      Figure 13 shows the lsrsrc IBM.NetworkInterface command output.

      Figure 13. Output of lsrsrc IBM.NetworkInterface command
      Figure 13. Output of the lsrsrc IBM.NetworkInterface command
    2. Run the following command to bind the virtual IP to the two physical IPs for the master and backup nodes. The eth4 variable was determined in step 1 of this section (root authority needed):

      [root@dsm-master init.d]# mkequ netequ IBM.NetworkInterface:eth4:dsm-master,eth4:dsm-backup
    3. Display the Equivalency information by using the following command:

      [root@dsm-master init.d]# lsequ -e netequ
    Figure 14 shows the output of the lsequ -e netequ command.

    Figure 14. Output of lsequ -e netequ command
    Figure 14. Output of the lsequ -e netequ command


    Creating and starting a resource group

    Add the previous resources to a resource group. Start the resource group and check its status with the following steps:
    1. Create a resource group on the master node. Include the application resource "dsm" and the service IP resource "dsmIP" (root authority needed):

      [root@dsm-master init.d]# mkrg dsmrg
      [root@dsm-master init.d]# lsrg -g dsmrg
    2. Add the two resources to a resource group (root authority needed):

      [root@dsm-master init.d]# addrgmbr -g dsmrg IBM.Application:dsm
      [root@dsm-master init.d]# addrgmbr -g dsmrg IBM.ServiceIP:dsmIP
      [root@dsm-master init.d]# lsrg -m

      Figure 15 shows the output of the lsrg -m command.

      Figure 15. Output of the lsrg -m command, for dsm-master
      Figure 15. Output of the lsrg -m command, for dsm-master
    3. Define the dependencies between the resources on the master node (root authority needed):

      root@dsm-master init.d]# mkrel -p DependsOn -S IBM.Application:dsm -G IBM.ServiceIP:dsmIP dsm_dependson_dsmIP
      [root@dsm-master init.d]# mkrel -p DependsOn -S IBM.ServiceIP:dsmIP -G IBM.Equivalency:netequ dsmIP_dependson_netequ
      [root@dsm-master haoshinit.dwei]# lsrel

      Figure 16 shows the output of lsrel command.

      Figure 16. Output of the lsrg -m command, for dsm-master managed relationships
      Figure 16. Output of the lsrel command, for dsm-master managed relationships
    4. Start the resource group on the master node (root authority needed):

      [root@dsm-master init.d]# chrg -o online dsmrg
      [root@dsm-master init.d]# lssam -V

      Figure 17 shows the resource group status.

      Figure 17. Resource group status
      Figure 17. Resource group status


    Adding a notification resource

    To synchronize data between the master and backup nodes, notification resources can be added on both nodes as follows:
    1. Create a script named syncup.sh and save it on both the dsm-master and the dsm-backup nodes. Save syncup.sh in a directory of your choosing, but be sure to refer to the proper location in subsequent steps. In these examples, the script is saved in /root/syncup. Replace the value that is assigned to inotifyDir with the directory where the inotifywait command resides on the master and backup nodes. The following command can be used to locate the directory:

      [root@dsm-master bin]# locate inotifywait

      Figure 18 shows the output of the locate inotifywait command.

      Figure 18. Output of the locate inotifywait command
      Figure 18. Output of the locate inotifywait command

      a....Replace the value that is assigned to destIP with the IP address of the pair server. On the master node, destIP is the IP address of backup node; and on the backup node, destIP is the IP address of master node.

      b....Replace the value that is assigned to srcDir with the directory where Data Server Manager is installed on the master node. Replace the value that is assigned to destDir with the directory where Data Server Manager is installed on the backup node.

      The Data Server Manager folder Config/ is defined to synchronize the master and backup nodes with the specified policy in this script:

      [root@dsm-master syncup]# cat syncup.sh
      #!/bin/bash
      inotifyDir="/usr/bin"
      srcDir="/root/ibm-datasrvrmgr/"
      destIP="9.111.97.77"
      destDir="/root/ibm-datasrvrmgr/"
      scriptDir="/root/syncup"
      dir=""
      action=""
      file=""
      folderDir=""
      rm -f ${scriptDir}/*.log
      $inotifyDir/inotifywait -rmq -e modify,create,delete,attrib,move ${srcDir}Config | while read event
      do
      ........dir=$(echo ${event}|cut -d\ -f1)
      ........action=$(echo ${event}|cut -d\ -f2)
      ........file=$(echo ${event}|cut -d\ -f3)
      ........echo "$(date) $event" >> ${scriptDir}/event.log
      ........folderDir=${dir#*Config/}
      ........if [[ $file == "" || $file == .* ]]
      ........then
      ................continue
      ........elif [[ $action == DELETE* ]]
      ........then
      ................echo -e "$(date) \n Warning: You've tried to delete important file $file. It has been recovered from standby server." >> ${scriptDir}/ha_config.log
      ................rsync -avzP root@$destIP:$destDir Config/$folderDir/$file $srcDir Config/$folderDir >> ${scriptDir}/rsync.log
      2>&1
      ........else
      ................echo -e "$(date) \n Backup change of $file to standby server." >> ${scriptDir}/ha_config.log
      ................rsync -avzP $srcDir Config/$folderDir/$file root@$destIP:$destDir Config/$folderDir >> ${scriptDir}/rsync.log
      2>&1
      ........fi
      done
    2. On both the dsm-master and dsm-backup nodes, create a script with the name inotify. The script contains start, stop, and status information. Save the script in a directory of your choosing. In this example, the script is saved in the /etc/init.d directory. The /root/syncup directory is where syncup.sh was created in the previous step.

      [root@dsm-master init.d]# cat inotify
      #!/bin/bash
      OPSTATE_ONLINE=1
      OPSTATE_OFFLINE=2
      Action=${1}
      case ${Action} in
      ........start)
      ..........nohup bash /root/syncup/syncup.sh >> syncup.log 2>&1 &
      ..........logger -i -t "SAM-inotify" "inotify started"
      ..........RC=0
      ..........;;
      ........stop)
      ..........killall inotifywait
      ..........logger -i -t "SAM-inotify" "inotify stopped"
      ..........RC=0
      ..........;;
      ........status)
      ..........ps ax |grep -v "grep"| grep inotifywait>/dev/null
      ..........if [ $? == 0 ]
      ..........then
      ............RC=${OPSTATE_ONLINE}
      ..........else
      ............RC=${OPSTATE_OFFLINE}
      ..........fi
      ..........;;
      esac
      exit $RC
    3. Create a definition file with name inotify.def on the dsm-master node. The directory highlighted in bold in the following example is the directory where inotify is created. Save the file in the same directory where the inotify script was saved in a previous step. In this example, that directory is /etc/init.d.

      [root@dsm-master init.d]# cat inotify.def
      PersistentResourceAttributes::
      ....Name="inotify"
      ....StartCommand="/etc/init.d/inotify start"
      ....StopCommand="/etc/init.d/inotify stop"
      ....MonitorCommand="/etc/init.d/inotify status"
      ....MonitorCommandPeriod=5
      ....MonitorCommandTimeout=5
      ....NodeNameList={"dsm-master"}
      ....StartCommandTimeout=10
      ....StopCommandTimeout=10
      ....UserName="root"
      ....ResourceType=0
    4. Create a definition file with name inotify2.def on the dsm-backup node. The directory in bold is where inotify is created. Save the file in the same directory where the inotify script was saved in a previous step. In this example, that directory is /etc/init.d.

      [root@dsm-master init.d]# cat inotify2.def
      PersistentResourceAttributes::
      ....Name="inotify2"
      ....StartCommand="/etc/init.d/inotify start"
      ....StopCommand="/etc/init.d/inotify stop"
      ....MonitorCommand="/etc/init.d/inotify status"
      ....MonitorCommandPeriod=5
      ....MonitorCommandTimeout=5
      ....NodeNameList={"dsm-backup"}
      ....StartCommandTimeout=10
      ....StopCommandTimeout=10
      ....UserName="root"
      ....ResourceType=0
    5. Make inotify a resource on the master node by running the following command in the directory where inotify.def is created (root authority needed):

      [root@dsm-master init.d]# mkrsrc -f inotify.def IBM.Application

      Make inotify2 a resource on the backup node by running the following command in the directory where inotify.def is created (root authority needed):

      [root@dsm-master init.d]# mkrsrc -f inotify2.def IBM.Application

      Make a resource group on the master node:

      [root@dsm-master init.d]# mkrg inotifyrg
      [root@dsm-master init.d]# addrgmbr -g inotifyrg IBM.Application:inotify:dsm-master
      [root@dsm-master init.d]# chrg -o online inotifyrg
      [root@dsm-master init.d]# mkrg inotifyrg2
      [root@dsm-master init.d]# addrgmbr -g inotifyrg2 IBM.Application:inotify2:dsm-backup
      [root@dsm-master init.d]# chrg -o online inotifyrg2

    Checking resource status

    Use the lssam command to display the status of the cluster; this command shows which node is online:

    [root@dsm-master init.]# lssam -V

    Figure 19 shows the output of lssam -V command .

    Figure 19. Output of the lssam -V command to display status of the cluster
    Figure 19. Output of the lssam -V command to display status of the cluster


    How HA works while Data Server Manager is failing

    While the Data Server Manager is failing, HA works in the following ways:
    • If Data Server Manager is stopped on the active node, Tivoli SA MP will try to restart it.
    • If Data Server Manager is restarted successfully, it will continue to run on the same node.
    • When Tivoli SA MP fails to restart Data Server Manager after several attempts (the number of attempts can be configured), Data Server Manager HA will fail over to another node. For example, Tivoli SA MP will switch from the master node to the backup node or from the backup node to the master node. To observe this behavior, you can temporarily move (or rename) some critical Data Server Manager installation files. With critical files missing, Tivoli SA MP cannot restart Data Server Manager on the master node. Tivoli SA MPs will then switch to the backup node and start Data Server Manager there. You can run the lssam -V command, which indicates that the backup node is online and the master node is offline.

    In the following example, ibm-datasrvrmgr/bin is renamed to ibm-datasrvrmgr/bin_bak. With this change, Tivoli SA MP cannot start Data Server Manager.

    [root@dsm-backup ibm-datasrvrmgr]# mv bin bin_bak

    Figure 20 shows the output of these file commands.

    Figure 20. Ouput of the mv bin bin_bak command
    Figure 20. Output of the mv bin bin_bak command

    Run the lssam -V command. Note that the dsm-master node is now in a "Pending online" state. Tivoli SA MP is trying to restart Data Server Manager on the master node.

    Figure 21 shows the output of command lssam -V at this point.

    Figure 21. Output of the lssam -V command, with dsm-master in pending online status
    Figure 21. Output of the lssam -V command, with dsm-master in pending online status

    After several failed attempts to start Data Server Manager on the master node, Tivoli SA MP starts Data Server Manager on the backup node. Run the command lssam -V to see that the dsm-backup node is online now.

    Figure 22 shows the output of command lssam -V at this point.

    Figure 22. Output of the lssam -V command to see the dsm-backup node is online
    Figure 22. Output of the lssam -V command to see that the dsm-backup node is online

    Fix the issue on the master node by renaming ibm-datasrvrmgr/bin_bak back to ibm-datasrvrmgr/bin.
    Reset the dsm-master node resource by running the following command:

    [root@dsm-backup ibm-datasrvrmgr]# resetrsrc -s 'Name="dsm" && NodeNameList= {"dsm-master"}' IBM.Application

    Run the lssam -V command to see that the dsm-master is offline now.

    Figure 23 shows the output of command lssam -V at this point.

    Figure 23. Ouput of lssam -V command to see the dsm-master is offline
    Figure 23. Output of lssam -V command to see the dsm-master is offline

    Users do not need to do anything manually during failover. They still visit the same website regardless of which node is running Data Server Manager. This transparency is the result of configuring virtual IP resources and binding them with Data Server Manager resources.

    Figure 24 shows that the Data Server Manager website with a virtual IP is always accessible during failover, except the intervals that Tivoli SA MP attempts to restart Data Server Manager on the master node.

    Figure 24. Access Data Server Manager via virtual IP
    Figure 24. Access Data Server Manager via virtual IP


    Related information

    For more information, see the following topics in IBM Knowledge Center:

     

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