Creating a Physical Standby using RMAN Duplicate (RAC or Non-RAC) (Doc ID 1617946.1)
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APPLIES TO:Oracle Database - Enterprise Edition - Version 12.1.0.2 and laterInformation in this document applies to any platform. GOALNOTE: In the images and/or the document content below, the user information and environment data used represents fictitious data from the Oracle sample schema(s), Public Documentation delivered with an Oracle database product or other training material. Any similarity to actual environments, actual persons, living or dead, is purely coincidental and not intended in any manner.For the purposes of this document, the following fictitious environment is used as an example to describe the procedure: Primary hosts: exa503,exa504 Maximum Availability Architecture The Maximum Availability Architecture (MAA) defines Oracle’s most comprehensive architecture for reducing downtime for scheduled outages as well as preventing, detecting and recovering from unscheduled outages. Real Application Clusters (RAC) and Oracle Data Guard are integral components of the Database MAA reference architectures and solutions. More detailed information, such as a discussion of the purpose of MAA and the benefits it provides, can be found on the Oracle Technology Network (OTN) at http://www.oracle.com/technetwork/database/features/availability/maa-096107.html Purpose of this Document The purpose of this document is to provide a step-by-step guide for creating a standby database in an 11.2 environment integrating the MAA Data Guard configuration best practices. This paper assumes that the following conditions exist:
Supported Versions This document applies to both Oracle Server versions 11.2.0.x and 12.1.0.x or higher. There are some important differences in how the DUPLICATE FOR STANDBY FROM ACTIVE DATABASE functions between the two releases which are noted below: 11.2:
12c:
All of the examples illustrated in this document use the following fictitious naming used only as examples to describe the procedure:
SOLUTIONPrerequisite: To expedite active database RMAN duplicate commands, use multiple RMAN channels to spread across primary nodes. By doing this we can utilize more network interfaces for the data transfer. Parallelize backups across all primary database nodes leveraging disk and network bandwidth as available. MAA best practice recommend using 8 channels minimum or 2 channels per node. Make the following RMAN configuration changes at the Primary. Our example uses 16 pre-configured channels for RMAN to use during the standby creation step. These 16 channels will suffice for 2-4 node RAC clusters but will need to be increased if your Production RAC cluster is larger than 4 nodes. RMAN> CONFIGURE DEFAULT DEVICE TYPE TO DISK;RMAN> CONFIGURE DEVICE TYPE DISK PARALLELISM 16; You will use Oracle Net service load balancing to distribute these RMAN channels evenly among the allocated instances. 1) Create a service to run RMAN on allocated instances in the cluster: srvctl add service –db chicago -service srv_rman -preferred chicago1,chicago2srvctl start service -db chicago -service srv_rman Note: If you need to restrict the RMAN process to specific instances only specify those instances in the service definition
2) When running RMAN, use the service name in the connect string for the “target” parameter. rman target sys/<password>@<prim_scan>/srv_rman
Steps to Duplicate the Primary Database The following are the steps used to create the Data Guard Standby database. The ORACLE_HOME used in the examples uses the latest release Oracle 12.2. Please change as per your environment. 1. Create standby redo logs on the primary database that are the same size of the online redo logs. This will ensure that standby redo log files are automatically created at the standby during the RMAN duplication process and that standby redo log files are available on the current Primary after a role transition occurs in the future and the Primary becomes a standby. Oracle recommends having the same number of standby redo log files as there are online redo log files plus one additional standby redo log for each thread. Our primary database has 6 online redo log files, 3 per thread. We therefore need 4 Standby Redo Log files per thread (Primary 3 plus 1) for a total of 8 Standby Redo Log files. As per MAA Best Practice we recommend to create only one member for standby redo log . For example: SQL> alter database add standby logfile thread 1 SQL> alter database add standby logfile thread 2 2. Database force logging is recommended as an MAA Data Guard best practice. To enable force logging, use the following command on the primary: SQL> alter database force logging;3. For the RMAN duplication process it is necessary to setup a temporary listener which will later be removed. In the standby database home, create and start a listener that offers a static SID entry for the standby database with the ORACLE_SID for the standby (boston1) and ORACLE_HOME for the standby. LISTENER_duplicate = SID_LIST_LISTENER_duplicate =
4. In the database home on the primary node, create an Oracle Net alias to connect to the listener created in the above step. dup =(DESCRIPTION = (ADDRESS = (PROTOCOL = TCP) (HOST = exa505) (PORT = 1525)) (CONNECT_DATA = (SERVER = DEDICATED) (SID = boston1)))
5. For active database duplication, you must create a password file for the auxiliary instance and establish Oracle Net connectivity. This is a temporary password file as it will be overwritten during the duplicate operation. Create a password file on the standby host in the $ORACLE_HOME/dbs directory with the same SYS (or SYSDG if you use that username in 12c) as the Primary database. Copy the password file from the primary to the standby and rename to it's SID if it's different. This has not been allowed to have a different password file since 11gR1. For example: orapwd file=orapwboston1 password=<primary database sys password>6. On the standby host in the ORACLE_HOME/dbs directory create a pfile (initboston1.ora) with the following parameters. It is recommended to set the sga_target same as that of the primary database. For example: db_name=chicagodb_unique_name=boston sga_target=5g
7. On all standby hosts create the audit directory for the boston database: mkdir -p /u01/app/oracle/admin/boston/adump8. On all primary hosts create an Oracle Net alias to reach the boston database on the standby nodes. Make sure that all hosts have both a chicago and boston Oracle Net alias and that all the aliases reference the scan listener and not the node vip. Also, if local_listener is set to an alias on the primary create a corresponding entry on the standby side that points to the local listener on that system. For example:
9. On the standby host set the SID to the standby SID (boston1) and startup nomount the standby/auxiliary instance. $ export ORACLE_SID=boston1SQL> startup nomount pfile='initboston1.ora'
10. If the cluster_interconnects parameter is set on the primary it will be necessary to temporarily unset it in the SPFILE only. It will be returned to the original values in Step 13. Note: Do NOT restart any primary instance. The reset is done to temporarily remove the cluster_interconnects parameter from the spfile so that when the SPFILE is copied to the standby system it will avoid any issues if the standby database uses the same instance names as the primary database.The values of cluster_interconnects for each instance should be noted before resetting the SPFILE as they will be replaced after standby has been created. For example, execute the following commands and note down the values for each instance in the Primary cluster. SQL> select p.inst_id,instance_name, name,value from gv$parameter p, gv$instance i where p.inst_id=i.inst_id and p.name='cluster_interconnects';INST_ID INSTANCE_NAME NAME VALUE Now reset the cluster_interconnects parameter temporarily in the SPFILE only: SQL> alter system reset cluster_interconnects scope=spfile sid='chicago1';SQL> alter system reset cluster_interconnects scope=spfile sid='chicago2';
11. On the primary host run an RMAN script that duplicates the primary database using the “duplicate target database for standby from active database” command. Note that the contents of the duplicate command will vary depending on your environment. The following example covers the majority of use cases. For any case not covered by the examples please consult chapter 24 of the Oracle® Database Backup and Recovery User's Guide for complete information. The first example illustrates how to duplicate between two systems where the ASM diskgroup names are the same. The section_size clause in below example can be used with Oracle 12.1.0.2 or higher. rman <<EOF
The following example illustrates how to duplicate between two systems where the source is on a file system and the target is using an ASM diskgroup. The same process will work where both databases use ASM but they have different Disk Group names. In our example we use the file system names for the Primary but if this was ASM to ASM with different disk group names you would substitute the Primary Disk group name. rman <<EOF 12. Reset CLUSTER_INTERCONNECTS to original value from Step 11 in the SPFILE with the following commands. Do NOT restart any primary instance. SQL> alter system set cluster_interconnects='192.168.10.149' scope=spfile sid='chicago1';SQL> alter system set cluster_interconnects='192.168.10.150' scope=spfile sid='chicago2'; 13. Stop and remove the listener created in step 3. Also remove the TNS entry created in Step 4. If the standby is version 11.2 then no action is required. If the standby database is at Version 12.1 or higher copy the password file to ASM. For Example: $asmcmd -pASMCMD [+] > cd +DATA AMSCMD [+DATA] >mkdir BOSTON/PASSWORD ASMCMD [+DATA] >pwcopy /u01/app/oracle/product/12.2.0.1/dbhome_1/dbs/orapwboston1 +DATA/BOSTON/PASSWORD/pwboston ASMCMD [+DATA] > exit Remove the original password file. $rm /u01/app/oracle/product/12.2.0.1/dbhome_1/dbs/orapwboston1 15. Create the standby spfile in ASM. Create a spfile in +DATA for the standby database: SQL> create pfile='/tmp/p.ora' from spfile;SQL> create spfile='+DATA/boston/spfileboston.ora' from pfile='/tmp/p.ora' $rm /u01/app/oracle/product/12.2.0.1/dbhome_1/dbs/spfileboston1.ora 16. On standby host create an initboston1.ora file that points to the spfile created in the above step. $cat initboston1.oraspfile='+DATA/boston/spfileboston 17. Restart the standby instance. SQL>shutdown immediateSQL> startup mount 18. If the standby database is single instance(SI), then only execute the following steps. If standby is a RAC configuration this step will be executed later as part of RAC configuration. srvctl add database -d boston –o /u01/app/oracle/product/11.2.0/db_1 -x exa505 -i boston1 srvctl modify database –d boston –r physical_standby -p '+DATA/boston/spfileboston.ora' 12c : NOTE:If your standby database is single instance, the standby database configuration is complete and you should proceed to the section: Creating a Data Guard Broker configuration. If your standby database is a RAC configuration proceed to section: Complete Standby RAC Configuration. Complete Standby RAC Configuration After completing the steps in the above section the standby database has been created on the standby host. When the primary is RAC configuration and you want the standby to be RAC configuration, additional configuration steps need to be completed on the standby. These remaining configuration steps are covered below. 1. Create a temporary pfile from spfile on the standby. SQL> create pfile='/tmp/p.ora' from spfile;2. Modify the parameters on the Standby to update the instance specific RAC parameters. For example:
3. Create a spfile in +DATA for the standby database: SQL> create spfile='+DATA/boston/spfileboston.ora' from pfile='/tmp/p.ora';
If the standby database is version 11.2, you must copy the password file to the $ORACLE_HOME/dbs directory on all the other standby hosts and name it per the standby SID on each host. For example on node2 you would name it $ORACLE_HOME/dbs/orapwboston2. If the standby database is version 12c then no action is needed. The password was copied to ASM in Step 14, which is visible to all nodes across the cluster. 5. On all standby hosts create an initboston<SID Number>.ora file that points to the spfile created in the above step. For example: $cat initboston1.oraspfile='+DATA/boston/spfileboston.ora' 6. Restart all standby instances. Register the database with CRS. SQL>shutdown immediate11.2 srvctl add database -d boston –o /u01/app/oracle/product/11.2.0/db_1 srvctl add instance -d boston -i boston1 -n exa505 srvctl add instance -d boston -i boston2 -n exa506 srvctl modify database –d boston –r physical_standby -p '+DATA/boston/spfileboston.ora' 12c : srvctl add database -db boston -oraclehome /u01/app/oracle/product/12.2.0.1/dbhome_1 srvctl add instance -db boston -instance boston1 -node exa505 srvctl add instance -db boston -instance boston2 -node exa506 srvctl modify database -db boston -role physical_standby -spfile '+DATA/boston/spfileboston.ora' -pwfile '+DATA/BOSTON/PASSWORD/pwboston' Restart standby database on all standby hosts: srvctl start database -d boston -o mount 7. Modify the primary initialization parameter for dataguard on primary, SQL> alter system set LOG_ARCHIVE_CONFIG='DG_CONFIG=(chicago,boston)';System altered. SQL> alter system set LOG_ARCHIVE_DEST_1='LOCATION=/u01/app/oracle/databases/chicago/redo/ VALID_FOR=(ALL_LOGFILES,ALL_ROLES) DB_UNIQUE_NAME=chicago'; System altered. SQL> alter system set LOG_ARCHIVE_DEST_2='SERVICE=boston LGWR ASYNC VALID_FOR=(ONLINE_LOGFILES,PRIMARY_ROLE) DB_UNIQUE_NAME=boston'; System altered. SQL> alter system set LOG_ARCHIVE_DEST_STATE_1=ENABLE; System altered. SQL> alter system set FAL_SERVER=boston; System altered. SQL> alter system set FAL_CLIENT=chicago; System altered. Creating a Data Guard Broker configuration: The following section describes the basic steps on how to create a Data Guard broker configuration. For complete information on the Data Guard broker consult the Oracle® Data Guard Broker guide. 1. On both the primary and standby configure the Data Guard broker metadata files and enable the broker: Primary: SQL> alter system set dg_broker_config_file1='+DATA/chicago/dr1.dat' scope=both;SQL> alter system set dg_broker_config_file2='+RECO/chicago/dr2.dat' scope=both; SQL> alter system set dg_broker_start=true scope=both; Standby SQL> alter system set dg_broker_config_file1='+DATA/boston/dr1.dat' scope=both;SQL> alter system set dg_broker_config_file2='+RECO/boston/dr2.dat' scope=both; SQL> alter system set dg_broker_start=true scope=both; 2. Add static sid entries into the local node listener.ora located in the grid infrastructure home on all hosts in the configuration. Please refer to <Note 1387859.1> for instructions on how to complete this): Note: Static "_DGMGRL" entries are no longer needed as of Oracle Database 12.1.0.2 in Oracle Data Guard Broker configurations that are managed by Oracle Restart, RAC One Node or RAC as the Broker will use the clusterware to restart an instance.For example: LISTENER_SCAN2=(DESCRIPTION=(ADDRESS_LIST=(ADDRESS=(PROTOCOL=IPC)(KEY=LISTENER_SCAN2)))) LISTENER_SCAN1=(DESCRIPTION=(ADDRESS_LIST=(ADDRESS=(PROTOCOL=IPC)(KEY=LISTENER_SCAN1)))) Note that each static entry references the SID for each node, boston1, boston2 or chicago1, chicago2 for an ADMIN managed RAC cluster. If the RAC is a Policy Managed RAC please refer to the note above for specific instructions on static entries in 11g Release 2. 3. Bounce or reload all the listeners where the above modification was made (primary and standby nodes): srvctl stop listenersrvctl start listener 4. On a primary host connect with dgmgrl and create the configuration: [oracle@exa503 /etc]$ dgmgrl sys/password DGMGRL> create configuration 'dg_config' as primary database is 'chicago' connect identifier is chicago; Configuration "dg_config" created with primary database "chicago" DGMGRL> add database 'boston' as connect identifier is boston; Database "boston" added DGMGRL> enable configuration; Enabled.
5. Verify that the configuration created successfully by using the show configuration command: DGMGRL> show configuration; Configuration - dg_config Protection Mode: MaxPerformance Fast-Start Failover: DISABLED Configuration Status:
6. Flashback database is required to reinstate a failed primary after a failover role transition. Optionally enable flashback on both the primary and standby: Primary: SQL> alter database flashback on;To enable flashback database on the standby the redo apply process must first be stopped. Once flashback has been enabled redo apply can be restarted: SQL> recover managed standby database cancel;SQL> alter database flashback on; SQL> recover managed standby database disconnect using current logfile; The above steps can also be accomplished using the broker with the following commands. (you must be connected to the standby database via DGMGRL): DGMGRL> CONNECT sys/<password>@bostonDGMGRL> EDIT DATABASE boston SET STATE=APPLY-OFF; DGMGRL> SQL "ALTER DATABASE FLASHBACK ON"; DGMGRL> EDIT DATABASE boston SET STATE=APPLY-ON;
Application Service Considerations with Data Guard: In an Oracle Data Guard configuration, applications must use Services to connect to the databases as there is more than one database with different SID names that could be the Primary database. And with Oracle Active Data Guard, any physical standby database could be made available to provide read only access to the data. To enable client connections, services need to be created for the workload that performs updates which will only be started on the database in the configuration that is currently in the 'Primary' role as well as services for read only reports and queries that should only be present on physical standbys that are open in Active Data Guard. Note: Refer to MOS Note 2123709.1 for full Client Failover configuration MAA Best Practices.
The following is an example of how to configure a Read/Write service (workload) and a Read/Only service (reports) on the Primary and Standby database. If the primary / standby is configured with Oracle Restart, RAC One Node or RAC, the services are created using srvctl. (Note for JDBC application server side TAF attributes should be set to NONE). If you are creating services for a multitenant database then use service commands that include the –pdb option. For example, here we add show adding two services to each database in the configuration. WORKLOAD for Read/Write connections and REPORTS for Read/Only connections. WORKLOAD will only run on the database that is running in the Primary role and REPORTS will only run on the database that is in the PHYSICAL STANDBY role. Primary cluster: srvctl add service -d chicago -s workload -r chicago1,chicago2 -l PRIMARY -q TRUE -e SESSION -m BASIC -w 10 -z 150srvctl add service -d chicago -s reports -r chicago1,chicago2 -l PHYSICAL_STANDBY -q TRUE -e SESSION -m BASIC -w 10 -z 150 srvctl start service -d chicago -s reports srvctl stop service -d chicago -s reports Note: We need to start and stop the REPORTS services on the Primary to create the service in the database so that it can be started on the Standby. If we do not first start it on the Primary database the service will not be in the database. Services metadata and a start of that service on the standby will fail because it needs to create the service, which it cannot do in a read only database.
Standby Cluster: srvctl add service -d boston -s workload -r boston1,boston2 -l PRIMARY -q TRUE -e SESSION -m BASIC -w 10 -z 150srvctl add service -d boston -s reports -r boston1,boston2 -l PHYSICAL_STANDBY -q TRUE -e SESSION -m BASIC -w 10 -z 150 srvctl start service -d chicago -s reports
2. Create Oracle Net aliases that reference the above services for the client applications to use.
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