1. How to Determine Which Manager Ran a Specific Concurrent Request?
col USER_CONCURRENT_QUEUE_NAME for a100
select b.USER_CONCURRENT_QUEUE_NAME from fnd_concurrent_processes a,
fnd_concurrent_queues_vl b, fnd_concurrent_requests c
where a.CONCURRENT_QUEUE_ID = b.CONCURRENT_QUEUE_ID
and a.CONCURRENT_PROCESS_ID = c.controlling_manager
and c.request_id = '&conc_reqid';
2. Concurrent manager status for a given sid?
col MODULE for a20
col OSUSER for a10
col USERNAME for a10
set num 10
col MACHINE for a20
set lines 200
col SCHEMANAME for a10
select s.sid,s.serial#,p.spid os_pid,s.status, s.osuser,s.username, s.MACHINE,s.MODULE,
s.SCHEMANAME,
s.action from gv$session s, gv$process p WHERE s.paddr = p.addr and s.sid = '&oracle_sid';
3. Find out request-id from Oracle_Process Id:
select REQUEST_ID,ORACLE_PROCESS_ID,OS_PROCESS_Id from apps.fnd_concurrent_requests where
ORACLE_PROCESS_ID='&a';
4. To find sid, serial# for a given concurrent request id?
set lines 200
SELECT a.request_id, d.sid, d.serial# ,d.osuser,d.process , c.SPID ,d.inst_id
FROM apps.fnd_concurrent_requests a,
apps.fnd_concurrent_processes b,
gv$process c,
gv$session d
WHERE a.controlling_manager = b.concurrent_process_id
AND c.pid = b.oracle_process_id
AND b.session_id=d.audsid
AND a.request_id = &Request_ID
AND a.phase_code = 'R';
5. To find the concurrent program name, phase code, and status code for a given request id?
6. To find the SQL query for a given concurrent request sid?
select sid,sql_text from gv$session ses, gv$sqlarea sql where
ses.sql_hash_value = sql.hash_value(+) and ses.sql_address = sql.address(+) and
ses.sid='&oracle_sid'
/
7. To find child requests
set lines 200
col USER_CONCURRENT_PROGRAM_NAME for a40
col PHASE_CODE for a10
col STATUS_CODE for a10
col COMPLETION_TEXT for a20
SELECT sum.request_id,req.PARENT_REQUEST_ID,sum.user_concurrent_program_name, DECODE
(sum.phase_code,'C','Completed',sum.phase_code) phase_code, DECODE(sum.status_code,'D',
'Cancelled' ,
'E', 'Error' , 'G', 'Warning', 'H','On Hold' , 'T', 'Terminating', 'M', 'No Manager' , 'X',
'Terminated', 'C', 'Normal', sum.status_code) status_code, sum.actual_start_date,
sum.actual_completion_date, sum.completion_text FROM apps.fnd_conc_req_summary_v sum,
apps.fnd_concurrent_requests req where req.request_id=sum.request_id and req.PARENT_REQUEST_ID =
'&parent_concurrent_request_id';
8. Cancelling Concurrent requests:
update fnd_concurrent_requests
set status_code='D', phase_code='C'
where request_id=&req_id;
9. Kill sessions program-wise
select 'ALTER SYSTEM KILL SESSION '''||sid||','||serial#||''' immediate;' from v$session where
MODULE like '';
10 . Concurrent Request running by SID
SELECT a.request_id,
d.sid as Oracle_SID,
d.serial#,
d.osuser,
d.process,
c.SPID as OS_Process_ID
FROM apps.fnd_concurrent_requests a,
apps.fnd_concurrent_processes b,
gv$process c,
gv$session d
WHERE a.controlling_manager = b.concurrent_process_id
AND c.pid = b.oracle_process_id
AND b.session_id=d.audsid
AND d.sid = &SID;
11. Find out request-id from Oracle_Process Id:
select REQUEST_ID,ORACLE_PROCESS_ID,OS_PROCESS_Id from fnd_concurrent_requests where
ORACLE_PROCESS_ID='&a';
12. Oracle Concurrent Request Error Script (requests which were errored out)
SELECT a.request_id "Req Id"
,a.phase_code,a.status_code
, actual_start_date
, actual_completion_date
,c.concurrent_program_name || ': ' || ctl.user_concurrent_program_name "program"
FROM APPLSYS.fnd_Concurrent_requests a,APPLSYS.fnd_concurrent_processes b
,applsys.fnd_concurrent_queues q
,APPLSYS.fnd_concurrent_programs c
,APPLSYS.fnd_concurrent_programs_tl ctl
WHERE a.controlling_manager = b.concurrent_process_id
AND a.concurrent_program_id = c.concurrent_program_id
AND a.program_application_id = c.application_id
AND a.status_code = 'E'
AND a.phase_code = 'C'
AND actual_start_date > sysdate - 2
AND b.queue_application_id = q.application_id
AND b.concurrent_queue_id = q.concurrent_queue_id
AND ctl.concurrent_program_id = c.concurrent_program_id
AND ctl.LANGUAGE = 'US'
ORDER BY 5 DESC;
13. Request submitted by User
SELECT
user_concurrent_program_name,
request_date,
request_id,
phase_code,
status_code
FROM
fnd_concurrent_requests fcr,
fnd_concurrent_programs_tl fcp,
fnd_responsibility_tl fr,
fnd_user fu
WHERE
fcr.CONCURRENT_PROGRAM_ID = fcp.concurrent_program_id
and fcr.responsibility_id = fr.responsibility_id
and fcr.requested_by = fu.user_id
and user_name = '&user'
AND actual_start_date > sysdate - 1
ORDER BY REQUEST_DATE Asc;
14. Concurrent Program enables trace
col User_Program_Name for a40
col Last_Updated_By for a30
col DESCRIPTION for a30
SELECT A.CONCURRENT_PROGRAM_NAME "Program_Name",
SUBSTR(A.USER_CONCURRENT_PROGRAM_NAME,1,40) "User_Program_Name",
SUBSTR(B.USER_NAME,1,15) "Last_Updated_By",
SUBSTR(B.DESCRIPTION,1,25) DESCRIPTION
FROM APPS.FND_CONCURRENT_PROGRAMS_VL A, APPLSYS.FND_USER B
WHERE A.ENABLE_TRACE='Y'
AND A.LAST_UPDATED_BY=B.USER_ID;
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Oracle Concurrent Processing – Version 12.2 and later
Running fnd_conc_clone.setup_clean manually is unsupported.
This API was designed for use internally and although Development has documented running this API in some setup notes it is only where it has been explicitly tested and for that specific setup.
For example, you will find some references to FND_CONC_CLONE.SETUP_CLEAN in the upgrade guide and other development-created documents. However, these are strategically placed.
Running this API outside of the specific places found in the official Oracle documentation (upgrade guide and other development documents) will cause problems and will break the functionality of your Oracle E-Business Suite system.
If fnd_conc_clone.setup_clean has been run, the only option to bring back the system to a stable and safe state will be to restore from a backup taken previously to run the API.
R12.2: When To Run fnd_conc_clone.setup_clean?
Ref:Doc ID 2130750.1
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Description:
In this blog, we are going to see data guard switch over by using data guard broker DGMGRL.
Data Guard Switchover:
A database can be in one of two mutually exclusive modes (primary or standby). These roles can be altered at runtime without loss of data or resetting of redo logs. A switchover is a role reversal between the primary database and one of its standby databases. A switchover guarantees no data loss.
This is typically done for planned maintenance of the primary system.
During a switchover, the primary database transitions to a standby role, and the standby database transitions to the primary role.
The transition occurs without having to re-enable either database.
Overall steps:
1. Connect the primary database with DGMGRL Data Guard broker.
2. Switch over primary to standby database.
3. Connect Standby database.
4. Switch over standby to primary.
Step 1: Connect the primary database with the DGMGRL Data Guard broker.
[oratest@oracle admin]$ dgmgrl sys/oracle@orclDGMGRL for Linux: Release 19.0.0.0.0 - Production on
Fri Nov 12 13:19:44 2021 Version 19.9.0.0.0Copyright (c) 1982, 2019, Oracle and/or its affiliates.
All rights reserved.Welcome to DGMGRL, type "help" for information.
Connected to "orcl"
Connected as SYSDBA.
Step 2: Switch over primary to the standby database.
DGMGRL> switchover to orcl_stby;Performing switchover NOW, please wait...Operation requires a connection to instance "orcl" on database
"orcl_stby"Connecting to instance "orcl"...Connected as SYSDBA.New primary database "orcl_stby" is opening...Operation requires start up of instance "orcl" on database "orcl"Starting instance "orcl"...ORACLE instance started.Database mounted.Switchover succeeded, new primary is "orcl_stby"DGMGRL>Let's switch back to the original primary. Connect to the
new primary (orcl_stby) and switchover to the new standby database (orcl).
Step 3: Connect the Standby database.
[oratest@oracle admin]$ dgmgrl sys/oracle@orcl_stbyDGMGRL for Linux: Release 19.0.0.0.0 - Production on
Fri Nov 12 13:31:56 2021Version 19.9.0.0.0Copyright (c) 1982, 2019, Oracle and/or its affiliates.
All rights reserved.
Welcome to DGMGRL, type "help" for information.Connected to "orcl_stby"
Connected as SYSDBA.
Step 4: Switch over standby to primary
DGMGRL> switchover to orcl ;Performing switchover NOW, please wait...Operation requires a connection to instance "orcl" on
database "orcl"Connecting to instance "orcl"...Connected as SYSDBA.New primary database "orcl" is opening...Operation requires start up of instance "orcl" on database
"orcl_stby"Starting instance "orcl"...ORACLE instance started.Database mounted.Switchover succeeded, new primary is "orcl"DGMGRL>
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RMAN-00571: =========================================================== RMAN-00569: =============== ERROR MESSAGE STACK FOLLOWS =============== RMAN-00571: =========================================================== RMAN-03002: failure of backup plus archivelog command at 07/12/2021 03:29:07 RMAN-06183: datafile or datafile copy +ORA_DATA/wwibetest_bosqeumcsdb/datafile/undotbs1.779.1077535587 (file number 3) larger than MAXSETSIZE
Finding and solution:
RMAN> show all;
using target database control file instead of recovery catalog
RMAN configuration parameters for database with db_unique_name WWIBEMCS_BOSQEUMCSDB201 are:
CONFIGURE RETENTION POLICY TO REDUNDANCY 1;
CONFIGURE BACKUP OPTIMIZATION ON;
CONFIGURE DEFAULT DEVICE TYPE TO DISK;
CONFIGURE CONTROLFILE AUTOBACKUP ON;
CONFIGURE CONTROLFILE AUTOBACKUP FORMAT FOR DEVICE TYPE DISK TO ‘/backup/oracle/WWIBEMCS/rman/WWIBEMCS_autobcf_%F’;
CONFIGURE DEVICE TYPE DISK PARALLELISM 4 BACKUP TYPE TO BACKUPSET;
CONFIGURE DATAFILE BACKUP COPIES FOR DEVICE TYPE DISK TO 1;
CONFIGURE ARCHIVELOG BACKUP COPIES FOR DEVICE TYPE DISK TO 1;
CONFIGURE CHANNEL DEVICE TYPE DISK FORMAT ‘/bck/oracle/%d/rman/%d_%Y%M%D_%u_s%s_p%p’;
CONFIGURE MAXSETSIZE TO 30 G;
CONFIGURE ENCRYPTION FOR DATABASE OFF; # default
CONFIGURE ENCRYPTION ALGORITHM ‘AES128’; # default
CONFIGURE COMPRESSION ALGORITHM ‘BASIC’ AS OF RELEASE ‘DEFAULT’ OPTIMIZE FOR LOAD TRUE ; # default
CONFIGURE ARCHIVELOG DELETION POLICY TO NONE;
CONFIGURE SNAPSHOT CONTROLFILE NAME TO ‘/wwi/wwdb/db/oracle/product/11.2.0.4/db_1/dbs/snapcf_WWIBEMCS.f’; # default
RMAN> CONFIGURE MAXSETSIZE TO 35 G;
old RMAN configuration parameters:
CONFIGURE MAXSETSIZE TO 30 G;
new RMAN configuration parameters:
CONFIGURE MAXSETSIZE TO 35 G;
new RMAN configuration parameters are successfully stored
RMAN> show all;
RMAN configuration parameters for database with db_unique_name WWIBEMCS_BOSQEUMCSDB201 are:
CONFIGURE RETENTION POLICY TO REDUNDANCY 1;
CONFIGURE BACKUP OPTIMIZATION ON;
CONFIGURE DEFAULT DEVICE TYPE TO DISK;
CONFIGURE CONTROLFILE AUTOBACKUP ON;
CONFIGURE CONTROLFILE AUTOBACKUP FORMAT FOR DEVICE TYPE DISK TO ‘/backup/oracle/WWIBEMCS/rman/WWIBEMCS_autobcf_%F’;
CONFIGURE DEVICE TYPE DISK PARALLELISM 4 BACKUP TYPE TO BACKUPSET;
CONFIGURE DATAFILE BACKUP COPIES FOR DEVICE TYPE DISK TO 1;
CONFIGURE ARCHIVELOG BACKUP COPIES FOR DEVICE TYPE DISK TO 1;
CONFIGURE CHANNEL DEVICE TYPE DISK FORMAT ‘/bck/oracle/%d/rman/%d_%Y%M%D_%u_s%s_p%p’;
CONFIGURE MAXSETSIZE TO 35 G;
Now I ran the RMAN backup it went successful.
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Description:
In this blog, we are going to see take RMAN backup in asm storage and restore the database to another server.
RMAN Restore ASM:
Take the backup using RMAN in source host copy the backup into destination host, using that backup files to restore the database.
Overall Steps:
Source server:
1. Backup Database using RMAN
2. Create pfile from spfile
3. Copy the backup files to the destination server
Destination server:
1. Edit pfile
2. Create Required Folders in destination server
3. Add the database entry in oratab
4. Startup using pfile Nomount stage
5. Restore control file
6. Mount database
7. Catalog backup pieces
8. Restore and recover the database
9. Change dbname/DBID uisng NID
10. verify the database name and id.
Source Server:
Step 1: Take backup using RMAN:
Create backup directory:
Backup script:
run {
allocate channel t1 type disk;
allocate channel t1 type disk;
allocate channel t1 type disk;
backup incremental level 0 database format ‘/u01/share/backup/database_%d_%u_%s’;
release channel t1;
}
sql ‘alter system archive log current’;
run {
allocate channel a1 type disk;
backup archivelog all format ‘/u01/share/backup/arch_%d_%u_%s’;
release channel a1;
}
run {
allocate channel c1 type disk;
backup current controlfile format ‘/u01/share/backup/Control_%d_%u_%s’;
release channel c1;
}
exit
Connect RMAN and execute the script:
[oracle@asm ~]$ rman target /
Recovery Manager: Release 19.0.0.0.0 – Production on Fri Jan 21 08:01:54 2022
Version 19.3.0.0.0
Copyright (c) 1982, 2019, Oracle and/or its affiliates. All rights reserved.
connected to target database: ORAASM (DBID=1977555372)
RMAN> @backup.rcv
RMAN> run {
2> allocate channel t1 type disk;
3> allocate channel t2 type disk;
4> allocate channel t3 type disk;
5> backup incremental level 0 database format ‘/u01/share/backup/database_%d_%u_%s’;
6> release channel t1;
7> release channel t2;
8> release channel t3;
9> }
using target database control file instead of recovery catalog
allocated channel: t1
channel t1: SID=78 device type=DISK
allocated channel: t3
channel t3: SID=88 device type=DISK
Starting backup at 21-JAN-22
channel t1: starting incremental level 0 datafile backup set
channel t1: specifying datafile(s) in backup set
input datafile file number=00001 name=+DATA/ORAASM/DATAFILE/system.257.1092813819
channel t1: starting piece 1 at 21-JAN-22
channel t2: starting incremental level 0 datafile backup set
channel t2: specifying datafile(s) in backup set
input datafile file number=00003 name=+DATA/ORAASM/DATAFILE/sysaux.258.1092813853
input datafile file number=00014 name=+DATA/ORAASM/DATAFILE/tblspace.281.1093044531
input datafile file number=00007 name=+DATA/ORAASM/DATAFILE/users.260.1092813869
channel t2: starting piece 1 at 21-JAN-22
channel t3: starting incremental level 0 datafile backup set
channel t3: specifying datafile(s) in backup set
input datafile file number=00004 name=+DATA/ORAASM/DATAFILE/undotbs1.259.1092813869
input datafile file number=00015 name=+DATA/ORAASM/DATAFILE/test.282.1094538795
input datafile file number=00013 name=+DATA/ORAASM/DATAFILE/tblspace.280.1093044407
channel t3: starting piece 1 at 21-JAN-22
channel t3: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_080jqqo1_8 tag=TAG20220121T080204 comment=NONE
channel t3: backup set complete, elapsed time: 00:00:16
channel t3: starting incremental level 0 datafile backup set
channel t3: specifying datafile(s) in backup set
input datafile file number=00010 name=+DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/sysaux.277.1092815375
input datafile file number=00011 name=+DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/undotbs1.275.1092815375
channel t3: starting piece 1 at 21-JAN-22
channel t1: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_060jqqns_6 tag=TAG20220121T080204 comment=NONE
channel t1: backup set complete, elapsed time: 00:01:10
channel t1: starting incremental level 0 datafile backup set
channel t1: specifying datafile(s) in backup set
input datafile file number=00006 name=+DATA/ORAASM/86B637B62FE07A65E053F706E80A27CA/DATAFILE/sysaux.271.1092814421
channel t1: starting piece 1 at 21-JAN-22
channel t2: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_070jqqns_7 tag=TAG20220121T080204 comment=NONE
channel t2: backup set complete, elapsed time: 00:01:13
channel t2: starting incremental level 0 datafile backup set
channel t2: specifying datafile(s) in backup set
input datafile file number=00009 name=+DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/system.276.1092815375
input datafile file number=00012 name=+DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/users.279.1092815459
channel t2: starting piece 1 at 21-JAN-22
channel t3: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_090jqqop_9 tag=TAG20220121T080204 comment=NONE
channel t3: backup set complete, elapsed time: 00:00:49
channel t3: starting incremental level 0 datafile backup set
channel t3: specifying datafile(s) in backup set
input datafile file number=00005 name=+DATA/ORAASM/86B637B62FE07A65E053F706E80A27CA/DATAFILE/system.270.1092814419
channel t3: starting piece 1 at 21-JAN-22
channel t1: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_0a0jqqq2_10 tag=TAG20220121T080204 comment=NONE
channel t1: backup set complete, elapsed time: 00:00:12
channel t1: starting incremental level 0 datafile backup set
channel t1: specifying datafile(s) in backup set
input datafile file number=00008 name=+DATA/ORAASM/86B637B62FE07A65E053F706E80A27CA/DATAFILE/undotbs1.272.1092814421
channel t1: starting piece 1 at 21-JAN-22
channel t1: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_0d0jqqqg_13 tag=TAG20220121T080204 comment=NONE
channel t1: backup set complete, elapsed time: 00:00:26
channel t2: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_0b0jqqq9_11 tag=TAG20220121T080204 comment=NONE
channel t2: backup set complete, elapsed time: 00:00:27
channel t3: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/database_ORAASM_0c0jqqqf_12 tag=TAG20220121T080204 comment=NONE
channel t3: backup set complete, elapsed time: 00:00:26
Finished backup at 21-JAN-22
Starting Control File and SPFILE Autobackup at 21-JAN-22
piece handle=+DATA/ORAASM/AUTOBACKUP/2022_01_21/s_1094544235.283.1094544237 comment=NONE
Finished Control File and SPFILE Autobackup at 21-JAN-22
released channel: t1
released channel: t2
released channel: t3
RMAN> sql ‘alter system archive log current’;
sql statement: alter system archive log current
RMAN> run {
2> allocate channel a1 type disk;
3> backup archivelog all format ‘/u01/share/backup/arch_%d_%u_%s’;
4> release channel a1;
5> }
allocated channel: a1
channel a1: SID=78 device type=DISK
Starting backup at 21-JAN-22
current log archived
channel a1: starting archived log backup set
channel a1: specifying archived log(s) in backup set
input archived log thread=1 sequence=16 RECID=1 STAMP=1094544242
input archived log thread=1 sequence=17 RECID=2 STAMP=1094544243
channel a1: starting piece 1 at 21-JAN-22
channel a1: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/arch_ORAASM_0f0jqqrk_15 tag=TAG20220121T080403 comment=NONE
channel a1: backup set complete, elapsed time: 00:00:03
Finished backup at 21-JAN-22
Starting Control File and SPFILE Autobackup at 21-JAN-22
piece handle=+DATA/ORAASM/AUTOBACKUP/2022_01_21/s_1094544247.289.1094544249 comment=NONE
Finished Control File and SPFILE Autobackup at 21-JAN-22
released channel: a1
RMAN> run {
2> allocate channel c1 type disk;
3> backup current controlfile format ‘/u01/share/backup/Control_%d_%u_%s’;
4> release channel c1;
5> }
allocated channel: c1
channel c1: SID=78 device type=DISK
Starting backup at 21-JAN-22
channel c1: starting full datafile backup set
channel c1: specifying datafile(s) in backup set
including current control file in backup set
channel c1: starting piece 1 at 21-JAN-22
channel c1: finished piece 1 at 21-JAN-22
piece handle=/u01/share/backup/Control_ORAASM_0h0jqqrs_17 tag=TAG20220121T080412 comment=NONE
channel c1: backup set complete, elapsed time: 00:00:01
Finished backup at 21-JAN-22
Starting Control File and SPFILE Autobackup at 21-JAN-22
piece handle=+DATA/ORAASM/AUTOBACKUP/2022_01_21/s_1094544256.290.1094544257 comment=NONE
Finished Control File and SPFILE Autobackup at 21-JAN-22
released channel: c1
RMAN> exit
Recovery Manager complete.
Check the backup file location:
Step 2: Create pfile from spfile
create pfile=’/home/oracle/initasmora.ora’ from spfile; Step 3: Copy the backup file into destination server
run
{
ALLOCATE CHANNEL d1 DEVICE TYPE disk;
ALLOCATE CHANNEL d2 DEVICE TYPE disk;
set newname for datafile 1 to ‘+DATA’;
set newname for datafile 2 to ‘+DATA’;
set newname for datafile 3 to ‘+DATA’;
set newname for datafile 4 to ‘+DATA’;
set newname for datafile 5 to ‘+DATA’;
SQL “ALTER DATABASE RENAME FILE ”+DATA/oraasm/onlinelog/group_3.268.1092813965”
to ”+DATA”” ;
SQL “ALTER DATABASE RENAME FILE ”+DATA/oraasm/onlinelog/group_2.266.1092813951”
to ”+DATA”” ;
SQL “ALTER DATABASE RENAME FILE ”+DATA/oraasm/onlinelog/group_1.265.1092813949”
to ”+DATA”” ;
SET UNTIL SEQUENCE 12; <— 11+1
RESTORE DATABASE;
SWITCH DATAFILE ALL;
RECOVER DATABASE;
}
SQL> startup nomount pfile='initasmora.ora';
ORACLE instance started.
Total System Global Area 1269366784 bytes
Fixed Size 2227984 bytes
Variable Size 838861040 bytes
Database Buffers 419430400 bytes
Redo Buffers 8847360 bytes
SQL> alter database mount;
Database altered.
SQL>
set db name and id:
[oracle@asm asmora]$ . oraenv
ORACLE_SID = [asmora] ?
The Oracle base remains unchanged with value /u01/app/oracle
[oracle@asm asmora]$ nid target=sys dbname=asmora
DBNEWID: Release 19.0.0.0.0 – Production on Fri Jan 21 09:09:50 2022
Copyright (c) 1982, 2019, Oracle and/or its affiliates. All rights reserved.
Password:
Connected to database ORAASM (DBID=1977555372)
Connected to server version 19.3.0
Control Files in database:
+DATA/ASMORA/CONTROLFILE/current.262.1092813933
+DATA/ASMORA/CONTROLFILE/current.261.1092813933
Change database ID and database name ORAASM to ASMORA? (Y/[N]) => y
Proceeding with operation
Changing database ID from 1977555372 to 65466533
Changing database name from ORAASM to ASMORA
Control File +DATA/ASMORA/CONTROLFILE/current.262.1092813933 – modified
Control File +DATA/ASMORA/CONTROLFILE/current.261.1092813933 – modified
Datafile +DATA/ORAASM/DATAFILE/system.257.109281381 – dbid changed, wrote new name
Datafile +DATA/ORAASM/DATAFILE/sysaux.258.109281385 – dbid changed, wrote new name
Datafile +DATA/ORAASM/DATAFILE/undotbs1.259.109281386 – dbid changed, wrote new name
Datafile +DATA/ORAASM/86B637B62FE07A65E053F706E80A27CA/DATAFILE/system.270.109281441 – dbid changed, wrote new name
Datafile +DATA/ORAASM/86B637B62FE07A65E053F706E80A27CA/DATAFILE/sysaux.271.109281442 – dbid changed, wrote new name
Datafile +DATA/ORAASM/DATAFILE/users.260.109281386 – dbid changed, wrote new name
Datafile +DATA/ORAASM/86B637B62FE07A65E053F706E80A27CA/DATAFILE/undotbs1.272.109281442 – dbid changed, wrote new name
Datafile +DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/system.276.109281537 – dbid changed, wrote new name
Datafile +DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/sysaux.277.109281537 – dbid changed, wrote new name
Datafile +DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/undotbs1.275.109281537 – dbid changed, wrote new name
Datafile +DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/DATAFILE/users.279.109281545 – dbid changed, wrote new name
Datafile +DATA/ORAASM/DATAFILE/tblspace.280.109304440 – dbid changed, wrote new name
Datafile +DATA/ORAASM/DATAFILE/tblspace.281.109304453 – dbid changed, wrote new name
Datafile +DATA/ORAASM/DATAFILE/test.282.109453879 – dbid changed, wrote new name
Datafile +DATA/ORAASM/TEMPFILE/temp.269.109281404 – dbid changed, wrote new name
Datafile +DATA/ORAASM/D47CB418C2B91B66E053867EA8C0C5A0/TEMPFILE/temp.273.109281445 – dbid changed, wrote new name
Datafile +DATA/ORAASM/D47CEAB72C2F2513E053867EA8C0538D/TEMPFILE/temp.278.109281541 – dbid changed, wrote new name
Control File +DATA/ASMORA/CONTROLFILE/current.262.1092813933 – dbid changed, wrote new name
Control File +DATA/ASMORA/CONTROLFILE/current.261.1092813933 – dbid changed, wrote new name
Instance shut down
Database name changed to ASMORA.
Modify parameter file and generate a new password file before restarting.
Database ID for database ASMORA changed to 65466533.
All previous backups and archived redo logs for this database are unusable.
Database is not aware of previous backups and archived logs in Recovery Area.
Database has been shutdown, open database with RESETLOGS option.
Succesfully changed database name and ID.
DBNEWID – Completed succesfully.
[oracle@asm asmora]$
Step 10: check the DB name and id
SQL> alter database open resetlogs;
Database altered.
SQL> select name, open_mode, db_unique_name, dbid from v$database;
NAME OPEN_MODE DB_UNIQUE_NAME DBID
ASMORA READ WRITE asmora 65466533
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7. scan and list the disk using oracleasm: [root@asm dev]# oracleasm scandisks Reloading disk partitions: done Cleaning any stale ASM disks… Scanning system for ASM disks… [root@asm dev]# oracleasm listdisks DISK1 DISK2 [root@asm dev]#
8. asmcmd tool:
[oracle@asm ~]$ asmcmd ASMCMD> ASMCMD>
I. list the disk group ASMCMD> lsdg State Type Rebal Sector Logical_Sector Block AU Total_MB Free_MB Req_mir_free_MB Usable_file_MB Offline_disks Voting_files Name MOUNTED EXTERN N 512 512 4096 4194304 30712 25860 0 25860 0 N DATA/ ASMCMD>
II. list datafile,controlfile
ASMCMD> cd DATA/ ASMCMD> ls ASM/ ORAASM/ orapwasm ASMCMD> cd ORAASM ASMCMD> ls 86B637B62FE07A65E053F706E80A27CA/ CONTROLFILE/ D47CB418C2B91B66E053867EA8C0C5A0/ D47CEAB72C2F2513E053867EA8C0538D/ DATAFILE/ ONLINELOG/ PARAMETERFILE/ TEMPFILE/ ASMCMD> cd DATAFILE ASMCMD> ls SYSAUX.258.1092813853 SYSTEM.257.1092813819 UNDOTBS1.259.1092813869 USERS.260.1092813869 ASMCMD> pwd +DATA/ORAASM/DATAFILE ASMCMD>
9. check css,has status:
[oracle@asm ~]$ crsctl check has CRS-4638: Oracle High Availability Services is online [oracle@asm ~]$ crsctl check css CRS-4529: Cluster Synchronization Services is online [oracle@asm ~]$
10. check has version:
[oracle@asm ~]$ crsctl query has releaseversion Oracle High Availability Services release version on the local node is [19.0.0.0.0] [oracle@asm ~]$ crsctl query has softwareversion Oracle High Availability Services version on the local node is [19.0.0.0.0] [oracle@asm ~]$
11. asmca —> GUI for create and manage diskgroup:
12. KFOD – discovering disks with the help of asm disk strings: KFED – discovering disk headers
13. check olr and ocr location : [oracle@asm ~]$ ocrcheck Status of Oracle Cluster Registry is as follows : Version : 4 Total space (kbytes) : 491684 Used space (kbytes) : 82368 Available space (kbytes) : 409316 ID : 786336035 Device/File Name : /u01/app/grid/cdata/localhost/local.ocr Device/File integrity check succeeded
Device/File not configured
Device/File not configured
Device/File not configured
Device/File not configured
Cluster registry integrity check succeeded
Logical corruption check bypassed due to non-privileged user
[oracle@asm ~]$ [oracle@asm ~]$ ocrcheck -local Status of Oracle Local Registry is as follows : Version : 4 Total space (kbytes) : 491684 Used space (kbytes) : 83496 Available space (kbytes) : 408188 ID : 476403298 Device/File Name : /u01/app/oracle/crsdata/asm/olr/asm_19.olr Device/File integrity check succeeded
Local registry integrity check succeeded
Logical corruption check bypassed due to non-privileged user
[oracle@asm ~]$ ocrcheck -local -config Oracle Local Registry configuration is : Device/File Name : /u01/app/oracle/crsdata/asm/olr/asm_19.olr [oracle@asm ~]$
14. Check the asm status in sysasm admin:
[oracle@asm ~]$ sqlplus / as sysasm
SQL*Plus: Release 19.0.0.0.0 – Production on Sun Jan 2 17:57:52 2022 Version 19.3.0.0.0
Copyright (c) 1982, 2019, Oracle. All rights reserved.
Connected to: Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 – Production Version 19.3.0.0.0
15. check instance type:
SQL> show parameter INSTANCE_TYPE
NAME TYPE VALUE ———————————— ———– —————————— instance_type string ASM
16. spfile location:
SQL> show parameter spfile
NAME TYPE VALUE ———————————— ———– —————————— spfile string +DATA/ASM/ASMPARAMETERFILE/reg istry.253.1092745689
17. pfile creation: SQL> create pfile from spfile;
File created.
SQL> exit Disconnected from Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 – Production Version 19.3.0.0.0 [oracle@asm ~]$ cd $ORACLE_HOME/dbs [oracle@asm dbs]$ ls ab_+ASM.dat hc_+ASM.dat init+ASM.ora init.ora [oracle@asm dbs]$ cat init+ASM.ora +ASM.__oracle_base=’/u01/app/oracle’#ORACLE_BASE set from in memory value .asm_diskstring=’/dev/oracleasm/disks’ .asm_power_limit=1 .large_pool_size=12M .remote_login_passwordfile=’EXCLUSIVE’ [oracle@asm dbs]$ sqlplus / as sysasm
SQL*Plus: Release 19.0.0.0.0 – Production on Sun Jan 2 18:01:05 2022 Version 19.3.0.0.0
Copyright (c) 1982, 2019, Oracle. All rights reserved.
Connected to: Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 – Production Version 19.3.0.0.0
18. instance type and status:
SQL> select instance_name,status from v$instance;
INSTANCE_NAME STATUS —————- ———— +ASM STARTED
SQL> exit Disconnected from Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 – Production Version 19.3.0.0.0 [oracle@asm dbs]$ crsctl stat res -t ——————————————————————————– Name Target State Server State details ——————————————————————————– Local Resources ——————————————————————————– ora.DATA.dg ONLINE ONLINE asm STABLE ora.LISTENER.lsnr ONLINE ONLINE asm STABLE ora.asm ONLINE ONLINE asm Started,STABLE ora.ons OFFLINE OFFLINE asm STABLE ——————————————————————————– Cluster Resources ——————————————————————————– ora.cssd 1 ONLINE ONLINE asm STABLE ora.diskmon 1 OFFLINE OFFLINE STABLE ora.evmd 1 ONLINE ONLINE asm STABLE ora.oraasm.db 1 ONLINE ONLINE asm Open,HOME=/u01/app/o racle/product/19.0.0 /dbhome_1,STABLE ——————————————————————————– [oracle@asm dbs]$
19. ASMCMD check datafile and controlfile:
[oracle@asm dbs]$ asmcmd ASMCMD> ASMCMD> ASMCMD> ASMCMD> lsdg State Type Rebal Sector Logical_Sector Block AU Total_MB Free_MB Req_mir_free_MB Usable_file_MB Offline_disks Voting_files Name MOUNTED EXTERN N 512 512 4096 4194304 30712 25852 0 25852 0 N DATA/ ASMCMD> cd +DATA/oraasm/datafile ASMCMD> ls SYSAUX.258.1092813853 SYSTEM.257.1092813819 UNDOTBS1.259.1092813869 USERS.260.1092813869 ASMCMD> ls -l Type Redund Striped Time Sys Name DATAFILE UNPROT COARSE JAN 02 17:00:00 Y SYSAUX.258.1092813853 DATAFILE UNPROT COARSE JAN 02 17:00:00 Y SYSTEM.257.1092813819 DATAFILE UNPROT COARSE JAN 02 17:00:00 Y UNDOTBS1.259.1092813869 DATAFILE UNPROT COARSE JAN 02 17:00:00 Y USERS.260.1092813869 ASMCMD>
ASMCMD> cd +DATA/oraasm/parameterfile
ASMCMD> ls -l Type Redund Striped Time Sys Name PARAMETERFILE UNPROT COARSE JAN 02 17:00:00 Y spfile.274.1092815069 ASMCMD>
ASMCMD> ls -l Type Redund Striped Time Sys Name ASMPARAMETERFILE UNPROT COARSE DEC 31 12:00:00 Y REGISTRY.253.1092745689 ASMCMD> pwd +DATA/ASM/ASMPARAMETERFILE ASMCMD>
20. query to check asm_disk and asm disk_group:
SQL> select disk_number,name,path,header_status,mode_status,state,total_mb,free_mb from v$asm_disk;
DISK_NUMBER NAME PATH HEADER_STATU MODE_ST STATE TOTAL_MB FREE_MB —————————————————————————————————- 0 DATA_0000 /dev/oracleasm/disks/DISK1 MEMBER ONLINE NORMAL 20476 17228
1 DATA_0001 /dev/oracleasm/disks/DISK2 MEMBER ONLINE NORMAL 10236 8624
SQL> select group_number,name,state,type from v$asm_diskgroup;
GROUP_NUMBER NAME STATE TYPE ———— —————————— ———– —— 1 DATA MOUNTED EXTERN
SQL>
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1. Check the status of Notifications: ====================================
col RECIPIENT_ROLE format a20
col FROM_USER format a20
col TO_USER format a20
set lines 170
select NOTIFICATION_ID,MESSAGE_TYPE,MESSAGE_NAME,RECIPIENT_ROLE,STATUS,FROM_USER,TO_USER from wf_notifications where NOTIFICATION_ID=‘&1′;
2.Check the status of Workflow components: =========================================
SELECT component_name as Component, component_status as Status FROM fnd_svc_components
3. To check whether notification is present: =========================================
select recipient_role,notification_id,status,mail_status from wf_notifications where recipient_role like ‘&user_name’;
The e-mail notification is sent only if all of the following is true.
Notification status is OPEN or CANCELED
Notification mail_status is MAIL or INVALID
4. Check Recipient role has a valid e-mail address and notification preference MAIL% =========================================
SELECT email_address, nvl(WF_PREF.get_pref(name, ‘MAILTYPE’), notification_preference)
FROM wf_roles
WHERE name = ‘&recipient_role’;
Recipient can receive email notification only if
notification preference is not set ‘QUERY’ / ‘DISABLED’ / ‘SUMMARY’ / ‘SUMHTML’ &
recipient has valid email address
5.WF_DEFERRED Queue volume: ===========================
col corrid format a60
set lines 130
set pages 100
select NVL(substr(wfe.corrid,1,50),’NULL – No Value’) corrid, decode(wfe.state,0,’0 = Ready’,1,’1 = Delayed’,2,’2 = Retained’,
3,’3 = Exception’,to_char(substr(wfe.state,1,12))) State,count(*) COUNT
from applsys.wf_deferred wfe group by wfe.corrid, wfe.state;
6.WF_NOTIFICATION_OUT Queue volume: ===================================
col corrid format a60
set lines 130
set pages 100
select NVL(substr(wfe.corrid,1,50),’NULL – No Value’) corrid, decode(wfe.state,0,’0 = Ready’,1,’1 = Delayed’,2,’2 = Retained’,
3,’3 = Exception’,to_char(substr(wfe.state,1,12))) State,count(*)COUNT
from applsys.wf_notification_out wfe group by wfe.corrid, wfe.state;
Description: In this blog, we are going to see step by step process of oracle data guard manual switchover process physical standby to primary.
Switch Over: A switchover is a role reversal between the primary database and one of its standby databases. A switchover guarantees no data loss. This is typically done for planned maintenance of the primary system. During a switchover, the primary database transitions to a standby role, and the standby database transitions to the primary role. The transition occurs without having to re-enable either database.
Overall Steps:
1. Check Primary and Standby database role and open_mode.2. Change nls_date_format and check current log sync status.3. Check switch over status both primary and standby servers.4. Primary side switch over process.5. Standby side switch over process.6. Check the log sync status both sides.7. New primary database parameter configuration.8. Switch log files and check the log sync status.
Step 1:- Check primary and standby database role and open_mode.
SQL> select name,open_mode,database_role from v$database; Step 2:- Change nls_date_format and check current log sync status.
check the log sequence on both primary and standby sides. SQL> ALTER SESSION SET nls_date_format=’DD-MON-YYYY HH24:MI:SS’; Session altered. SQL> SELECT sequence#, first_time, next_time, applied FROM v$archived_log ORDER BY sequence#; Step 3:- Check switch over status both primary and standby servers. SQL> select switchover_status from v$database;
Step 4:- Primary side switch over process.
Switch over to standby. SQL> alter database commit to switchover to standby; Database altered. Bounce the database. SQL> shut immediate SQL> startup nomount Mount standby database. SQL> alter database mount standby database; Start MRP process. SQL> alter database recover managed standby database disconnect from session; Database altered. check the database role. SQL> select name,open_mode,database_role from v$database; Step 5:- Standby side switchover process:
Stop the MRP process. SQL> alter database recover managed standby database cancel; Database altered. Switch Over to Primary. SQL> alter database commit to switchover to primary; Database altered. Check database role changed or not and open_mode. SQL> select name,open_mode,database_role from v$database; Open the database. SQL> alter database open; Database altered. Check the database role and open_mode. SQL> select name,open_mode,database_role from v$database; Step 6:- Check the log sync status both sides. SQL> archive log list
Check both side log sync status.
Step 7:- New primary database parameter configuration for log sync. SQL> alter system set log_archive_dest_1 =’location=use_db_recovery_file_dest valid_for=(all_logfiles,all_roles) db_unique_name=local’ scope=spfile; System altered.
SQL> alter system set log_archive_dest_2 =’service=cloud async valid_for=(online_logfiles,primary_role) db_unique_name=cloud’ scope=spfile; System altered.
SQL> alter system set db_file_name_convert=’/u01/app/oracle/oradata/LOCAL/datafile/’,’/u01/app/oracle/oradata/CLOUD/datafile/’ scope=spfile; System altered.
SQL> alter system set log_file_name_convert=’/u01/app/oracle/oradata/LOCAL/onlinelog/’,’/u01/app/oracle/oradata/CLOUD/onlinelog/’ scope=spfile; System altered.
SQL> ALTER SYSTEM SET log_archive_config=’dg_config=(local,cloud)’ SCOPE=both; System altered.
SQL> ALTER SYSTEM SET fal_server=’cloud’ SCOPE=both; System altered.
SQL> ALTER SYSTEM SET fal_client=’local’ SCOPE=both; System altered.
SQL> select DEST_NAME,STATUS,ERROR from v$ARCHIVE_DEST where status!=’INACTIVE’; DEST_NAME ——————————————————————————– STATUS ERROR ——— —————————————————————– LOG_ARCHIVE_DEST_1 VALID Step 8:-Switch log files and check the log sync status. Primary side switch logfiles: enable log_archive_dest_state_2. SQL> alter system switch logfile; SQL> archive log list Check log file sync status on standby side:- Restart the MRP process. SQL> alter database recover managed standby database cancel; Database altered. SQL> alter database recover managed standby database disconnect nodelay; Database altered. check log sync status. SQL> SELECT ARCH.THREAD# “Thread”, ARCH.SEQUENCE# “Last Sequence Received”, APPL.SEQUENCE# “Last Sequence Applied”, (ARCH.SEQUENCE# – APPL.SEQUENCE#) “Difference” FROM (SELECT THREAD# ,SEQUENCE# FROM V$ARCHIVED_LOG WHERE (THREAD#,FIRST_TIME ) IN (SELECT THREAD#,MAX(FIRST_TIME) FROM V$ARCHIVED_LOG GROUP BY THREAD#)) ARCH, (SELECT THREAD# ,SEQUENCE# FROM V$LOG_HISTORY WHERE (THREAD#,FIRST_TIME ) IN (SELECT THREAD#,MAX(FIRST_TIME) FROM V$LOG_HISTORY GROUP BY THREAD#)) APPL WHERE ARCH.THREAD# = APPL.THREAD# ORDER BY 1;
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