Installation of APEX 21.2 in Linux

Step by step installation of APEX 21.2  in Linux


Description:
    In this blog, we are going to see step-by-step installation steps in oracle apex 21.2 on Linux and database 19c.

Oracle Application Express:

  • Oracle Application Express (APEX) is a low-code development platform.
  • that enables you to build stunning, scalable, secure apps with world-class features that can be deployed anywhere.
  • Using APEX, developers can quickly develop and deploy compelling apps that solve real problems and provide immediate value.
Overall steps:

1. Create a directory copy the software's.
2. Unzip Apex 21.2 Zip File.
3. Create APEX tablesapce.
4. Execute apex installation scripts.
5. Configure the database apex restful services.
6. Alter a apex user in database level and set the password.
7. Set the port number as 0.
8. Unzip java and tomcat Zip files.
9. Create Tomcat environment file, start tomcat and check the ip 
its working or not.
10. In tomcat-user.xml file entries.
11. ORDS  configuration process.
12. apex.war file creation and Set Oracle REST Database Service ORDS 
configuration directory.
13. ORDS installation process.
14. Apex.xml file entries and create image directory and copy images.
15. Start the tomcat and check web page front end working or not.

Required Software’s

Step 1:- Create a Directory and copy the softwares.
    Create a new directory name as apex_21.2.
     Either we can download software or we copy the software’s from available locations using winscp/scp. Step 2:- Unzip the Apex file in the created directory.
     Unzip the Apex software in our customized location after unzipping it will create a directory called apex.
[oracle@primary apex21.2]$ unzip apex_21.2_en.zip
Step 3:- Create a separate tablespace for Apex:
       SQL>create tablesapce APEX datafile ‘/u01/app/oracle/oradata/ORCL/apex02.dbf’ size 1g;
Tablesapce created.
Step 4:- Execute apex installation scripts.
        Script Location – /home/oracle/apex21.2/apex
[oracle@primary apex]$ cat apexins.sql
SQL> @apexins.sql APEX APEX TEMP /i/
Step 5:- Configure the database apex restful services.
       SYS> @apex_rest_config.sql
PL/SQL procedure successfully completed.
       After execute script provide password for public user and apex listener.
Step 6:- Alter a apex user in database level and set the password.
SYS> alter user APEX_LISTENER identified by Apex#321 account unlock;
SYS> alter user APEX_PUBLIC_USER identified by Apex#321 account unlock;
Step 7:- Set the port number as 0. (we need to set default port 8080 while using PLSQL gateway)
SYS> EXEC dbms_xdb.sethttpport(0);
PL/SQL procedure successfully completed.

Step 8:- Unzip java and tomcat Zip files.
Unzip the java software file.
[oracle@primary apex21.2]$ tar -xvf jdk-17_linux-x64_bin.tar.gz
unzip tomcat software file.

[oracle@primary apex21.2]$ tar -xvf apache-tomcat-9.0.27.tar.gz
Step 9:- Create Tomcat environment file, start tomcat and check the ip its working or not.
[oracle@primary ~]$vi  tomcat.env

export JAVA_HOME=/home/oracle/apex21.2/jdk-17.0.1
export CATALINA_HOME=/home/oracle/apex21.2/apache-tomcat-9.0.27
export CATALINA_BASE=$CATALINA_HOME
Start the tomcat using start up script.
script location – cd$CATALINA_HOME/bin/startup.sh
check the system local ip tomcat working or not if working shutdown the tomcat for apex configuration.
System IP – http://192.168.44.128:8080
Step 10:- Tomcat user-xml file entries.
script Location – /home/oracle/apex21.2/apache-tomcat-9.0.27/conf/tomcat-user.xml
<role rolename=”manager-gui” />

<user username=”oracle” password=”oracle” roles=”manager-gui” />Step 11:- ORDS  configuration process.
Make a directory as ords and unzip ords software in that location.
Make a conf directory in that ords location.
ORDS configuration:
Add the dbname and domain entries in the “ords_params.properties” file

[oracle@primary ords]$ cd params/
[oracle@primary params]$ ls
ords_params.properties
[oracle@primary params]$ cat ords_params.properties
#Thu Nov 25 07:19:06 IST 2021
db.hostname=primary.localdomain (mention the Hostname)
db.password=@0509B9AA45A97BE4E54E4C5E0A3BC3E45135BFB52D400C1A4C
db.port=1521
db.servicename=orcl.localdomain (specify the domain)
db.username=APEX_PUBLIC_USER
migrate.apex.rest=false
plsql.gateway.add=true
rest.services.apex.add=true
rest.services.ords.add=true
schema.tablespace.default=APEX (set the tablespace)
schema.tablespace.temp=TEMP
standalone.http.port=8080
standalone.mode=false
user.apex.listener.password=Apex#321
user.apex.restpublic.password=Apex#321
user.public.password=Apex#321
user.tablespace.default=APEX
user.tablespace.temp=TEMP
Step 12:- apex.war file creation and Set Oracle REST Database Service ORDS
configuration directory.
Take a backup for ords war file.

     [oracle@primary ords]$cp ords.war ords.war_bkp_25_11_2021
Move the file ords.war to apex.war
      [oracle@primary ords]$ mv ords.war apex.war
Set Oracle REST Database Service ORDS configuration directory
[oracle@primary ords]$ /home/oracle/apex21.2/jdk-17.0.1/bin/java -jar apex.war configdir /home/oracle/apex21.2/ords/conf
INFO: Set config.dir to /home/oracle/apex21.2/ords/conf in: /home/oracle/apex21.2/ords/apex.war
Step 13:- ORDS installation process:-
       after create apex war file using that to install a java.
[oracle@primary ords]$ /home/oracle/apex21.2/jdk-17.0.1/bin/java -jar apex.war install advanced

Verify ORDS schema in Database Configuration apex with connection host: primary.localdomain port: 1521 service name: orcl.localdomain
Requires to login with administrator privileges to verify Oracle REST Data Services schema.
Enter the administrator username:sys
Enter the database password for SYS AS SYSDBA:
Confirm password:
retrieving information.
Enter the default tablespace for ORDS_METADATA [APEX]:
Enter the temporary tablespace for ORDS_METADATA [TEMP]:
Enter the default tablespace for ORDS_PUBLIC_USER [APEX]:
Enter the temporary tablespace for ORDS_PUBLIC_USER [TEMP]:
Installing Oracle REST Data Services version 19.1.0.r0921545
… Log file written to /home/oracle/ords_install_core_2021-11-25_014419_00456.log
… Verified database prerequisites
… Created Oracle REST Data Services proxy user
… Created Oracle REST Data Services schema
… Granted privileges to Oracle REST Data Services
… Created Oracle REST Data Services database objects
… Log file written to /home/oracle/ords_install_datamodel_2021-11-25_014452_00616.log
… Log file written to /home/oracle/ords_install_apex_2021-11-25_014455_00239.log
Completed installation for Oracle REST Data Services version 19.1.0.r0921545. Elapsed time: 00:00:39.481
Enter 1 if you want to use PL/SQL Gateway or 2 to skip this step.
If using Oracle Application Express or migrating from mod_plsql then you must enter 1 [1]:
Enter the PL/SQL Gateway database user name [APEX_PUBLIC_USER]:
Enter the database password for APEX_PUBLIC_USER:
Confirm password:
Enter 1 to specify passwords for Application Express RESTful Services database users (APEX_LISTENER, APEX_REST_PUBLIC_USER) or 2 to skip this step [1]:
Enter the database password for APEX_LISTENER:
Confirm password:
Enter the database password for APEX_REST_PUBLIC_USER:
Confirm password:
Nov 25, 2021 06:24:50 AM
INFO: reloaded pools: []
Enter 1 if you wish to start in standalone mode or 2 to exit [1]: Step 14:- Apex.xml file entries and create image directory and copy images.
     Make the below entries in apex.xml file.
script location: [oracle@primary conf]$ pwd
/home/oracle/apex21.2/ords/conf/apex/conf

<entry key=”jdbc.InitialLimit”>15</entry>
<entry key=”jdbc.MinLimit”>15</entry>
<entry key=”jdbc.MaxLimit”>50</entry>       Create a images directory and copy the oracle application express images.
[oracle@primary ~]$ mkdir -p  $CATALINA_HOME/webapps/i/
[oracle@primary apex]$ cp -R /home/oracle/apex21.2/apex/images/* $CATALINA_HOME/webapps/i/
     Copy the apex.war file in webapps folder
Step 15:-
Start the tomcat and check apex front end working or not.
start tomcat using a startup script.
[oracle@primary ~]$ . tomcat.env
[oracle@primary ~]$ cd $CATALINA_HOME/bin
[oracle@primary bin]$ sh startup.sh
       check the local IP  and apex application working or not
     http://192.168.44.128:8080/apex
Reset Admin password:-
Reset admin password connect the database and execute the script @apxchpwd.sql
Login to new password:-
      log in the new password the apex application now working fine.
********************************************************************************

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Physical Standby To Snapshot Standby

Physical Standby To Snapshot Standby

Description:
In this Blog, we are going to see what is snapshot standby database and how to convert a physical standby database to a snapshot standby database with Demo.

Snapshot Standby Database:

  • Snapshot standby allows doing a read-write operation on the standby database.
  • We can convert the physical standby database to snapshot standby.
  • On that, we can do all types of testing or can be used as a development database.
  • Once the testing is over we can again convert the snapshot database to physical standby.
  • Once it is converted physical standby database, whatever changes were done to the snapshot standby will be reverted.

Data Guard Configuration Environment:

Overall Steps:

1. Check primary and standby database role and open mode.
2. Check the archived sequence value in standby.
3. Disable the MRP process.
4. Check the flashback status if it not enabled, enable the flashback.
5. Check the db_recovery_file_set location and size.
6. Bounce the database and start the db as mount stage.
7. Convert physical standby to snapshot standby database.
8. Open standby database and check open mode READ/WRITE.
9. Test the snapshot standby database now we can create user and tables 
for testing purpose.
10. verify the log sequence primary and standby.
11. Bounce database again open in mount stage.
12. Convert snapshot standby to physical standby.
13. Bounce the database.
14. Check the database role has been changed as physical standby and the 
mode as read only.
15. After bounce enable the MRP process and check table available or not.

Step 1- Check primary and standby database role and open mode.
Primary database:
[oracle@agent ~]$ sqlplus / as sysdba
SQL*Plus: Release 19.0.0.0.0 – Production on Thu Nov 18 14:16:48 2021
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
SQL> select status,instance_name,database_role,open_mode from v$database,v$Instance;
STATUS INSTANCE_NAME DATABASE_ROLE OPEN_MODE
———— —————- —————- ——————–
OPEN agent PRIMARY READ WRITE
SQL>

Standby database:
[oracle@data ~]$ sqlplus / as sysdba
SQL*Plus: Release 19.0.0.0.0 – Production on Thu Nov 18 14:18:41 2021
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

SQL> select status,instance_name,database_role,open_mode from v$database,v$Instance;

STATUS INSTANCE_NAME DATABASE_ROLE OPEN_MODE
———— —————- —————- ——————–
OPEN data PHYSICAL STANDBY READ ONLY WITH APPLY
SQL>

Step 2:- Check the archived sequence value in standby:
SQL> select thread#,max(sequence#) from v$archived_log group by thread#;
THREAD# MAX(SEQUENCE#)
———- ————–
1                 14

Step 3:- Disable the MRP process in the standby database:
SQL> alter database recover managed standby database cancel;
Database altered.

Step 4:- Check the flashback status if it is not enabled enable the flashback.
SQL> select flashback_on from v$database;

FLASHBACK_ON
——————
NO
SQL> alter database flashback on;
Database altered.
SQL> select flashback_on from v$database;

FLASHBACK_ON
——————
YES

Step 5:- Check the db_recovery_file_set location and size.
SQL> show parameter db_recovery_file_dest
NAME TYPE VALUE
———————————— ———– ——————————
db_recovery_file_dest string /u01/app/oracle/fast_recovery_
area
db_recovery_file_dest_size big integer 8256M

Step 6:- Bounce the database and start the DB as mount stage:
SQL> shut immediate
ORA-01109: database not open
Database dismounted.
ORACLE instance shut down.
SQL> startup mount
ORACLE instance started.

Total System Global Area 1258290752 bytes
Fixed Size 8896064 bytes
Variable Size 738197504 bytes
Database Buffers 503316480 bytes
Redo Buffers 7880704 bytes
Database mounted.

Step 7:- Convert physical standby to snapshot standby database:
SQL> alter database convert to snapshot standby;
Database altered.

Step 8:- Open standby database check  read/write mode, and database role:
SQL> alter database open;
Database altered.
SQL> select status, instance_name, database_role,open_mode from v$database, v$instance;
STATUS INSTANCE_NAME DATABASE_ROLE OPEN_MODE
———— —————- —————- ——————–
MOUNTED data SNAPSHOT STANDBY MOUNTED

Step 9:- Test the snapshot standby database now we can create user and tables for testing purposes.
SQL> create user agent identified by vbt default tablespace users quota unlimited on users;
User created
SQL> grant connect,resource to agent;
Grant succeeded.
SQL> conn agent/vbt
Connected.
SQL> create table test(id number,name varchar2(20));
Table created.
SQL> insert into test values(101,’ram’);
1 row created.
SQL> insert into test values(102,’raj’);
1 row created.
SQL> commit;
Commit complete.
SQL> select * from test;
ID NAME
———- ——————–
101 ram
102 raj

Step 10:- verify the log sequence primary and standby.
Primary side
SQL> select thread#,max(sequence#) from v$archived_log group by thread#;
THREAD# MAX(SEQUENCE#)
———- ————–
1 14
Standby side
SQL> select thread#,max(sequence#) from v$archived_log group by thread#;

THREAD# MAX(SEQUENCE#)
———- ————–
1 14
SQL> select process,status,sequence# from v$managed_standby;

PROCESS STATUS SEQUENCE#
——— ———— ———-
ARCH CONNECTED 0
DGRD ALLOCATED 0
DGRD ALLOCATED 0
ARCH CONNECTED 0
ARCH CONNECTED 0
ARCH CONNECTED 0
ARCH CONNECTED 0
LNS CONNECTED 0
DGRD ALLOCATED 0

Step 11:- Bounce database again open in mount stage.
SQL> shut immediate
Database closed.
Database dismounted.
ORACLE instance shut down.
SQL> startup mount
ORACLE instance started.

Total System Global Area 1258290752 bytes
Fixed Size 8896064 bytes
Variable Size 754974720 bytes
Database Buffers 486539264 bytes
Redo Buffers 7880704 bytes
Database mounted.

Step 12:- convert snapshot standby to physical standby:
SQL> alter database convert to physical standby;
Database altered.

Step 13- Bounce the database
SQL> shut immediate
ORA-01109: database not open
Database dismounted.
ORACLE instance shut down.
SQL> startup
ORACLE instance started.
Total System Global Area 1258290752 bytes
Fixed Size 8896064 bytes
Variable Size 754974720 bytes
Database Buffers 486539264 bytes
Redo Buffers 7880704 bytes
Database mounted.
Database opened.

Step 14:- check the database role has been changed as physical standby and the mode as read-only
SQL> select status,instance_name,database_role,open_mode from v$database,v$Instance;

STATUS INSTANCE_NAME DATABASE_ROLE OPEN_MODE
———— —————- —————- ——————–
OPEN data PHYSICAL STANDBY READ ONLY

Step 15:- After bounce enable the MRP process and check table available or not.
SQL> alter database recover managed standby database disconnect from session;
Database altered.

SQL> select * from agent.test;
select * from agent.test
ERROR at line 1:
ORA-00942: table or view does not exist
SQL>


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19c Physical standby configuration – Dataguard

Physical standby configuration:


Description:
         In this Blog we are going to see the step by step process of data Guard configuration, and primary to physical standby database demo.

what Is Data Guard:

  • Oracle data Guard ensures high availability, data protection, and disaster recovery for enterprise data.
  • Data Guard maintains these standby databases as transactional consistent copies of the production database.
  • if the production database becomes unavailable, Data Guard can switch any standby database to the production role.

Physical Standby

  • Physical Standby is the exact block-for-block copy of primary database.
  • REDO logs apply primary to physical standby, its always sync with primary database  
  • Physical Standby database only opened as READ ONLY mode.
  • Most of the environment used the physical standby database.

Environment Details:
Overall Steps:

1.Check Archive log mode enable and force logging enabled.
2.Add Standby log file group.
3.check listener and TNS entry both primary and standby severs.
4.Change parameters in primary database.
5.copy password file primary to standby.
6.Create PFILE in standby database.
7.Create directory Structure in Standby database.
8.Connect RMAN in standby database and run the script
9.Check database can be configured or not.
10.Connect standby database execute MRP process.
11.Switch Logs in primary database, Execute Defer Enable.
12.Check standby database log files can be switched.
13.Crosscheck Alert Log files.

Primary Server Configuration:

Step 1: Check Archive log mode enable and force logging enabled.

In the primary database check whether the archive log mode is enabled or not, also check the force logging option to enable if is not enabled please enable it.

[oracle@agent ~]$ export ORACLE_SID=agent
[oracle@agent ~]$ sqlplus / as sysdba
Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 – Production
Version 19.3.0.0.0

Connect database as mount stage

SQL> alter database archivelog;
Database altered.
SQL> alter database force logging;
Database altered.
SQL> alter database open;
Database altered.
SQL> select FORCE_LOGGING,log_mode from v$database;
FORCE_LOGGING                   LOG_MODE
————————-                    ————–
YES                                           ARCHIVELOG

Step 2: Add Standby logfile group.

Add logfile group in the primary database mentioned as that file creation as standby log group.

SQL> alter database add standby logfile group 4 ‘/u01/app/oracle/oradata/AGENT/redo04.log’ size 50m;
Database altered.

SQL> alter database add standby logfile group 5 ‘/u01/app/oracle/oradata/AGENT/redo05.log’ size 50m;
Database altered.

SQL> alter database add standby logfile group 6 ‘/u01/app/oracle/oradata/AGENT/redo06.log’ size 50m;
Database altered.

SQL> SELECT GROUP#,THREAD#,SEQUENCE#,ARCHIVED,STATUS FROM V$STANDBY_LOG;

GROUP# THREAD# SEQUENCE# ARC STATUS
———- ———- ———- — ———-
4 0 0 YES UNASSIGNED
5 0 0 YES UNASSIGNED
6 0 0 YES UNASSIGNED

Step 3- check listener and TNS entry both primary and standby servers.

Primary side entries.
LISTENER:
listener =
(DESCRIPTION_LIST =
(DESCRIPTION =
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.1)(PORT = 1521))
)
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = IPC)(KEY = EXTPROC))
)
)
)
SID_LIST_LISTENER =
(SID_DESC =
(GLOBAL_DBNAME = agent)
(ORACLE_HOME =/u01/app/oracle/product/19.0.0/dbhome_1)
(SID_NAME = agent)
)
)
TNS names:
[oracle@agent admin]$ cat tnsnames.ora
agent=
(DESCRIPTION =
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.1)(PORT = 1521))
)
(CONNECT_DATA =
(SERVICE_NAME = agent)
)
)
data=
(DESCRIPTION =
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.2)(PORT = 1521))
)
(CONNECT_DATA =
(SERVICE_NAME = data)
(UR=A)
)
)
Standby side entries:
LISTENER:
[oracle@data admin]$ cat listener.ora
listener =
(DESCRIPTION_LIST =
(DESCRIPTION =
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.2)(PORT = 1521))
)
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = IPC)(KEY = EXTPROC))
)
)
)
SID_LIST_LISTENER =
(SID_DESC =
(GLOBAL_DBNAME = data)
(ORACLE_HOME =/u01/app/oracle/product/19.0.0/dbhome_1)
(SID_NAME = data)
)
)
TNS names:
[oracle@data admin]$
data=
(DESCRIPTION =
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.2)(PORT = 1521))
)
(CONNECT_DATA =
(SERVICE_NAME = data)
)
)
agent=
(DESCRIPTION =
(ADDRESS_LIST =
(ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.1)(PORT = 1521))
)
(CONNECT_DATA =
(SERVICE_NAME = agent)
(UR=A)
)
)

The output of tns ping statements connects both sides primary to standby and standby to primary.

[oracle@agent admin]$ tnsping data
TNS Ping Utility for Linux: Version 19.0.0.0.0 – Production on 18-NOV-2021 07:19:44
Copyright (c) 1997, 2019, Oracle. All rights reserved.
Used parameter files:
Used TNSNAMES adapter to resolve the alias
Attempting to contact (DESCRIPTION = (ADDRESS_LIST = (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.2)(PORT = 1521))) (CONNECT_DATA = (SERVICE_NAME = data) (UR=A)))
OK (20 msec)

[oracle@agent admin]$ tnsping agent
TNS Ping Utility for Linux: Version 19.0.0.0.0 – Production on 18-NOV-2021 07:19:55
Copyright (c) 1997, 2019, Oracle. All rights reserved.
Used parameter files:
Used TNSNAMES adapter to resolve the alias
Attempting to contact (DESCRIPTION = (ADDRESS_LIST = (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.1)(PORT = 1521))) (CONNECT_DATA = (SERVICE_NAME = agent)))
OK (0 msec)
[oracle@agent admin]$

Step 4:Change parameters in primary database.

1. dg_config – Specify the DG_CONFIG attribute to identify the DB_UNIQUE_NAME for the primary database and standby database.
SQL> ALTER SYSTEM SET log_archive_config=’dg_config=(agent,data)’ SCOPE=both;
System altered.

2. log_archive_dest_1 – The LOG_ARCHIVE_DEST parameter is used to specify the directory to which Oracle archive logs are written.
SQL> ALTER SYSTEM SET log_archive_dest_1=’location=use_db_recovery_file_dest valid_for=(all_logfiles,all_roles) db_unique_name=agent’ SCOPE=both;
System altered.

3. log_archive_dest_2 – handle the transmission of the standby site’s archived redo logs back to the original primary database.
SQL> ALTER SYSTEM SET log_archive_dest_2=’service=data async valid_for=(online_logfiles,primary_role) db_unique_name=data’ SCOPE=both;
System altered.

4. FAL_SERVER – It is used to fetch an archive log server for a standby database.
SQL> ALTER SYSTEM SET fal_server=’data’ SCOPE=both;
System altered.

5. FAL_CLIENT – It is configured for point the FAL Client.
SQL> ALTER SYSTEM SET fal_client=’agent’ SCOPE=both;
System altered.

6. standby_file_management –Check the redo changes done in Primary and sync those changes in Standby by Stopping the recovery and making STANDBY_FILE_MANAGEMENT = MANUAL value.
Then sync the primary changes with standby changes and again change the parameter to AUTO and start the recovery on Standby database.
SQL> ALTER SYSTEM SET standby_file_management=’AUTO’ SCOPE=both;
System altered.

SQL> show parameter log_archive_config;

NAME TYPE VALUE
———————————— ———– ——————————
log_archive_config string dg_config=(agent,data)
SQL>

Step 5:Copy password file primary to standby

scp orapwagent [email protected]:$ORACLE_HOME/dbs
[oracle@agent dbs]$ scp orapwagent [email protected]:$ORACLE_HOME/dbs
[email protected]’s password:
orapwagent 100% 2048 2.1MB/s 00:00
[oracle@agent dbs]$

Move the file in new name db_unique_name(standby)
oracle@data ~]$ cd $ORACLE_HOME/dbs
[oracle@data dbs]$ ls
hc_data.dat init.ora lkDATA orapwdata orapwagent spfiledata.ora
[oracle@data dbs]$ mv orapwagent orapwdata

Step 6 :- create PFILE in standby database

In the $ORACLE_HOME/dbs directory of the standby system, create an initialization parameter file named initdata.ora
Containing a single parameter: DB_NAME=agent
[oracle@data dbs]$ cat initdata.ora
db_name=agent
[oracle@data dbs]$ pwd
/u01/app/oracle/product/19.0.0/dbhome_1/dbs

Step 7 :- Create directory Structure in Standby database.

[oracle@data dbs]$ cd $ORACLE_BASE/admin/
[oracle@data dbs]$ mkdir data
[oracle@data dbs]$ cd data
[oracle@data dbs]$ mkdir adump
[oracle@data dbs]$ mkdir -p /u01/app/oracle/oradata/DATA

Step 8 :- Connect RMAN clone Database

method 1:
copy pfile primary database to standby edit the parameters after that connect RMAN and clone the database.

parameter_value_convert ‘agent’,’data’
set db_name=’agent’
set db_unique_name=’data’
set db_file_name_convert=’/u01/app/oracle/oradata/AGENT/’,’/u01/app/oracle/oradata/DATA/’
set log_file_name_convert=’/u01/app/oracle/oradata/AGENT/’,’/u01/app/oracle/oradata/DATA/’
set control_files=’/u01/app/oracle/oradata/DATA/standby1.ctl’
set log_archive_max_processes=’5′
set fal_client=’data’
set fal_server=’agent’
set standby_file_management=’AUTO’
set log_archive_config=’dg_config=(agent,data)’
set compatible=’19.3.0.0′
set memory_target=’1200m’

method 2:
craete a RMAN script mention the parameters changes in spfile to execute the script.

Target database as primary – Agent
Auxiliary database as a standby – Data

[oracle@data admin]$ export ORACLE_SID=agent
[oracle@data admin]$ rman target sys/oracle@agent auxiliary sys/oracle@data
Recovery Manager: Release 19.0.0.0.0 – Production on Thu Nov 18 08:00:22 2021
Version 19.3.0.0.0
Copyright (c) 1982, 2019, Oracle and/or its affiliates. All rights reserved.

connected to target database: AGENT (DBID=396457310)
connected to auxiliary database: AGENT (not mounted)

RMAN> run
{
allocate channel p1 type disk;
allocate channel p2 type disk;
allocate channel p3 type disk;
allocate channel p4 type disk;
allocate auxiliary channel s1 type disk;
duplicate target database for standby from active database
spfile
parameter_value_convert ‘agent’,’data’
set db_name=’agent’
set db_unique_name=’data’
set db_file_name_convert=’/u01/app/oracle/oradata/AGENT/’,’/u01/app/oracle/oradata/DATA/’
set log_file_name_convert=’/u01/app/oracle/oradata/AGENT/’,’/u01/app/oracle/oradata/DATA/’
set control_files=’/u01/app/oracle/oradata/DATA/standby1.ctl’
set log_archive_max_processes=’5′
set fal_client=’data’
set fal_server=’agent’
set standby_file_management=’AUTO’
set log_archive_config=’dg_config=(agent,data)’
set compatible=’19.3.0.0′
set memory_target=’1200m’
nofilenamecheck;
}

the output of the script:

using target database control file instead of recovery catalog
allocated channel: p1
channel p1: SID=82 device type=DISK

allocated channel: p2
channel p2: SID=81 device type=DISK

allocated channel: p3
channel p3: SID=85 device type=DISK

allocated channel: p4
channel p4: SID=86 device type=DISK

allocated channel: s1
channel s1: SID=35 device type=DISK

Starting Duplicate Db at 18-NOV-21

contents of Memory Script:
{
backup as copy reuse
passwordfile auxiliary format ‘/u01/app/oracle/product/19.0.0/dbhome_1/dbs/orapwdata’ targetfile
‘/u01/app/oracle/product/19.0.0/dbhome_1/dbs/spfileagent.ora’ auxiliary format
‘/u01/app/oracle/product/19.0.0/dbhome_1/dbs/spfiledata.ora’ ;
sql clone “alter system set spfile= ”/u01/app/oracle/product/19.0.0/dbhome_1/dbs/spfiledata.ora””;
}
executing Memory Script

Starting backup at 18-NOV-21
Finished backup at 18-NOV-21

sql statement: alter system set spfile= ”/u01/app/oracle/product/19.0.0/dbhome_1/dbs/spfiledata.ora”

contents of Memory Script:
{
sql clone “alter system set audit_file_dest =
”/u01/app/oracle/admin/data/adump” comment=
”” scope=spfile”;
sql clone “alter system set dispatchers =
”(PROTOCOL=TCP) (SERVICE=dataXDB)” comment=
”” scope=spfile”;
sql clone “alter system set db_name =
”agent” comment=
”” scope=spfile”;
sql clone “alter system set db_unique_name =
”data” comment=
”” scope=spfile”;
sql clone “alter system set db_file_name_convert =
”/u01/app/oracle/oradata/AGENT/”, ”/u01/app/oracle/oradata/DATA/” comment=
”” scope=spfile”;
sql clone “alter system set log_file_name_convert =
”/u01/app/oracle/oradata/AGENT/”, ”/u01/app/oracle/oradata/DATA/” comment=
”” scope=spfile”;
sql clone “alter system set control_files =
”/u01/app/oracle/oradata/DATA/standby1.ctl” comment=
”” scope=spfile”;
sql clone “alter system set log_archive_max_processes =
5 comment=
”” scope=spfile”;
sql clone “alter system set fal_client =
”data” comment=
”” scope=spfile”;
sql clone “alter system set fal_server =
”agent” comment=
”” scope=spfile”;
sql clone “alter system set standby_file_management =
”AUTO” comment=
”” scope=spfile”;
sql clone “alter system set log_archive_config =
”dg_config=(agent,data)” comment=
”” scope=spfile”;
sql clone “alter system set compatible =
”19.3.0.0” comment=
”” scope=spfile”;
sql clone “alter system set memory_target =
1200m comment=
”” scope=spfile”;
shutdown clone immediate;
startup clone nomount;
}
executing Memory Script

sql statement: alter system set audit_file_dest = ”/u01/app/oracle/admin/data/adump” comment= ”” scope=spfile

sql statement: alter system set dispatchers = ”(PROTOCOL=TCP) (SERVICE=dataXDB)” comment= ”” scope=spfile

sql statement: alter system set db_name = ”agent” comment= ”” scope=spfile

sql statement: alter system set db_unique_name = ”data” comment= ”” scope=spfile

sql statement: alter system set db_file_name_convert = ”/u01/app/oracle/oradata/AGENT/”, ”/u01/app/oracle/oradata/DATA/” comment= ”” scope=spfile

sql statement: alter system set log_file_name_convert = ”/u01/app/oracle/oradata/AGENT/”, ”/u01/app/oracle/oradata/DATA/” comment= ”” scope=spfile

sql statement: alter system set control_files = ”/u01/app/oracle/oradata/DATA/standby1.ctl” comment= ”” scope=spfile

sql statement: alter system set log_archive_max_processes = 5 comment= ”” scope=spfile

sql statement: alter system set fal_client = ”data” comment= ”” scope=spfile

sql statement: alter system set fal_server = ”agent” comment= ”” scope=spfile

sql statement: alter system set standby_file_management = ”AUTO” comment= ”” scope=spfile

sql statement: alter system set log_archive_config = ”dg_config=(agent,data)” comment= ”” scope=spfile

sql statement: alter system set compatible = ”19.3.0.0” comment= ”” scope=spfile

sql statement: alter system set memory_target = 1200m comment= ”” scope=spfile

Oracle instance shut down

connected to auxiliary database (not started)
Oracle instance started

Total System Global Area 1258290752 bytes

Fixed Size 8896064 bytes
Variable Size 738197504 bytes
Database Buffers 503316480 bytes
Redo Buffers 7880704 bytes
allocated channel: s1
channel s1: SID=35 device type=DISK

contents of Memory Script:
{
backup as copy current controlfile for standby auxiliary format ‘/u01/app/oracle/oradata/DATA/standby1.ctl’;
}
executing Memory Script

Starting backup at 18-NOV-21
channel p1: starting datafile copy
copying standby control file
output file name=/u01/app/oracle/product/19.0.0/dbhome_1/dbs/snapcf_agent.f tag=TAG20211118T080552
channel p1: datafile copy complete, elapsed time: 00:00:01
Finished backup at 18-NOV-21

contents of Memory Script:
{
sql clone ‘alter database mount standby database’;
}
executing Memory Script

sql statement: alter database mount standby database

contents of Memory Script:
{
set newname for tempfile 1 to
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_temp_jsc8y37j_.tmp”;
switch clone tempfile all;
set newname for datafile 1 to
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_system_jsc8qv1o_.dbf”;
set newname for datafile 3 to
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_sysaux_jsc8smrq_.dbf”;
set newname for datafile 4 to
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_undotbs1_jsc8tq0b_.dbf”;
set newname for datafile 7 to
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_users_jsc8tr78_.dbf”;
backup as copy reuse
datafile 1 auxiliary format
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_system_jsc8qv1o_.dbf” datafile
3 auxiliary format
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_sysaux_jsc8smrq_.dbf” datafile
4 auxiliary format
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_undotbs1_jsc8tq0b_.dbf” datafile
7 auxiliary format
“/u01/app/oracle/oradata/DATA/datafile/o1_mf_users_jsc8tr78_.dbf” ;
sql ‘alter system archive log current’;
}
executing Memory Script

executing command: SET NEWNAME

renamed tempfile 1 to /u01/app/oracle/oradata/DATA/datafile/o1_mf_temp_jsc8y37j_.tmp in control file

executing command: SET NEWNAME

executing command: SET NEWNAME

executing command: SET NEWNAME

executing command: SET NEWNAME

Starting backup at 18-NOV-21
channel p1: starting datafile copy
input datafile file number=00001 name=/u01/app/oracle/oradata/AGENT/datafile/o1_mf_system_jsc8qv1o_.dbf
channel p2: starting datafile copy
input datafile file number=00003 name=/u01/app/oracle/oradata/AGENT/datafile/o1_mf_sysaux_jsc8smrq_.dbf
channel p3: starting datafile copy
input datafile file number=00004 name=/u01/app/oracle/oradata/AGENT/datafile/o1_mf_undotbs1_jsc8tq0b_.dbf
channel p4: starting datafile copy
input datafile file number=00007 name=/u01/app/oracle/oradata/AGENT/datafile/o1_mf_users_jsc8tr78_.dbf
output file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_users_jsc8tr78_.dbf tag=TAG20211118T080558
channel p4: datafile copy complete, elapsed time: 00:00:08
output file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_sysaux_jsc8smrq_.dbf tag=TAG20211118T080558
channel p2: datafile copy complete, elapsed time: 00:01:00
output file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_undotbs1_jsc8tq0b_.dbf tag=TAG20211118T080558
channel p3: datafile copy complete, elapsed time: 00:00:59
output file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_system_jsc8qv1o_.dbf tag=TAG20211118T080558
channel p1: datafile copy complete, elapsed time: 00:01:22
Finished backup at 18-NOV-21

sql statement: alter system archive log current

contents of Memory Script:
{
switch clone datafile all;
}
executing Memory Script

datafile 1 switched to datafile copy
input datafile copy RECID=1 STAMP=1088928441 file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_system_jsc8qv1o_.dbf
datafile 3 switched to datafile copy
input datafile copy RECID=2 STAMP=1088928441 file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_sysaux_jsc8smrq_.dbf
datafile 4 switched to datafile copy
input datafile copy RECID=3 STAMP=1088928441 file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_undotbs1_jsc8tq0b_.dbf
datafile 7 switched to datafile copy
input datafile copy RECID=4 STAMP=1088928441 file name=/u01/app/oracle/oradata/DATA/datafile/o1_mf_users_jsc8tr78_.dbf
Finished Duplicate Db at 18-NOV-21
released channel: p1
released channel: p2
released channel: p3
released channel: p4
released channel: s1
RMAN> exit

Step 9: Check database can be configured or not:

SQL> select open_mode,name from v$database;

OPEN_MODE NAME
——————– ———
MOUNTED AGENT

SQL> select open_mode,name,database_role from v$database;

OPEN_MODE NAME DATABASE_ROLE
——————– ——— —————-
MOUNTED AGENT PHYSICAL STANDBY

Step 10:- Connect standby database execute MRP process:

SQL> alter database recover managed standby database disconnect nodelay;

Database altered.

Step 11:- Switch Logs in the primary database, Execute Defer Enable.

SQL> archive log list;
Database log mode Archive Mode
Automatic archival Enabled
Archive destination USE_DB_RECOVERY_FILE_DEST
Oldest online log sequence 7
Next log sequence to archive 9
Current log sequence 9

Set log_archive_dest_state_2 as defer
SQL> alter system set log_archive_dest_state_2=defer;

System altered.

Enable log_archive_dest_state_2 location
SQL> alter system set log_archive_dest_state_2=enable;

System altered.

SQL> alter system switch logfile;

System altered.

SQL> /

System altered.

Step 12: – check standby database log files can be switched

SQL> select error, status from v$archive_dest;

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;
 

Check MRP0 process status:
SQL> SELECT STATUS FROM V$MANAGED_STANDBY WHERE PROCESS=’MRP0′;

STATUS
————
WAIT_FOR_LOG

Archived log applied time and status:

SQL> SELECT sequence#, first_time, next_time, applied FROM v$archived_log ORDER BY sequence#;
SQL> select name,open_mode from v$database;
NAME OPEN_MODE
——— ——————–
AGENT MOUNTED

Step 13:- Monitor the process in the alert log
The best method to monitor the data guard process in the alert log shows as exact data transfer reports and errors we can using the logs easily find out the mistakes.

oracle@data trace]$ pwd
/u01/app/oracle/diag/rdbms/data/data/trace
[oracle@data trace]$ tail -100f alert_data.log
MRP0 (PID:26173): Media Recovery Log /u01/app/oracle/fast_recovery_area/DATA/archivelog/2021_11_18/o1_mf_1_11_jsclfmk7_.arc
MRP0 (PID:26173): Media Recovery Waiting for T-1.S-12 (in transit)
2021-11-18T09:05:44.267442+05:30
rfs (PID:29555): Archived Log entry 7 added for B-1088922080.T-1.S-12 ID 0x17a1415e LAD:2
rfs (PID:29555): No SRLs created for T-1
2021-11-18T09:05:44.297904+05:30
rfs (PID:29555): Opened log for T-1.S-13 dbid 396457310 branch 1088922080
2021-11-18T09:05:44.346775+05:30
MRP0 (PID:26173): Media Recovery Log /u01/app/oracle/fast_recovery_area/DATA/archivelog/2021_11_18/o1_mf_1_12_jsclfnxx_.arc
MRP0 (PID:26173): Media Recovery Waiting for T-1.S-13 (in transit)
2021-11-18T09:05:45.670215+05:30
rfs (PID:29555): Archived Log entry 8 added for B-1088922080.T-1.S-13 ID 0x17a1415e LAD:2
rfs (PID:29555): No SRLs created for T-1
2021-11-18T09:05:45.699219+05:30
rfs (PID:29555): Opened log for T-1.S-14 dbid 396457310 branch 1088922080
2021-11-18T09:05:46.482970+05:30
MRP0 (PID:26173): Media Recovery Log /u01/app/oracle/fast_recovery_area/DATA/archivelog/2021_11_18/o1_mf_1_13_jscljj95_.arc
MRP0 (PID:26173): Media Recovery Waiting for T-1.S-14 (in transit)
2021-11-18T09:16:20.023804+05:30

 

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Oracle Materialized View

Oracle Materialized View

A materialized view in Oracle is a database object that contains the results of a 
query.They are local copies of data located remotely, or are used to create summary
tables based on aggregations of a table’s data.
A materialized view can query tables, views, and other materialized views. A materialized view, or snapshot as they were previously known, is a table segment
whose contents are periodically refreshed based on a query, either against a local
or remote table.

Syntax

CREATE MATERIALIZED VIEW view-name BUILD [IMMEDIATE | DEFERRED]
REFRESH [FAST | COMPLETE | FORCE ]
ON [COMMIT | DEMAND ][[ENABLE | DISABLE] QUERY REWRITE] AS SELECT …;

Methods

BUILD

IMMEDIATE : The materialized view is populated immediately.This option is default one.
DEFERRED : The materialized view is populated on the first requested refresh.

Refresh Types

  • FAST: A fast refresh is attempted only there is a change in the base table. If materialized view logs are not present against the source tables in advance, the creation fails. To maintain the history of change in the base table, it is known as materialized view log.It is named as MLOG$_<base_table>. Materialized view log will be located in the source database in the same schema as the master table. Refresh fast will perform refresh according to the changes that occurred in the master table.
  • COMPLETE: The table segment supporting the materialized view is truncated and repopulated completely using the associated query.
  • FORCE: A fast refresh is attempted. If one is not possible a complete refresh is performed.
ON COMMIT : The refresh is triggered by a committed data change in one of the 
dependent tables. ON DEMAND : The refresh is initiated by a manual request or a scheduled task.
GRANT CREATE MATERIALIZED VIEW TO INDIA;
Grant succeeded.

GRANT CREATE DATABASE LINK TO INDIA;
Grant succeeded.

Creating Database link to point remote database 

SQL> CREATE DATABASE LINK PROD_LINK CONNECT TO ph IDENTIFIED BY ph USING 'orcl';

Database link created.

COMPLETE REFRESH

Creating Materialized View

SQL> CREATE MATERIALIZED VIEW dept_mv BUILD IMMEDIATE REFRESH COMPLETE AS 
SELECT * FROM ph.emp@PROD_LINK; Materialized view created.
SQL> select * from emp;

        NO NAME                     SALARY
---------- -------------------- ----------
         1 apple                     20000
         2 orange                    23000
         3 mango                     32000

Table Data present in Remote database

SQL> insert into emp values (6,'ice',30000);

1 row created.

SQL> commit;

Commit complete.

SQL> select rowid,no,name,salary from dept_mv;

ROWID                      NO NAME                     SALARY
------------------ ---------- -------------------- ----------
AAAR36AABAAAbURAAA          1 apple                     20000
AAAR36AABAAAbURAAB          2 orange                    23000
AAAR36AABAAAbURAAC          3 mango                     32000

Manually using complete refresh using the DBMS_VIEW package

SQL>  execute DBMS_MVIEW.REFRESH( LIST => 'dept_mv', METHOD => 'C' );

PL/SQL procedure successfully completed.

SQL> select rowid,no,name,salary from dept_mv;

ROWID                      NO NAME                     SALARY
------------------ ---------- -------------------- ----------
AAAR36AABAAAbURAAD          1 apple                     20000
AAAR36AABAAAbURAAE          2 orange                    23000
AAAR36AABAAAbURAAF          3 mango                     32000
AAAR36AABAAAbURAAG          6 ice                       30000

DEFERRED

Initially drop the existing materialized view

SQL> drop MATERIALIZED VIEW dept_mv;

Materialized view dropped.

Materialized view creation using DEFERRED option

SQL> CREATE MATERIALIZED VIEW dept_mv BUILD DEFERRED REFRESH COMPLETE AS 
SELECT * FROM ph.emp@PROD_LINK; Materialized view created. SQL> execute DBMS_MVIEW.REFRESH( LIST => 'dept_mv', METHOD => 'C' ); PL/SQL procedure successfully completed.
QL> select rowid,no,name,salary from dept_mv;

ROWID                      NO NAME                     SALARY
------------------ ---------- -------------------- ----------
AAAR39AABAAAbURAAA          1 apple                     20000
AAAR39AABAAAbURAAB          2 orange                    23000
AAAR39AABAAAbURAAC          3 mango                     32000
AAAR39AABAAAbURAAD          6 ice                       30000

 

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FLASHBACK CONCEPTS

 

FLASHBACK VERSION QUERY

FLASHBACK DROP TABLE

FLASHBACK  QUERY

FLASHBACK TABLE

 

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FLASHBACK DROP TABLE (RECYCLE BIN)

FLASHBACK DROP TABLE

The recycle bin is a logical collection of previously dropped objects. This feature doesn’t use flashback logs or undo, so it is distinct from the other flashback technologies.

Enable/Disable Recycle Bin

SQL> show parameter recyclebin;

NAME                                 TYPE        VALUE
------------------------------------ ----------- ------------------------------
recyclebin                           string      OFF

SQL> alter session set recyclebin = on;

Session altered.

SQL> show parameter recyclebin;

NAME                                 TYPE        VALUE
------------------------------------ ----------- ------------------------------
recyclebin                           string      ON

 (RECYCLE BIN)

SQL> CREATE TABLE flashback_drop_test (id  NUMBER(10));

Table created.

SQL> INSERT INTO flashback_drop_test (id) VALUES (1);

1 row created.

SQL> commit;

Commit complete.


SQL> DROP TABLE flashback_drop_test;

Table dropped.

SQL> show recyclebin;

ORIGINAL NAME    RECYCLEBIN NAME                OBJECT TYPE  DROP TIME
---------------- ------------------------------ ------------ -------------------
FLASHBACK_DROP_T BIN$TstgCMiwQA66fl5FFDTBgA==$0 TABLE        2004-03-29:11:09:07
EST

SQL> FLASHBACK TABLE flashback_drop_test TO BEFORE DROP;

SELECT * FROM flashback_drop_test;

        ID
----------
         1
Rename Table

SQL> show RECYCLEBIN;

ORIGINAL NAME	 RECYCLEBIN NAME		OBJECT TYPE  DROP TIME
---------------- ------------------------------ ------------ -------------------
S		 BIN$x3mKgoseD/7gUxkBqMAnAA==$0 TABLE	     2021-07-19:17:20:17
SQL> create table s(n number);

Table created.

SQL> FLASHBACK TABLE s TO BEFORE DROP;
FLASHBACK TABLE s TO BEFORE DROP
*
ERROR at line 1:
ORA-38312: original name is used by an existing object


SQL> FLASHBACK TABLE s TO BEFORE DROP rename to b;

Flashback complete.

SQL> select * from b;

no rows selected

SQL> show RECYCLEBIN;

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FLASHBACK QUERY Concepts

FLASHBACK  QUERY

Flashback Query allows the contents of a table to be queried with reference to a specific point in time, using the AS OF clause. Essentially it is the same as the DBMS_FLASHBACK functionality.

SQL> create table flashback_query_test  (id  number(10));

Table created.

SQL> SELECT current_scn, TO_CHAR(SYSTIMESTAMP, 'YYYY-MM-DD HH24:MI:SS')FROM v$database;

    CURRENT_SCN               TO_CHAR(SYSTIMESTAMP
 --------------            -------------------------
   4933950                     2021-07-20 00:02:36

SQL> INSERT INTO flashback_query_test (id) VALUES (1);

1 row created.

SQL> commit;
  
Commit complete.

SQL> SELECT current_scn, TO_CHAR(SYSTIMESTAMP,'YYYY-MM-DD HH24:MI:SS') FROM v$database;

CURRENT_SCN      TO_CHAR(SYSTIMESTAMP
---------------        --- ---------------------
    4934857                     2021-07-20 00:10:15

SQL> SELECT COUNT(*) FROM flashback_query_test;

  COUNT(*)
----------
         1
SOL> SELECT COUNT(*) FROM   flashback_query_test AS OF SCN 4933950;

 COUNT(*)
----------
     1

SOL> SELECT COUNT(*) FROM   flashback_query_test AS OF SCN 4934857 ;

 COUNT(*)
----------
      0

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FLASHBACK TABLE

FLASHBACK TABLE

FLASHBACK TABLE statement to restore an earlier state of a table in the event of human or application error.

The time in the past to which the table can be flashed back is dependent on the amount of undo data in the system.

Also, Oracle Database cannot restore a table to an earlier state across any DDL operations that change the structure of the table.

SQL> CREATE TABLE flashback_table_test (id  NUMBER(10));

Table created.

SQL> ALTER TABLE flashback_table_test ENABLE ROW MOVEMENT;

Table altered.




SQL> SELECT current_scn FROM v$database;

CURRENT_SCN
-----------
    4993733

SQL> SELECT current_scn, TO_CHAR(SYSTIMESTAMP,'YYYY-MM-DD HH24:MI:SS') FROM v$database;

CURRENT_SCN          TO_CHAR(SYSTIMESTAMP
-----------         -------------------------
    4993746           2021-07-20 23:18:30

SQL> INSERT INTO flashback_table_test (id) VALUES (1);

1 row created.

SQL> commit;

Commit complete.

SQL> SELECT current_scn FROM v$database;

CURRENT_SCN
-----------
    4993843

SQL>FLASHBACK TABLE flashback_table_test TO SCN 4993733;

Flashback complete.

SQL> SELECT COUNT(*) FROM flashback_table_test;

  COUNT(*)
----------
      0

SQL> FLASHBACK TABLE flashback_table_test TO SCN 4993843;
  
Flashback complete.

SQL>  SELECT COUNT(*) FROM flashback_table_test;

  COUNT(*)
----------
         1
SQL> FLASHBACK TABLE flashback_table_test TO TIMESTAMP
TO_TIMESTAMP(' 2021-07-20 23:18:30', 'YYYY-MM-DD HH24:MI:SS'); Flashback complete. SQL> SELECT COUNT(*) FROM flashback_table_test; COUNT(*) ---------- 0

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Reinstate Failed Primary into Physical Standby

REINSTATE:

After failover we have to reinstate the primary db to physical standby. For that we have to find out the scn  in the new primary db- (standby_became_primary_scn parameter from v$database) where at the particular scn the standby database has became the primary database. Using this scn in our old primary db we have to flashback our db to this particular scn and then we have to convert our old primary to physical standby.

Note: To perform the reinstate process we have to ensure that the flashback must be enabled in the primary db which got crashed.

Overview Steps:

Step:1 Find out the standby_became_primary_scn value in the new primary db from v$database view.

Step:2 Flashback the old primary db to this particular scn value that is taken from the new primary db.

Step:3 Then convert the primary db to physical standby and bounce the database.

Step:4 Check for the name, open_mode, database_role it is changed to physical standby, we have performed the reinstate task successfully.

Step;5 verify whether the standby is in sync with the primary after reinstate.

Step:1 Get the value of standby_became_primary_scn from the new primary db.

Step:2 Flashback the old primary db to this scn value.

Step:3 Convert the primary db into physical standby, then bounce the database.

Step:4 Now the database_role has changed from primary to physical standby, reinstate  performed successfully.

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