During the prepare window, you can get the information about the data that will be affected during the time zone upgrade process using the following steps:

1. Install the desired version of time zone files to which you will be later migrating into $ORACLE_HOME/oracore/zoneinfo. If the desired version is version_number, then you must add the file timezlrg_version_number.dat. You can add the file timezone_version_number.dat at your discretion later. These files can be found on My Oracle Support. The desired version should be the latest version available, unless the latest version contains relevant DST rule changes that were rolled back by the appropriate government after the version had been released.

2. You can optionally create the following tables:

   • an error table that contains the errors generated during the upgrade process by using the DBMS_DST.CREATE_ERROR_TABLE procedure. If you do not explicitly create this table, then the default table used is sys.dst$error_table.

   • a table that contains the affected timestamp with time zone information by using the DBMS_DST.CREATE_AFFECTED_TABLE procedure. If you do not explicitly create this table, then the default table used is sys.dst$affected_tables.

   • a trigger table that stores the disabled TSTZ table triggers information by using the DBMS_DST.CREATE_TRIGGER_TABLE procedure. If you do not explicitly create this table, then the default table used is sys.dst$trigger_table. Note that during the upgrade window, Oracle Database first disables the triggers on a TSTZ table and then performs the upgrade of its affected TSTZ data. Oracle Database saves the information about those triggers in the sys.dst$trigger_table table. After completing the upgrade of the affected TSTZ data in the table, the disabled triggers are enabled by reading their information from the sys.dst$trigger_table table and then their information is removed from the sys.dst$trigger_table table. If any fatal error occurs, such as an unexpected instance shutdown during the upgrade window, you should check the sys.dst$trigger_table table to see if any trigger has not been restored to its previous active state before the upgrade.

3. Purge unneeded data.

   The DBMS_SCHEDULER log tables contain a large amount of time zone data. If this data is not needed, then delete it using the following command before you run the upgrade steps. Stop the main jobs before running this command as it may not delete all of the data from the DBMS_SCHEDULER log tables, if some of the main jobs in a chain of jobs are still running.

   exec dbms_scheduler.purge_log;

   The other tables that may contain a large amount of time zone data are the SYS.WRI$_OPTSTAT_HISTGRM_HISTORY and SYS.WRI$_OPTSTAT_HISTHEAD_HISTORY tables. In case you do not need this data, then you may delete it using the following commands:

   -- check the number of rows in the tables
   select count(*) from SYS.WRI$_OPTSTAT_HISTGRM_HISTORY;
   select count(*) from SYS.WRI$_OPTSTAT_HISTHEAD_HISTORY;
   
   -- check the data retention period of the stats
   -- the default value is 31
   select systimestamp - dbms_stats.get_stats_history_availability from dual;
   
   -- disable stats retention
   exec dbms_stats.alter_stats_history_retention(0);
   
   -- remove all the stats
   exec DBMS_STATS.PURGE_STATS(systimestamp);
   
   -- check the result of the purge operation
   select count(*) from SYS.WRI$_OPTSTAT_HISTGRM_HISTORY;
   select count(*) from SYS.WRI$_OPTSTAT_HISTHEAD_HISTORY;
   

   You may set the data retention period back to its original value using the following command once the time zone data upgrade is completed:

   exec dbms_stats.alter_stats_history_retention(31);

4. Execute the procedure DBMS_DST.BEGIN_PREPARE(new_version), where new_version is the time zone file version you chose in Step 1.

5. Collect information about affected data by executing the procedure DBMS_DST.FIND_AFFECTED_TABLES, optionally passing the names of custom tables created in Step 2 as parameters. Verify the affected columns by querying sys.dst$affected_tables or the corresponding custom table. Also, it is particularly important to check sys.dst$affected_tables.error_count or the corresponding error_count column in the custom table for possible errors. If the error count is greater than 0, you can check what kind of errors you might expect during the upgrade by checking sys.dst$error_table or the corresponding custom error table. See "Upgrade Error Handling".

6. End the prepare window by executing the procedure DBMS_DST.END_PREPARE.

During the upgrade window, you can upgrade the time zone data using the following steps:

1. If you have not already done so, download the desired version of timezlrg_version_number.dat and install it in $ORACLE_HOME/oracore/zoneinfo. In addition, you can optionally download timezone_version_number.dat from My Oracle Support and put it in the same location.

2. Starting with Oracle Database 21c, you have the option of performing this method while the database is online or offline. The online version of this method requires one restart of the database at your convenience and requires no to minimal locks on tables that need to be upgraded. It allows applications to query all time zone data and to insert and modify time zone data for all tables that can be migrated online. The offline version of this method, which was also available in previous releases, requires the database to be in UPGRADE mode during part of the procedure and is more restrictive about when applications can insert and modify time zone data.

   1. If you choose to perform the online version of this procedure:

      1. Set the TIMEZONE_VERSION_UPGRADE_ONLINE initialization parameter to true:

         ALTER SYSTEM SET TIMEZONE_VERSION_UPGRADE_ONLINE = true;

      2. Proceed to Step 3.

   2. If you choose to perform the offline version of this procedure:

      1. Ensure that the TIMEZONE_VERSION_UPGRADE_ONLINE initialization parameter is set to its default value of false:

         ALTER SYSTEM SET TIMEZONE_VERSION_UPGRADE_ONLINE = false;

      2. Shut down the database. In Oracle RAC, you must shut down all instances.

      3. Start up the database in the UPGRADE mode. Note that, in Oracle RAC, only one instance should be started. See Oracle Database Upgrade Guide for more information about the UPGRADE mode.

3. Run the procedure DBMS_DST.BEGIN_UPGRADE(new_version). Optionally, you can set the error_on_overlap_time and error_on_nonexisting_time parameters to TRUE if you do not want to ignore semantic errors during the upgrade of dictionary tables that contain timestamp with time zone data. Examples of such errors could be related to DBMS_SCHEDULER, as discussed in "Upgrade Error Handling". If you specify TRUE for either or both of these parameters, the errors are populated into sys.dst$error_table. In this case, you might want to truncate the error table before you run the BEGIN_UPGRADE procedure. See Oracle Database PL/SQL Packages and Types Reference for more information.

   The BEGIN_UPGRADE procedure modifies time zone information in the database, but does not modify any user table data. While the BEGIN_UPGRADE procedure is operating, you cannot add tables containing TSTZ columns to the database, nor can you add TSTZ columns to existing tables. TSTZ columns are columns defined on TIMESTAMP WITH TIME ZONE data types or object types containing attributes of TIMESTAMP WITH TIME ZONE data types.

   After the BEGIN_UPGRADE procedure has successfully executed, user tables that contain TSTZ data will be marked with the UPGRADE IN PROGRESS property.

4. If the BEGIN_UPGRADE procedure fails, the error "ORA-56927: Starting an upgrade window failed" is displayed.

   After the BEGIN_UPGRADE procedure finishes executing with errors, check sys.dst$error_table to determine if the dictionary conversion was successful. If successful, there will not be any rows in the table. If there are errors, correct those errors manually and rerun the BEGIN_UPGRADE procedure. See "Upgrade Error Handling".

5. Truncate the error and trigger tables (by default, sys.dst$error_table and sys.dst$trigger_table).

6. This step depends on whether you are performing the online or offline version of this procedure:

   • If you are performing the online version of this procedure, then allow the database to continue running until you reach a convenient time to perform a reboot. During this time, the database is still operating with the old time zone version and the TSTZ data has not yet been updated. You are allowed to add tables that contain TSTZ columns to the database and you can add TSTZ columns to existing tables. When it is a convenient time to reboot the database, shut down the database and then restart it in normal mode. In Oracle RAC, you must shut down all instances first before restarting them.

   • If you are performing the offline version of this procedure (that is, you put the database in UPGRADE mode in Step 2), then restart the database now in normal mode.

7. Confirm that the new time zone version is the primary version by running the following query:

   SELECT * FROM V$TIMEZONE_FILE;

8. Allow the database to continue running until you reach a convenient time to upgrade the TSTZ data in all tables. A convenient time could be when the database has low usage.

   While the database continues running, previously existing TSTZ columns still have the TIMESTAMP WITH TIMEZONE reflecting the previous time zone version. In order to present the data in these columns as though they have been converted to the new time zone version when you issue SELECT statements, Oracle adds conversion operators over the columns to convert them to the new version. Newly created TSTZ columns will have TIMESTAMP WITH TIMEZONE reflecting the new time zone version.

9. When it is a convenient time to upgrade the TSTZ data in all tables, run the procedure DBMS_DST.UPGRADE_DATABASE.

   Each TSTZ table is upgraded in a separate transaction. For TSTZ base tables with materialized view logs, the base table and materialized view log table are upgraded in one transaction. During the upgrade, if TIMEZONE_VERSION_UPGRADE_ONLINE is set to true, the upgrade operation will be done online whenever possible. For tables containing TSTZ data that cannot be upgraded online, the database will acquire an exclusive DML lock. If TIMEZONE_VERSION_UPGRADE_ONLINE is set to false, all upgrade operations will acquire an exclusive DML lock on each table and do the upgrade. All dependent cursors on a table will be invalidated when the upgrade of the table is complete.

10. Verify that all tables have been upgraded by querying the DBA_TSTZ_TABLES view, as shown in "Upgrade Example". Then check sys.dst$error_table to see if there are any errors. If there are errors, correct the errors and rerun the DBMS_DST.UPGRADE_TABLE procedure for the relevant tables. Or, if you do not think those errors are important, then rerun the DBMS_DST.UPGRADE_TABLE procedure with the parameters set to ignore errors.

11. End the upgrade window by running the procedure DBMS_DST.END_UPGRADE.

This example illustrates updating DST behavior by using the online method of the procedure. It upgrades an Oracle database to time zone version 14. First, assume that your current database is using time zone version 3, and also assume you have an existing table t, which contains timestamp with time zone data.

Connect to the database as the user scott and execute the following statements:

DROP TABLE t;
CREATE TABLE t (c NUMBER, mark VARCHAR(25), ts TIMESTAMP WITH TIME ZONE);
 
INSERT INTO t VALUES(1, 'not_affected', 
                    to_timestamp_tz('22-sep-2006 13:00:00 america/los_angeles',
                                    'dd-mon-yyyy hh24:mi:ss tzr tzd'));
INSERT INTO t VALUES(4, 'affected_err_exist',
                     to_timestamp_tz('11-mar-2007 00:30:00 america/st_johns',
                                     'dd-mon-yyyy hh24:mi:ss tzr tzd'));
INSERT INTO t VALUES(6, 'affected_no_err',
                     to_timestamp_tz('11-mar-2007 01:30:00 america/st_johns',
                                     'dd-mon-yyyy hh24:mi:ss tzr tzd'));
INSERT INTO t VALUES(14, 'affected_err_dup', 
                     to_timestamp_tz('21-sep-2006 23:30:00 egypt',
                                     'dd-mon-yyyy hh24:mi:ss tzr tzd'));
COMMIT;
 

Then, optionally, you can start a prepare window to check the affected data and potential semantic errors where there is an overlap or non-existing time. To do this, you should start a window for preparation to migrate to time zone version 14. It is assumed that you have the necessary privileges. These privileges are controlled with the DBMS_DST package.

As an example, first, prepare the window.

connect / as sysdba
set serveroutput on
EXEC DBMS_DST.BEGIN_PREPARE(14);
 
A prepare window has been successfully started.
 
PL/SQL procedure successfully completed.
 

Note that the argument 14 causes the time zone version 14 to be used in this statement. After this window is successfully started, you can check the status of the DST in DATABASE_PROPERTIES as shown in the following example:

SELECT property_name, SUBSTR(property_value, 1, 30) value
FROM database_properties
WHERE property_name LIKE 'DST_%'
ORDER BY property_name;

You will see the output similar to the following:

PROPERTY_NAME                  VALUE
---------------------------    ---------
DST_PRIMARY_TT_VERSION         3
DST_SECONDARY_TT_VERSION       14
DST_UPGRADE_STATE              PREPARE

Next, you can execute DBMS_DST.FIND_AFFECTED_TABLES to find all the tables in the database that are affected if you upgrade from version 3 to version 14. This table contains the table owner, table name, column name, row count, and error count. Here, you have the choice of using the defaults for error tables (sys.dst$error_table) and affected tables (sys.dst$affected_tables) or you can create your own. In this example, we create our own tables by using DBMS_DST.CREATE_ERROR_TABLE and DBMS_DST.CREATE_AFFECTED_TABLE and then pass to FIND_AFFECTED_TABLES as shown below.

Connect to the database as the user SYS and execute the following statements:

EXEC DBMS_DST.CREATE_AFFECTED_TABLE('my_affected_tables');
EXEC DBMS_DST.CREATE_ERROR_TABLE('my_error_table');
 

Then, you can execute FIND_AFFECTED_TABLES to see which tables are impacted during the upgrade:

connect / as sysdba

BEGIN
   DBMS_DST.FIND_AFFECTED_TABLES(affected_tables  => 'my_affected_tables',
                                 log_errors       => TRUE,
                                 log_errors_table => 'my_error_table');
END;
/

Then, check the affected tables:

SELECT * FROM my_affected_tables;
 
TABLE_OWNER   TABLE_NAME   COLUMN_NAM   ROW_COUNT  ERROR_COUNT
-----------   ----------   ----------   ---------  -----------
SCOTT         T            TS                   3            2
 

Then, check the error table:

SELECT * FROM my_error_table;
 
TABLE_OWNER   TABLE_NAME  COLUMN_NAME   ROWID                ERROR_NUMBER
-----------   ----------  -----------   ------------------   ------------
SCOTT         T           TS            AAAPW3AABAAANzoAAB           1878
SCOTT         T           TS            AAAPW3AABAAANzoAAE           1883
 

These errors can be corrected as described in "Upgrade Error Handling". Then, end the prepare window, as in the following statement:

EXEC DBMS_DST.END_PREPARE;
 
A prepare window has been successfully ended.
 
PL/SQL procedure successfully completed.
 

After this, you can check the DST status in DATABASE_PROPERTIES:

SELECT property_name, SUBSTR(property_value, 1, 30) value
FROM database_properties
WHERE property_name LIKE 'DST_%'
ORDER BY property_name;
 
PROPERTY_NAME                 VALUE
------------------------      --------
DST_PRIMARY_TT_VERSION        3
DST_SECONDARY_TT_VERSION      0
DST_UPGRADE_STATE             NONE
 

Next, you can use the upgrade window to upgrade the affected data. To do this, first set the TIMEZONE_VERSION_UPGRADE_ONLINE initialization parameter to true:

ALTER SYSTEM SET TIMEZONE_VERSION_UPGRADE_ONLINE = true;

Execute DBMS_DST.BEGIN_UPGRADE. In Oracle RAC, all instances must be running. BEGIN_UPGRADE upgrades all dictionary tables in one transaction, so the invocation will either succeed or fail as one whole. During the procedure's execution, all tables with TSTZ data are marked as an upgrade in progress. You cannot add tables containing TSTZ columns to the database, nor can you add TSTZ columns to existing tables. See Oracle Database Upgrade Guide for more information.

So, BEGIN_UPGRADE upgrades system tables that contain TSTZ data and marks user tables (containing TSTZ data) with the UPGRADE_IN_PROGRESS property. This can be checked in DBA_TSTZ_TABLES, and is illustrated later in this example.

There are two parameters in BEGIN_UPGRADE that are for handling semantic errors: error_on_overlap_time (error number ORA-1883) and error_on_nonexisting_time (error number ORA-1878). If the parameters use the default setting of FALSE, Oracle converts the data using a default conversion and does not signal an error. See "Upgrade Error Handling" for more information regarding what they mean, and how to handle errors.

The following call can automatically correct semantic errors based on some default values when you upgrade the dictionary tables. If you do not ignore semantic errors, and you do have such errors in the dictionary tables, BEGIN_UPGRADE will fail. These semantic errors are populated into my_error_table.

EXEC DBMS_DST.BEGIN_UPGRADE(14);
An upgrade window has been successfully started.
 
PL/SQL procedure successfully completed.
 

After this, you can check the DST status in DATABASE_PROPERTIES, as in the following:

SELECT property_name, SUBSTR(property_value, 1, 30) value
FROM database_properties
WHERE property_name LIKE 'DST_%'
ORDER BY property_name;
 
PROPERTY_NAME               VALUE
------------------------    ------------
DST_PRIMARY_TT_VERSION                14
DST_SECONDARY_TT_VERSION               3
DST_UPGRADE_STATE            NEEDRESTART
 

Then, note that all tables containing TSTZ data display YES for UPGRADE_IN_PROGRESS:

SELECT owner, table_name, upgrade_in_progress FROM dba_tstz_tables;
 
OWNER   TABLE_NAME                      UPGRADE_IN_PROGRESS
-----   -------------------------       -------------------
SYS     WRI$_OPTSTAT_AUX_HISTORY        YES
SYS     WRI$_OPTSTAT_OPR                YES
SYS     OPTSTAT_HIST_CONTROL$           YES
SYS     SCHEDULER$_JOB                  YES
SYS     KET$_AUTOTASK_STATUS            YES
SYS     AQ$_ALERT_QT_S                  YES
SYS     AQ$_KUPC$DATAPUMP_QUETAB_S      YES
DBSNMP  MGMT_DB_FEATURE_LOG             YES
WMSYS   WM$VERSIONED_TABLES             YES
SYS     WRI$_OPTSTAT_IND_HISTORY        YES
SYS     OPTSTAT_USER_PREFS$             YES
SYS     FGR$_FILE_GROUP_FILES           YES
SYS     SCHEDULER$_WINDOW               YES
SYS     WRR$_REPLAY_DIVERGENCE          YES
SCOTT   T                               YES
IX      AQ$_ORDERS_QUEUETABLE_S         YES
...
 

Note that the upgrade is in progress for table SCOTT.T. If you access SCOTT.T, the database will transparently apply conversion operators to ensure to properly reflect the new time zone rules on this table while the upgrade is in progress.

After BEGIN_UPGRADE has successfully executed, the database continues to operate with the old time zone file. When it is a convenient time to reboot the database, shut down the database and then restart it in normal mode.

Confirm that the new time zone version is the primary version by running the following query:

SELECT * FROM V$TIMEZONE_FILE;

FILENAME                VERSION     CON_ID
-------------------- ---------- ----------
timezlrg_14.dat              14          0

Now you can perform an upgrade of all tables containing TSTZ data by using DBMS_DST.UPGRADE_DATABASE. All tables must be upgraded, otherwise, you will not be able to end the upgrade window using the END_UPGRADE procedure.

Consider the following choices for running the DBMS_DST.UPGRADE_DATABASE procedure:

• Oracle recommends that you use the following code to perform the upgrade. It instructs the database to resolve any errors encountered and relieves you of having to resolve the errors manually.

  VAR numfail number;
  BEGIN
     DBMS_DST.UPGRADE_DATABASE(:numfail);
     DBMS_OUTPUT.PUT_LINE('Number of tables failed to upgrade:' || :numfail);
  END;
  /
  

• However, if you prefer to view and resolve errors manually, you can use the following code:

  VAR numfail number;
  BEGIN
     DBMS_DST.UPGRADE_DATABASE(:numfail,
              parallel                  => TRUE,
              log_errors                => TRUE,
              log_errors_table          => 'my_error_table',
              log_triggers_table        => 'SYS.DST$TRIGGER_TABLE',
              error_on_overlap_time     => TRUE,
              error_on_nonexisting_time => TRUE);
  
  DBMS_OUTPUT.PUT_LINE('Number of tables failed to upgrade:' || :numfail);
  END;
  /
  

  If there are any errors, you should correct them and use UPGRADE_TABLE on the individual tables. In that case, you may need to handle tables related to materialized views, such as materialized view base tables, materialized view log tables, and materialized view container tables. There are a couple of considerations to keep in mind when upgrading these tables. First, the base table and its materialized view log table have to be upgraded atomically. Next, the materialized view container table has to be upgraded after all its base tables and the materialized view log tables have been upgraded. In general, Oracle recommends that you handle semantic errors by letting Oracle Database take the default action.

  For the sake of this example, let us assume there were some errors in SCOTT.T after you ran UPGRADE_DATABASE. In that case, you can check these errors by using the following query:

  SELECT * FROM my_error_table;
   
  TABLE_OWNER   TABLE_NAME  COLUMN_NAME   ROWID                ERROR_NUMBER
  -----------   ----------  -----------   ------------------   ------------
  SCOTT         T           TS            AAAO2XAABAAANrgAAD           1878
  SCOTT         T           TS            AAAO2XAABAAANrgAAE           1878
   

  In the output, you can see the errors having number 1878. This error means that an error has occurred for a non-existing time.

  To continue with this example, assume that SCOTT.T has a materialized view log scott.mlog$_t, and that there is a single materialized view on SCOTT.T. Then, assume that this 1878 error has been corrected.

  Finally, you can upgrade the table, materialized view log and materialized view as follows:

  VAR numfail number;
  BEGIN
    DBMS_DST.UPGRADE_TABLE(:numfail,
             table_list                => 'SCOTT.t, SCOTT.mlog$_T',
             parallel                  => TRUE,
             continue_after_errors     => FALSE,
             log_errors                => TRUE,
             log_errors_table          => 'my_error_table',
             error_on_overlap_time     => FALSE,
             error_on_nonexisting_time => TRUE,
             log_triggers_table        => 'SYS.DST$TRIGGER_TABLE',
             atomic_upgrade            => TRUE);
   
   DBMS_OUTPUT.PUT_LINE('Number of tables failed to upgrade:' || :numfail);
  END;
  /
  
  VAR numfail number;
  BEGIN
    DBMS_DST.UPGRADE_TABLE(:numfail, 
             table_list                => 'SCOTT.MYMV_T',
             parallel                  => TRUE,
             continue_after_errors     => FALSE,
             log_errors                => TRUE, 
             log_errors_table          => 'my_error_table',
             error_on_overlap_time     => FALSE,
             error_on_nonexisting_time => TRUE,
             log_triggers_table        => 'SYS.DST$TRIGGER_TABLE',
             atomic_upgrade            => TRUE);
   
    DBMS_OUTPUT.PUT_LINE('Number of tables failed to upgrade:' || :numfail);
  END;
  / 
  

  The atomic_upgrade parameter enables you to combine the upgrade of the table with its materialized view log.

After all the tables are upgraded, you can invoke END_UPGRADE to end an upgrade window as shown below:

VAR numfail number;
BEGIN
  DBMS_DST.END_UPGRADE(:numfail);
  DBMS_OUTPUT.PUT_LINE('Number of tables failed to upgrade:' || :numfail);
END;
/

The upgrade window ends if all the affected tables are upgraded successfully, else the output shows how many tables did not upgrade successfully.

During the prepare window, you can get the information about the data that will be affected during the time zone upgrade process using the following steps:

1. Install the desired version of time zone files to which you will be later migrating into $ORACLE_HOME/oracore/zoneinfo. If the desired version is version_number, then you must add the file timezlrg_version_number.dat. You can add the file timezone_version_number.dat at your discretion later. These files can be found on My Oracle Support. The desired version should be the latest version available, unless the latest version contains relevant DST rule changes that were rolled back by the appropriate government after the version had been released.

2. Run any of the following scripts present in the $ORACLE_HOME/rdbms/admin directory to check how much data will need to be updated in the database during the time zone data upgrade:

   • utltz_countstats.sql

     This script shows the optimizer statistics of num_rows of all the tables having TIMESTAMP WITH TIME ZONE (TSTZ) data.

     Note:

     Run the utltz_countstats.sql script only when the database optimizer statistics are up to date. Otherwise, run the utltz_countstar.sql script. If you run the utltz_countstats.sql script, then you need not run the utltz_countstar.sql script.

   • utltz_countstar.sql

     This script shows the result of the count(*) operation for all the tables having TIMESTAMP WITH TIME ZONE (TSTZ) data.

     Note:

     The utltz_countstar.sql script may take a considerable amount of time to complete its execution.

3. Purge unneeded data.

   Perform this step as described in the Prepare Window for upgrading the time zone data using the DBMS_DST package. Refer to Step 3 in "Prepare Window".

During the upgrade window, you can run the following scripts present in the $ORACLE_HOME/rdbms/admin directory to upgrade the time zone data in the database:

1. If you have not already done so, download the desired version of timezlrg_version_number.dat and install it in $ORACLE_HOME/oracore/zoneinfo. In addition, you can optionally download timezone_version_number.dat from My Oracle Support and put it in the same location.

2. Ensure that the TIMEZONE_VERSION_UPGRADE_ONLINE initialization parameter is set to its default value of false:

   ALTER SYSTEM SET TIMEZONE_VERSION_UPGRADE_ONLINE = false;

3. Run the utltz_upg_check.sql script from the $ORACLE_HOME directory:

   spool utltz_upg_check.log
   @utltz_upg_check.sql
   spool off

   The following information is displayed on the screen after successful execution of the script:

   INFO: A newer RDBMS DST version than the one currently used is found.
   INFO: Note that NO DST update was yet done.
   INFO: Now run utltz_upg_apply.sql to do the actual RDBMS DST update.
   INFO: Note that the utltz_upg_apply.sql script will
   INFO: restart the database 2 times WITHOUT any confirmation or prompt.

   The script also writes the following information in the alert.log file:

   utltz_upg_check sucessfully found newer RDBMS DSTv new_time_zone_version and took number_of_minutes minutes to run.

   If the utltz_upg_check.sql script displays the following error, check the previous message displayed on the screen and proceed accordingly.

   ORA-20xxx: Stopping script - see previous message...

4. Run the utltz_upg_apply.sql script from the $ORACLE_HOME directory after the utltz_upg_check.sql script is executed successfully:

   spool utltz_upg_apply.log
   @utltz_upg_apply.sql
   spool off

   Note:

   The following are the prerequisites for running the utltz_upg_apply.sql script:

   • In an Oracle RAC environment, the Oracle RAC database must be started as a single database instance.

   • In a multitenant environment, all the PDBs must be shut down before running the utltz_upg_apply.sql script on the CDB.

   Also, note the following:

   • The utltz_upg_apply.sql script automatically restarts the database multiple times during its execution.

   • The utltz_upg_apply.sql script generally takes less time to execute than the utltz_upg_check.sql script.

   The following information is displayed on the screen after successful execution of the utltz_upg_apply.sql script:

   INFO: The RDBMS DST update is successfully finished.
   INFO: Make sure to exit this sqlplus session.
   INFO: Do not use it for timezone related selects.

   The TZ_VERSION column in the Registry$database table now gets updated with the new time zone version.

   If the script displays the following error message, then check the previous message displayed on the screen and proceed accordingly.

   ORA-20xxx: Stopping script - see previous message...

set PAGES 1000

-- query the V$SESSION_LONGOPS view
select TARGET, TO_CHAR(START_TIME,'HH24:MI:SS - DD-MM-YY'),
       TIME_REMAINING, SOFAR, TOTALWORK, SID, SERIAL#, OPNAME
from V$SESSION_LONGOPS
where sid in
      (select SID from V$SESSION where CLIENT_INFO = 'upg_tzv')
      and
      SOFAR < TOTALWORK
order by START_TIME;

-- query the V$SESSION and V$SQLAREA views
select S.SID, S.SERIAL#, S.SQL_ID, S.PREV_SQL_ID,
       S.EVENT#, S.EVENT, S.P1TEXT, S.P1, S.P2TEXT,
       S.P2, S.P3TEXT, S.P3, S.TIME_REMAINING_MICRO,
       S.SEQ#, S.BLOCKING_SESSION, BS.PROGRAM "Blocking Program",
       Q1.SQL_TEXT "Current SQL", Q2.SQL_TEXT "Previous SQL"
from V$SESSION S, V$SQLAREA Q1, V$SQLAREA Q2, V$SESSION BS
where S.SQL_ID = Q1.SQL_ID(+) and
      S.PREV_SQL_ID = Q2.SQL_ID(+) and
      S.BLOCKING_SESSION = BS.SID(+) and
      S.CLIENT_INFO = 'upg_tzv';