ALTER DATABASE

Purpose

Use the ALTER DATABASE statement to modify, maintain, or recover an existing database.

See Also:

Prerequisites

You must have the ALTER DATABASE system privilege.

To specify the startup_clauses, you must also be connected AS SYSDBA, AS SYSOPER, AS SYSBACKUP, or AS SYSDG.

To specify the general_recovery clause, you must also have the SYSDBA or SYSBACKUP system privilege.

To specify the DEFAULT EDITION clause, you must also have the USE object privilege WITH GRANT OPTION on the specified edition.

If you are connected to a multitenant container database (CDB):

  • To modify the entire CDB, the current container must be the root and you must have the commonly granted ALTER DATABASE privilege.

  • To modify a container, it must be the current container and you must have the ALTER DATABASE privilege, either granted commonly or granted locally in the container.

Notes on Using ALTER DATABASE in a CDB

When you issue the ALTER DATABASE statement while connected to a CDB, the behavior of the statement depends on the current container and the clause(s) you specify.

If the current container is the root, then ALTER DATABASE statements with the following clauses modify the entire CDB. In order to specify these clauses, you must have the commonly granted ALTER DATABASE privilege:

  • startup_clauses

  • recovery_clauses

    Note: A subset of the recovery_clauses are supported to back up and recover an individual pluggable database (PDB). In order to specify these clauses, you must have the ALTER DATABASE privilege, either granted commonly or granted locally in the PDB. Refer to "Notes on Using the recovery_clauses in a CDB" for more information.

  • logfile_clauses

  • controlfile_clauses

  • standby_database_clauses

  • instance_clauses

  • security_clause

  • RENAME GLOBAL_NAME TO

  • ENABLE BLOCK CHANGE TRACKING

  • DISABLE BLOCK CHANGE TRACKING

  • undo_mode_clause

If the current container is the root, then ALTER DATABASE statements with the following clauses modify only the root. In order to specify these clauses, you must have the ALTER DATABASE privilege, either granted commonly or granted locally in the root:

  • database_file_clauses

  • DEFAULT EDITION

  • DEFAULT TABLESPACE

If the current container is the root, then ALTER DATABASE statements with the following clauses modify the root and set default values for the PDBs. In order to specify these clauses, you must have the commonly granted ALTER DATABASE privilege:

  • DEFAULT [ LOCAL ] TEMPORARY TABLESPACE

  • flashback_mode_clause

  • SET DEFAULT { BIGFILE | SMALLFILE } TABLESPACE

  • set_time_zone_clause

If the current container is a PDB, then ALTER DATABASE statements modify that PDB. In this case, you can issue only ALTER DATABASE clauses that are also supported by the ALTER PLUGGABLE DATABASE statement. This functionality is provided to maintain backward compatibility for applications that have been migrated to a CDB environment. The exception is modifying PDB storage limits, for which you must use the pdb_storage_clause of ALTER PLUGGABLE DATABASE. Refer to the documentation on ALTER PLUGGABLE DATABASE for complete information on these clauses.

Syntax

managed_standby_recovery::=

(parallel_clause::=)

Note:

Several subclauses of managed_standby_recovery are no longer needed and have been deprecated. These clauses no longer appear in the syntax diagrams. Refer to the semantics of managed_standby_recovery.

Semantics

database_clause

Specify the DATABASE option for a non-container database.

db_name

Specify the name of the database to be altered. If you omit db_name, then Oracle Database alters the database identified by the value of the initialization parameter DB_NAME. You can alter only the database whose control files are specified by the initialization parameter CONTROL_FILES. The database identifier is not related to the Oracle Net database specification.

startup_clauses

The startup_clauses let you mount and open the database so that it is accessible to users.

MOUNT Clause

Use the MOUNT clause to mount the database. Do not use this clause when the database is already mounted.

MOUNT STANDBY DATABASE

You can specify MOUNT STANDBY DATABASE to mount a physical standby database. The keywords STANDBY DATABASE are optional, because Oracle Database determines automatically whether the database to be mounted is a primary or standby database. As soon as this statement executes, the standby instance can receive redo data from the primary instance.

See Also:

Oracle Data Guard Concepts and Administration for more information on standby databases

MOUNT CLONE DATABASE

Specify MOUNT CLONE DATABASE to mount the clone database.

OPEN Clause

Use the OPEN clause to make the database available for normal use. You must mount the database before you can open it.

If you specify only OPEN without any other keywords, then the default is OPEN READ WRITE NORESETLOGS on a primary database, logical standby database, or snapshot standby database and OPEN READ ONLY on a physical standby database.

OPEN READ WRITE

Specify OPEN READ WRITE to open the database in read/write mode, allowing users to generate redo logs. This is the default if you are opening a primary database. You cannot specify this clause for a physical standby database.

RESETLOGS | NORESETLOGS

This clause determines whether Oracle Database resets the current log sequence number to 1, archives any unarchived logs (including the current log), and discards any redo information that was not applied during recovery, ensuring that it will never be applied. Oracle Database uses NORESETLOGS automatically except in the following specific situations, which require a setting for this clause:

  • You must specify RESETLOGS:

    • After performing incomplete media recovery or media recovery using a backup control file

    • After a previous OPEN RESETLOGS operation that did not complete

    • After a FLASHBACK DATABASE operation

  • If a created control file is mounted, then you must specify RESETLOGS if the online logs are lost, or you must specify NORESETLOGS if they are not lost.

UPGRADE | DOWNGRADE

Use these OPEN clause parameters only if you are upgrading or downgrading a database. This clause instructs Oracle Database to modify system parameters dynamically as required for upgrade and downgrade, respectively. You can achieve the same result using the SQL*Plus STARTUP UPGRADE or STARTUP DOWNGRADE command.

When you use the UPGRADE or DOWNGRADE parameters for a CDB, the root container is opened in the specified mode, but all other containers are opened in READ WRITE mode.

See Also:

OPEN READ ONLY

Specify OPEN READ ONLY to restrict users to read-only transactions, preventing them from generating redo logs. This setting is the default when you are opening a physical standby database, so that the physical standby database is available for queries even while archive logs are being copied from the primary database site.

Restrictions on Opening a Database

The following restrictions apply to opening a database:

  • You cannot open a database in READ ONLY mode if it is currently opened in READ WRITE mode by another instance.

  • You cannot open a database in READ ONLY mode if it requires recovery.

  • You cannot take tablespaces offline while the database is open in READ ONLY mode. However, you can take data files offline and online, and you can recover offline data files and tablespaces while the database is open in READ ONLY mode.

    See Also:

    Oracle Data Guard Concepts and Administration for additional information about opening a physical standby database

recovery_clauses

The recovery_clauses include post-backup operations. For all of these clauses, Oracle Database recovers the database using any incarnations of data files and log files that are known to the current control file.

See Also:

Oracle Database Backup and Recovery User's Guide for information on backing up the database and "Database Recovery: Examples"

Notes on Using the recovery_clauses in a CDB

When the current container is the root, you can specify all of the recovery_clauses to back up and recover the entire CDB.

When the current container is a PDB, you can specify the following subclauses of the recovery_clauses to back up and recover the PDB:

  • BEGIN BACKUP

  • END BACKUP

  • full_database_recovery: You can specify only the DATABASE keyword

  • partial_database_recovery

  • The LOGFILE and CONTINUE clauses of general_recovery

You can also specify the preceding subclauses using the pdb_recovery_clauses of ALTER PLUGGABLE DATABASE. Refer to the syntax diagram pdb_recovery_clauses of ALTER PLUGGABLE DATABASE.

general_recovery

The general_recovery clause lets you control media recovery for the database or standby database or for specified tablespaces or files. You can use this clause when your instance has the database mounted, open or closed, and the files involved are not in use.

Note:

Parallelism is enabled by default during full or partial database recovery and logfile recovery. The database computes the degree of parallelism. You can disable parallelism of these operations by specifying NOPARALLEL, or specify a degree of parallelism with PARALLEL integer, as shown in the respective syntax diagrams.

Restrictions on General Database Recovery

General recovery is subject to the following restrictions:

  • You can recover the entire database only when the database is closed.

  • Your instance must have the database mounted in exclusive mode.

  • You can recover tablespaces or data files when the database is open or closed, if the tablespaces or data files to be recovered are offline.

  • You cannot perform media recovery if you are connected to Oracle Database through the shared server architecture.

See Also:

AUTOMATIC

Specify AUTOMATIC if you want Oracle Database to automatically generate the name of the next archived redo log file needed to continue the recovery operation. If the LOG_ARCHIVE_DEST_n parameters are defined, then Oracle Database scans those that are valid and enabled for the first local destination. It uses that destination in conjunction with LOG_ARCHIVE_FORMAT to generate the target redo log filename. If the LOG_ARCHIVE_DEST_n parameters are not defined, then Oracle Database uses the value of the LOG_ARCHIVE_DEST parameter instead.

If the resulting file is found, then Oracle Database applies the redo contained in that file. If the file is not found, then Oracle Database prompts you for a filename, displaying the generated filename as a suggestion.

If you specify neither AUTOMATIC nor LOGFILE, then Oracle Database prompts you for a filename, displaying the generated filename as a suggestion. You can then accept the generated filename or replace it with a fully qualified filename. If you know that the archived filename differs from what Oracle Database would generate, then you can save time by using the LOGFILE clause.

FROM 'location'

Specify FROM 'location' to indicate the location from which the archived redo log file group is read. The value of location must be a fully specified file location following the conventions of your operating system. If you omit this parameter, then Oracle Database assumes that the archived redo log file group is in the location specified by the initialization parameter LOG_ARCHIVE_DEST or LOG_ARCHIVE_DEST_1.

full_database_recovery

The full_database_recovery clause lets you recover an entire database.

DATABASE

Specify the DATABASE clause to recover the entire database. This is the default. You can use this clause only when the database is closed.

STANDBY DATABASE

Specify the STANDBY DATABASE clause to manually recover a physical standby database using the control file and archived redo log files copied from the primary database. The standby database must be mounted but not open.

This clause recovers only online data files.

  • Use the UNTIL clause to specify the duration of the recovery operation.

    • CANCEL indicates cancel-based recovery. This clause recovers the database until you issue the ALTER DATABASE statement with the RECOVER CANCEL clause.

    • TIME indicates time-based recovery. This parameter recovers the database to the time specified by the date. The date must be a character literal in the format 'YYYY-MM-DD:HH24:MI:SS'.

    • CHANGE indicates change-based recovery. This parameter recovers the database to a transaction-consistent state immediately before the system change number specified by integer.

    • CONSISTENT recovers the database until all online files are brought to a consistent SCN point so that the database can be open in read only mode. This clauses requires the controlfile to be a backup controlfile.

  • Specify USING BACKUP CONTROLFILE if you want to use a backup control file instead of the current control file.

  • Specify the SNAPSHOT TIME clause to recover the database with a storage snapshot using Storage Snapshot Optimization. This clause can be used in cases where the database was not placed in backup mode when the storage snapshot was created.

    • date must be a character literal in the format 'YYYY-MM-DD:HH24:MI:SS'. It must represent a time that is immediately after the snapshot was completed. If you specify the UNTIL TIME clause, then SNAPSHOT TIME date must be earlier than UNTIL TIME date.

    See Also:

    Oracle Database Backup and Recovery User's Guide for more information on recovery using Storage Snapshot Optimization

partial_database_recovery

The partial_database_recovery clause lets you recover individual tablespaces and data files.

TABLESPACE

Specify the TABLESPACE clause to recover only the specified tablespaces. You can use this clause if the database is open or closed, provided the tablespaces to be recovered are offline.

DATAFILE

Specify the DATAFILE clause to recover the specified data files. You can use this clause when the database is open or closed, provided the data files to be recovered are offline.

You can identify the data file by name or by number. If you identify it by number, then filenumber is an integer representing the number found in the FILE# column of the V$DATAFILE dynamic performance view or in the FILE_ID column of the DBA_DATA_FILES data dictionary view.

STANDBY {TABLESPACE | DATAFILE}

In earlier releases, you could specify STANDBY TABLESPACE or STANDBY DATAFILE to recover older backups of a specific tablespace or a specific data file on the standby to be consistent with the rest of the standby database. These two clauses are now desupported. Instead, to recover the standby database to a consistent point, but no further, use the statement ALTER DATABASE RECOVER MANAGED STANDBY DATABASE UNTIL CONSISTENT.

LOGFILE

Specify the LOGFILE 'filename' to continue media recovery by applying the specified redo log file.

TEST

Use the TEST clause to conduct a trial recovery. A trial recovery is useful if a normal recovery procedure has encountered some problem. It lets you look ahead into the redo stream to detect possible additional problems. The trial recovery applies redo in a way similar to normal recovery, but it does not write changes to disk, and it rolls back its changes at the end of the trial recovery.

You can use this clause only if you have restored a backup taken since the last RESETLOGS operation. Otherwise, Oracle Database returns an error.

ALLOW ... CORRUPTION

The ALLOW integer CORRUPTION clause lets you specify, in the event of logfile corruption, the number of corrupt blocks that can be tolerated while allowing recovery to proceed.

See Also:

CONTINUE

Specify CONTINUE to continue multi-instance recovery after it has been interrupted to disable a thread.

Specify CONTINUE DEFAULT to continue recovery using the redo log file that Oracle Database would automatically generate if no other logfile were specified. This clause is equivalent to specifying AUTOMATIC, except that Oracle Database does not prompt for a filename.

CANCEL

Specify CANCEL to terminate cancel-based recovery.

managed_standby_recovery

Use the managed_standby_recovery clause to start and stop Redo Apply on a physical standby database. Redo Apply keeps the standby database transactionally consistent with the primary database by continuously applying redo received from the primary database.

A primary database transmits its redo data to standby sites. As the redo data is written to redo log files at the physical standby site, the log files become available for use by Redo Apply. You can use the managed_standby_recovery clause when your standby instance has the database mounted or is opened read-only.

Note:

Beginning with Oracle Database 12c, real-time apply is enabled by default during Redo Apply. Real-time apply recovers redo from the standby redo log files as soon as they are written, without requiring them to be archived first at the physical standby database. You can disable real-time apply with the USING ARCHIVED LOGFILE clause. Refer to:

Note:

Parallelism is enabled by default during Redo Apply. The database computes the degree of parallelism. You can disable parallelism of these operations by specifying NOPARALLEL, or specify a degree of parallelism with PARALLEL integer, as shown in the respective syntax diagrams.

Restrictions on Managed Standby Recovery

The same restrictions listed under general_recovery apply to this clause.

See Also:

Oracle Data Guard Concepts and Administration for more information on the use of this clause

USING ARCHIVED LOGFILE Clause

Specify USING ARCHIVED LOGFILE to start Redo Apply without enabling real-time apply.

DISCONNECT

Specify DISCONNECT to indicate that Redo Apply should be performed in the background, leaving the current session available for other tasks. The FROM SESSION keywords are optional and are provided for semantic clarity.

NODELAY

The NODELAY clause overrides the DELAY attribute on the LOG_ARCHIVE_DEST_n parameter on the primary database. If you do not specify the NODELAY clause, then application of the archived redo log file is delayed according to the DELAY attribute of the LOG_ARCHIVE_DEST_n setting (if any). If the DELAY attribute was not specified on that parameter, then the archived redo log file is applied immediately to the standby database.

If you specify real-time apply with the USING CURRENT LOGFILE clause, then any DELAY value specified for the LOG_ARCHIVE_DEST_n parameter at the primary for this standby is ignored, and NODELAY is the default.

UNTIL CHANGE Clause

Use this clause to instruct Redo Apply to recover redo data up to, but not including, the specified system change number.

UNTIL CONSISTENT

Use this clause to recover the standby database to a consistent SCN point so that the standby database can be opened in read only mode.

USING INSTANCES

This clause is applicable only for Oracle Real Application Clusters (Oracle RAC) or Oracle RAC One Node databases and allows you to start apply processes on multiple instances of the standby that are started in the same mode (MOUNTED or READ ONLY) as the instance on which the command is executed. Specify USING INSTANCES ALL to perform Redo Apply on all instances in an Oracle RAC standby database started in the same mode. Specify USING INSTANCES integer to perform Redo Apply on the specified number of instances that are started in the same mode. For integer, specify an integer value from 1 to the number of instances in the standby database. The database chooses the instances on which to perform Redo Apply; you cannot specify particular instances. For example, if you specify 4 instances from an instance that is MOUNTED and only 3 instances of the standby are running in the MOUNTED mode, then Redo Apply will only be started on 3 instances. If you omit the USING INSTANCES clause, then Oracle Database performs Redo Apply only on the instance where the command was executed.

FINISH

Specify FINISH to complete applying all available redo data in preparation for a failover.

Use the FINISH clause only in the event of the failure of the primary database. This clause overrides any specified delay intervals and applies all available redo immediately. After the FINISH command completes, this database can no longer run in the standby database role, and it must be converted to a primary database by issuing the ALTER DATABASE COMMIT TO SWITCHOVER TO PRIMARY statement.

CANCEL

Specify CANCEL to stop Redo Apply immediately. Control is returned as soon as Redo Apply stops.

TO LOGICAL STANDBY Clause

Use this clause to convert a physical standby database into a logical standby database.

db_name

Specify a database name to identify the new logical standby database. If you are using a server parameter file (spfile) at the time you issue this statement, then the database will update the file with appropriate information about the new logical standby database. If you are not using an spfile, then the database issues a message reminding you to set the name of the DB_NAME parameter after shutting down the database. In addition, you must invoke the DBMS_LOGSTDBY.BUILD PL/SQL procedure on the primary database before using this clause on the standby database.

See Also:

Oracle Database PL/SQL Packages and Types Reference for information about the DBMS_LOGSTDBY.BUILD procedure

KEEP IDENTITY

Use this clause if you want to use the rolling upgrade feature provided by a logical standby and also revert to the original configuration of a primary database and a physical standby. A logical standby database created using this clause provides only limited support for switchover and failover. Therefore, do not use this clause create a general-purpose logical standby database.

See Also:

Oracle Data Guard Concepts and Administration for more information on rolling upgrade

Deprecated Managed Standby Recovery Clauses

The following clauses appeared in the syntax of earlier releases. They have been deprecated and are no longer needed. Oracle recommends that you do not use these clauses.

FINISH FORCE, FINISH WAIT, FINISH NOWAIT

These optional forms of the FINISH clause are deprecated. Their semantics are presented here for backward compatibility:

  • FORCE terminates inactive redo transport sessions that would otherwise prevent FINISH processing from beginning.

  • NOWAIT returns control to the foreground process before the recovery completes

  • WAIT (the default) returns control to the foreground process after recovery completes

When specified, these clauses are ignored. Terminal recovery now runs in the foreground and always terminates all redo transport sessions. Therefore control is not returned to the user until recovery completes.

CANCEL IMMEDIATE, CANCEL WAIT, CANCEL NOWAIT

These optional forms of the CANCEL clause are deprecated. Their semantics are presented here for backward compatibility:

  • Include the IMMEDIATE keyword to stop Redo Apply before completely applying the current redo log file. Session control returns when Redo Apply actually stops.

  • Include the NOWAIT keyword to return session control without waiting for the CANCEL operation to complete.

When specified, these clauses are ignored. Redo Apply is now always cancelled immediately and control returns to the session only after the operation completes.

USING CURRENT LOGFILE Clause

The USING CURRENT LOGFILE clause is deprecated. It invokes real-time apply during Redo Apply. However, this is now the default behavior and this clause is no longer useful.

BACKUP Clauses

Use these clauses to move all the data files in the database into or out of online backup mode (also called hot backup mode).

See Also:

ALTER TABLESPACE for information on moving all data files in an individual tablespace into and out of online backup mode

BEGIN BACKUP Clause

Specify BEGIN BACKUP to move all data files in the database into online backup mode. The database must be mounted and open, and media recovery must be enabled (the database must be in ARCHIVELOG mode).

While the database is in online backup mode, you cannot shut down the instance normally, begin backup of an individual tablespace, or take any tablespace offline or make it read only.

This clause has no effect on data files that are in offline or on read-only tablespaces.

END BACKUP Clause

Specify END BACKUP to take out of online backup mode any data files in the database currently in online backup mode. The database must be mounted (either open or closed) when you perform this operation.

After a system failure, instance failure, or SHUTDOWN ABORT operation, Oracle Database does not know whether the files in online backup mode match the files at the time the system crashed. If you know the files are consistent, then you can take either individual data files or all data files out of online backup mode. Doing so avoids media recovery of the files upon startup.

  • To take an individual data file out of online backup mode, use the ALTER DATABASE DATAFILE ... END BACKUP statement. See database_file_clauses.

  • To take all data files in a tablespace out of online backup mode, use an ALTER TABLESPACE ... END BACKUP statement.

database_file_clauses

The database_file_clauses let you modify data files and temp files. You can use any of the following clauses when your instance has the database mounted, open or closed, and the files involved are not in use. The exception is the move_datafile_clause, which allows you to move a data file that is in use.

RENAME FILE Clause

Use the RENAME FILE clause to rename data files, temp files, or redo log file members. You must create each filename using the conventions for filenames on your operating system before specifying this clause.

  • To use this clause for a data file or temp file, the database must be mounted. The database can also be open, but the data file or temp file being renamed must be offline. In addition, you must first rename the file on the file system to the new name.

  • To use this clause for logfiles, the database must be mounted but not open.

  • If you have enabled block change tracking, then you can use this clause to rename the block change tracking file. The database must be mounted but not open when you rename the block change tracking file.

This clause renames only files in the control file. It does not actually rename them on your operating system. The operating system files continue to exist, but Oracle Database no longer uses them.

See Also:

create_datafile_clause

Use the CREATE DATAFILE clause to create a new empty data file in place of an old one. You can use this clause to re-create a data file that was lost with no backup. The filename or filenumber must identify a file that is or was once part of the database. If you identify the file by number, then filenumber is an integer representing the number found in the FILE# column of the V$DATAFILE dynamic performance view or in the FILE_ID column of the DBA_DATA_FILES data dictionary view.

  • Specify AS NEW to create an Oracle-managed data file with a system-generated filename, the same size as the file being replaced, in the default file system location for data files.

  • Specify AS file_specification to assign a file name (and optional size) to the new data file. Use the datafile_tempfile_spec form of file_specification (see file_specification) to list regular data files and temp files in an operating system file system or to list Oracle Automatic Storage Management (Oracle ASM) disk group files.

If the original file (filename or filenumber) is an existing Oracle-managed data file, then Oracle Database attempts to delete the original file after creating the new file. If the original file is an existing user-managed data file, then Oracle Database does not attempt to delete the original file.

If you omit the AS clause entirely, then Oracle Database creates the new file with the same name and size as the file specified by filename or filenumber.

During recovery, all archived redo logs written to since the original data file was created must be applied to the new, empty version of the lost data file.

Oracle Database creates the new file in the same state as the old file when it was created. You must perform media recovery on the new file to return it to the state of the old file at the time it was lost.

Restrictions on Creating New Data Files

The creation of new data files is subject to the following restrictions:

  • You cannot create a new file based on the first data file of the SYSTEM tablespace.

  • You cannot specify the autoextend_clause of datafile_tempfile_spec in this CREATE DATAFILE clause.

See Also:

alter_datafile_clause

The DATAFILE clause lets you manipulate a file that you identify by name or by number. If you identify it by number, then filenumber is an integer representing the number found in the FILE# column of the V$DATAFILE dynamic performance view or in the FILE_ID column of the DBA_DATA_FILES data dictionary view. The DATAFILE clauses affect your database files as follows:

ONLINE

Specify ONLINE to bring the data file online.

OFFLINE

Specify OFFLINE to take the data file offline. If the database is open, then you must perform media recovery on the data file before bringing it back online, because a checkpoint is not performed on the data file before it is taken offline.

FOR DROP

If the database is in NOARCHIVELOG mode, then you must specify FOR DROP clause to take a data file offline. However, this clause does not remove the data file from the database. To do that, you must use an operating system command or drop the tablespace in which the data file resides. Until you do so, the data file remains in the data dictionary with the status RECOVER or OFFLINE.

If the database is in ARCHIVELOG mode, then Oracle Database ignores the FOR DROP clause.

RESIZE

Specify RESIZE if you want Oracle Database to attempt to increase or decrease the size of the data file to the specified absolute size in bytes. There is no default, so you must specify a size. You can also use this command to resize datafiles in shadow tablespaces, that store lost write data.

If sufficient disk space is not available for the increased size, or if the file contains data beyond the specified decreased size, then Oracle Database returns an error.

END BACKUP

Specify END BACKUP to take the data file out of online backup mode. The END BACKUP clause is described more fully at the top level of the syntax of ALTER DATABASE. See "END BACKUP Clause".

ENCRYPT | DECRYPT

Use these clauses to perform offline encryption or decryption of the data file using Transparent Data Encryption (TDE). In any given tablespace, either all data files must be encrypted or all data files must be unencrypted.

Before issuing either of these clauses, the database must be mounted. The database can also be open, but the tablespace that contains the data file being encrypted or decrypted must be offline. The TDE master key must be loaded into database memory.

  • Specify ENCRYPT to encrypt an unencrypted data file. The data file is encrypted using the AES128 algorithm.

  • Specify DECRYPT to decrypt a data file. The data file must have been previously encrypted with the ALTER DATABASE DATAFILE ... ENCRYPT statement.

Restrictions on Encrypting and Decrypting Data Files

The following restrictions apply to the ENCRYPT and DECRYPT clauses:

  • You cannot encrypt or decrypt a temporary data file of a temporary tablespace. Instead, you must drop the temporary tablespace and recreate it as an encrypted tablespace.

  • Oracle recommends against encrypting the data files of an undo tablespace. Doing so prevents the keystore from being closed, which prevents the database from functioning. Furthermore, this practice is unnecessary because all undo records that are associated with an encrypted tablespace are already automatically encrypted in the undo tablespace.

Note:

The use of the ENCRYPT or DECRYPT clause is only one step in a series of steps for performing offline encryption or decryption of a data file. Refer to Oracle Database Advanced Security Guide for the complete set of steps before you use either of these clauses.

alter_tempfile_clause

Use the TEMPFILE clause to resize your temporary data file or specify the autoextend_clause, with the same effect as for a permanent data file. The database must be open. You can identify the temp file by name or by number. If you identify it by number, then filenumber is an integer representing the number found in the FILE# column of the V$TEMPFILE dynamic performance view.

Note:

On some operating systems, Oracle does not allocate space for a temp file until the temp file blocks are actually accessed. This delay in space allocation results in faster creation and resizing of temp files, but it requires that sufficient disk space is available when the temp files are later used. To avoid potential problems, before you create or resize a temp file, ensure that the available disk space exceeds the size of the new temp file or the increased size of a resized temp file. The excess space should allow for anticipated increases in disk space use by unrelated operations as well. Then proceed with the creation or resizing operation.

DROP

Specify DROP to drop tempfile from the database. The tablespace remains.

If you specify INCLUDING DATAFILES, then Oracle Database also deletes the associated operating system files and writes a message to the alert log for each such deleted file. You can achieve the same result using an ALTER TABLESPACE ... DROP TEMPFILE statement. Refer to the ALTER TABLESPACE DROP Clause for more information.

move_datafile_clause

Use the MOVE DATAFILE clause to move an online data file to a new location. The database can be open and accessing the data file when you perform this operation. The database creates a copy of the data file when it is performing this operation. Ensure that there is adequate disk space for the original data file and the copy before using this clause.

You can specify the original data file using the file_name, ASM_filename, or file_number. Refer to ASM_filename for information on ASM file names. If you identify the file by number, then file_number is an integer representing the number found in the FILE# column of the V$DATAFILE dynamic performance view or in the FILE_ID column of the DBA_DATA_FILES data dictionary view.

Use the TO clause to specify the new file_name or ASM_filename. If you are using Oracle Managed Files, then you can omit the TO clause. In this case, Oracle Database creates a unique name for the data file and saves it in the directory specified by the DB_CREATE_FILE_DEST initialization parameter.

If you specify REUSE, then the new data file is created even if it already exists.

If you specify KEEP, then the original data file will be kept after the MOVE DATAFILE operation. You cannot specify KEEP if the original data file is an Oracle Managed File. You can specify KEEP if the new data file is an Oracle Managed File.

autoextend_clause

Use the autoextend_clause to enable or disable the automatic extension of a new or existing data file or temp file. Refer to file_specification for information about this clause.

logfile_clauses

The logfile clauses let you add, drop, or modify log files.

ARCHIVELOG

Specify ARCHIVELOG if you want the contents of a redo log file group to be archived before the group can be reused. This mode prepares for the possibility of media recovery. Use this clause only after shutting down your instance normally, or immediately with no errors, and then restarting it and mounting the database.

MANUAL

Specify MANUAL to indicate that Oracle Database should create redo log files, but the archiving of the redo log files is controlled entirely by the user. This clause is provided for backward compatibility, for example for users who archive directly to tape. If you specify MANUAL, then:

  • Oracle Database does not archive redo log files when a log switch occurs. You must handle this manually.

  • You cannot have specified a standby database as an archivelog destinations. As a result, the database cannot be in MAXIMUM PROTECTION or MAXIMUM AVAILABILITY standby protection mode.

If you omit this clause, then Oracle Database automatically archives the redo log files to the destination specified in the LOG_ARCHIVE_DEST_n initialization parameters.

NOARCHIVELOG

Specify NOARCHIVELOG if you do not want the contents of a redo log file group to be archived so that the group can be reused. This mode does not prepare for recovery after media failure. Use this clause only if your instance has the database mounted but not open.

[NO] FORCE LOGGING

Use this clause to put the database into or take the database out of FORCE LOGGING mode. The database must be mounted or open.

In FORCE LOGGING mode, Oracle Database logs all changes in the database except changes in temporary tablespaces and temporary segments. This setting takes precedence over and is independent of any NOLOGGING or FORCE LOGGING settings you specify for individual tablespaces and any NOLOGGING settings you specify for individual database objects.

If you specify FORCE LOGGING, then Oracle Database waits for all ongoing unlogged operations to finish.

See Also:

Oracle Database Administrator's Guide for information on when to use FORCE LOGGING mode

SET STANDBY NOLOGGING

Standby nologging instructs the database to not log operations that qualify to be done without logging. The database sends the data blocks created by the operation to each qualifying standby database in the Data Guard configuration, to prevent missed data on the standby and keep it in sync with the primary.

Use this clause to determine how nonlogged tasks are handled . You can choose one of two logging modes for a database when you create the database, and you can change the logging mode of a database from one mode to the other.

  • SET STANDBY NOLOGGING FOR LOAD PERFORMANCE to put the database into standby nologging for load performance mode. In this mode, the data loaded as part of the nonlogged task is sent to the qualifying standbys via a private network connection, provided that doing so will not slow down the load process. If the load process slows, then the data is not sent but automatically fetched from the primary as each standby encounters the invalidation redo and will be retried until the data blocks are eventually received.

  • Specify SET STANDBY NOLOGGING FOR DATA AVAILABILITY to put the database into standby nologging for data availability mode. In this mode the data loaded as part of the nonlogged task is sent to the qualifying standbys either via a network connection or via block images in the redo, in case the network connection fails. That is to say, in this mode the load will switch to be done in a logged fashion if the network connection or related processes prevent the sending of the data over the private network connection.

For the standby nologging modes, a qualifying standby is one that is open for read, running managed recovery and receiving redo into standby redo logs.

Restrictions on Setting Standby Nologging

TheSET STANDBY NOLOGGING clause cannot be used at the same time as FORCE LOGGING.

RENAME FILE Clause

This clause has the same function for logfiles that it has for data files and temp files. See "RENAME FILE Clause".

CLEAR LOGFILE Clause

Use the CLEAR LOGFILE clause to reinitialize an online redo log, optionally without archiving the redo log. CLEAR LOGFILE is similar to adding and dropping a redo log, except that the statement may be issued even if there are only two logs for the thread and may be issued for the current redo log of a closed thread.

For a standby database, if the STANDBY_FILE_MANAGEMENT initialization parameter is set to AUTO, and if any of the log files are Oracle Managed Files, Oracle Database will create as many Oracle-managed log files as are in the control file. The log file members will reside in the current default log file destination.

  • You must specify UNARCHIVED if you want to reuse a redo log that was not archived.

    Note:

    Specifying UNARCHIVED makes backups unusable if the redo log is needed for recovery.

  • You must specify UNRECOVERABLE DATAFILE if you have taken the data file offline with the database in ARCHIVELOG mode (that is, you specified ALTER DATABASE ... DATAFILE OFFLINE without the DROP keyword), and if the unarchived log to be cleared is needed to recover the data file before bringing it back online. In this case, you must drop the data file and the entire tablespace once the CLEAR LOGFILE statement completes.

    Do not use CLEAR LOGFILE to clear a log needed for media recovery. If it is necessary to clear a log containing redo after the database checkpoint, then you must first perform incomplete media recovery. The current redo log of an open thread can be cleared. The current log of a closed thread can be cleared by switching logs in the closed thread.

    If the CLEAR LOGFILE statement is interrupted by a system or instance failure, then the database may hang. In this case, reissue the statement after the database is restarted. If the failure occurred because of I/O errors accessing one member of a log group, then that member can be dropped and other members added.

add_logfile_clauses

Use these clauses to add redo log file groups to the database and to add new members to existing redo log file groups.

ADD LOGFILE Clause

Use the ADD LOGFILE clause to add one or more redo log file groups to the online redo log or standby redo log.

See Also:

STANDBY

Use the STANDBY clause to add a redo log file group to the standby redo log. If you do not specify this clause, then a log file group is added to the online redo log.

INSTANCE

The INSTANCE clause is applicable only for Oracle Real Application Clusters (Oracle RAC) or Oracle RAC One Node databases. Specify the name of the instance for which you want to add a redo log file group. The instance name is a string of up to 80 characters. Oracle Database automatically uses the thread that is mapped to the specified instance. If no thread is mapped to the specified instance, then Oracle Database automatically acquires an available unmapped thread and assigns it to that instance. If you do not specify this clause, then Oracle Database executes the command as if you had specified the current instance. If the specified instance has no current thread mapping and there are no available unmapped threads, then Oracle Database returns an error.

THREAD

When adding a redo log file group to the standby redo log, use the THREAD clause to assign the log file group to a specific primary database redo thread. Query the V$INSTANCE view on the primary database to determine which redo threads have been opened, and specify one of these thread numbers.

You can also use the THREAD clause to assign a log file group to a specific redo thread when adding the log file group to the online redo log. This usage has been deprecated. The INSTANCE clause achieves the same purpose and is easier to use.

GROUP

The GROUP clause uniquely identifies the redo log file group among all groups in all threads and can range from 1 to the value specified for MAXLOGFILES in the CREATE DATABASE statement. You cannot add multiple redo log file groups having the same GROUP value. If you omit this parameter, then Oracle Database generates its value automatically. You can examine the GROUP value for a redo log file group through the dynamic performance view V$LOG.

redo_log_file_spec

Each redo_log_file_spec specifies a redo log file group containing one or more members (copies). If you do not specify a filename for the new log file, then Oracle Database creates Oracle Managed Files according to the rules described in the "LOGFILE Clause" of CREATE DATABASE.

See Also:

ADD LOGFILE MEMBER Clause

Use the ADD LOGFILE MEMBER clause to add new members to existing redo log file groups. Each new member is specified by 'filename'. If the file already exists, then it must be the same size as the other group members and you must specify REUSE. If the file does not exist, then Oracle Database creates a file of the correct size. You cannot add a member to a group if all of the members of the group have been lost through media failure.

STANDBY

You must specify STANDBY when adding a member to a standby redo log file group. Otherwise, Oracle Database returns an error.

You can use the logfile_descriptor clause to specify an existing redo log file group in one of two ways:

GROUP integer

Specify the value of the GROUP parameter that identifies the redo log file group.

filename(s)

List all members of the redo log file group. You must fully specify each filename according to the conventions of your operating system.

See Also:

drop_logfile_clauses

Use these clauses to drop redo log file groups or redo log file members.

DROP LOGFILE Clause

Use the DROP LOGFILE clause to drop all members of a redo log file group. If you use this clause to drop Oracle Managed Files, then Oracle Database also removes all log file members from disk. Specify a redo log file group as indicated for the ADD LOGFILE MEMBER clause.

  • To drop the current log file group, you must first issue an ALTER SYSTEM SWITCH LOGFILE statement.

  • You cannot drop a redo log file group if it needs archiving.

  • You cannot drop a redo log file group if doing so would cause the redo thread to contain less than two redo log file groups.

DROP LOGFILE MEMBER Clause

Use the DROP LOGFILE MEMBER clause to drop one or more redo log file members. Each 'filename' must fully specify a member using the conventions for filenames on your operating system.

  • To drop a log file in the current log, you must first issue an ALTER SYSTEM SWITCH LOGFILE statement. Refer to ALTER SYSTEM for more information.

  • You cannot use this clause to drop all members of a redo log file group that contains valid data. To perform that operation, use the DROP LOGFILE clause.

switch_logfile_clause

This clause is useful when you are migrating the database to disks with a different block size that the block size of the current database. Use this clause to switch logfiles to a different block size for all externally enabled threads, including both open and closed threads. If you are migrating the database to use 4KB sector disks, then you must specify 4096 for integer. If you are unmigrating the database back to using 512B sector disks, then you must specify 512 for integer.

This clause is an extension of the existing ALTER SYSTEM SWITCH LOGFILE statement. That statement switches logs for a single thread. This clause switches logfiles for all externally enabled threads, including both open and closed threads.

Before using this clause, you must already have created at least two redo log groups with the same target block size on the migration target disk.

See Also:

Oracle Database Administrator's Guide for more information on migrating the database to disks with a different block size, and "Adding a Log File: Example"

supplemental_db_logging

Use these clauses to instruct Oracle Database to add or stop adding supplemental data into the log stream.

ADD SUPPLEMENTAL LOG Clause

Specify ADD SUPPLEMENTAL LOG DATA to enable minimal supplemental logging. Specify ADD SUPPLEMENTAL LOG supplemental_id_key_clause to enable column data logging in addition to minimal supplemental logging. Specify ADD SUPPLEMENTAL LOG supplemental_plsql_clause to enable supplemental logging of PL/SQL calls. Oracle Database does not enable either minimal supplemental logging or supplemental logging by default.

Minimal supplemental logging ensures that LogMiner (and any products building on LogMiner technology) will have sufficient information to support chained rows and various storage arrangements such as cluster tables.

If the redo generated on one database is to be the source of changes (to be mined and applied) at another database, as is the case with logical standby, then the affected rows need to be identified using column data (as opposed to rowids). In this case, you should specify the supplemental_id_key_clause.

You can query the appropriate columns in the V$DATABASE view to determine whether any supplemental logging has already been enabled.

You can use this clause when the database is open. However, Oracle Database will invalidate all DML cursors in the cursor cache, which will have an effect on performance until the cache is repopulated.

If you use this clause in a CDB, then the current container must be the root and the operation will be performed on the entire CDB.

For a full discussion of the supplemental_id_clause, refer to supplemental_id_key_clause in the documentation on CREATE TABLE.

See Also:

DROP SUPPLEMENTAL LOG Clause

Use this clause to stop supplemental logging.

  • Specify DROP SUPPLEMENTAL LOG DATA to instruct Oracle Database to stop placing minimal additional log information into the redo log stream whenever an update operation occurs. If Oracle Database is doing column data supplemental logging specified with the supplemental_id_key_clause, then you must first stop the column data supplemental logging with the DROP SUPPLEMENTAL LOG supplemental_id_key_clause and then specify this clause.

  • Specify DROP SUPPLEMENTAL LOG supplemental_id_key_clause to drop some or all of the system-generated supplemental log groups. You must specify the supplemental_id_key_clause if the supplemental log groups you want to drop were added using that clause.

  • Specify DROP SUPPLEMENTAL LOG supplemental_plsql_clause disable supplemental logging of PL/SQL calls.

If you use this clause in a CDB, then the current container must be the root and the operation will be performed on the entire CDB.

ADD SUPPLEMENTAL LOG DATA SUBSET DATABASE REPLICATION of ALTER DATABASE enables low impact minimal supplemental logging.

  • You can execute this DDL only when the enable_goldengate_replication parameter is TRUE, and database compatible is 19.0 or higher.

  • This DDL implicitly adds DB-level minimal supplemental logging, similar to other DB-level supplemental logging DDLs.

  • In case of CDB, this DDL can be executed in both CDB$ROOT and pluggable databases.

  • When executed in CDB$ROOT, it enables low impact minimal supplemental logging for entire database. Low impact minimal supplemental logging will be enabled for all the pluggable databases regardless of the PDB level setting for subset database replication.

  • When executed in pluggable database, it’s same as ALTER PLUGGABLE DATABASE ADD SUPPLEMENTAL LOG DATA SUBSET DATABASE REPLICATION. See ALTER PLUGGABLE DATABASE for details.

DROP SUPPLEMENTAL LOG DATA SUBSET DATABASE REPLICATION of ALTER DATABASE disables low impact minimal supplemental logging.

  • You can execute this DDL only when theenable_goldengate_replication parameter is TRUE, and database compatible should be 19.0 or higher.

  • You must have explicitly enabled other supplemental log data. This restriction ensures that disabling low impact minimal supplemental logging never disables minimal supplemental logging.

  • Once this DDL is executed, the minimal supplemental logging will go back to its current behavior.

  • In case of CDB, this DDL can be executed in both CDB$ROOT and pluggable databases.

  • When executed in CDB$ROOT , it disables low impact minimal supplemental logging at the database level. For each pluggable database, whether low impact supplemental logging is enabled depends on the PDB-level setting for subset database replication.

  • When executed in pluggable database, the behavior is the same as ALTER PLUGGABLE DATABASE DROP SUPPLEMENTAL LOG DATA SUBSET DATABASE REPLICATION. See ALTER PLUGGABLE DATABASE for details.

See Also:

Oracle Data Guard Concepts and Administration for information on supplemental logging

controlfile_clauses

The controlfile_clauses let you create or back up a control file.

CREATE CONTROLFILE Clause

The CREATE CONTROLFILE clause lets you create a control file.

  • Specify PHYSICAL STANDBY to create a control file to be used to maintain a physical database. This is the default if you specify STANDBY and do not specify PHYSICAL or LOGICAL.

  • Specify LOGICAL STANDBY to create a control file to be used to maintain a logical database.

  • Specify FAR SYNC INSTANCE to create a control file to be used to maintain a Data Guard far sync instance.

If the file already exists, then you must specify REUSE. In an Oracle RAC environment, the control file must be on shared storage.

See Also:

Oracle Data Guard Concepts and Administration for more information on creating control files

BACKUP CONTROLFILE Clause

Use the BACKUP CONTROLFILE clause to back up the current control file. The database must be open or mounted when you specify this clause.

TO 'filename'

Use this clause to specify a binary backup of the control file. You must fully specify the filename using the conventions for your operating system. If the specified file already exists, then you must specify REUSE. In an Oracle RAC environment, filename must be on shared storage.

A binary backup contains information that is not captured if you specify TO TRACE, such as the archived log history, offline range for read-only and offline tablespaces, and backup sets and copies (if you use RMAN). If the COMPATIBLE initialization parameter is 10.2 or higher, binary control file backups include temp file entries.

TO TRACE

Specify TO TRACE if you want Oracle Database to write SQL statements to a trace file rather than making a physical backup of the control file. You can use SQL statements written to the trace file to start up the database, re-create the control file, and recover and open the database appropriately, based on the created control file. If you issue an ALTER DATABASE BACKUP CONTROLFILE TO TRACE statement while block change tracking is enabled, then the resulting trace file will contain a command to reenable block change tracking.

This statement issues an implicit ALTER DATABASE REGISTER LOGFILE statement, which creates incarnation records if the archived log files reside in the current archivelog destinations.

The trace file will also include ALTER DATABASE REGISTER LOGFILE statements for existing logfiles that reside in the current archivelog destinations. This will implicitly create database incarnation records for the branches of redo to which the logfiles apply.

You can copy the statements from the trace file into a script file, edit the statements as necessary, and use the script if all copies of the control file are lost (or to change the size of the control file).

  • Specify AS filename if you want Oracle Database to place the trace output into a file called filename rather than into the standard trace file.

  • Specify REUSE to allow Oracle Database to overwrite any existing file called filename.

  • RESETLOGS indicates that the SQL statement written to the trace file for starting the database is ALTER DATABASE OPEN RESETLOGS. This setting is valid only if the online logs are unavailable.

  • NORESETLOGS indicates that the SQL statement written to the trace file for starting the database is ALTER DATABASE OPEN NORESETLOGS. This setting is valid only if all the online logs are available.

If you cannot predict the future state of the online logs, then specify neither RESETLOGS nor NORESETLOGS. In this case, Oracle Database puts both versions of the script into the trace file, and you can choose which version is appropriate when the script becomes necessary.

The trace files are stored in a subdirectory determined by the DIAGNOSTIC_DEST initialization parameter. You can find the name and location of the trace file to which the CREATE CONTROLFILE statements were written by looking in the alert log. You can also find the directory for trace files by querying the NAME and VALUE columns of the V$DIAG_INFO dynamic performance view.

See Also:

Oracle Database Administrator's Guide for information on viewing the alert log

standby_database_clauses

Use these clauses to activate the standby database or to specify whether it is in protected or unprotected mode.

See Also:

Oracle Data Guard Concepts and Administration for descriptions of the physical and logical standby database and for information on maintaining and using standby databases

activate_standby_db_clause

Use the ACTIVATE STANDBY DATABASE clause to convert a standby database into a primary database.

Note:

Before using this command, refer to Oracle Data Guard Concepts and Administration for important usage information.

PHYSICAL

Specify PHYSICAL to activate a physical standby database. This is the default.

LOGICAL

Specify LOGICAL to activate a logical standby database. If you have more than one logical standby database, then you should first ensure that the same log data is available on all the standby systems.

FINISH APPLY

This clause applies only to logical standby databases. Use it to initiate terminal apply, which is the application of any remaining redo to bring the logical standby database to the same state as the primary database. When terminal apply is complete, the database completes the switchover from logical standby to primary database.

If you require immediate restoration of the database in spite of data loss, then omit this clause. The database will execute the switchover from logical standby to primary database immediately without terminal apply.

maximize_standby_db_clause

Use this clause to specify the level of protection for the data in your database environment. You specify this clause from the primary database.

Note:

The PROTECTED and UNPROTECTED keywords have been replaced for clarity but are still supported. PROTECTED is equivalent to TO MAXIMIZE PROTECTION. UNPROTECTED is equivalent to TO MAXIMIZE PERFORMANCE.

TO MAXIMIZE PROTECTION

This setting establishes maximum protection mode and offers the highest level of data protection. A transaction does not commit until all data needed to recover that transaction has been written to at least one physical standby database that is configured to use the SYNC log transport mode. If the primary database is unable to write the redo records to at least one such standby database, then the primary database is shut down. This mode guarantees zero data loss, but it has the greatest potential impact on the performance and availability of the primary database.

Restriction on Establishing Maximum Protection Mode

You can specify TO MAXIMIZE PROTECTION on an open database only if the current data protection mode is MAXIMUM AVAILABILITY and there is at least one synchronized standby database.

TO MAXIMIZE AVAILABILITY

This setting establishes maximum availability mode and offers the next highest level of data protection. A transaction does not commit until all data needed to recover that transaction has been written to at least one physical or logical standby database that is configured to use the SYNC log transport mode. Unlike maximum protection mode, the primary database does not shut down if it is unable to write the redo records to at least one such standby database. Instead, the protection is lowered to maximum performance mode until the fault has been corrected and the standby database has caught up with the primary database. This mode guarantees zero data loss unless the primary database fails while in maximum performance mode. Maximum availability mode provides the highest level of data protection that is possible without affecting the availability of the primary database.

TO MAXIMIZE PERFORMANCE

This setting establishes maximum performance mode and is the default setting. A transaction commits before the data needed to recover that transaction has been written to a standby database. Therefore, some transactions may be lost if the primary database fails and you are unable to recover the redo records from the primary database. This mode provides the highest level of data protection that is possible without affecting the performance of the primary database.

To determine the current mode of the database, query the PROTECTION_MODE column of the V$DATABASE dynamic performance view.

See Also:

Oracle Data Guard Concepts and Administration for full information on using these standby database settings

register_logfile_clause

Specify the REGISTER LOGFILE clause from the standby database to manually register log files from the failed primary. Use the redo_log_file_spec form of file_specification (see file_specification) to list regular redo log files in an operating system file system or to list Oracle ASM disk group redo log files.

When a log file is from an unknown incarnation, the REGISTER LOGFILE clause causes an incarnation record to be added to the V$DATABASE_INCARNATION view. If the newly registered log file belongs to an incarnation having a higher RESETLOGS_TIME than the current RECOVERY_TARGET_INCARNATION#, then the REGISTER LOGFILE clause also causes RECOVERY_TARGET_INCARNATION# to be changed to correspond to the newly added incarnation record.

OR REPLACE

Specify OR REPLACE to allow an existing archivelog entry in the standby database to be updated, for example, when its location or file specification changes. The system change numbers of the entries must match exactly, and the original entry must have been created by the managed standby log transmittal mechanism.

FOR logminer_session_name

This clause is useful in a Streams environment. It lets you register the log file with one specified LogMiner session.

switchover_clause

Caution:

Before using this command, refer to Oracle Data Guard Concepts and Administration for complete usage information.

Use this clause to perform a switchover to a physical standby database. Specify this clause from the primary database. For target_db_name, specify the DB_UNIQUE_NAME of the standby database.

VERIFY

Use this clause to verify that a physical standby database is ready for a switchover. Specify this clause from the primary database. For target_db_name, specify the DB_UNIQUE_NAME of the standby database. If the standby database is ready for a switchover, then the "Database Altered" message is returned. Otherwise, an error message that will assist you in preparing the standby database for a switchover is returned.

FORCE

Use this clause if a previous switchover command failed and created a configuration with no primary database. Specify this clause from the physical standby database that you want to convert to the primary database. For target_db_name, specify the DB_UNIQUE_NAME of the database that you want to convert to the primary database.

failover_clause

Caution:

Before using this command, refer to Oracle Data Guard Concepts and Administration for complete usage information.

Use this clause to perform a failover to a physical standby database. Specify this clause from the standby database. For target_db_name, specify the DB_UNIQUE_NAME of the standby database.

FORCE

This clause has meaning only when the failover target is serviced by a Data Guard far sync instance. Use this clause when a previous failover command failed and the reason for the failure cannot be resolved. It instructs the failover to ignore any failures encountered when interacting with the Data Guard far sync instance and proceed with the failover, if at all possible.

commit_switchover_clause

Use this clause to perform database role transitions in a Data Guard configuration.

Caution:

Before using this command, refer to Oracle Data Guard Concepts and Administration for complete usage information.

PREPARE TO SWITCHOVER

This clause prepares a primary database to become a logical standby database or a logical standby database to become a primary database.

  • Specify PREPARE TO SWITCHOVER TO LOGICAL STANDBY on a primary database.

  • Specify PREPARE TO SWITCHOVER TO PRIMARY DATABASE on a logical standby database.

COMMIT TO SWITCHOVER

This clause switches a primary database to a standby database role or switches a standby database to the primary database role.

  • Specify COMMIT TO SWITCHOVER TO PHYSICAL STANDBY or COMMIT TO SWITCHOVER TO LOGICAL STANDBY on a primary database.

  • Specify COMMIT TO SWITCHOVER TO PRIMARY DATABASE on a standby database.

PHYSICAL

This clause is always optional. Use of this clause with the COMMIT TO SWITCHOVER TO PRIMARY clause has been deprecated.

LOGICAL

This clause is specified with the PREPARE TO SWITCHOVER or COMMIT TO SWITCHOVER clauses when switching a primary database to the logical standby database role. Use of this clause with the COMMIT TO SWITCHOVER TO PRIMARY clause has been deprecated.

WITH SESSION SHUTDOWN

This clause causes all database sessions to be closed and uncommitted transactions to be rolled back before performing a database role transition.

WITHOUT SESSION SHUTDOWN

This clause prevents a requested role transition from occurring if there are any database sessions. This is the default.

WAIT

Specify this clause to wait for a role transition to complete before returning control to the user.

NOWAIT

Specify this clause to return control to the user without waiting for a role transition to complete. This is the default.

CANCEL

Specify this clause to reverse the effect of a previously specified PREPARE TO SWITCHOVER statement.

See Also:

Oracle Data Guard Concepts and Administration for full information on switchover between primary and standby databases

start_standby_clause

Specify the START LOGICAL STANDBY APPLY clause to begin applying redo logs to a logical standby database. This clause enables primary key, unique index, and unique constraint supplemental logging as well as PL/SQL call logging.

  • Specify IMMEDIATE to apply redo data from the current standby redo log file.

  • Specify NODELAY if you want Oracle Database to ignore a delay for this apply. This is useful if the primary database is no longer present, which would otherwise require a PL/SQL call to be made.

  • Specify INITIAL the first time you apply the logs to the standby database.

  • The NEW PRIMARY clause is needed in two situations:

    • On a failover to a logical standby, specify this clause on a logical standby not participating in the failover operation, and on the old primary database after it has been reinstated as a logical standby database.

    • During a rolling upgrade using a logical standby database (which uses an unprepared switchover operation), specify this clause after the original primary database has been upgraded to the new database software.

  • Specify SKIP FAILED [TRANSACTION] to skip the last transaction in the events table and restart the apply.

  • Specify FINISH to force the standby redo logfile information into archived logs. If the primary database becomes disabled, then you can then apply the data in the redo log files.

stop_standby_clause

Use this clause to stop the log apply services. This clause applies only to logical standby databases, not to physical standby databases. Use the STOP clause to stop the apply in an orderly fashion.

convert_database_clause

Use this clause to convert a database from one form to another.

  • Specify CONVERT TO PHYSICAL STANDBY to convert a primary database, a logical standby database, or a snapshot standby database into a physical standby database.

    Perform these steps before specifying this clause:

    • On an Oracle Real Application Clusters (Oracle RAC) database, shut down all but one instance.

    • Ensure that the database is mounted, but not open.

    The database is dismounted after conversion and must be restarted.

  • Specify CONVERT TO SNAPSHOT STANDBY to convert a physical standby database into a snapshot standby database.

    Ensure that redo apply is stopped before specifying this clause.

Note:

A snapshot standby database must be opened at least once in read/write mode before it can be converted into a physical standby database.

See Also:

Oracle Data Guard Concepts and Administration for more information about standby databases

default_settings_clauses

Use these clauses to modify the default settings of the database.

DEFAULT EDITION Clause

Use this clause to designate the specified edition as the default edition for the database. The specified edition must already have been created and must be USABLE. The change takes place immediately and is visible to all nodes in an Oracle RAC environment. New database sessions automatically start out in the specified edition. The new setting persists across database shutdown and startup.

When you designate an edition as the database default edition, all users can use the edition, as though the USE object privilege were granted on the specified edition to the role PUBLIC.

You can determine the current default edition of the database with the following query:

SELECT PROPERTY_VALUE FROM DATABASE_PROPERTIES 
  WHERE PROPERTY_NAME = 'DEFAULT_EDITION';

See Also:

CREATE EDITION for more information on editions and Oracle Database PL/SQL Language Reference for information on how editions are designated as USABLE

CHARACTER SET, NATIONAL CHARACTER SET

You can no longer change the database character set or the national character set using the ALTER DATABASE statement. Refer to Oracle Database Globalization Support Guide for information on database character set migration.

SET DEFAULT TABLESPACE Clause

Use this clause to specify or change the default type of subsequently created tablespaces. Specify BIGFILE or SMALLFILE to indicate whether the tablespaces should be bigfile or smallfile tablespaces.

  • A bigfile tablespace contains only one data file or temp file, which can contain up to approximately 4 billion (232) blocks. The maximum size of the single data file or temp file is 128 terabytes (TB) for a tablespace with 32K blocks and 32TB for a tablespace with 8K blocks.

  • A smallfile tablespace is a traditional Oracle tablespace, which can contain 1022 data files or temp files, each of which can contain up to approximately 4 million (222) blocks.

See Also:

DEFAULT TABLESPACE Clause

Specify this clause to establish or change the default permanent tablespace of the database. The tablespace you specify must already have been created. After this operation completes, Oracle Database automatically reassigns to the new default tablespace all non-SYSTEM users. All objects subsequently created by those users will by default be stored in the new default tablespace. If you are replacing a previously specified default tablespace, then you can move the previously created objects from the old to the new default tablespace, and then drop the old default tablespace if you want to.

DEFAULT [LOCAL] TEMPORARY TABLESPACE Clause

Specify this clause to change the default shared temporary tablespace of the database to a new tablespace or tablespace group, or to change the default local temporary tablespace to a new tablespace.

  • Specify tablespace to indicate the new default temporary tablespace for the database. After this operation completes, Oracle Database automatically reassigns to the new default temporary tablespace all users who had been assigned to the old default temporary tablespace. You can then drop the old default temporary tablespace if you want to. Specify DEFAULT TEMPORARY TABLESPACE to change the default shared temporary tablespace. Specify DEFAULT LOCAL TEMPORARY TABLESPACE to change the default local temporary tablespace.

  • Specify tablespace_group_name to indicate that all tablespaces in the tablespace group specified by tablespace_group_name are now default shared temporary tablespaces for the database. After this operation completes, users who have not been explicitly assigned a default temporary tablespace can create temporary segments in any of the tablespaces that are part of tablespace_group_name. You cannot drop an old default temporary tablespace if it is part of the default temporary tablespace group. Local temporary tablespaces cannot be part of a tablespace group.

To learn the name of the current default temporary tablespace or default temporary tablespace group, query the TEMPORARY_TABLESPACE column of the ALL_, DBA_, or USER_USERS data dictionary views.

Restrictions on Default Temporary Tablespaces

Default temporary tablespaces are subject to the following restrictions:

  • The tablespace you assign or reassign as the default temporary tablespace must have a standard block size.

  • If the SYSTEM tablespace is locally managed, then the tablespace you specify as the default temporary tablespace must also be locally managed.

instance_clauses

In an Oracle Real Application Clusters environment, specify ENABLE INSTANCE to enable the thread that is mapped to the specified database instance. The thread must have at least two redo log file groups, and the database must be open.

Specify DISABLE INSTANCE to disable the thread that is mapped to the specified database instance. The name of the instance is a string of up to 80 characters. If no thread is currently mapped to the specified instance, then Oracle Database returns an error. The database must be open, but you cannot disable a thread if an instance using it has the database mounted.

See Also:

Oracle Real Application Clusters Administration and Deployment Guide for more information on enabling and disabling instances

RENAME GLOBAL_NAME Clause

Specify RENAME GLOBAL_NAME to change the global name of the database. The database must be open. The database is the new database name and can be as long as eight bytes. The optional domain specifies where the database is effectively located in the network hierarchy. If you specify a domain name, then the components of the domain name must be legal identifiers. See "Database Object Naming Rules" for information on valid identifiers.

Note:

Renaming your database does not change global references to your database from existing database links, synonyms, and stored procedures and functions on remote databases. Changing such references is the responsibility of the administrator of the remote databases.

BLOCK CHANGE TRACKING Clauses

The block change tracking feature causes Oracle Database to keep track of the physical locations of all database updates on both the primary database and any physical standby database. You must enable block change tracking on each database for which you want tracking to be performed. The tracking information is maintained in a separate file called the block change tracking file. If you are using Oracle Managed Files, then Oracle Database automatically creates the block change tracking file in the location specified by DB_CREATE_FILE_DEST. If you are not using Oracle Managed Files, then you must specify the change tracking filename. Oracle Database uses change tracking data for some internal tasks, such as increasing the performance of incremental backups. You can enable or disable block change tracking with the database either open or mounted, in either archivelog or NOARCHIVELOG mode.

ENABLE BLOCK CHANGE TRACKING

This clause enables block change tracking and causes Oracle Database to create a block change tracking file.

  • Specify USING FILE 'filename' if you want to name the block change tracking file instead of letting Oracle Database generate a name for it. You must specify this clause if you are not using Oracle Managed Files.

  • Specify REUSE to allow Oracle Database to overwrite an existing block change tracking file of the same name.

DISABLE BLOCK CHANGE TRACKING

Specify this clause if you want Oracle Database to stop tracking changes and delete the existing block change tracking file.

See Also:

Oracle Database Backup and Recovery User's Guide for information on setting up block change tracking and "Enabling and Disabling Block Change Tracking: Examples"

[NO] FORCE FULL DATABASE CACHING

Use this clause to enable or disable the force full database caching mode. In contrast to the default mode, which is automatic, the force full database caching mode considers the entire database, including NOCACHE LOBs, as eligible for caching in the buffer cache.

The database must be mounted but not open. In an Oracle RAC environment, the database must be mounted but not open in the current instance and unmounted in all other instances.

  • Specify FORCE FULL DATABASE CACHING to enable the force full database caching mode.

  • Specify NO FORCE FULL DATABASE CACHING to disable the force full database caching mode. This is the default mode.

You can determine whether the force full database caching mode is enabled by querying the FORCE_FULL_DB_CACHING column of the V$DATABASE dynamic performance view.

See Also:

CONTAINERS DEFAULT TARGET

Use this clause to specify the default container for DML statements in a CDB. You must be connect to the CDB root.

  • For container_name, specify the name of the default container. The default container can be any container in the CDB, including the CDB root, a PDB, an application root, or an application PDB. You can specify only one default container.

  • If you specify NONE, then the default container is the CDB root. This is the default.

When a DML statement is issued in a CDB root without specifying containers in the WHERE clause, the DML statement affects the default container for the CDB.

flashback_mode_clause

Use this clause to put the database in or take the database out of FLASHBACK mode. You can specify this clause only if the database is in ARCHIVELOG mode and you have already prepared a fast recovery area for the database. You can specify this clause when the database is mounted or open. This clause cannot be specified on a physical standby database if redo apply is active.

See Also:

Oracle Database Backup and Recovery User's Guide for information on preparing the fast recovery area for Flashback operations

FLASHBACK ON

Use this clause to put the database in FLASHBACK mode. When the database is in FLASHBACK mode, Oracle Database automatically creates and manages Flashback Database logs in the fast recovery area. Users with SYSDBA system privilege can then issue a FLASHBACK DATABASE statement.

FLASHBACK OFF

Use this clause to take the database out of FLASHBACK mode. Oracle Database stops logging Flashback data and deletes all existing Flashback Database logs. Any attempt to issue a FLASHBACK DATABASE will fail with an error.

undo_mode_clause

This clause is valid only when you are connected to a CDB. It lets you change the undo mode for the CDB. The CDB must be in OPEN UPGRADE mode.

  • Specify LOCAL UNDO ON to change the CDB to use local undo mode.

  • Specify LOCAL UNDO OFF to change the CDB to use shared undo mode.

See Also:

set_time_zone_clause

This clause has the same semantics in CREATE DATABASE and ALTER DATABASE statements. When used in with ALTER DATABASE, this clause resets the time zone of the database. To determine the time zone of the database, query the built-in function DBTIMEZONE. After setting or changing the time zone with this clause, you must restart the database for the new time zone to take effect.

Oracle Database normalizes all new TIMESTAMP WITH LOCAL TIME ZONE data to the time zone of the database when the data is stored on disk.Oracle Database does not automatically update existing data in the database to the new time zone. Therefore, you cannot reset the database time zone if there is any TIMESTAMP WITH LOCAL TIME ZONE data in the database. You must first delete or export the TIMESTAMP WITH LOCAL TIME ZONE data and then reset the database time zone. For this reason, Oracle does not encourage you to change the time zone of a database that contains data.

For a full description of this clause, refer to set_time_zone_clause in the documentation on CREATE DATABASE.

security_clause

Use the security_clause (GUARD) to protect data in the database from being changed. You can override this setting for a current session using the ALTER SESSION DISABLE GUARD statement. Refer to ALTER SESSION for more information.

ALL

Specify ALL to prevent all users other than SYS from making any changes to the database.

STANDBY

Specify STANDBY to prevent all users other than SYS from making changes to any database object being maintained by logical standby. This setting is useful if you want report operations to be able to modify data as long as it is not being replicated by logical standby.

See Also:

Oracle Data Guard Concepts and Administration for information on logical standby

NONE

Specify NONE if you want normal security for all data in the database.

Note:

Oracle strongly recommends that you not use this setting on a logical standby database.

prepare_clause

  • Use this clause to prepare mirror copies of the database. You must provide a mirror_name to identify the filegroup that is created. The filegroup contains all the prepared files.

  • Specify the number of copies to be prepared by the REDUNDANCY options: EXTERNAL, NORMAL, or HIGH.

  • If you do not specify the redundancy of the mirror, the redundancy of the source database is used.

Prepare a Database : Example

ALTER DATABASE db_name PREPARE MIRROR COPY mirror_name WITH HIGH REDUNDANCY

drop_mirror_copy

Use this clause to discard mirror copies of data created by the prepare statement. You must specify the same mirror name that you used for the prepare operation.

You cannot use this clause to drop a database that has already been split by the CREATE DATABASE or CREATE PLUGGABLE DATABASE statement.

lost_write_protection

Specify this clause to enable lost write protection for data files. You can enable, remove, and suspend lost write protection for data files.

Turn on Lost Write for a Datafile : Example

 ALTER DATABASE 
   DATAFILE <data_file_name> 
   ENABLE LOST WRITE PROTECTION

Note that the lost write database is zeroed out. It is not initialized with the contents of the current data file.

You can turn off lost write protection for a datafile in two ways, with the REMOVE or SUSPEND options.

  1. The REMOVE option stops lost write protection for the data file. Additionally, it removes all references to lost write protection including tracking data from the shadow tablespace.

    Remove Lost Write for a Datafile : Example

     ALTER DATABASE 
       DATAFILE <data_file_name> 
       REMOVE LOST WRITE PROTECTION
  2. The SUSPEND option disables updates and lost write checking, but leaves the tracking data in the shadow tablespace. If you suspend lost write protection for a short time, lost write protection for the data file is stopped during the suspended period. This means that no lost write data is gathered, and no blocks are checked. If you turn on lost write protection for the data file later, there will be no records of SCN updates made to the blocks in the datafile during the suspended period. Note that the SUSPEND option does not deallocate the lost write storage.

    Suspend Lost Write for a Datafile : Example

     ALTER DATABASE 
       DATAFILE <data_file_name> 
       SUSPEND LOST WRITE PROTECTION

You can enable lost write protection for container databases and pluggable databases.

Turn on Lost Write for a Database : Example

 ALTER DATABASE 
   ENABLE LOST WRITE PROTECTION

Turn off Lost Write for a Database : Example

 ALTER DATABASE 
   DISABLE LOST WRITE PROTECTION

Note that disabling lost write for the database does not deallocate the lost write storage. You must use the DROP TABLESPACE statement to deallocate lost write storage.

cdb_fleet_clauses

Specify the cdb_fleet_clauses to set a Lead CDB in a collection of different CDBs.

lead_cdb_clause

Use this clause to designate a CDB as the Lead CDB in a CDB fleet. The database property LEAD_CDB indicates that the current CDB is a Lead CDB, and can be found in DATABASE_PROPERTIES view.

There is a new parameter in SYS_CONTEXT named IS_LEAD_CDB which can be used to determine if the current session is connected to a Lead CDB in a CDB fleet.

lead_cdb_uri_clause

Use this clause to specify the connection URI for the Lead CDB in a CDB fleet. It is used to register a Member CDB with the Lead CDB of the fleet.

The database link name specified in dblink must exist in the CDB ROOT of the Member CDB joining the CDB fleet. It is used to synchronize PDB metadata with the Lead CDB in the fleet.

The uri_string specified is stored as a database property named LEAD_CDB_URI and can be found in DATABASE_PROPERTIES view.

There is a new parameter in SYS_CONTEXT named IS_LEAD_CDB which can be used to determine if the current session is connected to a Member CDB in a CDB fleet.

property_clause

Specify this clause to set or remove database properties visible through DATABASE_PROPERTIEsor CDB_PROPERTIES views.

Examples

READ ONLY / READ WRITE: Example

The following statement opens the database in read-only mode:

ALTER DATABASE OPEN READ ONLY;

The following statement opens the database in read/write mode and clears the online redo logs:

ALTER DATABASE OPEN READ WRITE RESETLOGS;

Using Parallel Recovery Processes: Example

The following statement performs tablespace recovery using parallel recovery processes:

ALTER DATABASE
   RECOVER TABLESPACE tbs_03
   PARALLEL;

Adding Redo Log File Groups: Examples

The following statement adds a redo log file group with two members and identifies it with a GROUP parameter value of 3:

ALTER DATABASE
  ADD LOGFILE GROUP 3 
    ('diska:log3.log' ,  
     'diskb:log3.log') SIZE 50K; 

The following statement adds a redo log file group containing two members to thread 5 (in a Real Application Clusters environment) and assigns it a GROUP parameter value of 4:

ALTER DATABASE  
    ADD LOGFILE THREAD 5 GROUP 4  
        ('diska:log4.log', 
         'diskb:log4:log'); 

Adding Redo Log File Group Members: Example

The following statement adds a member to the redo log file group added in the previous example:

ALTER DATABASE   
   ADD LOGFILE MEMBER 'diskc:log3.log'  
   TO GROUP 3; 

Dropping Log File Members: Example

The following statement drops one redo log file member added in the previous example:

ALTER DATABASE
    DROP LOGFILE MEMBER 'diskb:log3.log'; 

The following statement drops all members of the redo log file group 3:

ALTER DATABASE DROP LOGFILE GROUP 3; 

Renaming a Log File Member: Example

The following statement renames a redo log file member:

ALTER DATABASE   
    RENAME FILE 'diskc:log3.log' TO 'diskb:log3.log'; 

The preceding statement only changes the member of the redo log group from one file to another. The statement does not actually change the name of the file diskc:log3.log to diskb:log3.log. Before issuing this statement, you must change the name of the file through your operating system.

Setting the Default Type of Tablespaces: Example

The following statement specifies that subsequently created tablespaces be created as bigfile tablespaces by default:

ALTER DATABASE
    SET DEFAULT BIGFILE TABLESPACE;

Changing the Default Temporary Tablespace: Examples

The following statement makes the tbs_05 tablespace (created in "Creating a Temporary Tablespace: Example") the default temporary tablespace of the database. This statement either establishes a default temporary tablespace if none was specified at create time, or replaces an existing default temporary tablespace with tbs_05:

ALTER DATABASE 
   DEFAULT TEMPORARY TABLESPACE tbs_05;

Alternatively, a group of tablespaces can be defined as the default temporary tablespace by using a tablespace group. The following statement makes the tablespaces in the tablespace group tbs_group_01 (created in "Adding a Temporary Tablespace to a Tablespace Group: Example") the default temporary tablespaces of the database:

ALTER DATABASE
   DEFAULT TEMPORARY TABLESPACE tbs_grp_01;

Creating a New Data File: Example

The following statement creates a new data file tbs_f04.dbf based on the file tbs_f03.dbf. Before creating the new data file, you must take the existing data file (or the tablespace in which it resides) offline.

ALTER DATABASE 
    CREATE DATAFILE 'tbs_f03.dbf' 
                 AS 'tbs_f04.dbf'; 

Manipulating Temp Files: Example

The following takes offline the temp file temp02.dbf created in Adding and Dropping Data Files and Temp Files: Examples and then renames the temp file:

ALTER DATABASE TEMPFILE 'temp02.dbf' OFFLINE;

ALTER DATABASE RENAME FILE 'temp02.dbf' TO 'temp03.dbf';

The statement renaming the temp file requires that you first create the file temp03.dbf on the operating system.

Changing the Global Database Name: Example

The following statement changes the global name of the database and includes both the database name and domain:

ALTER DATABASE  
    RENAME GLOBAL_NAME TO demo.world.example.com; 

Enabling and Disabling Block Change Tracking: Examples

The following statement enables block change tracking and causes Oracle Database to create a block change tracking file named tracking_file and overwrite the file if it already exists:

ALTER DATABASE
  ENABLE BLOCK CHANGE TRACKING
    USING FILE 'tracking_file' REUSE;

The following statement disables block change tracking and deletes the existing block change tracking file:

ALTER DATABASE
  DISABLE BLOCK CHANGE TRACKING;

Resizing a Data File: Example

The following statement attempts to change the size of data file diskb:tbs_f5.dbf:

ALTER DATABASE  
    DATAFILE 'diskb:tbs_f5.dbf' RESIZE 10 M;

Clearing a Log File: Example

The following statement clears a log file:

ALTER DATABASE  
    CLEAR LOGFILE 'diskc:log3.log';

Database Recovery: Examples

The following statement performs complete recovery of the entire database, letting Oracle Database generate the name of the next archived redo log file needed:

ALTER DATABASE 
  RECOVER AUTOMATIC DATABASE; 

The following statement explicitly names a redo log file for Oracle Database to apply:

ALTER DATABASE 
    RECOVER LOGFILE 'diskc:log3.log'; 

The following statement performs time-based recovery of the database:

ALTER DATABASE 
    RECOVER AUTOMATIC UNTIL TIME '2001-10-27:14:00:00'; 

Oracle Database recovers the database until 2:00 p.m. on October 27, 2001.

For an example of recovering a tablespace, see "Using Parallel Recovery Processes: Example".