|Oracle9i Recovery Manager User's Guide
Release 2 (9.2)
Part Number A96566-01
This chapter describes the basic concepts involved in using RMAN to restore, recover, and duplicate databases.
This chapter contains these topics:
This section contains these topics:
Use the RMAN
RESTORE command to restore the following types of files from image copies on disk or backups on disk or other media:
Because a backup set is in an Oracle proprietary format, you cannot simply copy it as you would a backup database file created with an operating system utility; you must use the RMAN
RESTORE command to extract it. In contrast, Oracle can use image copies created by the RMAN
COPY command without additional processing.
You do not normally restore archived logs because RMAN performs this operation automatically as needed during recovery. You can improve recovery performance, however, by manually restoring backups of archived redo logs that you need for recovery.
RMAN automates the procedure for restoring files. You do not need to go into the operating system, locate the backup or copy that you want to use, and manually copy files into the appropriate directories. When you issue a
RESTORE command, RMAN directs a server session to restore the correct backups and copies to either:
To restore a datafile, either mount the database or keep it open and take the datafile to be restored offline. When RMAN performs a restore, the
RESTORE command creates the restored files as datafile copies and records them in the repository. The following table describes the behavior of the
|Run SET NEWNAME?||RESTORE Behavior||Run SWITCH?|
RMAN restores the files to their current path names and immediately removes the repository records for the datafile copies created during the restore.
RMAN restores the files to the path names specified by
If yes, then RMAN updates the datafile names in the control file to the names of the restored files; if no, then RMAN does not update the filenames in the control file and the restored files become datafile copies.
For example, if you restore datafile
?/oradata/trgt/tools01.dbf to its default location, then RMAN restores the file
?/oradata/trgt/tools01.dbf and overwrites any file that it finds with the same filename. If you run a
SET NEWNAME command before you restore a file, then RMAN creates a datafile copy with the name that you specify. For example, assume that you run the following commands:
SET NEWNAME FOR DATAFILE '?/oradata/trgt/tools01.dbf' TO '/tmp/tools01.dbf'; RESTORE DATAFILE '?/oradata/trgt/tools01.dbf';
In this case, RMAN creates a datafile copy of
/tmp/tools01.dbf and records it in the repository. To change the name for datafile
/tmp/tools01.dbf in the control file, run a
SWITCH command so that RMAN considers the restored file as the current database file. For example:
SWITCH command is equivalent to the SQL statement
RMAN uses the repository to select the best available backup sets or image copies for use in the restore operation. It gives preference to image copies rather than backup sets. When multiple choices are available, RMAN uses the most current backup sets or copies, taking into account whether you specified an
UNTIL clause in the
All specifications of the
RESTORE command must be satisfied before RMAN restores a backup set or file copy. Unless limited by the
TYPE clause, the
RESTORE command searches for backups and copies on all device types of configured channels.
If no available backup or copy in the repository satisfies all the specified criteria, then RMAN returns an error during the compilation phase of the restore job. If you manually allocate channels, and the file cannot be restored because no backup sets or datafile copies exist on the device types allocated in the job, then create a new job specifying channels for devices containing the existing backup sets or copies. This problem does not occur when you configure automatic channels.
"Configuring Automatic Channels" to learn how to configure automatic channels
By default, RMAN does not perform a restore if the file to be restored is in the correct place and its header contains the expected information. In releases prior to Oracle9i, RMAN always restored the requested files. In Oracle9i, RMAN only restores a file if the header check does not succeed, although you can use the
FORCE option of the
RESTORE command to override this behavior and restore the requested files unconditionally.
Restore optimization only checks the datafile header and does not the scan the datafile body for corrupted blocks.
Restore optimization is particularly useful in cases where a restore only partially completes. For example, assume that a full database restore encounters a power failure after all except one of the datafiles has been restored. If you start the same restore again, then RMAN only restores the single datafile that was not restored during the previous attempt.
RMAN automatically discovers which nodes of an Oracle Real Application Clusters configuration contain the backups, control file copies, or datafile copies that you want to restore. So long as you configured or manually allocated channels that connect to each node in the cluster, RMAN hunts for files on all channels and restores files only from those channels that locate the backup or copy on tape or on a local file system.
For example, assume that you configure a three-node cluster. If a channel connected to node 1 backs up an archived log to a local tape drive, then RMAN does not attempt to use channels connected to node 2 or node 3 to restore this log.
Oracle9i Recovery Manager Reference for description of
The concepts of datafile media recovery is the application of online or archived redo logs or incremental backups to a restored datafile in order to update it to the current time or some other specified time. Use the RMAN
RECOVER command to perform media recovery and apply logs or incremental backups automatically.
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If possible, make the recovery catalog available to perform the media recovery. If it is not available, then RMAN uses metadata from the target database control file. If both the control file and recovery catalog are lost, then you can still recover the database--assuming that you have backups of the datafiles and at least one autobackup of the control file.
The generic steps for media recovery using RMAN are as follows:
SET UNTILcommand to specify the time, SCN, or log sequence number at which recovery terminates. Alternatively, specify the
UNTILclause on the
Figure 6-1 illustrates an example of RMAN media recovery. The DBA runs the following commands:
RMAN then queries the repository, which in this example is a recovery catalog. The recovery catalog obtains its metadata from the target database control file. RMAN then decides which backup sets to restore, and which incremental backups and archived logs to use for recovery. A server session on the target database instance performs the actual work of restore and recovery.
If RMAN has a choice between applying an incremental backup or applying redo to the restored datafiles, then it always chooses to use an incremental backup. If overlapping levels of incremental backup are available, then RMAN automatically chooses the one covering the longest period of time.
Note that RMAN does not need to apply incremental backups to a restored level 0 incremental backup: it can also apply archived logs. RMAN simply restores the datafiles that it needs from available backups and copies, and then applies incremental backups to the datafiles if it can and if not applies logs.
If RMAN cannot find an incremental backup, then it looks in the repository for the names of archived redo logs to use for recovery. Oracle records an archived log in the control file whenever one of the following occurs:
COPYcommand copies a log
CATALOGcommand catalogs a user-managed backup of an archived log
RMAN propagates archived log data into the recovery catalog during resynchronization, classifying archived logs as image copies. You can view the log information through:
During recovery, RMAN looks for the needed logs using the filenames specified in the
V$ARCHIVED_LOG view. If the logs were created in multiple destinations or were generated by the
RESTORE commands, then multiple, identical copies of each log sequence number exist on disk. RMAN does not have a preference for one copy over another during recovery: all copies of a log sequence number listed as
AVAILABLE are candidates. In a sense, RMAN is blind to the fact that the logs were generated in different destinations or in different ways.
If the RMAN repository indicates that a log has been deleted or uncataloged, then RMAN ceases to consider it as available for recovery. For example, assume that the database archives log 100 to directories
/dest2. The RMAN repository indicates that
/dest2/log100.arc exist. If you delete
/dest1/log100.arc with the
DELETE command, then the repository indicates that only
/dest2/log100.arc is available for recovery.
If the RMAN repository indicates that no copies of a needed log sequence number exist on disk, then RMAN looks in backups and restores archived redo logs as needed to perform the media recovery. By default, RMAN restores the archived redo logs to the first local archiving destination specified in the initialization parameter file. You can run the
SET ARCHIVELOG DESTINATION command to specify a different restore location. If you specify the
ARCHIVELOG option on
RECOVER, then RMAN deletes the archived logs after restoring and applying them. If you also specify
integer on the
RECOVER command, then RMAN staggers the restores so that they consume no more than
integer amount of disk space at a time.
If an archived log is deleted from disk and the repository does not reflect this fact, then RMAN does not perform automatic failover during recovery. For example, if the repository indicates that
/dest1/log100.arc is on disk when in fact this log was deleted using an operating system command, and RMAN attempts to apply this log file during recovery, then recovery terminates with an error. RMAN does not automatically attempt to apply other copies of log 100 that are listed as available in the repository.
This situation can sometimes occur when you delete an archived log using an operating system utility and then fail to run a
CROSSCHECK to synchronize the repository. If you run a
CROSSCHECK so that the repository is synchronized, then recovery can proceed by applying available copies of the log or restoring a backup of the log if no disk copies are available.
Oracle9i Recovery Manager Reference for
RMAN can perform either complete or incomplete recovery. You can specify a time, SCN, or log sequence number as a limit for incomplete recovery with the
SET UNTIL command or with an
UNTIL clause specified directory on the
RECOVER commands. The easiest method is run the
UNTIL command before issuing the
RECOVER commands. After performing incomplete recovery, you must open the database with the
Oracle9i Recovery Manager Reference for the
Recovery Manager automated Tablespace Point-in-Time Recovery (TSPITR) enables you to recover one or more tablespaces to a point in time that is different from that of the rest of the database. RMAN TSPITR is most useful in these cases:
Similar to a table export, RMAN TSPITR enables you to recover a consistent data set; however, the data set is the entire tablespace rather than a single object.
Chapter 11, "Performing RMAN Tablespace Point-in-Time Recovery" to learn how to perform TSPITR using RMAN
Assume that you lose both the target database and the recovery catalog. All that you have remaining is a tape with RMAN backups of the target database and archived redo logs. Can you still recover the database? Yes, assuming that you enabled the control file autobackup feature. In a disaster recovery situation, RMAN can determine the name of a control file autobackup even without a repository available. You can then restore this control file, mount the database, and perform media recovery.
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Although datafile media recovery is the principal form of recovery, you can also use the RMAN
BLOCKRECOVER command to perform block media recovery. Block media recovery recovers an individual corrupt datablock or set of datablocks within a datafile. In cases when a small number of blocks require media recovery, you can selectively restore and recover damaged blocks rather than whole datafiles.
Block media recovery provides the several advantages over datafile media recovery. For example, block media recovery
Note these restrictions of block media recovery:
V$DATABASE_BLOCK_CORRUPTIONview indicates which blocks in a file were marked corrupt since the most recent
COPYcommand was run against the file.
Block media recovery is not intended for cases where the extent of data loss or corruption is unknown and the entire datafile requires recovery. In such cases, datafile media recovery is the best solution. Block media recovery is not a replacement for traditional datafile media recovery, but a supplement to it.
In most cases, Oracle marks a block as media corrupt, invalidates the block in the instances (or all enabled instances in an Oracle Real Application Clusters configuration), and then writes it to disk when the corruption is first encountered. No subsequent read of the block will be successful until the block is recovered. You can only perform block recovery on blocks that are marked corrupt. This corrupt status effectively takes the block offline in all database instances and prevents user access during recovery.
Block media recovery is most useful for data losses that affect specific blocks. Block-level data loss usually results from intermittent, random I/O errors that do not cause widespread data loss, as well as memory corruptions that get written to disk. Typically, these types of block corruption are reported in these locations:
For example, you may discover the following messages in a user trace file:
ORA-01578: ORACLE data block corrupted (file # 7, block # 3) ORA-01110: data file 7: '/oracle/oradata/trgt/tools01.dbf' ORA-01578: ORACLE data block corrupted (file # 2, block # 235) ORA-01110: data file 2: '/oracle/oradata/trgt/undotbs01.dbf'
You can then specify the corrupt blocks in the
BLOCKRECOVER command as follows:
Like datafile media recovery, block media recovery cannot survive a missing or inaccessible archived log. Nevertheless, block media recovery can survive gaps in the redo stream if the missing or corrupt redo records do not affect the blocks being recovered. Whereas datafile recovery requires an unbroken series of redo changes from the beginning of recovery to the end, block media recovery only requires an unbroken set of redo changes for the blocks being recovered.
Each block is recovered independently during block media recovery, so recovery may be successful for a subset of blocks.
When RMAN first detects missing or corrupt redo records during block media recovery, it does not immediately signal an error because the block undergoing recovery may become a newed block later in the redo stream. When a block is newed all previous redo for that block becomes irrelevant because the redo applies to an old incarnation of the block. For example, Oracle can new a block when users delete all the rows recorded in the block or drop a table.
Assume that media recovery is performed on block 13 as depicted in Figure 6-2.
After block recovery begins, RMAN discovers that change 120 is missing. RMAN does not terminate recovery in the hope that block 13 will be newed later in the redo stream. Assume that in change 140 a user drops the table
EMPLOYEE stored in block 13. At this point, Oracle formats block 13 as a new block. Because the redo for block 13 in change 120 related to the
EMPLOYEE table, and the
EMPLOYEE table was dropped in change 140, RMAN can skip this missing change and apply the redo between changes 140 and 160.
Use the RMAN
DUPLICATE command to create a copy of the target database that you can use for testing. The command restores backups and copies of the primary database's files and creates a new database.
As part of the duplicating operation, RMAN manages the following:
RESETLOGSoption after incomplete recovery to create the online redo logs.
Note also the following features of RMAN duplication. You can:
READONLYclause (read-only tablespaces are included by default). You can also exclude any tablespace with the
TABLESPACEclause so long as it is not the
SYSTEMtablespace and does not contain rollback or undo data. If you omit tablespaces, then you can add them later.
NOFILENAMECHECKoption and reuse the target datafile filenames for the duplicate datafiles.
UNTILclause of the
DUPLICATEcommand to recover it to a noncurrent time. By default, the
DUPLICATEcommand creates the database using the most recent backups of the target database and then performs recovery to the most recent consistent point contained in the incremental and archived redo log backups.
Figure 6-3 illustrates a case of database duplication. In this example, RMAN creates two duplicate database by using one set of datafile backups: one database on the local host and one database a remote host.
The method you use to duplicate your database depends on whether you are creating your duplicate database on the same or a different host and whether the duplicate directory structure is the same as your target database directory structure. For example, in some cases you can keep the same directory structure and filenames in your duplicate database, while other times you must rename the files.
Chapter 12, "Duplicating a Database with Recovery Manager" to learn how to make a duplicate database, and Oracle9i Recovery Manager Reference for
You can use the Recovery Manager
DUPLICATE command to create a standby database. RMAN automates the following steps of the creation procedure:
RMAN cannot fully automate creation of the standby database because you must manually create an initialization parameter file for the standby database, start the standby instance without mounting the control file, and perform any Oracle Net setup required before performing the creation of the standby. Also, you must have RMAN backups of all datafiles available as well as a control file backup that is usable as a standby control file.
RMAN can back up the standby database and archived redo logs. These standby backups are fully interchangeable with primary backups. In other words, you can restore a backup of a standby datafile to the primary database, and you can restore a backup of a primary datafile to the standby database.