| Oracle® Database Utilities 11g Release 2 (11.2) Part Number E16536-05 |
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PDF · Mobi · ePub |
| Oracle® Database Utilities 11g Release 2 (11.2) Part Number E16536-05 |
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PDF · Mobi · ePub |
This chapter describes how to use the original Export utility (exp) to write data from an Oracle database into an operating system file in binary format. This file is stored outside the database, and it can be read into another Oracle database using the original Import utility.
Note:
Original Export is desupported for general use as of Oracle Database 11g. The only supported use of original Export in Oracle Database 11g is backward migration of XMLType data to Oracle Database 10g release 2 (10.2) or earlier. Therefore, Oracle recommends that you use the new Data Pump Export and Import utilities, except in the following situations which require original Export and Import:You want to import files that were created using the original Export utility (exp).
You want to export files that will be imported using the original Import utility (imp). An example of this would be if you wanted to export data from Oracle Database 10g and then import it into an earlier database release.
The following topics are discussed in this chapter:
The Export utility provides a simple way for you to transfer data objects between Oracle databases, even if they reside on platforms with different hardware and software configurations.
When you run Export against an Oracle database, objects (such as tables) are extracted, followed by their related objects (such as indexes, comments, and grants), if any.
An Export file is an Oracle binary-format dump file that is typically located on disk or tape. The dump files can be transferred using FTP or physically transported (in the case of tape) to a different site. The files can then be used with the Import utility to transfer data between databases that are on systems not connected through a network. The files can also be used as backups in addition to normal backup procedures.
Export dump files can only be read by the Oracle Import utility. The version of the Import utility cannot be earlier than the version of the Export utility used to create the dump file.
You can also display the contents of an export file without actually performing an import. To do this, use the Import SHOW parameter. See "SHOW" for more information.To load data from ASCII fixed-format or delimited files, use the SQL*Loader utility.
Before you begin using Export, be sure you take care of the following items (described in detail in the following sections):
Run the catexp.sql or catalog.sql script
Ensure there is sufficient disk or tape storage to write the export file
Verify that you have the required access privileges
To use Export, you must run the script catexp.sql or catalog.sql (which runs catexp.sql) after the database has been created or migrated to a newer release.
The catexp.sql or catalog.sql script needs to be run only once on a database. The script performs the following tasks to prepare the database for export and import operations:
Creates the necessary export and import views in the data dictionary
Assigns all necessary privileges to the EXP_FULL_DATABASE and IMP_FULL_DATABASE roles
Assigns EXP_FULL_DATABASE and IMP_FULL_DATABASE to the DBA role
Records the version of catexp.sql that has been installed
The EXP_FULL_DATABASE and IMP_FULL_DATABASE roles are powerful. Database administrators should use caution when granting these roles to users.
Before you run Export, ensure that there is sufficient disk or tape storage space to write the export file. If there is not enough space, then Export terminates with a write-failure error.
You can use table sizes to estimate the maximum space needed. You can find table sizes in the USER_SEGMENTS view of the Oracle data dictionary. The following query displays disk usage for all tables:
SELECT SUM(BYTES) FROM USER_SEGMENTS WHERE SEGMENT_TYPE='TABLE';
The result of the query does not include disk space used for data stored in LOB (large object) or VARRAY columns or in partitioned tables.
See Also:
Oracle Database Reference for more information about dictionary viewsTo use Export, you must have the CREATE SESSION privilege on an Oracle database. This privilege belongs to the CONNECT role established during database creation. To export tables owned by another user, you must have the EXP_FULL_DATABASE role enabled. This role is granted to all database administrators (DBAs).
If you do not have the system privileges contained in the EXP_FULL_DATABASE role, then you cannot export objects contained in another user's schema. For example, you cannot export a table in another user's schema, even if you created a synonym for it.
Several system schemas cannot be exported because they are not user schemas; they contain Oracle-managed data and metadata. Examples of schemas that are not exported include SYS, ORDSYS, and MDSYS.
You can invoke Export and specify parameters by using any of the following methods:
Command-line entries
Parameter files
Interactive mode
Before you use one of these methods, be sure to read the descriptions of the available parameters. See "Export Parameters".
SYSDBA is used internally and has specialized functions; its behavior is not the same as for generalized users. Therefore, you should not typically need to invoke Export as SYSDBA except in the following situations:
At the request of Oracle technical support
When importing a transportable tablespace set
You can specify all valid parameters and their values from the command line using the following syntax (you will then be prompted for a username and password):
exp PARAMETER=value
or
exp PARAMETER=(value1,value2,...,valuen)
The number of parameters cannot exceed the maximum length of a command line on the system.
You can specify all valid parameters and their values in a parameter file. Storing the parameters in a file allows them to be easily modified or reused, and is the recommended method for invoking Export. If you use different parameters for different databases, then you can have multiple parameter files.
Create the parameter file using any flat file text editor. The command-line option PARFILE=filename tells Export to read the parameters from the specified file rather than from the command line. For example:
The syntax for parameter file specifications is one of the following:
PARAMETER=value PARAMETER=(value) PARAMETER=(value1, value2, ...)
The following example shows a partial parameter file listing:
FULL=y FILE=dba.dmp GRANTS=y INDEXES=y CONSISTENT=y
Note:
The maximum size of the parameter file may be limited by the operating system. The name of the parameter file is subject to the file-naming conventions of the operating system.You can add comments to the parameter file by preceding them with the pound (#) sign. Export ignores all characters to the right of the pound (#) sign.
You can specify a parameter file at the same time that you are entering parameters on the command line. In fact, you can specify the same parameter in both places. The position of the PARFILE parameter and other parameters on the command line determines which parameters take precedence. For example, assume the parameter file params.dat contains the parameter INDEXES=y and Export is invoked with the following line:
exp PARFILE=params.dat INDEXES=n
In this case, because INDEXES=n occurs after PARFILE=params.dat, INDEXES=n overrides the value of the INDEXES parameter in the parameter file.
If you prefer to be prompted for the value of each parameter, then you can simply specify either exp at the command line. You will be prompted for a username and password.
Commonly used parameters are then displayed. You can accept the default value, if one is provided, or enter a different value. The command-line interactive method does not provide prompts for all functionality and is provided only for backward compatibility. If you want to use an interactive interface, then Oracle recommends that you use the Oracle Enterprise Manager Export Wizard.
Keep in mind the following points when you use the interactive method:
In user mode, Export prompts for all usernames to be included in the export before exporting any data. To indicate the end of the user list and begin the current Export session, press Enter.
In table mode, if you do not specify a schema prefix, then Export defaults to the exporter's schema or the schema containing the last table exported in the current session.
For example, if beth is a privileged user exporting in table mode, then Export assumes that all tables are in the beth schema until another schema is specified. Only a privileged user (someone with the EXP_FULL_DATABASE role) can export tables in another user's schema.
If you specify a null table list to the prompt "Table to be exported," then the Export utility exits.
The Export utility supports four modes of operation:
Full: Exports a full database. Only users with the EXP_FULL_DATABASE role can use this mode. Use the FULL parameter to specify this mode.
Tablespace: Enables a privileged user to move a set of tablespaces from one Oracle database to another. Use the TRANSPORT_TABLESPACE parameter to specify this mode.
User: Enables you to export all objects that belong to you (such as tables, grants, indexes, and procedures). A privileged user importing in user mode can import all objects in the schemas of a specified set of users. Use the OWNER parameter to specify this mode in Export.
Table: Enables you to export specific tables and partitions. A privileged user can qualify the tables by specifying the schema that contains them. For any table for which a schema name is not specified, Export defaults to the exporter's schema name. Use the TABLES parameter to specify this mode.
See Table 21-1 for a list of objects that are exported and imported in each mode.
Note:
The original Export utility does not export any table that was created with deferred segment creation and has not had a segment created for it. The most common way for a segment to be created is to store a row into the table, though other operations such asALTER TABLE ALLOCATE EXTENTS will also create a segment. If a segment does exist for the table and the table is exported, then the SEGMENT CREATION DEFERRED clause is not included in the CREATE TABLE statement that is executed by the original Import utility.You can use conventional path Export or direct path Export to export in any mode except tablespace mode.The differences between conventional path Export and direct path Export are described in "Conventional Path Export Versus Direct Path Export".
Table 21-1 Objects Exported in Each Mode
| Object | Table Mode | User Mode | Full Database Mode | Tablespace Mode |
|---|---|---|---|---|
|
Analyze cluster |
No |
Yes |
Yes |
No |
|
Analyze tables/statistics |
Yes |
Yes |
Yes |
Yes |
|
Application contexts |
No |
No |
Yes |
No |
|
Auditing information |
Yes |
Yes |
Yes |
No |
|
B-tree, bitmap, domain function-based indexes |
YesFoot 1 |
Yes |
Yes |
Yes |
|
Cluster definitions |
No |
Yes |
Yes |
Yes |
|
Column and table comments |
Yes |
Yes |
Yes |
Yes |
|
Database links |
No |
Yes |
Yes |
No |
|
Default roles |
No |
No |
Yes |
No |
|
Dimensions |
No |
Yes |
Yes |
No |
|
Directory aliases |
No |
No |
Yes |
No |
|
External tables (without data) |
Yes |
Yes |
Yes |
No |
|
Foreign function libraries |
No |
Yes |
Yes |
No |
|
Indexes owned by users other than table owner |
Yes (Privileged users only) |
Yes |
Yes |
Yes |
|
Index types |
No |
Yes |
Yes |
No |
|
Java resources and classes |
No |
Yes |
Yes |
No |
|
Job queues |
No |
Yes |
Yes |
No |
|
Nested table data |
Yes |
Yes |
Yes |
Yes |
|
Object grants |
Yes (Only for tables and indexes) |
Yes |
Yes |
Yes |
|
Object type definitions used by table |
Yes |
Yes |
Yes |
Yes |
|
Object types |
No |
Yes |
Yes |
No |
|
Operators |
No |
Yes |
Yes |
No |
|
Password history |
No |
No |
Yes |
No |
|
Postinstance actions and objects |
No |
No |
Yes |
No |
|
Postschema procedural actions and objects |
No |
Yes |
Yes |
No |
|
Posttable actions |
Yes |
Yes |
Yes |
Yes |
|
Posttable procedural actions and objects |
Yes |
Yes |
Yes |
Yes |
|
Preschema procedural objects and actions |
No |
Yes |
Yes |
No |
|
Pretable actions |
Yes |
Yes |
Yes |
Yes |
|
Pretable procedural actions |
Yes |
Yes |
Yes |
Yes |
|
Private synonyms |
No |
Yes |
Yes |
No |
|
Procedural objects |
No |
Yes |
Yes |
No |
|
Profiles |
No |
No |
Yes |
No |
|
Public synonyms |
No |
No |
Yes |
No |
|
Referential integrity constraints |
Yes |
Yes |
Yes |
No |
|
Refresh groups |
No |
Yes |
Yes |
No |
|
Resource costs |
No |
No |
Yes |
No |
|
Role grants |
No |
No |
Yes |
No |
|
Roles |
No |
No |
Yes |
No |
|
Rollback segment definitions |
No |
No |
Yes |
No |
|
Security policies for table |
Yes |
Yes |
Yes |
Yes |
|
Sequence numbers |
No |
Yes |
Yes |
No |
|
Snapshot logs |
No |
Yes |
Yes |
No |
|
Snapshots and materialized views |
No |
Yes |
Yes |
No |
|
System privilege grants |
No |
No |
Yes |
No |
|
Table constraints (primary, unique, check) |
Yes |
Yes |
Yes |
Yes |
|
Table data |
Yes |
Yes |
Yes |
Yes |
|
Table definitions |
Yes |
Yes |
Yes |
Yes |
|
Tablespace definitions |
No |
No |
Yes |
No |
|
Tablespace quotas |
No |
No |
Yes |
No |
|
Triggers |
Yes |
YesFoot 2 |
YesFoot 3 |
Yes |
|
Triggers owned by other users |
Yes (Privileged users only) |
No |
No |
No |
|
User definitions |
No |
No |
Yes |
No |
|
User proxies |
No |
No |
Yes |
No |
|
User views |
No |
Yes |
Yes |
No |
|
User-stored procedures, packages, and functions |
No |
Yes |
Yes |
No |
Footnote 1 Nonprivileged users can export and import only indexes they own on tables they own. They cannot export indexes they own that are on tables owned by other users, nor can they export indexes owned by other users on their own tables. Privileged users can export and import indexes on the specified users' tables, even if the indexes are owned by other users. Indexes owned by the specified user on other users' tables are not included, unless those other users are included in the list of users to export.
Footnote 2 Nonprivileged and privileged users can export and import all triggers owned by the user, even if they are on tables owned by other users.
Footnote 3 A full export does not export triggers owned by schema SYS. You must manually re-create SYS triggers either before or after the full import. Oracle recommends that you re-create them after the import in case they define actions that would impede progress of the import.
You can export tables, partitions, and subpartitions in the following ways:
Table-level Export: exports all data from the specified tables
Partition-level Export: exports only data from the specified source partitions or subpartitions
In all modes, partitioned data is exported in a format such that partitions or subpartitions can be imported selectively.
In table-level Export, you can export an entire table (partitioned or nonpartitioned) along with its indexes and other table-dependent objects. If the table is partitioned, then all of its partitions and subpartitions are also exported. This applies to both direct path Export and conventional path Export. You can perform a table-level export in any Export mode.
In partition-level Export, you can export one or more specified partitions or subpartitions of a table. You can only perform a partition-level export in table mode.
For information about how to specify table-level and partition-level Exports, see "TABLES".
This section contains descriptions of the Export command-line parameters.
Default: operating system-dependent. See your Oracle operating system-specific documentation to determine the default value for this parameter.
Specifies the size, in bytes, of the buffer used to fetch rows. As a result, this parameter determines the maximum number of rows in an array fetched by Export. Use the following formula to calculate the buffer size:
buffer_size = rows_in_array * maximum_row_size
If you specify zero, then the Export utility fetches only one row at a time.
Tables with columns of type LOBs, LONG, BFILE, REF, ROWID, LOGICAL ROWID, or DATE are fetched one row at a time.
Note:
TheBUFFER parameter applies only to conventional path Export. It has no effect on a direct path Export. For direct path Exports, use the RECORDLENGTH parameter to specify the size of the buffer that Export uses for writing to the export file.This section shows an example of how to calculate buffer size.
The following table is created:
CREATE TABLE sample (name varchar(30), weight number);
The maximum size of the name column is 30, plus 2 bytes for the indicator. The maximum size of the weight column is 22 (the size of the internal representation for Oracle numbers), plus 2 bytes for the indicator.
Therefore, the maximum row size is 56 (30+2+22+2).
To perform array operations for 100 rows, a buffer size of 5600 should be specified.
Specifies how Export and Import manage the initial extent for table data.
The default, COMPRESS=y, causes Export to flag table data for consolidation into one initial extent upon import. If extent sizes are large (for example, because of the PCTINCREASE parameter), then the allocated space will be larger than the space required to hold the data.
If you specify COMPRESS=n, then Export uses the current storage parameters, including the values of initial extent size and next extent size. The values of the parameters may be the values specified in the CREATE TABLE or ALTER TABLE statements or the values modified by the database system. For example, the NEXT extent size value may be modified if the table grows and if the PCTINCREASE parameter is nonzero.
The COMPRESS parameter does not work with bitmapped tablespaces.
Note:
Although the actual consolidation is performed upon import, you can specify theCOMPRESS parameter only when you export, not when you import. The Export utility, not the Import utility, generates the data definitions, including the storage parameter definitions. Therefore, if you specify COMPRESS=y when you export, then you can import the data in consolidated form only.Specifies whether Export uses the SET TRANSACTION READ ONLY statement to ensure that the data seen by Export is consistent to a single point in time and does not change during the execution of the exp command. You should specify CONSISTENT=y when you anticipate that other applications will be updating the target data after an export has started.
If you use CONSISTENT=n, then each table is usually exported in a single transaction. However, if a table contains nested tables, then the outer table and each inner table are exported as separate transactions. If a table is partitioned, then each partition is exported as a separate transaction.
Therefore, if nested tables and partitioned tables are being updated by other applications, then the data that is exported could be inconsistent. To minimize this possibility, export those tables at a time when updates are not being done.
Table 21-2 shows a sequence of events by two users: user1 exports partitions in a table and user2 updates data in that table.
Table 21-2 Sequence of Events During Updates by Two Users
| TIme Sequence | user1 | user2 |
|---|---|---|
|
1 |
Begins export of TAB:P1 |
No activity |
|
2 |
No activity |
Updates TAB:P2 Updates TAB:P1 Commits transaction |
|
3 |
Ends export of TAB:P1 |
No activity |
|
4 |
Exports TAB:P2 |
No activity |
If the export uses CONSISTENT=y, then none of the updates by user2 are written to the export file.
If the export uses CONSISTENT=n, then the updates to TAB:P1 are not written to the export file. However, the updates to TAB:P2 are written to the export file, because the update transaction is committed before the export of TAB:P2 begins. As a result, the user2 transaction is only partially recorded in the export file, making it inconsistent.
If you use CONSISTENT=y and the volume of updates is large, then the rollback segment usage will be large. In addition, the export of each table will be slower, because the rollback segment must be scanned for uncommitted transactions.
Keep in mind the following points about using CONSISTENT=y:
CONSISTENT=y is unsupported for exports that are performed when you are connected as user SYS or you are using AS SYSDBA, or both.
Export of certain metadata may require the use of the SYS schema within recursive SQL. In such situations, the use of CONSISTENT=y will be ignored. Oracle recommends that you avoid making metadata changes during an export process in which CONSISTENT=y is selected.
To minimize the time and space required for such exports, you should export tables that need to remain consistent separately from those that do not. For example, export the emp and dept tables together in a consistent export, and then export the remainder of the database in a second pass.
A "snapshot too old" error occurs when rollback space is used up, and space taken up by committed transactions is reused for new transactions. Reusing space in the rollback segment allows database integrity to be preserved with minimum space requirements, but it imposes a limit on the amount of time that a read-consistent image can be preserved.
If a committed transaction has been overwritten and the information is needed for a read-consistent view of the database, then a "snapshot too old" error results.
To avoid this error, you should minimize the time taken by a read-consistent export. (Do this by restricting the number of objects exported and, if possible, by reducing the database transaction rate.) Also, make the rollback segment as large as possible.
Note:
Rollback segments will be deprecated in a future Oracle database release. Oracle recommends that you use automatic undo management instead.See Also:
"OBJECT_CONSISTENT"Default: n
Specifies the use of direct path Export.
Specifying DIRECT=y causes Export to extract data by reading the data directly, bypassing the SQL command-processing layer (evaluating buffer). This method can be much faster than a conventional path Export.
For information about direct path Exports, including security and performance considerations, see "Invoking a Direct Path Export".
Default: 0 (zero)
Specifies that Export should display a progress meter in the form of a period for n number of rows exported. For example, if you specify FEEDBACK=10, then Export displays a period each time 10 rows are exported. The FEEDBACK value applies to all tables being exported; it cannot be set individually for each table.
Specifies the names of the export dump files. The default extension is .dmp, but you can specify any extension. Because Export supports multiple export files, you can specify multiple file names to be used. For example:
exp scott FILE = dat1.dmp, dat2.dmp, dat3.dmp FILESIZE=2048
When Export reaches the value you have specified for the maximum FILESIZE, Export stops writing to the current file, opens another export file with the next name specified by the FILE parameter, and continues until complete or the maximum value of FILESIZE is again reached. If you do not specify sufficient export file names to complete the export, then Export prompts you to provide additional file names.
Default: Data is written to one file until the maximum size, as specified in Table 21-3, is reached.
Export supports writing to multiple export files, and Import can read from multiple export files. If you specify a value (byte limit) for the FILESIZE parameter, then Export will write only the number of bytes you specify to each dump file.
When the amount of data Export must write exceeds the maximum value you specified for FILESIZE, it will get the name of the next export file from the FILE parameter (see "FILE" for more information) or, if it has used all the names specified in the FILE parameter, then it will prompt you to provide a new export file name. If you do not specify a value for FILESIZE (note that a value of 0 is equivalent to not specifying FILESIZE), then Export will write to only one file, regardless of the number of files specified in the FILE parameter.
Note:
If the space requirements of your export file exceed the available disk space, then Export will terminate, and you will have to repeat the Export after making sufficient disk space available.The FILESIZE parameter has a maximum value equal to the maximum value that can be stored in 64 bits.
Table 21-3 shows that the maximum size for dump files depends on the operating system you are using and on the release of the Oracle database that you are using.
Table 21-3 Maximum Size for Dump Files
| Operating System | Release of Oracle Database | Maximum Size |
|---|---|---|
|
Any |
Before 8.1.5 |
2 gigabytes |
|
32-bit |
8.1.5 |
2 gigabytes |
|
64-bit |
8.1.5 and later |
Unlimited |
|
32-bit with 32-bit files |
Any |
2 gigabytes |
|
32-bit with 64-bit files |
8.1.6 and later |
Unlimited |
The maximum value that can be stored in a file is dependent on your operating system. You should verify this maximum value in your Oracle operating system-specific documentation before specifying FILESIZE. You should also ensure that the file size you specify for Export is supported on the system on which Import will run.
The FILESIZE value can also be specified as a number followed by KB (number of kilobytes). For example, FILESIZE=2KB is the same as FILESIZE=2048. Similarly, MB specifies megabytes (1024 * 1024) and GB specifies gigabytes (1024**3). B remains the shorthand for bytes; the number is not multiplied to obtain the final file size (FILESIZE=2048B is the same as FILESIZE=2048).
Default: none
Specifies the system change number (SCN) that Export will use to enable flashback. The export operation is performed with data consistent as of this specified SCN.
See Also:
Oracle Database Advanced Application Developer's Guide for more information about using flashbackThe following is an example of specifying an SCN. When the export is performed, the data will be consistent as of SCN 3482971.
> exp FILE=exp.dmp FLASHBACK_SCN=3482971
Default: none
Enables you to specify a timestamp. Export finds the SCN that most closely matches the specified timestamp. This SCN is used to enable flashback. The export operation is performed with data consistent as of this SCN.
You can specify the time in any format that the DBMS_FLASHBACK.ENABLE_AT_TIME procedure accepts. This means that you can specify it in either of the following ways:
> exp FILE=exp.dmp FLASHBACK_TIME="TIMESTAMP '2006-05-01 11:00:00'"
> exp FILE=exp.dmp FLASHBACK_TIME="TO_TIMESTAMP('12-02-2005 14:35:00', 'DD-MM-YYYY HH24:MI:SS')"
Also, the old format, as shown in the following example, will continue to be accepted to ensure backward compatibility:
> exp FILE=exp.dmp FLASHBACK_TIME="'2006-05-01 11:00:00'"
See Also:
Oracle Database Advanced Application Developer's Guide for more information about using flashback
Oracle Database PL/SQL Packages and Types Reference for more information about the DBMS_FLASHBACK package
Indicates that the export is a full database mode export (that is, it exports the entire database). Specify FULL=y to export in full database mode. You need to have the EXP_FULL_DATABASE role to export in this mode.
A full database export and import can be a good way to replicate or clean up a database. However, to avoid problems be sure to keep the following points in mind:
A full export does not export triggers owned by schema SYS. You must manually re-create SYS triggers either before or after the full import. Oracle recommends that you re-create them after the import in case they define actions that would impede progress of the import.
A full export also does not export the default profile. If you have modified the default profile in the source database (for example, by adding a password verification function owned by schema SYS), then you must manually pre-create the function and modify the default profile in the target database after the import completes.
If possible, before beginning, make a physical copy of the exported database and the database into which you intend to import. This ensures that any mistakes are reversible.
Before you begin the export, it is advisable to produce a report that includes the following information:
A list of tablespaces and data files
A list of rollback segments
A count, by user, of each object type such as tables, indexes, and so on
This information lets you ensure that tablespaces have already been created and that the import was successful.
If you are creating a completely new database from an export, then remember to create an extra rollback segment in SYSTEM and to make it available in your initialization parameter file (init.ora)before proceeding with the import.
When you perform the import, ensure you are pointing at the correct instance. This is very important because on some UNIX systems, just the act of entering a subshell can change the database against which an import operation was performed.
Do not perform a full import on a system that has more than one database unless you are certain that all tablespaces have already been created. A full import creates any undefined tablespaces using the same data file names as the exported database. This can result in problems in the following situations:
If the data files belong to any other database, then they will become corrupted. This is especially true if the exported database is on the same system, because its data files will be reused by the database into which you are importing.
If the data files have names that conflict with existing operating system files.
Specifies whether the Export utility exports object grants. The object grants that are exported depend on whether you use full database mode or user mode. In full database mode, all grants on a table are exported. In user mode, only those granted by the owner of the table are exported. System privilege grants are always exported.
Displays a description of the Export parameters. Enter exp help=y on the command line to invoke it.
Specifies a file name (for example, export.log) to receive informational and error messages.
If you specify this parameter, then messages are logged in the log file and displayed to the terminal display.
Default: n
Specifies whether the Export utility uses the SET TRANSACTION READ ONLY statement to ensure that the data exported is consistent to a single point in time and does not change during the export. If OBJECT_CONSISTENT is set to y, then each object is exported in its own read-only transaction, even if it is partitioned. In contrast, if you use the CONSISTENT parameter, then there is only one read-only transaction.
See Also:
"CONSISTENT"Indicates that the export is a user-mode export and lists the users whose objects will be exported. If the user initiating the export is the database administrator (DBA), then multiple users can be listed.
User-mode exports can be used to back up one or more database users. For example, a DBA may want to back up the tables of deleted users for a period of time. User mode is also appropriate for users who want to back up their own data or who want to move objects from one owner to another.
Specifies a file name for a file that contains a list of Export parameters. For more information about using a parameter file, see "Invoking Export".
Default: none
This parameter enables you to select a subset of rows from a set of tables when doing a table mode export. The value of the query parameter is a string that contains a WHERE clause for a SQL SELECT statement that will be applied to all tables (or table partitions) listed in the TABLES parameter.
For example, if user scott wants to export only those employees whose job title is SALESMAN and whose salary is less than 1600, then he could do the following (this example is UNIX-based):
exp scott TABLES=emp QUERY=\"WHERE job=\'SALESMAN\' and sal \<1600\"
Note:
Because the value of theQUERY parameter contains blanks, most operating systems require that the entire string WHERE job=\'SALESMAN\' and sal\<1600 be placed in double quotation marks or marked as a literal by some method. Operating system reserved characters also need to be preceded by an escape character. See your Oracle operating system-specific documentation for information about special and reserved characters on your system.When executing this query, Export builds a SQL SELECT statement similar to the following:
SELECT * FROM emp WHERE job='SALESMAN' and sal <1600;
The values specified for the QUERY parameter are applied to all tables (or table partitions) listed in the TABLES parameter. For example, the following statement will unload rows in both emp and bonus that match the query:
exp scott TABLES=emp,bonus QUERY=\"WHERE job=\'SALESMAN\' and sal\<1600\"
Again, the SQL statements that Export executes are similar to the following:
SELECT * FROM emp WHERE job='SALESMAN' and sal <1600; SELECT * FROM bonus WHERE job='SALESMAN' and sal <1600;
If a table is missing the columns specified in the QUERY clause, then an error message will be produced, and no rows will be exported for the offending table.
The QUERY parameter cannot be specified for full, user, or tablespace-mode exports.
The QUERY parameter must be applicable to all specified tables.
The QUERY parameter cannot be specified in a direct path Export (DIRECT=y)
The QUERY parameter cannot be specified for tables with inner nested tables.
You cannot determine from the contents of the export file whether the data is the result of a QUERY export.
Default: operating system-dependent
Specifies the length, in bytes, of the file record. The RECORDLENGTH parameter is necessary when you must transfer the export file to another operating system that uses a different default value.
If you do not define this parameter, then it defaults to your platform-dependent value for buffer size.
You can set RECORDLENGTH to any value equal to or greater than your system's buffer size. (The highest value is 64 KB.) Changing the RECORDLENGTH parameter affects only the size of data that accumulates before writing to the disk. It does not affect the operating system file block size.
Note:
You can use this parameter to specify the size of the Export I/O buffer.Default: n
The RESUMABLE parameter is used to enable and disable resumable space allocation. Because this parameter is disabled by default, you must set RESUMABLE=y to use its associated parameters, RESUMABLE_NAME and RESUMABLE_TIMEOUT.
See Also:
Oracle Database Administrator's Guide for more information about resumable space allocation
Default: 'User USERNAME (USERID), Session SESSIONID, Instance INSTANCEID'
The value for this parameter identifies the statement that is resumable. This value is a user-defined text string that is inserted in either the USER_RESUMABLE or DBA_RESUMABLE view to help you identify a specific resumable statement that has been suspended.
This parameter is ignored unless the RESUMABLE parameter is set to y to enable resumable space allocation.
Default: 7200 seconds (2 hours)
The value of the parameter specifies the time period during which an error must be fixed. If the error is not fixed within the timeout period, then execution of the statement is terminated.
This parameter is ignored unless the RESUMABLE parameter is set to y to enable resumable space allocation.
Specifies the type of database optimizer statistics to generate when the exported data is imported. Options are ESTIMATE, COMPUTE, and NONE.
In some cases, Export will place the precalculated statistics in the export file, and also the ANALYZE statements to regenerate the statistics.
However, the precalculated optimizer statistics will not be used at export time if a table has columns with system-generated names.
The precalculated optimizer statistics are flagged as questionable at export time if:
There are row errors while exporting
The client character set or NCHAR character set does not match the server character set or NCHAR character set
A QUERY clause is specified
Only certain partitions or subpartitions are exported
Note:
SpecifyingROWS=n does not preclude saving the precalculated statistics in the export file. This enables you to tune plan generation for queries in a nonproduction database using statistics from a production database.Specifies that the export is a table-mode export and lists the table names and partition and subpartition names to export. You can specify the following when you specify the name of the table:
schemaname specifies the name of the user's schema from which to export the table or partition. If a schema name is not specified, then the exporter's schema is used as the default. System schema names such as ORDSYS, MDSYS, CTXSYS, LBACSYS, and ORDPLUGINS are reserved by Export.
tablename specifies the name of the table or tables to be exported. Table-level export lets you export entire partitioned or nonpartitioned tables. If a table in the list is partitioned and you do not specify a partition name, then all its partitions and subpartitions are exported.
The table name can contain any number of '%' pattern matching characters, which can each match zero or more characters in the table name against the table objects in the database. All the tables in the relevant schema that match the specified pattern are selected for export, as if the respective table names were explicitly specified in the parameter.
partition_name indicates that the export is a partition-level Export. Partition-level Export lets you export one or more specified partitions or subpartitions within a table.
The syntax you use to specify the preceding is in the form:
schemaname.tablename:partition_name schemaname.tablename:subpartition_name
If you use tablename:partition_name, then the specified table must be partitioned, and partition_name must be the name of one of its partitions or subpartitions. If the specified table is not partitioned, then the partition_name is ignored and the entire table is exported.
See "Example Export Session Using Partition-Level Export" for several examples of partition-level Exports.
The following restrictions apply to table names:
By default, table names in a database are stored as uppercase. If you have a table name in mixed-case or lowercase, and you want to preserve case-sensitivity for the table name, then you must enclose the name in quotation marks. The name must exactly match the table name stored in the database.
Some operating systems require that quotation marks on the command line be preceded by an escape character. The following are examples of how case-sensitivity can be preserved in the different Export modes.
In command-line mode:
TABLES='\"Emp\"'
In interactive mode:
Table(T) to be exported: "Emp"
In parameter file mode:
TABLES='"Emp"'
Table names specified on the command line cannot include a pound (#) sign, unless the table name is enclosed in quotation marks. Similarly, in the parameter file, if a table name includes a pound (#) sign, then the Export utility interprets the rest of the line as a comment, unless the table name is enclosed in quotation marks.
For example, if the parameter file contains the following line, then Export interprets everything on the line after emp# as a comment and does not export the tables dept and mydata:
TABLES=(emp#, dept, mydata)
However, given the following line, the Export utility exports all three tables, because emp# is enclosed in quotation marks:
TABLES=("emp#", dept, mydata)
Note:
Some operating systems require single quotation marks rather than double quotation marks, or the reverse. Different operating systems also have other restrictions on table naming.Default: none
The TABLESPACES parameter specifies that all tables in the specified tablespace be exported to the Export dump file. This includes all tables contained in the list of tablespaces and all tables that have a partition located in the list of tablespaces. Indexes are exported with their tables, regardless of where the index is stored.
You must have the EXP_FULL_DATABASE role to use TABLESPACES to export all tables in the tablespace.
When TABLESPACES is used in conjunction with TRANSPORT_TABLESPACE=y, you can specify a limited list of tablespaces to be exported from the database to the export file.
Default: n
When specified as y, this parameter enables the export of transportable tablespace metadata.
Encrypted columns are not supported in transportable tablespace mode.
Note:
You cannot export transportable tablespaces and then import them into a database at a lower release level. The target database must be at the same or higher release level as the source database.Default: n
When TTS_FULL_CHECK is set to y, Export verifies that a recovery set (set of tablespaces to be recovered) has no dependencies (specifically, IN pointers) on objects outside the recovery set, and the reverse.
Specifies the username, password, and optional connect string of the user performing the export. If you omit the password, then Export will prompt you for it.
If you connect as user SYS, then you must also specify AS SYSDBA in the connect string. Your operating system may require you to treat AS SYSDBA as a special string, in which case the entire string would be enclosed in quotation marks.
See Also:
The user's guide for your Oracle Net protocol for information about specifying a connect string for Oracle Net
Default: none
Specifies the maximum number of bytes in an export file on each volume of tape.
The VOLSIZE parameter has a maximum value equal to the maximum value that can be stored in 64 bits on your platform.
The VOLSIZE value can be specified as a number followed by KB (number of kilobytes). For example, VOLSIZE=2KB is the same as VOLSIZE=2048. Similarly, MB specifies megabytes (1024 * 1024) and GB specifies gigabytes (1024**3). B remains the shorthand for bytes; the number is not multiplied to get the final file size (VOLSIZE=2048B is the same as VOLSIZE=2048).
This section provides examples of the following types of Export sessions:
In each example, you are shown how to use both the command-line method and the parameter file method. Some examples use vertical ellipses to indicate sections of example output that were too long to include.
Only users with the DBA role or the EXP_FULL_DATABASE role can export in full database mode. In this example, an entire database is exported to the file dba.dmp with all GRANTS and all data.
> exp PARFILE=params.dat
The params.dat file contains the following information:
FILE=dba.dmp GRANTS=y FULL=y ROWS=y
> exp FULL=y FILE=dba.dmp GRANTS=y ROWS=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Status messages are written out as the entire database is exported. A final completion message is returned when the export completes successfully, without warnings.
User-mode exports can be used to back up one or more database users. For example, a DBA may want to back up the tables of deleted users for a period of time. User mode is also appropriate for users who want to back up their own data or who want to move objects from one owner to another. In this example, user scott is exporting his own tables.
> exp scott PARFILE=params.dat
The params.dat file contains the following information:
FILE=scott.dmp OWNER=scott GRANTS=y ROWS=y COMPRESS=y
> exp scott FILE=scott.dmp OWNER=scott GRANTS=y ROWS=y COMPRESS=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . about to export SCOTT's tables via Conventional Path ... . . exporting table BONUS 0 rows exported . . exporting table DEPT 4 rows exported . . exporting table EMP 14 rows exported . . exporting table SALGRADE 5 rows exported . . . Export terminated successfully without warnings.
In table mode, you can export table data or the table definitions. (If no rows are exported, then the CREATE TABLE statement is placed in the export file, with grants and indexes, if they are specified.)
A user with the EXP_FULL_DATABASE role can use table mode to export tables from any user's schema by specifying TABLES=schemaname.tablename.
If schemaname is not specified, then Export defaults to the exporter's schema name. In the following example, Export defaults to the SYSTEM schema for table a and table c:
> exp TABLES=(a, scott.b, c, mary.d)
A user with the EXP_FULL_DATABASE role can also export dependent objects that are owned by other users. A nonprivileged user can export only dependent objects for the specified tables that the user owns.
Exports in table mode do not include cluster definitions. As a result, the data is exported as unclustered tables. Thus, you can use table mode to uncluster tables.
In this example, a DBA exports specified tables for two users.
> exp PARFILE=params.dat
The params.dat file contains the following information:
FILE=expdat.dmp TABLES=(scott.emp,blake.dept) GRANTS=y INDEXES=y
> exp FILE=expdat.dmp TABLES=(scott.emp,blake.dept) GRANTS=y INDEXES=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . About to export specified tables via Conventional Path ... Current user changed to SCOTT . . exporting table EMP 14 rows exported Current user changed to BLAKE . . exporting table DEPT 8 rows exported Export terminated successfully without warnings.
In this example, user blake exports selected tables that he owns.
> exp blake PARFILE=params.dat
The params.dat file contains the following information:
FILE=blake.dmp TABLES=(dept,manager) ROWS=y COMPRESS=y
> exp blake FILE=blake.dmp TABLES=(dept, manager) ROWS=y COMPRESS=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . About to export specified tables via Conventional Path ... . . exporting table DEPT 8 rows exported . . exporting table MANAGER 4 rows exported Export terminated successfully without warnings.
In this example, pattern matching is used to export various tables for users scott and blake.
> exp PARFILE=params.dat
The params.dat file contains the following information:
FILE=misc.dmp TABLES=(scott.%P%,blake.%,scott.%S%)
> exp FILE=misc.dmp TABLES=(scott.%P%,blake.%,scott.%S%)
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . About to export specified tables via Conventional Path ... Current user changed to SCOTT . . exporting table DEPT 4 rows exported . . exporting table EMP 14 rows exported Current user changed to BLAKE . . exporting table DEPT 8 rows exported . . exporting table MANAGER 4 rows exported Current user changed to SCOTT . . exporting table BONUS 0 rows exported . . exporting table SALGRADE 5 rows exported Export terminated successfully without warnings.
In partition-level Export, you can specify the partitions and subpartitions of a table that you want to export.
Assume emp is a table that is partitioned on employee name. There are two partitions, m and z. As this example shows, if you export the table without specifying a partition, then all of the partitions are exported.
> exp scott PARFILE=params.dat
The params.dat file contains the following:
TABLES=(emp) ROWS=y
> exp scott TABLES=emp rows=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . About to export specified tables via Conventional Path ... . . exporting table EMP . . exporting partition M 8 rows exported . . exporting partition Z 6 rows exported Export terminated successfully without warnings.
Assume emp is a table that is partitioned on employee name. There are two partitions, m and z. As this example shows, if you export the table and specify a partition, then only the specified partition is exported.
> exp scott PARFILE=params.dat
The params.dat file contains the following:
TABLES=(emp:m) ROWS=y
> exp scott TABLES=emp:m rows=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . About to export specified tables via Conventional Path ... . . exporting table EMP . . exporting partition M 8 rows exported Export terminated successfully without warnings.
Assume emp is a partitioned table with two partitions, m and z. Table emp is partitioned using the composite method. Partition m has subpartitions sp1 and sp2, and partition z has subpartitions sp3 and sp4. As the example shows, if you export the composite partition m, then all its subpartitions (sp1 and sp2) will be exported. If you export the table and specify a subpartition (sp4), then only the specified subpartition is exported.
> exp scott PARFILE=params.dat
The params.dat file contains the following:
TABLES=(emp:m,emp:sp4) ROWS=y
> exp scott TABLES=(emp:m, emp:sp4) ROWS=y
Information is displayed about the release of Export you are using and the release of Oracle Database that you are connected to. Then, status messages similar to the following are shown:
. . . About to export specified tables via Conventional Path ... . . exporting table EMP . . exporting composite partition M . . exporting subpartition SP1 1 rows exported . . exporting subpartition SP2 3 rows exported . . exporting composite partition Z . . exporting subpartition SP4 1 rows exported Export terminated successfully without warnings.
This section describes the different types of messages issued by Export and how to save them in a log file.
You can capture all Export messages in a log file, either by using the LOG parameter or, for those systems that permit it, by redirecting the output to a file. A log of detailed information is written about successful unloads and any errors that may have occurred.
Export does not terminate after recoverable errors. For example, if an error occurs while exporting a table, then Export displays (or logs) an error message, skips to the next table, and continues processing. These recoverable errors are known as warnings.
Export also issues warnings when invalid objects are encountered.
For example, if a nonexistent table is specified as part of a table-mode Export, then the Export utility exports all other tables. Then it issues a warning and terminates successfully.
Some errors are nonrecoverable and terminate the Export session. These errors typically occur because of an internal problem or because a resource, such as memory, is not available or has been exhausted. For example, if the catexp.sql script is not executed, then Export issues the following nonrecoverable error message:
EXP-00024: Export views not installed, please notify your DBA
When an export completes without errors, a message to that effect is displayed, for example:
Export terminated successfully without warnings
If one or more recoverable errors occurs but the job continues to completion, then a message similar to the following is displayed:
Export terminated successfully with warnings
If a nonrecoverable error occurs, then the job terminates immediately and displays a message stating so, for example:
Export terminated unsuccessfully
Export provides the results of an operation immediately upon completion. Depending on the platform, the outcome may be reported in a process exit code and the results recorded in the log file. This enables you to check the outcome from the command line or script. Table 21-4 shows the exit codes that get returned for various results.
Table 21-4 Exit Codes for Export
| Result | Exit Code |
|---|---|
|
Export terminated successfully without warnings Import terminated successfully without warnings |
|
|
Export terminated successfully with warnings Import terminated successfully with warnings |
|
|
Export terminated unsuccessfully Import terminated unsuccessfully |
|
For UNIX, the exit codes are as follows:
EX_SUCC 0 EX_OKWARN 0 EX_FAIL 1
Export provides two methods for exporting table data:
Conventional path Export uses the SQL SELECT statement to extract data from tables. Data is read from disk into a buffer cache, and rows are transferred to the evaluating buffer. The data, after passing expression evaluation, is transferred to the Export client, which then writes the data into the export file.
Direct path Export is much faster than conventional path Export because data is read from disk into the buffer cache and rows are transferred directly to the Export client. The evaluating buffer (that is, the SQL command-processing layer) is bypassed. The data is already in the format that Export expects, thus avoiding unnecessary data conversion. The data is transferred to the Export client, which then writes the data into the export file.
To use direct path Export, specify the DIRECT=y parameter on the command line or in the parameter file. The default is DIRECT=n, which extracts the table data using the conventional path. The rest of this section discusses the following topics:
Oracle Virtual Private Database (VPD) and Oracle Label Security are not enforced during direct path Exports.
The following users are exempt from Virtual Private Database and Oracle Label Security enforcement regardless of the export mode, application, or utility used to extract data from the database:
The database user SYS
Database users granted the EXEMPT ACCESS POLICY privilege, either directly or through a database role
This means that any user who is granted the EXEMPT ACCESS POLICY privilege is completely exempt from enforcement of VPD and Oracle Label Security. This is a powerful privilege and should be carefully managed. This privilege does not affect the enforcement of traditional object privileges such as SELECT, INSERT, UPDATE, and DELETE. These privileges are enforced even if a user has been granted the EXEMPT ACCESS POLICY privilege.
You may be able to improve performance by increasing the value of the RECORDLENGTH parameter when you invoke a direct path Export. Your exact performance gain depends upon the following factors:
DB_BLOCK_SIZE
The types of columns in your table
Your I/O layout (The drive receiving the export file should be separate from the disk drive where the database files reside.)
The following values are generally recommended for RECORDLENGTH:
Multiples of the file system I/O block size
Multiples of DB_BLOCK_SIZE
An export file that is created using direct path Export will take the same amount of time to import as an export file created using conventional path Export.
Keep the following restrictions in mind when you are using direct path mode:
To invoke a direct path Export, you must use either the command-line method or a parameter file. You cannot invoke a direct path Export using the interactive method.
The Export parameter BUFFER applies only to conventional path Exports. For direct path Export, use the RECORDLENGTH parameter to specify the size of the buffer that Export uses for writing to the export file.
You cannot use direct path when exporting in tablespace mode (TRANSPORT_TABLESPACES=Y).
The QUERY parameter cannot be specified in a direct path Export.
A direct path Export can only export data when the NLS_LANG environment variable of the session invoking the export equals the database character set. If NLS_LANG is not set or if it is different than the database character set, then a warning is displayed and the export is discontinued. The default value for the NLS_LANG environment variable is AMERICAN_AMERICA.US7ASCII.
This section describes factors to consider when using Export across a network.
Because the export file is in binary format, use a protocol that supports binary transfers to prevent corruption of the file when you transfer it across a network. For example, use FTP or a similar file transfer protocol to transmit the file in binary mode. Transmitting export files in character mode causes errors when the file is imported.
With Oracle Net, you can perform exports over a network. For example, if you run Export locally, then you can write data from a remote Oracle database into a local export file.
To use Export with Oracle Net, include the connection qualifier string @connect_string when entering the username and password in the exp command. For the exact syntax of this clause, see the user's guide for your Oracle Net protocol.
The following sections describe the globalization support behavior of Export with respect to character set conversion of user data and data definition language (DDL).
The Export utility always exports user data, including Unicode data, in the character sets of the Export server. (Character sets are specified at database creation.) If the character sets of the source database are different than the character sets of the import database, then a single conversion is performed to automatically convert the data to the character sets of the Import server.
If the export character set has a different sorting order than the import character set, then tables that are partitioned on character columns may yield unpredictable results. For example, consider the following table definition, which is produced on a database having an ASCII character set:
CREATE TABLE partlist
(
part VARCHAR2(10),
partno NUMBER(2)
)
PARTITION BY RANGE (part)
(
PARTITION part_low VALUES LESS THAN ('Z')
TABLESPACE tbs_1,
PARTITION part_mid VALUES LESS THAN ('z')
TABLESPACE tbs_2,
PARTITION part_high VALUES LESS THAN (MAXVALUE)
TABLESPACE tbs_3
);
This partitioning scheme makes sense because z comes after Z in ASCII character sets.
When this table is imported into a database based upon an EBCDIC character set, all of the rows in the part_mid partition will migrate to the part_low partition because z comes before Z in EBCDIC character sets. To obtain the desired results, the owner of partlist must repartition the table following the import.
Up to three character set conversions may be required for data definition language (DDL) during an export/import operation:
Export writes export files using the character set specified in the NLS_LANG environment variable for the user session. A character set conversion is performed if the value of NLS_LANG differs from the database character set.
If the export file's character set is different than the import user session character set, then Import converts the character set to its user session character set. Import can only perform this conversion for single-byte character sets. This means that for multibyte character sets, the import file's character set must be identical to the export file's character set.
A final character set conversion may be performed if the target database's character set is different from the character set used by the import user session.
To minimize data loss due to character set conversions, ensure that the export database, the export user session, the import user session, and the import database all use the same character set.
Some 8-bit characters can be lost (that is, converted to 7-bit equivalents) when you import an 8-bit character set export file. This occurs if the system on which the import occurs has a native 7-bit character set, or the NLS_LANG operating system environment variable is set to a 7-bit character set. Most often, this is apparent when accented characters lose the accent mark.
To avoid this unwanted conversion, you can set the NLS_LANG operating system environment variable to be that of the export file character set.
During character set conversion, any characters in the export file that have no equivalent in the target character set are replaced with a default character. (The default character is defined by the target character set.) To guarantee 100% conversion, the target character set must be a superset (or equivalent) of the source character set.
Caution:
When the character set width differs between the Export server and the Import server, truncation of data can occur if conversion causes expansion of data. If truncation occurs, then Import displays a warning message.You can use instance affinity to associate jobs with instances in databases you plan to export and import. Be aware that there may be some compatibility issues if you are using a combination of releases.
The following sections describe points you should consider when you export particular database objects.
If transactions continue to access sequence numbers during an export, then sequence numbers might be skipped. The best way to ensure that sequence numbers are not skipped is to ensure that the sequences are not accessed during the export.
Sequence numbers can be skipped only when cached sequence numbers are in use. When a cache of sequence numbers has been allocated, they are available for use in the current database. The exported value is the next sequence number (after the cached values). Sequence numbers that are cached, but unused, are lost when the sequence is imported.
On export, LONG datatypes are fetched in sections. However, enough memory must be available to hold all of the contents of each row, including the LONG data.
LONG columns can be up to 2 gigabytes in length.
All data in a LOB column does not need to be held in memory at the same time. LOB data is loaded and unloaded in sections.
Note:
Oracle also recommends that you convert existingLONG columns to LOB columns. LOB columns are subject to far fewer restrictions than LONG columns. Further, LOB functionality is enhanced in every release, whereas LONG functionality has been static for several releases.The contents of foreign function libraries are not included in the export file. Instead, only the library specification (name, location) is included in full database mode and user-mode export. You must move the library's executable files and update the library specification if the database is moved to a new location.
If the data you are exporting contains offline locally managed tablespaces, then Export will not be able to export the complete tablespace definition and will display an error message. You can still import the data; however, you must create the offline locally managed tablespaces before importing to prevent DDL commands that may reference the missing tablespaces from failing.
Directory alias definitions are included only in a full database mode export. To move a database to a new location, the database administrator must update the directory aliases to point to the new location.
Directory aliases are not included in user-mode or table-mode export. Therefore, you must ensure that the directory alias has been created on the target system before the directory alias is used.
The export file does not hold the contents of external files referenced by BFILE columns or attributes. Instead, only the names and directory aliases for files are copied on Export and restored on Import. If you move the database to a location where the old directories cannot be used to access the included files, then the database administrator (DBA) must move the directories containing the specified files to a new location where they can be accessed.
The contents of external tables are not included in the export file. Instead, only the table specification (name, location) is included in full database mode and user-mode export. You must manually move the external data and update the table specification if the database is moved to a new location.
In all Export modes, the Export utility includes information about object type definitions used by the tables being exported. The information, including object name, object identifier, and object geometry, is needed to verify that the object type on the target system is consistent with the object instances contained in the export file. This ensures that the object types needed by a table are created with the same object identifier at import time.
Note, however, that in table mode, user mode, and tablespace mode, the export file does not include a full object type definition needed by a table if the user running Export does not have execute access to the object type. In this case, only enough information is written to verify that the type exists, with the same object identifier and the same geometry, on the Import target system.
The user must ensure that the proper type definitions exist on the target system, either by working with the DBA to create them, or by importing them from full database mode or user-mode exports performed by the DBA.
It is important to perform a full database mode export regularly to preserve all object type definitions. Alternatively, if object type definitions from different schemas are used, then the DBA should perform a user mode export of the appropriate set of users. For example, if table1 belonging to user scott contains a column on blake's type type1, then the DBA should perform a user mode export of both blake and scott to preserve the type definitions needed by the table.
Inner nested table data is exported whenever the outer containing table is exported. Although inner nested tables can be named, they cannot be exported individually.
Queues are implemented on tables. The export and import of queues constitutes the export and import of the underlying queue tables and related dictionary tables. You can export and import queues only at queue table granularity.
When you export a queue table, both the table definition information and queue data are exported. Because the queue table data and the table definition is exported, the user is responsible for maintaining application-level data integrity when queue table data is imported.
You should be cautious when exporting compiled objects that reference a name used as a synonym and as another object. Exporting and importing these objects will force a recompilation that could result in changes to the object definitions.
The following example helps to illustrate this problem:
CREATE PUBLIC SYNONYM emp FOR scott.emp; CONNECT blake/paper; CREATE TRIGGER t_emp BEFORE INSERT ON emp BEGIN NULL; END; CREATE VIEW emp AS SELECT * FROM dual;
If the database in the preceding example were exported, then the reference to emp in the trigger would refer to blake's view rather than to scott's table. This would cause an error when Import tried to reestablish the t_emp trigger.
If an export operation attempts to export a synonym named DBMS_JAVA when there is no corresponding DBMS_JAVA package or when Java is either not loaded or loaded incorrectly, then the export will terminate unsuccessfully. The error messages that are generated include, but are not limited to, the following: EXP-00008, ORA-00904, and ORA-29516.
If Java is enabled, then ensure that both the DBMS_JAVA synonym and DBMS_JAVA package are created and valid before rerunning the export.
If Java is not enabled, then remove Java-related objects before rerunning the export.
You can export tables with fine-grained access control policies enabled. When doing so, consider the following:
The user who imports from an export file containing such tables must have the appropriate privileges (specifically, the EXECUTE privilege on the DBMS_RLS package so that the tables' security policies can be reinstated). If a user without the correct privileges attempts to export a table with fine-grained access policies enabled, then only those rows that the exporter is privileged to read will be exported.
If fine-grained access control is enabled on a SELECT statement, then conventional path Export may not export the entire table because fine-grained access may rewrite the query.
Only user SYS, or a user with the EXP_FULL_DATABASE role enabled or who has been granted EXEMPT ACCESS POLICY, can perform direct path Exports on tables having fine-grained access control.
The transportable tablespace feature enables you to move a set of tablespaces from one Oracle database to another.
Note:
You cannot export transportable tablespaces and then import them into a database at a lower release level. The target database must be at the same or higher release level as the source database.To move or copy a set of tablespaces, you must make the tablespaces read-only, copy the data files of these tablespaces, and use Export and Import to move the database information (metadata) stored in the data dictionary. Both the data files and the metadata export file must be copied to the target database. The transport of these files can be done using any facility for copying flat binary files, such as the operating system copying facility, binary-mode FTP, or publishing on CD-ROMs.
After copying the data files and exporting the metadata, you can optionally put the tablespaces in read/write mode.
Export and Import provide the following parameters to enable movement of transportable tablespace metadata.
TABLESPACES
TRANSPORT_TABLESPACE
See "TABLESPACES" and "TRANSPORT_TABLESPACE" for more information about using these parameters during an export operation.
See Also:
Oracle Database Administrator's Guide for details about managing transportable tablespaces
Oracle Database Concepts for an introduction to transportable tablespaces
To extract metadata from a source database, Export uses queries that contain ordering clauses (sort operations). For these queries to succeed, the user performing the export must be able to allocate sort segments. For these sort segments to be allocated in a read-only database, the user's temporary tablespace should be set to point at a temporary, locally managed tablespace.
When you use the Export and Import utilities to migrate a large database, it may be more efficient to partition the migration into multiple export and import jobs. If you decide to partition the migration, then be aware of the following advantages and disadvantages.
Partitioning a migration has the following advantages:
Time required for the migration may be reduced, because many of the subjobs can be run in parallel.
The import can start as soon as the first export subjob completes, rather than waiting for the entire export to complete.
Partitioning a migration has the following disadvantages:
The export and import processes become more complex.
Support of cross-schema references for certain types of objects may be compromised. For example, if a schema contains a table with a foreign key constraint against a table in a different schema, then you may not have the required parent records when you import the table into the dependent schema.
To perform a database migration in a partitioned manner, take the following steps:
For all top-level metadata in the database, issue the following commands:
exp FILE=full FULL=y CONSTRAINTS=n TRIGGERS=n ROWS=n INDEXES=n
imp FILE=full FULL=y
For each scheman in the database, issue the following commands:
exp OWNER=scheman FILE=scheman
imp FILE=scheman FROMUSER=scheman TOUSER=scheman IGNORE=y
All exports can be done in parallel. When the import of full.dmp completes, all remaining imports can also be done in parallel.
This section describes compatibility issues that relate to using different releases of Export and the Oracle database.
Whenever you are moving data between different releases of the Oracle database, the following basic rules apply:
The Import utility and the database to which data is being imported (the target database) must be the same release. For example, if you try to use the Import utility 9.2.0.7 to import into a 9.2.0.8 database, then you may encounter errors.
The version of the Export utility must be equal to the release of either the source or target database, whichever is earlier.
For example, to create an export file for an import into a later release database, use a version of the Export utility that equals the source database. Conversely, to create an export file for an import into an earlier release database, use a version of the Export utility that equals the release of the target database.
In general, you can use the Export utility from any Oracle8 release to export from an Oracle9i server and create an Oracle8 export file.
The following restrictions apply when you are using different releases of Export and Import:
Export dump files can be read only by the Import utility because they are stored in a special binary format.
Any export dump file can be imported into a later release of the Oracle database.
The Import utility cannot read export dump files created by the Export utility of a later maintenance release. For example, a release 9.2 export dump file cannot be imported by a release 9.0.1 Import utility.
Whenever a lower version of the Export utility runs with a later release of the Oracle database, categories of database objects that did not exist in the earlier release are excluded from the export.
Export files generated by Oracle9i Export, either direct path or conventional path, are incompatible with earlier releases of Import and can be imported only with Oracle9i Import. When backward compatibility is an issue, use the earlier release or version of the Export utility against the Oracle9i database.
Table 21-5 shows some examples of which Export and Import releases to use when moving data between different releases of the Oracle database.
Table 21-5 Using Different Releases of Export and Import
| Export from->Import to | Use Export Release | Use Import Release |
|---|---|---|
|
8.1.6 -> 8.1.6 |
8.1.6 |
8.1.6 |
|
8.1.5 -> 8.0.6 |
8.0.6 |
8.0.6 |
|
8.1.7 -> 8.1.6 |
8.1.6 |
8.1.6 |
|
9.0.1 -> 8.1.6 |
8.1.6 |
8.1.6 |
|
9.0.1 -> 9.0.2 |
9.0.1 |
9.0.2 |
|
9.0.2 -> 10.1.0 |
9.0.2 |
10.1.0 |
|
10.1.0 -> 9.0.2 |
9.0.2 |
9.0.2 |
Table 21-5 covers moving data only between the original Export and Import utilities. For Oracle Database 10g release 1 (10.1) or higher, Oracle recommends the Data Pump Export and Import utilities in most cases because these utilities provide greatly enhanced performance compared to the original Export and Import utilities.
See Also:
Oracle Database Upgrade Guide for more information about exporting and importing data between different releases, including releases higher than 10.1
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