1 Overview of Oracle Data Pump

The fastest method of moving data is to copy the database data files to the target database without interpreting or altering the data. With this method, Data Pump Export is used to unload only structural information (metadata) into the dump file. This method is used in the following situations:

• The TRANSPORT_TABLESPACES parameter is used to specify a transportable tablespace export. Only metadata for the specified tablespaces is exported.

• The TRANSPORTABLE=ALWAYS parameter is supplied on a table mode export (specified with the TABLES parameter) or a full mode export (specified with the FULL parameter) or a full mode network import (specified with the FULL and NETWORK_LINK parameters).

When an export operation uses data file copying, the corresponding import job always also uses data file copying. During the ensuing import operation, both the data files and the export dump file must be loaded.

When data is moved by using data file copying, there are some limitations regarding character set compatibility between the source and target databases. See Oracle Database Administrator's Guide for details.

If the source platform and the target platform are of different endianness, then you must convert the data being transported so that it is in the format of the target platform. You can use the DBMS_FILE_TRANSFER PL/SQL package or the RMAN CONVERT command to convert the data.

After data file copying, direct path is the fastest method of moving data. In this method, the SQL layer of the database is bypassed and rows are moved to and from the dump file with only minimal interpretation. Data Pump automatically uses the direct path method for loading and unloading data unless the structure of a table does not allow it. For example, if a table contains a column of type BFILE, then direct path cannot be used to load that table and external tables is used instead.

The following sections describe situations in which direct path cannot be used for loading and unloading:

• Situations in Which Direct Path Load Is Not Used

• Situations in Which Direct Path Unload Is Not Used

When data file copying is not selected and the data cannot be moved using direct path, the external tables mechanism is used. The external tables mechanism creates an external table that maps to the dump file data for the database table. The SQL engine is then used to move the data. If possible, the APPEND hint is used on import to speed the copying of the data into the database. The representation of data for direct path data and external table data is the same in a dump file. Therefore, Data Pump might use the direct path mechanism at export time, but use external tables when the data is imported into the target database. Similarly, Data Pump might use external tables for the export, but use direct path for the import.

In particular, Data Pump uses external tables in the following situations:

• Loading and unloading very large tables and partitions in situations where it is advantageous to use parallel SQL capabilities

• Loading tables with global or domain indexes defined on them, including partitioned object tables

• Loading tables with active triggers or clustered tables

• Loading and unloading tables with encrypted columns

• Loading tables with fine-grained access control enabled for inserts

• Loading a table not created by the import operation (the table exists before the import starts)

In situations where there are conflicting table attributes, Data Pump is not able to load data into a table using either direct path or external tables. In such cases, conventional path is used, which can affect performance.

When the Import NETWORK_LINK parameter is used to specify a network link for an import operation, the direct path method is used by default. If direct path cannot be used (for example, because one of the columns is a BFILE), then SQL is used to move the data using an INSERT SELECT statement. (Prior to Oracle Database 12c Release 2 (12.2.0.1), the default was to use the INSERT SELECT statement.) The SELECT clause retrieves the data from the remote database over the network link. The INSERT clause uses SQL to insert the data into the target database. There are no dump files involved.

When the Export NETWORK_LINK parameter is used to specify a network link for an export operation, the data from the remote database is written to dump files on the target database. (Note that to export from a read-only database, the NETWORK_LINK parameter is required.)

Because the link can identify a remotely networked database, the terms database link and network link are used interchangeably.

After you create an empty PDB in the CDB, you can use an Oracle Data Pump full-mode export and import operation to move data into the PDB. The job can be performed with or without the transportable option. If you use the transportable option on a full mode export or import, it is referred to as a full transportable export/import.

When the transportable option is used, export and import use both transportable tablespace data movement and conventional data movement; the latter for those tables that reside in non-transportable tablespaces such as SYSTEM and SYSAUX. Using the transportable option can reduce the export time and especially, the import time, because table data does not need to be unloaded and reloaded and index structures in user tablespaces do not need to be re-created.

To specify a particular PDB for the export/import operation, on the Data Pump command line supply a connect identifier in the connect string when you start Data Pump. For example, to import data to a PDB named pdb1, you could enter the following on the Data Pump command line:

impdp hr@pdb1 DIRECTORY=dpump_dir1 DUMPFILE=hr.dmp TABLES=employees

Be aware of the following requirements when using Data Pump to move data into a CDB:

• To administer a multitenant environment, you must have the CDB_DBA role.

• Full database exports from Oracle Database 11.2.0.2 and earlier may be imported into Oracle Database 12c (CDB or non-CDB). However, Oracle recommends the source database first be upgraded to Oracle Database 11g release 2 (11.2.0.3 or later) so that information about registered options and components is included in the export.

• When migrating Oracle Database 11g release 2 (11.2.0.3 or later) to a CDB (or to a non-CDB) using either full database export or full transportable database export, you must set the Data Pump Export parameter VERSION=12 in order to generate a dump file that is ready for import into Oracle Database 12c. If you do not set VERSION=12, then the export file that is generated will not contain complete information about registered database options and components.

• Network-based full transportable imports require use of the FULL=YES, TRANSPORTABLE=ALWAYS, and TRANSPORT_DATAFILES=datafile_name parameters. When the source database is Oracle Database 11g release 11.2.0.3 or later, but earlier than Oracle Database 12c Release 1 (12.1), the VERSION=12 parameter is also required.

• File-based full transportable imports only require use of the TRANSPORT_DATAFILES=datafile_name parameter. Data Pump Import infers the presence of the TRANSPORTABLE=ALWAYS and FULL=YES parameters.

• As of Oracle Database 12c release 2 (12.2), in a multitenant container database (CDB) environment, the default Data Pump directory object, DATA_PUMP_DIR, is defined as a unique path for each PDB in the CDB, whether or not the PATH_PREFIX clause of the CREATE PLUGGABLE DATABASE statement is defined for relative paths.

For every Data Pump Export job and Data Pump Import job, a master process is created. The master process controls the entire job, including communicating with the clients, creating and controlling a pool of worker processes, and performing logging operations.

While the data and metadata are being transferred, a master table is used to track the progress within a job. The master table is implemented as a user table within the database. The specific function of the master table for export and import jobs is as follows:

• For export jobs, the master table records the location of database objects within a dump file set. Export builds and maintains the master table for the duration of the job. At the end of an export job, the content of the master table is written to a file in the dump file set.

• For import jobs, the master table is loaded from the dump file set and is used to control the sequence of operations for locating objects that need to be imported into the target database.

The master table is created in the schema of the current user performing the export or import operation. Therefore, that user must have the CREATE TABLE system privilege and a sufficient tablespace quota for creation of the master table. The name of the master table is the same as the name of the job that created it. Therefore, you cannot explicitly give a Data Pump job the same name as a preexisting table or view.

For all operations, the information in the master table is used to restart a job. (Note that transportable jobs are not restartable.)

The master table is either retained or dropped, depending on the circumstances, as follows:

• Upon successful job completion, the master table is dropped. You can override this by setting the Data Pump KEEP_MASTER=YES parameter for the job.

• The master table is automatically retained for jobs that do not complete successfully.

• If a job is stopped using the STOP_JOB interactive command, then the master table is retained for use in restarting the job.

• If a job is killed using the KILL_JOB interactive command, then the master table is dropped and the job cannot be restarted.

• If a job terminates unexpectedly, then the master table is retained. You can delete it if you do not intend to restart the job.

• If a job stops before it starts running (that is, before any database objects have been copied), then the master table is dropped.

Within the master table, specific objects are assigned attributes such as name or owning schema. Objects also belong to a class of objects (such as TABLE, INDEX, or DIRECTORY). The class of an object is called its object type. You can use the EXCLUDE and INCLUDE parameters to restrict the types of objects that are exported and imported. The objects can be based upon the name of the object or the name of the schema that owns the object. You can also specify data-specific filters to restrict the rows that are exported and imported.

When you are moving data from one database to another, it is often useful to perform transformations on the metadata for remapping storage between tablespaces or redefining the owner of a particular set of objects. This is done using the following Data Pump Import parameters: REMAP_DATAFILE, REMAP_SCHEMA, REMAP_TABLE,REMAP_TABLESPACE, TRANSFORM, and PARTITION_OPTIONS.

Data Pump can employ multiple worker processes, running in parallel, to increase job performance. Use the PARALLEL parameter to set a degree of parallelism that takes maximum advantage of current conditions. For example, to limit the effect of a job on a production system, the database administrator (DBA) might want to restrict the parallelism. The degree of parallelism can be reset at any time during a job. For example, PARALLEL could be set to 2 during production hours to restrict a particular job to only two degrees of parallelism, and during nonproduction hours it could be reset to 8. The parallelism setting is enforced by the master process, which allocates work to be executed to worker processes that perform the data and metadata processing within an operation. These worker processes operate in parallel. For recommendations on setting the degree of parallelism, see the Export PARALLEL and Import PARALLEL parameter descriptions.

The worker processes unload and load metadata and table data. For export, all metadata and data are unloaded in parallel, with the exception of jobs that use transportable tablespace. For import, objects must be created in the correct dependency order. If there are enough objects of the same type to make use of multiple workers, then the objects will be imported by multiple worker processes. Some metadata objects have interdependencies which require one worker process to create them serially to satisfy those dependencies. Worker processes are created as needed until the number of worker processes equals the value supplied for the PARALLEL command-line parameter. The number of active worker processes can be reset throughout the life of a job. Worker processes can be started on different nodes in an Oracle Real Application Clusters (Oracle RAC) environment.

When a worker process is assigned the task of loading or unloading a very large table or partition, it may choose to use the external tables access method to make maximum use of parallel execution. In such a case, the worker process becomes a parallel execution coordinator. The actual loading and unloading work is divided among some number of parallel I/O execution processes (sometimes called slaves) allocated from a pool of available processes in an Oracle RAC environment.

Data Pump operations that transfer table data (export and import) maintain an entry in the V$SESSION_LONGOPS dynamic performance view indicating the job progress (in megabytes of table data transferred). The entry contains the estimated transfer size and is periodically updated to reflect the actual amount of data transferred.

Use of the COMPRESSION, ENCRYPTION, ENCRYPTION_ALGORITHM, ENCRYPTION_MODE, ENCRYPTION_PASSWORD, QUERY, and REMAP_DATA parameters are not reflected in the determination of estimate values.

The usefulness of the estimate value for export operations depends on the type of estimation requested when the operation was initiated, and it is updated as required if exceeded by the actual transfer amount. The estimate value for import operations is exact.

The V$SESSION_LONGOPS columns that are relevant to a Data Pump job are as follows:

• USERNAME - job owner

• OPNAME - job name

• TARGET_DESC - job operation

• SOFAR - megabytes transferred thus far during the job

• TOTALWORK - estimated number of megabytes in the job

• UNITS - megabytes (MB)

• MESSAGE - a formatted status message of the form:

  'job_name: operation_name : nnn out of mmm MB done'
  

For export operations, you can specify dump files at the time the job is defined, and also at a later time during the operation. For example, if you discover that space is running low during an export operation, then you can add additional dump files by using the Data Pump Export ADD_FILE command in interactive mode.

For import operations, all dump files must be specified at the time the job is defined.

Log files and SQL files overwrite previously existing files. For dump files, you can use the Export REUSE_DUMPFILES parameter to specify whether to overwrite a preexisting dump file.

Data Pump is server-based rather than client-based. Dump files, log files, and SQL files are accessed relative to server-based directory paths.

Data Pump requires that directory paths be specified as directory objects. A directory object maps a name to a directory path on the file system. DBAs must ensure that only approved users are allowed access to the directory object associated with the directory path.

The following example shows a SQL statement that creates a directory object named dpump_dir1 that is mapped to a directory located at /usr/apps/datafiles.

SQL> CREATE DIRECTORY dpump_dir1 AS '/usr/apps/datafiles';

The reason that a directory object is required is to ensure data security and integrity. For example:

• If you were allowed to specify a directory path location for an input file, then you might be able to read data that the server has access to, but to which you should not.

• If you were allowed to specify a directory path location for an output file, then the server might overwrite a file that you might not normally have privileges to delete.

On UNIX and Windows operating systems, a default directory object, DATA_PUMP_DIR, is created at database creation or whenever the database dictionary is upgraded. By default, it is available only to privileged users. (The user SYSTEM has read and write access to the DATA_PUMP_DIR directory, by default.) The definition of the DATA_PUMP_DIR directory may be changed by Oracle during upgrades or when patches are applied.

If you are not a privileged user, then before you can run Data Pump Export or Data Pump Import, a directory object must be created by a database administrator (DBA) or by any user with the CREATE ANY DIRECTORY privilege.

After a directory is created, the user creating the directory object must grant READ or WRITE permission on the directory to other users. For example, to allow the Oracle database to read and write files on behalf of user hr in the directory named by dpump_dir1, the DBA must execute the following command:

SQL> GRANT READ, WRITE ON DIRECTORY dpump_dir1 TO hr;

Note that READ or WRITE permission to a directory object only means that the Oracle database can read or write files in the corresponding directory on your behalf. You are not given direct access to those files outside of the Oracle database unless you have the appropriate operating system privileges. Similarly, the Oracle database requires permission from the operating system to read and write files in the directories.

Data Pump Export and Import use the following order of precedence to determine a file's location:

1. If a directory object is specified as part of the file specification, then the location specified by that directory object is used. (The directory object must be separated from the file name by a colon.)

2. If a directory object is not specified as part of the file specification, then the directory object named by the DIRECTORY parameter is used.

3. If a directory object is not specified as part of the file specification, and if no directory object is named by the DIRECTORY parameter, then the value of the environment variable, DATA_PUMP_DIR, is used. This environment variable is defined using operating system commands on the client system where the Data Pump Export and Import utilities are run. The value assigned to this client-based environment variable must be the name of a server-based directory object, which must first be created on the server system by a DBA. For example, the following SQL statement creates a directory object on the server system. The name of the directory object is DUMP_FILES1, and it is located at '/usr/apps/dumpfiles1'.

   SQL> CREATE DIRECTORY DUMP_FILES1 AS '/usr/apps/dumpfiles1';
   

   Then, a user on a UNIX-based client system using csh can assign the value DUMP_FILES1 to the environment variable DATA_PUMP_DIR. The DIRECTORY parameter can then be omitted from the command line. The dump file employees.dmp, and the log file export.log, are written to '/usr/apps/dumpfiles1'.

   %setenv DATA_PUMP_DIR DUMP_FILES1
   %expdp hr TABLES=employees DUMPFILE=employees.dmp
   

4. If none of the previous three conditions yields a directory object and you are a privileged user, then Data Pump attempts to use the value of the default server-based directory object, DATA_PUMP_DIR. This directory object is automatically created at database creation or when the database dictionary is upgraded. You can use the following SQL query to see the path definition for DATA_PUMP_DIR:

   SQL> SELECT directory_name, directory_path FROM dba_directories
   2 WHERE directory_name='DATA_PUMP_DIR';
   

   If you are not a privileged user, then access to the DATA_PUMP_DIR directory object must have previously been granted to you by a DBA.

   Do not confuse the default DATA_PUMP_DIR directory object with the client-based environment variable of the same name.

Instead of, or in addition to, listing specific file names, you can use the DUMPFILE parameter during export operations to specify multiple dump files, by using a substitution variable in the file name. This is called a dump file template. New dump files are created as they are needed. For example, if you are using the substitution variable %U, then new dump files are created as needed beginning with 01 for %U, then using 02, 03, and so on. Enough dump files are created to allow all processes specified by the current setting of the PARALLEL parameter to be active. If one of the dump files becomes full because its size has reached the maximum size specified by the FILESIZE parameter, then it is closed and a new dump file (with a new generated name) is created to take its place.

If multiple dump file templates are provided, they are used to generate dump files in a round-robin fashion. For example, if expa%U, expb%U, and expc%U were all specified for a job having a parallelism of 6, then the initial dump files created would be expa01.dmp, expb01.dmp, expc01.dmp, expa02.dmp, expb02.dmp, and expc02.dmp.

For import and SQLFILE operations, if dump file specifications expa%U, expb%U, and expc%U are specified, then the operation begins by attempting to open the dump files expa01.dmp, expb01.dmp, and expc01.dmp. It is possible for the master table to span multiple dump files, so until all pieces of the master table are found, dump files continue to be opened by incrementing the substitution variable and looking up the new file names (for example, expa02.dmp, expb02.dmp, and expc02.dmp). If a dump file does not exist, then the operation stops incrementing the substitution variable for the dump file specification that was in error. For example, if expb01.dmp and expb02.dmp are found but expb03.dmp is not found, then no more files are searched for using the expb%U specification. Once the entire master table is found, it is used to determine whether all dump files in the dump file set have been located.

If a table is moved using a transportable mode (transportable table, transportable tablespace, or full transportable), and the following conditions exist, then a warning is issued and the table is not created:

• The source and target databases have different database time zones

• The table contains TIMESTAMP WITH LOCAL TIME ZONE data types

To successfully move a table that was not created because of these conditions, use a non-transportable export and import mode.

The Export utility always exports user data, including Unicode data, in the character set of the export system. (Character sets are specified at database creation.) If the character set of the source database is different than the character set of the import database, then a single conversion is performed to automatically convert the data to the character set of the Import system.

The Export utility writes dump files using the database character set of the export system.

When the dump file is imported, a character set conversion is required for DDL only if the import system's database character set is different from the export system's database character set.

To minimize data loss due to character set conversions, ensure that the import database character set is a superset of the export database character set.

If the system on which the import occurs uses a 7-bit character set, and you import an 8-bit character set dump file, then some 8-bit characters may be converted to 7-bit equivalents. An indication that this has happened is when accented characters lose the accent mark.

To avoid this unwanted conversion, ensure that the export database and the import database use the same character set.

During character set conversion, any characters in the export file that have no equivalent in the import database character set are replaced with a default character. The import database character set defines the default character.

If the import system has to use replacement characters while converting DDL, then a warning message is displayed and the system attempts to load the converted DDL.

If the import system has to use replacement characters while converting user data, then the default behavior is to load the converted data. However, it is possible to instruct the import system to reject rows of user data that were converted using replacement characters. See the Import "DATA_OPTIONS" parameter for details.

To guarantee 100% conversion, the import database character set must be a superset (or equivalent) of the character set used to generate the export file.