Oracle® Streams Concepts and Administration 11g Release 2 (11.2) Part Number E10704-03 |
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Both capture processes and synchronous captures perform implicit capture. This chapter contains instructions for managing implicit capture.
The following topics describe managing Oracle Streams implicit capture:
Each task described in this chapter should be completed by an Oracle Streams administrator that has been granted the appropriate privileges, unless specified otherwise.
See Also:
Oracle Streams Replication Administrator's Guide for information about creating an Oracle Streams administrator
A capture process captures changes in a redo log, reformats each captured change into a logical change record (LCR), and enqueues the LCR into an ANYDATA
queue.
The following topics describe managing a capture process:
Managing the Checkpoint Retention Time for a Capture Process
Adding an Archived Redo Log File to a Capture Process Explicitly
See Also:
Oracle Streams Replication Administrator's Guide for information about configuring a capture process
Oracle Database 2 Day + Data Replication and Integration Guide and the Enterprise Manager online Help for instructions on managing a capture process with Enterprise Manager
You run the START_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package to start an existing capture process. For example, the following procedure starts a capture process named strm01_capture
:
BEGIN DBMS_CAPTURE_ADM.START_CAPTURE( capture_name => 'strm01_capture'); END; /
Note:
If a new capture process will use a new LogMiner data dictionary, then, when you first start the new capture process, some time might be required to populate the new LogMiner data dictionary. A new LogMiner data dictionary is created if a non-NULL
first SCN value was specified when the capture process was created.See Also:
Oracle Database 2 Day + Data Replication and Integration Guide for instructions about starting a capture process with Oracle Enterprise ManagerYou run the STOP_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package to stop an existing capture process. For example, the following procedure stops a capture process named strm01_capture
:
BEGIN DBMS_CAPTURE_ADM.STOP_CAPTURE( capture_name => 'strm01_capture'); END; /
See Also:
Oracle Database 2 Day + Data Replication and Integration Guide for instructions about stopping a capture process with Oracle Enterprise ManagerThis section contains instructions for completing the following tasks:
You can specify one positive rule set and one negative rule set for a capture process. The capture process captures a change if it evaluates to TRUE
for at least one rule in the positive rule set and evaluates to FALSE
for all the rules in the negative rule set. The negative rule set is evaluated before the positive rule set.
You specify an existing rule set as the positive rule set for an existing capture process using the rule_set_name
parameter in the ALTER_CAPTURE
procedure. This procedure is in the DBMS_CAPTURE_ADM
package.
For example, the following procedure sets the positive rule set for a capture process named strm01_capture
to strm02_rule_set
.
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', rule_set_name => 'strmadmin.strm02_rule_set'); END; /
You specify an existing rule set as the negative rule set for an existing capture process using the negative_rule_set_name
parameter in the ALTER_CAPTURE
procedure. This procedure is in the DBMS_CAPTURE_ADM
package.
For example, the following procedure sets the negative rule set for a capture process named strm01_capture
to strm03_rule_set
.
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', negative_rule_set_name => 'strmadmin.strm03_rule_set'); END; /
To add rules to a rule set for an existing capture process, you can run one of the following procedures in the DBMS_STREAMS_ADM
package and specify the existing capture process:
Excluding the ADD_SUBSET_RULES
procedure, these procedures can add rules to the positive rule set or negative rule set for a capture process. The ADD_SUBSET_RULES
procedure can add rules only to the positive rule set for a capture process.
See Also:
"System-Created Rules"The following example runs the ADD_TABLE_RULES
procedure in the DBMS_STREAMS_ADM
package to add rules to the positive rule set of a capture process named strm01_capture
:
BEGIN DBMS_STREAMS_ADM.ADD_TABLE_RULES( table_name => 'hr.departments', streams_type => 'capture', streams_name => 'strm01_capture', queue_name => 'strmadmin.streams_queue', include_dml => TRUE, include_ddl => TRUE, inclusion_rule => TRUE); END; /
Running this procedure performs the following actions:
Creates two rules. One rule evaluates to TRUE
for DML changes to the hr.departments
table, and the other rule evaluates to TRUE
for DDL changes to the hr.departments
table. The rule names are system generated.
Adds the two rules to the positive rule set associated with the capture process because the inclusion_rule
parameter is set to TRUE
.
Prepares the hr.departments
table for instantiation by running the PREPARE_TABLE_INSTANTIATION
procedure in the DBMS_CAPTURE_ADM
package.
Enables supplemental logging for any primary key, unique key, bitmap index, and foreign key columns in the hr.departments
table. When the PREPARE_TABLE_INSTANTIATION
procedure is run, the default value (keys
) is specified for the supplemental_logging
parameter.
If the capture process is performing downstream capture, then the table is prepared for instantiation and supplemental logging is enabled for key columns only if the downstream capture process uses a database link to the source database. If a downstream capture process does not use a database link to the source database, then the table must be prepared for instantiation manually and supplemental logging must be enabled manually.
The following example runs the ADD_TABLE_RULES
procedure in the DBMS_STREAMS_ADM
package to add rules to the negative rule set of a capture process named strm01_capture
:
BEGIN DBMS_STREAMS_ADM.ADD_TABLE_RULES( table_name => 'hr.job_history', streams_type => 'capture', streams_name => 'strm01_capture', queue_name => 'strmadmin.streams_queue', include_dml => TRUE, include_ddl => TRUE, inclusion_rule => FALSE); END; /
Running this procedure performs the following actions:
Creates two rules. One rule evaluates to TRUE
for DML changes to the hr.job_history
table, and the other rule evaluates to TRUE
for DDL changes to the hr.job_history
table. The rule names are system generated.
Adds the two rules to the negative rule set associated with the capture process, because the inclusion_rule
parameter is set to FALSE
.
You remove a rule from the rule set for a capture process if you no longer want the capture process to capture the changes specified in the rule. For example, assume that the departments3
rule specifies that DML changes to the hr.departments
table be captured. If you no longer want a capture process to capture changes to the hr.departments
table, then remove the departments3
rule from its rule set.
You specify that you want to remove a rule from a rule set for an existing capture process by running the REMOVE_RULE
procedure in the DBMS_STREAMS_ADM
package. For example, the following procedure removes a rule named departments3
from the positive rule set of a capture process named strm01_capture
.
BEGIN DBMS_STREAMS_ADM.REMOVE_RULE( rule_name => 'departments3', streams_type => 'capture', streams_name => 'strm01_capture', drop_unused_rule => TRUE, inclusion_rule => TRUE); END; /
In this example, the drop_unused_rule
parameter in the REMOVE_RULE
procedure is set to TRUE
, which is the default setting. Therefore, if the rule being removed is not in any other rule set, then it will be dropped from the database. If the drop_unused_rule
parameter is set to FALSE
, then the rule is removed from the rule set, but it is not dropped from the database.
If the inclusion_rule
parameter is set to FALSE
, then the REMOVE_RULE
procedure removes the rule from the negative rule set for the capture process, not the positive rule set.
If you want to remove all of the rules in a rule set for the capture process, then specify NULL
for the rule_name
parameter when you run the REMOVE_RULE
procedure.
You specify that you want to remove a rule set from an existing capture process using the ALTER_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package. This procedure can remove the positive rule set, negative rule set, or both. Specify TRUE
for the remove_rule_set
parameter to remove the positive rule set for the capture process. Specify TRUE
for the remove_negative_rule_set
parameter to remove the negative rule set for the capture process.
For example, the following procedure removes both the positive and negative rule set from a capture process named strm01_capture
.
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', remove_rule_set => TRUE, remove_negative_rule_set => TRUE); END; /
Note:
If a capture process does not have a positive or negative rule set, then the capture process captures all supported changes to all objects in the database, excluding database objects in theSYS
, SYSTEM
, and CTXSYS
schemas.Set a capture process parameter using the SET_PARAMETER
procedure in the DBMS_CAPTURE_ADM
package. Capture process parameters control the way a capture process operates.
For example, the following procedure sets the parallelism
parameter for a capture process named strm01_capture
to 4
.
BEGIN DBMS_CAPTURE_ADM.SET_PARAMETER( capture_name => 'strm01_capture', parameter => 'parallelism', value => '4'); END; /
Note:
Setting the parallelism
parameter automatically stops and restarts a capture process.
The value
parameter is always entered as a VARCHAR2
value, even if the parameter value is a number.
If the value
parameter is set to NULL
or is not specified, then the parameter is set to its default value.
See Also:
Oracle Database 2 Day + Data Replication and Integration Guide for instructions about setting capture process parameters with Oracle Enterprise Manager
The DBMS_CAPTURE_ADM.SET_PARAMETER
procedure in the Oracle Database PL/SQL Packages and Types Reference for detailed information about the capture process parameters
The capture user is the user who captures all DML changes and DDL changes that satisfy the capture process rule sets. Set the capture user for a capture process using the capture_user
parameter in the ALTER_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package.
To change the capture user, the user who invokes the ALTER_CAPTURE
procedure must be granted DBA
role. Only the SYS
user can set the capture_user
to SYS
.
For example, the following procedure sets the capture user for a capture process named strm01_capture
to hr
.
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', capture_user => 'hr'); END; /
Running this procedure grants the new capture user enqueue privilege on the queue used by the capture process and configures the user as a secure queue user of the queue. In addition, ensure that the capture user has the following privileges:
EXECUTE
privilege on the rule sets used by the capture process
EXECUTE
privilege on all custom rule-based transformation functions used in the rule set
These privileges can be granted to the capture user directly or through roles.
In addition, the capture user must be granted EXECUTE
privilege on all packages, including Oracle-supplied packages, that are invoked in rule-based transformations run by the capture process. These privileges must be granted directly to the capture user. They cannot be granted through roles.
Note:
If Oracle Database Vault is installed, then the user who changes the capture user must be granted theBECOME
USER
system privilege. Granting this privilege to the user is not required if Oracle Database Vault is not installed. You can revoke the BECOME
USER
system privilege from the user after capture user is changed, if necessary.The checkpoint retention time is the amount of time that a capture process retains checkpoints before purging them automatically.
Set the checkpoint retention time for a capture process using checkpoint_retention_time
parameter in the ALTER_CAPTURE
procedure of the DBMS_CAPTURE_ADM
package.
This section contains these topics:
Setting the Checkpoint Retention Time for a Capture Process to a New Value
Setting the Checkpoint Retention Time for a Capture Process to Infinite
See Also:
When you set the checkpoint retention time, you can specify partial days with decimal values. For example, run the following procedure to specify that a capture process named strm01_capture
should purge checkpoints automatically every ten days and twelve hours:
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', checkpoint_retention_time => 10.5); END; /
To specify that a capture process should not purge checkpoints automatically, set the checkpoint retention time to DBMS_CAPTURE_ADM.INFINITE
. For example, the following procedure sets the checkpoint retention time for a name strm01_capture
to infinite:
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', checkpoint_retention_time => DBMS_CAPTURE_ADM.INFINITE); END; /
You can add an archived redo log file to a capture process manually using the following statement:
ALTER DATABASE REGISTER LOGICAL LOGFILE file_name FOR capture_process;
Here, file_name
is the name of the archived redo log file being added, and capture_process
is the name of the capture process that will use the redo log file at the downstream database. The capture_process
is equivalent to the logminer_session_name
and must be specified. The redo log file must be present at the site running capture process.
For example, to add the /usr/log_files/1_3_486574859.dbf
archived redo log file to a capture process named strm03_capture
, issue the following statement:
ALTER DATABASE REGISTER LOGICAL LOGFILE '/usr/log_files/1_3_486574859.dbf' FOR 'strm03_capture';
See Also:
Oracle Database SQL Language Reference for more information about theALTER
DATABASE
statement and Oracle Data Guard Concepts and Administration for more information registering redo log filesYou can set the first SCN for an existing capture process.
The specified first SCN must meet the following requirements:
It must be greater than the current first SCN for the capture process.
It must be less than or equal to the current applied SCN for the capture process. However, this requirement does not apply if the current applied SCN for the capture process is zero.
It must be less than or equal to the required checkpoint SCN for the capture process.
You can determine the current first SCN, applied SCN, and required checkpoint SCN for each capture process in a database using the following query:
SELECT CAPTURE_NAME, FIRST_SCN, APPLIED_SCN, REQUIRED_CHECKPOINT_SCN FROM DBA_CAPTURE;
When you reset a first SCN for a capture process, information below the new first SCN setting is purged from the LogMiner data dictionary for the capture process automatically. Therefore, after the first SCN is reset for a capture process, the start SCN for the capture process cannot be set lower than the new first SCN. Also, redo log files that contain information prior to the new first SCN setting will never be needed by the capture process.
For example, the following procedure sets the first SCN for a capture process named strm01_capture
to 351232
using the ALTER_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package:
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', first_scn => 351232); END; /
Note:
If the specified first SCN is higher than the current start SCN for the capture process, then the start SCN is set automatically to the new value of the first SCN.
If you must capture changes in the redo log from a point in time in the past, then you can create a capture process and specify a first SCN that corresponds to a previous data dictionary build in the redo log. The BUILD
procedure in the DBMS_CAPTURE_ADM
package performs a data dictionary build in the redo log.
You can query the DBA_LOGMNR_PURGED_LOG
data dictionary view to determine which redo log files will never be needed by any capture process.
See Also:
"Displaying SCN Values for Each Redo Log File Used by Each Capture Process" for a query that determines which redo log files are no longer needed
You can set the start SCN for an existing capture process. Typically, you reset the start SCN for a capture process if point-in-time recovery must be performed on one of the destination databases that receive changes from the capture process.
The specified start SCN must be greater than or equal to the first SCN for the capture process. When you reset a start SCN for a capture process, ensure that the required redo log files are available to the capture process.
You can determine the first SCN for each capture process in a database using the following query:
SELECT CAPTURE_NAME, FIRST_SCN FROM DBA_CAPTURE;
For example, to set the start SCN for a capture process named strm01_capture
to 750338
, complete the following steps:
Stop the capture process. See "Stopping a Capture Process" for instructions.
Run the ALTER_CAPTURE
procedure to set the start SCN:
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm01_capture', start_scn => 750338); END; /
Start the capture process. See "Starting a Capture Process" for instructions.
See Also:
Oracle Streams Replication Administrator's Guide for information about performing database point-in-time recovery on a destination database in an Oracle Streams environment
You specify whether an existing downstream capture process uses a database link to the source database for administrative purposes using the ALTER_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package. Set the use_database_link
parameter to TRUE
to specify that the downstream capture process uses a database link, or you set the use_database_link
parameter to FALSE
to specify that the downstream capture process does not use a database link.
If you want a capture process that is not using a database link currently to begin using a database link, then specify TRUE
for the use_database_link
parameter. In this case, a database link with the same name as the global name as the source database must exist at the downstream database.
If you want a capture process that is using a database link currently to stop using a database link, then specify FALSE
for the use_database_link
parameter. In this case, some administration must be performed manually after you alter the capture process. For example, if you add new capture process rules using the DBMS_STREAMS_ADM
package, then you must prepare the objects relating to the rules for instantiation manually at the source database.
If you specify NULL
for the use_database_link
parameter, then the current value of this parameter for the capture process is not changed.
To create a database link to the source database dbs1.example.com
and specify that this capture process uses the database link, complete the following steps:
In SQL*Plus, connect to the downstream database as the Oracle Streams administrator.
See Oracle Database Administrator's Guide for information about connecting to a database in SQL*Plus.
Create the database link to the source database. Ensure that the database link connects to the Oracle Streams administrator at the source database. For example:
CREATE DATABASE LINK dbs1.example.com CONNECT TO strmadmin
IDENTIFIED BY password
USING 'dbs1.example.com';
Alter the capture process to use the database link. For example:
BEGIN DBMS_CAPTURE_ADM.ALTER_CAPTURE( capture_name => 'strm05_capture', use_database_link => TRUE); END; /
See Also:
"Local Capture and Downstream Capture"You run the DROP_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package to drop an existing capture process. For example, the following procedure drops a capture process named strm02_capture
:
BEGIN DBMS_CAPTURE_ADM.DROP_CAPTURE( capture_name => 'strm02_capture', drop_unused_rule_sets => TRUE); END; /
Because the drop_unused_rule_sets
parameter is set to TRUE
, this procedure also drops any rule sets used by the strm02_capture
capture process, unless a rule set is used by another Oracle Streams client. If the drop_unused_rule_sets
parameter is set to TRUE
, then both the positive rule set and negative rule set for the capture process might be dropped. If this procedure drops a rule set, then it also drops any rules in the rule set that are not in another rule set.
Note:
The status of a capture process must beDISABLED
or ABORTED
before it can be dropped. You cannot drop an ENABLED
capture process.A synchronous capture uses an internal mechanism to capture data manipulation language (DML) changes made to tables. A synchronous capture reformats each captured change into a logical change record (LCR), and enqueues the LCR into an ANYDATA
queue.
This section contains these topics:
See Also:
Oracle Streams Replication Administrator's Guide for information about configuring synchronous capture
Oracle Database 2 Day + Data Replication and Integration Guide for an example that configures a replication environment that uses synchronous capture
This section contains instructions for completing the following tasks:
You can specify one positive rule set for a synchronous capture. The synchronous capture captures a change if it evaluates to TRUE
for at least one rule in the positive rule set.
You specify an existing rule set as the positive rule set for an existing synchronous capture using the rule_set_name
parameter in the ALTER_SYNC_CAPTURE
procedure. This procedure is in the DBMS_CAPTURE_ADM
package.
For example, the following procedure sets the positive rule set for a synchronous capture named sync_capture
to sync_rule_set
.
BEGIN DBMS_CAPTURE_ADM.ALTER_SYNC_CAPTURE( capture_name => 'sync_capture', rule_set_name => 'strmadmin.sync_rule_set'); END; /
Note:
You cannot remove the rule set for a synchronous capture.To add rules to a rule set for an existing synchronous capture, you can run one of the following procedures in the DBMS_STREAMS_ADM
package and specify the existing synchronous capture:
See Also:
"System-Created Rules"The following example runs the ADD_TABLE_RULES
procedure in the DBMS_STREAMS_ADM
package to add rules to the positive rule set of a synchronous capture named sync_capture
:
BEGIN DBMS_STREAMS_ADM.ADD_TABLE_RULES( table_name => 'hr.departments', streams_type => 'sync_capture', streams_name => 'sync_capture', queue_name => 'strmadmin.streams_queue', include_dml => TRUE); END; /
Running this procedure performs the following actions:
Creates one rule which evaluates to TRUE
for DML changes to the hr.departments
table. The rule name is system generated.
Adds the rule to the positive rule set associated with the synchronous capture.
Prepares the hr.departments
table for instantiation by running the PREPARE_SYNC_INSTANTIATION
function in the DBMS_CAPTURE_ADM
package.
Note:
A synchronous capture captures changes to a table only if the ADD_TABLE_RULES
or ADD_SUBSET_RULES
procedure was used to add the rule or rules for the table to the synchronous capture rule set. Synchronous capture does not capture changes to a table if a table or subset rule is added to its rule set using the ADD_RULE
procedure in the DBMS_RULE_ADM
package. In addition, a synchronous capture ignores all non-table and non-subset rules in its rule set, including global and schema rules.
When the ADD_TABLE_RULES
or the ADD_SUBSET_RULES
procedure adds rules to a synchronous capture rule set, the procedure must obtain an exclusive lock on the specified table. If there are outstanding transactions on the specified table, then the procedure waits until it can obtain a lock.
You remove a rule from the rule set for a synchronous capture if you no longer want the synchronous capture to capture the changes specified in the rule. For example, assume that the departments3
rule specifies that DML changes to the hr.departments
table be captured. If you no longer want a synchronous capture to capture changes to the hr.departments
table, then remove the departments3
rule from its rule set.
You specify that you want to remove a rule from a rule set for an existing synchronous capture by running the REMOVE_RULE
procedure in the DBMS_STREAMS_ADM
package. For example, the following procedure removes a rule named departments3
from the positive rule set of a synchronous capture named sync_capture
.
BEGIN DBMS_STREAMS_ADM.REMOVE_RULE( rule_name => 'departments3', streams_type => 'sync_capture', streams_name => 'sync_capture', drop_unused_rule => TRUE); END; /
In this example, the drop_unused_rule
parameter in the REMOVE_RULE
procedure is set to TRUE
, which is the default setting. Therefore, if the rule being removed is not in any other rule set, then it will be dropped from the database. If the drop_unused_rule
parameter is set to FALSE
, then the rule is removed from the rule set, but it is not dropped from the database.
If you want to remove all of the rules in a rule set for the synchronous capture, then specify NULL
for the rule_name
parameter when you run the REMOVE_RULE
procedure.
The capture user is the user who captures all DML changes that satisfy the synchronous capture rule set. Set the capture user for a synchronous capture using the capture_user
parameter in the ALTER_SYNC_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package.
To change the capture user, the user who invokes the ALTER_SYNC_CAPTURE
procedure must be granted DBA
role. Only the SYS
user can set the capture_user
to SYS
.
For example, the following procedure sets the capture user for a synchronous capture named sync_capture
to hr
.
BEGIN DBMS_CAPTURE_ADM.ALTER_SYNC_CAPTURE( capture_name => 'sync_capture', capture_user => 'hr'); END; /
Running this procedure grants the new capture user enqueue privilege on the queue used by the synchronous capture and configures the user as a secure queue user of the queue. In addition, ensure that the capture user has the following privileges:
EXECUTE
privilege on the rule set used by the synchronous capture
EXECUTE
privilege on all custom rule-based transformation functions used in the rule set
These privileges can be granted to the capture user directly or through roles.
In addition, the capture user must be granted EXECUTE
privilege on all packages, including Oracle-supplied packages, that are invoked in rule-based transformations run by the synchronous capture. These privileges must be granted directly to the capture user. They cannot be granted through roles.
Note:
If Oracle Database Vault is installed, then the user who changes the capture user must be granted theBECOME
USER
system privilege. Granting this privilege to the user is not required if Oracle Database Vault is not installed. You can revoke the BECOME
USER
system privilege from the user after capture user is changed, if necessary.You run the DROP_CAPTURE
procedure in the DBMS_CAPTURE_ADM
package to drop an existing synchronous capture. For example, the following procedure drops a synchronous capture named sync_capture
:
BEGIN DBMS_CAPTURE_ADM.DROP_CAPTURE( capture_name => 'sync_capture', drop_unused_rule_sets => TRUE); END; /
Because the drop_unused_rule_sets
parameter is set to TRUE
, this procedure also drops any rule sets used by the sync_capture
synchronous capture, unless a rule set is used by another Oracle Streams client. If the drop_unused_rule_sets
parameter is set to TRUE
, then the rule set for the synchronous capture might be dropped. If this procedure drops a rule set, then it also drops any rules in the rule set that are not in another rule set.
You can use the INCLUDE_EXTRA_ATTRIBUTE
procedure in the DBMS_CAPTURE_ADM
package to instruct a capture process or a synchronous capture to capture one or more extra attributes. You can also use this procedure to instruct a capture process or synchronous capture to exclude an extra attribute that it is capturing currently.
The extra attributes are the following:
row_id
(row LCRs only)
serial#
session#
thread#
tx_name
username
This section contains instructions for completing the following tasks:
See Also:
Oracle Database PL/SQL Packages and Types Reference for more information about the INCLUDE_EXTRA_ATTRIBUTE
procedure
To include an extra attribute in the LCRs captured by a capture process or synchronous capture, run the INCLUDE_EXTRA_ATTRIBUTES
procedure, and set the include
parameter to TRUE
. For example, to instruct a capture process or synchronous capture named strm01_capture
to include the transaction name in each LCR that it captures, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.INCLUDE_EXTRA_ATTRIBUTE( capture_name => 'strm01_capture', attribute_name => 'tx_name', include => TRUE); END; /
To exclude an extra attribute from the LCRs captured by a capture process or synchronous capture, run the INCLUDE_EXTRA_ATTRIBUTES
procedure, and set the include
parameter to FALSE
. For example, to instruct a capture process or synchronous capture named strm01_capture
to exclude the transaction name from each LCR that it captures, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.INCLUDE_EXTRA_ATTRIBUTE( capture_name => 'strm01_capture', attribute_name => 'tx_name', include => FALSE); END; /
This section describes how to switch from a capture process to a synchronous capture. Typically, a synchronous capture is used to capture data manipulation language (DML) changes to a relatively small number of tables. You might decide to make this switch if you are currently capturing changes to a small number of tables with a capture process instead of a synchronous capture.
You should not switch from a capture process to a synchronous capture if any of the following conditions are true:
Instead of capturing the changes made to a small number of tables, the capture process is capturing changes made to an entire database, one or more schemas, or a large number of tables, and you want to continue to capture these changes.
The capture process is capturing data definition language (DDL) changes, and you want to continue to capture DDL changes. A synchronous capture cannot capture DDL changes.
The capture process uses a negative rule set, and you want to continue to use a negative rule set. A synchronous capture cannot use negative rule set.
The capture process is a downstream capture process. Downstream capture is not possible with a synchronous capture.
This section uses an example to describe how to switch from a capture process to a synchronous capture. Table 15-1 shows the Oracle Streams components in the sample environment before the switch and after the switch.
Table 15-1 Sample Switch From a Capture Process to a Synchronous Capture
Oracle Streams Component | Before Switch | After Switch |
---|---|---|
Capture Process |
|
None |
Capture Process Rule Set |
|
None |
Synchronous Capture |
None |
|
Synchronous Capture Rule Set |
None |
|
Propagation |
|
|
Propagation Rule Set |
|
|
Source Queue |
|
|
Destination Queue |
|
|
Apply Process |
|
|
Apply Process Rule Set |
|
|
In Table 15-1, notice that the Oracle Streams environment uses the same rule sets before the switch and after the switch. Also, for the example in this section, assume that the source database is db1.example.com
and the destination database is db2.example.com
.
Note:
The example in this section assumes that the Oracle Streams environment only involves two databases. If you are using a directed network to send changes through multiple databases, then you might need to configure additional propagations and queues for the new synchronous capture stream of changes, and you might need to drop additional propagations and queues that were used by the capture process stream.To switch from a capture process to a synchronous capture, complete the following steps:
In SQL*Plus, log in to the source database as the Oracle Streams administrator.
This example assumes that the Oracle Streams administrator is strmadmin
at each database. See Oracle Streams Replication Administrator's Guide for information about creating an Oracle Streams administrator.
Stop the capture process.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.STOP_CAPTURE( capture_name => 'cap_proc'); END; /
In SQL*Plus, log in to the destination database as the Oracle Streams administrator.
Create a commit-time queue for the apply process that will apply the changes that were captured by the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.SET_UP_QUEUE( queue_table => 'strmadmin.sync_cap_dest_qt', queue_name => 'strmadmin.sync_cap_dest'); END; /
Create an apply process that applies the changes in the queue created in Step 4. Ensure that the apply_captured
parameter is set to FALSE
. Also, ensure that the rule_set_name
parameter specifies the rule set used by the existing apply process.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.CREATE_APPLY( queue_name => 'strmadmin.sync_cap_dest', apply_name => 'apply_sync_cap', rule_set_name => 'strmadmin.apply_rules', apply_captured => FALSE); END; /
Ensure that the apply process is configured properly for your environment. Specifically, ensure that the new apply process is configured properly regarding the following items:
Apply user
Apply handlers
Apply tag
If appropriate, then ensure that the new apply process is configured in the same way as the existing apply process regarding these items.
See Oracle Streams Replication Administrator's Guide for information about creating an apply process.
In SQL*Plus, log in to the source database as the Oracle Streams administrator.
Create a commit-time queue for the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.SET_UP_QUEUE( queue_table => 'strmadmin.sync_cap_source_qt', queue_name => 'strmadmin.sync_cap_source'); END; /
See Oracle Streams Replication Administrator's Guide for information about configuring queues.
Create a propagation that sends changes from the queue created in Step 7 to the queue created in Step 4. Ensure that the rule_set_name
parameter specifies the rule set used by the existing propagation.
In this example, run the following procedure:
BEGIN DBMS_PROPAGATION_ADM.CREATE_PROPAGATION( propagation_name => 'sync_cap_prop', source_queue => 'strmadmin.sync_cap_source', destination_queue => 'strmadmin.sync_cap_dest', destination_dblink => 'db2.example.com', rule_set_name => 'strmadmin.prop_rules'); END; /
See Oracle Streams Replication Administrator's Guide for information about creating propagations.
Create a synchronous capture. Ensure that the queue_name
parameter specifies the queue created in Step 7. Also, ensure that the rule_set_name
parameter specifies the rule set used by the existing capture process.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.CREATE_SYNC_CAPTURE( queue_name => 'strmadmin.sync_cap_source', capture_name => 'sync_cap', rule_set_name => 'strmadmin.capture_rules'); END; /
The specified rule set must only contain rules that were created using the ADD_TABLE_RULES
and ADD_SUBSET_RULES
procedures in the DBMS_STREAMS_ADM
package. If the current capture process rule set contains other types of rules, then create a rule set for the synchronous capture and use the ADD_TABLE_RULES
and ADD_SUBSET_RULES
procedures to add rules to the new rule set.
In addition, a synchronous capture cannot have a negative rule set. If the current capture process has a negative rule set, and you want the synchronous capture to behave the same as the capture process, then add rules to the positive synchronous capture rule set that result in the same behavior.
If the existing capture process uses a capture user that is not the Oracle Streams administrator, then ensure that you use the capture_user
parameter in the CREATE_SYNC_CAPTURE
procedure to specify the correct capture user for the new synchronous capture.
See Oracle Streams Replication Administrator's Guide for information about configuring synchronous capture.
Verify that the tables that are configured for synchronous capture are the same as the ones configured for the existing capture process by running the following query:
SELECT * FROM DBA_SYNC_CAPTURE_TABLES ORDER BY TABLE_OWNER, TABLE_NAME;
If any table is missing or not enabled, then use the ADD_TABLE_RULES
or ADD_SUBSET_RULES
procedure to add the table.
Prepare the replicated tables for instantiation. The replicated tables are the tables for which the synchronous capture captures changes.
For example, if the synchronous capture captures changes to the hr.employees
and hr.departments
tables, then run the following function:
SET SERVEROUTPUT ON DECLARE tables DBMS_UTILITY.UNCL_ARRAY; prepare_scn NUMBER; BEGIN tables(1) := 'hr.departments'; tables(2) := 'hr.employees'; prepare_scn := DBMS_CAPTURE_ADM.PREPARE_SYNC_INSTANTIATION( table_names => tables); DBMS_OUTPUT.PUT_LINE('Prepare SCN = ' || prepare_scn); END; /
The returned prepare system change number (SCN) is used in Steps 13, 17, and 18. This example assumes that the prepare SCN is 2700000
.
All of the replicated tables must be included in one call to the PREPARE_SYNC_INSTANTIATION
function.
See Oracle Streams Replication Administrator's Guide for more information about preparing database objects for instantiation.
In SQL*Plus, log in to the destination database as the Oracle Streams administrator.
Set the apply process that applies changes from the capture process to stop applying changes when it reaches the SCN returned in Step 11 plus 1.
For example, if the prepare SCN is 2700000
, then run the following procedure to set the maximum_scn
parameter to 2700001
(2700000 + 1).:
BEGIN DBMS_APPLY_ADM.SET_PARAMETER( apply_name => 'apply_cap_proc', parameter => 'maximum_scn', value => '2700001'); END; /
In SQL*Plus, log in to the source database as the Oracle Streams administrator.
Start the capture process that you stopped in Step 2.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.START_CAPTURE( capture_name => 'cap_proc'); END; /
In SQL*Plus, log in to the destination database as the Oracle Streams administrator.
Wait until the apply process that applies changes that were captured by the capture process has reached the SCN specified in Step 13. When this event occurs, the apply process is automatically disabled with error ORA-26717 to indicate the SCN limit has reached.
To determine if the apply process has reached this point, query the DBA_APPLY
view. In this example, run the following query:
SELECT 1 FROM DBA_APPLY WHERE STATUS = 'DISABLED' AND ERROR_NUMBER = 26717 AND APPLY_NAME = 'APPLY_CAP_PROC';
Do not proceed to the next step until this query returns a row.
Set the instantiation SCN for the replicated tables to the SCN value the SCN returned in Step 11.
In this example, run the following procedures:
BEGIN DBMS_APPLY_ADM.SET_TABLE_INSTANTIATION_SCN( source_object_name => 'hr.employees', source_database_name => 'db1.example.com', instantiation_scn => 2700000); END; / BEGIN DBMS_APPLY_ADM.SET_TABLE_INSTANTIATION_SCN( source_object_name => 'hr.departments', source_database_name => 'db1.example.com', instantiation_scn => 2700000); END; /
See Oracle Streams Replication Administrator's Guide for more information about setting the instantiation SCN.
Start the apply process that you created in Step 5.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.START_APPLY( apply_name => 'apply_sync_cap'); END; /
Drop the apply process that applied changes that were captured by the capture process.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.DROP_APPLY( apply_name => 'apply_cap_proc'); END; /
If it is no longer needed, then drop the queue that was used by the apply process that you dropped in Step 20.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.REMOVE_QUEUE( queue_name => 'strmadmin.cap_proc_dest', drop_unused_queue_table => TRUE); END; /
In SQL*Plus, log in to the source database as the Oracle Streams administrator.
Stop the capture process.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.STOP_CAPTURE( capture_name => 'cap_proc'); END; /
Drop the capture process.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.DROP_CAPTURE( capture_name => 'cap_proc'); END; /
Drop the propagation that sent changes that were captured by the capture process.
In this example, run the following procedure:
BEGIN DBMS_PROPAGATION_ADM.DROP_PROPAGATION( propagation_name => 'cap_proc_prop'); END; /
If it is no longer needed, then drop the queue that was used by the capture process and propagation that you dropped in Steps 24 and 25.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.REMOVE_QUEUE( queue_name => 'strmadmin.cap_proc_source', drop_unused_queue_table => TRUE); END; /
If you have a bi-directional replication environment, then you can perform these steps independently to switch from a capture process to synchronous capture in both directions.
This section describes how to switch from a synchronous capture to a capture process. You might decide to make this switch for one or more of the following reasons:
You are currently capturing changes to a small number of tables but want to expand your environment to capture changes to a large number of tables, one or more schemas, or an entire database.
You want to use a negative rule set during change capture.
You want to capture data definition language (DDL) changes to database objects.
This section uses an example to describe how to switch from a synchronous capture to a capture process. Table 15-2 shows the Oracle Streams components in the sample environment before the switch and after the switch.
Table 15-2 Sample Switch From a Synchronous Capture to a Capture Process
Oracle Streams Component | Before Switch | After Switch |
---|---|---|
Synchronous Capture |
|
None |
Synchronous Capture Rule Set |
|
None |
Capture Process |
None |
|
Capture Process Rule Set |
None |
|
Propagation |
|
|
Propagation Rule Set |
|
|
Source Queue |
|
|
Destination Queue |
|
|
Apply Process |
|
|
Apply Process Rule Set |
|
|
In Table 15-2, notice that the Oracle Streams environment uses the same rule sets before the switch and after the switch. Also, for the example in this section, assume that the source database is db1.example.com
and the destination database is db2.example.com
.
Note:
The example in this section assumes that the Oracle Streams environment only involves two databases. If you are using a directed network to send changes through multiple databases, then you might need to configure additional propagations and queues for the new capture process stream of changes, and you might need to drop additional propagations and queues that were used by the synchronous capture stream.To switch from a synchronous capture to a capture process, complete the following steps:
Ensure that the source database is running in ARCHIVELOG
mode. See "ARCHIVELOG Mode and a Capture Process" and Oracle Database Administrator's Guide for more information.
In SQL*Plus, log in to the destination database as the Oracle Streams administrator.
This example assumes that the Oracle Streams administrator is strmadmin
at each database. See Oracle Streams Replication Administrator's Guide for information about creating an Oracle Streams administrator.
Create the queue for the apply process that will apply the changes that were captured by the capture process.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.SET_UP_QUEUE( queue_table => 'strmadmin.cap_proc_dest_qt', queue_name => 'strmadmin.cap_proc_dest'); END; /
See Oracle Streams Replication Administrator's Guide for information about configuring queues.
Create an apply process that applies the changes in the queue created in Step 3. Ensure that the apply_captured
parameter is set to TRUE
. Also, ensure that the rule_set_name
parameter specifies the rule set used by the existing apply process.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.CREATE_APPLY( queue_name => 'strmadmin.cap_proc_dest', apply_name => 'apply_cap_proc', rule_set_name => 'strmadmin.apply_rules', apply_captured => TRUE); END; /
Ensure that the apply process is configured properly for your environment. Specifically, ensure that the new apply process is configured properly regarding the following items:
Apply user
Apply handlers
Apply tag
If appropriate, then ensure that the new apply process is configured in the same way as the existing apply process regarding these items.
See Oracle Streams Replication Administrator's Guide for information about creating an apply process.
Stop the apply process that applies changes captured by the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.STOP_APPLY( apply_name => 'apply_sync_cap'); END; /
In SQL*Plus, log in to the source database as the Oracle Streams administrator.
Create the queue for the capture process.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.SET_UP_QUEUE( queue_table => 'strmadmin.cap_proc_source_qt', queue_name => 'strmadmin.cap_proc_source'); END; /
Create a propagation that sends changes from the queue created in Step 7 to the queue created in Step 3. Ensure that the rule_set_name
parameter specifies the rule set used by the existing propagation.
In this example, run the following procedure:
BEGIN DBMS_PROPAGATION_ADM.CREATE_PROPAGATION( propagation_name => 'cap_proc_prop', source_queue => 'strmadmin.cap_proc_source', destination_queue => 'strmadmin.cap_proc_dest', destination_dblink => 'db2.example.com', rule_set_name => 'strmadmin.prop_rules'); END; /
See Oracle Streams Replication Administrator's Guide for information about creating propagations.
Create a capture process. Ensure that the parameters are set properly in the CREATE_CAPTURE
procedure:
Set the queue_name
parameter to the queue created in Step 7.
Set the rule_set_name
parameter to the rule set used by the existing synchronous capture.
If the existing synchronous capture uses a capture user that is not the Oracle Streams administrator, then set the capture_user
parameter to the correct capture user for the new capture process.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.CREATE_CAPTURE( queue_name => 'strmadmin.cap_proc_source', capture_name => 'cap_proc', rule_set_name => 'strmadmin.cap_rules'); END; /
See Oracle Streams Replication Administrator's Guide for more information about configuring a capture process.
Prepare the replicated tables for instantiation. The replicated tables are the tables for which the capture process captures changes.
For example, if the capture process captures changes to the hr.employees
and hr.departments
tables, then run the following procedures:
BEGIN DBMS_CAPTURE_ADM.PREPARE_TABLE_INSTANTIATION( table_name => 'hr.employees', supplemental_logging => 'keys'); END; / BEGIN DBMS_CAPTURE_ADM.PREPARE_TABLE_INSTANTIATION( table_name => 'hr.departments', supplemental_logging => 'keys'); END; /
See Oracle Streams Replication Administrator's Guide for more information about preparing database objects for instantiation.
Lock all of the replicated tables in SHARE
MODE
.
In this example, run the following SQL statement:
LOCK TABLE hr.employees, hr.departments IN SHARE MODE;
Determine the current system change number (SCN) by running the following query:
SELECT CURRENT_SCN FROM V$DATABASE;
The returned switch SCN is used in Steps 15 and 18. This example assumes that the switch SCN is 2700000
.
Run a COMMIT
statement to release the lock on the replicated tables:
COMMIT;
In SQL*Plus, log in to the destination database as the Oracle Streams administrator.
Set the apply process that applies changes from the synchronous capture to stop applying changes when it reaches the SCN returned in Step 12 plus 1.
For example, if the switch SCN is 2700000
, then run the following procedure to set the maximum_scn
parameter to 2700001
(2700000 + 1):
BEGIN DBMS_APPLY_ADM.SET_PARAMETER( apply_name => 'apply_sync_cap', parameter => 'maximum_scn', value => '2700001'); END; /
Start the apply process that applies changes from the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.START_APPLY( apply_name => 'apply_sync_cap'); END; /
Wait until the apply process that applies changes that were captured by the synchronous capture has reached the SCN specified in Step 15. When this event occurs, the apply process is automatically disabled with error ORA-26717 to indicate the SCN limit has reached.
To determine if the apply process has reached this point, query the DBA_APPLY
view. In this example, run the following query:
SELECT 1 FROM DBA_APPLY WHERE STATUS = 'DISABLED' AND ERROR_NUMBER = 26717 AND APPLY_NAME = 'APPLY_SYNC_CAP';
Do not proceed to the next step until this query returns a row.
Set the instantiation SCN for the replicated tables to the SCN value returned in Step 12.
In this example, run the following procedures:
BEGIN DBMS_APPLY_ADM.SET_TABLE_INSTANTIATION_SCN( source_object_name => 'hr.employees', source_database_name => 'db1.example.com', instantiation_scn => 2700000); END; / BEGIN DBMS_APPLY_ADM.SET_TABLE_INSTANTIATION_SCN( source_object_name => 'hr.departments', source_database_name => 'db1.example.com', instantiation_scn => 2700000); END; /
See Oracle Streams Replication Administrator's Guide for more information about setting the instantiation SCN.
Start the apply process that you created in Step 4.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.START_APPLY( apply_name => 'apply_cap_proc'); END; /
Drop the apply process that applied changes that were captured by the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_APPLY_ADM.DROP_APPLY( apply_name => 'apply_sync_cap'); END; /
If it is no longer needed, then drop the queue that was used by the apply process that you dropped in Step 20.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.REMOVE_QUEUE( queue_name => 'strmadmin.sync_cap_dest', drop_unused_queue_table => TRUE); END; /
In SQL*Plus, log in to the source database as the Oracle Streams administrator.
Start the capture process that you created in Step 9.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.START_CAPTURE( capture_name => 'cap_proc'); END; /
Drop the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_CAPTURE_ADM.DROP_CAPTURE( capture_name => 'sync_cap'); END; /
Drop the propagation that sent changes that were captured by the synchronous capture.
In this example, run the following procedure:
BEGIN DBMS_PROPAGATION_ADM.DROP_PROPAGATION( propagation_name => 'sync_cap_prop'); END; /
If it is no longer needed, then drop the queue that was used by the synchronous capture and propagation that you dropped in Steps 24 and 25.
In this example, run the following procedure:
BEGIN DBMS_STREAMS_ADM.REMOVE_QUEUE( queue_name => 'strmadmin.sync_cap_source', drop_unused_queue_table => TRUE); END; /
If you have a bi-directional replication environment, then you can perform these steps independently to switch from a synchronous capture to a capture process in both directions.