Oracle® Streams Concepts and Administration 10g Release 2 (10.2) Part Number B14229-01 |
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This chapter illustrates an example of a single database that captures changes to a table, reenqueues the captured changes into a queue, and then uses a DML handler during apply to insert a subset of the changes into a different table.
This chapter contains these topics:
The example in this chapter illustrates using Streams to capture and apply data manipulation language (DML) changes at a single database named cpap.net
. Specifically, this example captures DML changes to the employees
table in the hr
schema, placing row logical change records (LCRs) into a queue named streams_queue
. Next, an apply process dequeues these row LCRs from the same queue, reenqueues them into this queue, and sends them to a DML handler.
When the row LCRs are captured, they reside in the buffered queue and cannot be dequeued explicitly. After the row LCRs are reenqueued during apply, they are available for explicit dequeue by an application. This example does not create the application that dequeues these row LCRs.
This example illustrates a DML handler that inserts records of deleted employees into an emp_del
table in the hr
schema. This example assumes that the emp_del
table is used to retain the records of all deleted employees. The DML handler is used to determine whether each row LCR contains a DELETE
statement. When the DML handler finds a row LCR containing a DELETE
statement, it converts the DELETE
into an INSERT
on the emp_del
table and then inserts the row.
Figure 27-1 provides an overview of the environment.
The following prerequisites must be completed before you begin the example in this chapter.
Set the following initialization parameters to the values indicated for all databases in the environment:
Set the COMPATIBLE
initialization parameter to 10.1.0
or higher.
STREAMS_POOL_SIZE
: Optionally set this parameter to an appropriate value for each database in the environment. This parameter specifies the size of the Streams pool. The Streams pool stores messages in a buffered queue and is used for internal communications during parallel capture and apply. When the SGA_TARGET
initialization parameter is set to a nonzero value, the Streams pool size is managed by Automatic Shared Memory Management.
See Also: "Setting Initialization Parameters Relevant to Streams" for information about other initialization parameters that are important in a Streams environment |
Set the database to run in ARCHIVELOG
mode. Any database producing changes that will be captured must run in ARCHIVELOG
mode.
See Also: Oracle Database Administrator's Guide for information about running a database inARCHIVELOG mode |
This example creates a new user to function as the Streams administrator (strmadmin
) and prompts you for the tablespace you want to use for this user's data. Before you start this example, either create a new tablespace or identify an existing tablespace for the Streams administrator to use. The Streams administrator should not use the SYSTEM
tablespace.
Complete the following steps to create the hr.emp_del
table, set up the Streams administrator, and create the queue.
Note: If you are viewing this document online, then you can copy the text from the "BEGINNING OF SCRIPT" line after this note to the next "END OF SCRIPT" line into a text editor and then edit the text to create a script for your environment. Run the script with SQL*Plus on a computer that can connect to the database. |
/************************* BEGINNING OF SCRIPT ******************************
Step 1 Show Output and Spool Results
Run SET
ECHO
ON
and specify the spool file for the script. Check the spool file for errors after you run this script.
*/ SET ECHO ON SPOOL streams_setup_capapp.out /*
Step 2 Create the hr.emp_del Table
Connect to cpap.net
as the hr
user.
*/ CONNECT hr/hr@cpap.net /*
Create the hr.emp_del
table. The columns in the emp_del
table is the same as the columns in the employees
table, except for one added timestamp
column that will record the date when a row is inserted into the emp_del
table.
*/ CREATE TABLE emp_del( employee_id NUMBER(6), first_name VARCHAR2(20), last_name VARCHAR2(25), email VARCHAR2(25), phone_number VARCHAR2(20), hire_date DATE, job_id VARCHAR2(10), salary NUMBER(8,2), commission_pct NUMBER(2,2), manager_id NUMBER(6), department_id NUMBER(4), timestamp DATE); CREATE UNIQUE INDEX emp_del_id_pk ON emp_del (employee_id); ALTER TABLE emp_del ADD (CONSTRAINT emp_del_id_pk PRIMARY KEY (employee_id)); /*
Step 3 Set Up Users at cpap.net
Connect to cpap.net
as SYSTEM
user.
*/ CONNECT SYSTEM/MANAGER@cpap.net /*
Create the Streams administrator named strmadmin
and grant this user the necessary privileges. These privileges enable the user to manage queues, execute subprograms in packages related to Streams, create rule sets, create rules, and monitor the Streams environment by querying data dictionary views and queue table. You can choose a different name for this user.
In this example, the Streams administrator will be the apply user for the apply process and must be able to apply changes to the hr.emp_del
table. Therefore, the Streams administrator is granted ALL
privileges on this table.
Note:
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*/ GRANT DBA TO strmadmin IDENTIFIED BY strmadminpw; ACCEPT streams_tbs PROMPT 'Enter Streams administrator tablespace on cpap.net: ' ALTER USER strmadmin DEFAULT TABLESPACE &streams_tbs QUOTA UNLIMITED ON &streams_tbs;
/*
This example executes a subprogram in a Streams packages within a stored procedure. Specifically, the emp_dq
procedure created in Step 8 runs the DEQUEUE
procedure in the DBMS_STREAMS_MESSAGING
package. Therefore, the Streams administrator must be granted EXECUTE
privilege explicitly on the package. In this case, EXECUTE
privilege cannot be granted through a role. The GRANT_ADMIN_PRIVILEGE
procedure grants EXECUTE
on all Streams packages, as well as other privileges relevant to Streams.
*/ BEGIN DBMS_STREAMS_AUTH.GRANT_ADMIN_PRIVILEGE( grantee => 'strmadmin', grant_privileges => true); END; /
/*
Grant the Streams administrator all privileges on the emp_del
table, because the Streams administrator will be the apply user and must be able to insert records into this table. Alternatively, you can alter the apply process to specify that hr
is the apply user.
*/ GRANT ALL ON hr.emp_del TO STRMADMIN; /*
Step 4 Create the ANYDATA Queue at cpap.net
Connect to cpap.net
as the strmadmin
user.
*/ CONNECT strmadmin/strmadminpw@cpap.net /*
Run the SET_UP_QUEUE
procedure to create a queue named streams_queue
at cpap.net
. This queue is an ANYDATA
queue that will stage the captured changes to be dequeued by an apply process and the user-enqueued changes to be dequeued by a dequeue procedure.
Running the SET_UP_QUEUE
procedure performs the following actions:
Creates a queue table named streams_queue_table
. This queue table is owned by the Streams administrator (strmadmin
) and uses the default storage of this user.
Creates a queue named streams_queue
owned by the Streams administrator (strmadmin
).
Starts the queue.
*/ BEGIN DBMS_STREAMS_ADM.SET_UP_QUEUE( queue_table => 'strmadmin.streams_queue_table', queue_name => 'strmadmin.streams_queue'); END; / /*
Step 5 Check the Spool Results
Check the streams_setup_capapp.out
spool file to ensure that all actions finished successfully after this script is completed.
*/ SET ECHO OFF SPOOL OFF /*************************** END OF SCRIPT ******************************/
Complete the following steps to capture changes to the hr.employees
table and apply these changes on single database in a customized way using a DML handler.
Note: If you are viewing this document online, then you can copy the text from the "BEGINNING OF SCRIPT" line after this note to the next "END OF SCRIPT" line into a text editor and then edit the text to create a script for your environment. Run the script with SQL*Plus on a computer that can connect the database. |
/************************* BEGINNING OF SCRIPT ******************************
Step 1 Show Output and Spool Results
Run SET
ECHO
ON
and specify the spool file for the script. Check the spool file for errors after you run this script.
*/ SET ECHO ON SPOOL streams_config_capapp.out /*
Step 2 Configure the Capture Process at cpap.net
Connect to cpap.net
as the strmadmin
user.
*/ CONNECT strmadmin/strmadminpw@cpap.net /*
Configure the capture process to capture DML changes to the hr.employees
table at cpap.net
. This step creates the capture process and adds a rule to its positive rule set that instructs the capture process to capture DML changes to this table. This step also prepares the hr.employees
table for instantiation and enables supplemental logging for any primary key, unique key, bitmap index, and foreign key columns in the table.
Supplemental logging places additional information in the redo log for changes made to tables. The apply process needs this extra information to perform some operations, such as unique row identification.
See Also: |
*/ BEGIN DBMS_STREAMS_ADM.ADD_TABLE_RULES( table_name => 'hr.employees', streams_type => 'capture', streams_name => 'capture_emp', queue_name => 'strmadmin.streams_queue', include_dml => true, include_ddl => false, inclusion_rule => true); END; / /*
Step 3 Set the Instantiation SCN for the hr.employees Table
Because this example captures and applies changes in a single database, no instantiation is necessary. However, the apply process at the cpap.net
database still must be instructed to apply changes that were made to the hr.employees
table after a specific system change number (SCN).
This example uses the GET_SYSTEM_CHANGE_NUMBER
function in the DBMS_FLASHBACK
package to obtain the current SCN for the database. This SCN is used to run the SET_TABLE_INSTANTIATION_SCN
procedure in the DBMS_APPLY_ADM
package.
The SET_TABLE_INSTANTIATION_SCN
procedure controls which LCRs for a table are ignored by an apply process and which LCRs for a table are applied by an apply process. If the commit SCN of an LCR for a table from a source database is less than or equal to the instantiation SCN for that table at a destination database, then the apply process at the destination database discards the LCR. Otherwise, the apply process applies the LCR. In this example, the cpap.net
database is both the source database and the destination database.
The apply process will apply transactions to the hr.employees
table with SCNs that were committed after SCN obtained in this step.
Note: Thehr.employees table also must be prepared for instantiation. This preparation was done automatically when the the capture process was configured with a rule to capture DML changes to the hr.employees table in Step 2. |
*/ DECLARE iscn NUMBER; -- Variable to hold instantiation SCN value BEGIN iscn := DBMS_FLASHBACK.GET_SYSTEM_CHANGE_NUMBER(); DBMS_APPLY_ADM.SET_TABLE_INSTANTIATION_SCN( source_object_name => 'hr.employees', source_database_name => 'cpap.net', instantiation_scn => iscn); END; / /*
Step 4 Create the DML Handler Procedure
This step creates the emp_dml_handler
procedure. This procedure will be the DML handler for DELETE
changes to the hr.employees
table. It converts any row LCR containing a DELETE
command type into an INSERT
row LCR and then inserts the converted row LCR into the hr.emp_del
table by executing the row LCR.
*/ CREATE OR REPLACE PROCEDURE emp_dml_handler(in_any IN ANYDATA) IS lcr SYS.LCR$_ROW_RECORD; rc PLS_INTEGER; command VARCHAR2(30); old_values SYS.LCR$_ROW_LIST; BEGIN -- Access the LCR rc := in_any.GETOBJECT(lcr); -- Get the object command type command := lcr.GET_COMMAND_TYPE(); -- Check for DELETE command on the hr.employees table IF command = 'DELETE' THEN -- Set the command_type in the row LCR to INSERT lcr.SET_COMMAND_TYPE('INSERT'); -- Set the object_name in the row LCR to EMP_DEL lcr.SET_OBJECT_NAME('EMP_DEL'); -- Get the old values in the row LCR old_values := lcr.GET_VALUES('old'); -- Set the old values in the row LCR to the new values in the row LCR lcr.SET_VALUES('new', old_values); -- Set the old values in the row LCR to NULL lcr.SET_VALUES('old', NULL); -- Add a SYSDATE value for the timestamp column lcr.ADD_COLUMN('new', 'TIMESTAMP', ANYDATA.ConvertDate(SYSDATE)); -- Apply the row LCR as an INSERT into the hr.emp_del table lcr.EXECUTE(true); END IF; END; / /*
Step 5 Set the DML Handler for the hr.employees Table
Set the DML handler for the hr.employees
table to the procedure created in Step 4. Notice that the DML handler must be set separately for each possible operation on the table: INSERT
, UPDATE
, and DELETE
.
*/ BEGIN DBMS_APPLY_ADM.SET_DML_HANDLER( object_name => 'hr.employees', object_type => 'TABLE', operation_name => 'INSERT', error_handler => false, user_procedure => 'strmadmin.emp_dml_handler', apply_database_link => NULL, apply_name => NULL); END; / BEGIN DBMS_APPLY_ADM.SET_DML_HANDLER( object_name => 'hr.employees', object_type => 'TABLE', operation_name => 'UPDATE', error_handler => false, user_procedure => 'strmadmin.emp_dml_handler', apply_database_link => NULL, apply_name => NULL); END; / BEGIN DBMS_APPLY_ADM.SET_DML_HANDLER( object_name => 'hr.employees', object_type => 'TABLE', operation_name => 'DELETE', error_handler => false, user_procedure => 'strmadmin.emp_dml_handler', apply_database_link => NULL, apply_name => NULL); END; / /*
Step 6 Create a Messaging Client for the Queue
Create a messaging client that can be used by an application to dequeue the reenqueued messages. A messaging client must be specified before the messages can be reenqueued into the queue.
*/ BEGIN DBMS_STREAMS_ADM.ADD_TABLE_RULES( table_name => 'hr.employees', streams_type => 'dequeue', streams_name => 'hr', queue_name => 'strmadmin.streams_queue', include_dml => true, include_ddl => false, inclusion_rule => true); END; / /*
Step 7 Configure the Apply Process at cpap.net
Create an apply process to apply DML changes to the hr.employees
table. Although the DML handler for the apply process causes deleted employees to be inserted into the emp_del
table, this rule specifies the employees
table, because the row LCRs in the queue contain changes to the employees
table, not the emp_del
table. When you run the ADD_TABLE_RULES
procedure to create the apply process, the out parameter dml_rule_name
contains the name of the DML rule created. This rule name is then passed to the SET_ENQUEUE_DESTINATION
procedure.
The SET_ENQUEUE_DESTINATION
procedure in the DBMS_APPLY_ADM
package specifies that any apply process using the DML rule generated by ADD_TABLE_RULES
will enqueue messages that satisfy this rule into streams_queue
. In this case, the DML rule is for row LCRs with DML changes to the hr.employees
table. A local queue other than the apply process queue can be specified if appropriate.
*/ DECLARE emp_rule_name_dml VARCHAR2(30); emp_rule_name_ddl VARCHAR2(30); BEGIN DBMS_STREAMS_ADM.ADD_TABLE_RULES( table_name => 'hr.employees', streams_type => 'apply', streams_name => 'apply_emp', queue_name => 'strmadmin.streams_queue', include_dml => true, include_ddl => false, source_database => 'cpap.net', dml_rule_name => emp_rule_name_dml, ddl_rule_name => emp_rule_name_ddl); DBMS_APPLY_ADM.SET_ENQUEUE_DESTINATION( rule_name => emp_rule_name_dml, destination_queue_name => 'strmadmin.streams_queue'); END; / /*
Step 8 Create a Procedure to Dequeue the Messages
The emp_dq
procedure created in this step can be used to dequeue the messages that are reenqueued by the apply process. In Step 7, the SET_ENQUEUE_DESTINATION
procedure was used to instruct the apply process to enqueue row LCRs containing changes to the hr.employees
table into streams_queue
. When the emp_dq
procedure is executed, it dequeues each row LCR in the queue and displays the type of command in the row LCR, either INSERT
, UPDATE
, or DELETE
. Any information in the row LCRs can be accessed and displayed, not just the command type.
See Also: "Displaying Detailed Information About Apply Errors" for more information about displaying information in LCRs |
*/ CREATE OR REPLACE PROCEDURE emp_dq (consumer IN VARCHAR2) AS msg ANYDATA; row_lcr SYS.LCR$_ROW_RECORD; num_var pls_integer; more_messages BOOLEAN := true; navigation VARCHAR2(30); BEGIN navigation := 'FIRST MESSAGE'; WHILE (more_messages) LOOP BEGIN DBMS_STREAMS_MESSAGING.DEQUEUE( queue_name => 'strmadmin.streams_queue', streams_name => consumer, payload => msg, navigation => navigation, wait => DBMS_STREAMS_MESSAGING.NO_WAIT); IF msg.GETTYPENAME() = 'SYS.LCR$_ROW_RECORD' THEN num_var := msg.GetObject(row_lcr); DBMS_OUTPUT.PUT_LINE(row_lcr.GET_COMMAND_TYPE || ' row LCR dequeued'); END IF; navigation := 'NEXT MESSAGE'; COMMIT; EXCEPTION WHEN SYS.DBMS_STREAMS_MESSAGING.ENDOFCURTRANS THEN navigation := 'NEXT TRANSACTION'; WHEN DBMS_STREAMS_MESSAGING.NOMOREMSGS THEN more_messages := false; DBMS_OUTPUT.PUT_LINE('No more messages.'); WHEN OTHERS THEN RAISE; END; END LOOP; END; / /*
Step 9 Start the Apply Process at cpap.net
Set the disable_on_error
parameter to n
so that the apply process will not be disabled if it encounters an error, and start the apply process at cpap.net
.
*/ BEGIN DBMS_APPLY_ADM.SET_PARAMETER( apply_name => 'apply_emp', parameter => 'disable_on_error', value => 'n'); END; / BEGIN DBMS_APPLY_ADM.START_APPLY( apply_name => 'apply_emp'); END; / /*
Step 10 Start the Capture Process at cpap.net
Start the capture process at cpap.net
.
*/ BEGIN DBMS_CAPTURE_ADM.START_CAPTURE( capture_name => 'capture_emp'); END; / /*
Step 11 Check the Spool Results
Check the streams_config_capapp.out
spool file to ensure that all actions finished successfully after this script is completed.
*/ SET ECHO OFF SPOOL OFF /*************************** END OF SCRIPT ******************************/
Complete the following steps to confirm that apply process is configured correctly, make DML changes to the hr.employees
table, query for the resulting inserts into the hr.emp_del
table and the reenqueued messages in the streams_queue_table
, and dequeue the messages that were reenqueued by the DML handler.
Step 1 Confirm the Rule Action Context
Step 7 creates an apply process rule that specifies a destination queue into which LCRs that satisfy the rule are enqueued. In this case, LCRs that satisfy the rule are row LCRs with changes to the hr.employees
table.
Complete the following steps to confirm that the rule specifies a destination queue:
Run the following query to determine the name of the rule for DML changes to the hr.employees
table used by the apply process apply_emp
:
CONNECT strmadmin/strmadminpw@cpap.net SELECT RULE_OWNER, RULE_NAME FROM DBA_STREAMS_RULES WHERE STREAMS_NAME = 'APPLY_EMP' AND STREAMS_TYPE = 'APPLY' AND SCHEMA_NAME = 'HR' AND OBJECT_NAME = 'EMPLOYEES' AND RULE_TYPE = 'DML' ORDER BY RULE_NAME;
Your output looks similar to the following:
RULE_OWNER RULE_NAME ------------------------------ ------------------------------ STRMADMIN EMPLOYEES3
View the action context for the rule returned by the query in Step 1:
COLUMN RULE_OWNER HEADING 'Rule Owner' FORMAT A15 COLUMN DESTINATION_QUEUE_NAME HEADING 'Destination Queue' FORMAT A30 SELECT RULE_OWNER, DESTINATION_QUEUE_NAME FROM DBA_APPLY_ENQUEUE WHERE RULE_NAME = 'EMPLOYEES3' ORDER BY DESTINATION_QUEUE_NAME;
Make sure you substitute the rule name returned in Step 1 in the WHERE
clause. Your output looks similar to the following:
Rule Owner Destination Queue --------------- ------------------------------ STRMADMIN "STRMADMIN"."STREAMS_QUEUE"
The output should show that LCRs that satisfy the apply process rule are enqueued into streams_queue
.
Step 2 Perform an INSERT, UPDATE, and DELETE on hr.employees
Make the following DML changes to the hr.employees
table.
CONNECT hr/hr@cpap.net INSERT INTO hr.employees VALUES(207, 'JOHN', 'SMITH', 'JSMITH@MYCOMPANY.COM', NULL, '07-JUN-94', 'AC_ACCOUNT', 777, NULL, NULL, 110); COMMIT; UPDATE hr.employees SET salary=5999 WHERE employee_id=206; COMMIT; DELETE FROM hr.employees WHERE employee_id=207; COMMIT;
Step 3 Query the hr.emp_del Table and the streams_queue_table
After some time passes to allow for capture and apply of the changes performed in the previous step, run the following queries to see the results:
CONNECT strmadmin/strmadminpw@cpap.net SELECT employee_id, first_name, last_name, timestamp FROM hr.emp_del ORDER BY employee_id; SELECT MSG_ID, MSG_STATE, CONSUMER_NAME FROM AQ$STREAMS_QUEUE_TABLE ORDER BY MSG_ID;
When you run the first query, you should see a record for the employee with an employee_id
of 207
. This employee was deleted in the previous step. When you run the second query, you should see the reenqueued messages resulting from all of the changes in the previous step, and the MSG_STATE
should be READY
for these messages.
Step 4 Dequeue Messages Reenqueued by the DML Handler
Use the emp_dq
procedure to dequeue the messages that were reenqueued by the DML handler.
SET SERVEROUTPUT ON SIZE 100000 EXEC emp_dq('HR');
For each row changed by a DML statement, one line is returned, and each line states the command type of the change (either INSERT
, UPDATE
, or DELETE
). If you repeat the query on the queue table in Step 3 after the messages are dequeued, then the dequeued messages should have been consumed. That is, either the MSG_STATE
should be PROCESSED
for these messages, or the messages should no longer be in the queue.
SELECT MSG_ID, MSG_STATE, CONSUMER_NAME FROM AQ$STREAMS_QUEUE_TABLE ORDER BY MSG_ID;