SQL Performance Analyzer in Oracle Database 11g Release 1 zz
http://www.oracle-base.com/articles/11g/SqlPerformanceAnalyzer_11gR1.php#sql_performance_analyzer_api
The concept of SQL tuning sets, along with the
The SQL Performance Analyzer can be run manually using the
The select statements are now in the shared pool, so we can start creating an SQL tuning set.
On the "SQL Tuning Sets" screen, click the "Create" button.
Enter a name for the SQL tuning set and click the "Next" button.
Select the "Load SQL statements one time only" option, select the "Cursor Cache" as the data source, then click the "Next" button.
Set the appropriate values for the "Parsing Schema Name" and "SQL Text" filter attributes, remove any extra attributes by clicking their remove icons, then click the "Next" button.
Accept the immediate schedule by clicking the "Next" button.
Assuming the review information looks correct, click the "Submit" button.
The "SQL Tuning Sets" screen shows the confirmation of the tuning set creation and the scheduled job to populate it.
Once the population job completes, clicking on the SQL tuning set displays its contents.
Now we have an SQL tuning set, we can start using the SQL performance analyzer.
Click the "Guided Workflow" link on the "SQL Performance Analayzer" screen.
Click the execute icon on the first step to create the SQL Performance Analyzer task.
Enter a name for the SPA task, select the SQL tuning set to associate with it, then click the "Create" button.
When the status of the previous step becomes a green tick, click the execute icon on the second step to capture the SQL tuning set performance information of the "before" state.
Enter a "Replay Trial Name" of "before_change", check the "Trial environment established" checkbox, then click the "Submit" button.
When the status of the previous step becomes a green tick, click the execute icon on the third step to capture the SQL tuning set performance information of the "after" state.
Alter the state of the database by creating an index on the
When the status of the previous step becomes a green tick, click the execute icon on the forth step to run a comparison analysis task.
Accept the default "Trial 1 Name" and "Trial 2 Name" settings by clicking the "Submit" button.
When the status of the previous step becomes a green tick, click the execute icon on the fifth step to view the comparison report.
The resulting page contains the comparison report for the SQL Performance Analyzer task.
Clicking on a specific SQL ID displays the statement specific results, along with the before and after execution plans.
Enter a task name, select the two optimizer versions to compare, then click the "Submit" button.
The task is listed in the "SQL Performance Analyzer Tasks" section. Refresh the page intermittently until the task status becomes a green tick, then click on the task name.
The resulting screen shows details of the selected task. Click on the "Comparison Report" classes icon allows you to view the comparison report.
Enter a task name and the parameter you wish to test. Enter the base and changed value, then click the "Submit" button.
The task is listed in the "SQL Performance Analyzer Tasks" section. Refresh the page intermittently until the task status becomes a green tick, then click on the task name.
The resulting screen shows details of the selected task. Click on the "Comparison Report" classes icon allows you to view the comparison report.
First, create the staging table using the
For more information see:
The concept of SQL tuning sets, along with the
DBMS_SQLTUNE
package to manipulate them, was introduced in Oracle 10g as part of the Automatic SQL Tuning functionality. Oracle 11g makes further use of SQL tuning sets with the SQL Performance Analyzer, which compares the performance of the statements in a tuning set before and after a database change. The database change can be as major or minor as you like, such as:
- Database, operating system, or hardware upgrades.
- Database, operating system, or hardware configuration changes.
- Database initialization parameter changes.
- Schema changes, such as adding indexes or materialized views.
- Refreshing optimizer statistics.
- Creating or changing SQL profiles.
The SQL Performance Analyzer can be run manually using the
DBMS_SQLPA
package or using Enterprise Manager. This article gives an overview of both methods.
- Setting Up the Test
- Creating SQL Tuning Sets using the DBMS_SQLTUNE Package
- Running the SQL Performance Analyzer using the DBMS_SQLPA Package
- Creating SQL Tuning Sets using Enterprise Manager
- Running the SQL Performance Analyzer using Enterprise Manager
- Optimizer Upgrade Simulation
- Parameter Change
- Transferring SQL Tuning Sets
Setting Up the Test
The SQL performance analyzer requires SQL tuning sets, and SQL tuning sets are pointless unless they contain SQL, so the first task should be to issue some SQL statements. We are only trying to demonstrate the technology, so the example can be really simple. The following code creates a test user calledSPA_TEST_USER
.
Next, connect to the test user and create a test table calledCONN sys/password@prod AS SYSDBA CREATE USER spa_test_user IDENTIFIED BY spa_test_user QUOTA UNLIMITED ON users; GRANT CONNECT, CREATE TABLE TO spa_test_user;
MY_OBJECTS
using a query from the
ALL_OBJECTS
view.
This schema represents our "before" state. Still logged in as the test user, issue the following statements.CONN spa_test_user/spa_test_user@prod CREATE TABLE my_objects AS SELECT * FROM all_objects; EXEC DBMS_STATS.gather_table_stats(USER, 'MY_OBJECTS', cascade => TRUE);
Notice, all statements make reference to the currently unindexedSELECT COUNT(*) FROM my_objects WHERE object_id <= 100; SELECT object_name FROM my_objects WHERE object_id = 100; SELECT COUNT(*) FROM my_objects WHERE object_id <= 1000; SELECT object_name FROM my_objects WHERE object_id = 1000; SELECT COUNT(*) FROM my_objects WHERE object_id BETWEEN 100 AND 1000;
OBJECT_ID
column. Later we will be indexing this column to create our changed "after" state.
The select statements are now in the shared pool, so we can start creating an SQL tuning set.
Creating SQL Tuning Sets using the DBMS_SQLTUNE Package
TheDBMS_SQLTUNE
package contains procedures and functions that allow us to create, manipulate and drop SQL tuning sets. The first step is to create an SQL tuning set called
spa_test_sqlset
using the
CREATE_SQLSET
procedure.
Next, theCONN sys/password@prod AS SYSDBA EXEC DBMS_SQLTUNE.create_sqlset(sqlset_name => 'spa_test_sqlset');
SELECT_CURSOR_CACHE
table function is used to retrieve a cursor containing all SQL statements that were parsed by the
SPA_TEST_USER
schema and contain the word "my_objects". The resulting cursor is loaded into the tuning set using the
LOAD_SQLSET
procedure.
TheDECLARE l_cursor DBMS_SQLTUNE.sqlset_cursor; BEGIN OPEN l_cursor FOR SELECT VALUE(a) FROM TABLE( DBMS_SQLTUNE.select_cursor_cache( basic_filter => 'sql_text LIKE ''%my_objects%'' and parsing_schema_name = ''SPA_TEST_USER''', attribute_list => 'ALL') ) a; DBMS_SQLTUNE.load_sqlset(sqlset_name => 'spa_test_sqlset', populate_cursor => l_cursor); END; /
DBA_SQLSET_STATEMENTS
view allows us to see which statements have been associated with the tuning set.
Now we have an SQL tuning set, we can start using the SQL performance analyzer.SELECT sql_text FROM dba_sqlset_statements WHERE sqlset_name = 'spa_test_sqlset'; SQL_TEXT -------------------------------------------------------------------------------- SELECT object_name FROM my_objects WHERE object_id = 100 SELECT COUNT(*) FROM my_objects WHERE object_id <= 100 SELECT COUNT(*) FROM my_objects WHERE object_id BETWEEN 100 AND 1000 SELECT COUNT(*) FROM my_objects WHERE object_id <= 1000 SELECT object_name FROM my_objects WHERE object_id = 1000 5 rows selected. SQL>
Running the SQL Performance Analyzer using the DBMS_SQLPA Package
TheDBMS_SQLPA
package is the PL/SQL API used to manage the SQL performance ananlyzer. The first step is to create an analysis task using the
CREATE_ANALYSIS_TASK
function, passing in the SQL tuning set name and making a note of the resulting task name.
Next, use theCONN sys/password@prod AS SYSDBA VARIABLE v_task VARCHAR2(64); EXEC :v_task := DBMS_SQLPA.create_analysis_task(sqlset_name => 'spa_test_sqlset'); PL/SQL procedure successfully completed. SQL> PRINT :v_task V_TASK -------------------------------------------------------------------------------- TASK_122 SQL>
EXECUTE_ANALYSIS_TASK
procedure to execute the contents of the SQL tuning set against the current state of the database to gather information about the performance before any modifications are made. This analysis run is named
before_change
.
Now we have the "before" performance information, we need to make a change so we can test the "after" performance. For this example we will simply add an index to the test table on theBEGIN DBMS_SQLPA.execute_analysis_task( task_name => :v_task, execution_type => 'test execute', execution_name => 'before_change'); END; /
OBJECT_ID
column. In a new SQL*Plus session create the index using the following statements.
Now, we can return to our original session and test the performance after the database change. Once again use theCONN spa_test_user/spa_test_user@prod CREATE INDEX my_objects_index_01 ON my_objects(object_id); EXEC DBMS_STATS.gather_table_stats(USER, 'MY_OBJECTS', cascade => TRUE);
EXECUTE_ANALYSIS_TASK
procedure, naming the analysis task "after_change".
Once the before and after analysis tasks are complete, we must run a comparison analysis task. The following code explicitly names the analysis tasks to compare using name-value pairs in theBEGIN DBMS_SQLPA.execute_analysis_task( task_name => :v_task, execution_type => 'test execute', execution_name => 'after_change'); END; /
EXECUTION_PARAMS
parameter. If this is ommited, the latest two analysis runs are compared.
With this final analysis run complete, we can check out the comparison report using theBEGIN DBMS_SQLPA.execute_analysis_task( task_name => :v_task, execution_type => 'compare performance', execution_params => dbms_advisor.arglist( 'execution_name1', 'before_change', 'execution_name2', 'after_change') ); END; /
REPORT_ANALYSIS_TASK
function. The function returns a CLOB containing the report in text or HTML format. The script below spools the default text format report out to a file.
An example of this file can be seen here.SET LONG 1000000 SET PAGESIZE 0 SET LINESIZE 200 SET LONGCHUNKSIZE 200 SET TRIMSPOOL ON SPOOL /tmp/execute_comparison_report.txt SELECT DBMS_SQLPA.report_analysis_task(:v_task) FROM dual; SPOOL OFF
Creating SQL Tuning Sets using Enterprise Manager
Click on the "SQL Tuning Sets" link towards the bottom of the "Performance" tab.On the "SQL Tuning Sets" screen, click the "Create" button.
Enter a name for the SQL tuning set and click the "Next" button.
Select the "Load SQL statements one time only" option, select the "Cursor Cache" as the data source, then click the "Next" button.
Set the appropriate values for the "Parsing Schema Name" and "SQL Text" filter attributes, remove any extra attributes by clicking their remove icons, then click the "Next" button.
Accept the immediate schedule by clicking the "Next" button.
Assuming the review information looks correct, click the "Submit" button.
The "SQL Tuning Sets" screen shows the confirmation of the tuning set creation and the scheduled job to populate it.
Once the population job completes, clicking on the SQL tuning set displays its contents.
Now we have an SQL tuning set, we can start using the SQL performance analyzer.
Running the SQL Performance Analyzer using Enterprise Manager
Click the "SQL Performance Analayzer" link on the "Software and Support" tab.Click the "Guided Workflow" link on the "SQL Performance Analayzer" screen.
Click the execute icon on the first step to create the SQL Performance Analyzer task.
Enter a name for the SPA task, select the SQL tuning set to associate with it, then click the "Create" button.
When the status of the previous step becomes a green tick, click the execute icon on the second step to capture the SQL tuning set performance information of the "before" state.
Enter a "Replay Trial Name" of "before_change", check the "Trial environment established" checkbox, then click the "Submit" button.
When the status of the previous step becomes a green tick, click the execute icon on the third step to capture the SQL tuning set performance information of the "after" state.
Alter the state of the database by creating an index on the
OBJECT_ID
column of the test table.
Enter a "Replay Trial Name" of "after_change", check the "Trial environment established" checkbox, then click the "Submit" button.CONN spa_test_user/spa_test_user@prod CREATE INDEX my_objects_index_01 ON my_objects(object_id); EXEC DBMS_STATS.gather_table_stats(USER, 'MY_OBJECTS', cascade => TRUE);
When the status of the previous step becomes a green tick, click the execute icon on the forth step to run a comparison analysis task.
Accept the default "Trial 1 Name" and "Trial 2 Name" settings by clicking the "Submit" button.
When the status of the previous step becomes a green tick, click the execute icon on the fifth step to view the comparison report.
The resulting page contains the comparison report for the SQL Performance Analyzer task.
Clicking on a specific SQL ID displays the statement specific results, along with the before and after execution plans.
Optimizer Upgrade Simulation
The SQL Performance Analyzer allows you to test the affects of optimizer version changes on SQL tuning sets. Click the "Optimizer Upgrade Simulation" link on the "SQL Performance Analyzer" page.Enter a task name, select the two optimizer versions to compare, then click the "Submit" button.
The task is listed in the "SQL Performance Analyzer Tasks" section. Refresh the page intermittently until the task status becomes a green tick, then click on the task name.
The resulting screen shows details of the selected task. Click on the "Comparison Report" classes icon allows you to view the comparison report.
Parameter Change
The SQL Performance Analyzer provides a shortcut for setting up tests of initialization parameter changes on SQL tuning sets. Click the "Parameter" link on the "SQL Performance Analyzer" page.Enter a task name and the parameter you wish to test. Enter the base and changed value, then click the "Submit" button.
The task is listed in the "SQL Performance Analyzer Tasks" section. Refresh the page intermittently until the task status becomes a green tick, then click on the task name.
The resulting screen shows details of the selected task. Click on the "Comparison Report" classes icon allows you to view the comparison report.
Transferring SQL Tuning Sets
In the examples listed above, the tests have been performed on the same system. In reality you are more likely to want to create a tuning set on your production system, then run the SQL Performance Analyzer against it on a test system. Fortunately, theDBMS_SQLTUNE
package allows you to transport SQL tuning sets by storing them in a staging table.
First, create the staging table using the
CREATE_STGTAB_SQLSET
procedure.
Next, use theCONN sys/password@prod AS SYSDBA BEGIN DBMS_SQLTUNE.create_stgtab_sqlset(table_name => 'SQLSET_TAB', schema_name => 'SPA_TEST_USER', tablespace_name => 'USERS'); END; /
PACK_STGTAB_SQLSET
procedure to export SQL tuning set into the staging table.
Once the SQL tuning set is packed into the staging table, the table can be transferred to the test system using Datapump, Export/Import or via a database link. Once on the test system, the SQL tuning set can be imported using theBEGIN DBMS_SQLTUNE.pack_stgtab_sqlset(sqlset_name => 'SPA_TEST_SQLSET', sqlset_owner => 'SYS', staging_table_name => 'SQLSET_TAB', staging_schema_owner => 'SPA_TEST_USER'); END; /
UNPACK_STGTAB_SQLSET
procedure.
The SQL tuning set can now be used with the SQL Performance Analyzer on the test system.BEGIN DBMS_SQLTUNE.unpack_stgtab_sqlset(sqlset_name => '%', sqlset_owner => 'SYS', replace => TRUE, staging_table_name => 'SQLSET_TAB', staging_schema_owner => 'SPA_TEST_USER'); END; /
For more information see:
- SQL Performance Analyzer
- DBMS_SQLPA
- DBMS_SQLTUNE