How can I find poor performing SQL queries in Oracle?
Oracle maintains statistics on shared SQL area and contains one row per SQL string(v$sqlarea). But how can we identify which one of them are badly performing?
I found this SQL statement to be a useful place to start (sorry I can't attribute this to the original author; I found it somewhere on the internet):
SELECT * FROM (SELECT sql_fulltext, sql_id, elapsed_time, child_number, disk_reads, executions, first_load_time, last_load_time FROM v$sql ORDER BY elapsed_time DESC) WHERE ROWNUM < 10 /
This finds the top SQL statements that are currently stored in the SQL cache ordered by elapsed time. Statements will disappear from the cache over time, so it might be no good trying to diagnose last night's batch job when you roll into work at midday.
You can also try ordering by disk_reads and executions. Executions is useful because some poor applications send the same SQL statement way too many times. This SQL assumes you use bind variables correctly.
Then, you can take the
child_number of a statement and feed them into this baby:-
SELECT * FROM table(DBMS_XPLAN.DISPLAY_CURSOR('&sql_id', &child));
This shows the actual plan from the SQL cache and the full text of the SQL.
You could find disk intensive full table scans with something like this:
SELECT Disk_Reads DiskReads, Executions, SQL_ID, SQL_Text SQLText, SQL_FullText SQLFullText FROM ( SELECT Disk_Reads, Executions, SQL_ID, LTRIM(SQL_Text) SQL_Text, SQL_FullText, Operation, Options, Row_Number() OVER (Partition By sql_text ORDER BY Disk_Reads * Executions DESC) KeepHighSQL FROM ( SELECT Avg(Disk_Reads) OVER (Partition By sql_text) Disk_Reads, Max(Executions) OVER (Partition By sql_text) Executions, t.SQL_ID, sql_text, sql_fulltext, p.operation,p.options FROM v$sql t, v$sql_plan p WHERE t.hash_value=p.hash_value AND p.operation='TABLE ACCESS' AND p.options='FULL' AND p.object_owner NOT IN ('SYS','SYSTEM') AND t.Executions > 1 ) ORDER BY DISK_READS * EXECUTIONS DESC ) WHERE KeepHighSQL = 1 AND rownum <=5;
You could take the average buffer gets per execution during a period of activity of the instance:
SELECT username, buffer_gets, disk_reads, executions, buffer_get_per_exec, parse_calls, sorts, rows_processed, hit_ratio, module, sql_text -- elapsed_time, cpu_time, user_io_wait_time, , FROM (SELECT sql_text, b.username, a.disk_reads, a.buffer_gets, trunc(a.buffer_gets / a.executions) buffer_get_per_exec, a.parse_calls, a.sorts, a.executions, a.rows_processed, 100 - ROUND (100 * a.disk_reads / a.buffer_gets, 2) hit_ratio, module -- cpu_time, elapsed_time, user_io_wait_time FROM v$sqlarea a, dba_users b WHERE a.parsing_user_id = b.user_id AND b.username NOT IN ('SYS', 'SYSTEM', 'RMAN','SYSMAN') AND a.buffer_gets > 10000 ORDER BY buffer_get_per_exec DESC) WHERE ROWNUM <= 20
The following query returns SQL statements that perform large numbers of disk reads (also includes the offending user and the number of times the query has been run):
SELECT t2.username, t1.disk_reads, t1.executions, t1.disk_reads / DECODE(t1.executions, 0, 1, t1.executions) as exec_ratio, t1.command_type, t1.sql_text FROM v$sqlarea t1, dba_users t2 WHERE t1.parsing_user_id = t2.user_id AND t1.disk_reads > 100000 ORDER BY t1.disk_reads DESC
Run the query as SYS and adjust the number of disk reads depending on what you deem to be excessive (100,000 works for me).
I have used this query very recently to track down users who refuse to take advantage of
Explain Plans before executing their statements.
I found this query in an old Oracle SQL tuning book (which I unfortunately no longer have), so apologies, but no attribution.
There are a number of possible ways to do this, but have a google for tkprof
There's no GUI... it's entirely command line and possibly a touch intimidating for Oracle beginners; but it's very powerful.
This link looks like a good start:
While searching I got the following query which does the job with one assumption(query execution time >6 seconds)
SELECT username, sql_text, sofar, totalwork, units
WHERE sql_address = address AND sql_hash_value = hash_value
ORDER BY address, hash_value, child_number;
I think above query will list the details for current user.
Comments are welcome!!