echo "TABLESPACE REPORT FOR $ORACLE_SID"
stty echo
echo "All tablespaces or specific tablespace? [A|S]"
read answer
stty echo
case $answer in
A|a) echo "All tablespaces selected...please wait...";
getFiles A;;
S|s) echo "Which tablespace?";
read wt;
getFiles $wt;;
*) echo "Only A or S are supported parameters.";
exit 1;;
esac
Thursday, August 28, 2014
How to use the case statement in a shell script, with case-insensitive input
Use the pipe (|) character for each possible case:
Tuesday, August 26, 2014
How to find the SID, serial# and their operating system process ID from the database
A simple statement to find the SID, serial# and their operating system process ID from the database:
SET LINES 300 PAGES 300
SET TRIMSPOOL ON
SPOOL SQL
COL "Os pid" FORMAT A10
COL MACHINE FORMAT A30
COL "SQL Text" FORMAT A100 WRA
COL PROGRAM FORMAT A20
COL USERNAME FORMAT A12
SELECT
S.SID,
S.SERIAL#,
S.USERNAME,
S.STATUS,
P.SPID "Os pid",
S.MACHINE,
CONCAT(SUBSTR(A.SQL_TEXT,1,60), '...(output truncated)') "SQL text"
FROM V$SESSION S,
V$SQLAREA A,
V$PROCESS P
WHERE A.ADDRESS = S.SQL_ADDRESS
AND S.PADDR=P.ADDR
ORDER BY 1
/
Example output:SID SERIAL# USERNAME Os pid MACHINE SQL text
---------- ---------- ------------ ---------- ------------- ------------------------------------------------------------------------------------
4 3 6357052 myserver insert into obj$(owner#,name,namespace,obj#,type#,ctime,mtim...(output truncated)
18 7035 SYS 21496004 myserver call DBMS_AQADM_SYS.REGISTER_DRIVER ( )...(output truncated)
107 62143 SYS 23527460 myserver SELECT S.SID, S.SERIAL#, S.USERNAME, P.SPID "Os pid"...(output truncated)
303 27191 SYS 16777372 myserver analyze table scott.man_to_stage validate structure cascade o...(output truncated)
393 1 8716332 myserver insert into obj$(owner#,name,namespace,obj#,type#,ctime,mtim...(output truncated)
402 3125 BATCHUSR 18612294 myserver call mypackage.start_dorg ( )...(output truncated)
490 1 8257548 myserver insert into obj$(owner#,name,namespace,obj#,type#,ctime,mtim...(output truncated)
499 25461 SYS 13762730 myserver call DBMS_AQADM_SYS.REGISTER_DRIVER ( )...(output truncated)
503 2635 SYS 11272234 myserver call DBMS_AQADM_SYS.REGISTER_DRIVER ( )...(output truncated)
593 12091 BATCHUSR 19726590 myserver call myprocedure.read_queue ( )...(output truncated)
600 9193 SYS 21102724 COMP\PC1 select * from dba_locks...(output truncated)
694 44601 BATCHUSR 20840656 myserver call mypackage.check_job_consistency( )...(output truncated)
696 819 SYS 15269968 myserver call DBMS_AQADM_SYS.REGISTER_DRIVER ( )...(output truncated)
700 1135 BATCHUSR 21364890 myserver DECLARE job BINARY_INTEGER := :job; next_date TIMESTAMP WIT...(output truncated)
What is the meaning of the "10G 11G" value in DBA_USERS.PASSWORD_VERSIONS?
When the value of DBA_USERS.PASSWORD_VERSIONS is shown as "10G 11G", it means that both old and new-style hash values are available for the user.
Note that instead of storing the hashed password values directly in the DBA_USERS table, they are from 11gR1 and onwards both stored in the table USER$, column PASSWORD for the 10G style hash value, and column SPARE4 for the 11G SHA-1 style hash value.
A NULL value indicates that the password has not been changed since the migration and the user still has the old case insensitive password.
In my query below, USER1 through USER4 have been migrated and will now take advantage of 11g password case-sensitivity, if enabled.
USER5 is still using 10G style case insensitive passwords.
USER6 is created after migration, and will also take advantage of the 11g password case-sensitivity, if available.
Users that are imported from an earlier release into an 11g database, will remain case-insensitive until the password is changed.
To generate "alter user identified by values" statements, use the following:
Sources: Oracle Documentation
Note that instead of storing the hashed password values directly in the DBA_USERS table, they are from 11gR1 and onwards both stored in the table USER$, column PASSWORD for the 10G style hash value, and column SPARE4 for the 11G SHA-1 style hash value.
A NULL value indicates that the password has not been changed since the migration and the user still has the old case insensitive password.
In my query below, USER1 through USER4 have been migrated and will now take advantage of 11g password case-sensitivity, if enabled.
USER5 is still using 10G style case insensitive passwords.
USER6 is created after migration, and will also take advantage of the 11g password case-sensitivity, if available.
SELECT U.NAME "Name",
NVL(REGEXP_REPLACE(U.SPARE4,'^.+', 'Password changed since migration',1,0), 'Password unchanged since migration') "Action undertaken",
DU.PASSWORD_VERSIONS "Password Version"
FROM USER$ U LEFT OUTER JOIN DBA_USERS DU
ON U.NAME = DU.USERNAME
WHERE DU.USERNAME NOT IN (SELECT ROLE FROM DBA_ROLES)
ORDER BY NAME ASC;
| Name | Action undertaken | Password Version |
|---|---|---|
| USER1 | Password changed since migration | 10G 11G |
| USER2 | Password changed since migration | 10G 11G |
| USER3 | Password changed since migration | 10G 11G |
| USER4 | Password changed since migration | 10G 11G |
| USER5 | Password unchanged since migration | 10g |
| USER6 | Password changed since migration | 11G |
Users that are imported from an earlier release into an 11g database, will remain case-insensitive until the password is changed.
To generate "alter user identified by values" statements, use the following:
SELECT 'alter user ' || NAME || ' identified by values ' || '''' || SPARE4 ||';' || PASSWORD ||''';'
FROM USER$
WHERE NAME IN ('USER1','USER2');
Sources: Oracle Documentation
Monday, August 25, 2014
How to use trace event 10046
ALTER SESSION SET max_dump_file_size = unlimited; ALTER SESSION SET tracefile_identifier = 'normal_run_with_trace_10046'; ALTER SESSION SET statistics_level = ALL; ALTER SESSION SET events '10046 trace name context forever, level 12'; Your SQL statement(s) here ALTER SYSTEM SET EVENTS '10046 trace name context off'; EXIT
Alternatively, use the oradebug utility:
select s.sid,s.serial#,p.spid from v$session s, v$process p where sid = 29 and s.paddr = p.addr
Output:
| SID | SERIAL# | SPID |
|---|---|---|
29 | 9 | 24510662 |
prodserver1>ps -ef | grep 24510662 ora11g 24510662 1 0 17:24:42 - 0:00 oraclemagr (LOCAL=NO) prodserver1>proctree 24510662 24510662 oraclemagr (LOCAL=NO)
Enable tracing on the operating system process, inside sqlplus:
SQL> oradebug setospid 24051998 Oracle pid: 420, Unix process pid: 24051998, image: oracle@ystu032ma SQL> oradebug unlimit SQL> oradebug event 10046 trace name context forever, level 12
When done, disable tracing:
SYS@magr SQL> oradebug setospid 24051998 Oracle pid: 420, Unix process pid: 24051998, image: oracle@ystu032ma SQL> oradebug unlimit SQL> oradebug event 10046 trace name context forever, level 12
You can now parse the trace file produced through tkprof:
tkprof mytracefile.trc mytracefile.out sys=yes waits=yes sort=exemis
For an extensive list of commands to be used with tkprof, simply type tkprof at the prompt.
An excellent note on 10046 trace event is called "How To Collect 10046 Trace (SQL_TRACE) Diagnostics for Performance Issues (Doc ID 376442.1)".
Another great note on tracing in general is "Tracing Enhancements Using DBMS_MONITOR (In 10g, 11g and Above) (Doc ID 293661.1)"
- both available on Oracle Supports site.
Friday, August 1, 2014
Why are there multiple rows in V$SESSION_LONGOPS when running an RMAN backup?
Answer:
When performing an RMAN backup, V$SESSION_LONGOPS will be populated with two types of rows:
Detailed rows: Captures the progress of individual job steps.
Aggregated rows: Captures and summarizes the progress for the individual step of the backup job, as they complete. They are updated only after each detailed step has finished.
Example:
Below I am querying the V$SESSION_LONGOPS after an incremental backup level 0 has started, using 6 channels. Notice that there are both individual rows and an aggregated row present:
Let's join V$SESSION_LONGOPS with V$SESSION and (if desirable) V$PROCESS, to view only the detailed rows, and estimate the progress in percent. This query is very useful to quickly get an overview of your backup, whether or not it is progressing according to expected speed etc:
Notice how the V$RMAN_STATUS only hold information on aggregated level (2 rows, one for each operation although the first spawns the other):
When performing an RMAN backup, V$SESSION_LONGOPS will be populated with two types of rows:
Detailed rows: Captures the progress of individual job steps.
Aggregated rows: Captures and summarizes the progress for the individual step of the backup job, as they complete. They are updated only after each detailed step has finished.
Example:
Below I am querying the V$SESSION_LONGOPS after an incremental backup level 0 has started, using 6 channels. Notice that there are both individual rows and an aggregated row present:
SELECT SID,SERIAL#,OPNAME,TARGET_DESC,TOTALWORK,SOFAR,UNITS,START_TIME,TIME_REMAINING,ELAPSED_SECONDS,MESSAGE FROM V$SESSION_LONGOPS WHERE TOTALWORK <> 0 AND SOFAR <> TOTALWORK ORDER BY SERIAL# ASC;
| SID | SERIAL# | OPNAME | TARGET_DESC | TOTALWORK | SOFAR | UNITS | START_TIME | TIME_REMAINING | ELAPSED_SECONDS | MESSAGE |
|---|---|---|---|---|---|---|---|---|---|---|
203 | 7409 | RMAN: incremental datafile backup | Set Count | 4096000 | 1004926 | Blocks | 01.08.2014 12:28:28 | 557 | 181 | RMAN: incremental datafile backup: Set Count 137085: 1004926 out of 4096000 Blocks done |
398 | 15079 | RMAN: incremental datafile backup | Set Count | 3018368 | 1122302 | Blocks | 01.08.2014 12:28:28 | 306 | 181 | RMAN: incremental datafile backup: Set Count 137088: 1122302 out of 3018368 Blocks done |
439 | 17451 | RMAN: incremental datafile backup | Set Count | 2560000 | 1127038 | Blocks | 01.08.2014 12:28:29 | 229 | 180 | RMAN: incremental datafile backup: Set Count 137089: 1127038 out of 2560000 Blocks done |
357 | 31627 | RMAN: incremental datafile backup | Set Count | 3044608 | 1115518 | Blocks | 01.08.2014 12:28:28 | 313 | 181 | RMAN: incremental datafile backup: Set Count 137087: 1115518 out of 3044608 Blocks done |
476 | 55467 | RMAN: incremental datafile backup | Set Count | 2557440 | 940542 | Blocks | 01.08.2014 12:28:29 | 309 | 180 | RMAN: incremental datafile backup: Set Count 137090: 940542 out of 2557440 Blocks done |
512 | 55527 | RMAN: aggregate input | backup | 76514816 | 4360436 | Blocks | 01.08.2014 12:28:28 | 2085 | 126 | RMAN: aggregate input: backup 33: 4360436 out of 76514816 Blocks done |
281 | 56085 | RMAN: incremental datafile backup | Set Count | 3251200 | 969214 | Blocks | 01.08.2014 12:28:28 | 426 | 181 | RMAN: incremental datafile backup: Set Count 137086: 969214 out of 3251200 Blocks done |
Let's join V$SESSION_LONGOPS with V$SESSION and (if desirable) V$PROCESS, to view only the detailed rows, and estimate the progress in percent. This query is very useful to quickly get an overview of your backup, whether or not it is progressing according to expected speed etc:
SELECT S.CLIENT_INFO "Client Info", SL.OPNAME "Operation" ,SL.MESSAGE, SL.SID, SL.SERIAL#, P.SPID "OS Process ID", SL.SOFAR "So Far", SL.TOTALWORK "Totalwork", ROUND(SL.SOFAR/SL.TOTALWORK*100,2) "% complete"
FROM V$SESSION_LONGOPS SL INNER JOIN V$SESSION S ON SL.SID = S.SID
INNER JOIN V$PROCESS P ON P.ADDR = S.PADDR
AND OPNAME LIKE 'RMAN%'
AND OPNAME NOT LIKE '%aggregate%'
AND TOTALWORK != 0
AND SOFAR <> TOTALWORK
/
| Client Info | Operation | MESSAGE | SID | SERIAL# | OS Process ID | So Far | Totalwork | % complete |
|---|---|---|---|---|---|---|---|---|
| rman channel=tsm_channel_0 | RMAN: incremental datafile backup | RMAN: incremental datafile backup: Set Count 137096: 1173118 out of 2252800 Blocks done | 203 | 7409 | 42926864 | 1173118 | 2252800 | 52,07 |
| rman channel=tsm_channel_1 | RMAN: incremental datafile backup | RMAN: incremental datafile backup: Set Count 137095: 2029054 out of 2393600 Blocks done | 281 | 56085 | 52101750 | 2029054 | 2393600 | 84,77 |
| rman channel=tsm_channel_2 | RMAN: incremental datafile backup | RMAN: incremental datafile backup: Set Count 137097: 293246 out of 2096640 Blocks done | 357 | 31627 | 56361104 | 293246 | 2096640 | 13,99 |
| rman channel=tsm_channel_3 | RMAN: incremental datafile backup | RMAN: incremental datafile backup: Set Count 137099: 174206 out of 2048000 Blocks done | 398 | 15079 | 52756692 | 174206 | 2048000 | 8,51 |
| rman channel=tsm_channel_4 | RMAN: incremental datafile backup | RMAN: incremental datafile backup: Set Count 137098: 460286 out of 2048000 Blocks done | 439 | 17451 | 29032454 | 460286 | 2048000 | 22,47 |
| rman channel=tsm_channel_5 | RMAN: incremental datafile backup | RMAN: incremental datafile backup: Set Count 137100: 196094 out of 2048000 Blocks done | 476 | 55467 | 9700724 | 196094 | 2048000 | 9,57 |
Notice how the V$RMAN_STATUS only hold information on aggregated level (2 rows, one for each operation although the first spawns the other):
SELECT SID,OPERATION,STATUS,MBYTES_PROCESSED, START_TIME, END_TIME, OBJECT_TYPE, OUTPUT_DEVICE_TYPE FROM V$RMAN_STATUS WHERE STATUS = 'RUNNING';
| SID | OPERATION | STATUS | MBYTES_PROCESSED | START_TIME | OBJECT_TYPE | OUTPUT_DEVICE_TYPE |
|---|---|---|---|---|---|---|
512 |
BACKUP | RUNNING | 226641,953125 |
01.08.2014 12:28:28 | DB INCR | SBT_TAPE |
512 |
RMAN | RUNNING | 0 |
01.08.2014 12:28:28 |
Tuesday, July 15, 2014
What is the difference between the columns PID and SPID in v$process?
The PID column is an internal counter that oracle uses for its own processes. It is incremented by one for every new process. Consequently, since every session creates its own server process (also called "shadow process") you will see the number increment by one for each session that connects.
The documentation for V$PROCESSES states that PID is the "Oracle Process Identifier" which is confusing.
In most circumstances, the column that you would need is the SPID, which shows the "Operating system process identifier".
The documentation for V$PROCESSES states that PID is the "Oracle Process Identifier" which is confusing.
In most circumstances, the column that you would need is the SPID, which shows the "Operating system process identifier".
More on the TO_DSINTERVAL conversion function
The TO_DSINTERVAL function is very flexible.
All you need to do is to specify the interval you're looking for, and it will convert your string into a valid INTERVAL datatype. Intervals are DAY, HOUR, MINUTE, SECOND
Examples:
Turn 2 days into a valid INTERVAL datatype
Turn 75 minutes into a valid INTERVAL datatype
Turn 60 minutes into a valid INTERVAL datatype
Turn 60 seconds into a valid INTERVAL datatype
Turn 24 hours into a valid INTERVAL datatype
Turn 6 hours into a valid INTERVAL datatype
All you need to do is to specify the interval you're looking for, and it will convert your string into a valid INTERVAL datatype. Intervals are DAY, HOUR, MINUTE, SECOND
Examples:
Turn 2 days into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '2' DAY) FROM DUAL; TO_DSINTERVAL(INTERVAL'2'DAY) -------------------------------------------------- +02 00:00:00.000000 1 row selected.
Turn 75 minutes into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '75' MINUTE) FROM DUAL; TO_DSINTERVAL(INTERVAL'75'MINUTE) -------------------------------------------------- +00 01:15:00.000000 1 row selected.
Turn 60 minutes into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '60' MINUTE) FROM DUAL; TO_DSINTERVAL(INTERVAL'60'MINUTE) -------------------------------------------------- +00 01:00:00.000000 1 row selected.
Turn 60 seconds into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '60' SECOND) FROM DUAL; TO_DSINTERVAL(INTERVAL'60'SECOND) -------------------------------------------------- +00 00:01:00.000000 1 row selected.
Turn 24 hours into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '24' HOUR) FROM DUAL; TO_DSINTERVAL(INTERVAL'24'HOUR) -------------------------------------------------- +01 00:00:00.000000 1 row selected.
Turn 6 hours into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '6' HOUR) FROM DUAL; TO_DSINTERVAL(INTERVAL'6'HOUR) -------------------------------------------------- +00 06:00:00.000000 1 row selected.Turn 61.2 seconds into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '61.2' SECOND) FROM DUAL; TO_DSINTERVAL(INTERVAL'61.2'SECOND) -------------------------------------------------- +00 00:01:01.200000 1 row selected.Turn 1 hour into a valid INTERVAL datatype
SELECT TO_DSINTERVAL(INTERVAL '1' HOUR) FROM DUAL; TO_DSINTERVAL(INTERVAL'1'HOUR) -------------------------------------------------- +00 01:00:00.000000 1 row selected.
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