标签:ima hid put txt immediate eof union quic htm
#!/bin/ksh
#
# Copyright (c) 1998, 2002, Oracle Corporation. All rights reserved.
#
version()
{
if [ -f $ORA_TMP/ora_version_${ORACLE_SID} ]; then
VER=`cat $ORA_TMP/ora_version_${ORACLE_SID}`
set $VER
VERSION=$1
VERSION_SHORT=$2
VERSION_MAIN=$3
SWA_HISTOGRAM=$4
PGA_ADVICE=$5
SWA_ACTIVE_TABLESPACE=$6
if [ "$VERSION" = "" -o "$VERSION_SHORT" = "" -o "$VERSION_MAIN" = "" ]; then
rm -f $ORA_TMP/ora_version_${ORACLE_SID}
version
fi
else
#
# Check version
#
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected" > $ORA_TMP/ver$$
connect $DBUSER
select ‘SQL_WORKAREA_HISTOGRAM‘||‘_EXISTS‘ view_exists
from all_views where view_name
like ‘%SQL_WORKAREA_HISTOGRAM%‘ and rownum = 1;
select ‘PGA_TARGET_ADVICE‘||‘_EXISTS‘ view_exists
from all_views where view_name
like ‘%PGA_TARGET_ADVICE%‘ and rownum = 1;
select ‘SQL_WORKAREA_ACTIVE_TABLESPACE‘||‘_EXISTS‘ col_exists
from ALL_TAB_COLUMNS
where COLUMN_NAME = ‘TABLESPACE‘
AND TABLE_NAME = ‘V_\$SQL_WORKAREA_ACTIVE‘;
select ‘###‘ || version || ‘###‘ version
from PRODUCT_COMPONENT_VERSION
where PRODUCT like ‘Oracle%‘;
!
grep SQL_WORKAREA_HISTOGRAM_EXISTS $ORA_TMP/ver$$ > /dev/null 2>&1
if [ $? -eq 0 ]; then
SWA_HISTOGRAM=1
else
SWA_HISTOGRAM=0
fi
grep PGA_TARGET_ADVICE_EXISTS $ORA_TMP/ver$$ > /dev/null 2>&1
if [ $? -eq 0 ]; then
PGA_ADVICE=1
else
PGA_ADVICE=0
fi
grep SQL_WORKAREA_ACTIVE_TABLESPACE_EXISTS $ORA_TMP/ver$$ > /dev/null 2>&1
if [ $? -eq 0 ]; then
SWA_ACTIVE_TABLESPACE=1
else
SWA_ACTIVE_TABLESPACE=0
fi
VERSION=`cat $ORA_TMP/ver$$ | grep ‘###‘ | sed -e ‘s/^###\(.*\)###$/\1/g‘`
VERSION_SHORT=`echo $VERSION | sed -e ‘s/^\([0-9]*\)\.\([0-9]*\)\..*$/\1\.\2/g‘`
VERSION_MAIN=`echo $VERSION | sed -e ‘s/^\([0-9]*\).*$/\1/g‘`
#
# Only save when OK.
#
if [ "$VERSION" != "" -a "$VERSION_SHORT" != "" -a "$VERSION_MAIN" != "" ]; then
echo "$VERSION $VERSION_SHORT $VERSION_MAIN $SWA_HISTOGRAM $PGA_ADVICE $SWA_ACTIVE_TABLESPACE" > $ORA_TMP/ora_version_${ORACLE_SID}
fi
# rm -f $ORA_TMP/ver$$
fi
}
usage()
{
if [ "$ORA_USE_HASH" = "1" ]; then
SQLID=‘<hash_val>‘;
else
SQLID=‘ <sql_id> ‘;
fi
echo "$1
Usage: $EXEC_NAME [-u user] [-i instance#] <command> [<arguments>]
General
-u user/pass use USER/PASS to log in
-i instance# append # to ORACLE_SID
-sid <sid> set ORACLE_SID to sid
-top # limit some large queries to on # rows
- repeat <interval> <count|forever> <ora command>
Repeat an coomand <count> time
Sleep <interval> between two calls
Command are:
- execute: cursors currently being executed
- longops: run progression monitor
- sessions: currently open sessions
- stack <os_pid> get process stack using oradebug
- cursors [all] <match_str>: [all] parsed cursors
- sharing <sql_id>: print why cursors are not shared
- events [px]: events that someone is waiting for
- ash <minutes_from_now>
[duration]
[-f <file_name>] active session history for specified period
e.g. ‘ash 30‘ to display from [now - 30min]
to [now]
e.g. ‘ash 30 10 -f foo.txt‘ to display a 10
minutes period from [now - 30min]
and store the result in file foo.txt
- ash_wait_graph <minutes_from_now>
[duration]
[-f <file_name>] PQ event wait graph using ASH data
Arguments are the same as for ash
except that the output must be shown
with the mxgraph tool
- ash_sql <sql_id> Show all ash rows group by sampli_time and
event for the specified sql_id
- [-u <user/passwd>] degree degree of objects for a given user
- [-u <user/passwd>] colstats stats for each table, column
- [-u <user/passwd>] tabstats stats for each table
- params [<pattern>]: view all parameters, even hidden ones
- snap: view all snapshots status
- bc: view contents of buffer cache
- temp: view used space in temp tbs
- asm: Show asm space/free space
- space [<tbs>]: view used/free space in a given tbs
- binds $SQLID: display bind capture information for
specified cursor
- fulltext $SQLID: display the entire SQL text of the
specified statement
- last_sql_hash [<sid>]: hash value of the last styatement executed
by the specified sid. If no sid speficied,
return the last hash_value of user sessions
- openv $SQLID
[<pattern>]: display optimizer env parameters for
specified cursor
- plan $SQLID [<fmt>]: get explain plan of a particular cursor
- pxplan $SQLID: get explain plan of a particular cursor and
all connected cursor slave SQL
- wplan $SQLID [<fmt>]: get explain plan with work area information
- pxwplan $SQLID: get explain plan with work area information
of a particular cursor and all connected
cursor slave SQL
- eplan $SQLID [<fmt>]: get explain plan with execution statistics
- pxeplan $SQLID: get explain plan with execution statistics
of a particular cursor and all connected
cursor slave SQL
- gplan $SQLID: get graphical explain plan of a particular
cursor using dot specification
- webplan $SQLID get graphical explain plan of a particular
[/<child_number>] cursor using gdl specification
[<decorate>]: optional: child_number, default is zero.
optional: decorate to print further node
information. default is 0,
1 => print further node information such as
cost, filter_predicates etc.
2 => in addition to the above, print
row vector information
sample usage:
# ora webplan 4019453623
print more information (decorate 1)
# ora webplan 4019453623/1 1
more information, overload! (decorate 2)
# ora webplan 4019453623/1 2
using sql_id along with child number
instead of hash value
# ora webplan aca4xvmz0rzup/3 1
- hash_to_sqlid $SQLID: get the sql_id of the cursor given its hash
value
- sqlid_to_hash <sql_id>: get the hash value of the cursor given its
(unquoted) sql_id
- exptbs: generate export tablespace script
- imptbs: generate import tablespace script
- smm [limited]: SQL memory manager stats for active
workareas
- onepass: Run an ora wplan on all one-pass cursors
- mpass: Run an ora wplan on all multi-pass cursors
- pga: tell how much pga memory is used
- pga_detail <os_pid>|
-mem <size_mb>: Gives details on how PGA memory is consumed
by a process (given its os PID) or by the
set of precesses consuming more than
<size_mb> MB of PGA memory (-mem option)
- pgasnap [<snaptab>] Snapshot the pga advice stats
- pgaadv [-s [<snaptab>]]
[-o graphfile]
[-m min_size]: generate a graph from v$pga_target_advice
and display it or store it in a
file if the -o option is used.
-s [<snaptab>] to diff with a
previous snapshot (see pgasnap cmd)
-o [graphfile] to store the result
in a file instead of displaying it
-m [min_size] only consider
workareas with a minimum size
- pgaadvhist [-f <f_min>
[<f_max>]] display the advice history for all
factors or for factor between
f_min and f_max
- sga: tell how much sga memory is used
- sga_stats: tell how sga is dynamically used
- sort_usage: tell how temp tablespace is used in detail
- sgasnap [<snaptab>] Snapshot the sga advice stats
- sgaadv [-s [<snaptab>]]
[-o graphfile] generate a graph from v$db_cache_advice
and v$shared_pool_advice and store it in a
file if the -o option is used.
-s [<snaptab>] to diff with a
previous snapshot (see sgasnap cmd)
-o [graphfile] to store the result
in a file instead of displaying it
- process [<min_mb>]: display process info with pga memory
- version: display Oracle version number
- cur_mem [$SQLID] display the memory used for a
given or all cursors
- shared_mem [$SQLID] detailed dump of cursor shared mem
allocations
- runtime_mem [$SQLID] detailed dump of cursor runtime
memory allocations
- all_mem [$SQLID] do all of the memory dumps
- pstack <pid>|all
[<directory>] run pstack on specified process
(or all if ‘all‘ specified) and store
files in specified dir ($T_TRC when
not specified)
- idxdesc [username]
<tabName> list all indexes for a given user or
for a given user and table
- segsize [username]
<objName> list size of all objects(segments) for
given user for a given user and object
- tempu <username> list temporary ts usage of all users or
for a given user
- sqlstats [$SQLID] list sql execution stats (like
buffer_gets, phy. reads etc)
for a given sql_id/hash_value of statement
- optstats [username] list optimizer stats for all tables stored
<tabname> in dictionary for a given user or for a
given user and table
- userVs list all user Views (user_tables,
user_indexes etc)
- fixedVs list all V$ Views
- fixedXs list all X$ Views
- px_processes list all px processes (QC and slaves)
- cursor_summary summarize stats about (un)pinned cursors
- rowcache summarizes row cache statistics
- monitor_list lists all the statements that have been
monitored
- monitor [xml]: wraps dbms_sqltune.report_sql_monitor().
Directly passe the arguments to the PL/SQL
procedure. Args are:
sql_id, session_id, session_serial,
sql_exec_start, sql_exec_id, inst_id,
instance_id_filter, parallel_filter,
report_level, type.
Examples:
- monitor xml shows XML report
- monitor show last monitored stmt
- monitor sql_id=>‘8vz99cy9bydv8‘,
session_id=>105 will
show monitor info for sql_id
8vz99cy9bydv8 and session_id 105
Use simply ora monitor 8vz99cy9bydv8
to display monitoring information for
sql_id 8vz99cy9bydv8.
Syntax for parallel filters is:
[qc][servers(<svr_grp>[,] <svr_set>[,]
<srv_num>)]
Use /*+ monitor */ to force monitoring.
- monitor_old [ash_all] [<sqlid>]
[qc|<slave_grp#> [<slave_set#> [<slave#>]]]
Old version of SQL monitoring, use a
SQL query versus the report_sql_monitor()
package. Display monitoring info for the
LAST execution of the specified cursor.
Cursor response time needs to be at
least 5s for monitoring to start (use the
monitor hint to force monitoring). Without
any parameter, will display monitoring info
for the last cursor that was monitored
- ash_all will aggregate ash data over all
executions of the cursor (useful for short
queries that are executed many times).
If parallel:
- qc to see only data for qc
- slave_grp# to see only data for one
parallelizer
- slave_grp# + slave_set# to see only data
for one slave set of one parallelizer,
- slave_grp# + slave_set# + slave# to see
data only for the specified slave
- sql_task [progress | interrupt <task_name> | history <#execs> |
report <task_name> <section> <exec_name> ]
progress: progress monitoring for executing
sql tasks
interrupt: interrupt an executing sql task
history: print a history of last n executions
report: get a sql tune report
- sh Run a shell command. E.g.
ora repeat 5 10 sh ‘ps -edf | grep DESC‘
Memory: The detailed memory dumps need to have events set to work.
The events bellow can be added to the init.ora file
event=\"10277 trace name context forever, level 10\" # mutable mem
event=\"10235 trace name context forever, level 4\" # shared mem
NOTE
====
- Set environment variable ORA_USE_HASH to 1 to get SQL hash values
instead of SQL ids
- Set environment variable DBUSER to change default connect string which
is \"/ as sysdba\"
- Set environment variable ORA_TMP to the default temp directory (default
if /tmp when not set)
"
exit 1
}
setup_hash_value()
{
EXCLUDE=-1
# get potential column names
COLNAME1=$1
COLNAME2=$2
shift 2
case "$1" in
"-sess")
temp_hash_value=`$ORA_PROG last_sql_hash $2 | sed -e "s/ \n//g"`
SHIFT_PARAM=2
;;
"all")
SHIFT_PARAM=1
;;
"")
SHIFT_PARAM=0
EXCLUDE=0
;;
*)
SHIFT_PARAM=1
temp_hash_value="$1"
;;
esac
if [ "$temp_hash_value" != "" ]; then
HVAL=`echo "$temp_hash_value" | sed -e "s/\([0-9A-Za-z]*\)\/\([0-9]*\)/\1/g"`
CNUM=`echo "$temp_hash_value" | sed -e "s/\([0-9A-Za-z]*\)\/\([0-9]*\)/\2/g"`
if [ "$CNUM" = "" -o "$CNUM" = "$temp_hash_value" ]; then
CNUM=0
fi
# determine if sql_id or hash_value. Only sql_id can have 13 characters
if [ ${#HVAL} -eq 13 ]; then
COLNAME=$COLNAME2
HVAL="‘$HVAL‘"
else
COLNAME=$COLNAME1
fi
else
HVAL=0
CNUM=0
fi
}
create_format_functions()
{
sqlplus -s /NOLOG <<EOF | grep ‘123K‘ > /dev/null 2>&1
connect $DBUSER
select dbms_xplan.format_number2(123000) from dual;
EOF
if [ $? = 0 ]; then
# formatting functions are externalized in dbms_xplan
FORMAT_SIZE="dbms_xplan.format_size2"
FORMAT_NUMBER="dbms_xplan.format_number2"
else
FORMAT_SIZE="bill_format_size"
FORMAT_NUMBER="bill_format_number"
sqlplus -s /NOLOG << ! > /dev/null 2>&1
connect $DBUSER
create function bill_format_size(num number)
return varchar2 as
tmp number := num;
idx number := 0;
postfix varchar2(10) := ‘ kmgtp####‘;
begin
for idx in 1 .. 6 loop
if (tmp < 1024) then
return lpad(round(tmp) || substr(postfix, idx, 1), 5);
end if;
tmp := tmp / 1024;
end loop;
return ‘#####‘;
end;
/
create function bill_format_number(num number)
return varchar2 as
tmp number := num;
idx number := 0;
postfix varchar2(10) := ‘ KMGTP####‘;
begin
for idx in 1 .. 6 loop
if (tmp < 1000) then
return lpad(round(tmp) || substr(postfix, idx, 1), 5);
end if;
tmp := tmp / 1000;
end loop;
return ‘#####‘;
end;
/
!
fi
}
EXEC_NAME=`basename $0`
ORA_PROG=$0
V=v
INST_ID=""
RAC=0
WHERE=where
ARGS=""
BROWSER=firefox
RENDER=aisee
if [ "$ORA_TMP" = "" ]; then
ORA_TMP="/tmp"
fi
while [ 1 ]; do
case "$1" in
"-u")
ARGS="$ARGS $1 $2"
DBUSER=$2
shift
;;
"-i")
ARGS="$ARGS $1 $2"
ORACLE_SID=${ORACLE_SID}$2
shift
;;
"-sid")
ARGS="$ARGS $1 $2"
ORACLE_SID=$2
shift
;;
"-rac")
ARGS="$ARGS $1"
RAC=1
V=gv
INST_ID="inst_id,"
;;
"-top")
ARGS="$ARGS $1 $2"
WHERE="$WHERE rownum < $2 and"
shift;
;;
"-pred")
ARGS="$ARGS $1 \"$2\""
WHERE="$WHERE $2 and"
shift;
;;
*)
break
;;
esac
shift
done
if [ "$DBUSER" = "" ]; then
DBUSER="/ as SYSDBA"
fi
if [ -f "$FRAME_PATH"/env ]; then
. "$FRAME_PATH"/env
fi
version
if [ $VERSION_MAIN -lt 10 ]; then
ORA_USE_HASH=1
fi
if [ $# -lt 1 ]; then
usage "Syntax Error"
fi
if [ "$1" = "fulltext" -o "$1" = "full_text" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
set long 40000000
col sql_hash format A15
col sql_id format A18
col exec format 9999
col sql_fulltext format A75 WORD_WRAP
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select $COLNM||
decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_fulltext
from v\$sql
where child_number=$CNUM
and $COLNAME=$HVAL;
!
exit 0
fi
if [ "$1" = "ash_sql" -o "$1" = "sqlash" ]; then
if [ "$2" = "" ]; then
usage "Cursor sql_id is missing"
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 1000
set tab off
set linesize 220
set echo off
set long 40000000
col sql_hash format A15
col sql_id format A18
col exec format 9999
col sql_fulltext format A75 WORD_WRAP
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
col p2 format a20
col p1 format a30
col sample_time format A40
set pagesize 100
col activity format A30
col nb format 999
col name format a10
BREAK ON sample_time skip 1
select sample_time, activity, p1, p2, object_name name,
count(*) nb
from
(select sample_time, nvl(event, ‘CPU‘) activity,
case when event is null or wait_class = ‘User I/O‘
then ‘-‘ else p1text || ‘: ‘ || p1
end p1,
case when event is null or wait_class = ‘User I/O‘
then ‘-‘ else p2text || ‘: ‘ || p2 end p2,
object_name
from v\$active_session_history,
dba_objects
where object_id(+) = current_obj#
and $COLNAME=$HVAL)
group by sample_time, activity, p1, p2, object_name
order by 1, 2, 3, 4, 5,6;
!
exit 0
fi
if [ "$1" = "execute" ] || [ "$1" = "executing" ]; then
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
if [ "$2" != "" ]; then
if [ $VERSION_MAIN -lt 10 ]; then
PRED="s.sql_text like ‘%$2%‘ "
else
PRED="s.sql_fulltext like ‘%$2%‘ "
fi
else
PRED="1=1"
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
col address format A15
col sql_hash format A15
col sql_id format A18
col exec format 9999
col sql_text format A75 WORD_WRAP
select /*+ BDAGEVIL leading(se) */
$COLNM||decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
users_executing exec, sql_text
from v\$sql s
WHERE $PRED
and s.users_executing > 0
and s.sql_text not like ‘%BDAGEVIL%‘;
!
exit 0
fi
if [ "$1" = "version" ]; then
version;
#
# Get Oracle version number
#
sqlplus -s /NOLOG << ! | grep ‘###‘ | sed -e ‘s/^###\(.*\)###$/\1/g‘ > $ORA_TMP/oraout$$
set echo off
connect $DBUSER
select ‘###‘ || version || ‘###‘ version
from PRODUCT_COMPONENT_VERSION
where PRODUCT like ‘Oracle%‘;
!
VERSION=`cat $ORA_TMP/oraout$$`
rm -f $ORA_TMP/oraout$$
echo
echo "Oracle version: $VERSION"
echo
exit 0
fi
if [ "$1" = "sql_tune" ]; then
version;
#
# Get Oracle version number
#
sqlplus -s /NOLOG << !
set echo off
set feedback off
connect $DBUSER
set linesize 150
col name format a10
col target format a10
col task_name format a10
col target_desc format a10
col info format a50
select * from
(select opname name,
task_name,
sofar cur_sql,
totalwork nb_sql,
START_TIME,
TIME_REMAINING,
findings,
decode(info1_desc, NULL, ‘‘, info1_desc || ‘: ‘|| info1) ||
decode(info2_desc, NULL, ‘‘, chr(10)||info2_desc || ‘: ‘||info2) ||
decode(info3_desc, NULL, ‘‘, chr(10)||info3_desc || ‘: ‘||info3) ||
decode(info4_desc, NULL, ‘‘, chr(10)||info4_desc || ‘: ‘||info4)
Info
from v\$advisor_progress p,
dba_advisor_tasks t
where t.task_id = p.task_id
order by START_TIME desc)
where rownum = 1;
!
exit 0
fi
if [ "$1" = "repeat" ]; then
shift;
interval=$1
shift
count=$1
shift
while [ 1 = 1 ]; do
echo
CURDATE=`date +"%D %T"`
echo "######################## $CURDATE ########################"
$ORA_PROG $ARGS $*
if [ $? -eq 1 ]; then
exit 1
fi
sleep $interval
if [ "$count" = "forever" ]; then
continue;
fi;
let "count=count-1"
if [ $count -le 0 ]; then
break;
fi;
done;
fi
if [ "$1" = "smm" ]; then
version;
if [ "$2" = "limited" ]; then
OPTALL=0
else
OPTALL=1
fi
if [ $SWA_HISTOGRAM -eq 1 ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 1000
set linesize 130
col users_executing format A5
col sql_text format A65
col name format A50
col VALUE format A20 JUS C
col TOTAL format A15 JUS L
col OPTIMAL format A15 JUS L
col ONEPASS format A15 JUS L
col MPASS format A15 JUS L
select sum(TOTAL_EXECUTIONS) || ‘ ‘ TOTAL,
sum(OPTIMAL_EXECUTIONS) || ‘ (‘ ||
round(sum(OPTIMAL_EXECUTIONS)*100/
decode(sum(TOTAL_EXECUTIONS), 0, 1, sum(TOTAL_EXECUTIONS)))
|| ‘%)‘ OPTIMAL,
sum(ONEPASS_EXECUTIONS) || ‘ (‘ ||
round(sum(ONEPASS_EXECUTIONS)*100/
decode(sum(TOTAL_EXECUTIONS), 0, 1, sum(TOTAL_EXECUTIONS)))
|| ‘%)‘ ONEPASS,
sum(MULTIPASSES_EXECUTIONS) || ‘ (‘ ||
round(sum(MULTIPASSES_EXECUTIONS)*100/
decode(sum(TOTAL_EXECUTIONS), 0, 1, sum(TOTAL_EXECUTIONS)))
|| ‘%)‘ MPASS
from v\$sql_workarea_histogram
where LOW_OPTIMAL_SIZE > 64*1024;
col size_range format A20
col optimal format 9999999999
col onepass format 9999999999
col multipasses format 9999999999
select lpad(case
when LOW < 1024*1024
then round(LOW/1024) || ‘ KB‘
when LOW < 1024*1024*1024
then round(LOW/1024/1024) || ‘ MB‘
when LOW < 1024*1024*1024*1024
then round(LOW/1024/1024/1024) || ‘ GB‘
else round(LOW/1024/1024/1024/1024) || ‘ TB‘
end, 6, ‘ ‘) || ‘ ->‘ ||
lpad(case
when HIGH < 1024*1024
then round(HIGH/1024) || ‘ KB‘
when HIGH < 1024*1024*1024
then round(HIGH/1024/1024) || ‘ MB‘
when HIGH < 1024*1024*1024*1024
then round(HIGH/1024/1024/1024) || ‘ GB‘
else round(HIGH/1024/1024/1024/1024) || ‘ TB‘
end, 7, ‘ ‘) size_range,
optimal,
onepass,
multipasses
from
(select decode(rownum, 1, 0, low_optimal_size) low,
decode(sum_forward, 0, max_high_size, high_optimal_size) high,
optimal,
onepass,
multipasses
from
(select
low_optimal_size,
high_optimal_size+1 high_optimal_size,
optimal_executions optimal,
onepass_executions onepass,
multipasses_executions multipasses,
sum(total_executions)
over (order by high_optimal_size desc) sum_forward,
sum(total_executions)
over (order by high_optimal_size) sum_backward,
sum(total_executions)
over (order by high_optimal_size rows 1 preceding) sum_with_prev,
max(high_optimal_size) over () max_high_size
from v\$sql_workarea_histogram)
where (sum_forward != 0 or
(sum_forward = 0 and sum_with_prev != 0))
and sum_backward != 0)
order by low;
!
if [ $PGA_ADVICE -eq 1 ] ; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 1000
set linesize 130
select round(PGA_TARGET_FOR_ESTIMATE/1024/1024) estd_target,
round(BYTES_PROCESSED/1024/1024) mbytes_process,
round(ESTD_EXTRA_BYTES_RW/1024/1024) extra_mbytes_rw,
ESTD_PGA_CACHE_HIT_PERCENTAGE cache_hit,
ESTD_OVERALLOC_COUNT overalloc
from v\$pga_target_advice
order by 1;
!
MIN_REQ=‘round(MIN_MEM) MIN_REQ,‘
fi
else
MIN_REQ=‘‘
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
set pagesize 1000
set linesize 130
set feedback off
col name format A50
col VALUE format A20 JUS C
col profile format A35
connect $DBUSER
select name profile, cnt,
decode(total, 0, 0, round(cnt*100/total)) percentage
from (select name, value cnt, (sum(value) over ()) total
from v\$sysstat where name like ‘workarea exec%‘);
!
fi
# tablespace info available
if [ $SWA_ACTIVE_TABLESPACE -eq 1 ]; then
TABLESPACE_SUM_SIZE=‘, round(sum(TEMPSEG_SIZE/1024/1024)) TSIZE‘
TABLESPACE_SIZE=‘, round(KTSSOSIZE/1024) TSIZE‘
else
TABLESPACE_SUM_SIZE=‘ ‘
TABLESPACE_SIZE=‘ ‘
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|Connected|rows selected"
set pagesize 1000
set linesize 180
set feedback off
col name format A50
col value format A20
connect $DBUSER
select QESMMSGANM name,
lpad(case
when QESMMSGAUN = 0
then case
when QESMMSGAVL >= 10240
then round(QESMMSGAVL/1024) || ‘ MB‘
else QESMMSGAVL || ‘ KB‘
end
when QESMMSGAUN = 1
then QESMMSGAVL || ‘ us‘
when QESMMSGAUN = 3
then round((QESMMSGAVL*QESMMSGAMU)/100) || ‘ %‘
else QESMMSGAVL || ‘ ‘
end,20) VALUE
from x\$qesmmsga;
!
#
# Detail for all workareas
#
if [ $OPTALL -eq 1 ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
set pagesize 1000
set linesize 180
set feedback off
col QCSID format 9999
col MODULE format A30
col SID format 9999
col OPERATION format A21
col OPID format 9999
col ESIZE format 99999999
col MIN_REQ format 99999999
col OPT_REQ format 99999999
col ONE_REQ format 99999999
col IOSIZE format 99999999
col WSIZE format 99999999
col SQL_HASH format 99999999999
col MEM format 99999999
col TSIZE format 99999999
col "MAX MEM" format 99999999
col PASS format 99
connect $DBUSER
select /*+ all_rows ordered use_hash(swa) use_nl(s) */
to_number(decode(QCSID,65535,NULL,QCSID)) qcsid,
to_number(decode(SID, 65535, NULL, SID)) sid,
module,
swa.OPERATION_TYPE OPERATION,
swa.OPERATION_ID OPID,
round(swaa.ATIME/1000000) "TIME (s)",
round(WA_SIZE) WSIZE, $MIN_REQ
round(ONEPASS_MEM) ONE_REQ,
round(OPTIMAL_MEM) OPT_REQ,
round(EXP_SIZE) ESIZE,
round(ACTUAL_MEM) MEM,
round(MAX_MEM) "MAX MEM",
PASSES PASS $TABLESPACE_SIZE
from x\$qesmmiwt swaa, v\$sql_workarea swa, v\$sql s
where swaa.WADDR = swa.WORKAREA_ADDRESS(+)
and swa.ADDRESS = s.ADDRESS(+)
and swa.HASH_VALUE = s.HASH_VALUE(+)
and swa.child_number = s.child_number(+)
and sid != userenv(‘sid‘)
order by 1,5,2;
!
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connecte d|rows selected"
set pagesize 1000
set linesize 180
set feedback off
col QCSID format 9999
col MODULE format A30
col SID format 9999
col OPERATION format A21
col OPID format 9999
col ESIZE format 99999999
col MIN_REQ format 99999999
col OPT_REQ format 99999999
col ONE_REQ format 99999999
col IOSIZE format 99999999
col WSIZE format 99999999
col SQL_HASH format 99999999999
col MEM format 99999999
col TSIZE format 99999999
col "MAX MEM" format 99999999
col PASS format 99
connect $DBUSER
select /*+ all_rows ordered use_hash(swa) use_nl(s) */
to_number(decode(QCSID,65535,NULL,QCSID)) qcsid,
MODULE, s.$COLNM $COLNM_HEADER,
swa.WORKAREA_ADDRESS wa_addr,
swaa.OPERATION_TYPE OPERATION,
round(sum(WORK_AREA_SIZE)/1024) wsize,
round(sum(EXPECTED_SIZE)/1024) esize,
round(sum(ACTUAL_MEM_USED)/1024) mem,
max(NUMBER_PASSES) pass $TABLESPACE_SUM_SIZE
from v\$sql_workarea_active swaa, v\$sql_workarea swa, v\$sql s
where swaa.WORKAREA_ADDRESS = swa.WORKAREA_ADDRESS(+)
and swa.ADDRESS = s.ADDRESS(+)
and swa.HASH_VALUE = s.HASH_VALUE(+)
and swa.child_number = s.child_number(+)
and sid != userenv(‘sid‘)
group by QCSID, MODULE, s.$COLNM, swa.WORKAREA_ADDRESS,
swaa.OPERATION_TYPE
order by 1,2;
!
exit 0
fi
if [ "$1" = "cursors" ]; then
if [ "$2" = "all" ]; then
EXCLUDE=-1
shift
else
EXCLUDE=0
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
col address format A15
col sql_hash format A13
col sql_id format A16
col exec format 9999
col sql_text format A65 WORD_WRAP
select /* BDAGEVIL */
$COLNM || decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_text
from v\$sql
$WHERE sql_text like ‘%$2%‘
and sql_text not like ‘%BDAGEVIL%‘
and PARSING_USER_ID != $EXCLUDE;
!
exit 0
fi
if [ "$1" = "pgaadv" ]; then
shift;
SNAPSHOT=""
MIN_WS=0
OUTPUT_ADVICE_HIST_PERC="$ORA_TMP/pga_target_advice_histogram_perc.graph"
OUTPUT_ADVICE_HIST_CNT="$ORA_TMP/pga_target_advice_histogram_cnt.graph"
OUTPUT_ADVICE="$ORA_TMP/pga_target_advice.graph"
while [ "$1" != "" ]; do
if [ "$1" = "-s" ]; then
if [ "$2" != "" -a "$2" != "-m" -a "$2" != "-o" ]; then
SNAPSHOT=$2
shift 2
else
SNAPSHOT="pga_target_advice"
shift
fi
continue
fi
if [ "$1" = ‘-m‘ ]; then
MIN_WS=$2
shift 2
continue
fi
if [ "$1" = ‘-o‘ ]; then
OUTPUT_ADVICE_HIST_CNT="$2"_hist_cnt.graph
OUTPUT_ADVICE_HIST_PERC="$2"_hist_perc.graph
OUTPUT_ADVICE="$2".graph
shift 2
continue
fi
usage "Cannot read arguments for <pgaadv> command"
done
#
# get the base data first
#
if [ "$SNAPSHOT" = "" ]; then
sqlplus -s /NOLOG << ! | egrep ‘##|@@|#@‘ > $ORA_TMP/pgaadv$$
connect $DBUSER
drop table pga_target_advice_hist_temp;
create table pga_target_advice_hist_temp
as select PGA_TARGET_FACTOR,
PGA_TARGET_FOR_ESTIMATE,
ESTD_OPTIMAL_EXECUTIONS,
ESTD_ONEPASS_EXECUTIONS,
ESTD_MULTIPASSES_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS,
ESTD_OVERALLOC_COUNT,
IGNORED_WORKAREAS_COUNT
from (select AH.PGA_TARGET_FOR_ESTIMATE,
AH.PGA_TARGET_FACTOR,
sum(ESTD_OPTIMAL_EXECUTIONS) ESTD_OPTIMAL_EXECUTIONS,
sum(ESTD_ONEPASS_EXECUTIONS) ESTD_ONEPASS_EXECUTIONS,
sum(ESTD_MULTIPASSES_EXECUTIONS) ESTD_MULTIPASSES_EXECUTIONS,
sum(ESTD_TOTAL_EXECUTIONS) ESTD_TOTAL_EXECUTIONS,
sum(A.ESTD_OVERALLOC_COUNT) ESTD_OVERALLOC_COUNT,
sum(IGNORED_WORKAREAS_COUNT) IGNORED_WORKAREAS_COUNT,
max(sum(estd_optimal_executions))
over (order by AH.PGA_TARGET_FOR_ESTIMATE rows
between 0 preceding
and unbounded following) max_opt_forward,
min(sum(estd_optimal_executions))
over (order by AH.PGA_TARGET_FOR_ESTIMATE rows
between 0 preceding
and unbounded following) min_opt_forward,
first_value(sum(estd_optimal_executions))
over (order by AH.PGA_TARGET_FOR_ESTIMATE rows
2 preceding) min_opt_pred_1
from v\$pga_target_advice_histogram ah,
v\$pga_target_advice a
where AH.LOW_OPTIMAL_SIZE >= $MIN_WS * 1024
and AH.PGA_TARGET_FOR_ESTIMATE = A.PGA_TARGET_FOR_ESTIMATE
group by AH.PGA_TARGET_FOR_ESTIMATE, AH.PGA_TARGET_FACTOR)
where max_opt_forward != min_opt_forward
or min_opt_pred_1 != max_opt_forward;
drop table pga_target_advice_temp;
create table pga_target_advice_temp
as select PGA_TARGET_FOR_ESTIMATE,
PGA_TARGET_FACTOR,
BYTES_PROCESSED,
ESTD_EXTRA_BYTES_RW,
ESTD_OVERALLOC_COUNT
from
(select PGA_TARGET_FOR_ESTIMATE,
PGA_TARGET_FACTOR,
BYTES_PROCESSED,
ESTD_EXTRA_BYTES_RW,
ESTD_OVERALLOC_COUNT,
max(ESTD_EXTRA_BYTES_RW)
over (order by PGA_TARGET_FACTOR rows
between 0 preceding
and unbounded following) max_rw_forward,
min(ESTD_EXTRA_BYTES_RW)
over (order by PGA_TARGET_FACTOR rows
between 0 preceding
and unbounded following) min_rw_forward,
first_value(ESTD_EXTRA_BYTES_RW)
over (order by PGA_TARGET_FACTOR rows
2 preceding) min_rw_pred_1
from v\$pga_target_advice)
where max_rw_forward != min_rw_forward
or min_rw_pred_1 != max_rw_forward;
select ‘@@‘||(s2.qesmmsgavl)||‘@@‘ value
from x\$qesmmsga s2
where s2.qesmmsganm like ‘BUG count%‘;
select ‘##‘||max(IGNORED_WORKAREAS_COUNT)||‘##‘ value
from pga_target_advice_hist_temp;
select ‘#@‘||round(PGA_TARGET_FOR_ESTIMATE/1024/1024)||‘#@‘ value
from pga_target_advice_temp
where PGA_TARGET_FACTOR = 1;
exit;
!
else
sqlplus -s /NOLOG << ! | egrep ‘##|@@|#@‘ > $ORA_TMP/pgaadv$$
connect $DBUSER
drop table pga_target_advice_hist_temp;
create table pga_target_advice_hist_temp
as select PGA_TARGET_FOR_ESTIMATE,
PGA_TARGET_FACTOR,
ESTD_OPTIMAL_EXECUTIONS,
ESTD_ONEPASS_EXECUTIONS,
ESTD_MULTIPASSES_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS,
ESTD_OVERALLOC_COUNT,
IGNORED_WORKAREAS_COUNT
from (select S2.PGA_TARGET_FOR_ESTIMATE,
S2.PGA_TARGET_FACTOR,
sum(S2.ESTD_OPTIMAL_EXECUTIONS -
S1.ESTD_OPTIMAL_EXECUTIONS) ESTD_OPTIMAL_EXECUTIONS,
sum(S2.ESTD_ONEPASS_EXECUTIONS -
S1.ESTD_ONEPASS_EXECUTIONS) ESTD_ONEPASS_EXECUTIONS,
sum(S2.ESTD_MULTIPASSES_EXECUTIONS -
S1.ESTD_MULTIPASSES_EXECUTIONS) ESTD_MULTIPASSES_EXECUTIONS,
sum(S2.ESTD_TOTAL_EXECUTIONS -
S1.ESTD_TOTAL_EXECUTIONS) ESTD_TOTAL_EXECUTIONS,
sum(A.ESTD_OVERALLOC_COUNT -
S1.ESTD_OVERALLOC_COUNT) ESTD_OVERALLOC_COUNT,
sum(S2.IGNORED_WORKAREAS_COUNT -
S1.IGNORED_WORKAREAS_COUNT) IGNORED_WORKAREAS_COUNT,
max(sum(s2.estd_optimal_executions - s1.estd_optimal_executions))
over (order by s2.PGA_TARGET_FOR_ESTIMATE rows
between 0 preceding
and unbounded following) max_opt_forward,
min(sum(s2.estd_optimal_executions - s1.estd_optimal_executions))
over (order by s2.PGA_TARGET_FOR_ESTIMATE rows
between 0 preceding
and unbounded following) min_opt_forward,
first_value(sum(s2.estd_optimal_executions -
s1.estd_optimal_executions))
over (order by s2.PGA_TARGET_FOR_ESTIMATE rows
2 preceding) min_opt_pred_1
from v\$pga_target_advice_histogram s2,
${SNAPSHOT}_hist_snap s1,
v\$pga_target_advice a
where S2.LOW_OPTIMAL_SIZE >= $MIN_WS * 1024
and S2.PGA_TARGET_FOR_ESTIMATE = A.PGA_TARGET_FOR_ESTIMATE
and S2.PGA_TARGET_FOR_ESTIMATE = S1.PGA_TARGET_FOR_ESTIMATE
and s1.LOW_OPTIMAL_SIZE = s2.LOW_OPTIMAL_SIZE
and s1.HIGH_OPTIMAL_SIZE = s2.HIGH_OPTIMAL_SIZE
group by S2.PGA_TARGET_FOR_ESTIMATE, S2.PGA_TARGET_FACTOR)
where max_opt_forward != min_opt_forward
or min_opt_pred_1 != max_opt_forward;
drop table pga_target_advice_temp;
create table pga_target_advice_temp
as select PGA_TARGET_FOR_ESTIMATE,
PGA_TARGET_FACTOR,
BYTES_PROCESSED,
ESTD_EXTRA_BYTES_RW,
ESTD_OVERALLOC_COUNT
from
(select S2.PGA_TARGET_FOR_ESTIMATE,
S2.PGA_TARGET_FACTOR,
(S2.BYTES_PROCESSED -
S1.BYTES_PROCESSED) BYTES_PROCESSED,
(S2.ESTD_EXTRA_BYTES_RW -
S1.ESTD_EXTRA_BYTES_RW) ESTD_EXTRA_BYTES_RW,
(S2.ESTD_OVERALLOC_COUNT -
S1.ESTD_OVERALLOC_COUNT) ESTD_OVERALLOC_COUNT,
max(S2.ESTD_EXTRA_BYTES_RW - S1.ESTD_EXTRA_BYTES_RW)
over (order by S1.PGA_TARGET_FACTOR rows
between 0 preceding
and unbounded following) max_rw_forward,
min(S2.ESTD_EXTRA_BYTES_RW - S1.ESTD_EXTRA_BYTES_RW)
over (order by S1.PGA_TARGET_FACTOR rows
between 0 preceding
and unbounded following) min_rw_forward,
first_value(S2.ESTD_EXTRA_BYTES_RW-S1.ESTD_EXTRA_BYTES_RW)
over (order by S1.PGA_TARGET_FACTOR rows
2 preceding) min_rw_pred_1
from v\$pga_target_advice S2,
${SNAPSHOT}_snap s1
where S2.PGA_TARGET_FOR_ESTIMATE = S1.PGA_TARGET_FOR_ESTIMATE)
where max_rw_forward != min_rw_forward
or min_rw_pred_1 != max_rw_forward;
select ‘@@‘||(s2.qesmmsgavl - s1.qesmmsgavl)||‘@@‘ value
from x\$qesmmsga s2, ${SNAPSHOT}_bug s1
where s2.qesmmsganm like ‘BUG count%‘;
select ‘##‘||max(IGNORED_WORKAREAS_COUNT)||‘##‘ value
from pga_target_advice_hist_temp;
select ‘#@‘||round(PGA_TARGET_FOR_ESTIMATE/1024/1024)||‘#@‘ value
from pga_target_advice_temp
where PGA_TARGET_FACTOR = 1;
exit;
!
fi
NB_IGNORED=`cat $ORA_TMP/pgaadv$$ | grep ‘##‘ | sed -e ‘s/^##\(.*\)##$/\1/g‘`
NB_BUG=`cat $ORA_TMP/pgaadv$$ | grep ‘@@‘ | sed -e ‘s/^@@\(.*\)@@$/\1/g‘`
CURRENT=`cat $ORA_TMP/pgaadv$$ | grep ‘#@‘ | sed -e ‘s/^#@\(.*\)#@$/\1/g‘`
rm -f $ORA_TMP/pgaadv$$
TITLE="TitleText: PGA Advice Hist % (cur=${CURRENT}MB min=$MIN_WS"
if [ $NB_IGNORED -ne 0 ]; then
TITLE="$TITLE, ignored=$NB_IGNORED"
fi
if [ $NB_BUG -ne 0 ]; then
TITLE="$TITLE, bugs=$NB_BUG"
fi
TITLE="${TITLE})"
echo $TITLE > $OUTPUT_ADVICE_HIST_PERC
echo "XUnitText: PGA_AGGREGATE_TARGET FACTOR" >> $OUTPUT_ADVICE_HIST_PERC
echo "YUnitText: Percentage" >> $OUTPUT_ADVICE_HIST_PERC
echo "XLowLimit: 10\n" >> $OUTPUT_ADVICE_HIST_PERC
sqlplus -s /NOLOG << ! | grep ‘##‘ | sed -e ‘s/^##\(.*\)$/\1/g‘ >> $OUTPUT_ADVICE_HIST_PERC
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
select ‘##"Optimal"‘ value from dual
union all
select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||
round(((ESTD_OPTIMAL_EXECUTIONS*100)/ESTD_TOTAL_EXECUTIONS))
from
(select PGA_TARGET_FACTOR, ESTD_OPTIMAL_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS
from pga_target_advice_hist_temp
order by PGA_TARGET_FOR_ESTIMATE)
union all
select ‘##‘ from dual
union all
select ‘##"One-pass"‘ from dual
union all
select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||
round(((ESTD_ONEPASS_EXECUTIONS*100)/ESTD_TOTAL_EXECUTIONS))
from
(select PGA_TARGET_FACTOR, ESTD_ONEPASS_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS
from pga_target_advice_hist_temp
order by PGA_TARGET_FACTOR)
union all
select ‘##‘ from dual
union all
select ‘##"Multi-pass"‘ from dual
union all
select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||
round(((ESTD_MULTIPASSES_EXECUTIONS*100)/ESTD_TOTAL_EXECUTIONS))
from
(select PGA_TARGET_FACTOR, ESTD_MULTIPASSES_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS
from pga_target_advice_hist_temp
order by PGA_TARGET_FACTOR)
union all
select ‘##‘ from dual
union all
select ‘##"Overalloc"‘ from dual
union all
select ‘##0 0‘ from dual
union all
select ‘##0 100‘ from dual
union all
select ‘##‘||nvl(max(PGA_TARGET_FACTOR), 0)||‘ 100‘
from pga_target_advice_hist_temp
where ESTD_OVERALLOC_COUNT <>0
union all
select ‘##‘||nvl(max(PGA_TARGET_FACTOR), 0)||‘ 0‘
from pga_target_advice_hist_temp
where ESTD_OVERALLOC_COUNT<>0;
!
TITLE="TitleText: PGA Advice Hist Count (cur=${CURRENT}MB min=$MIN_WS"
if [ $NB_IGNORED -ne 0 ]; then
TITLE="$TITLE, ignored=$NB_IGNORED"
fi
if [ $NB_BUG -ne 0 ]; then
TITLE="$TITLE, bugs=$NB_BUG"
fi
TITLE="${TITLE})"
echo $TITLE > $OUTPUT_ADVICE_HIST_CNT
echo "XUnitText: PGA_AGGREGATE_TARGET FACTOR" >> $OUTPUT_ADVICE_HIST_CNT
echo "YUnitText: Count" >> $OUTPUT_ADVICE_HIST_CNT
echo "XLowLimit: 10\n" >> $OUTPUT_ADVICE_HIST_CNT
sqlplus -s /NOLOG << ! | grep ‘##‘ | sed -e ‘s/^##\(.*\)$/\1/g‘ >> $OUTPUT_ADVICE_HIST_CNT
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
select ‘##"Optimal"‘ value from dual
union all
select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||ESTD_OPTIMAL_EXECUTIONS
from
(select PGA_TARGET_FACTOR, ESTD_OPTIMAL_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS
from pga_target_advice_hist_temp
order by PGA_TARGET_FOR_ESTIMATE)
union all
select ‘##‘ from dual
union all
select ‘##"One-pass"‘ from dual
union all
select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||ESTD_ONEPASS_EXECUTIONS
from
(select PGA_TARGET_FACTOR, ESTD_ONEPASS_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS
from pga_target_advice_hist_temp
order by PGA_TARGET_FACTOR)
union all
select ‘##‘ from dual
union all
select ‘##"Multi-pass"‘ from dual
union all
select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||ESTD_MULTIPASSES_EXECUTIONS
from
(select PGA_TARGET_FACTOR, ESTD_MULTIPASSES_EXECUTIONS,
ESTD_TOTAL_EXECUTIONS
from pga_target_advice_hist_temp
order by PGA_TARGET_FACTOR)
union all
select ‘##‘ from dual
union all
select ‘##"Overalloc"‘ from dual
union all
select ‘##0 0‘ from dual
union all
select ‘##0 100‘ from dual
union all
select ‘##‘||nvl(max(PGA_TARGET_FACTOR), 0)||‘ 100‘
from pga_target_advice_hist_temp
where ESTD_OVERALLOC_COUNT <>0
union all
select ‘##‘||nvl(max(PGA_TARGET_FACTOR), 0)||‘ 0‘
from pga_target_advice_hist_temp
where ESTD_OVERALLOC_COUNT<>0;
!
echo "TitleText: PGA Advice (cur=${CURRENT}MB)" > $OUTPUT_ADVICE
echo "XUnitText: PGA_AGGREGATE_TARGET FACTOR" >> $OUTPUT_ADVICE
echo "YUnitText: Cache hit percentage" >> $OUTPUT_ADVICE
sqlplus -s /NOLOG << ! | grep ‘##‘ | sed -e ‘s/^##\(.*\)$/\1/g‘ >> $OUTPUT_ADVICE
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
select ‘##"Cache hit %"‘ value from dual
union all
select *
from (select ‘##‘||PGA_TARGET_FACTOR|| ‘ ‘ ||
round((BYTES_PROCESSED*100)/(BYTES_PROCESSED+ESTD_EXTRA_BYTES_RW),2)
from pga_target_advice_temp
order by PGA_TARGET_FACTOR);
!
if [ "$OUTPUT_ADVICE_HIST_CNT" = "$ORA_TMP/pga_target_advice_histogram_cnt.graph" ]; then
mxgraph $OUTPUT_ADVICE_HIST_PERC &
mxgraph $OUTPUT_ADVICE_HIST_CNT &
mxgraph $OUTPUT_ADVICE &
echo
fi
echo "\nGraph produced in $OUTPUT_ADVICE_HIST_CNT, $OUTPUT_ADVICE_HIST_PERC and $OUTPUT_ADVICE\n"
exit 0
fi
if [ "$1" = "pgasnap" ]; then
if [ "$2" != "" ]; then
SNAPSHOT=$2
else
SNAPSHOT="pga_target_advice"
fi
sqlplus -s /NOLOG << ! > /dev/null 2>&1
connect $DBUSER
drop table ${SNAPSHOT}_hist_snap;
create table ${SNAPSHOT}_hist_snap
as select AH.PGA_TARGET_FOR_ESTIMATE,
AH.PGA_TARGET_FACTOR,
AH.LOW_OPTIMAL_SIZE,
AH.HIGH_OPTIMAL_SIZE,
AH.ESTD_OPTIMAL_EXECUTIONS,
AH.ESTD_ONEPASS_EXECUTIONS,
AH.ESTD_MULTIPASSES_EXECUTIONS,
AH.ESTD_TOTAL_EXECUTIONS,
AH.IGNORED_WORKAREAS_COUNT,
A.ESTD_OVERALLOC_COUNT
from v\$pga_target_advice_histogram ah,
v\$pga_target_advice a
where A.PGA_TARGET_FOR_ESTIMATE = AH.PGA_TARGET_FOR_ESTIMATE;
drop table ${SNAPSHOT}_snap;
create table ${SNAPSHOT}_snap
as select A.PGA_TARGET_FOR_ESTIMATE, A.PGA_TARGET_FACTOR,
A.BYTES_PROCESSED, A.ESTD_EXTRA_BYTES_RW,
A.ESTD_OVERALLOC_COUNT
from v\$pga_target_advice a;
drop table ${SNAPSHOT}_bug;
create table ${SNAPSHOT}_bug
as select qesmmsgavl
from x\$qesmmsga
where qesmmsganm like ‘BUG count%‘;
exit;
!
exit 0
fi
if [ "$1" = "sgaadv" ]; then
shift;
SNAPSHOT=""
OUTPUT_ADVICE_BC="$ORA_TMP/bc.graph"
OUTPUT_ADVICE_SP="$ORA_TMP/sp.graph"
while [ "$1" != "" ]; do
if [ "$1" = "-s" ]; then
if [ "$2" != "" -a "$2" != "-m" -a "$2" != "-o" ]; then
SNAPSHOT=$2
shift 2
else
SNAPSHOT="sga_advice"
shift
fi
continue
fi
if [ "$1" = ‘-o‘ ]; then
OUTPUT_ADVICE_BC="$2"_bc.graph
OUTPUT_ADVICE_SP="$2"_sp.graph
shift 2
continue
fi
usage "Cannot read arguments for <sgaadv> command"
done
#
# get the base data first
#
if [ "$SNAPSHOT" = "" ]; then
sqlplus -s /NOLOG << ! | egrep ‘##|@@‘ > $ORA_TMP/sgaadv$$
connect $DBUSER
drop table bc_advice_temp;
create table bc_advice_temp
as select SIZE_FOR_ESTIMATE,
SIZE_FACTOR,
ESTD_PHYSICAL_READS
from v\$db_cache_advice BC
where NAME = ‘DEFAULT‘;
drop table sp_advice_temp;
create table sp_advice_temp
as select SHARED_POOL_SIZE_FOR_ESTIMATE,
SHARED_POOL_SIZE_FACTOR,
ESTD_LC_TIME_SAVED
from v\$shared_pool_advice SP;
select ‘@@‘||(value/1024/1024)||‘@@‘ value
from v\$parameter
where NAME=‘db_cache_size‘;
select ‘##‘||(value/1024/1024)||‘##‘ value
from v\$parameter
where NAME=‘shared_pool_size‘;
exit;
!
else
sqlplus -s /NOLOG << ! | egrep ‘##|@@‘ > $ORA_TMP/sgaadv$$
connect $DBUSER
drop table bc_advice_temp;
create table bc_advice_temp
as select SIZE_FOR_ESTIMATE,
SIZE_FACTOR,
ESTD_PHYSICAL_READS
from (select BC.SIZE_FOR_ESTIMATE,
BC.SIZE_FACTOR,
(BC.ESTD_PHYSICAL_READS -
SN.ESTD_PHYSICAL_READS) ESTD_PHYSICAL_READS
from v\$db_cache_advice BC,
sga_advice_db_snap SN
where BC.SIZE_FOR_ESTIMATE = SN.SIZE_FOR_ESTIMATE
and NAME = ‘DEFAULT‘);
drop table sp_advice_temp;
create table sp_advice_temp
as select SHARED_POOL_SIZE_FOR_ESTIMATE,
SHARED_POOL_SIZE_FACTOR,
ESTD_LC_TIME_SAVED
from (select SP.SHARED_POOL_SIZE_FOR_ESTIMATE,
SP.SHARED_POOL_SIZE_FACTOR,
(SP.ESTD_LC_TIME_SAVED -
SN.ESTD_LC_TIME_SAVED) ESTD_LC_TIME_SAVED
from v\$shared_pool_advice SP,
sga_advice_sp_snap SN
where SP.SHARED_POOL_SIZE_FOR_ESTIMATE =
SN.SHARED_POOL_SIZE_FOR_ESTIMATE);
select ‘@@‘||round(value/1024/1024)||‘@@‘ value
from v\$parameter
where NAME=‘db_cache_size‘;
select ‘##‘||round(value/1024/1024)||‘##‘ value
from v\$parameter
where NAME=‘shared_pool_size‘;
exit;
!
fi
SPSIZE=`cat $ORA_TMP/sgaadv$$ | grep ‘##‘ | sed -e ‘s/^##\(.*\)##$/\1/g‘`
BCSIZE=`cat $ORA_TMP/sgaadv$$ | grep ‘@@‘ | sed -e ‘s/^@@\(.*\)@@$/\1/g‘`
rm -f $ORA_TMP/sgaadv$$
TITLE="TitleText: Buffer Cache Advice (cur=${BCSIZE}MB)"
echo $TITLE > $OUTPUT_ADVICE_BC
echo "XUnitText: BC_SIZE_FACTOR" >> $OUTPUT_ADVICE_BC
echo "YUnitText: Physical Reads" >> $OUTPUT_ADVICE_BC
sqlplus -s /NOLOG << ! | grep ‘##‘ | sed -e ‘s/^##\(.*\)$/\1/g‘ >> $OUTPUT_ADVICE_BC
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
select ‘##"Size Factor"‘ value from dual
union all
select ‘##‘||SIZE_FACTOR|| ‘ ‘ || ESTD_PHYSICAL_READS
from
(select *
from bc_advice_temp
order by size_factor);
!
TITLE="TitleText: Shared Pool Advice (cur=${SPSIZE}MB)"
echo $TITLE > $OUTPUT_ADVICE_SP
echo "XUnitText: SP_SIZE_FACTOR" >> $OUTPUT_ADVICE_SP
echo "YUnitText: Time Saved (ms)" >> $OUTPUT_ADVICE_SP
sqlplus -s /NOLOG << ! | grep ‘##‘ | sed -e ‘s/^##\(.*\)$/\1/g‘ >> $OUTPUT_ADVICE_SP
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
select ‘##"Size Factor"‘ value from dual
union all
select ‘##‘||SHARED_POOL_SIZE_FACTOR|| ‘ ‘ || ESTD_LC_TIME_SAVED
from
(select *
from sp_advice_temp
order by SHARED_POOL_SIZE_FACTOR);
!
if [ "$OUTPUT_ADVICE_SP" = "$ORA_TMP/sp.graph" ]; then
mxgraph $OUTPUT_ADVICE_BC &
mxgraph $OUTPUT_ADVICE_SP &
echo
fi
echo "\nGraph produced in $OUTPUT_ADVICE_SP and $OUTPUT_ADVICE_BC\n"
exit 0
fi
if [ "$1" = "sgasnap" ]; then
if [ "$2" != "" ]; then
SNAPSHOT=$2
else
SNAPSHOT="sga_advice"
fi
sqlplus -s /NOLOG << ! > /dev/null 2>&1
connect $DBUSER
drop table ${SNAPSHOT}_db_snap;
create table ${SNAPSHOT}_db_snap
as select SIZE_FOR_ESTIMATE,
SIZE_FACTOR,
ESTD_PHYSICAL_READ_FACTOR,
ESTD_PHYSICAL_READS
from v\$db_cache_advice
where NAME=‘DEFAULT‘;
drop table ${SNAPSHOT}_sp_snap;
create table ${SNAPSHOT}_sp_snap
as select SHARED_POOL_SIZE_FOR_ESTIMATE,
SHARED_POOL_SIZE_FACTOR,
ESTD_LC_TIME_SAVED
from v\$shared_pool_advice;
exit;
!
exit 0
fi
if [ "$1" = "pgaadvhist" ]; then
if [ "$2" = "-f" ]; then
if [ "$4" != "" ]; then
FACTOR=" where PGA_TARGET_FACTOR between $3 and $4 "
else
FACTOR=" where PGA_TARGET_FACTOR = $3 "
fi
else
FACTOR=""
fi
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected" > $ORA_TMP/pgaadvhist$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select PGA_TARGET_FACTOR
from v\$pga_target_advice $FACTOR
order by 1;
!
cat $ORA_TMP/pgaadvhist$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
echo
echo " -----------------------------------"
echo " workarea advice for factor $1"
echo " -----------------------------------"
echo
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
col optimal format 9999999999
col onepass format 9999999999
col multipasses format 9999999999
select lpad(case
when LOW < 1024*1024
then round(LOW/1024) || ‘ KB‘
when LOW < 1024*1024*1024
then round(LOW/1024/1024) || ‘ MB‘
when LOW < 1024*1024*1024*1024
then round(LOW/1024/1024/1024) || ‘ GB‘
else round(LOW/1024/1024/1024/1024) || ‘ TB‘
end, 6, ‘ ‘) || ‘ ->‘ ||
lpad(case
when HIGH < 1024*1024
then round(HIGH/1024) || ‘ KB‘
when HIGH < 1024*1024*1024
then round(HIGH/1024/1024) || ‘ MB‘
when HIGH < 1024*1024*1024*1024
then round(HIGH/1024/1024/1024) || ‘ GB‘
else round(HIGH/1024/1024/1024/1024) || ‘ TB‘
end, 7, ‘ ‘) size_range,
optimal,
onepass,
multipasses
from
(select decode(rownum, 1, 0, low_optimal_size) low,
decode(sum_forward, 0, max_high_size, high_optimal_size) high,
optimal,
onepass,
multipasses
from
(select
low_optimal_size,
high_optimal_size+1 high_optimal_size,
estd_optimal_executions optimal,
estd_onepass_executions onepass,
estd_multipasses_executions multipasses,
sum(estd_total_executions)
over (order by high_optimal_size desc) sum_forward,
sum(estd_total_executions)
over (order by high_optimal_size) sum_backward,
sum(estd_total_executions)
over (order by high_optimal_size rows 1 preceding)
sum_with_prev,
max(high_optimal_size) over () max_high_size
from v\$pga_target_advice_histogram
where PGA_TARGET_FACTOR = $1)
where (sum_forward != 0 or
(sum_forward = 0 and sum_with_prev != 0))
and sum_backward != 0)
order by low;
!
done
rm -f $ORA_TMP/pgaadvhist$$
exit 0
fi
if [ "$1" = "sessions" ]; then
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM="decode(sql_hash_value, 0, NULL, sql_hash_value)"
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 6000
set linesize 200
col username format A20
col pid format A10
col cl_pid format A10
col sql_hash format A15
col sql_id format A18
select s.sid, s.serial#, s.PROCESS cl_pid, p.spid pid, s.username,
s.type, s.server, s.PROGRAM, $COLNM $COLNM_HEADER, s.action
from v\$session s, v\$process p
where s.PADDR = p.addr ;
!
exit 0
fi
if [ "$1" = "degree" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 6000
set linesize 100
col degree format A13
col instances format A13
col table_name format A30
col index_name format A30
col SID format 99999
col QCSID format 99999
col PID format 9999
col SPID format 9999999
col Inst format 999999
col Group format 999999
col Set format 999999
col Degree format 999999
col "Req Degree" format 999999
col "Wait Event" format A30
select table_name, degree, instances from user_tables order by 1;
select index_name, degree, instances from user_indexes order by 1;
select px.qcsid, px.SID "SID", p.PID, p.SPID "SPID", px.INST_ID "Inst",
px.SERVER_GROUP "Group", px.SERVER_SET "Set",
px.DEGREE "Degree", px.REQ_DEGREE "Req Degree"
from GV\$SESSION s, GV\$PX_SESSION px, GV\$PROCESS p
where s.sid (+) = px.sid
and s.inst_id (+) = px.inst_id
and s.paddr = p.addr (+)
and s.inst_id = p.inst_id (+)
ORDER BY decode(px.QCINST_ID, NULL, px.INST_ID, px.QCINST_ID), px.QCSID,
decode(px.SERVER_GROUP, NULL, 0, px.SERVER_GROUP),
px.SERVER_SET, px.INST_ID;
!
exit 0
fi
if [ "$1" = "colstats" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 1000
set linesize 120
col table_name format A34
col column_name format A40
set tab off
select table_name, column_name, num_distinct, num_nulls
from user_tab_columns
order by 1, 2;
!
exit 0
fi
if [ "$1" = "tabstats" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 90
col table_name format A34
col column_name format A34
col Size format A10
col avg_row_len format A10
set tab off
select table_name, num_rows Cardinality,
lpad(decode(avg_row_len, NULL, ‘?‘, avg_row_len),10, ‘ ‘)avg_row_len,
lpad(decode(BLOCKS, NULL, ‘?‘, round(BLOCKS*8/1024)+1) || ‘ MB‘,
10, ‘ ‘) "Size", degree
from user_tables order by 1;
!
exit 0
fi
if [ "$1" = "snap" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 80
col status format A15
col name format A20
select name, status
from all_snapshots order by 1;
!
exit 0
fi
if [ "$1" = "asm" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
select name, total_mb, free_mb from v\$asm_diskgroup;
!
exit 0
fi
if [ "$1" = "space" ]; then
if [ "$2" != "" ]; then
EXTRA_PRED="AND fs.tablespace_name=‘$2‘"
else
EXTRA_PRED=""
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 80
col status format A15
col name format A20
select ts.TABLESPACE_NAME, total_space_mb,
nvl(free_space_mb, 0) free_space_mb,
nvl(round(free_space_mb*100/total_space_mb),0) "FREE_SPACE_%"
from (select TABLESPACE_NAME, round(sum(BYTES)/1024/1024) free_space_mb
from dba_free_space group by TABLESPACE_NAME) fs,
(select TABLESPACE_NAME, round(sum(BYTES)/1024/1024) total_space_mb
from dba_data_files group by TABLESPACE_NAME) ts
where fs.TABLESPACE_NAME(+)=ts.TABLESPACE_NAME ${EXTRA_PRED}
order by 2;
!
exit 0
fi
if [ "$1" = "params" ]; then
if [ "$2" != "" ]; then
PAT="%${2}%"
else
PAT="%"
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 150
col name format A45
col value format A20
col description format A70
select ksppinm name, ksppstvl value, ksppdesc description
from x\$ksppi x, x\$ksppcv y
where (x.indx = y.indx)
and ksppinm like ‘$PAT‘
order by name;
!
exit 0
fi
if [ "$1" = "bc" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 80
select * from (
select /*+ ordered use_hash(obj\$ v\$bh) */ name, count(*)
from obj\$, v\$bh
where obj\$.dataobj#=objd group by name order by 2 desc)
where rownum <= 10 ;
!
exit 0
fi
if [ "$1" = "events" ]; then
if [ "$2" = "px" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 6000
set linesize 120
col SID format 99999
col QCSID format 99999
col PID format 9999
col SPID format 9999999
col Inst format 999999
col Group format 999999
col Set format 999999
col Degree format 999999
col "Req Degree" format 999999
col "Wait Event" format A30
col sql_hash format A15
select px.qcsid, px.SID "SID", p.PID, p.SPID "SPID", px.INST_ID "Inst",
px.SERVER_GROUP "Group", px.SERVER_SET "Set",
px.DEGREE "Degree", px.REQ_DEGREE "Req Degree",
w.event "Wait Event", s.SQL_HASH_VALUE hash_value
from GV\$SESSION s, GV\$PX_SESSION px, GV\$PROCESS p, GV\$session_wait w
where s.sid (+) = px.sid
and s.inst_id (+) = px.inst_id
and s.sid = w.sid (+)
and s.inst_id = w.inst_id (+)
and s.paddr = p.addr (+)
and s.inst_id = p.inst_id (+)
ORDER BY decode(px.QCINST_ID, NULL, px.INST_ID, px.QCINST_ID), px.QCSID,
decode(px.SERVER_GROUP, NULL, 0, px.SERVER_GROUP),
px.SERVER_SET, px.INST_ID;
!
else
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 80
select event, count(*)
from v\$session_wait
where wait_time = 0 group by event;
!
fi
exit 0
fi
if [ "$1" = "temp" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 80
col file_name format A40
col USED_SPACE format A20
col MAX_USED_SPACE format A20
select round(used_blocks*(select max(BLOCK_SIZE)
from dba_tablespaces
where tablespace_name=‘SYSTEM‘)
/1024/1024)+1 || ‘ MB (used)‘ as used_space,
round(max_used_blocks*8/1024)+1 ||‘ MB (max used)‘ as max_used_space
from v\$sort_segment;
select sum(round(BYTES/1024/1024)+1) total_size_mb
from dba_temp_files ;
!
exit 0
fi
if [ "$1" = "sort_usage" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 200
select * from v\$sort_usage where tablespace = ‘TS_TEMP‘;
select * from v\$sort_segment where tablespace_name = ‘TS_TEMP‘;
rem select * from v\$temp_space_header where tablespace_name = ‘TS_TEMP‘;
select * from v\$temp_extent_pool where tablespace_name = ‘TS_TEMP‘;
!
exit 0
fi
if [ "$1" = "sga_stats" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 10000
set linesize 200
prompt
prompt SGA DYNAMIC COMPNENTS
select substr(COMPONENT,1,25) COMPONENT,
CURRENT_SIZE/1024/1024 CURRENT_SIZE_mb,
MIN_SIZE/1024/1024 MIN_SIZE_MB, MAX_SIZE/1024/1024 MAX_SIZE_MB,
LAST_OPER_TYPE, LAST_OPER_MODE
from v\$sga_dynamic_components;
prompt
prompt CURRENT SGA RESIZE OPERATIONS
select COMPONENT, OPER_TYPE, OPER_MODE, PARAMETER
from v\$sga_current_resize_ops;
!
exit 0
fi
if [ "$1" = "exptbs" ]; then
sqlplus -s /NOLOG << ! | egrep -v "Connected|selected"
connect $DBUSER
set pagesize 0
set linesize 80
select ‘#!/bin/ksh‘||chr(10)||chr(10)||‘svrmgrl <<!‘ from dual;
select ‘ connect $DBUSER‘ from dual;
select ‘ alter tablespace ‘ || TABLESPACE_NAME || ‘ read only;‘
from dba_tablespaces
where TABLESPACE_NAME != ‘SYSTEM‘ and contents = ‘PERMANENT‘
and tablespace_name not in (select TABLESPACE_NAME
from dba_rollback_segs);
select ‘!‘ from dual;
!
sqlplus -s /NOLOG << ! | egrep -v "Connected|selected" > $ORA_TMP/lst$$
connect $DBUSER
set pagesize 0
set linesize 80
select TABLESPACE_NAME from dba_tablespaces
where TABLESPACE_NAME != ‘SYSTEM‘ and contents = ‘PERMANENT‘
and tablespace_name not in (select TABLESPACE_NAME
from dba_rollback_segs);
!
LST_TBS=`cat $ORA_TMP/lst$$`
LST_TBS=`echo $LST_TBS | sed -e ‘s/ /,/g‘`
rm -f $ORA_TMP/lst$$
echo "exp TRANSPORT_TABLESPACE=y TABLESPACES=$LST_TBS"
echo
exit 0
fi
if [ "$1" = "imptbs" ]; then
sqlplus -s /NOLOG << ! | egrep -v "Connected|selected" > $ORA_TMP/lst$$
connect $DBUSER
set pagesize 0
set linesize 80
select /*+ ordered use_hash(t) */ ‘‘‘‘ || file_name || ‘‘‘‘
from dba_data_files f, dba_tablespaces t
where t.TABLESPACE_NAME = f.TABLESPACE_NAME
and t.TABLESPACE_NAME != ‘SYSTEM‘ and t.contents = ‘PERMANENT‘
and t.tablespace_name not in (select TABLESPACE_NAME
from dba_rollback_segs);
!
LST_FILES=`cat $ORA_TMP/lst$$`
LST_FILES=`echo $LST_FILES | sed -e ‘s/ /,/g‘`
rm -f $ORA_TMP/lst$$
sqlplus -s /NOLOG << ! | egrep -v "Connected|selected" > $ORA_TMP/lst$$
connect $DBUSER
set pagesize 0
set linesize 80
select TABLESPACE_NAME from dba_tablespaces
where TABLESPACE_NAME != ‘SYSTEM‘ and contents = ‘PERMANENT‘
and tablespace_name not in (select TABLESPACE_NAME
from dba_rollback_segs);
!
LST_TBS=`cat $ORA_TMP/lst$$`
LST_TBS=`echo $LST_TBS | sed -e ‘s/ /,/g‘`
rm -f $ORA_TMP/lst$$
echo "#!/bin/ksh"
echo
echo
echo "imp LOG=export.log TRANSPORT_TABLESPACE=y BUFFER=100000000 DATAFILES=$LST_FILES TABLESPACES=$LST_TBS"
echo
echo "svrmgrl << !"
echo
echo " connect $DBUSER"
sqlplus -s /NOLOG << ! | egrep -v "Connected|selected"
connect $DBUSER
set pagesize 0
set linesize 80
select ‘ alter tablespace ‘ || TABLESPACE_NAME || ‘ read write;‘
from dba_tablespaces
where TABLESPACE_NAME != ‘SYSTEM‘ and contents = ‘PERMANENT‘
and tablespace_name not in (select TABLESPACE_NAME
from dba_rollback_segs);
select ‘!‘ from dual;
!
exit 0
fi
if [ "$1" = "longops" ]; then
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=sql_hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set linesize 120
column opname format a30 wrap
select $COLNM $COLNM_HEADER, opname, sofar, totalwork,
round(sofar*100/totalwork) percent,
round(elapsed_seconds/60) "Elapsed (min)",
decode(sofar,0,0,round(elapsed_seconds*(totalwork-sofar)/
(sofar*60))) "To go (min)",
context dfo
from v\$session_longops
where sofar != totalwork;
!
exit 0
fi
if [ "$1" = "sga" ]; then
sqlplus -s /NOLOG << ! | egrep -v "Connected"
connect $DBUSER
set pagesize 6000
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select nvl(pool, ‘Total‘) pool,
decode(name, NULL, decode(pool, NULL, NULL, ‘(total)‘), name) name,
round(sum(bytes)/1024) as size_kb
from v\$sgastat
where pool is not null
and name in (‘free memory‘, ‘PX msg pool‘, ‘sql area‘,
‘library cache‘)
group by rollup(pool, name)
order by 3;
!
exit 0
fi
if [ "$1" = "process" ]; then
version;
if [ $PGA_ADVICE -eq 1 ] ; then
FREEABLE="round(PGA_FREEABLE_MEM/1024) freeable, "
else
FREEABLE=""
fi
MAX=""
if [ "$2" != "" ]; then
MAX="and round(PGA_MAX_MEM/1024/1024) > $2"
fi
sqlplus -s /NOLOG << ! | egrep -v "Connected|PGA_USED_MEM|selected"
connect $DBUSER
set pagesize 6000
set tab off
set linesize 140
set echo off
col prg format A20
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select p.pid, p.spid, substr(p.program, 10, 20) prg,
round(PGA_USED_MEM/1024) used,
round(PGA_ALLOC_MEM/1024) alloc,
$FREEABLE round(PGA_MAX_MEM/1024) max
from v\$process p
where spid is not NULL $MAX
order by 4;
!
exit 0;
fi
if [ "$1" = "pga" ]; then
sqlplus -s /NOLOG << ! | egrep -v "Connected|PGA_USED_MEM|selected" > $ORA_TMP/pgaout$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select SPID, round(PGA_USED_MEM/1024), round(PGA_ALLOC_MEM/1024),
round(PGA_MAX_MEM/1024)
from v\$process
where spid is not NULL;
!
printf "%-20s %10s %10s %10s %15s %15s\n" NAME PID "USED(KB)" "ALLOC(KB)" "MAX_ALLOC(KB)" "MAP_SIZE(KB)"
TOTAL_SIZE=0
cat $ORA_TMP/pgaout$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
PID=$1
USED=$2
ALLOC=$3
MAX=$4
SIZE=0
KB=`/usr/proc/bin/pmap -x $PID 2>/dev/null | grep anon | grep -v exec | awk ‘{ s += $2 } END { print s}‘`
if [ "$KB" != "" ]; then
let SIZE="SIZE+KB"
fi
KB=`/usr/proc/bin/pmap -x $PID 2>/dev/null | grep heap | awk ‘{ s += $2 } END { print s}‘`
if [ "$KB" = "" ]; then
continue;
fi
let SIZE="SIZE+KB"
ps -edf | grep "$PID " | grep -v grep | read com
if [ "$com" = "" ]; then
continue;
fi
set $com
PNAME=$8
let TOTAL_SIZE="TOTAL_SIZE+SIZE/1024"
printf "%-20s %10u %10u %10u %15u %15u\n" $PNAME $PID $USED $ALLOC $MAX $SIZE
done
TOTAL_USED=`cat $ORA_TMP/pgaout$$ | awk ‘{ s += $2 } END { print int(s/1024)}‘`
TOTAL_ALLOC=`cat $ORA_TMP/pgaout$$ | awk ‘{ s += $3 } END { print int(s/1024)}‘`
MAX_MAX=`cat $ORA_TMP/pgaout$$ | awk ‘{ if (max < $3) max = $3} END {print max}‘`
printf "-------------------------------------------------------------------------------------\n"
printf "%-20s %10s %9uM %9uM %15u %14uM\n" "Total" " " $TOTAL_USED $TOTAL_ALLOC $MAX_MAX $TOTAL_SIZE
rm -f $ORA_TMP/pgaout$$
echo
exit 0
fi
#
# Detail of pga
#
if [ "$1" = "pga_detail" ]; then
if [ "$2" = "" ]; then
usage "OS pid or size threshold must be specified"
fi
if [ "$2" = "-mem" ] ; then
if [ "$3" = "" ]; then
usage "memory threshold not specified"
else
PRED="PGA_ALLOC_MEM > $3 * 1024 * 1024"
OSPID=""
fi
else
PRED="SPID=$2"
OSPID=$2
fi
sqlplus -s /NOLOG << ! | grep ‘###‘ | sed -e ‘s/.*###\(.*\)###\(.*\)###\(.*\)###/\1 \2 \3/g‘ > $ORA_TMP/pid$$
connect $DBUSER
select ‘###‘ || pid || ‘###‘ || spid || ‘###‘ || round(pga_alloc_mem/1024/1024) || ‘###‘ version
from v\$process
where $PRED;
!
FOUND=0
cat $ORA_TMP/pid$$ | while read a; do
set $a
ORA_PID=$1
OSPID=$2
MEM=$3
FOUND=1
echo
echo "Detail for process $OSPID (PGA allocated is $MEM MB)"
echo ‘****************************************************‘
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Statement processed|Function returned|rows selected"
connect $DBUSER
set pagesize 6000
set linesize 200
set tab off
set echo off
set long 4000
oradebug setmypid
oradebug call ksmpgd_get_detail $ORA_PID
! sleep 10
select PID, SERIAL#, CATEGORY, NAME, HEAP_NAME, BYTES, ALLOCATION_COUNT,
HEAP_DESCRIPTOR, PARENT_HEAP_DESCRIPTOR
from v\$process_memory_detail
where PID=$ORA_PID
order by bytes;
!
done
if [ $FOUND -eq 0 -a "$OSPID" != "" ]; then
usage "OS pid $OSPID does not exists in v\$process"
fi
rm -f $ORA_TMP/pid$$
exit 0
fi
if [ "$1" = "binds" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
version;
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
col sql_text format A75 WORD_WRAP
repfooter off;
col BIND_NAME format A15
column VALUE_STRING format A20 wrap
column CAPTURED format A10
column LAST_CAPTURED format A20
col sql_hash format A15
col sql_id format A18
col sql_text format A75 WORD_WRAP
select $COLNM ||
decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_text
from v\$sql
where child_number=$CNUM and $COLNAME=$HVAL;
select NAME BIND_NAME, POSITION POS, DATATYPE_STRING BIND_TYPE,
WAS_CAPTURED CAPTURED,
case
when WAS_CAPTURED=‘YES‘ and LAST_CAPTURED is null
then ‘YES‘
else ‘NO‘
end "Reverted",
TO_CHAR(LAST_CAPTURED, ‘HH:MI:SS (DD Mon)‘) LAST_CAPTURED,
VALUE_STRING
from v\$sql_bind_capture
where $COLNAME = $HVAL and CHILD_NUMBER=$CNUM;
!
exit 0
fi
if [ "$1" = "optenv" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
version;
# get SQL id
shift
setup_hash_value hash_value sql_id $1 $2
shift $SHIFT_PARAM
if [ "$1" != "" ]; then
PFIL=" and KQLFSQCE_PNAME like ‘%${1}%‘"
else
PFIL=""
fi
if [ "$COLNAME" = "sql_id" ]; then
COLNAME_KQLFSQCE=KQLFSQCE_SQLID
else
COLNAME_KQLFSQCE=KQLFSQCE_HASH
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
col sql_text format A75 WORD_WRAP
repfooter off;
col sql_text format A75 WORD_WRAP
col sql_hash format A15
col sql_id format A18
select $COLNM ||
decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_text
from v\$sql
where child_number=$CNUM
and $COLNAME = $HVAL;
select KQLFSQCE_PNAME name, KQLFSQCE_PVALUE value,
decode(bitand(KQLFSQCE_FLAGS, 2), 0, ‘NO‘, ‘YES‘) is_default
from X\$KQLFSQCE
where $COLNAME_KQLFSQCE=$HVAL
and KQLFSQCE_CHNO=$CNUM $PFIL order by 3,1;
!
exit 0
fi
if [ "$1" = "plan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
version;
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
if [ $VERSION_MAIN -lt 10 ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
set long 4000
col TQID format A4
col "SLAVE SQL" format A95 WORD_WRAP
col sql_hash format A15
col exec format 9999
col sql_text format A75 WORD_WRAP
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
alter session set "_complex_view_merging"=false;
select $COLNM||decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_text
from v\$sql
where child_number = $CNUM
and $COLNAME = $HVAL;
select ‘| Operation | Name | Rows | Bytes| Cost | TQ |IN-OUT| PQ Distrib | Pstart| Pstop |‘ as "Plan Table" from dual
union all /* QWEKLOIPYRTJHH7 */
select ‘---------------------------------------------------------------------------------------------------------------------------‘ from dual
union all
select rpad(‘| ‘||substr(lpad(‘ ‘,1*(depth))||operation||
decode(options, null,‘‘,‘ ‘||options), 1, 33), 34, ‘ ‘)||‘|‘||
rpad(substr(object_name||‘ ‘,1, 19), 20, ‘ ‘)||‘|‘||
lpad(decode(cardinality,null,‘ ‘,
decode(sign(cardinality-1000), -1, cardinality||‘ ‘,
decode(sign(cardinality-1000000), -1, round(cardinality/1000)||‘K‘,
decode(sign(cardinality-1000000000), -1, round(cardinality/1000000)||‘M‘,
round(cardinality/1000000000)||‘G‘)))), 7, ‘ ‘) || ‘|‘ ||
lpad(decode(bytes,null,‘ ‘,
decode(sign(bytes-1024), -1, bytes||‘ ‘,
decode(sign(bytes-1048576), -1, round(bytes/1024)||‘K‘,
decode(sign(bytes-1073741824), -1, round(bytes/1048576)||‘M‘,
round(bytes/1073741824)||‘G‘)))), 6, ‘ ‘) || ‘|‘ ||
lpad(decode(cost,null,‘ ‘,
decode(sign(cost-10000000), -1, cost||‘ ‘,
decode(sign(cost-1000000000), -1, round(cost/1000000)||‘M‘,
round(cost/1000000000)||‘G‘))), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(object_node,null,‘ ‘,
substr(object_node,length(object_node)-3,1) || ‘,‘ ||
substr(object_node,length(object_node)-1,2))||‘ ‘, 6, ‘ ‘) || ‘|‘ ||
lpad(decode(other_tag, null,‘ ‘,
decode(other_tag,‘PARALLEL_TO_SERIAL‘, ‘ P->S‘,
decode(other_tag, ‘PARALLEL_TO_PARALLEL‘, ‘ P->P‘,
decode(other_tag, ‘PARALLEL_COMBINED_WITH_PARENT‘, ‘ PCWP‘,
decode(other_tag, ‘PARALLEL_FROM_SERIAL‘, ‘ S->P‘,
decode(other_tag, ‘PARALLEL_COMBINED_WITH_CHILD‘, ‘ PCWC‘,
decode(other_tag,null,‘ ‘,other_tag)))))))||‘ ‘, 6, ‘ ‘) || ‘|‘ ||
rpad(‘ ‘||decode(distribution, null,‘ ‘,
decode(distribution, ‘PARTITION (ROWID)‘, ‘PART (RID)‘,
decode(distribution, ‘PARTITION (KEY)‘, ‘PART (KEY)‘,
decode(distribution, ‘ROUND-ROBIN‘, ‘RND-ROBIN‘,
decode(distribution, ‘BROADCAST‘, ‘BROADCAST‘,
distribution))))), 12, ‘ ‘) || ‘|‘ ||
lpad(decode(partition_start, ‘ROW LOCATION‘, ‘ROWID‘,
decode(partition_start, ‘KEY‘, ‘KEY‘, decode(partition_start,
‘KEY(INLIST)‘, ‘KEY(I)‘, decode(substr(partition_start, 1, 6),
‘NUMBER‘, substr(substr(partition_start, 8, 10), 1,
length(substr(partition_start, 8, 10))-1),
decode(partition_start,null,‘ ‘,partition_start)))))||‘ ‘, 7, ‘ ‘)|| ‘|‘ ||
lpad(decode(partition_stop, ‘ROW LOCATION‘, ‘ROW L‘,
decode(partition_stop, ‘KEY‘, ‘KEY‘, decode(partition_stop,
‘KEY(INLIST)‘, ‘KEY(I)‘, decode(substr(partition_stop, 1, 6),
‘NUMBER‘, substr(substr(partition_stop, 8, 10), 1,
length(substr(partition_stop, 8, 10))-1),
decode(partition_stop,null,‘ ‘,partition_stop)))))||‘ ‘,
7, ‘ ‘)||‘|‘ as "Explain plan"
from
(select /*+ no_merge */ hash_value sql_hash, ID, DEPTH, POSITION,
OPERATION, OPTIONS,
COST COST, CARDINALITY CARDINALITY, BYTES BYTES,
OBJECT_NODE,
OBJECT_OWNER, OBJECT_NAME, OTHER_TAG,
PARTITION_START,
PARTITION_STOP, DISTRIBUTION
from v\$sql_plan vp
where $COLNAME = $HVAL and CHILD_NUMBER = $CNUM)
union all
select ‘---------------------------------------------------------------------------------------------------------------------------‘ from dual;
REM
REM Print slave sql
REM
select /* QWEKLOIPYRTJHH7 */ decode(object_node,null,‘‘,
substr(object_node,length(object_node)-3,1) || ‘,‘ ||
substr(object_node,length(object_node)-1,2)) TQID,
other "SLAVE SQL"
from v\$sql_plan vp
where other is not NULL and
$COLNAME = $HVAL and CHILD_NUMBER=$CNUM;
!
else
shift
FMT=$*
if [ "$FMT" = "" ]; then
FMT="ALL"
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
repfooter off;
select * from table(dbms_xplan.display_cursor($HVAL, $CNUM, ‘$FMT‘));
!
fi
exit 0
fi
if [ "$1" = "wplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
set long 4000
col TQID format A4
col "SLAVE SQL" format A95 WORD_WRAP
col address format A12
col sql_hash format A15
col sql_id format A18
col exec format 9999
col sql_text format A75 WORD_WRAP
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
alter session set "_complex_view_merging"=false;
select $COLNM ||
decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_text
from v\$sql
where child_number = $CNUM
and $COLNAME = $HVAL;
select ‘| Operation | Name | Bytes | OMem | 1Mem | O/1/M | Last | LastMem | Time | ‘ as "Workarea Table" from dual
union all
select ‘------------------------------------------------------------------------------------------------------------------‘ from dual
union all
select rpad(‘| ‘||substr(lpad(‘ ‘,1*(depth))||operation||
decode(options, null,‘‘,‘ ‘||options), 1, 33), 34, ‘ ‘)||‘|‘||
rpad(substr(object_name||‘ ‘,1, 19), 20, ‘ ‘)||‘|‘||
lpad(decode(bytes,null,‘ ‘,
decode(sign(bytes-1024), -1, bytes||‘ ‘,
decode(sign(bytes-1048576), -1, round(bytes/1024)||‘K‘,
decode(sign(bytes-1073741824), -1, round(bytes/1048576)||‘M‘,
round(bytes/1073741824)||‘G‘)))), 7, ‘ ‘) || ‘|‘ ||
lpad(decode(estimated_optimal_size,null,‘ ‘,
decode(sign(estimated_optimal_size-1024), -1, estimated_optimal_size||‘K‘,
decode(sign(estimated_optimal_size-1048576), -1, round(estimated_optimal_size/1024)||‘M‘,
decode(sign(estimated_optimal_size-1073741824), -1, round(estimated_optimal_size/1048576)||‘G‘,
round(estimated_optimal_size/1073741824)||‘T‘)))), 6, ‘ ‘) || ‘|‘ ||
lpad(decode(estimated_onepass_size,null,‘ ‘,
decode(sign(estimated_onepass_size-1024), -1, estimated_onepass_size||‘K‘,
decode(sign(estimated_onepass_size-1048576), -1, round(estimated_onepass_size/1024)||‘M‘,
decode(sign(estimated_onepass_size-1073741824), -1, round(estimated_onepass_size/1048576)||‘G‘,
round(estimated_onepass_size/1073741824)||‘T‘)))), 6, ‘ ‘) || ‘|‘ ||
lpad(decode(OPTIMAL_EXECUTIONS, NULL, ‘ ‘,
decode(TOTAL_EXECUTIONS, 0, ‘-‘,
OPTIMAL_EXECUTIONS || ‘/‘ || ONEPASS_EXECUTIONS || ‘/‘ || MULTIPASSES_EXECUTIONS)), 8, ‘ ‘) || ‘ |‘ ||
lpad(decode(LAST_EXECUTION, NULL, ‘ ‘,
decode(TOTAL_EXECUTIONS, 0, ‘- ‘,
LAST_EXECUTION)), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(last_memory_used,null,‘ ‘,
decode(TOTAL_EXECUTIONS, 0, ‘- ‘,
decode(sign(last_memory_used-1024), -1, last_memory_used||‘K‘,
decode(sign(last_memory_used-1048576), -1, round(last_memory_used/1024)||‘M‘,
decode(sign(last_memory_used-1073741824), -1, round(last_memory_used/1048576)||‘G‘,
round(last_memory_used/1073741824)||‘T‘))))), 9, ‘ ‘) || ‘|‘ ||
lpad(decode(active_time,null,‘ ‘,
decode(TOTAL_EXECUTIONS, 0, ‘- ‘,
decode(sign(round(active_time)-1000), -1, round(active_time)||‘ms‘,
decode(sign(round(active_time/1000)-1000), -1, round(active_time/1000)||‘s‘,
decode(sign(round(active_time/1000)-3600), -1, round(active_time/1000/60)||‘m‘,
round(active_time/1000/3600)||‘h‘))))), 6, ‘ ‘) || ‘|‘ as "Workarea stats"
from
(select /*+ no_merge ordered use_nl(w) */
p.hash_value, p.ID, p.DEPTH, p.POSITION, p.OPERATION, p.OPTIONS,
p.BYTES BYTES, p.OBJECT_NODE, p.OBJECT_OWNER, p.OBJECT_NAME,
round(w.estimated_optimal_size/1024) estimated_optimal_size,
round(w.estimated_onepass_size/1024) estimated_onepass_size,
w.TOTAL_EXECUTIONS, w.OPTIMAL_EXECUTIONS, w.ONEPASS_EXECUTIONS,
w.MULTIPASSES_EXECUTIONS, w.LAST_EXECUTION,
round(w.last_memory_used/1024) last_memory_used,
round(w.active_time/1000) active_time
from v\$sql_plan p, v\$sql_workarea w
where p.address = w.address(+) and p.id = w.operation_id(+)
and p.$COLNAME = $HVAL
and w.$COLNAME(+) = $HVAL
and p.child_number=$CNUM
and w.child_number(+)=$CNUM)
union all
select ‘------------------------------------------------------------------------------------------------------------------‘ from dual;
REM
REM Print slave sql
REM
select /* QWEKLOIPYRTJHH7 */ decode(object_node,null,‘‘,
substr(object_node,length(object_node)-3,1) || ‘,‘ ||
substr(object_node,length(object_node)-1,2)) TQID,
other "SLAVE SQL"
from v\$sql_plan vp
where other is not NULL and
$COLNAME = $HVAL and child_number=$CNUM;
!
exit 0
fi
if [ "$1" = "pxplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
echo
echo "---------------------------------"
echo " QC plan "
echo "---------------------------------"
$ORA_PROG $ARGS plan $2
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected" > $ORA_TMP/pxplanout$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select distinct sv.$COLNAME, sv.object_node
from v\$sql_plan qc,
(SELECT object_node, $COLNAME
FROM v\$sql_plan
WHERE id=0 AND object_node is not null) sv
WHERE qc.$COLNAME = $HVAL AND qc.child_number = $CNUM
AND id != 0 AND qc.object_node = sv.object_node
order by sv.object_node;
!
cat $ORA_TMP/pxplanout$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
echo
echo "---------------------------------"
echo " DFO $2 "
echo "---------------------------------"
$ORA_PROG $ARGS plan $1
done
exit 0
fi
if [ "$1" = "mpass" ]; then
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected" > $ORA_TMP/mpassout$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select distinct $COLNM, child_number
from v\$sql_workarea
where MULTIPASSES_EXECUTIONS > 0
order by 1, 2;
!
cat $ORA_TMP/mpassout$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
echo
echo "--------------------------------------"
echo " Multi-pass cursor $1/$2 "
echo "--------------------------------------"
$ORA_PROG $ARGS wplan $1/$2
done
rm -f $ORA_TMP/mpassout$$
exit 0
fi
if [ "$1" = "onepass" ]; then
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected" > $ORA_TMP/mpassout$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select distinct $COLNM, child_number
from v\$sql_workarea
where ONEPASS_EXECUTIONS > 0
order by 1, 2;
!
cat $ORA_TMP/mpassout$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
echo
echo "--------------------------------------"
echo " One-pass cursor $1/$2 "
echo "--------------------------------------"
$ORA_PROG $ARGS wplan $1/$2
done
rm -f $ORA_TMP/mpassout$$
exit 0
fi
if [ "$1" = "pxwplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
echo
echo "---------------------------------"
echo " QC workarea plan "
echo "---------------------------------"
$ORA_PROG $ARGS wplan $2
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected" > $ORA_TMP/pxwplanout$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select distinct sv.$COLNM $COLNM_HEADER, sv.object_node
from v\$sql_plan qc,
(SELECT object_node, $COLNM
FROM v\$sql_plan
WHERE id=0 AND object_node is not null) sv
WHERE qc.$COLNAME = $HVAL AND qc.child_number = $CNUM
AND id != 0 AND qc.object_node = sv.object_node
order by sv.object_node;
!
cat $ORA_TMP/pxwplanout$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
echo
echo "----------------------------------------"
echo " DFO $2 workarea plan ($1)"
echo "----------------------------------------"
$ORA_PROG $ARGS wplan $1
done
exit 0
fi
if [ "$1" = "eplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
version;
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
if [ $VERSION_MAIN -lt 10 ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 140
set echo off
set long 4000
col TQID format A4
col "SLAVE SQL" format A95 WORD_WRAP
col address format A12
col sql_hash format A15
col sql_hash format A18
col exec format 9999
col sql_text format A75 WORD_WRAP
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
alter session set "_complex_view_merging"=false;
select $COLNM ||
decode(child_number, 0, ‘‘, ‘/‘||child_number) $COLNM_HEADER,
sql_text
from v\$sql
where child_number=$CNUM
and $COLNAME=$HVAL;
select ‘| Operation | Name | Starts | E-Rows | A-Rows | Buffers | Reads | Writes | E-Time |‘ as "Plan Table" from dual
union all /* QWEKLOIPYRTJHH7 */
select ‘------------------------------------------------------------------------------------------------------------------------‘ from dual
union all
select rpad(‘| ‘||substr(lpad(‘ ‘,1*(depth))||operation||
decode(options, null,‘‘,‘ ‘||options), 1, 33), 34, ‘ ‘)||‘|‘||
rpad(substr(object_name||‘ ‘,1, 19), 20, ‘ ‘)||‘|‘||
lpad(decode(starts,null,‘ ‘,
decode(sign(starts-1000), -1, starts||‘ ‘,
decode(sign(starts-1000000), -1, round(starts/1000)||‘K‘,
decode(sign(starts-1000000000), -1, round(starts/1000000)||‘M‘,
round(starts/1000000000)||‘G‘)))), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(cardinality,null,‘ ‘,
decode(sign(cardinality-1000), -1, cardinality||‘ ‘,
decode(sign(cardinality-1000000), -1, round(cardinality/1000)||‘K‘,
decode(sign(cardinality-1000000000), -1, round(cardinality/1000000)||‘M‘,
round(cardinality/1000000000)||‘G‘)))), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(outrows,null,‘ ‘,
decode(sign(outrows-1000), -1, outrows||‘ ‘,
decode(sign(outrows-1000000), -1, round(outrows/1000)||‘K‘,
decode(sign(outrows-1000000000), -1, round(outrows/1000000)||‘M‘,
round(outrows/1000000000)||‘G‘)))), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(crgets,null,‘ ‘,
decode(sign(crgets-10000000), -1, crgets||‘ ‘,
decode(sign(crgets-1000000000), -1, round(crgets/1000000)||‘M‘,
round(crgets/1000000000)||‘G‘))), 9, ‘ ‘) || ‘|‘ ||
lpad(decode(reads,null,‘ ‘,
decode(sign(reads-10000000), -1, reads||‘ ‘,
decode(sign(reads-1000000000), -1, round(reads/1000000)||‘M‘,
round(reads/1000000000)||‘G‘))), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(writes,null,‘ ‘,
decode(sign(writes-10000000), -1, writes||‘ ‘,
decode(sign(writes-1000000000), -1, round(writes/1000000)||‘M‘,
round(writes/1000000000)||‘G‘))), 8, ‘ ‘) || ‘|‘ ||
lpad(decode(etime,null,‘ ‘,
decode(sign(etime-10000000), -1, etime||‘ ‘,
decode(sign(etime-1000000000), -1, round(etime/1000000)||‘M‘,
round(etime/1000000000)||‘G‘))), 8, ‘ ‘) || ‘|‘ as "Explain plan"
from
(select /*+ no_merge */
HASH_VALUE, ID, DEPTH, POSITION, OPERATION, OPTIONS,
COST COST, CARDINALITY CARDINALITY, BYTES BYTES, OBJECT_NODE,
OBJECT_OWNER, OBJECT_NAME, OTHER_TAG, PARTITION_START,
PARTITION_STOP, DISTRIBUTION,
starts, OUTPUT_ROWS outrows, CR_BUFFER_GETS crgets,
DISK_READS reads, DISK_WRITES writes,
ELAPSED_TIME etime
from v\$sql_plan_statistics_all
where $COLNAME = $HVAL and CHILD_NUMBER=$CNUM)
union all
select ‘------------------------------------------------------------------------------------------------------------------------‘ from dual;
REM
REM Print slave sql
REM
select /* QWEKLOIPYRTJHH7 */ decode(object_node,null,‘‘,
substr(object_node,length(object_node)-3,1) || ‘,‘ ||
substr(object_node,length(object_node)-1,2)) TQID,
other "SLAVE SQL"
from v\$sql_plan vp
where other is not NULL and
$COLNAME = $HVAL and CHILD_NUMBER=$CNUM;
!
else
shift
FMT=$*
if [ "$FMT" = "" ]; then
FMT="RUNSTATS_TOT"
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 220
set echo off
repfooter off;
select * from table(dbms_xplan.display_cursor($HVAL, $CNUM, ‘$FMT‘));
!
fi
exit 0
fi
if [ "$1" = "pxeplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
COLNM_HEADER=sql_id
else
COLNM=hash_value
COLNM_HEADER=sql_hash
fi
echo
echo "---------------------------------"
echo " QC plan "
echo "---------------------------------"
$ORA_PROG $ARGS eplan $2
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected" > $ORA_TMP/pxeplanout$$
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select distinct sv.$COLNM $COLNM_HEADER, sv.object_node
from v\$sql_plan qc,
(SELECT object_node, $COLNM
FROM v\$sql_plan
WHERE id=0 AND object_node is not null) sv
WHERE qc.$COLNAME = $HVAL AND qc.child_number = $CNUM
AND id != 0 AND qc.object_node = sv.object_node
order by sv.object_node;
!
cat $ORA_TMP/pxeplanout$$ | while read a; do
if [ "$a" = "" ]; then
continue;
fi
set $a
echo
echo "---------------------------------"
echo " DFO $2 "
echo "---------------------------------"
$ORA_PROG $ARGS eplan $1
done
exit 0
fi
if [ "$1" = "hash_to_sqlid" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
echo
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select ‘SQL id is: ‘ || sql_id from v\$sql where hash_value = $2;
!
exit 0
fi
if [ "$1" = "sharing" ]; then
if [ "$2" = "" ]; then
usage "Cursor sql_id is missing"
fi
version;
SQLID=`echo "$2" | sed -e "s/\([0-9A-Fa-zA-Z]*\)\/\([0-9]*\)/\1/g"`
CNUM=`echo "$2" | sed -e "s/\([0-9A-F]*\)\/\([0-9]*\)/\2/g"`
if [ "$CNUM" = "" -o "$CNUM" = "$2" ]; then
CNUM=0
CNUM_MAX=100000000
else
CNUM_MAX=$CNUM
fi
sqlplus -s /NOLOG << !
connect $DBUSER
# set pagesize 0
# set tab off
# set linesize 140
# set echo off
# repfooter off;
# set timing off veri off space 1 flush on pause off termout on numwidth 10;
set heading on
set echo on
set feedback on
select * from v\$sql_shared_cursor
where sql_id=‘$SQLID‘
and child_number>=$CNUM and child_number<=$CNUM_MAX
order by child_number;
!
exit 0
fi
if [ "$1" = "sqlid_to_hash" ]; then
if [ "$2" = "" ]; then
usage "Sql_id parameter is missing"
fi
echo
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set pagesize 0
set tab off
set linesize 140
set echo off
repfooter off;
set timing off veri off space 1 flush on pause off termout on numwidth 10;
select ‘Hash value is: ‘ || hash_value from v\$sql where sql_id = ‘$2‘;
!
exit 0
fi
if [ "$1" = "last_sql_hash" ]; then
if [ "$2" = "" ]; then
SID=0
else
SID=$2
fi
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set heading off
set feedback off
select prev_hash_value ||
decode(prev_child_number, 0, ‘‘, ‘/‘ || prev_child_number)
from v\$session
where type = ‘USER‘
and username != ‘SYS‘
and $SID = 0 or sid = $SID;
!
exit 0
fi
if [ "$1" = "cur_mem" ]; then
COLNAME="0"
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
create_format_functions
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 140
set echo off
set long 4000
column inst_id heading id format 9
column lock_mode heading lm format a2
column pin_mode heading pm format a2
column sql_text format a53 word_wrap
column shr format a5
column per format a5
column run format a5
select /* ora cur_mem */
$INST_ID sql_text,
lock_mode, pin_mode,
$FORMAT_SIZE(sharable_mem) shr,
$FORMAT_SIZE(persistent_mem) per,
$FORMAT_SIZE(runtime_mem) run
from (
select
inst_id,
kglnaobj sql_text,
decode(kglhdlmd, 0, ‘0‘, 1, ‘N‘, 2, ‘S‘, 3, ‘X‘, ‘?‘) lock_mode,
decode(kglhdpmd, 0, ‘0‘, 1, ‘N‘, 2, ‘S‘, 3, ‘X‘, ‘?‘) pin_mode,
kglobhs0+kglobhs1+kglobhs2+kglobhs3+kglobhs4+kglobhs5+kglobhs6+kglobt16
sharable_mem,
kglobt08+kglobt11 persistent_mem,
kglobt10 runtime_mem,
kglnahsh hash_value,
kglobt03 sql_id,
kglobt09 child_number,
kglobt17 parsing_user_id
from x\$kglcursor_child)
where ($HVAL = 0 or $COLNAME = $HVAL)
and PARSING_USER_ID != $EXCLUDE
order by $INST_ID sharable_mem desc;
!
exit 0
fi
if [ "$1" = "shared_mem" ]; then
#
# Need to set 10235 to level 4 for this to work
#
# alter session set events ‘10235 trace name context forever, level 4‘;
#
COLNAME="0"
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 140
set echo off
set long 4000
column sqltext heading sqltext format a40
column comm heading comment format a16
column cnt heading cnt format 9999
column avgsize heading avg format 9999
column sumsize heading sum format 9999999
break on sqltext skip page
compute sum of sumsize on sqltext
select sql_text sqltext,
chunk_com comm,
count(*) cnt,
avg(chunk_size) avgsize,
sum(chunk_size) sumsize
from v\$sql_shared_memory
where ($HVAL = ‘0‘ or $COLNAME = $HVAL)
group by sql_text, chunk_com
order by 1, 5 desc;
!
exit 0
fi
if [ "$1" = "runtime_mem" ]; then
#
# Need to set 10277 to level 10 for for this to work
#
# alter session set event ‘10277 trace name context forever, level 10‘;
#
COLNAME="0"
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set pagesize 600
set tab off
set linesize 140
set echo off
set long 4000
column sqltext heading sqltext format a38
column type heading comment format a24
column cnt heading count format 9999
column sumsize heading size format 9999999
break on sqltext skip page
compute sum of sumsize on sqltext
select sql_text sqltext,
kksaicmt type,
count(*) cnt,
sum(kksaisiz) sumsize
from v\$sql v, x\$kksai x
where v.address = x.kksaipar
and ($HVAL = 0 or $COLNAME = $HVAL)
and v.PARSING_USER_ID != $EXCLUDE
group by sql_text, kksaicmt
order by 1, 4 desc;
!
exit 0
fi
if [ "$1" = "ash" ]; then
if [ "$2" = "" ]; then
usage "<minutes_from_now> parameter is missing"
fi
START_TIME=$2
shift 2
FNAME="/tmp/ashrpt$$.txt"
REM=1
DURATION=""
while [ "$1" != "" ]; do
if [ "$1" = "-f" ]; then
FNAME=$2
REM=0
shift 2
continue;
fi
DURATION="$1"
shift
done
sqlplus -s /NOLOG << ! >/dev/null 2>&1
connect $DBUSER
set pagesize 600
set tab off
set linesize 140
set echo off
set long 4000
define report_type = ‘text‘;
define begin_time = ‘-$START_TIME‘;
define duration = ‘$DURATION‘;
define report_name = ‘$FNAME‘;
@?/rdbms/admin/ashrpt
!
echo
echo " ASH Report Output"
echo " ================="
echo
cat $FNAME
if [ $REM -eq 1 ]; then
rm -f $FNAME
fi
exit 0
fi
if [ "$1" = "ash_wait" ]; then
if [ "$2" = "" ]; then
usage "<minutes_from_now> parameter is missing"
fi
START_TIME=$2
shift 2
FNAME="wait.graph"
DURATION=$START_TIME
while [ "$1" != "" ]; do
if [ "$1" = "-f" ]; then
FNAME=$2
shift 2
continue;
fi
DURATION="$1"
shift
done
FMT=‘MON DD HH24:MI:SS‘
sqlplus -s /NOLOG << ! > $FNAME 2>/dev/null
variable begin_date VARCHAR2(100)
variable end_date VARCHAR2(100)
connect $DBUSER
set serveroutput on feedback off echo off verify off;
begin
select to_char(sysdate - ((1/24/60) * $START_TIME), ‘$FMT‘),
to_char(sysdate - ((1/24/60) * ($START_TIME - $DURATION)), ‘$FMT‘)
into :begin_date, :end_date
from dual;
end;
/
DECLARE
event NUMBER;
slottime NUMBER;
waitonevent NUMBER;
event_name VARCHAR2(64);
-- Get top 10 events for query duration based on count of event samples
-- mxgraph cannot display only 1 point per line. Eliminate 1 point lines.
cursor top_10_events
is
select event#, event
from (
select
ash.event#,
ash.event,
count(*) as total_wait_count
from v\$active_session_history ash
where sample_time between to_date( :begin_date, ‘$FMT‘ )
and to_date( :end_date, ‘$FMT‘ ) and
session_state = ‘WAITING‘
group by ash.event#, ash.event order by total_wait_count desc )
where rownum < 10;
-- Get graph co-ordinates (time,wait_counts) for each of the top 10 events
cursor sesshist (cevent NUMBER)
is
select
min_slot,
evt_cnt
from (
select
(slot_id - min(slot_id) over ()) * slot_time as min_slot,
event#,
trunc((event_counts_per_slot/slot_time),1) as evt_cnt
from (
select
trunc( (cast(ash.sample_time as date) -
to_date(‘00:00:00 01/01/1970‘,
‘HH24:MI:SS MM/DD/YYYY‘)) * 86400 / (v.slot_time) ) as slot_id,
event#,
count(*) as event_counts_per_slot,
v.slot_time as slot_time
from v\$active_session_history ash,
( select
(case when trunc(duration/200) > 5 then trunc(duration/200)
else 5 end) as slot_time
from
( select ((to_date(:end_date, ‘$FMT‘) -
to_date(:begin_date, ‘$FMT‘))*86400) as duration
from dual)) v
where sample_time between to_date( :begin_date, ‘$FMT‘ ) and
to_date( :end_date, ‘$FMT‘ ) and
session_state = ‘WAITING‘
group by trunc( (cast(ash.sample_time as date) -
to_date(‘00:00:00 01/01/1970‘, ‘HH24:MI:SS MM/DD/YYYY‘)) * 86400 /
(v.slot_time) ) ,
event#))
where event# = cevent;
BEGIN
dbms_output.enable(10000);
dbms_output.put_line(‘TitleText: Top Wait Events - Count‘||chr(10)||‘XUnitText: Time (s)‘||chr(10)||‘YUnitText: Num of Slaves‘);
dbms_output.put_line(‘BarGraph: True‘||chr(10)||‘NoLines: True‘||chr(10)||‘PixelMarkers: True‘||chr(10)||‘BarWidth: 2‘);
OPEN top_10_events;
LOOP
FETCH top_10_events into event,event_name;
EXIT WHEN top_10_events%NOTFOUND;
dbms_output.put_line(chr(10)||‘"‘||event_name||‘"‘);
OPEN sesshist (event);
LOOP
FETCH sesshist into slottime,waitonevent;
EXIT WHEN sesshist%NOTFOUND;
dbms_output.put_line(slottime||‘ ‘||waitonevent);
END LOOP;
CLOSE sesshist;
END LOOP;
CLOSE top_10_events;
END;
/
!
mxgraph $FNAME
exit 0
fi
#
# all_mem: all the memory for a given hash value
#
if [ "$1" = "all_mem" ]; then
# $ORA_PROG plan $temp_hash_value
$ORA_PROG $ARGS cur_mem $2 $3
$ORA_PROG $ARGS shared_mem $2 $3
$ORA_PROG $ARGS runtime_mem $2 $3
exit 0
fi
if [ "$1" = "idxdesc" ]; then
if [ "$2" = "" ]; then
usage "username is missing"
fi
if [ "$3" != "" ]; then
EXTRA_PRED="and ind.table_name = upper(‘$3‘)"
else
EXTRA_PRED=""
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 300
set linesize 180
set feedback off
col uniq format a1 heading ‘Uniqueness‘ justify c trunc
col indname format a31 heading ‘Index Name‘ justify c trunc
col colname format a25 heading ‘Column Name‘ justify c trunc
col type form A6 trunc
break -
on table_name -
on indname -
on uniq -
on type -
select col.table_name, decode(ind.uniqueness,‘UNIQUE‘,‘Y‘,‘N‘) uniq,
decode(ind.index_type,‘NORMAL‘,‘‘,ind.index_type) type,
col.index_name indname,
col.column_name colname
from all_ind_columns col,
all_indexes ind
where col.table_owner = ind.table_owner
and col.index_name = ind.index_name
and ind.table_owner = upper(‘$2‘) ${EXTRA_PRED}
order by col.table_name, col.index_name, col.column_position ;
!
exit 0
fi
if [ "$1" = "segsize" ]; then
if [ "$2" = "" ]; then
usage "username is missing"
fi
if [ "$3" != "" ]; then
EXTRA_PRED="and seg.segment_name = upper(‘$3‘)"
else
EXTRA_PRED=""
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set linesize 140
set pagesize 300
column segment_name format a40;
column owner format a10;
column tablespace_name format a30;
column Size_MB format 999999999;
break on segment_name skip 1
-- compute sum label Total of Size_MB on segment_name;
select tablespace_name, segment_name||
decode(segment_type,‘TABLE‘,‘[Tab]‘,‘INDEX‘,‘[Idx]‘, ‘ROLLBACK‘, ‘[Rbs]‘) segment_name
, sum(bytes)/(1024*1024) Size_MB
from dba_segments seg
where seg.owner = upper (‘$2‘) ${EXTRA_PRED}
group by tablespace_name, segment_name||
decode(segment_type,‘TABLE‘,‘[Tab]‘,‘INDEX‘,‘[Idx]‘, ‘ROLLBACK‘, ‘[Rbs]‘)
order by Size_Mb ;
!
exit 0
fi
if [ "$1" = "tempu" ]; then
if [ "$2" != "" ]; then
EXTRA_PRED="AND s.username=upper(‘$2‘)"
else
EXTRA_PRED=""
fi
if [ "$ORA_USE_HASH" = "" ]; then
COLNM=sql_id
else
COLNM=sqlhash
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 100
set linesize 100
col sql_text format a90
col username format a15
col tablespace format a20
SELECT u.$COLNM, t.sql_text, s.username, u.tablespace, u.segtype,
u.contents, u.extents, u.blocks
FROM v\$session s, v\$sort_usage u, v\$sqlarea t
WHERE s.saddr=u.session_addr
AND u.sqlhash=t.hash_value ${EXTRA_PRED} ;
!
exit 0
fi
if [ "$1" = "sqlstats" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
if [ $VERSION_MAIN -ge 10 ]; then
DWRITES=", DIRECT_WRITES dw "
PLSQL="round(PLSQL_EXEC_TIME/1000000, 2) plsql,"
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 100
set linesize 160
select executions exe,
round(CPU_TIME/1000000, 2) cpu,
round(ELAPSED_TIME/1000000, 2) elaps, $PLSQL
BUFFER_GETS bgets, DISK_READS dr $DWRITES
from v\$sql
where $COLNAME = $HVAL ;
!
exit 0
fi
if [ "$1" = "optstats" ]; then
if [ "$2" = "" ]; then
usage "username is missing"
fi
if [ "$3" != "" ]; then
EXTRA_PRED="and table_name = upper(‘$3‘)"
else
EXTRA_PRED=""
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 400
set linesize 120
col DISTRATIO format 9999.99
break on table_name skip 1
col num_rows format 99999999999
col num_distinct format 99999999999
select * from (
select t.table_name, column_name, num_rows, num_distinct,
(num_distinct/num_rows)*100 DistRatio, row_number()
OVER( PARTITION BY t.table_name
order by (num_distinct/num_rows)*100 desc) Top100
from dba_tab_cols c, dba_tables t
where t.table_name=c.table_name
and t.num_rows > 0
and t.owner=upper(‘$2‘)
and c.table_name in (select distinct table_name from dba_tables
where owner=upper(‘$2‘) ${EXTRA_PRED} )
) where Top100 <= 100;
-- assuming we get most distinct columns within first 100
!
exit 0
fi
if [ "$1" = "userVs" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 300
select view_name
from all_views
where owner=‘SYS‘ and view_name like ‘ALL%‘
order by view_name ;
!
exit 0
fi
if [ "$1" = "fixedVs" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 300
select name
from v\$fixed_table
where name like ‘V\$%‘
order by name;
!
exit 0
fi
if [ "$1" = "fixedXs" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected"
connect $DBUSER
set pagesize 300
select name
from v\$fixed_table
where name like ‘X\$%‘ order by name;
!
exit 0
fi
#
# Dump the stack
#
if [ "$1" = "stack" ]; then
if [ "$2" = "" ]; then
usage "OS pid must be specified (ora stack <os_pid>)"
fi
OSPID=$2
sqlplus -s /NOLOG << ! | egrep "##" | sed -e ‘s/^##\(.*\)$/\1/g‘ > $ORA_TMP/ora
connect $DBUSER
set pagesize 600
set linesize 300
set tab off
set linesize 140
set echo off
set long 4000
oradebug setospid $OSPID
rem oradebug setvar pga ksedsl 1
rem oradebug call ksedst 0
oradebug dump callstack 1
column value format A200
select unique ‘##‘||ksppstvl value
from x\$ksppi x, x\$ksppcv y
where (x.indx = y.indx)
and ksppinm in (‘background_dump_dest‘,‘user_dump_dest‘,‘core_dump_dest‘);
!
# no yet found
rm -f $ORA_TMP/ora_file_res
cat $ORA_TMP/ora | while read DIR; do
FILE=`ls -C1 $DIR/*_${OSPID}.trc 2>/dev/null`
if [ "$FILE" != "" ]; then
egrep -n ‘\---- Call Stack Trace -----|----- End of Call Stack Trace‘ $FILE > $ORA_TMP/ora_file
NB_LINES=`tail -1 $ORA_TMP/ora_file`
if [ "$NB_LINES" != "" ]; then
FOUND=1
echo "$FILE" > $ORA_TMP/ora_file_res
break;
fi
fi
done
FILE=`cat $ORA_TMP/ora_file_res`
#
# Dump stack
#
if [ "$FILE" != "" ]; then
LINE_START=`tail -2 $ORA_TMP/ora_file | head -1 | sed -e ‘s/\([0-9]*\):.*/\1/g‘`
LINE_END=`tail -1 $ORA_TMP/ora_file | sed -e ‘s/\([0-9]*\):.*/\1/g‘`
let LINE_COUNT="LINE_END-LINE_START+1"
echo
echo
head -${LINE_END} $FILE | tail -${LINE_COUNT}
echo
else
echo
echo "Trace file not found, probably os pid does not exists"
echo
fi
exit 0
fi
#
# Do pstack on all process
#
if [ "$1" = "pstack" ]; then
HOST_NAME=`uname -n`
PID=$2
shift 2
if [ "$1" != "" ]; then
DIR=$1
else
DIR=$T_TRC
fi
if [ ! -d $DIR ]; then
usage "Directory $DIR does not exists"
fi
if [ "$ORACLE_SID" = "" ]; then
usage "ORACLE_SID must be defined"
fi
if [ "$PID" = "all" ]; then
ps -edf | egrep "ora_[a-z0-9]*_${ORACLE_SID}|oracle${ORACLE_SID}" | grep -v egrep | while read a; do
set $a
PID=$2
TARGET_FILE="$DIR/pstack_${PID}_${HOST_NAME}.trc"
echo >> $TARGET_FILE
CURDATE=`date +"%T (%D)"`
echo "######################## $CURDATE ########################" >> $TARGET_FILE
pstack $PID >> $TARGET_FILE 2> /dev/null
echo >> $TARGET_FILE
done
CURDATE=`date +"%T (%D)"`
echo "pstack_all completed for all process at $CURDATE"
else
pstack $PID
echo
fi
exit 0
fi
#
# Get system state dump and place result in specified directory
#
if [ "$1" = "system_state" ]; then
shift
if [ "$1" != "" ]; then
DIR=$1
else
DIR=$T_TRC
fi
if [ ! -d $DIR ]; then
usage "Directory $DIR does not exists"
fi
CURDATE=`date +"%T_%m|%d"`
HOST_NAME=`uname -n`
sqlplus -s /NOLOG << ! | egrep "##" | sed -e ‘s/^##\(.*\)$/\1/g‘ > $ORA_TMP/ora$$
connect $DBUSER
set pagesize 600
set linesize 300
set tab off
set linesize 140
set echo off
set long 4000
alter session set events ‘immediate trace name systemstate level 266‘;
select ‘##‘||VALUE || ‘/${ORACLE_SID}_ora_‘|| spid ||‘.trc‘ file_name
from v\$parameter, v\$process
where name = ‘user_dump_dest‘ and pid=userenv(‘pid‘);
!
FILE=`cat $ORA_TMP/ora$$`
rm -f $ORA_TMP/ora$$
mv $FILE "$DIR/sysstate_${CURDATE}_${HOST_NAME}.trc"
echo "System state file ‘sysstate_$CURDATE.trc‘ successfully produced"
exit 0
fi
if [ "$1" = "px_processes" ]; then
#
# This query was donated by Patrick
#
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set linesize 200
col "Wait Event" format a30
col SPID format A10
select s.sql_id,
px.SID "SID",
p.PID,
p.SPID "SPID",
px.INST_ID "Inst",
px.SERVER_GROUP "Group",
px.SERVER_SET "Set",
px.DEGREE "Degree",
px.REQ_DEGREE "Req Degree",
w.event "Wait Event", s.program
from GV\$SESSION s, GV\$PX_SESSION px, GV\$PROCESS p, GV\$SESSION_WAIT w
where s.sid (+) = px.sid and
s.inst_id (+) = px.inst_id and
s.sid = w.sid (+) and
s.inst_id = w.inst_id (+) and
s.paddr = p.addr (+) and
s.inst_id = p.inst_id (+)
ORDER BY decode(px.QCINST_ID, NULL, px.INST_ID, px.QCINST_ID),
px.QCSID,
decode(px.SERVER_GROUP, NULL, 0, px.SERVER_GROUP),
px.SERVER_SET,
px.INST_ID;
!
exit 0
fi
if [ "$1" = "cursor_summary" ] || [ "$1" = "pinned_cursors" ]; then
#
# This query summarizes information about pinned/locked/unpinned cursors
# and their sizes
#
create_format_functions
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set echo off
set lines 100
set pages 200
column curtyp heading curtyp format a6 truncate
column lmd heading lmd format a2
column pmd heading pmd format a2
column pc heading pc format a3
column tot heading total format a5
column cnt heading count format a5
column sum_heap0 heading sum0 format a5
column sum_heap4 heading sum4 format a5
column sum_heap6 heading sum6 format a5
column cnt_heap0 heading cnt0 format a5
column cnt_heap4 heading cnt4 format a5
column cnt_heap6 heading cnt6 format a5
column avg_heap0 heading avg0 format a5
column avg_heap4 heading avg4 format a5
column avg_heap6 heading avg6 format a5
column max_heap0 heading max0 format a5
column max_heap4 heading max4 format a5
column max_heap6 heading max6 format a5
select /* ora pinned_cursors */
case
when pc = ‘PAR‘ and lmd = ‘0‘ and pmd = ‘0‘ then
‘Parent Freeable‘
when pc = ‘PAR‘ and lmd = ‘N‘ and pmd = ‘0‘ then
‘Parent Inuse‘
when pc = ‘CHI‘ and lmd = ‘0‘ and pmd = ‘0‘ then
‘Child Freeable‘
when pc = ‘CHI‘ and lmd = ‘0‘ and pmd = ‘S‘ then
‘Pseudo Cursor ‘
when pc = ‘CHI‘ and lmd = ‘N‘ and pmd = ‘0‘ then
‘Child Cached‘
when pc = ‘CHI‘ and lmd = ‘N‘ and pmd = ‘S‘ then
‘Child Executing‘
else
‘Not Sure‘
end cursor_type,
pc, lmd, pmd,
$FORMAT_NUMBER(count(*)) cnt,
$FORMAT_SIZE(sum(tot)) tot,
$FORMAT_SIZE(count(decode(KGLOBHS0, 0, NULL, KGLOBHS0))) cnt_heap0,
$FORMAT_SIZE(count(decode(KGLOBHS6, 0, NULL, KGLOBHS6))) cnt_heap6,
$FORMAT_SIZE(sum(KGLOBHS0)) sum_heap0,
-- $FORMAT_SIZE(sum(KGLOBHS4)) sum_heap4,
$FORMAT_SIZE(sum(KGLOBHS6)) sum_heap6,
$FORMAT_SIZE(avg(KGLOBHS0)) avg_heap0,
-- $FORMAT_SIZE(avg(KGLOBHS4)) avg_heap4,
$FORMAT_SIZE(avg(KGLOBHS6)) avg_heap6,
$FORMAT_SIZE(max(KGLOBHS0)) max_heap0,
-- $FORMAT_SIZE(max(KGLOBHS4)) max_heap4,
$FORMAT_SIZE(max(KGLOBHS6)) max_heap6
from (
select KGLOBHS0,
KGLOBHS4,
KGLOBHS6,
kglobhs0+kglobhs4+kglobhs6 tot,
decode(kglhdadr, kglhdpar, ‘PAR‘, ‘CHI‘) pc,
decode(kglhdlmd, 0, ‘0‘, 1, ‘N‘, 2, ‘S‘, 3, ‘X‘, ‘?‘) lmd,
decode(kglhdpmd, 0, ‘0‘, 1, ‘N‘, 2, ‘S‘, 3, ‘X‘, ‘?‘) pmd,
case
when KGLOBT09 = 65535 then
‘0 PAR‘
when KGLHDLMD = 1 and KGLHDPMD > 0 then
‘1 PN CHI‘
when KGLHDLMD = 1 then
‘2 LK CHI‘
else
‘3 CHI‘
end cursor_type
from x\$kglcursor)
group by pc, lmd, pmd
order by pc desc, lmd, pmd
;
!
## $ORA_PROG $ARGS -pred "pin_mode = ‘S‘" cur_mem all
exit 0
fi
if [ "$1" = "rowcache" ]; then
#
# This query summarizes information about row cache objects
#
create_format_functions
sqlplus -s /NOLOG << ! | egrep -v "Connected|ADDRESS|selected"
connect $DBUSER
set echo off
set lines 80
set pages 200
column cache_name format a30 trunc
column subcache_name format a30 trunc
select $INST_ID parameter, count
from $V\$rowcache
order by 1,2;
select $INST_ID cache_name, lock_mode, lock_request, count(*)
from $V\$rowcache_parent
group by $INST_ID cache_name, lock_mode, lock_request
order by $INST_ID cache_name, lock_mode, lock_request;
select $INST_ID cache#, subcache_name, existent, count(*)
from $V\$rowcache_subordinate rs
group by $INST_ID cache#, subcache_name, existent
order by $INST_ID cache#, subcache_name, existent;
!
exit 0
fi
if [ "$1" = "gplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
setup_hash_value hash_value sql_id $2 $3
shift $SHIFT_PARAM
sqlplus -s /NOLOG << ! | grep ‘###‘ | sed -e ‘s/^###\(.*\)$/\1/g‘ > $ORA_TMP/oraout$$
connect $DBUSER
set pagesize 6000
set linesize 100
set tab off
col address format A15
col sql_hash format A15
col exec format 9999
col sql_text format A75 WORD_WRAP
create or replace procedure todot(d_rwo in number)
is
lvalue varchar2(100);
distr varchar2(32);
dfoname varchar(32);
rv varchar2(4000);
id number;
pid number;
dfonumber number;
cdfo number;
cpxid number;
pxid number;
mpxid number;
cursor nodes is
select ‘n_‘ || id ||
‘[label="‘ || operation || decode(object_name,‘‘,‘‘,‘(‘||object_name||‘)‘) || ‘"];‘
from v\$sql_plan
where id > 0 and $COLNAME = $HVAL and child_number = $CNUM;
cursor edges is
select parent_id, id, distribution
from v\$sql_plan
where id > 0 and $COLNAME = $HVAL and child_number = $CNUM;
cursor rwo is
select id, regexp_replace(regexp_replace(regexp_replace(projection,‘,[[:digit:]]+‘,‘‘),‘"‘,‘‘),‘,‘,‘|‘)
from v\$sql_plan
where id > 0 and $COLNAME = $HVAL and child_number = $CNUM;
cursor dfos is
select id, to_number(substr(object_node, 3,1)) pxid, to_number(substr(object_node, 4)) dfo
from v\$sql_plan
where id > 0 and $COLNAME = $HVAL and child_number = $CNUM and
object_node is not null
order by pxid, dfo;
begin
dbms_output.put_line(‘### digraph G {‘);
dbms_output.put_line(‘### graph [fontsize=12 labeljust=l];‘);
dbms_output.put_line(‘### edge [arrowhead=none arrowtail=normal fontsize=8];‘);
dbms_output.put_line(‘### node [shape=ellipse fontsize=8];‘);
SELECT max(to_number(substr(object_node, 3,1))) INTO mpxid FROM plan_table;
cdfo := -1;
cpxid := -1;
open dfos;
loop
fetch dfos into id, pxid, dfonumber;
EXIT WHEN dfos%NOTFOUND;
if ( (cdfo != dfonumber) or (pxid != cpxid) )then
if (cdfo != -1) then
dbms_output.put_line(‘### }‘);
end if;
if (mpxid > 1) then
dfoname := ‘DFO ‘ || (1000 * pxid + dfonumber);
else
dfoname := ‘DFO ‘ || dfonumber;
end if;
dbms_output.put_line(‘### subgraph "cluster_dfo_‘ || (pxid*1000 + dfonumber) || ‘" { label = "‘ || dfoname || ‘";‘);
cdfo := dfonumber;
cpxid := pxid;
end if;
dbms_output.put_line(‘### n_‘ || id || ‘;‘);
end loop;
close dfos;
if (cdfo != -1) then
dbms_output.put_line(‘### }‘);
end if;
open nodes;
loop
fetch nodes into lvalue;
EXIT WHEN nodes%NOTFOUND;
dbms_output.put_line(‘### ‘|| lvalue);
end loop;
close nodes;
if (d_rwo = 1) then
open rwo;
loop
fetch rwo into id, rv;
EXIT WHEN rwo%NOTFOUND;
dbms_output.put_line(‘### rwo_‘ || id || ‘[label="‘ || rv || ‘"];‘);
dbms_output.put_line(‘### n_‘|| id || ‘->‘ || ‘rwo_‘ || id || ‘;‘);
end loop;
close rwo;
end if;
open edges;
loop
fetch edges into pid, id, distr;
EXIT WHEN edges%NOTFOUND;
if (pid != 0) then
if (distr is null) then
dbms_output.put_line(‘### n_‘|| pid || ‘->‘ || ‘n_‘ || id || ‘;‘);
else
dbms_output.put_line(‘### n_‘|| pid || ‘->‘ || ‘n_‘ || id || ‘[label="‘|| distr || ‘"];‘);
end if;
end if;
end loop;
close edges;
dbms_output.put_line(‘### }‘);
end todot;
/
show errors;
set serveroutput on
call todot(0);
!
dotty $ORA_TMP/oraout$$
exit 0
fi
if [ "$1" = "webplan" ]; then
if [ "$2" = "" ]; then
usage "Cursor hash value is missing"
fi
setup_hash_value hash_value sql_id $2
shift $SHIFT_PARAM
if [ "$2" = "" ]; then
DECORATE=0
else
DECORATE=$2
fi
sqlplus -s /NOLOG <<EOF | grep ‘###‘ | sed -e ‘s/^###\(.*\)###$/\1/g‘ > $ORA_TMP/oragdlpre-$$
set echo off heading off feedback off
connect $DBUSER
select distinct ‘###‘ || hash_value || ‘###‘ from v\$sql where $COLNAME=$HVAL;
exit;
EOF
GDLHASH=`cat $ORA_TMP/oragdlpre-$$`
rm -f $ORA_TMP/oragdlpre-$$
if [ "$GDLHASH" = "" ]; then
print "Cursor hash value is absent in cursor cache"
exit 1;
fi
# Quick check to save recompiling procedures.
sqlplus -s /NOLOG <<EOF | grep ‘ORA-‘ > /dev/null 2>&1
connect $DBUSER
call ora_togdl(0,0,0) ;
EOF
## procedure does not exist,so compile it first time
if [ $? = 0 ]; then
sqlplus -s /NOLOG << ! > $ORA_TMP/oragdlpre$$ 2>&1
connect $DBUSER
set pagesize 6000
set linesize 4400
set tab off
col address format A15
col sql_hash format A15
col exec format 9999
col sql_text format A75 WORD_WRAP
create or replace procedure ora_print_edge(pid in number, id in number, distribution in varchar2)
is
begin
dbms_output.put_line(‘### edge: {‘);
dbms_output.put_line(‘### source:"n_‘ || pid || ‘"‘);
dbms_output.put_line(‘### target:"n_‘ || id || ‘"‘);
if (distribution is not null) then
dbms_output.put_line(‘### label:"‘ || distribution || ‘"‘);
end if;
dbms_output.put_line(‘### color:red‘);
dbms_output.put_line(‘### }‘);
end ora_print_edge;
/
show errors;
create or replace procedure ora_print_node(decorate in number, pxid in number, dfo in number, id in number,
position in number, label in varchar2,
cost in number, cpu_cost in number, io_cost in number, access_pred in varchar2,
card in number, bytes in number, temp_space in number, filter_pred in varchar2,
projection in varchar2)
is
newline boolean;
color1 number;
color2 number;
begin
newline := FALSE;
dbms_output.put_line(‘### node: {‘);
dbms_output.put_line(‘### title:"n_‘ || id || ‘"‘);
if (decorate <> 0 ) then
dbms_output.put(‘### label:"\fu\fb ‘ || id || ‘ : ‘ || label || ‘\fn\n‘);
if (cost is not null) then
dbms_output.put(‘cost:\f02‘ || cost || ‘\f31‘);
newline := TRUE;
end if;
if (cpu_cost is not null) then
dbms_output.put(‘,cpu_cost:\f02‘ || cpu_cost || ‘\f31‘);
newline := TRUE;
end if;
if (io_cost is not null) then
dbms_output.put(‘,io_cost:\f02‘ || io_cost || ‘\f31‘);
newline := TRUE;
end if;
if (card is not null) then
if (newline = TRUE) then
dbms_output.put(‘\n‘);
end if;
dbms_output.put(‘card:\f02‘ || card || ‘\f31‘);
newline := TRUE;
end if;
if (bytes is not null) then
dbms_output.put(‘,bytes:\f02‘ || bytes || ‘\f31‘);
newline := TRUE;
end if;
if (temp_space is not null) then
dbms_output.put(‘,temp_space:\f02‘ || temp_space || ‘\f31‘);
newline := TRUE;
end if;
if (access_pred is not null) then
if (newline = TRUE) then
dbms_output.put(‘\n‘);
end if;
dbms_output.put(‘access (‘ || access_pred || ‘)‘);
newline := TRUE;
end if;
if (filter_pred is not null) then
if (newline = TRUE) then
dbms_output.put(‘\n‘);
end if;
dbms_output.put(‘filter: (‘ || filter_pred || ‘)‘);
newline := TRUE;
end if;
if (decorate = 2) then
if (projection is not null) then
if (newline = TRUE) then
dbms_output.put(‘\n‘);
end if;
dbms_output.put(‘projection: ‘ || projection);
newline := TRUE;
end if;
end if;
dbms_output.put_line(‘"‘);
else
dbms_output.put_line(‘### label:"‘ || label || ‘"‘);
end if;
dbms_output.put_line(‘### horizontal_order:‘ || id );
dbms_output.put_line(‘### shape:ellipse‘);
if (pxid is null) then
color1 := 0;
color2 := 0;
else
color1 := 13 + pxid;
color2 := 23 + pxid;
end if;
if (mod(dfo,2) = 0) then
dbms_output.put_line(‘### color :‘ || color1);
else
dbms_output.put_line(‘### color :‘ || color2);
end if;
dbms_output.put_line(‘### }‘);
dbms_output.put_line(‘###‘);
end ora_print_node;
/
create or replace procedure ora_print_graph_prolog(dfonumber in number, pxid in number)
is
dfoname varchar(100);
color1 number;
color2 number;
begin
if (pxid > 1) then
dfoname := ‘PX:‘ || pxid || ‘:DFO ‘ || dfonumber;
else
dfoname := ‘DFO ‘ || dfonumber;
end if;
dbms_output.put_line(‘###graph: {‘);
dbms_output.put_line(‘### title :"‘ || dfoname || ‘"‘);
dbms_output.put_line(‘### label :"‘ || dfoname || ‘"‘);
dbms_output.put_line(‘### status :clustered‘);
dbms_output.put_line(‘### shape :triangle‘);
color1 := 13 + pxid;
color2 := 23 + pxid;
if (mod(dfonumber,2) = 0) then
dbms_output.put_line(‘### color :‘ || color1);
else
dbms_output.put_line(‘### color :‘ || color2);
end if;
dbms_output.put_line(‘###‘);
end ora_print_graph_prolog;
/
create or replace procedure ora_print_graph_epilog
is
begin
dbms_output.put_line(‘### }‘);
end ora_print_graph_epilog;
/
create or replace procedure ora_print_topgraph_properties(complexity in number)
is
begin
dbms_output.put_line(‘###graph: {‘);
dbms_output.put_line(‘### display_edge_labels: yes‘);
dbms_output.put_line(‘### fontname: "timR"‘);
dbms_output.put_line(‘### edge.arrowstyle:none‘);
dbms_output.put_line(‘### layoutalgorithm:dfs‘);
-- complicated parallel trees, need some finetuning.
if (complexity > 3) then
dbms_output.put_line(‘### equal_y_dist: yes‘);
dbms_output.put_line(‘### layout_downfactor: 100‘);
dbms_output.put_line(‘### layout_upfactor: 0‘);
dbms_output.put_line(‘### layout_nearfactor: 10‘);
dbms_output.put_line(‘### dirty_edge_labels: yes‘);
dbms_output.put_line(‘### manhattan_edges: yes‘);
else
dbms_output.put_line(‘### splines:yes‘);
dbms_output.put_line(‘### xspace: 10‘);
dbms_output.put_line(‘### manhattan_edges: yes‘);
end if ;
dbms_output.put_line(‘###‘);
end ora_print_topgraph_properties;
/
create or replace procedure ora_togdl (sql_hash in number, cnum in number, decorate in number)
is
label varchar2(100);
distr varchar2(100);
id number;
pid number;
pxid number;
position number;
cdfo number;
cpxid number;
dfonumber number;
cost number;
cpu_cost number;
io_cost number;
access_pred varchar2(4000);
filter_pred varchar2(4000);
projection varchar2(4000);
card number;
bytes number;
temp_space number;
complexity number;
cursor edge is
select parent_id, id, lower(distribution) || case other_tag
when ‘PARALLEL_TO_PARALLEL‘ then ‘ P->P ‘
when ‘PARALLEL_TO_SERIAL‘ then ‘ P->S ‘
when ‘PARALLEL_FROM_SERIAL‘ then ‘ S->P ‘
else ‘‘ end
from v\$sql_plan
where id >0 and
hash_value = sql_hash
and child_number = cnum;
cursor node is
select id,
to_number(substr(object_node, 3,1)) pxid,
to_number(substr(object_node, 4)) dfo,
position position,
lower(operation) || ‘ ‘ || lower(options) || nvl2(object_name, ‘(‘ ||
nvl2(object_owner, object_owner || ‘.‘ ,‘‘) ||
object_name ||
nvl2(object_alias, ‘ ‘ ||
regexp_replace(object_alias, ‘(@.*)‘, ‘‘) , ‘‘) || ‘)‘, ‘‘) label,
cost,
cpu_cost,
io_cost,
replace(access_predicates, ‘"‘,‘‘),
cardinality,
bytes,
temp_space,
replace(filter_predicates, ‘"‘,‘‘),
replace(projection, ‘"‘,‘‘)
from v\$sql_plan
where hash_value = sql_hash
and child_number = cnum
order by pxid desc, dfo desc, id;
begin
if (sql_hash = 0) then
return;
end if;
select max(nvl(to_number(substr(object_node, 4)), 0)) into complexity
from v\$sql_plan
where hash_value = sql_hash
and child_number = cnum;
ora_print_topgraph_properties(complexity);
cdfo := -1;
cpxid := -1;
open node;
loop
fetch node into id, pxid, dfonumber, position,label,cost,cpu_cost,io_cost, access_pred, card, bytes, temp_space,
filter_pred, projection;
EXIT WHEN node%NOTFOUND;
if ( (cdfo != dfonumber) or (pxid != cpxid) ) then
if (cdfo != -1) then
ora_print_graph_epilog;
end if;
ora_print_graph_prolog(dfonumber, pxid);
cdfo := dfonumber;
cpxid := pxid;
end if;
ora_print_node(decorate, pxid, dfonumber,id, position,label, cost, cpu_cost, io_cost, access_pred, card, bytes,
temp_space, filter_pred, projection);
end loop;
close node;
if (cdfo != -1) then
ora_print_graph_epilog;
end if;
open edge;
loop
fetch edge into pid, id, distr;
EXIT WHEN edge%NOTFOUND;
ora_print_edge(pid, id, distr);
end loop;
close edge;
ora_print_graph_epilog;
end ora_togdl;
/
show errors;
!
rm -f $ORA_TMP/oragdlpre$$
fi
### All procedures compiled, now ready for graph generation.
sqlplus -s /NOLOG << ! | grep ‘###‘ | sed -e ‘s/^###\(.*\)$/\1/g‘ > $ORA_TMP/oragdl$$
connect $DBUSER
set pagesize 6000
set linesize 4400
set tab off
set serveroutput on
call ora_togdl($GDLHASH, $CNUM, $DECORATE);
!
# Convert gdl file to png, and show it on the browser
$RENDER -lm 0px -tm 0px -scale 100 -pngoutput $ORA_TMP/oraXpl$$.png -htmloutput $ORA_TMP/oraXpl$$.html $ORA_TMP/oragdl$$ > /dev/null 2>&1
$BROWSER $ORA_TMP/oraXpl$$.png
## SVG/Javascript/clickable nodes sometime later...
#$RENDER -svgoutput $ORA_TMP/oraXpl$$.svg $ORA_TMP/oragdl$$
#$BROWSER $ORA_TMP/oraXpl$$.svg
rm -f $ORA_TMP/oragdl$$
rm -f $ORA_TMP/oraXpl$$.html
exit 0
fi
if [ "$1" = "monitor_list" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 180
set pages 600
col sql_text format A80 wrap
select m.sql_id, sql_exec_id, round(m.elapsed_time/1000000) "Elapsed(s)",
round(m.CPU_TIME/1000000) "Cpu(s)", sql_text
from v\$sql_monitor m, v\$sql s
where m.SQL_ID = s.SQL_ID
and m.SQL_CHILD_ADDRESS = s.CHILD_ADDRESS
and m.PX_SERVER# is null
order by SQL_EXEC_START;
!
exit 0
fi
if [ "$1" = "monitor" ]; then
shift 1
if [ "$1" = "xml" ]; then
ARGS=", type=>‘XML‘"
shift
else
ARGS=""
fi
SQLID="‘$1‘"
#
# Check if sql_id
#
if [ ${#SQLID} -eq 15 ]; then
shift 1
ARGS="sql_id=>$SQLID $ARGS"
else
ARGS="$* $ARGS"
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 300
set heading off
set pages 0
set long 2000000
set longchunksize 2000000
select dbms_sqltune.report_sql_monitor($ARGS) Monitor_report from dual;
set heading on
set pages 50000
!
exit 0
fi
if [ "$1" = "monitor_old" ]; then
if [ "$2" = "ash_all" ]; then
shift
#
# Use all rows from ash for the execution of that statement. This way, with
# short running queries, we would get more ash samples
#
ASH_JOIN_COLUMN_OUTER="sql_id, sql_plan_hash_value"
ASH_JOIN_COLUMN_INNER="ma.sql_id, ma.sql_plan_hash_value"
else
#
# Only use ash samples for the specified target
#
ASH_JOIN_COLUMN_OUTER="sql_id, session_id, sql_exec_start, sql_exec_id,
sql_plan_hash_value"
ASH_JOIN_COLUMN_INNER="ma.sql_id, ma.sid, ma.SQL_EXEC_START, ma.SQL_EXEC_ID,
ma.sql_plan_hash_value"
fi
if [ "$2" = "" -o "$2" = "qc" -o "$2" = "1" -o "$2" = "2" ]; then
PRED=" sql_id = (select unique sql_id
from v\$sql_monitor
where
to_char(sql_exec_start,‘YY:MM:DD:HH24:MI:SS:‘)||
to_char(sql_exec_id, ‘0000000000‘) =
(select max(to_char(sql_exec_start,‘YY:MM:DD:HH24:MI:SS:‘)||
to_char(sql_exec_id, ‘0000000000‘))
from v\$sql_monitor))";
EXTRA_PRED=" and 1=1"
else
SQLID="‘$2‘"
HASHVAL=$2
shift
#
# Check if numeric hash
#
if [ ${#SQLID} -eq 15 ]; then
PRED="sql_id = $SQLID"
else
PRED="hash_value = $HASHVAL"
fi
fi
EXTRA_PRED=" and 1=1";
if [ "$2" != "" ]; then
if [ "$2" = "qc" ]; then
EXTRA_PRED=" and PX_SERVER_GROUP is NULL"
else
EXTRA_PRED="$EXTRA_PRED and PX_SERVER_GROUP=$2"
fi
if [ "$3" != "" ]; then
EXTRA_PRED="$EXTRA_PRED and PX_SERVER_SET=$3"
fi
if [ "$4" != "" ]; then
EXTRA_PRED="$EXTRA_PRED and PX_SERVER#=$4"
fi
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 300
set pages 600
var sqlid varchar2(13)
begin
select unique sql_id into :sqlid
from v\$sqlarea
where $PRED ;
end;
/
with
monattr as (select unique SQL_ID, SQL_EXEC_START, SQL_EXEC_ID
from v\$sql_monitor
where sql_id = :sqlid and
to_char(sql_exec_start,‘YY:MM:DD:HH24:MI:SS:‘)||
to_char(sql_exec_id, ‘0000000000‘) =
(select max(to_char(sql_exec_start,‘YY:MM:DD:HH24:MI:SS:‘)||
to_char(sql_exec_id, ‘0000000000‘))
from v\$sql_monitor
where sql_id = :sqlid))
select SQL_ID, STATUS, PX_SERVER_GROUP slave_grp,
PX_SERVER_SET slave_set, PX_SERVER# slave#,
round(CPU_TIME/1000000) "Cpu (s)",
round(ELAPSED_TIME/1000000) "Elapsed (s)", DISK_READS "IO Reads",
DIRECT_WRITES "IO Writes"
from gv\$sql_monitor
where (sql_id, SQL_EXEC_START, SQL_EXEC_ID) in
(select sql_id, SQL_EXEC_START, sql_exec_id from monattr)
$EXTRA_PRED
order by 1, slave_grp nulls first, slave_set, slave#;
set linesize 300
col Operation format A60 wrap
col id format 999
col "Starts#" format A9
col "Rows#" format A9
col "Cpu(%)" format 999
col "IO(%)" format 999
col "Tot(%)" format 999
col "Wait(%)" format 999
col "Prog(%)" format A7
with
monattr as (select KEY, SQL_ID, SID, SQL_EXEC_START, SQL_EXEC_ID,
SQL_PLAN_HASH_VALUE
from gv\$sql_monitor
where sql_id = :sqlid $EXTRA_PRED and
to_char(sql_exec_start,‘YY:MM:DD:HH24:MI:SS:‘)||
to_char(sql_exec_id, ‘0000000000‘) =
(select max(to_char(sql_exec_start,‘YY:MM:DD:HH24:MI:SS:‘)||
to_char(sql_exec_id, ‘0000000000‘))
from v\$sql_monitor
where sql_id = :sqlid))
select case when active_sec is NULL then NULL
when active_sec < 5 then ‘X‘
else ‘.‘
end s,
line_id Id,
op "Operation",
decode(nbstarts, 0, NULL, nbstarts) "Starts#",
decode(nbstarts, 0, NULL, nbrows) "Rows#",
decode(percent, 0, NULL, percent) "Prog(%)",
mem "Mem (KB)", spill "Spill (KB)",
case when cpu_20 = 0 and io_20 = 0 and wait_20 = 0 then ‘|.‘
when cpu_20 > io_20 and cpu_20 > wait_20 then ‘|cpu‘
when cpu_20 < io_20 and io_20 > wait_20 then ‘|io‘
else ‘|wait‘ end t20,
case when cpu_40 = 0 and io_40 = 0 and wait_40 = 0 then ‘.‘
when cpu_40 > io_40 and cpu_40 > wait_40 then ‘cpu‘
when cpu_40 < io_40 and io_40 > wait_40 then ‘io‘
else ‘wait‘ end t40,
case when cpu_60 = 0 and io_60 = 0 and wait_60 = 0 then ‘.‘
when cpu_60 > io_60 and cpu_60 > wait_60 then ‘cpu‘
when cpu_60 < io_60 and io_60 > wait_60 then ‘io‘
else ‘wait‘ end t60,
case when cpu_80 = 0 and io_80 = 0 and wait_80 = 0 then ‘.‘
when cpu_80 > io_80 and cpu_80 > wait_80 then ‘cpu‘
when cpu_80 < io_80 and io_80 > wait_80 then ‘io‘
else ‘wait‘ end t80,
case when cpu_100 = 0 and io_100 = 0 and wait_100 = 0 then ‘. |‘
when cpu_100 > io_100 and cpu_100 > wait_100 then ‘cpu |‘
when cpu_100 < io_100 and io_100 > wait_100 then ‘io |‘
else ‘wait|‘ end t100,
round((cpu+io+wait) * 100 / total_cnt) "Tot(%)",
round(cpu * 100 / total_cnt) "Cpu(%)",
round(io * 100 / total_cnt) "IO(%)",
round(wait * 100 / total_cnt) "Wait(%)"
from
(select line_id, op, nbrows, nbstarts, mem, spill,
case when max(ala) is null and max(plc) is NULL then NULL
else ((case when max(status) like ‘DONE%‘ then sysdate
else max(last_refresh_time)
end) -
(case when max(ala) is NULL then max(plc)
when max(plc) is NULL then max(ala)
when max(ala) > max(plc) then max(ala) else max(plc)
end)) * 3600 * 24
end active_sec,
max(total_cnt) total_cnt,
sum(case when class = ‘CPU‘ then cnt else 0 end) cpu,
sum(case when class = ‘IO‘ then cnt else 0 end) io,
sum(case when class = ‘WAIT‘ then cnt else 0 end) wait,
sum(case when class = ‘CPU‘ and period = 20 then cnt else 0 end) cpu_20,
sum(case when class = ‘IO‘ and period = 20 then cnt else 0 end) io_20,
sum(case when class = ‘WAIT‘ and period = 20 then cnt else 0 end) wait_20,
sum(case when class = ‘CPU‘ and period = 40 then cnt else 0 end) cpu_40,
sum(case when class = ‘IO‘ and period = 40 then cnt else 0 end) io_40,
sum(case when class = ‘WAIT‘ and period = 40 then cnt else 0 end) wait_40,
sum(case when class = ‘CPU‘ and period = 60 then cnt else 0 end) cpu_60,
sum(case when class = ‘IO‘ and period = 60 then cnt else 0 end) io_60,
sum(case when class = ‘WAIT‘ and period = 60 then cnt else 0 end) wait_60,
sum(case when class = ‘CPU‘ and period = 80 then cnt else 0 end) cpu_80,
sum(case when class = ‘IO‘ and period = 80 then cnt else 0 end) io_80,
sum(case when class = ‘WAIT‘ and period = 80 then cnt else 0 end) wait_80,
sum(case when class = ‘CPU‘ and period = 100 then cnt else 0 end) cpu_100,
sum(case when class = ‘IO‘ and period = 100 then cnt else 0 end) io_100,
sum(case when class = ‘WAIT‘ and period = 100 then cnt else 0 end) wait_100
from (
select p.period, p.class, p.line_id, p.op, p.nbstarts, p.nbrows, p.mem,
p.spill, a.cnt, a.total_cnt, a.ash_active_date ala,
p.last_change_time plc, p.last_refresh_time, p.status
from
(select p.period, c.stype class, p.line_id, p.op, m.nbrows,
m.nbstarts, m.mem, m.spill, m.last_change_time,
m.last_refresh_time, m.status
from
(select unique decode(depth, 0, ‘‘, lpad(‘ ‘, depth, ‘ ‘))||
OPERATION ||
decode(OPTIONS, null, ‘‘, ‘ ‘||OPTIONS) ||
decode(OBJECT_NAME, null, ‘‘, ‘ (‘|| OBJECT_NAME || ‘)‘) op,
id line_id
from v\$sql_plan pl
where (sql_id, plan_hash_value) =
(select unique ma.sql_id, ma.sql_plan_hash_value
from monattr ma)) p,
(select max(status) status, plan_line_id line_id,
sum(OUTPUT_ROWS) nbrows, sum(STARTS) nbstarts,
round(sum(workarea_mem)/1024) mem,
round(sum(workarea_tempseg)/1024) spill,
max(last_refresh_time) last_refresh_time,
max(last_change_time) last_change_time
from gv\$sql_plan_monitor
where key in (select ma.key from monattr ma)
group by plan_line_id) m,
(select ‘IO‘ stype from dual
union all select ‘CPU‘ stype from dual
union all select ‘WAIT‘ stype from dual) c,
( select 20 period from dual
union all select 40 period from dual
union all select 60 period from dual
union all select 80 period from dual
union all select 100 period from dual) p
where m.line_id = p.line_id) p,
(select part * 20 period, line_id,
case when wait_class = ‘System I/O‘
or wait_class = ‘User I/O‘
then ‘IO‘
when wait_class is NULL then ‘CPU‘
else ‘WAIT‘ end class,
count(*) cnt, max(total) total_cnt,
round(count(*)*100/max(total)) perc,
max(ash_active_date) ash_active_date
from (select NTILE(5) OVER (ORDER BY sample_time) AS part,
sql_plan_line_id line_id, wait_class, (count(*) over ()) total,
cast(SAMPLE_TIME as date) ash_active_date
from gv\$active_session_history
where ($ASH_JOIN_COLUMN_OUTER) in
(select $ASH_JOIN_COLUMN_INNER
from monattr ma))
group by part, line_id, wait_class) a
where a.line_id(+) = p.line_id
and a.class(+) = p.class
and a.period(+) = p.period)
group by line_id, op, nbrows, nbstarts, mem, spill, status) mon,
(select SQL_PLAN_LINE_ID, round(sum(sofar)*100/sum(totalwork)) percent
from gv\$session_longops
where (SQL_ID, SQL_EXEC_START, SQL_EXEC_ID) in
(select ma.sql_id, ma.SQL_EXEC_START, ma.SQL_EXEC_ID
from monattr ma)
group by SQL_PLAN_LINE_ID) lo
where lo.SQL_PLAN_LINE_ID(+) = line_id
order by line_id;
!
exit 0
fi
#
# sql_task command
#
if [ "$1" = "sql_task" ]; then
if [ "$2" = "progress" ]; then
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 180
set pages 600
column cur_sqlid format a13
column task_name format a25
select decode(t.advisor_id, 4, ‘SQL Tune‘, 8, ‘SPA‘, 9, ‘SQL Repair‘)
adv_name, t.task_id, t.task_name, p.sofar, p.totalwork,
max(o.attr1) keep (dense_rank last order by object_id asc) cur_sqlid
from v\$advisor_progress p, dba_advisor_tasks t, dba_advisor_objects o
where p.task_id = t.task_id
and t.status = ‘EXECUTING‘
and t.advisor_id in (4,8,9)
and p.last_update_time >= t.execution_start
and o.task_id (+) = t.task_id
and o.type (+) = ‘SQL‘
group by t.advisor_id, t.task_id, t.task_name, p.sofar, p.totalwork,
p.start_time
order by p.start_time;
!
exit 0
fi
if [ "$2" = "interrupt" ]; then
sqlplus -s /NOLOG << !
connect $DBUSER
set echo on
set linesize 180
set pages 600
exec dbms_sqltune.interrupt_tuning_task(‘$3‘);
!
exit 0
fi
if [ "$2" = "history" ]; then
NUMEXECS=$3
if [ "$NUMEXECS" = "" ]; then
NUMEXECS=10
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 180
set pages 600
column exec_name format a12
column task_name format a25
alter session set nls_date_format = ‘MM/DD HH24:MI‘;
select * from (
select decode(t.advisor_id, 4, ‘SQL Tune‘, 8, ‘SPA‘, 9, ‘SQL Repair‘)
adv_name, t.task_name, e.execution_name exec_name,
e.execution_start exec_start, e.status,
count(*) num_sqls
from dba_advisor_tasks t, dba_advisor_executions e, dba_advisor_objects o
where t.advisor_id in (4,8,9) and o.task_id = t.task_id and
e.task_id = t.task_id and
nvl(o.execution_name, e.execution_name) = e.execution_name and
o.type = ‘SQL‘
group by t.task_id, t.task_name, e.execution_start, e.execution_name,
e.status, t.advisor_id
order by exec_start desc) where rownum <= $NUMEXECS;
!
exit 0
fi
if [ "$2" = "params" ]; then
TASK=$3
PARAMETER=$4
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 180
set pages 600
column exec_name format a12
column exec_param_value format a30
column task_param_value format a30
column task_name format a25
alter session set nls_date_format = ‘MM/DD HH24:MI‘;
select execution_name exec_name, parameter_name,
parameter_value exec_param_value
from dba_advisor_exec_parameters
where task_name = ‘$TASK‘ and
nvl(‘$PARAMETER‘, parameter_name) = parameter_name;
select parameter_name, parameter_value task_param_value
from dba_advisor_parameters
where task_name = ‘$TASK‘ and
nvl(‘$PARAMETER‘, parameter_name) = parameter_name;
!
exit 0
fi
if [ "$2" = "report" ]; then
SECTION="$4"
if [ "$SECTION" = "" ]; then
SECTION="ALL"
fi
sqlplus -s /NOLOG << ! | egrep -v "no rows selected|Session altered|Connected|rows selected|successfully"
connect $DBUSER
set echo on
set linesize 180
set pages 600
set long 1000000000 longchunksize 1000
select dbms_sqltune.report_tuning_task(‘$3‘, ‘TEXT‘, ‘ALL‘, ‘$SECTION‘,
null, null, null, ‘$5‘)
from dual;
!
exit 0
fi
fi
#
# Run a shell command. Useful when combined with repeat...
#
if [ "$1" = "sh" ]; then
shift 1
sh -fc "$*"
exit 0
fi
usage "Command $1 not found"
ora_tool
标签:ima hid put txt immediate eof union quic htm
原文地址:https://www.cnblogs.com/liang545621/p/9410587.html
