[20200211]使用DBMS_SHARED_POOL.MARKHOT与sql_id的计算.txt
Posted lfree
tags:
篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了[20200211]使用DBMS_SHARED_POOL.MARKHOT与sql_id的计算.txt相关的知识,希望对你有一定的参考价值。
[20200211]使用DBMS_SHARED_POOL.MARKHOT与sql_id的计算.txt
--//以前写的,使用DBMS_SHARED_POOL.MARKHOT标记热的sql_id,这样相同的sql语句使用不同的sql_id.
--//链接:http://blog.itpub.net/267265/viewspace-2147197/ => [20171110]sql语句相同sql_id可以不同吗.
--//好奇心想知道,oracle这种情况下如何计算的sql_id的。
1.环境:
SCOTT@book> @ &r/ver1
PORT_STRING VERSION BANNER
------------------------------ -------------- --------------------------------------------------------------------------------
x86_64/Linux 2.4.xx 11.2.0.4.0 Oracle Database 11g Enterprise Edition Release 11.2.0.4.0 - 64bit Production
SCOTT@book> select * from dept where deptno=10;
DEPTNO DNAME LOC
---------- -------------- -------------
10 ACCOUNTING NEW YORK
--//sql_id=‘4xamnunv51w9j‘,可以执行多次,避免sql语句退出共享池.
SELECT name
,hash_value
,full_hash_value
,namespace
,child_latch
,property hot_flag
,executions
,invalidations
FROM v$db_object_cache
WHERE name = ‘select * from dept where deptno=10‘;
NAME HASH_VALUE FULL_HASH_VALUE NAMESPACE CHILD_LATCH HOT_FLAG EXECUTIONS INVALIDATIONS
---------------------------------------- ---------- -------------------------------- ---------- ----------- ---------- ---------- -------------
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 0 8 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 61745 8 0
--//确定FULL_HASH_VALUE=‘1431c45dbddbb9e74eaa74d53650f131‘.
$ echo -e -n ‘select * from dept where deptno=10 ‘ | md5sum | sed ‘s/ -//‘ | xxd -r -p | od -t x4 | sed -n -e ‘s/^0000000 //‘ -e ‘s/ //gp‘
1431c45dbddbb9e74eaa74d53650f131
--//对比完全能对上。
2.建立gdb脚本:
--//参考链接:http://blog.itpub.net/267265/viewspace-2665902/=>[20191127]表 full Hash Value的计算.txt
$ cat md5.gdb
set pagination off
break kggmd5Update
commands
printf "Length: %d
",$rdx
x/40xc $rsi
c
end
break kglComputeHash
commands
c
end
break kggmd5Process
commands
c
end
break kggmd5Finish
commands
c
end
3.测试分析:
--//首先使用DBMS_SHARED_POOL.MARKHOT标记。
SYS@book> exec dbms_shared_pool.markhot( hash=>‘1431c45dbddbb9e74eaa74d53650f131‘, namespace=>0, global=>true);
PL/SQL procedure successfully completed.
--//以scott登录
--//session 1:
SCOTT@book> @ spid
SID SERIAL# PROCESS SERVER SPID PID P_SERIAL# C50
---------- ---------- ------------------------ --------- ------ ------- ---------- --------------------------------------------------
58 49 54621 DEDICATED 54622 28 23 alter system kill session ‘58,49‘ immediate;
--//spid=54622
--//session 2:
$ gdb -p 54622 -x md5.gdb
--//session 1:
--//测试前可以先执行Select * from dept where deptno=10;注意S大写sql语句与原来不同。
Select * from dept where deptno=10
SCOTT@book> select * from dept where deptno=10;
DEPTNO DNAME LOC
---------- -------------- -------------
10 ACCOUNTING NEW YORK
@ dpc ‘‘ ‘‘
--//输出略,查询sql_id=‘7sqgfqarnwk8h‘,与原来的完成不同。
4.观察gdb的输出:
--//session 3:
SYS@book> select sql_id,sql_text,executions,length(sql_text),ora_hash(sql_text) from v$sqlarea where sql_text = ‘select * from dept where deptno=10‘ ;
SQL_ID SQL_TEXT EXECUTIONS LENGTH(SQL_TEXT) ORA_HASH(SQL_TEXT)
------------- ----------------------------------- ---------- ---------------- ------------------
7sqgfqarnwk8h select * from dept where deptno=10 3 34 156172166
4xamnunv51w9j select * from dept where deptno=10 8 34 156172166
--//sql_id=7sqgfqarnwk8h.
SELECT name
,hash_value
,full_hash_value
,namespace
,child_latch
,property hot_flag
,executions
,invalidations
FROM v$db_object_cache
WHERE name = ‘select * from dept where deptno=10‘;
NAME HASH_VALUE FULL_HASH_VALUE NAMESPACE CHILD_LATCH HOT_FLAG EXECUTIONS INVALIDATIONS
---------------------------------------- ---------- -------------------------------- ---------- ----------- ---------- ---------- -------------
select * from dept where deptno=10 2941143312 5196d0b7fe72e5ea7c59eeb2af4e4910 SQL AREA 0 HOTCOPY11 3 0
select * from dept where deptno=10 2941143312 5196d0b7fe72e5ea7c59eeb2af4e4910 SQL AREA 18704 HOTCOPY11 3 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 0 HOT 8 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 61745 HOT 8 0
--//可以发现新建立的sql语句FULL_HASH_VALUE=5196d0b7fe72e5ea7c59eeb2af4e4910,注意后面的HOT_FLAG=‘HOTCOPY11‘.
--//0x4910 = 18704
--//session 2:
(gdb) c
Continuing.
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 35
0x7fffff1de9d8: 115 ‘s‘ 101 ‘e‘ 108 ‘l‘ 101 ‘e‘ 99 ‘c‘ 116 ‘t‘ 32 ‘ ‘ 42 ‘*‘
0x7fffff1de9e0: 32 ‘ ‘ 102 ‘f‘ 114 ‘r‘ 111 ‘o‘ 109 ‘m‘ 32 ‘ ‘ 100 ‘d‘ 101 ‘e‘
0x7fffff1de9e8: 112 ‘p‘ 116 ‘t‘ 32 ‘ ‘ 119 ‘w‘ 104 ‘h‘ 101 ‘e‘ 114 ‘r‘ 101 ‘e‘
0x7fffff1de9f0: 32 ‘ ‘ 100 ‘d‘ 101 ‘e‘ 112 ‘p‘ 116 ‘t‘ 110 ‘n‘ 111 ‘o‘ 61 ‘=‘
0x7fffff1de9f8: 49 ‘1‘ 48 ‘0‘ 0 ‘ 00‘ -13 ‘? 108 ‘l‘ 92 ‘‘ 107 ‘k‘ -64 ‘?
--//拼接起来就是 select * from dept where deptno=10 ;
Breakpoint 4, 0x00000000097f0830 in kggmd5Finish ()
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 21
0xbefbe20 <kggmd5padding.0>: -128 ‘200‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe28 <kggmd5padding.0+8>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe30 <kggmd5padding.0+16>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe38 <kggmd5padding.0+24>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe40 <kggmd5padding.0+32>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 8
0x7fffff1dc910: 24 ‘ 30‘ 1 ‘ 01‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc918: -40 ‘? -23 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc920: 32 ‘ ‘ -51 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc928: -40 ‘? -23 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc930: -64 ‘? -55 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
Breakpoint 2, 0x000000000984457c in kglComputeHash ()
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 35
0x7fffff1de9d8: 115 ‘s‘ 101 ‘e‘ 108 ‘l‘ 101 ‘e‘ 99 ‘c‘ 116 ‘t‘ 32 ‘ ‘ 42 ‘*‘
0x7fffff1de9e0: 32 ‘ ‘ 102 ‘f‘ 114 ‘r‘ 111 ‘o‘ 109 ‘m‘ 32 ‘ ‘ 100 ‘d‘ 101 ‘e‘
0x7fffff1de9e8: 112 ‘p‘ 116 ‘t‘ 32 ‘ ‘ 119 ‘w‘ 104 ‘h‘ 101 ‘e‘ 114 ‘r‘ 101 ‘e‘
0x7fffff1de9f0: 32 ‘ ‘ 100 ‘d‘ 101 ‘e‘ 112 ‘p‘ 116 ‘t‘ 110 ‘n‘ 111 ‘o‘ 61 ‘=‘
0x7fffff1de9f8: 49 ‘1‘ 48 ‘0‘ 0 ‘ 00‘ -13 ‘? 108 ‘l‘ 92 ‘‘ 107 ‘k‘ -64 ‘?
--//拼接起来就是 select * from dept where deptno=10 ;
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 1
0x9e79fec <_2__STRING.98.0>: 46 ‘.‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 107 ‘k‘ 116 ‘t‘ 99 ‘c‘ 110 ‘n‘
0x9e79ff4 <_2__STRING.377.0+4>: 46 ‘.‘ 99 ‘c‘ 64 ‘@‘ 49 ‘1‘ 50 ‘2‘ 54 ‘6‘ 49 ‘1‘ 55 ‘7‘
0x9e79ffc <_2__STRING.377.0+12>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 37 ‘%‘ 42 ‘*‘ 115 ‘s‘ 102 ‘f‘
0x9e7a004 <_2__STRING.366.0+4>: 108 ‘l‘ 103 ‘g‘ 115 ‘s‘ 58 ‘:‘ 32 ‘ ‘ 48 ‘0‘ 120 ‘x‘ 37 ‘%‘
0x9e7a00c <_2__STRING.366.0+12>: 48 ‘0‘ 56 ‘8‘ 120 ‘x‘ 32 ‘ ‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
--//length=1 对应‘.‘
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 2
0x7fffff1dc460: 49 ‘1‘ 49 ‘1‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc468: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc470: -128 ‘200‘ -57 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc478: 49 ‘1‘ 41 ‘)‘ -125 ‘203‘ 9 ‘ ‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc480: -80 ‘? -55 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
--//注意看这里,Length: 2,字符正好是‘11‘.
Breakpoint 4, 0x00000000097f0830 in kggmd5Finish ()
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 18
0xbefbe20 <kggmd5padding.0>: -128 ‘200‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe28 <kggmd5padding.0+8>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe30 <kggmd5padding.0+16>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe38 <kggmd5padding.0+24>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0xbefbe40 <kggmd5padding.0+32>: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
Breakpoint 1, 0x00000000097f09a8 in kggmd5Update ()
Length: 8
0x7fffff1dc2a0: 48 ‘0‘ 1 ‘ 01‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc2a8: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc2b0: 32 ‘ ‘ -53 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc2b8: 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘ 0 ‘ 00‘
0x7fffff1dc2c0: 96 ‘`‘ -61 ‘? 29 ‘ 35‘ -1 ‘‘ -1 ‘‘ 127 ‘177‘ 0 ‘ 00‘ 0 ‘ 00‘
$ echo -e -n ‘select * from dept where deptno=10 .11‘ | md5sum | sed ‘s/ -//‘ | xxd -r -p | od -t x4 | sed -n -e ‘s/^0000000 //‘ -e ‘s/ //gp‘
5196d0b7fe72e5ea7c59eeb2af4e4910
--//^_^,正好对上。
SELECT name
,hash_value
,full_hash_value
,namespace
,child_latch
,property hot_flag
,executions
,invalidations
FROM v$db_object_cache
WHERE name = ‘select * from dept where deptno=10‘;
NAME HASH_VALUE FULL_HASH_VALUE NAMESPACE CHILD_LATCH HOT_FLAG EXECUTIONS INVALIDATIONS
---------------------------------------- ---------- -------------------------------- ---------- ----------- ---------- ---------- -------------
select * from dept where deptno=10 2941143312 5196d0b7fe72e5ea7c59eeb2af4e4910 SQL AREA 0 HOTCOPY11 3 0
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
select * from dept where deptno=10 2941143312 5196d0b7fe72e5ea7c59eeb2af4e4910 SQL AREA 18704 HOTCOPY11 3 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 0 HOT 8 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 61745 HOT 8 0
--//也就是语句生成FULL_HASH_VALUE计算是原来sql语句(注意oracle会做一些格式化操作),后面加上 . v$db_object_cache.HOT_FLAG字段后面的数字。
--//讲的再通俗一点就是在原来基础上加入 . v$db_object_cache.HOT_FLAG字段后面的数字。
--//使用我写的脚本测试(注意要安装zsh):
$ ./sql_id.zsh ‘select * from dept where deptno=10 .11‘
sql_text = select * from dept where deptno=10.11
full_hash_value(16) = 5196D0B7FE72E5EA7C59EEB2AF4E4910
hash_value(10) = 2941143312
sql_id(32) = 7sqgfqarnwk8h
sql_id(32) = 7sqgfqarnwk8h
--//sql_id=7sqgfqarnwk8h,也与前面查询v$sqlarea视图的结果一致。
4.继续探究,至于后面为什么加入11,估计与会话sid之类有关(猜测)。
--//退出gbd程序,继续分析。
--//首先我尝试退出再登录,我的测试环境sid会保持不变,serial#会发生变化。我执行select * from dept where deptno=10,查询
--//v$db_object_cache并没有生成新的sql_id.
SCOTT@book> @ spid
SID SERIAL# PROCESS SERVER SPID PID P_SERIAL# C50
---------- ---------- ------------------------ --------- ------ ------- ---------- --------------------------------------------------
58 49 54621 DEDICATED 54622 28 23 alter system kill session ‘58,49‘ immediate;
SCOTT@book> show parameter cpu_count
NAME TYPE VALUE
--------- ------- -----
cpu_count integer 24
SCOTT@book> select mod(58,24),mod(58,16) from dual ;
MOD(58,24) MOD(58,16)
---------- ----------
10 10
--//是否就是这个sid与某个参数取模 10+1,因为没有见过HOT_FLAG=‘HOTCOPY0‘的情况.至少我没有见过。
--//建立新的会话:
--//session 4:
SCOTT@book> @ spid
SID SERIAL# PROCESS SERVER SPID PID P_SERIAL# C50
---------- ---------- ------------------------ --------- ------ ------- ---------- --------------------------------------------------
30 115 55199 DEDICATED 55200 26 44 alter system kill session ‘30,115‘ immediate;
SCOTT@book> select mod(30,24),mod(30,16) from dual ;
MOD(30,24) MOD(30,16)
---------- ----------
6 14
SCOTT@book> select * from dept where deptno=10;
DEPTNO DNAME LOC
---------- -------------- -------------
10 ACCOUNTING NEW YORK
--//session 3:
SELECT name
,hash_value
,full_hash_value
,namespace
,child_latch
,property hot_flag
,executions
,invalidations
FROM v$db_object_cache
WHERE name = ‘select * from dept where deptno=10‘;
SYS@book> /
NAME HASH_VALUE FULL_HASH_VALUE NAMESPACE CHILD_LATCH HOT_FLAG EXECUTIONS INVALIDATIONS
---------------------------------------- ---------- -------------------------------- ---------- ----------- ---------- ---------- -------------
select * from dept where deptno=10 2941143312 5196d0b7fe72e5ea7c59eeb2af4e4910 SQL AREA 0 HOTCOPY11 3 0
select * from dept where deptno=10 2941143312 5196d0b7fe72e5ea7c59eeb2af4e4910 SQL AREA 18704 HOTCOPY11 3 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 0 HOT 8 0
select * from dept where deptno=10 911274289 1431c45dbddbb9e74eaa74d53650f131 SQL AREA 61745 HOT 8 0
select * from dept where deptno=10 3106222595 642c74f9bf38538acec7e363b9253203 SQL AREA 0 HOTCOPY7 1 0
select * from dept where deptno=10 3106222595 642c74f9bf38538acec7e363b9253203 SQL AREA 78339 HOTCOPY7 1 0
6 rows selected.
--//生成新的HOT_FLAG=HOTCOPY7.正好等于是mod(sid,cpu_count)+1.
SYS@book> select sql_id,sql_text,executions,length(sql_text),ora_hash(sql_text) from v$sqlarea where sql_text = ‘select * from dept where deptno=10‘ ;
SQL_ID SQL_TEXT EXECUTIONS LENGTH(SQL_TEXT) ORA_HASH(SQL_TEXT)
------------- ------------------------------------------------------------ ---------- ---------------- ------------------
7sqgfqarnwk8h select * from dept where deptno=10 3 34 156172166
4xamnunv51w9j select * from dept where deptno=10 8 34 156172166
cxjz3cfwkach3 select * from dept where deptno=10 1 34 156172166
~~~~~~~~~~~~~
--//sql_id=cxjz3cfwkach3,HOT_FLAG=‘HOTCOPY7‘
$ echo -e -n ‘select * from dept where deptno=10 .7‘ | md5sum | sed ‘s/ -//‘ | xxd -r -p | od -t x4 | sed -n -e ‘s/^0000000 //‘ -e ‘s/ //gp‘
642c74f9bf38538acec7e363b9253203
$ ./sql_id.zsh ‘select * from dept where deptno=10 .7‘
v1=642C74F9BF38538ACEC7E363B9253203 v2=CEC7E363B9253203 v3=3106222595
sql_text = select * from dept where deptno=10.7
full_hash_value(16) = 642C74F9BF38538ACEC7E363B9253203
hash_value(10) = 3106222595
./sql_id.zsh:1: number truncated after 15 digits: CEC7E363B9253203
sql_id(32) = 0tv3y6sxt4nt0
sql_id(32) = tv3y6sxt4nt0
--//脚本有错,先放一放.好像是V2变量里面第1个字符C不是数字,我记忆里好像是我使用服务器这个zsh版本的bug,晚上在家里测试看看。
--//使用另外的sql_id.sh脚本测试:
$ ./sql_id.sh ‘select * from dept where deptno=10 .7‘
v1=642C74F9BF38538ACEC7E363B9253203 v2=CEC7E363B9253203 v3=B9253203
sql_text = select * from dept where deptno=10 .7
full_hash_value(16) = 642C74F9BF38538ACEC7E363B9253203
hash_value(10) = 3106222595
sql_id(32) = cxjz3cfwkach3
sql_id(32) = cxjz3cfwkach3
sql_id(32) = cxjz3cfwkach3
--//正好对上。大家可以再打开新的会话测试,可以确定sql语句就是在原来基础上加入. mod(sid,cpu_count)+1数字的字符串。
总结:
--//上班太安静,无聊探究这个问题。
--//sql语句使用使用DBMS_SHARED_POOL.MARKHOT标记热的sql_id时,full_hash_value和sql_id的计算,就是在原来sql语句的基础上加上
--// . mod(sid,cpu_count)+1数字的字符串。
--//使用DBMS_SHARED_POOL.MARKHOT 标记热的sql语句,实际上就是使用空间换时间的做法,打散开来。但是我上午的测试可能存在太多争用
--//反而使用它更慢,有机会测试更多会话的情况。
--//也许因为加入运算的字符串采用 . mod(sid,cpu_count)+1数字的字符串,也许存在太多的冲突,反而更慢。
--//附上sql_id.sh脚本,里面包含几个从full_hash_value计算sql_id的方法:
$ cat sql_id.sh
#! /bin/bash
# calcucate sql_text of full_hash_value(16),hash_value(10),sql_id(32).
odebug=${ODEBUG:-0}
#sql_text=${1}‘ ‘
sql_text=${1}
v1=$(echo -e -n "$sql_text" | md5sum | sed ‘s/ -//‘ | xxd -r -p | od -t x4 | sed -n -e ‘s/^0+ //‘ -e ‘s/ //gp‘ | tr ‘a-z‘ ‘A-Z‘)
v2=${v1:(-16):16}
v3=${v2:(-8):8}
# v2=$(echo "obase=16;ibase=16; $v1 % 10000000000000000" | bc| tr -d ‘
‘)
# v3=$(echo "obase=10;ibase=16; $v1 % 100000000" | bc| tr -d ‘
‘)
if [ $odebug -eq 1 ] ; then
echo v1=$v1 v2=$v2 v3=$v3
fi
echo "sql_text = $sql_text"
echo "full_hash_value(16) = $v1 "
echo "hash_value(10) = $(( 16#$v3 )) "
BASE32=($(echo {0..9} {a..z} | tr -d ‘eilo‘))
res=‘‘
for i in $(echo "obase=32;ibase=16; $v2" | bc| tr -d ‘
‘)
do
res=${res}${BASE32[$(( 10#$i ))]}
done
echo "sql_id(32) = $(printf "%13s" $res | tr ‘ ‘ ‘0‘)"
echo "sql_id(32) = $(printf "%013s" $res)"
res1=$(eval $(echo "obase=32;ibase=16; $v2" | bc| tr -d ‘
‘ | awk ‘BEGIN{RS=" +"; printf "echo " }/./{printf "${BASE32[$(( 10#%02d))]} ", $1}‘ ))
res1=$(tr -d " " <<< $res1)
echo "sql_id(32) = $(printf "%013s" $res1)"
以上是关于[20200211]使用DBMS_SHARED_POOL.MARKHOT与sql_id的计算.txt的主要内容,如果未能解决你的问题,请参考以下文章