• lock to deteck in oracle




    0,5,10 0-23 * * * /home/oracle/utility/blocker/detect_blocker.sh db 120 > /home/oracle/utility/trace/detect_blocker_db.log 2>&1


    file 1:

     echo_usage()
    {
            echo "Usage : `basename $0` [SID] <sleep time>"
            echo $*
            echo "Cause: no SID or Database is not running on server"
            exit 0
    }

    if [ $# -lt 2 ]
    then
            echo_usage
    fi

    #
    # See whether the DB is actually running on this machine or not
    #

    export ORACLE_SID=$1
    ps -ef | grep -v grep | grep ora_smon_${ORACLE_SID} > /dev/null
    if [ $? -ne 0 ]
    then
            echo_usage
    fi

    export PATH=$PATH:/usr/local/bin
    export ORAENV_ASK=NO

    . oraenv >/dev/null
    export ORAENV_ASK=

    export ROOT_DIR=/home/oracle
    export SCRIPT_DIR=$ROOT_DIR/utility/blocker
    export LOGFILE_DIR=$ROOT_DIR/utility/log
    export TMP_DIR=$ROOT_DIR/utility/tmp

    EXT="`date '+%y%m%d%H%M%S'`"

    FILE1=/tmp/detect_blocker1_$ORACLE_SID.$EXT
    FILE2=/tmp/detect_blocker2_$ORACLE_SID.$EXT

    OPCMsgCmd=/opt/OV/bin/OpC/opcmsg  


    SLEEPTIME=$2

    ${SCRIPT_DIR}/check_blocker  $ORACLE_SID | grep -v 'DO NOT KILL' | grep KILL > $FILE1;
    sleep $SLEEPTIME;
    ${SCRIPT_DIR}/check_blocker  $ORACLE_SID | grep -v 'DO NOT KILL' | grep KILL > $FILE2;

    while read LINE; do
    COMPSTR=`echo $LINE | awk '{print $2}'`
    if [ `grep $COMPSTR $FILE2 | wc -l` -eq 1 ]; then
       echo 'Blocker detected as : ';
       echo
       echo 'Oracle Session ID/Serial#      : ' $COMPSTR
       OVOMSG='DB :'${ORACLE_SID}'-Blocker Detected Oracle Session ID/Serial#      : '${COMPSTR}', Please keep monitoring system
    and donnot kill the blocker until warning messages is exceeding at least 3 times with the same blocker.'
       echo $OVOMSG
       $OPCMsgCmd s=critical a=db  o=blocker  msg_grp=db  msg_t="${OVOMSG}"
    fi;
    done < $FILE1

    #####
    file 2:

    dbngd3[/home/oracle/utility/blocker][dbpr] >more check_blocker
    #!/usr/bin/sh
    #
    # This script check whether there is blockers inside the
    # database. The script accept DB name as parameter
    # and do the checking.
    #

    echo_usage()
    {
            echo "Usage : `basename $0` [SID]"
            echo $*
            exit 1
    }

    if [ $# -lt 1 ]
    then
            echo_usage
    fi

    ORACLE_SID=$1
    BASEDIR=/home/oracle/utility/blocker

    ORAENV_ASK=NO
    PATH=/usr/local/bin:$PATH
    . oraenv > /dev/null 2>&1
    #
    # See whether the DB is actually running on this machine or not
    #

    EXT="`date '+%y%m%d%H%M%S'`"
    echo "Calling check_blocker.sh $1 at time  $EXT" >> ${BASEDIR}/check_blocker.log
    ps -ef | grep -v grep | grep ora_smon_${ORACLE_SID} > /dev/null
    if [ $? -ne 0 ]
    then
            echo_usage
    fi

    #
    # For support use
    #
    EXT="`date '+%y%m%d%H%M%S'`"
    nohup sqlplus -s oper/oper123 @${BASEDIR}/lck_sql TRUE >/tmp/locktree.$ORACLE_SID.$EXT 2>&1 &

    #
    # Call light weight check_blocker
    sqlplus -s oper/oper123 @${BASEDIR}/lck_sql_lite
    #

    # Add process listing to log file
    nohup ps -elf >> /tmp/oralocktree.$ORACLE_SID.$EXT 2>&1 &


    #####
    file 3:

    Rem LCK_SQL.SQL
    Rem ===========

    Rem This script reports on conflicting locks using the
    Rem procedure LOCK_CONFLICTS created by teh script LCK_PROC.BLD
    Rem
    Rem It also reports the SQL statements currently in use
    Rem by the processes holding / requiring the locks

    set serveroutput on size 1000000
    set lines 70 echo off trim on;
    timing start conflicts;
    rem spool $SCRIPT_DIR/lck_sql;
    rem spool lck_sql.log
    rem execute lock_conflicts('TRUE');
    execute lock_conflict('&1');
    timing stop;
    rem spool off;
    set lines 78;
    exit

    #####
    file 4:
    Rem LCK_SQL_LITE.SQL
    Rem ================

    Rem This script reports on conflicting locks using the
    Rem procedure LOCK_CONFLICTS created by teh script LCK_PROC.BLD
    Rem
    Rem It also reports the SQL statements currently in use
    Rem by the processes holding / requiring the locks

    set serveroutput on size 1000000
    set lines 70 echo off trim on;
    timing start conflicts;
    spool /home/dba/oracle/utility/blocker/lck_sql;
    --alter session set events '10046 trace name context forever, level 12' ;
    execute lock_conflict_lite;
    timing stop;
    spool off;
    set lines 78;
    exit

    ####
    file 5:


    create or replace procedure sys.lock_conflict_lite is

      level_cnt     integer;
      indent        varchar2(10);

      type sid_tab is table of integer index by binary_integer;
      type serial_tab is table of integer index by binary_integer;
      type dep_cnt_tab is table of integer index by binary_integer;
      type kill_nokill_tab is table of varchar2(11) index by binary_integer;
      type cpid_tab is table of varchar2(6) index by binary_integer;
      type spid_tab is table of varchar2(6) index by binary_integer;
      type machine_tab is table of varchar2(64) index by binary_integer;

      kill_sid      sid_tab;
      kill_serial   serial_tab;
      kill_dep_cnt  dep_cnt_tab;
      kill_kill_nokill      kill_nokill_tab;
      kill_cpid     cpid_tab;
      kill_spid     spid_tab;
      kill_machine  machine_tab;

      kill_array    integer;


      cursor top_level_lock_cur is
         select req_sid sid
           from v_db_lock
         minus                                  -- MINUS
         select wait_2.sid
    --       from v_db_lock_tab wait_2                   -- I am waiting for something
           from v_$lock wait_2                   -- I am waiting for something
          where wait_2.request > wait_2.lmode;

      procedure report_sid
            ( p_sid in      integer
            ) is

      cursor session_cur
            ( p_sid in number
            ) is
            select s.sid kill_sid
                 , s.serial# kill_serial
                 , s.sid      ora_sid
                 , s.username ora_username
                 , s.osuser   os_username
                 , s.process  os_process
                 , s.machine  os_machine
                 , s.sql_address sql_address
                 , s.sql_hash_value  sql_hash_value
                 , p.spid     os_shadow_process
                 , decode( s.username , 'REPLOG'    , 'DO NOT KILL'
                                      , 'DBV_MONTR' , 'DO NOT KILL'
                                      , 'SYS'       , 'DO NOT KILL'
                                      , NULL        , 'DO NOT KILL'
                                                    , 'KILL' ) kill_nokill
              from v$process p
                 , v$session s
             where s.sid = p_sid
               and p.addr (+) = s.paddr;

      session_rec session_cur%ROWTYPE;

      begin
        open session_cur ( p_sid );
        fetch session_cur into session_rec;
        close session_cur;

        if level_cnt = 1 then
           kill_array := kill_array + 1;
           kill_sid ( kill_array ) := session_rec.kill_sid;
           kill_serial ( kill_array ) := session_rec.kill_serial;
           kill_kill_nokill ( kill_array ) := session_rec.kill_nokill;
           kill_dep_cnt ( kill_array ) := 0;
           kill_cpid ( kill_array ) := session_rec.os_process;
           kill_spid ( kill_array ) := session_rec.os_shadow_process;
           kill_machine ( kill_array ) := session_rec.os_machine;
        elsif kill_array > 0 then
              kill_dep_cnt ( kill_array ) := kill_dep_cnt ( kill_array ) + 1;
        end if;


      end report_sid;

    begin

       kill_array := 0;

       for top_level_lock_rec in top_level_lock_cur
       loop
        level_cnt := 1;
        indent := rpad(' ',level_cnt,chr(9));
        report_sid ( top_level_lock_rec.sid );
       end loop;

      dbms_output.put_line(indent);
      dbms_output.put_line('>> **************************************************************** <<');
      dbms_output.put_line('>>                                                                  <<');
      dbms_output.put_line('>> The following is a list of the sessions that hold top level locks<<');
      dbms_output.put_line('>> and therefore most likely to clear the blockage along with the   <<');
      dbms_output.put_line('>> number of sessions currently being blocked by the holder.        <<');
      dbms_output.put_line('>>                                                                  <<');
      dbms_output.put_line('>>  SID,Serial#    Client,Shadow OSPID  DependentCount  Kill Advice <<');
      dbms_output.put_line('>>                                                                  <<');
      for kill_occurance in 1 .. kill_array
      loop
        dbms_output.put   ('>>');
        dbms_output.put   (    lpad(kill_sid(kill_occurance),5,' '));
        dbms_output.put   (        ',');
        dbms_output.put   (          rpad(kill_serial(kill_occurance),7,' '));
        dbms_output.put   (                 ' ');
        dbms_output.put   (          lpad(kill_cpid(kill_occurance)||'('||kill_machine(kill_occurance)||')',16,' '));
        dbms_output.put   (        ',');
        dbms_output.put   (          rpad(kill_spid(kill_occurance),5,' '));
        dbms_output.put   (                 '           ');
        dbms_output.put   (                       lpad(kill_dep_cnt(kill_occurance),4,' '));
        dbms_output.put   (                                     '   ');
        dbms_output.put   (                                         rpad(kill_kill_nokill(kill_occurance),11,' '));
        dbms_output.put   (                                                   ' <<');
        dbms_output.new_line;
      end loop;

      dbms_output.put_line('>>                                                                  <<');
      dbms_output.put_line('>> **************************************************************** <<');

    end;


    --
    file 6
    create or replace view sys.v_yict_lock as
    select req_0.sid req_sid
              , wait_1.sid wait_sid
    --       from v_yict_lock_tab req_0                    -- people who have a lock
    --         , v_yict_lock_tab wait_1                   -- and someone waiting for this lock
           from v_$lock req_0                    -- people who have a lock
             , v_$lock wait_1                   -- and someone waiting for this lock
          where wait_1.type = req_0.type
            and wait_1.sid != req_0.sid
            and wait_1.request > wait_1.lmode   -- What I want is more than what I have
            and wait_1.id1 = req_0.id1
            and wait_1.id2 = req_0.id2
            and ( ( req_0.lmode != 0 and
                    not exists ( select null
                                  from lock_compatibility_mode  -- What you have I want
                                 where lmode1 = req_0.lmode
                                   and lmode2 = wait_1.request )
                  )
                or
                  ( not exists ( select null
                                   from lock_compatibility_mode  -- What you want I want
                                  where lmode1 = req_0.request
                                    and lmode2 = wait_1.request ) and
                    req_0.request > wait_1.request               -- You want more than I do
                  )
                )
           --
           -- exclude info of blocker on IT_ENTITY_LOCK
           --
           and wait_1.sid not in
               (select s.sid
                from   v$session s
                where  s.row_wait_obj# in
                     (select o.object_id
                      from   dba_objects o
                      where  o.object_name = 'IT_ENTITY_LOCK'))

    ---file 7
    select * from sys.LOCK_COMPATIBILITY_MODE


    lmode1 lmode2
    0    0
    0    1
    0    2
    0    3
    0    4
    0    5
    0    6
    1    0
    1    1
    1    2
    1    3
    1    4
    1    5
    1    6
    2    0
    2    1
    2    2
    2    3
    2    4
    2    5
    3    0
    3    1
    3    2
    3    3
    4    0
    4    1
    4    2
    4    4
    5    0
    5    1
    5    2
    6    0
    6    1

    sample 1:

     
        为了实现并发,oracle数据库使用了锁机制。要了解锁,首先要了解视图v$lock。
    v$lock这个视图列出 Oracle 服务器当前拥有的锁以及未完成的锁请求。如果你觉着 session 处于等待事件队列当中,那你应该检查视图v$lock。
     
    v$lock中的常用列有以下列:
         sid:持有锁的会话SID,通常与v$session关联。
     
         type:锁的类型,其中TM表示表锁或DML锁,TX表示行锁或事务锁,UL表示用户锁。我们主要关注TX和TM两种型的锁,其它均为系统锁,会很快自动释放,不用关注。当 Oracle执行 DML 语句时,系统自动在所要操作的表上申请 TM 类型的锁。当 TM锁获得后,系统再自动申请 TX 类型的锁,并将实际锁定的数据行的锁标志位进行置位。TM 锁包括了SS 、 SX、 S 、X 等多种模式,在数据库中用 0 -6 来表示。不同的 SQL 操作产生不同类型的 TM锁。
     
         lmode:会话保持的锁的模式。
              0=None;
              1=Null ;
              2=Row-S (SS,行级共享锁,其他对象SQL语句只能查询这些数据行),sql操作有select for update、lock for update、lock row share;
              3=Row-X (SX,行级排它锁,在提交前不允许做DML操作),sql操作有insert、update、delete、lock row share;
              4=Share(共享锁),sql操作有create index、lock share;
              5=S/Row-X (SSX,共享行级排它锁),sql操作有lock share row exclusive;??
              6=Exclusive(排它锁),alter table、drop table、drop index、truncate table、look exclusive等DDL
         注释:Row-S (SS,行级共享锁)和Row-X (SX,行级排它锁)中的第一个S 表示表被共享,如果表不被共享,就谈不上其下级的行级锁是否被共享还是排他了。表级别为X,行级锁就不被其他会话访问,所以也就没XX或XS模式,只有X模式。
     
         ID1,ID2:  ID1,ID2的取值含义根据type的取值而有所不同,对于TM 锁ID1表示被锁定表的object_id 可以和dba_objects视图关联取得具体表信息,ID2 值为0(即表示type=TM时,用不到ID2列,故将其置为零);对于TX 锁ID1以十进制数值表示该事务所占用的回滚段号和事务槽slot number号,其组形式: 0xRRRRSSSS,RRRR=RBS/UNDO NUMBER,SSSS=SLOT NUMBER,ID2 以十进制数值表示环绕wrap的次数,即事务槽被重用的次数。实际上这两个字段构成了事务在回滚段中的位置。
     
    当锁产生时,以下图为例说明v$lock:
    1、图中存在两个session分别是133和135,session135的BLOCK=1意味着该session拥有一个锁,并阻塞了其他session的对该锁的请求。该锁的类型由TY定义,模式由LMODE字段定义;
    2、session133的request=6说明该session正在等待一个lmode为6的锁,而该锁的拥有者正是session135。
    3、对于TM锁,ID1Z值就是加锁的段对象,可以是表或者表分区,此时ID2一般为0;对于TX锁,这两个字段构成该事务在回滚段中的位置。
     
    对于死锁的处理流程:
    1,查找锁:
    select ls.osuser os_user_name,
    ls.username user_name,
    ls.type lock_type,
    o.object_name object,
    decode(ls.lmode,1,null,2,'Row Share',3,'Row Exclusive',4,'Share',5,'Share Row Exclusive',6,'Exclusive',null) lock_mode,
    o.owner,
    ls.sid,
    ls.serial# serial_num,
    ls.id1,ls.id2,
    ls.paddr
     from sys.dba_objects o,
    (select s.osuser,s.username,l.type,s.paddr,l.lmode,s.sid,s.serial#,l.id1,l.id2  from v$session s,v$lock l where s.sid=l.sid) ls
    where o.object_id=ls.id1 and o.owner<>'SYS' order by o.owner,o.object_name
    2,查找spid
    select a.spid,a.username,b.program  from v$process a,v$session b where a.addr=b.paddr and a.addr='000007FF2DC8E578';
    3、kill进程
    alter system kill session 'sid,serial#' immediate;
    orakill sid spid
    sid:表示要杀死的进程属于的实例名
    thread:是要杀掉的线程号,即第2步查询出的spid。     
    (

    ALTER SYSTEM KILL SESSION

    关于KILL SESSION Clause ,如下官方文档描述所示,alter system kill session实际上不是真正的杀死会话,它只是将会话标记为终止。等待PMON进程来清除会话。

        select sid,serial# from v$session where username='DEMO';查询用户的 sid,serial# 

    可以使用ALTER SYSTEM KILL SESSION 'sid,serial#' IMMEDIATE 来快速回滚事物、释放会话的相关锁、立即返回当前会话的控制权。

    )
     
    参考:
    http://blog.csdn.net/haiross/article/details/52703419
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  • 原文地址:https://www.cnblogs.com/feiyun8616/p/6544002.html
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