记录一则enq: TX - row lock contention的分析过程

故障描述:与客户沟通,初步确认故障范围大概是在上午的8:30-10:30之间,反应故障现象是Tomcat的连接数满导致应用无法连接,数据库alert中无明显报错,需要协助排查原因。

  • 1.导入包含故障时刻的数据
  • 2.创建m_ash表,明确故障时刻
  • 3.确定异常时刻的top n event
  • 4.确定最终的top holder
  • 5.总结
  • 6.reference

1.导入包含故障时刻的数据

为了便于后续分析,我向客户索要了从昨天下午13:00到今天18:00的awrdump,导入到自己的实验环境进行分析。

生产环境导出awrdump:

@?/rdbms/admin/awrextr

测试环境导入awrdump:

SYS@jyzhao1 >select * from dba_directories;
SYS@jyzhao1 >create directory jy as '/home/oracle/awrdump'; 
SYS@jyzhao1 >select * from dba_directories;
SYS@jyzhao1 >!mkdir -p /home/oracle/awrdump

SYS@jyzhao1 >@?/rdbms/admin/awrload
省略部分输出..
... Dropping AWR_STAGE user

End of AWR Load

2.创建m_ash表,明确故障时刻

创建m_ash表:

--create table 
create table m_ash20180322 as select * from dba_hist_active_sess_history where dbid=&dbid;

输入生产库对应的dbid,完成创建分析表。

select to_char(sample_time, 'yyyy-mm-dd hh24:mi'), count(1)
  FROM m_ash20180322
 group by to_char(sample_time, 'yyyy-mm-dd hh24:mi')
 order by 1;

根据生成的数据生成折线图如下:
记录一则enq: TX - row lock contention的分析过程_第1张图片

可以从图中明确故障时刻,即在10:00、12:30、14:10这三个时刻会话都明显上升(积压),看来客户的反馈时间点并没有包含所有异常时刻。

另外,引用下maclean的诊断脚本,可以看到核心意思差不多,只是进一步将instance_number区分开细化:

--验证导出的ASH时间范围:
select
 t.dbid, t.instance_number, min(sample_time), max(sample_time), count(*) session_count
  from m_ash20180322 t
 group by t.dbid, t.instance_number
 order by dbid, instance_number;
 
--确认问题发生的精确时间范围:
 select 
 dbid, instance_number, sample_id, sample_time, count(*) session_count
  from m_ash20180322 t
 group by dbid, instance_number, sample_id, sample_time
 order by dbid, instance_number, sample_time;

3.确定异常时刻的top n event

确定每个采样点的top n event,下面也是参考maclean的脚本。
比如我这里以2018-03-22 09:59:00 - 2018-03-22 10:00:00为例:

select t.dbid,
       t.sample_id,
       t.sample_time,
       t.instance_number,
       t.event,
       t.session_state,
       t.c session_count
  from (select t.*,
               rank() over(partition by dbid, instance_number, sample_time order by c desc) r
          from (select /*+ parallel 8 */
                 t.*,
                 count(*) over(partition by dbid, instance_number, sample_time, event) c,
                 row_number() over(partition by dbid, instance_number, sample_time, event order by 1) r1
                  from dba_hist_active_sess_history t
                where sample_time >
                    to_timestamp('2018-03-22 09:59:00',
                                 'yyyy-mm-dd hh24:mi:ss')
                and sample_time <
                    to_timestamp('2018-03-22 10:00:00',
                                 'yyyy-mm-dd hh24:mi:ss')
                ) t
         where r1 = 1) t
 where r < 3
 order by dbid, instance_number, sample_time, r;

记录一则enq: TX - row lock contention的分析过程_第2张图片

其他异常时刻,输入对应的变量值:

select t.dbid,
       t.sample_id,
       t.sample_time,
       t.instance_number,
       t.event,
       t.session_state,
       t.c session_count
  from (select t.*,
               rank() over(partition by dbid, instance_number, sample_time order by c desc) r
          from (select /*+ parallel 8 */
                 t.*,
                 count(*) over(partition by dbid, instance_number, sample_time, event) c,
                 row_number() over(partition by dbid, instance_number, sample_time, event order by 1) r1
                  from dba_hist_active_sess_history t
                where sample_time >
                    to_timestamp('&begin_sample_time',
                                 'yyyy-mm-dd hh24:mi:ss')
                and sample_time <
                    to_timestamp('&end_sample_time',
                                 'yyyy-mm-dd hh24:mi:ss')
                ) t
         where r1 = 1) t
 where r < 3
 order by dbid, instance_number, sample_time, r;

2018-03-22 12:29:00
2018-03-22 12:30:00
记录一则enq: TX - row lock contention的分析过程_第3张图片

2018-03-22 14:09:00
2018-03-22 14:10:00
记录一则enq: TX - row lock contention的分析过程_第4张图片

综上,3个连接数堆积的异常时刻TOP event都是 “enq: TX - row lock contention”。

4.确定最终的top holder

使用maclean的脚本,观察每个采样点的等待链:

select 
 level                     lv,
 connect_by_isleaf         isleaf,
 connect_by_iscycle        iscycle,
 t.dbid,
 t.sample_id,
 t.sample_time,
 t.instance_number,
 t.session_id,
 t.sql_id,
 t.session_type,
 t.event,
 t.session_state,
 t.blocking_inst_id,
 t.blocking_session,
 t.blocking_session_status
  from m_ash20180322 t
where sample_time >
    to_timestamp('2018-03-22 09:59:00',
                 'yyyy-mm-dd hh24:mi:ss')
and sample_time <
    to_timestamp('2018-03-22 10:00:00',
                 'yyyy-mm-dd hh24:mi:ss')
 start with blocking_session is not null
connect by nocycle
 prior dbid = dbid
       and prior sample_time = sample_time
          /*and ((prior sample_time) - sample_time between interval '-1'
          second and interval '1' second)*/
       and prior blocking_inst_id = instance_number
       and prior blocking_session = session_id
       and prior blocking_session_serial# = session_serial#
 order siblings by dbid, sample_time;

结果如下:
记录一则enq: TX - row lock contention的分析过程_第5张图片

进一步筛选,将isleaf=1的叶(top holder)找出来:

--基于上一步的原理来找出每个采样点的最终top holder:
 select t.lv,
       t.iscycle,
       t.dbid,
       t.sample_id,
       t.sample_time,
       t.instance_number,
       t.session_id,
       t.sql_id,
       t.session_type,
       t.event,
       t.seq#,
       t.session_state,
       t.blocking_inst_id,
       t.blocking_session,
       t.blocking_session_status,
       t.c blocking_session_count
  from (select t.*,
               row_number() over(partition by dbid, instance_number, sample_time order by c desc) r
          from (select t.*,
                       count(*) over(partition by dbid, instance_number, sample_time, session_id) c,
                       row_number() over(partition by dbid, instance_number, sample_time, session_id order by 1) r1
                  from (select /*+ parallel 8 */
                         level              lv,
                         connect_by_isleaf  isleaf,
                         connect_by_iscycle iscycle,
                         t.*
                          from m_ash20180322 t
                        where sample_time >
                            to_timestamp('2018-03-22 09:59:00',
                                         'yyyy-mm-dd hh24:mi:ss')
                        and sample_time <
                            to_timestamp('2018-03-22 10:00:00',
                                         'yyyy-mm-dd hh24:mi:ss')
                         start with blocking_session is not null
                        connect by nocycle
                         prior dbid = dbid
                               and prior sample_time = sample_time
                                  /*and ((prior sample_time) - sample_time between interval '-1'
                                  second and interval '1' second)*/
                               and prior blocking_inst_id = instance_number
                               and prior blocking_session = session_id
                               and prior
                                    blocking_session_serial# = session_serial#) t
                 where t.isleaf = 1) t
         where r1 = 1) t
 where r < 3
 order by dbid, sample_time, r;

记录一则enq: TX - row lock contention的分析过程_第6张图片

对其他异常时段进行分析:
2018-03-22 12:29:00
2018-03-22 12:30:00

2018-03-22 14:09:00
2018-03-22 14:10:00

-- top holder: DIY sample_time
 select t.lv,
       t.iscycle,
       t.dbid,
       t.sample_id,
       t.sample_time,
       t.instance_number,
       t.session_id,
       t.sql_id,
       t.session_type,
       t.event,
       t.seq#,
       t.session_state,
       t.blocking_inst_id,
       t.blocking_session,
       t.blocking_session_status,
       t.c blocking_session_count
  from (select t.*,
               row_number() over(partition by dbid, instance_number, sample_time order by c desc) r
          from (select t.*,
                       count(*) over(partition by dbid, instance_number, sample_time, session_id) c,
                       row_number() over(partition by dbid, instance_number, sample_time, session_id order by 1) r1
                  from (select /*+ parallel 8 */
                         level              lv,
                         connect_by_isleaf  isleaf,
                         connect_by_iscycle iscycle,
                         t.*
                          from m_ash20180322 t
                        where sample_time >
                            to_timestamp('&begin_sample_time',
                                         'yyyy-mm-dd hh24:mi:ss')
                        and sample_time <
                            to_timestamp('&end_sample_time',
                                         'yyyy-mm-dd hh24:mi:ss')
                         start with blocking_session is not null
                        connect by nocycle
                         prior dbid = dbid
                               and prior sample_time = sample_time
                                  /*and ((prior sample_time) - sample_time between interval '-1'
                                  second and interval '1' second)*/
                               and prior blocking_inst_id = instance_number
                               and prior blocking_session = session_id
                               and prior
                                    blocking_session_serial# = session_serial#) t
                 where t.isleaf = 1) t
         where r1 = 1) t
 where r < 3
 order by dbid, sample_time, r;

发现所有的异常时刻最终阻塞都是实例1的sid为3548的session,不再赘述。

5.总结

从第四步可以看到,top holder都是实例1,会话3548.
比如可以看到实例1的481会话被实例2的6377会话阻塞,然后实例2的6377会话又被实例1的3548会话阻塞。
通过sql_id可以查询到sql文本:

select * from dba_hist_sqltext where sql_id = '&sql_id';

可以看到实例1的3548会话当前正在执行的SQL只是一个查询语句,当前会话状态是ON CPU,所以推测该会话之前有DML的事物未提交导致阻塞。
去查询该会话的DML操作时,也有update和insert操作,但是update操作已经无法找到对应SQL文本。

select t.event, t.*
  from m_ash20180322 t
 where instance_number = 1
   and session_id = 3548
   and t.sql_opname <> 'SELECT';

其实从ash也可以看到关于3548阻塞的信息,甚至从addm的建议中也会有类似建议:

   Rationale
      The session with ID 3548 and serial number 8795 in instance number 1 was
      the blocking session responsible for 52% of this recommendation's
      benefit.
   Rationale
      The session with ID 6377 and serial number 30023 in instance number 2
      was the blocking session responsible for 47% of this recommendation's
      benefit.

只不过我们从底层查询,可以看到6377实际也是被3548阻塞,找到最终阻塞者。

btw,从导入的awrdump中,除了可以取awr外,同样可以支持取awrsqrpi和addmrpti以及ashrpti,非常方便:

SYS@jyzhao1 >@?/rdbms/admin/awrrpti
SYS@jyzhao1 >@?/rdbms/admin/awrsqrpi
SYS@jyzhao1 >@?/rdbms/admin/ashrpti
SYS@jyzhao1 >@?/rdbms/admin/addmrpti

6.reference

  • http://feed.askmaclean.com/archives/dba_hist_active_sess_history.html

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