怎么掌握PostgreSQLLocks的基础知识-创新互联
这篇文章主要讲解了“怎么掌握PostgreSQL Locks的基础知识”,文中的讲解内容简单清晰,易于学习与理解,下面请大家跟着小编的思路慢慢深入,一起来研究和学习“怎么掌握PostgreSQL Locks的基础知识”吧!
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session 1
[local]:5432 pg12@testdb=# begin; ere relation=295053; BEGIN Time: 1.430 ms [local]:5432 pg12@testdb=#* -- SELECT * from t_lock where id < 10 FOR UPDATE; [local]:5432 pg12@testdb=#* select pg_backend_pid(); pg_backend_pid ---------------- 2475 (1 row) Time: 2.619 ms [local]:5432 pg12@testdb=#* update t_lock set id = 3000 where id = 3; UPDATE 4 Time: 7.892 ms [local]:5432 pg12@testdb=#* select pid,locktype,relation::regclass,mode,page,tuple,virtualxid,transactionid,virtualtransaction,granted,fastpath from pg_locks where relation=295053; -[ RECORD 1 ]------+----------------- pid | 2475 locktype | relation relation | t_lock mode | RowExclusiveLock page | tuple | virtualxid | transactionid | virtualtransaction | 3/2 granted | t fastpath | t Time: 9.013 ms
session 2
[local]:5432 pg12@testdb=# ---- session 2 [local]:5432 pg12@testdb=# begin; BEGIN Time: 1.117 ms [local]:5432 pg12@testdb=#* select pg_backend_pid(); pg_backend_pid ---------------- 2480 (1 row) Time: 1.825 ms [local]:5432 pg12@testdb=#* update t_lock set id = 3000 where id = 3; -- 阻塞/挂起
session 3
[local]:5432 pg12@testdb=# select * from pg_locks where pid <> pg_backend_pid() and locktype = 'transactionid'; locktype | database | relation | page | tuple | virtualxid | transactionid | classid | objid | objsubid | virtualtransaction | pid | mode | granted | fastpath ---------------+----------+----------+------+-------+------------+---------------+---------+-------+----------+--------------------+------+---------------+---------+---------- transactionid | | | | | | 669310 | | | | 3/2 | 2475 | ExclusiveLock | t | f transactionid | | | | | | 669312 | | | | 4/4 | 2480 | ExclusiveLock | t | f transactionid | | | | | | 669310 | | | | 4/4 | 2480 | ShareLock | f | f (3 rows) Time: 1.243 ms
可以看到,进程2475中的事务669310和进程2480中的669312分别持有transactionid的ExclusiveLock,进程2480在等待事务ID=669310的lock(granted=f).
为什么会等待669310的ShareLock呢?回过头来查看t_lock表的xmax信息:
[local]:5432 pg12@testdb=# select xmin,xmax,ctid from t_lock where id = 3; xmin | xmax | ctid --------+--------+--------- 669246 | 669310 | (0,3) 669247 | 669310 | (4,99) 669248 | 669310 | (8,195) 669252 | 669310 | (13,65) (4 rows) Time: 4.715 ms
可以看到 : 待更新的tuple.xmax = 669310.
回滚事务669310,再次查看xmax:
[local]:5432 pg12@testdb=# select xmin,xmax,ctid from t_lock where id = 3; xmin | xmax | ctid --------+--------+--------- 669246 | 669312 | (0,3) 669247 | 669312 | (4,99) 669248 | 669312 | (8,195) 669252 | 669312 | (13,65) (4 rows) Time: 1.182 ms [local]:5432 pg12@testdb=# SELECT pid,backend_xid,wait_event_type,wait_event,state,query FROM pg_stat_activity WHERE pid IN (2475,2480); -[ RECORD 1 ]---+------------------------------------------ pid | 2475 backend_xid | wait_event_type | Client wait_event | ClientRead state | idle query | rollback; -[ RECORD 2 ]---+------------------------------------------ pid | 2480 backend_xid | 669312 wait_event_type | Client wait_event | ClientRead state | idle in transaction query | update t_lock set id = 3000 where id = 3; Time: 5.434 ms
xmax被更新为669312.
感谢各位的阅读,以上就是“怎么掌握PostgreSQL Locks的基础知识”的内容了,经过本文的学习后,相信大家对怎么掌握PostgreSQL Locks的基础知识这一问题有了更深刻的体会,具体使用情况还需要大家实践验证。这里是创新互联,小编将为大家推送更多相关知识点的文章,欢迎关注!
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