Mysql 查询阻塞和事物情况
MYSQL 服务器逻辑架构图
连接/线程处理 == 》 (解析器 –> 查询缓存) ===》 优化器 ===》 存储引擎
服务器级别锁
MYSQL 使用的锁类型:
表锁(显式:LOCK TABLE,隐式)
全局锁(read_only=1,FLUSH TABLE WITH READ LOCK)
命名锁 :服务器重命名或者删除一个表时创建。重命名可能会影响到触发器相关的表
字符锁
LOCK TABLES film READ;
LOCK TABLES film WRITE;
查看那些线程持有并阻塞查询的表锁。 SHOW PROCESSLIST;
state
LOCKED 表锁
WAITING for release of readlock 全局锁
Wating for table 命名锁
user Lock 用户锁 :SELECT GET_LOCK(‘my lock’, 100);
存储引擎中的锁
InnoDB中的锁
查看InnoDb锁信息————-(5.1以下)SHOW INNODB STATUS; 更高 版本show engine innodb status\G;
查看INFROMATION_SCHEMA表中 INNODB_LOCKS表,5.5版本以上默认安装,5.1中可能会没有
INFROMATION_SCHEMA来查询mysql使用情况
使用information_schema 来查询哪条sql阻塞,谁在等待方法 转自 http://blog.csdn.net/yabingshi_tech/article/details/46562985
SELECT p2.HOSTBlockedhost, p2.USERBlockedUser, r.trx_id BlockedTrxId, r.trx_mysql_thread_id BlockedThreadId, TIMESTAMPDIFF( SECOND, r.trx_wait_started, CURRENT_TIMESTAMP ) WaitTime, r.trx_query BlockedQuery, l.lock_table BlockedTable, m.lock_modeBlockedLockMode, m.lock_typeBlockedLockType, m.lock_indexBlockedLockIndex, m.lock_spaceBlockedLockSpace, m.lock_page BlockedLockPage, m.lock_rec BlockedLockRec, m.lock_data BlockedLockData, p.HOSTblocking_host, p.USERblocking_user, b.trx_id BlockingTrxid, b.trx_mysql_thread_id BlockingThreadId, b.trx_query BlockingQuery, l.lock_modeBlockingLockMode, l.lock_typeBlockingLockType, l.lock_indexBlockingLockIndex, l.lock_spaceBlockingLockSpace, l.lock_page BlockingLockPage, l.lock_rec BlockingLockRec, l.lock_data BlockingLockData, IF (p.COMMAND = 'Sleep', CONCAT(p.TIME,' seconds'), 0) idel_in_trx FROM information_schema.INNODB_LOCK_WAITS w INNER JOIN information_schema.INNODB_TRX b ON b.trx_id = w.blocking_trx_id INNER JOIN information_schema.INNODB_TRX r ON r.trx_id = w.requesting_trx_id INNER JOIN information_schema.INNODB_LOCKS l ON w.blocking_lock_id = l.lock_id AND l.lock_trx_id=b.trx_id INNER JOIN information_schema.INNODB_LOCKS m ON m.lock_id=w.requested_lock_idAND m.lock_trx_id=r.trx_id INNER JOIN information_schema. PROCESSLIST p ON p.ID = b.trx_mysql_thread_id INNER JOIN information_schema. PROCESSLIST p2 ON p2.ID = r.trx_mysql_thread_id ORDER BY WaitTime DESC \G; -------------------------------------------------------------------------------------------- SELECT p2.`HOST` 被阻塞方host, p2.`USER` 被阻塞方用户, r.trx_id 被阻塞方事务id, r.trx_mysql_thread_id 被阻塞方线程号, TIMESTAMPDIFF( SECOND, r.trx_wait_started, CURRENT_TIMESTAMP ) 等待时间, r.trx_query 被阻塞的查询, l.lock_table 阻塞方锁住的表, m.`lock_mode` 被阻塞方的锁模式, m.`lock_type` "被阻塞方的锁类型(表锁还是行锁)", m.`lock_index` 被阻塞方锁住的索引, m.`lock_space` 被阻塞方锁对象的space_id, m.lock_page 被阻塞方事务锁定页的数量, m.lock_rec 被阻塞方事务锁定行的数量, m.lock_data 被阻塞方事务锁定记录的主键值, p.`HOST` 阻塞方主机, p.`USER` 阻塞方用户, b.trx_id 阻塞方事务id, b.trx_mysql_thread_id 阻塞方线程号, b.trx_query 阻塞方查询, l.`lock_mode` 阻塞方的锁模式, l.`lock_type` "阻塞方的锁类型(表锁还是行锁)", l.`lock_index` 阻塞方锁住的索引, l.`lock_space` 阻塞方锁对象的space_id, l.lock_page 阻塞方事务锁定页的数量, l.lock_rec 阻塞方事务锁定行的数量, l.lock_data 阻塞方事务锁定记录的主键值, IF (p.COMMAND = 'Sleep', CONCAT(p.TIME,' 秒'), 0) 阻塞方事务空闲的时间 FROM information_schema.INNODB_LOCK_WAITS w INNER JOIN information_schema.INNODB_TRX b ON b.trx_id = w.blocking_trx_id INNER JOIN information_schema.INNODB_TRX r ON r.trx_id = w.requesting_trx_id INNER JOIN information_schema.INNODB_LOCKS l ON w.blocking_lock_id = l.lock_id AND l.`lock_trx_id`=b.`trx_id` INNER JOIN information_schema.INNODB_LOCKS m ON m.`lock_id`=w.`requested_lock_id` AND m.`lock_trx_id`=r.`trx_id` INNER JOIN information_schema. PROCESSLIST p ON p.ID = b.trx_mysql_thread_id INNER JOIN information_schema. PROCESSLIST p2 ON p2.ID = r.trx_mysql_thread_id ORDER BY 等待时间 DESC \G;
*************************** 1. row ***************************
被阻塞方host: 10.192.203.9:54401
被阻塞方用户: root
被阻塞方事务id: 2844
被阻塞方线程号: 312
等待时间: 6
被阻塞的查询: update eip.t_offer_instanceset description='jiao' where id = 431
阻塞方锁住的表:eip.t_offer_instance
被阻塞方的锁模式: X
被阻塞方的锁类型(表锁还是行锁): RECORD
被阻塞方锁住的索引:PRIMARY
被阻塞方锁对象的space_id: 62
被阻塞方事务锁定页的数量: 7
被阻塞方事务锁定行的数量: 116
被阻塞方事务锁定记录的主键值: 431
阻塞方主机: 10.192.203.9:54392
阻塞方用户: root
阻塞方事务id: 2841
阻塞方线程号: 310
阻塞方查询: NULL
阻塞方的锁模式: X
阻塞方的锁类型(表锁还是行锁): RECORD
阻塞方锁住的索引:PRIMARY
阻塞方锁对象的space_id: 62
阻塞方事务锁定页的数量: 7
阻塞方事务锁定行的数量: 116
阻塞方事务锁定记录的主键值: 431
阻塞方事务空闲的时间: 19 秒
复制这个代码执行的时候报错:
[Err] 3167 - The ‘INFORMATION_SCHEMA.GLOBAL_STATUS’ feature is disabled; see the documentation for ‘show_compatibility_56’
5.7提供了show_compatibility_56参数,设置为ON可以兼容5.7之前的用法,否则就会报上面的错。
执行
set global show_compatibility_56=on; show variables like '%show_compatibility_56%'; +-----------------------+-------+ | Variable_name | Value | +-----------------------+-------+ | show_compatibility_56 | ON | +-----------------------+-------+ 1 2 3 4 5 6 7
再次执行不会报错了~~ ( : 嘿嘿~
1分钟内产生binlog大小计算
select @a1:=VARIABLE_VALUE as a1 from information_schema.GLOBAL_STATUS where VARIABLE_NAME=’innodb_os_log_written’ union all select sleep(60) union all select @a2:=VARIABLE_VALUE as a2 from information_schema.GLOBAL_STATUS where VARIABLE_NAME=’innodb_os_log_written’; select round((@a2-@a1)/1024/1024/@@innodb_log_files_in_group) as MB;
查看某段时间以来未关闭事务:
select trx_id, trx_started, trx_mysql_thread_id from information_schema.innodb_trx where trx_started < date_sub(now(), interval 1 minute) and trx_operation_state is null and trx_query is null;
查看事务等待状况:
select r.trx_id waiting_trx_id, r.trx_mysql_thread_id waiting_thread, r.trx_query waiting_query, b.trx_id blocking_trx_id, b.trx_mysql_thread_id blocking_thread, b.trx_query blocking_query from information_schema.innodb_lock_waits w inner join information_schema.innodb_trx b on b.trx_id = w.blocking_trx_id inner join information_schema.innodb_trx r on r.trx_id = w.requesting_trx_id;
查看更具体的事务等待状况:
select b.trx_state, e.state, e.time, d.state as block_state, d.time as block_time, a.requesting_trx_id, a.requested_lock_id, b.trx_query, b.trx_mysql_thread_id, a.blocking_trx_id, a.blocking_lock_id, c.trx_query as block_trx_query, c.trx_mysql_thread_id as block_trx_mysql_tread_id from information_schema.innodb_lock_waits a left join information_schema.innodb_trx b on a.requesting_trx_id = b.trx_id left join information_schema.innodb_trx c on a.blocking_trx_id = c.trx_id left join information_schema.processlist d on c.trx_mysql_thread_id = d.id left join information_schema.processlist e on b.trx_mysql_thread_id = e.id order by a.requesting_trx_id;
查看未关闭的事务:
–mysql 5.6
select a.trx_id, a.trx_state, a.trx_started, a.trx_query, b.id, b.user, b.db, b.command, b.time, b.state, b.info, c.processlist_user, c.processlist_host, c.processlist_db, d.sql_text from information_schema.innodb_trx a left join information_schema.processlist b on a.trx_mysql_thread_id = b.id and b.command = ‘sleep’ left join performance_schema.threads c on b.id = c.processlist_id left join performance_schema.events_statements_current d on d.thread_id = c.thread_id;
–mysql 5.5(别人写的,我在5.7里面测了也可以用)
select a.trx_id, a.trx_state, a.trx_started, a.trx_query, b.id, b. user, b. host, b.db, b.command, b.time, b.state, b.info from information_schema.innodb_trx a left join information_schema.processlist b on a.trx_mysql_thread_id = b.id where b.command = ‘sleep’;