‘壹’ 如何排查sql死锁的错误
1. 开启死锁日志输出(deadlock trace)
DBCC TRACEON(1204,1222)
Trace flag 1204 reports deadlock information formatted by each node involved in the deadlock.
Trace flag 1222 formats deadlock information, first by processes and then by resources.
开启了上面的选项之后, SQL会输出死锁的细节信息到SQL Error Log中(默认位置Program Files\Microsoft SQL Server\MSSQL.n\MSSQL\LOG\ERRORLOG and ERRORLOG.n)
2. 开启SQL Profiler.
Start SQL profiler
On the Trace Properties dialog box, on the General tab, check Save to file and specify a path to save the trace
Click the Events tab, only add Locks\Lock:deadlock and Locks\Lock:deadlock chain
Click the Data columns tab, add DatabaseID, IndexID, ObjectID
可以通过下面的语句把DatabaseID和ObjectID换成DatabaseName和ObjectName
SELECT database_name(DatabaseID)
SELECT object_name(ObjectID)
3. 使用下面的查询语句来检查那个进程被锁住了.
SELECT * FROM sys.sysprocesses WHERE blocked <> 0
从Blocked列中得到SPID
DBCC inputbuffer (SPID)
sp_who2
sp_lock2
‘贰’ 如何查看SQL Server 2008的死锁
在SQL Server 2008数据库中,查看死锁可以用存储过程来实现,本文我们主要就介绍了SQL Server 2008查看死锁的存储过程的代码示例,希望能够对您有所帮助。
代码示例如下:
if exists (select * from dbo.sysobjects where id = object_id(N'[dbo].[sp_who_lock]') and OBJECTPROPERTY(id, N'IsProcere') = 1) drop procere [dbo].[sp_who_lock] GO use master go create procere sp_who_lock as begin declare @spid int,@bl int, @intTransactionCountOnEntry int, @intRowcount int, @intCountProperties int, @intCounter int create table #tmp_lock_who ( id int identity(1,1), spid smallint, bl smallint) IF @@ERROR<>0 RETURN @@ERROR insert into #tmp_lock_who(spid,bl) select 0 ,blocked from (select * from sysprocesses where blocked>0 ) a where not exists(select * from (select * from sysprocesses where blocked>0 ) b where a.blocked=spid) union select spid,blocked from sysprocesses where blocked>0 IF @@ERROR<>0 RETURN @@ERROR -- 找到临时表的记录数 select @intCountProperties = Count(*),@intCounter = 1 from #tmp_lock_who IF @@ERROR<>0 RETURN @@ERROR if @intCountProperties=0 select '现在没有阻塞和死锁信息' as message -- 循环开始 while @intCounter <= @intCountProperties begin -- 取第一条记录 select @spidspid = spid,@blbl = bl from #tmp_lock_who where Id = @intCounter begin if @spid =0 select '引起数据库死锁的是: '+ CAST(@bl AS VARCHAR(10)) + '进程号,其执行的SQL语法如下' else select '进程号SPID:'+ CAST(@spid AS VARCHAR(10))+ '被' + '进程号SPID:'+ CAST(@bl AS VARCHAR(10)) +'阻塞,其当前进程执行的SQL语法如下' DBCC INPUTBUFFER (@bl ) end -- 循环指针下移 set @intCounter = @intCounter + 1 end drop table #tmp_lock_who return 0 end
以上就是SQL Server 2008查看死锁的存储过程的代码示例的全部内容,本文我们就介绍到这里了,希望本次的介绍能够对您有所收获!
‘叁’ 检查死锁的SQL怎么写
查询出来:
select
request_session_id spid,
OBJECT_NAME(resource_associated_entity_id) tableName
from
sys.dm_tran_locks
where
resource_type='OBJECT
杀死死锁进程:
kill spid
‘肆’ 如何查看SQL表死锁
SELECT SPID=p.spid,
DBName = convert(CHAR(20),d.name),
ProgramName = program_name,
LoginName = convert(CHAR(20),l.name),
HostName = convert(CHAR(20),hostname),
Status = p.status,
BlockedBy = p.blocked,
LoginTime = login_time,
QUERY = CAST(t.TEXT AS VARCHAR(MAX))
FROM MASTER.dbo.sysprocesses p
INNER JOIN MASTER.dbo.sysdatabases d
ON p.dbid = d.dbid
INNER JOIN MASTER.dbo.syslogins l
ON p.sid = l.sid
CROSS APPLY sys.dm_exec_sql_text(sql_handle) t
WHERE p.blocked = 0
AND EXISTS (SELECT 1
FROM MASTER.dbo.sysprocesses p1
WHERE p1.blocked = p.spid)
SELECT SPID=p.spid,
DBName = convert(CHAR(20),d.name),
ProgramName = program_name,
LoginName = convert(CHAR(20),l.name),
HostName = convert(CHAR(20),hostname),
Status = p.status,
BlockedBy = p.blocked,
LoginTime = login_time,
QUERY = CAST(t.TEXT AS VARCHAR(MAX))
FROM MASTER.dbo.sysprocesses p
INNER JOIN MASTER.dbo.sysdatabases d
ON p.dbid = d.dbid
INNER JOIN MASTER.dbo.syslogins l
ON p.sid = l.sid
CROSS APPLY sys.dm_exec_sql_text(sql_handle) t
WHERE p.blocked = 0
AND EXISTS (SELECT 1
FROM MASTER.dbo.sysprocesses p1
WHERE p1.blocked = p.spid)
用这个查询两次,如果两次都有某个语句就是了,可以用kill结束它
‘伍’ MSSQLSERVER中怎样查询引起死锁的sql语句
当死锁发生后,通过服务端的Trace就可以将死锁信息传到日志。在SQL Server 2000时代,只能通过Trace flag 1204来开启,由于Trace flag 1204并不能提供XML死锁图,在SQL Server 2005以及之后的版本被Trace flag 1222所取代。
为了在服务端针对所有的Session开启Trace flag 1222。可以通过如代码所示。
DBCC TRACEON(1222,-1)
另一种方法是开启Profiler来捕捉,Profiler捕捉到的图示死锁信息内容就更直观了,
‘陆’ 怎样查询引起死锁的sql语句
elect 0 ,blocked
from (select * from sysprocesses where blocked>0 ) a
where not exists(select * from (select * from sysprocesses where blocked>0 ) b
where a.blocked=spid)
union select spid,blocked from sysprocesses where blocked>0
OPEN s_cur
FETCH NEXT FROM s_cur INTO @spid,@bl
WHILE @@FETCH_STATUS = 0
begin
if @spid =0
select ' 引起数据库死锁的是: '+ CAST(@bl AS VARCHAR(10)) + ' 进程号, 其执行的SQL 语法如下'
else
select ' 进程号SPID :'+ CAST(@spid AS VARCHAR(10))+ ' 被' + ' 进程号SPID :'+ CAST(@bl AS VARCHAR(10)) +' 阻塞, 其当前进程执行的SQL 语法如下'
DBCC INPUTBUFFER (@bl )
‘柒’ SQL的死锁怎么查进程
查询出来:
select
request_session_id
spid,
OBJECT_NAME(resource_associated_entity_id)
tableName
from
sys.dm_tran_locks
where
resource_type='OBJECT
杀死死锁进程:
kill
spid
‘捌’ 如何查看SQL死锁
其实所有的死锁最深层的原因就是一个:资源竞争
表现一:
一个用户A 访问表A(锁住了表A),然后又访问表B
另一个用户B 访问表B(锁住了表B),然后企图访问表A
这时用户A由于用户B已经锁住表B,它必须等待用户B释放表B,才能继续,好了他老人家就只好老老实实在这等了
同样用户B要等用户A释放表A才能继续这就死锁了
解决方法:
这种死锁是由于你的程序的BUG产生的,除了调整你的程序的逻辑别无他法
仔细分析你程序的逻辑,
1:尽量避免同时锁定两个资源
2: 必须同时锁定两个资源时,要保证在任何时刻都应该按照相同的顺序来锁定资源.
表现二:
用户A读一条纪录,然后修改该条纪录
这是用户B修改该条纪录
这里用户A的事务里锁的性质由共享锁企图上升到独占锁(for update),而用户B里的独占锁由于A有共享锁存在所以必须等A释
放掉共享锁,而A由于B的独占锁而无法上升的独占锁也就不可能释放共享锁,于是出现了死锁。
这种死锁比较隐蔽,但其实在稍大点的项目中经常发生。
解决方法:
让用户A的事务(即先读后写类型的操作),在select 时就是用Update lock
语法如下:
select * from table1 with(updlock) where ....
‘玖’ sql server死锁的进程怎么处理
怎么解除SQL Server死锁的问题?SQL Server死锁是我们经常会碰到的问题,下面就为您介绍如何查询SQL Server死锁,希望对您学习SQL Server死锁方面能有所帮助。
SQL Server死锁的查询方法: exec master.dbo.p_lockinfo 0,0 ---显示死锁的进程,不显示正常的进程 exec master.dbo.p_lockinfo 1,0 ---杀死死锁的进程,不显示正常的进程.
SQL Server死锁的解除方法: Create proc p_lockinfo @kill_lock_spid bit=1, --是否杀掉死锁的进程,1 杀掉, 0 仅显示 @show_spid_if_nolock bit=1 --如果没有死锁的进程,是否显示正常进程信息,1 显示,0 不显示 as declare @count int,@s nvarchar(1000),@i int select id=identity(int,1,1),标志, 进程ID=spid,线程ID=kpid,块进程ID=blocked,数据库ID=dbid,
数据库名=db_name(dbid),用户ID=uid,用户名=loginame,累计CPU时间=cpu, 登陆时间=login_time,打开事务数=open_tran, 进程状态=status, 工作站名=hostname,应用程序名=program_name,工作站进程ID=hostprocess, 域名=nt_domain,网卡地址=net_address into #t from( select 标志='死锁的进程', spid,kpid,a.blocked,dbid,uid,loginame,cpu,login_time,open_tran, status,hostname,program_name,hostprocess,nt_domain,net_address,
s1=a.spid,s2=0 from mastersysprocesses a join ( select blocked from mastersysprocesses group by blocked )b on a.spid=b.blocked where a.blocked=0 union all select '|_牺牲品_>', spid,kpid,blocked,dbid,uid,loginame,cpu,login_time,open_tran, status,hostname,program_name,hostprocess,nt_domain,net_address, s1=blocked,s2=1 from mastersysprocesses a where blocked<>0 )a order by s1,s2 select @count=@@rowcount,@i=1 if @count=0 and @show_spid_if_nolock=1 begin insert #t select 标志='正常的进程', spid,kpid,blocked,dbid,db_name(dbid),uid,loginame,cpu,login_time, open_tran,status,hostname,program_name,hostprocess,nt_domain,net_address from mastersysprocesses set @count=@@rowcount end if @count>0 begin create table #t1(id int identity(1,1),a nvarchar(30),b Int,EventInfo nvarchar(255)) if @kill_lock_spid=1 begin declare @spid varchar(10),@标志 varchar(10) while @i<=@ count begin select @spid=进程ID,@标志=标志 from #t whereid=@ i insert #t1 exec('dbcc inputbuffer(')') if @标志='死锁的进程' exec('kill'+@ spid) set @i=@i+1 end end else while @i<=@ count begin select @s='dbcc inputbuffer('+cast(进程ID as varchar)+')' from #t whereid=@ i insert #t1 exec(@s) set @i=@i+1 end select a.*,进程的SQL语句=b.EventInfo from #t a join #t1 b on a.id=b.id end
‘拾’ 用sql语句,怎么解决mysql数据库死锁
MySQL死锁问题的相关知识是本文我们主要要介绍的内容,接下来我们就来一一介绍这部分内容,希望能够对您有所帮助。
1、MySQL常用存储引擎的锁机制
MyISAM和MEMORY采用表级锁(table-level locking)
BDB采用页面锁(page-level locking)或表级锁,默认为页面锁
InnoDB支持行级锁(row-level locking)和表级锁,默认为行级锁
2、各种锁特点
表级锁:开销小,加锁快;不会出现死锁;锁定粒度大,发生锁冲突的概率最高,并发度最低
行级锁:开销大,加锁慢;会出现死锁;锁定粒度最小,发生锁冲突的概率最低,并发度也最高
页面锁:开销和加锁时间界于表锁和行锁之间;会出现死锁;锁定粒度界于表锁和行锁之间,并发度一般
3、各种锁的适用场景
表级锁更适合于以查询为主,只有少量按索引条件更新数据的应用,如Web应用
行级锁则更适合于有大量按索引条件并发更新数据,同时又有并发查询的应用,如一些在线事务处理系统
4、死锁
是指两个或两个以上的进程在执行过程中,因争夺资源而造成的一种互相等待的现象,若无外力作用,它们都将无法推进下去。
表级锁不会产生死锁。所以解决死锁主要还是针对于最常用的InnoDB。
5、死锁举例分析
在MySQL中,行级锁并不是直接锁记录,而是锁索引。索引分为主键索引和非主键索引两种,如果一条sql语句操作了主键索引,MySQL就会锁定这条主键索引;如果一条语句操作了非主键索引,MySQL会先锁定该非主键索引,再锁定相关的主键索引。
在UPDATE、DELETE操作时,MySQL不仅锁定WHERE条件扫描过的所有索引记录,而且会锁定相邻的键值,即所谓的next-key locking。
例如,一个表db。tab_test,结构如下:
id:主键;
state:状态;
time:时间;
索引:idx_1(state,time)
出现死锁日志如下:
?***(1) TRANSACTION:
?TRANSACTION 0 677833455, ACTIVE 0 sec, process no 11393, OSthread id 278546 starting index read
?mysql tables in use 1, locked 1
?LOCK WAIT 3 lock struct(s), heap size 320
?MySQL thread id 83, query id 162348740 dcnet03 dcnet Searching rows for update
?update tab_test set state=1064,time=now() where state=1061 and time < date_sub(now(), INTERVAL 30 minute) (任务1的sql语句)
?***(1) WAITING FOR THIS LOCK TO BE GRANTED: (任务1等待的索引记录)
?RECORD LOCKS space id 0 page no 849384 n bits 208 index `PRIMARY` of table `db/tab_test` trx id 0 677833455 _mode X locks rec but not gap waiting
?Record lock, heap no 92 PHYSICAL RECORD: n_fields 11; compact format; info bits 0
?0: len 8; hex 800000000097629c; asc b ;; 1: len 6; hex 00002866eaee; asc (f ;; 2: len 7; hex 00000d40040110; asc @ ;; 3: len 8; hex 80000000000050b2; asc P ;; 4: len 8; hex 800000000000502a; asc P*;; 5: len 8; hex 8000000000005426; asc T&;; 6: len 8; hex 800012412c66d29c; asc A,f ;; 7: len 23; hex 8616e642e706870; asc xxx.com/;; 8: len 8; hex 800000000000042b; asc +;; 9: len 4; hex 474bfa2b; asc GK +;; 10: len 8; hex 8000000000004e24; asc N$;;
?*** (2) TRANSACTION:
?TRANSACTION 0 677833454, ACTIVE 0 sec, process no 11397, OS thread id 344086 updating or deleting, thread declared inside InnoDB 499
?mysql tables in use 1, locked 1
?3 lock struct(s), heap size 320, undo log entries 1
?MySQL thread id 84, query id 162348739 dcnet03 dcnet Updating update tab_test set state=1067,time=now () where id in (9921180) (任务2的sql语句)
?*** (2) HOLDS THE LOCK(S): (任务2已获得的锁)
?RECORD LOCKS space id 0 page no 849384 n bits 208 index `PRIMARY` of table `db/tab_test` trx id 0 677833454 lock_mode X locks rec but not gap
?Record lock, heap no 92 PHYSICAL RECORD: n_fields 11; compact format; info bits 0
?0: len 8; hex 800000000097629c; asc b ;; 1: len 6; hex 00002866eaee; asc (f ;; 2: len 7; hex 00000d40040110; asc @ ;; 3: len 8; hex 80000000000050b2; asc P ;; 4: len 8; hex 800000000000502a; asc P*;; 5: len 8; hex 8000000000005426; asc T&;; 6: len 8; hex 800012412c66d29c; asc A,f ;; 7: len 23; hex 8616e642e706870; asc uploadfire.com/hand.php;; 8: len 8; hex 800000000000042b; asc +;; 9: len 4; hex 474bfa2b; asc GK +;; 10: len 8; hex 8000000000004e24; asc N$;;
?*** (2) WAITING FOR THIS LOCK TO BE GRANTED: (任务2等待的锁)
?RECORD LOCKS space id 0 page no 843102 n bits 600 index `idx_1` of table `db/tab_test` trx id 0 677833454 lock_mode X locks rec but not gap waiting
?Record lock, heap no 395 PHYSICAL RECORD: n_fields 3; compact format; info bits 0
?0: len 8; hex 8000000000000425; asc %;; 1: len 8; hex 800012412c66d29c; asc A,f ;; 2: len 8; hex 800000000097629c; asc b ;;
?*** WE ROLL BACK TRANSACTION (1)
?(回滚了任务1,以解除死锁)
原因分析:
当“update tab_test set state=1064,time=now() where state=1061 and time < date_sub(now(), INTERVAL 30 minute)”执行时,MySQL会使用idx_1索引,因此首先锁定相关的索引记录,因为idx_1是非主键索引,为执行该语句,MySQL还会锁定主键索引。
假设“update tab_test set state=1067,time=now () where id in (9921180)”几乎同时执行时,本语句首先锁定主键索引,由于需要更新state的值,所以还需要锁定idx_1的某些索引记录。
这样第一条语句锁定了idx_1的记录,等待主键索引,而第二条语句则锁定了主键索引记录,而等待idx_1的记录,这样死锁就产生了。
6、解决办法
拆分第一条sql,先查出符合条件的主键值,再按照主键更新记录:
?select id from tab_test where state=1061 and time < date_sub(now(), INTERVAL 30 minute);
?update tab_test state=1064,time=now() where id in(......);