现象
他说是这几天才出现的,而且在每天的某一个时间段才会出现CPU占用高的情况
内存占用不太高,只占用了30个G
CPU占用100%
排查方向
一般排查都是用下面的脚本,一般会用到三个视图sys.sysprocesses ,dm_exec_sessions ,dm_exec_requests
1 USE master 2 GO 3 --如果要指定数据库就把注释去掉 4 SELECT * FROM sys.[sysprocesses] WHERE [spid]>50 --AND DB_NAME([dbid])=\'gposdb\' 5 SELECT COUNT(*) FROM [sys].[dm_exec_sessions] WHERE [session_id]>50
看一下当前的数据库用户连接有多少
然后使用下面语句看一下各项指标是否正常,是否有阻塞,这个语句选取了前10个最耗CPU时间的会话
1 SELECT TOP 10 2 [session_id], 3 [request_id], 4 [start_time] AS \'开始时间\', 5 [status] AS \'状态\', 6 [command] AS \'命令\', 7 dest.[text] AS \'sql语句\', 8 DB_NAME([database_id]) AS \'数据库名\', 9 [blocking_session_id] AS \'正在阻塞其他会话的会话ID\', 10 [wait_type] AS \'等待资源类型\', 11 [wait_time] AS \'等待时间\', 12 [wait_resource] AS \'等待的资源\', 13 [reads] AS \'物理读次数\', 14 [writes] AS \'写次数\', 15 [logical_reads] AS \'逻辑读次数\', 16 [row_count] AS \'返回结果行数\' 17 FROM sys.[dm_exec_requests] AS der 18 CROSS APPLY 19 sys.[dm_exec_sql_text](der.[sql_handle]) AS dest 20 WHERE [session_id]>50 AND DB_NAME(der.[database_id])=\'gposdb\' 21 ORDER BY [cpu_time] DESC
如果想看具体的SQL语句可以执行下面的SQL语句,记得在SSMS里选择以文本格式显示结果
1 --在SSMS里选择以文本格式显示结果 2 SELECT TOP 10 3 dest.[text] AS \'sql语句\' 4 FROM sys.[dm_exec_requests] AS der 5 CROSS APPLY 6 sys.[dm_exec_sql_text](der.[sql_handle]) AS dest 7 WHERE [session_id]>50 8 ORDER BY [cpu_time] DESC
模拟了一些耗CPU时间的动作
还有查看CPU数和user scheduler数和最大工作线程数,检查worker是否用完也可以排查CPU占用情况
1 --查看CPU数和user scheduler数目 2 SELECT cpu_count,scheduler_count FROM sys.dm_os_sys_info 3 --查看最大工作线程数 4 SELECT max_workers_count FROM sys.dm_os_sys_info
查看机器上的所有schedulers包括user 和system
通过下面语句可以看到worker是否用完,当达到最大线程数的时候就要检查blocking了
对照下面这个表
各种CPU和SQLSERVER版本组合自动配置的最大工作线程数
CPU数 32位计算机 64位计算机
<=4 256 512
8 288 576
16 352 704
32 480 960
1 SELECT 2 scheduler_address, 3 scheduler_id, 4 cpu_id, 5 status, 6 current_tasks_count, 7 current_workers_count,active_workers_count 8 FROM sys.dm_os_schedulers
如果SQLSERVER存在要等待的资源,那么执行下面语句就会显示出会话中有多少个worker在等待
结合[sys].[dm_os_wait_stats]视图,如果当前SQLSERVER里面没有任何等待资源,那么下面的SQL语句不会显示任何结果
1 SELECT TOP 10 2 [session_id], 3 [request_id], 4 [start_time] AS \'开始时间\', 5 [status] AS \'状态\', 6 [command] AS \'命令\', 7 dest.[text] AS \'sql语句\', 8 DB_NAME([database_id]) AS \'数据库名\', 9 [blocking_session_id] AS \'正在阻塞其他会话的会话ID\', 10 der.[wait_type] AS \'等待资源类型\', 11 [wait_time] AS \'等待时间\', 12 [wait_resource] AS \'等待的资源\', 13 [dows].[waiting_tasks_count] AS \'当前正在进行等待的任务数\', 14 [reads] AS \'物理读次数\', 15 [writes] AS \'写次数\', 16 [logical_reads] AS \'逻辑读次数\', 17 [row_count] AS \'返回结果行数\' 18 FROM sys.[dm_exec_requests] AS der 19 INNER JOIN [sys].[dm_os_wait_stats] AS dows 20 ON der.[wait_type]=[dows].[wait_type] 21 CROSS APPLY 22 sys.[dm_exec_sql_text](der.[sql_handle]) AS dest 23 WHERE [session_id]>50 24 ORDER BY [cpu_time] DESC
比如我当前执行了查询SalesOrderDetail_test表100次,由于表数据非常多,所以SSMS需要把SQLSERVER执行的结果慢慢的取走,
造成了ASYNC_NETWORK_IO等待
1 USE [AdventureWorks] 2 GO 3 SELECT * FROM dbo.[SalesOrderDetail_test] 4 GO 100
问题源头
经过排查和这几天的观察情况,确定是某些表缺失索引导致,现在在这些表上增加了索引,问题解决
1 select * from t_AccessControl --权限控制表权限控制 2 select * from t_GroupAccess --用户组权限表用户组权限 3 select * from t_GroupAccessType --用户组权限类表用户组权限类 4 select * from t_ObjectAccess --对象权限表对象权限 5 select * from t_ObjectAccessType --对象权限类型表对象权限类型 6 select * from t_ObjectType --对象类型表对象类型
查询CPU占用高的语句
1 SELECT TOP 10 2 total_worker_time/execution_count AS avg_cpu_cost, plan_handle, 3 execution_count, 4 (SELECT SUBSTRING(text, statement_start_offset/2 + 1, 5 (CASE WHEN statement_end_offset = -1 6 THEN LEN(CONVERT(nvarchar(max), text)) * 2 7 ELSE statement_end_offset 8 END - statement_start_offset)/2) 9 FROM sys.dm_exec_sql_text(sql_handle)) AS query_text 10 FROM sys.dm_exec_query_stats 11 ORDER BY [avg_cpu_cost] DESC
查询缺失索引
1 SELECT 2 DatabaseName = DB_NAME(database_id) 3 ,[Number Indexes Missing] = count(*) 4 FROM sys.dm_db_missing_index_details 5 GROUP BY DB_NAME(database_id) 6 ORDER BY 2 DESC;
1 SELECT TOP 10 2 [Total Cost] = ROUND(avg_total_user_cost * avg_user_impact * (user_seeks + user_scans),0) 3 , avg_user_impact 4 , TableName = statement 5 , [EqualityUsage] = equality_columns 6 , [InequalityUsage] = inequality_columns 7 , [Include Cloumns] = included_columns 8 FROM sys.dm_db_missing_index_groups g 9 INNER JOIN sys.dm_db_missing_index_group_stats s 10 ON s.group_handle = g.index_group_handle 11 INNER JOIN sys.dm_db_missing_index_details d 12 ON d.index_handle = g.index_handle 13 ORDER BY [Total Cost] DESC;
定位问题后,新建非聚集索引
1 CREATE NONCLUSTERED INDEX IX_t_AccessControl_F4 ON dbo.t_AccessControl 2 ( 3 FObjectType 4 )include([FUserID], [FAccessType], [FAccessMask]) WITH( STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY] 5 GO 6 7 drop index IX_t_AccessControl_F4 on t_AccessControl
CPU占用恢复正常
跟踪模板和跟踪文件下载,请使用SQL2008R2 版本:files.cnblogs.com/lyhabc/跟踪模板和trace.rar
总结
从多次历史经验来看,如果CPU负载持续很高,但内存和IO都还好的话,这种情况下,首先想到的一定是索引问题,十有八九错不了。
注意文章开头贴出的客户机器负载情况图