标签:scheduler session user basic sof cond generate mod one
https://gennadny.wordpress.com/2014/11/
Since SQL Server 7.0, SQL Server has its own scheduling mechanism, In SQL 7.0 and 2000 it was called UMS (User Mode Scheduling) and later was renamed to SOS (SQL OS Scheduler). UMS\SOS is non-preemptive\cooperative scheduler, which means it relying on threads to voluntarily five up control – or yield – to the next thread waiting in line vs. preemptively taking control from the threads.
That means that there are locations in the SQL Server code where the Microsoft developer built in yield points, causing execution to “pause” and gracefully let another citizen in the SQL kingdom to exercise its right to execute. Of course, once a thread “leaves” SQL Server SOS kingdom, that thread is still handed off to the Windows preemptive scheduler. The goal of SOS is for SQL Server to expose only one thread at a time per CPU and thus minimize competition among SQL threads exposed to the OS. The ultimate goal is to reduce the very expensive kernel-mode context switching from one thread to another.
Since SQL Server uses a cooperative scheduler, it relies on the good heart of each developer who writes code in SQL Server to call a Yield() function of some kind that prevents the thread from monopolizing the CPU. That doesn’t always happen despite best intentions, moreover as there are calls to resources outside SQL Server (Disk IO best example) a SQL thread could be at the mercy of some external component. Because of that, the SOS scheduler has a dedicated thread -Scheduler Monitor – that periodically checks the state of each scheduler and reports any “irregularities”. Examples of irregularities include a thread not yielding voluntarily (a non-yielding scheduler) or all schedulers are “stuck” not processing any requests (deadlocked schedulers). Typically this Scheduler Monitor thread will report problems every 60 seconds, though it monitors the IOCP thread that accepts connections every 15 seconds. A very good white paper is actually written on SQL Server scheduling and can be found here – http://technet.microsoft.com/en-us/library/cc917684.aspx
So, deadlocked scheduler. A deadlocked scheduler scenario is reported when ALL SOS Schedulers are reported to be “stuck”. Technically, this means that since the last Scheduler Monitor check – say about 60 seconds earlier – nothing has changed and no work is being processed. Here is what is being checked by Scheduler Monitor:
If any of these conditions is met (not all), the Scheduler Monitor declares that schedulers are stuck – deadlocked. This is also somewhat NUMA dependent – SQL Server can report Deadlocked Schedulers if all the SOS schedulers on a single NUMA node are stuck, even if other NUMA nodes are processing tasks just fine.
So away from theory to practice. As deadlocked scheduler condition is reported by Scheduler Monitor SQL Server usually generates a mini dump and entry in Error Log. Through the years I have received a fare amount of these dumps from customers for this condition, non-yielding scheduler, non-yielding IOCP listener, etc. Here are some pointers on how to look at these.
The dumps generated by SQL Server by default for such condition are usually minidumps. A minidump file does not contain as much information as a full crash dump file, but it contains enough information to perform basic debugging operations. We can open this dump in Windows Debugger and granted we setup symbols correctly do some analysis on this dump. I will not go here into Windbg, symbol path to MS public symbol server, and other basics. However you can read excellent tutorial here – http://www.codeproject.com/Articles/6084/Windows-Debuggers-Part-A-WinDbg-Tutorial and some resources here – http://msdn.microsoft.com/en-us/library/windows/desktop/ee416588(v=vs.85).aspx,http://blogs.msdn.com/b/ntdebugging/archive/2008/08/28/basics-of-debugging-windows.aspx (Huge fan of NtDebugging blog myself)
So now I have a minidump and wonderful message in SQL Server Error Log like this:
2014-02-07 09:18:14.54 Server Using ‘dbghelp.dll‘ version ‘4.0.5‘
2014-02-07 09:18:14.55 Server **Dump thread - spid = 0, EC = 0x0000000000000000
2014-02-07 09:18:14.55 Server ***Stack Dump being sent to O:\MSSQL10_50.PRD_SQL_CLA_1\MSSQL\LOG\SQLDump0005.txt
2014-02-07 09:18:14.55 Server * *******************************************************************************
2014-02-07 09:18:14.55 Server *
2014-02-07 09:18:14.55 Server * BEGIN STACK DUMP:
2014-02-07 09:18:14.55 Server * 02/07/14 09:18:14 spid 11416
2014-02-07 09:18:14.55 Server *
2014-02-07 09:18:14.55 Server * Deadlocked Schedulers
2014-02-07 09:18:14.55 Server *
2014-02-07 09:18:14.55 Server * *******************************************************************************
2014-02-07 09:18:14.55 Server * -------------------------------------------------------------------------------
2014-02-07 09:18:14.55 Server * Short Stack Dump
2014-02-07 09:18:14.61 Server Stack Signature for the dump is 0x00000000000002B4
Once we open the dump in Debugger lets look for patterns here. First lets take a look what we are working with here. Looks like we have 40 threads
0:004> ~* 0 Id: 770.774 Suspend: 1 Teb: 7ffdd000 Unfrozen Start: sqlservr!wmainCRTStartup (024489f8) Priority: 0 Priority class: 32 Affinity: f 1 Id: 770.cc Suspend: 1 Teb: 7ffda000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 2 Id: 770.e0 Suspend: 1 Teb: 7ffd9000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 3 Id: 770.e8 Suspend: 1 Teb: 7ffd8000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f . 4 Id: 770.f0 Suspend: 1 Teb: 7ffd7000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 1 Priority class: 32 Affinity: f 5 Id: 770.b8 Suspend: 1 Teb: 7ffd6000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 6 Id: 770.108 Suspend: 1 Teb: 7ffd5000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 7 Id: 770.104 Suspend: 1 Teb: 7ffd4000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 8 Id: 770.144 Suspend: 1 Teb: 7ffaf000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 9 Id: 770.140 Suspend: 1 Teb: 7ffae000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 10 Id: 770.14c Suspend: 1 Teb: 7ffad000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 11 Id: 770.c0 Suspend: 1 Teb: 7ffac000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 12 Id: 770.264 Suspend: 1 Teb: 7ffab000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 13 Id: 770.28c Suspend: 1 Teb: 7ffaa000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 14 Id: 770.2a8 Suspend: 1 Teb: 7ffa9000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 15 Id: 770.2bc Suspend: 1 Teb: 7ffa8000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 16 Id: 770.1d4 Suspend: 1 Teb: 7ffa7000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 17 Id: 770.8ec Suspend: 1 Teb: 7ffa5000 Unfrozen Start: msdtcprx!CConnectionManager::TimerProc (62a6ae8b) Priority: 0 Priority class: 32 Affinity: f 18 Id: 770.8f0 Suspend: 1 Teb: 7ffa4000 Unfrozen Priority: 0 Priority class: 32 Affinity: f 19 Id: 770.8f4 Suspend: 1 Teb: 7ffa3000 Unfrozen Start: msdtcprx!CSessionObject::MaintainSession (62ab1061) Priority: 0 Priority class: 32 Affinity: f 20 Id: 770.900 Suspend: 1 Teb: 7ffa2000 Unfrozen Priority: 0 Priority class: 32 Affinity: f 21 Id: 770.940 Suspend: 1 Teb: 7ffa1000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 22 Id: 770.954 Suspend: 1 Teb: 7ff9f000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 2 Priority class: 32 Affinity: f 23 Id: 770.95c Suspend: 1 Teb: 7ff9d000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 24 Id: 770.960 Suspend: 1 Teb: 7ff9c000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 25 Id: 770.aa8 Suspend: 1 Teb: 7ff9b000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 26 Id: 770.ad0 Suspend: 1 Teb: 7ff9a000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 27 Id: 770.c80 Suspend: 1 Teb: 7ff91000 Unfrozen Start: netapi32!NetbiosWaiter (71c5110d) Priority: 0 Priority class: 32 Affinity: f 28 Id: 770.e54 Suspend: 1 Teb: 7ff82000 Unfrozen Start: msvcr80!_threadstart (7813286e) Priority: 0 Priority class: 32 Affinity: f 29 Id: 770.10cc Suspend: 1 Teb: 7ff81000 Unfrozen Start: 00070cbe Priority: 0 Priority class: 32 Affinity: f 30 Id: 770.e2c Suspend: 1 Teb: 7ffa6000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 31 Id: 770.360 Suspend: 1 Teb: 7ff92000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 32 Id: 770.12b4 Suspend: 1 Teb: 7ff93000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 33 Id: 770.2b8 Suspend: 1 Teb: 7ff83000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 34 Id: 770.7a8 Suspend: 1 Teb: 7ffdb000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 35 Id: 770.1cfc Suspend: 1 Teb: 7ff96000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 36 Id: 770.1360 Suspend: 1 Teb: 7ff97000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 37 Id: 770.ef0 Suspend: 1 Teb: 7ff94000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 38 Id: 770.18c8 Suspend: 1 Teb: 7ff9e000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 39 Id: 770.1c00 Suspend: 1 Teb: 7ff8e000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f 40 Id: 770.1dc0 Suspend: 1 Teb: 7ffa0000 Unfrozen Start: msvcr80!_threadstartex (781329e1) Priority: 0 Priority class: 32 Affinity: f
Next I will dump stacks on the threads and look for patterns here:
~*kL100
For sake of brevity I will not list my output here, but majority of my threads have following calls on the stacks, as this example with thread 40:
40 Id: 770.1dc0 Suspend: 1 Teb: 7ffa0000 Unfrozen ChildEBP RetAddr 4dd6f460 7c827a19 ntdll!KiFastSystemCallRet 4dd6f464 77ea4a4c ntdll!NtSignalAndWaitForSingleObject+0xc 4dd6f4d8 01008721 kernel32!SignalObjectAndWait+0xaf 4dd6f4fc 01002166 sqlservr!SOS_Scheduler::Switch+0x81 4dd6f678 010028b2 sqlservr!SOS_Scheduler::SwitchContext+0x337 4dd6f694 01001b7a sqlservr!SOS_Scheduler::SuspendNonPreemptive+0xb5 4dd6f6ac 01002aea sqlservr!SOS_Scheduler::Suspend+0x2d 4dd6f6d0 012d58ce sqlservr!SOS_Event::Wait+0x14d 4dd6f708 012d7c34 sqlservr!SOS_Event::WaitAllowPrematureWakeup+0x71 4dd6f784 012d7fe9 sqlservr!XchngWait<31,10> >+0xfe 4dd6f7a8 012d7d3b sqlservr!CXPort::Open+0x13b 4dd6f7bc 012dff7a sqlservr!CQScanExchangeNew::Open+0x88 4dd6f7f4 012e0aaf sqlservr!CQScanHash::ConsumeBuild+0xca 4dd6f818 012e1246 sqlservr!CQScanHash::Iterate+0x43 4dd6f83c 012e2a15 sqlservr!CQScanHash::Open+0x6a 4dd6f85c 012e04fe sqlservr!CQScanHash::ConsumeProbe+0x128 4dd6f884 012e1246 sqlservr!CQScanHash::Iterate+0x54 4dd6f8a8 01025745 sqlservr!CQScanHash::Open+0x6a 4dd6f8bc 012d7d8f sqlservr!CQScanNew::OpenHelper+0x1f 4dd6f930 012d7e7d sqlservr!CQScanXProducerNew::Open+0x49 4dd6f950 012d7a17 sqlservr!FnProducerOpen+0x5b 4dd6fa10 012d754f sqlservr!FnProducerThread+0x381 4dd6fd4c 010069f3 sqlservr!SubprocEntrypoint+0x5cc 4dd6fdbc 01006b19 sqlservr!SOS_Task::Param::Execute+0xe2 4dd6fdf0 01006829 sqlservr!SOS_Scheduler::RunTask+0xb9 4dd6fe30 0145ca28 sqlservr!SOS_Scheduler::ProcessTasks+0x141 4dd6fe98 0145c948 sqlservr!SchedulerManager::WorkerEntryPoint+0x1ad 4dd6feb0 0145c610 sqlservr!SystemThread::RunWorker+0x7f 4dd6ff10 0145c7ad sqlservr!SystemThreadDispatcher::ProcessWorker+0x246 4dd6ff78 781329bb sqlservr!SchedulerManager::ThreadEntryPoint+0x143 4dd6ffb0 78132a47 msvcr80!_callthreadstartex+0x1b 4dd6ffb8 77e6482f msvcr80!_threadstartex+0x66
Note calls to sqlservr!CQScanXProducerNew::Open above. This or its related calls like sqlservr!FnProducerOpen, sqlservr!FnProducerThread, sqlservr!SubprocEntrypoint point to excessive parallelism waits in SQL Server (CXPACKET wait) as a culprit in my case.
There are other patterns that I could have seen in the dump as well that would have pointed out other issues that can cause Deadlocked Schedulers condition:
ntdll!ZwSignalAndWaitForSingleObject kernel32!SignalObjectAndWait sqlservr!SOS_Scheduler::SwitchContext sqlservr!SOS_Scheduler::Suspend sqlservr!SOS_Event::Wait sqlservr!LockOwner::Sleep sqlservr!lck_lockInternal sqlservr!GetLock
sqlservr!BPool::Steal sqlservr!SQLSinglePageAllocator::AllocatePages sqlservr!MemoryNode::AllocatePagesInternal sqlservr!MemoryClerkInternal::AllocatePages sqlservr!IMemObj::PbGetNewPages sqlservr!CSlotPageMgr::PbAllocate
Check out very detailed article on Deadlock Scheduler Analysis on MSSQLWIKI –http://mssqlwiki.com/2010/06/15/how-to-analyze-deadlocked-schedulers-dumps/, Troubleshooting SQL blog –http://troubleshootingsql.com/2011/08/16/debugging-the-deadlock-but-for-the-scheduler-part-2-of-2/, as well ashttps://blog.basefarm.com/blog/sql-server-deadlocked-schedulers-leads-to-unexpected-cluster-failoverpart-1/
VITAM POST MORTEM – ANALYZING DEADLOCKED SCHEDULERS MINI DUMP FROM SQL SERVER
标签:scheduler session user basic sof cond generate mod one
原文地址:http://www.cnblogs.com/zengkefu/p/6980477.html