[原]调试实战——使用windbg调试DLL卸载时的死锁

时间:2022-01-30 02:36:20

调试 debug windbg 死锁 deadlock

前言

最近我们的程序在退出时会卡住,调查发现是在卸载dll时死锁了。大概流程是这样的:我们的dll在加载的时候会创建一个工作线程,在卸载的时候,会设置退出标志并等待之前开启的工作线程结束。为了研究这个经典的死锁问题,写了一个模拟程序,用到的dump文件及示例代码参考附件。

{% note info %}

这也是几年前在项目中遇到的一个问题,我对之前的笔记进行了整理重新发布于此。

{% endnote %}

关键代码

主程序 WaitDllUnloadExe

//WaitDllUnloadExe.cpp
#include "stdafx.h"
#include "windows.h"

int _tmain(int argc, _TCHAR* argv[])
{
    HMODULE module = LoadLibraryA(".\DllUnload.dll");

    Sleep(5000);

    FreeLibrary(module);

    return 0;
}

DLL程序 DllUnload

// dllmain.cpp
#include "stdafx.h"
#include "process.h"
HANDLE g_hThread;
bool g_quit = false;
unsigned __stdcall procThread(void *) {
    while ( !g_quit )
    {
        OutputDebugStringA("procThread running.n");
        Sleep(100);
    }

    OutputDebugStringA("==========================procThread quitting.n");
    return 0;
}

unsigned __stdcall quitDemoProc(void *) {
    int idx = 0;
    while ( idx   < 5 )
    {
        OutputDebugStringA("quitDemoProc running!!!!!!!!.n");
        Sleep(100);
    }

    OutputDebugStringA("--------------------------------------------------quitDemoProc quitting.n");
    return 0;
}


BOOL APIENTRY DllMain( HMODULE hModule, DWORD ul_reason_for_call, LPVOID lpReserved ) {
    switch (ul_reason_for_call)
    {
    case DLL_PROCESS_ATTACH:
        {
            g_hThread = (HANDLE)_beginthreadex(NULL, 0, &procThread, NULL, 0, NULL);
            CloseHandle((HANDLE)_beginthreadex(NULL, 0, &quitDemoProc, NULL, 0, NULL));
        }		
        break;
    case DLL_THREAD_ATTACH:
    case DLL_THREAD_DETACH:
        {
            OutputDebugStringA("------------DLL_THREAD_DETACH called.n");
        }
        break;
    case DLL_PROCESS_DETACH:
        {
            OutputDebugStringA("------------DLL_PROCESS_DETACH begin wait...n");
            g_quit = true;
            WaitForSingleObject(g_hThread, INFINITE);
            OutputDebugStringA("------------DLL_PROCESS_DETACH end wait...n");
        }
        
        break;
    }
    return TRUE;
}

点我下载测试工程

分析

使用windbg打开dump文件。然后使用~kvn 列出所有线程的调用栈。

0  Id: 1918.1924 Suspend: 1 Teb: 7efdd000 Unfrozen
 # ChildEBP RetAddr  Args to Child              
00 004af6f4 76150816 00000038 00000000 00000000 ntdll!NtWaitForSingleObject 0x15 (FPO: [3,0,0])
01 004af760 76781194 00000038 ffffffff 00000000 KERNELBASE!WaitForSingleObjectEx 0x98 (FPO: [Non-Fpo])
02 004af778 76781148 00000038 ffffffff 00000000 kernel32!WaitForSingleObjectExImplementation 0x75 (FPO: [Non-Fpo])
*** WARNING: Unable to verify checksum for DllUnload.dll
03 004af78c 6d0c15eb 00000038 ffffffff 00000000 kernel32!WaitForSingleObject 0x12 (FPO: [Non-Fpo])
04 004af86c 6d0c1e2b 6d0b0000 00000000 00000000 DllUnload!DllMain 0xdb (FPO: [Non-Fpo]) (CONV: stdcall) [c:usersbianchengnandocumentsvisual studio 2012projectswaitdllunloadexedllunloaddllmain.cpp @ 55]
05 004af8b0 6d0c1d4f 6d0b0000 00000000 00000000 DllUnload!__DllMainCRTStartup 0xcb (FPO: [Non-Fpo]) (CONV: cdecl) [f:ddvctoolscrt_bldself_x86crtsrccrtdll.c @ 508]
06 004af8c4 77139930 6d0b0000 00000000 00000000 DllUnload!_DllMainCRTStartup 0x1f (FPO: [Non-Fpo]) (CONV: stdcall) [f:ddvctoolscrt_bldself_x86crtsrccrtdll.c @ 472]
07 004af8e4 77160000 6d0c10f0 6d0b0000 00000000 ntdll!LdrpCallInitRoutine 0x14
08 004af96c 77141221 6d0b0000 004af990 750227be ntdll!LdrpUnloadDll 0x375 (FPO: [Non-Fpo])
09 004af9b0 76151da7 6d0b0000 7efde000 004afaa4 ntdll!LdrUnloadDll 0x4a (FPO: [Non-Fpo])
*** WARNING: Unable to verify checksum for WaitDllUnloadExe.exe
0a 004af9c0 003a1425 6d0b0000 00000000 00000000 KERNELBASE!FreeLibrary 0x15 (FPO: [Non-Fpo])
0b 004afaa4 003a1989 00000001 0059a650 0059cf30 WaitDllUnloadExe!wmain 0x55 (FPO: [Non-Fpo]) (CONV: cdecl) [c:usersbianchengnandocumentsvisual studio 2012projectswaitdllunloadexewaitdllunloadexewaitdllunloadexe.cpp @ 13]
0c 004afaf4 003a1b7d 004afb08 767833ca 7efde000 WaitDllUnloadExe!__tmainCRTStartup 0x199 (FPO: [Non-Fpo]) (CONV: cdecl) [f:ddvctoolscrt_bldself_x86crtsrccrtexe.c @ 533]
0d 004afafc 767833ca 7efde000 004afb48 77139ed2 WaitDllUnloadExe!wmainCRTStartup 0xd (FPO: [Non-Fpo]) (CONV: cdecl) [f:ddvctoolscrt_bldself_x86crtsrccrtexe.c @ 377]
0e 004afb08 77139ed2 7efde000 75022546 00000000 kernel32!BaseThreadInitThunk 0xe (FPO: [Non-Fpo])
0f 004afb48 77139ea5 003a107d 7efde000 00000000 ntdll!__RtlUserThreadStart 0x70 (FPO: [Non-Fpo])
10 004afb60 00000000 003a107d 7efde000 00000000 ntdll!_RtlUserThreadStart 0x1b (FPO: [Non-Fpo])

   1  Id: 1918.594 Suspend: 1 Teb: 7efda000 Unfrozen
 # ChildEBP RetAddr  Args to Child              
00 0090fc68 77138dd4 00000040 00000000 00000000 ntdll!NtWaitForSingleObject 0x15 (FPO: [3,0,0])
01 0090fccc 77138cb8 00000000 00000000 0059c5b8 ntdll!RtlpWaitOnCriticalSection 0x13e (FPO: [Non-Fpo])
02 0090fcf4 7715d349 772020c0 75d82382 00000000 ntdll!RtlEnterCriticalSection 0x150 (FPO: [Non-Fpo])
03 0090fd8c 7715d5c2 00000000 00000000 0090fdac ntdll!LdrShutdownThread 0x50 (FPO: [Non-Fpo])
04 0090fd9c 0f78e099 00000000 0059ec48 0090fde8 ntdll!RtlExitUserThread 0x2a (FPO: [Non-Fpo])
05 0090fdac 0f78e007 00000000 d910e7ee 00000000 MSVCR110D!_endthreadex 0x39 (FPO: [Non-Fpo])
06 0090fde8 0f78e1d1 0059ec48 0090fe00 767833ca MSVCR110D!_beginthreadex 0x1a7 (FPO: [Non-Fpo])
07 0090fdf4 767833ca 0059ec48 0090fe40 77139ed2 MSVCR110D!_endthreadex 0x171 (FPO: [Non-Fpo])
08 0090fe00 77139ed2 0059c5b8 75d8204e 00000000 kernel32!BaseThreadInitThunk 0xe (FPO: [Non-Fpo])
09 0090fe40 77139ea5 0f78e120 0059c5b8 00000000 ntdll!__RtlUserThreadStart 0x70 (FPO: [Non-Fpo])
0a 0090fe58 00000000 0f78e120 0059c5b8 00000000 ntdll!_RtlUserThreadStart 0x1b (FPO: [Non-Fpo])

#  2  Id: 1918.1960 Suspend: 1 Teb: 7efd7000 Unfrozen
 # ChildEBP RetAddr  Args to Child              
00 00a4f904 7719f826 75ec273a 00000000 00000000 ntdll!DbgBreakPoint (FPO: [0,0,0])
01 00a4f934 767833ca 00000000 00a4f980 77139ed2 ntdll!DbgUiRemoteBreakin 0x3c (FPO: [Non-Fpo])
02 00a4f940 77139ed2 00000000 75ec278e 00000000 kernel32!BaseThreadInitThunk 0xe (FPO: [Non-Fpo])
03 00a4f980 77139ea5 7719f7ea 00000000 00000000 ntdll!__RtlUserThreadStart 0x70 (FPO: [Non-Fpo])
04 00a4f998 00000000 7719f7ea 00000000 00000000 ntdll!_RtlUserThreadStart 0x1b (FPO: [Non-Fpo])

0号线程是主线程(线程id1924),1号线程是子线程(线程id594),2号线程线程id1960)是windbg插入的远程线程,用来中断到调试器。

0号线程在调用WaitForSingleObject时陷入了等待,我们来看它等什么。输入!handle 0x38 f

!handle 0x38 f 
Handle 00000038
  Type         Thread
  Attributes   0
  GrantedAccess 0x1fffff:
         Delete,ReadControl,WriteDac,WriteOwner,Synch
         Terminate,Suspend,Alert,GetContext,SetContext,SetInfo,QueryInfo,SetToken,Impersonate,DirectImpersonate
  HandleCount   5
  PointerCount 8
  Name         <none>
  Object specific information
    Thread Id   1918.594
    Priority    10
    Base Priority 0

原来0号线程在等线程id594的线程 。我们代码里确实有WaitForSingleObject(g_hThread, INFINITE); ,我们再来看看1号线程。从调用栈看来,1号线程已经在调用_endthreadex()准备关闭了,在关闭的过程中进入了一个关键段,并调用ntdll!NtWaitForSingleObject()进入等待。等待的句柄为0x40。输入!handle 0x40 f查看句柄的相关信息。

0:002> !handle 0x40 f 
Handle 00000040
  Type          Event
  Attributes    0
  GrantedAccess 0x100003:
         Synch
         QueryState,ModifyState
  HandleCount   2
  PointerCount  4
  Name          <none>
  Object specific information
    Event Type Auto Reset
    Event is Waiting

我们发现句柄0x40对应的对象是Event,暂时先不管。使用万能死锁调试命令!cs -l看看(因为从调用堆栈来看1号线程是调用RtlEnterCriticalSection而死锁的。)

0:002> !cs -l
-----------------------------------------
DebugInfo          = 0x77204360
Critical section   = 0x772020c0 (ntdll!LdrpLoaderLock 0x0)
LOCKED
LockCount          = 0x1
WaiterWoken        = No
OwningThread       = 0x00001924
RecursionCount     = 0x1
LockSemaphore      = 0x40
SpinCount          = 0x00000000

从输出结果可知,有一个锁住的关键段,被0号线程线程id0x00001924)拥有。而且这个死锁的关键段的成员LockSemaphore正是1号线程正在等待的句柄值。突然想起来《windows核心编程》上讲过关键段的结构,其中的LockSemaphoreEvent类型的,具体参考第八章8.4节。

至此,终于真相大白了,0号线程DllMain()内(ul_reason_for_callDLL_PROCESS_DETACH)等待1号线程结束,而1号线程在结束的时候同样要调用DllMain(),并且ul_reason_for_call参数为DLL_THREAD_DETACH。由于对DllMain()的调用需要序列化,需要等待0号线程释放锁后,其它线程才能调用。而0号线程又在无限等待1号线程结束,故死锁。

{% note warning %}

注意:即使在DllMain()里调用DisableThreadLibraryCalls(hModule);也不管用,具体参考《windows核心编程》中的相关分析。

{% endnote %}

winnt.h里找到了CriticalSection的定义,如下

typedef struct _RTL_CRITICAL_SECTION {
    PRTL_CRITICAL_SECTION_DEBUG DebugInfo;

    //
    // The following three fields control entering and exiting the critical
    // section for the resource
    //

    LONG LockCount;
    LONG RecursionCount;
    HANDLE OwningThread;        // from the thread‘s ClientId->UniqueThread
    HANDLE LockSemaphore;
    ULONG_PTR SpinCount;        // force size on 64-bit systems when packed
} RTL_CRITICAL_SECTION, *PRTL_CRITICAL_SECTION;

总结

  • 不要在DllMain()里等待线程结束。

  • 使用!cs -l调试关键段死锁,真香。

参考资料

  • 《格蠹汇编》
  • 《windows核心编程》第八章(CriticalSection相关知识,尤其是8.4.1节) 第二十章(dll相关知识,尤其是20.2.5节)的相关内容。
  • Dynamic-Link Library Best Practices (Windows)