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As you can see above , there are 4 win32 threads at exactly the same location, how to understand it? UPDATE

7C92E4BE  mov         dword ptr [esp],eax 
7C92E4C1  mov         dword ptr [esp+4],0 
7C92E4C9  mov         dword ptr [esp+8],0 
7C92E4D1  mov         dword ptr [esp+10h],0 
7C92E4D9  push        esp  
7C92E4DA  call        7C92E508 
7C92E4DF  mov         eax,dword ptr [esp] 
7C92E4E2  mov         esp,ebp 
7C92E4E4  pop         ebp  
7C92E4E5  ret              
7C92E4E6  lea         esp,[esp] 
7C92E4ED  lea         ecx,[ecx] 
7C92E4F0  mov         edx,esp 
7C92E4F2  sysenter         
7C92E4F4  ret        
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4 Answers 4

up vote 1 down vote accepted

The debugger shows the next ring3 processor instruction that is going to be executed. In this case the thread has called sysenter, which makes a ring0 system call to the operating system's kernel. This kernel system call is waiting for something to happen before returning control back to the calling code. Once that something happens, then it will call the next user-mode instruction, which in this case is ret.

If you have 4 threads that are all calling the same function that waits for a system call at the same location, you will have 4 threads that show the same address in the Threads window. This is something that you will see quite often in applications built with the Windows subsystem, which usually have a number of threads that are started by the Windows API that spend most of their time waiting for kernel events.

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Is it true that location field always points to the next address, or just in special cases like sysenter? –  COMer Sep 12 '10 at 23:48
When you are looking at the disassembly, then yes, always. Even if you are talking about a 'call' instruction, once it's called, that instruction is over. The operation as far as the processor is concerned has already been completed; it has pushed a value onto the stack and changed the IP register. So if you're looking at that part of the call stack, the debugger will indicate the next instruction that will be executed when the code returns from the call. –  Gerald Sep 13 '10 at 3:05
If symbols are available and Location shows a function/method name, such as GrabberCB::BufferCB, then it means that it is currently executing some code within that function/method. –  Gerald Sep 13 '10 at 3:10
Actually to be more clear and to the point of your question... if symbols are available for any part of the call stack, then Location will usually show the symbol that is closest to the current IP in the call stack. If no symbols are available for anything in the call stack, then it will show the next assembly instruction. –  Gerald Sep 13 '10 at 3:29

At a guess, they're probably sleeping in something like WaitForSingleObject or similar.

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Can you elaborate why WaitForSingleObject will make them at the same location? –  COMer Sep 12 '10 at 15:07
Because that is the usermode address of where the WaitForSingleObject function will resume. Do yourself a favor and right click in the call tree on one of the lines with that address and choose the "Load Symbols -> From Microsoft Symbol Servers" option. –  Chris Becke Sep 12 '10 at 15:12
I just dumped more assembly info above,and location 7C92E4F4 is ret, why it just stops there? –  COMer Sep 12 '10 at 15:16

At a guess, you have a thread pool of some sort, so you have four threads all executing the same thread function. In this case, all four are mostly likely idle, waiting for a task they need to execute. If that's the case, it's quite sensible that all four show the same location.

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I just dumped more assembly info above,and location 7C92E4F4 is ret, why it just stops there? –  COMer Sep 12 '10 at 15:25
That's the next address. It's really "stopped" at the sysenter, which means it's calling something in kernel mode. The ret will execute after execution returns from kernel mode. –  Jerry Coffin Sep 12 '10 at 17:00
Is it true that location field always points to the next address, or just in special cases like sysenter? –  COMer Sep 12 '10 at 23:44
@COMer: I'd have to do some testing to be sure -- even it's showing the next address in this case is supposition, not established fact (but I think it's a pretty fair supposition). –  Jerry Coffin Sep 12 '10 at 23:56

You'll need to ignore the threads that are started by Microsoft code. I'm guessing at mmsys or DirectX from your screen shot. Microsoft code is very thread-happy.

You can get better diagnostics about what they do when you enable the Microsoft Symbol Server. You'll get decent names in the Call Stack window, often letting you guess what their purpose is. Of course, you'll never get to look at their code.

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The function names are exposed after I load symbols from MS,and I can go to the definition of those function if I like,why do you say I'll never get to look at their code? –  COMer Sep 12 '10 at 23:46
Well, it is somehow special that you got source code from the Redmond Vault. I can only guess that you actually look at, say, CRT or MFC or ATL code. Or your own. –  Hans Passant Sep 12 '10 at 23:59

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