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I used "StartServiceCtrlDispatcher" function to register a callback function (called ServiceMain) in windows, but the callback function I declared got compiled with the wrong calling convention.

The thing is that on some computers, when the application returned from the callback function, the application crashed, but on other computers the application did not crash.

Now, once I found the bug everything worked, but I just don't understand why on some computers it worked correctly without crashing ?

Thanks! :-)

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There's no way you can compile code that passes a callback with the wrong calling convention. Look and see if there's any casts that's forcing the compiler to shut up about it. –  In silico Aug 10 '11 at 23:01
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The stack gets imbalanced, esp has the wrong value. That tends to get fixed by the function epilog, it restores esp from ebp. All bets are off with the code optimizer enabled. –  Hans Passant Aug 11 '11 at 0:01
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This was explained well by Raymond Chen on his blog: blogs.msdn.com/b/oldnewthing/archive/2011/05/06/10161590.aspx –  Deanna Aug 11 '11 at 8:18

4 Answers 4

up vote 5 down vote accepted

This is all very Windows-specific, we're not talking standard C++ here.

Checking out the documentation of StartServiceDispatcher it has only one argument, and is declared as WINAPI which in turn means __stcall calling convention.

For freestanding functions, __stdcall is one of two main calling conventions. The other one is __cdecl. The machine code level difference is simply who restores the stack pointer: with __stdcall it is the function itself, while with __cdecl it is the calling code.

When the function actually is __stdcall but is invoked as if it was __cdecl, the situation is that there are two attempts to restore the stack pointer: one at the exit from the function, and one in the calling code. The one in the function will succeed. Depending on how the attempt in the calling code is done, it can mess things up thoroughly (e.g. if just adding the required offset, treating the stack pointer as relative), or it may have no harmful effect. But it's very likely to create a mess, since the assumption about the stack pointer value on return from the function, is incorrect.

When the function actually is __cdecl it will not itself restore the stack pointer, since that is the calling code's responsibility. And if the calling code is treating it as __stdcall then the calling code won't restore it either, since from the calling code's view the function is doing that. The result, if you don't get an early crash (because of broken assumptions), should then be that repeated calls, say in a loop, will eat stack space.

It's all very much Undefined Behavior.

And one property of Undefined Behavior is that it can do anything, including apparently working…

Cheers & hth.,

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Calling conventions differ in the details, like which registers are preserved. If you happened to not store anything you still needed in those registers, then it didn't matter that they were erased when they didn't have to be. Similarly, if your calling convention differs about how it deals with return values, if you don't return anything, then it doesn't matter.

Fortunately, x64 only has one calling convention and this whole mess will be in the past.

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I wasn't aware that they abolished calling conventions. AFAIK in Windows, there's still a Windows calling convention (callee cleans the stack) and a C one (caller cleans the stack). –  cHao Aug 10 '11 at 22:53
    
Yes, it will all be in the past -- just as soon as the last x86 CPU ceases to exist. I'm not holding my breath. –  Keith Thompson Aug 10 '11 at 22:54
    
@cHao: Nobody "abolished calling conventions". That would mean having no calling convention at all, which is different from agreeing always to use the same one for at particular architecture. 0 != 1. –  Henning Makholm Aug 10 '11 at 22:57
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Also, operating system may actually fix up the stack in some of the more frequent cases. But you should still always use the correct calling convention, or it will break if the underlying implementation changes or just simply not work. I'm astounded that so many people get this wrong despite the fact that the compiler will complain loudly about mismatched calling conventions. –  In silico Aug 10 '11 at 23:03
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@Rudy Velthuis: True, but that's not the case here since the Windows API headers does declare the calling convention for callback types properly (via WINAPI or CALLBACK, which both expand to __stdcall). –  In silico Aug 11 '11 at 6:23

The computers where the application crashed might have been using .NET Framework version 4.

Have a look at the following article: http://msdn.microsoft.com/en-us/library/ee941656.aspx

It states the following under Interoperability - Platform Invoke:

"To improve performance in interoperability with unmanaged code, incorrect calling conventions in a platform invoke now cause the application to fail. In previous versions, the marshaling layer resolved these errors up the stack."

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This is all related to what is current in the memory. Let's assume you have two functions like this:

void stdcall f1(...) { ... }

void cdecl f2(...) { ... }

stdcall is Windows calling convention, while cdecl is used by most compilers. The difference between them is who owns the responsibility to clear the stack after the call. In stdcall, the callee (f1, or f2) does, in cdecl, the caller does.

The stack, after all, is filled with unknown values. Therefore, when it gets cleaned up (wrongly), the next value that you access in the stack is undetermined. It could very well be an acceptable value, or it could be a very bad one. This is, in principle, how stack overflow (the bug, not the site) works.

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