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I have a native C++ application that works fine in the office (we do testing, of course), but clients experience numerous different crashes. I know one can windbg (it's a crossplatform app - Win, Linux and Mac, but crashes occur on all platforms, so debugging either one is useful), but manipulating the client's machine (installing and registering windbg, for example) isn't an option. I wonder if there are other ways to get the call stack. Are there any tools that can instrument the binaries to provide such an information?

P. S. I can ship .pdb files along with the binaries, I guess, but I'd prefer not to.

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First step is ask clients for detailed information when the application crashes i.e. scenario, inputs and stuff. Clients do crash applications, which you had assumed(that is a very big mistake) to be uncrashable. –  DumbCoder Nov 22 '11 at 9:05
    
I never assumed it's uncrashable, I simply can't reproduce the crash. –  Violet Giraffe Nov 22 '11 at 11:35

2 Answers 2

up vote 4 down vote accepted

On Windows you may configure Dr.Watson at client machine, so that if your application crashes it'll create the so-called "minidump file", which may then be opened by the debugger with the appropriate PDB.

You may also add an unhandled exception filter to your application and produce the minidump yourself in case of an irrecoverable error.

Edit:

In case you want to produce the dump file upon an (unhandled) exception - don't do this inside the C++ catch (...) block, because it's invoked after the unwind took place, and the original call stack is unavailable.

In order to capture & dump the call stack you should dump it before the stack unwinding. Like this:

int HandleMyException(EXCEPTION_POINTERS* pExc)
{
    // dump it
    MiniDumpWrite(...);

    // Unless you decide to terminate your process, return EXCEPTION_EXECUTE_HANDLER, so that the execution
    // continues normally after the __except block.
    return EXCEPTION_EXECUTE_HANDLER;
}

__try
{
    // Do something...
}
__except (/* stack still not unwound */ HandleMyException(GetExceptionInformation()))
{
    // unwind already took place here, nothing to dump
}
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Thanks for the suggestion, did that, but faced a problem. Please see my comment to Luchian Grigore's answer. –  Violet Giraffe Nov 22 '11 at 11:05
    
You have to configure your debugger to use the crash dump and the PDB file, the former contains all the symbols (function names and etc.). Note: the PDB file should be from the same build session of your EXE. –  valdo Nov 22 '11 at 11:28
    
I understand that. The crash dump works like charm, but I don't know how to get the real stack trace since I'm calling MiniDumpWriteDump from catch (...) (or `__except()) where full stack trace is unavailable. –  Violet Giraffe Nov 22 '11 at 11:37
    
Oh.. I see. Please see my edit –  valdo Nov 22 '11 at 12:42
    
Thanks a lot! It works perfectly in debug build. In release, however, I only get call stack of 5 entries.The first is a cryptic record 054f0000(), and the second is dbghelp.dll!Win32LiveSystemProvider::OpenMapping(). I've checked the project settings - pdb is generated fine. What could be the cause? –  Violet Giraffe Nov 22 '11 at 15:21

For Windows, you can use structured exception handling. The windows api allows you to generate a stack trace when the program crashes. A dmp file will be generated. You can retrieve that file and do debugging in your debug environment. No need to ship debug binaries or pdb files.

For cross-platform you can use google breakpad. The tool generates traces and can send them automatically or followed by a user-generated report.

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Great suggestion (I mean SEH), thanks! But there is a problem: I've tried using MiniDumpWriteDump in the exception handler, and learnt that the chain of function calls that caused the error is absent in the stack, and my main desire is to get a call stack. –  Violet Giraffe Nov 22 '11 at 11:04
    
@VioletGiraffe it's probably still there, but on a different thread. Have you tried checking the call stack of every thread? –  Luchian Grigore Nov 22 '11 at 12:00
    
There's only one thread. –  Violet Giraffe Nov 22 '11 at 12:25
    
@VioletGiraffe how do you know? Are you actually monitoring the threads or does your program have only one thread. Just because you only start one thread, doesn't mean SEH or something else can't spawn new threads. –  Luchian Grigore Nov 22 '11 at 12:29
    
Makes sense. I meant to say there's only one thread that can crash. I've checked all the other threads. As far as I understand, the call stack is simply not available by the time execution flow gets to the exception handler (unwound? I don't understand exceptions too well). –  Violet Giraffe Nov 22 '11 at 12:49

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