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faulthandler dumps 'Windows fatal exception: code 0xe06d7363' #75882
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c++ extension compiled with MSVC 14 Whenever a C++ exception is thrown in an extension the faulthandler dumps a traceback to it, even if it is caught. |
Here is a git repository with a test module and a test script: |
In the github repository there is 'build.bat' that creates the mscv 14 solution, builds it and runs the 'test.py'.
The 'Windows fatal exception: code 0xe06d7363' is only caused by a c++ exception thrown (regardless if it is handled or not). More on the error code is here: The last line 'caught test error: c++ error message' is generated within the test module, where the error is caught. In larger projects these tracebacks spam the faulthandler's output, as this is valid code and occurs often (for example for an IndexError raised in a c++ extension to end a for loop). |
The code of the current faulthandler exception handler lives at: https://github.com/python/cpython/blob/master/Modules/faulthandler.c#L364-L409 -- """ (...) Are you asking to *ignore* all 0xE06D7363 exceptions? I don't know well Windows exceptions. The latest change was bpo-30557, ignore non-fatal exceptions:
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We may just need to special case some well known exception codes for MSVC and the CLR, though if they're handled we may be dumping on the first chance and not the second chance handling. If I get a chance to dig into the docs and code I'll take a look, but it's been years since I really did anything with SEH (apart from the recent filtering change, which was pretty trivial). |
Haven't had a chance to test this, but I suspect our change should depend on what happens when a C++ exception is actually unhandled. In this case, the following sequence has occurred:
Unfortunately, I don't think there's going to be any difference between the unhandled and handled cases at the point where our handler exists - at worst, the OS is going to say that it is "handled" and its handler will kill the process. The first chance lookup is actually there to continue execution and ignore the exception (possibly after fixing an argument or allocating a new page, etc.). So I think our choices are:
I'm inclined towards changing to the first option. The runtime is going to dump a more useful message than us if the exception makes it that far, and a C++ exception can never be caused by CPython itself. |
Okay, just tested taking out the C++ handler and it goes straight to an error report. Not ideal, especially since the error is logged against "python.exe" and "ucrtbase.dll" (which is going to make my life harder when reviewing the submitted crash reports), but since it can only be caused by user code, it's probably better than spamming on every handled exception. E06D7363 (msc) and E0434352 (CCR) at least should be ignored. I think there's a third, but don't remember what it is right now. |
On the Internet, I also found the code 0xE0434F4D: 0xe0000000 + 'COM'. Should it be ignored as well? |
On the Internet, I found users asking why their favorite application crashed with "Unhandled Exception E0434F4D (e0434fedh) at address 7C81EB33h" or "APPCRASH Exception Code e0434f4d". While I understand that it's annoying to get a traceback each time an application handles an exception, the faulthandler would leave the user clueless if faulthandler ignore such exception and the exception "kills" the process. faulthandler registers its exception handler as the *first* handler to be called: AddVectoredExceptionHandler(1, faulthandler_exc_handler); Maybe it shouldn't be the first but the *last* to be called? So an earlier handler could handle the exception, and faulthandler wouldn't log its traceback. The problem is that I'm confused with "non-error" exceptions (code < 0x80000000), "expected" MSC or COM exceptions, and fatal exceptions like EXCEPTION_INT_DIVIDE_BY_ZERO or EXCEPTION_ACCESS_VIOLATION. Is it possible to be asked to be called as the last handler, and still be able to log EXCEPTION_ACCESS_VIOLATION? If not, maybe we need two handlers depending on the exception code. One handler called last for non-fatal exceptions, one handler called first for fatal exceptions. By "Fatal" exceptions, I mean:
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I wrote the PR 3928 to call AddVectoredExceptionHandler(0, ...) rather than AddVectoredExceptionHandler(1, ...), but it doesn't work as expected. I tested "faulthandler.enable(); faulthandler._sigsegv()": a traceback is logged. But this code tested the *signal handler* rather than the exception handler. I disabled manually the code of faulthandler.enable() to not install signal handlers anymore: no more traceback is logged. |
I misunderstood how Windows works. UNIX signals handlers and Windows exception handlers are unrelated. Exception handlers are not called to handle a SIGSEGV signal (raised manually by the process itself, not raised by the Windows kernel). |
I failed to build https://github.com/FynnBe/faulthandler-spam with a Python built myself. But I succeeded to recompile a Python extension (_overlapped) in C++ (I removed two functions which caused compilation error) and then added faulthandler-spam/test_module/module.cpp code into _overlapped. So I was able to test C++ code raising a regular extension called by Python. Sadly, using "AddVectoredExceptionHandler(0, faulthandler_exc_handler);" (instead of "AddVectoredExceptionHandler(1, ...") doesn't solve the issue: the exception is still logged. It seems like the faulthandler exception handler is called before C++ has the opportunity to handle the exception. So it doesn't seem possible to log *unhandled* C++ exceptions using AddVectoredExceptionHandler() without flooding logs with *handled* C++ extensions. I now agree with Steve Dower to ignore *all* C++ exceptions in faulthandler. |
I abandon my intent to log all interesting errors: PR 3929 now always ignore all MSC and COM Windows exceptions. |
Unfortunately not, since the stack-based handlers always come after the vector handlers, and C++ handlers written using try/catch will always be stack-based. It may be interesting for faulthandler to have a stack-based version, so that you can provide the function to call and it will call it inside an exception handler. But I don't think it's that interesting and in any case doesn't need to be in the stdlib. I wouldn't worry about 0xE0434F4D for now, but if someone comes along with a need for it then we can add it. |
Victor, Does this change imply that no python-traceback-for-every-thread will be printed upon both handled and unhandled C++ exception? |
Right if I understood correctly. The best is to test yourself ;-) |
May I ask why AddVectoredExceptionHandler is used instead of SetUnhandledExceptionFilter? |
Honestly, I don't know well Windows API and so I'm not sure which one is the best. |
I backported the fix to Python 3.6. @Steve Dower: What do you think of using SetUnhandledExceptionFilter? |
I think faulthandler should use both. E.g. in [1] you can read about an exception that can be handled by AddVectoredExceptionHandler but not SetUnhandledExceptionFilter. Perhaps implementation should use SetUnhandledExceptionFilter for everything and AddVectoredExceptionHandler only for those exceptions that cannot be handled by the former, like c0000374. I couldn't find a list, so guess it will be an ongoing WIP. |
Another option is to use AddVectoredContinueHandler [1]. It seems to be called if both VEH and SEH failed to handle the error. 1: https://msdn.microsoft.com/en-us/library/windows/desktop/ms679273(v=vs.85).aspx |
SetUnhandledExceptionFilter could be a good option. I suspect the difference between that and AddVectorContinueHandler are because of the weird prioritization of the two types of handler, and are probably not significant enough to worry about here. |
Ok, thanks. I close the issue since the initial bug has been fixed. Thank you Fynn Be for the bug report! |
Steve, the difficulty with SetUnhandledExceptionFilter is that it can replace filter installed by the user (e.g. one of loaded libraries). The information about AddVectoredContinueHandler is scarce, but according to what I found at [1]: If the exception is still not handled after all your frame based SEH handlers are called, vectored continue handler will be called. This gives you the last opportunity to handle the exception in a way you want. |
Please ignore everything I said about AddVectoredContinueHandler. I finally got a chance to test the code on Windows and the way it's called is not suitable for faulthandler. |
Oh, good to know. Thank you for having tested that ;-) At least, it seems like my faulthandler is useful to a few people :) |
Victor, it's very helpful to analyze which Python stack caused exceptions in native code on user's machines. |
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