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My android native application crashes randomly but frequently, and I am unable to get sufficient info out ndk-gdb. This is the message following the crash:

Program received signal SIGSEGV, Segmentation fault.
[Switching to Thread 19983]
0x4012c6ac in memcpy () from /Users/Andreas/dev/android/obj/local/armeabi-v7a/libc.so

bt returns an unusable callstack:

#0  0x4012c6ac in memcpy () from /Users/Andreas/dev/android/obj/local/armeabi-v7a/libc.so
#1  0x67337388 in ?? ()
Cannot access memory at address 0x7
#2  0x67337388 in ?? ()
Cannot access memory at address 0x7
Backtrace stopped: previous frame identical to this frame (corrupt stack?)

I am using NDK-r8e

I have checked all uses of memcpy() in my program and they're not responsible for this (verified by making them call another memcpy-like function with a different name, and still getting the above crash with the exact signature).

Any ideas how to get a more useable call stack, or to further debug this? Does the NDK offer any memory check functionality in case this is a memory overwrite?

share|improve this question
    
Perhaps you can run under gdb, put a breakpoint on memcpy and use a macro to have it print a back trace and then continue, until you get the crash (which presumably corrupts the stack). See stackoverflow.com/questions/6206447/… for the breakpoint log and continue macros. Log the arguments too, as they are likely the culprit! – Chris Stratton May 23 '13 at 4:23
    
To get a more usable stacktrace, you can try building your NDK code in debug mode so it does not strip the symbols. Use ndk-build NDK_DEBUG=1 to do so. – mbrenon May 23 '13 at 8:37
    
@mbrenon - I believe that would only help with interpreting the stack trace, ie, address to symbol resolution. The problem right now is that even a trace of raw addresses cannot be generated. Doing so is trickier on an ARM given the way return addresses are stored, and can easily become corrupted such that the debugger can't figure it out. – Chris Stratton May 23 '13 at 22:03
    
@ChrisStratton - thanks for the suggestion. I am however getting bad callstacks for the breaks to memcpy, similar to the one I posted above. Other breakpoints to my code work correctly, and I am building in debug and have no problems with callstacks elsewhere. – user1090937 May 25 '13 at 16:21
    
Wait, every call to memcpy, even the non-failing ones, has a bad call stack? Or I suppose that in addition to memcpy being called with bad values, it could be being called as a result of state corruption. – Chris Stratton May 25 '13 at 17:13

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