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What is a good way to debug stack value corruption. In a program of mine sometimes the address of the this pointer gets changed after a method returns that does a shutdown on a file descriptor. I debugged the program for hours but I can not find the problem.

What is a good method to find out what changes the address of the this pointer? When I manually add a watch on the this pointer the error would not occur. The error still occurs when I strip down my code as much as possible. I tried Valgrind but it does not find any early stack corruption.

I managed to detect when the error occurs, I compiled the code in 64 bit mode. The address of this changed from 0xxxxxxx to 0x1000000xxxxxxx. I check the address of this in the methods where the error occurs, that I found out when the address changes (see the first paragraaf for this).

Is there any other way to find out the cause of this problem?

  • Add the -fstack-protector or -fstack-protector-all compiler options? – Brett Hale Jan 28 '14 at 8:32
  • Watches are automatically removed when a variable goes out of scope.Run the program to a known good point. Find the address of the variable which becomes corrupted and add a watch on the contents of that address, instead of the variable, i.e. if the address of the variable is 0x12345678 (not the contents which would be 0xxxxxxxxx as per your question) then set a hardware write watch on *(void **)0x12345678 and continue your program. – atomice Jan 28 '14 at 10:27
  • The this pointer on the stack gets changed. The program continues to execute but when I call a class variable the (this + variable position) will be invalid. The problem only occurs when I rapidly create and destroy the object (That object holds a file descriptor and closes it on destructing). Is there any way that I can add a watch software matically? That would take things much easier. – lauw Jan 28 '14 at 12:30
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You might want to give a shot to address-sanitizer. It is available in gcc 4.8:

AddressSanitizer , a fast memory error detector, has been added and can be enabled via -fsanitize=address. Memory access instructions will be instrumented to detect heap-, stack-, and global-buffer overflow as well as use-after-free bugs. To get nicer stacktraces, use -fno-omit-frame-pointer. The AddressSanitizer is available on IA-32/x86-64/x32/PowerPC/PowerPC64 GNU/Linux and on x86-64 Darwin.

In GCC (but apparently not clang), you need to specify -fsanitize=address in both the compiler flags and linker flags, as described in this related answer.

  • That tool found a stack-buffer-overflow, but the stack trace is not very handy (I used the "-fno-omit-frame-pointer" option, you can find the stack trace over here: pastebin.com/b81eUnZq). The tool outputs: "project+0x47744c". How can I get to that location in the source code? I use eclipse as IDE. – lauw Jan 28 '14 at 16:50
  • Please try compiling with -ggdb3. This usually gives nice call stacks. – Ali Jan 28 '14 at 17:08
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    On a second thought, you might want to disable optimization completely (-O0) and also add the -ggdb3 and -fno-omit-frame-pointer (I know you added the latter). Hope this helps. – Ali Jan 28 '14 at 17:15
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    The problem is solved. Thank you very much! I spend more than 8 hours of debugging on this problem. – lauw Jan 28 '14 at 17:22
  • @user35774 I am glad it helped! Which flag helped? The -ggdb3 or the -O0? – Ali Jan 28 '14 at 17:29

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