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I'm working on the Pintos toy operating system at university, but there's a strange bug when using GCC 4.6.2. When I push my system call arguments (just 3 pushl-s in inline assembly), some mysterious data also appears on the stack, and the arguments are in the wrong order. Setting -fno-omit-frame-pointer gets rid of the strange data, but the arguments are still in the wrong order. GCC 4.5 works fine. Any idea what specific option could fix this?

NOTE: the problem still occurs with -O0.

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minimal example code? –  Johan Lundberg Feb 25 '12 at 22:47

3 Answers 3

Without a code example and a listing of the result from your different compilations, it's difficult to help you. But here are three possible causes for your problems:

  1. Make sure you understand how arguments are pushed to the stack. Arguments are pushed from the back. This makes it possible for printf(char *, ...) to examine the first item to find out how many more there are. If you want to call the function int foo(int a, int b, int c), you'll need to push c, then b and finally a.
  2. Could the strange data on the stack be a return address or EFLAGS? I don't know Pintos and how system calls are made, but make sure that you understand the difference between CALL/RET and INT/IRET. INT pushes the flags onto the stack.
  3. If your inline assembly has side effects, you might want to write volatile/__volatile__ in front of it. Otherwise GCC is allowed to move it when optimizing.

I need to see your code to better understand what's going on.

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Parameters are passed with three pushl-s followed by a push of the system call number (in asm volatile). However, when the kernel segment sees the memory the arguments are 3 1 2 order (or even garbage, depending on the options). With GCC 4.5 they're in the right place, and in the right order. –  Patrick Chilton Feb 26 '12 at 13:32
    
@vahokif Could you show a code example? I don't know if I can solve it, but it's almost impossible without even looking at the code. Of course, there are sometimes bugs in compilers. In that case you might want to file a bug report. –  Anders Sjöqvist Feb 26 '12 at 13:59
up vote 0 down vote accepted

The culprit was -fomit-frame-pointer, which has been enabled by default since 4.6.2. -fno-omit-frame-pointer fixed the issue.

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Did you clean the parameters on stack after the syscall? gcc may not be aware that you touch the stack and generate code depends on the stack pointer it expected. -fno-omit-frame-pointer force gcc to use e/rbp for accessing locate data but it just hide the actual problem.

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