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I'm implementing the backend for a JavaScript JIT compiler that produces x86 code. Sometimes, as the result of bugs, I get segmentation faults. It can be quite difficult to trace back what caused them. Hence, I've been wondering if there would be some "easy" way to trap segmentation faults and other such crashes, and get the address of the instruction that caused the fault. This way, I could map the address back to compiled x86 assembly, or even back to source code.

This needs to work on Linux, but ideally on any POSIX compliant system. In the worst case, if I can't catch the seg fault and get the IP in my running JIT, I'd like to be able to trap it outside (kernel log?), and perhaps just have the compiler dump a big file with mappings of addresses to instructions, which I could match with a Python script or something.

Any ideas/suggestions are appreciated. Feel free to share your own debugging tips if you've ever worked on a compiler project of your own.

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possible duplicate of In a signal handler, how to know where the program is interrupted? Well, it is a duplicate if you just trap SIGSEGV instead of SIGINT. – Nemo Aug 18 '11 at 5:06

2 Answers 2

If you use sigaction, you can define a signal handler that takes 3 arguments:

void (*sa_sigaction)(int signum, siginfo_t *info, void *ucontext)

The third argument passed to the signal handler is a pointer to an OS and architecture specific data structure. On linux, its a ucontext_t which is defined in the <sys/ucontext.h> header file. Within that, uc_mcontext is an mcontext_t (machine context) which for x86 contains all the registers at the time of the signal in gregs. So you can access

ucontext->uc_mcontext.gregs[REG_EIP]  (32 bit mode)
ucontext->uc_mcontext.gregs[REG_RIP]  (64 bit mode)

to get the instruction pointer of the faulting instruction.

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Use sigaction with the SA_SIGINFO flag and a signal handler with the prototype void (*handler)(int signum, siginfo_t *info, void *data). When the signal handler gets called, info->si_addr will contain the value of the instruction pointer of where the fault occurred.

Keep in mind that the state of a process is undefined after it receives a SISEGV that was not generated using raise() or kill(). If you can, utilize a

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si_addr is the address that caused the fault, not the instruction that caused the fault. Plus, the state of the process is not undefined, just not defined as part of the POSIX spec. It depends one the OS and architecture. – Chris Dodd Aug 18 '11 at 5:38
I read about the state of the process being "undefined". Realistically speaking, though, if my JIT compiler is running some client program and the client program faults, I would guess that my JIT will probably still be in a coherent state, and at least be able to print some debug info before exiting? The client programs shouldn't be able to corrupt the host JIT's state. – Maxime C. Aug 19 '11 at 18:14
Chris Dodd is right about si_addr: I'd read the man page and missed that part. However, just because POSIX says it's undefined doesn't mean that "it's safe if you're not POSIX". Many UNIX-like operating systems will treat a process that has received a SIGSEGV as post-terminated and may or may not assign that memory to newly run programs. Hence, it's definitely not safe to hook a SIGSEGV and do anything that doesn't involve immediately terminating the program. – jmkeyes Aug 21 '11 at 1:12

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