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I was playing around with signals, and was surprised by this. Why does the program loop infinitely?

#include <stdio.h>
#include <signal.h>

//I'm told that volatile tells the compiler not to cache the address of the pointer.
volatile int *i;
void seg_fault_handler(int TrapID)
    i = malloc(sizeof(int));
    puts("seg fault avoided");

int main()
    signal(SIGSEGV, seg_fault_handler);
    *i += 1;
    return 0;

Note, I attempt to rectify the problem (i is NULL) by mallocing i in the handler, so my question isn't covered by this answer.

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When the signal handler returns, it tries to re-execute the instruction that caused the signal. My suspicion is, it returns to re-execute the instruction that is already in the CPU register/assembly code. It does not re-evaluate the line *i += 1;. –  R Sahu May 30 '14 at 3:29
To achieve your intent that main should re-read i, you would need to make i volatile, not the things it points to . (Of course this idea may still never work) –  Matt McNabb May 30 '14 at 3:37

1 Answer 1

up vote 3 down vote accepted

First, as one of the answers in the question you linked noted, catching an actual segfault and returning normally causes undefined behavior:

The behavior of a process is undefined after it returns normally from a signal-catching function for a SIGBUS, SIGFPE, SIGILL, or SIGSEGV signal that was not generated by kill(), sigqueue(), or raise().

Therefore, anything is possible.

Second, volatile does you no good here. This is what gcc generates for *i += 1:

movl    i, %eax            ; Copy the value (i.e., address) stored in i to eax
movl    i, %edx            ; Copy the value (i.e., address) stored in i to edx
movl    (%edx), %edx       ; Copy the value at the address in edx into edx <--- segfault here
addl    $1, %edx           ; Add 1 to edx
movl    %edx, (%eax)       ; Store the value in edx to the address in eax

Even if you declare i volatile itself (volatile int * volatile i;), it wouldn't work. Now the compiler actually reads from i only a single time:

movl    i, %eax            ; Copy the value (i.e., address) stored in i to eax
movl    (%eax), %edx       ; Copy the value at the address in eax into edx <--- segfault here
addl    $1, %edx           ; Add 1 to edx
movl    %edx, (%eax)       ; Store the value in edx to the address in eax

Returning from the signal handler causes the segfaulting instruction to be re-executed, but your changes to i in the signal handler will not affect the value in edx, so it still segfaults into an infinite loop. The OS doesn't know how the value in edx come about and will not recompute it (in this case, by loading i again) for you.

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If this is undefined behavior, what is the preferred way of continuing execution after an error has been caught? Calling main again at the end of seg_fault_handler still causes a loop. –  Muricula May 30 '14 at 4:52
@Muricula You can't. You are not meant to recover from a segmentation fault. What you can do inside a signal handler is extremely limited. You can't call any standard library function except abort(), _Exit(), or signal() with the same signal number, or access any object of static storage duration except assigning a value to a volatile sig_atomic_t object. In other words, your attempt to malloc already triggers undefined behavior. –  T.C. May 30 '14 at 5:02

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