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How to predict where segmentation fault occurs if we are increasing a pointer in a infinite loop?

I have thought that we can use the alarm signal handler and it will be invoked after every 1 second and it will print the address pointed to by the pointer so that when the segmentation fault would occur we would get a very nearby address where it occurred.

Could there be more better solution? If there then please tell. Thanks in advance

Code :

#define SECOND 1

int *str;

void  ALARMhandler(int sig)
     signal(SIGALRM, SIG_IGN);      

printf("ptr=%u \n",*str);

     alarm(SECOND);                     /* set alarm for next run   */
     signal(SIGALRM, ALARMhandler);     /* reinstall the handler    */

int main()

int *ptr;
int a;



return 0;

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In the general case, it is an intractable or unsolvable issue (related to the halting problem). – Basile Starynkevitch May 21 '12 at 6:07
What i have thought, its not working, segmentation fault is not occurring(i have checked for about 2 minutes) and the infinite loop is incrementing the pointer continuously. – Luv May 21 '12 at 6:11
Show your actual code, enable warnings and debug info at compilation time (e.g. gcc -Wall -g) and use a debugger (e.g. gdb) – Basile Starynkevitch May 21 '12 at 6:21
I have added the code – Luv May 21 '12 at 6:26
Why do you ask? What is your motivation? What do you want to achieve?? – Basile Starynkevitch May 21 '12 at 8:07

First, with a big enough optimization level, the compiler might remove your infinite for(;;) loop entirely.

Showing your pointer only every second is not very meaningful. A typical processor execute billions (ie 109) of machine instructions per seconds. On a 32 bits machine, this means that the entire process address space could be scanned in very few seconds.

Then, on Linux/AMD64 (and Linux/x86), the stack grows downwards (from higher addresses to lower addresses); since you start with a local variable near the main call frame, you will very quickly get outside (i.e. before = higher the beginning of your stack).

You could perhaps catch the SIGSEGV signal; this means installing a processor- and system- specific handler with sigaction(2) system call, using the SA_SIGINFO flag.

Actually, on Linux, you might want to retrieve your process address map, by reading /proc/self/maps (or perhaps /proc/self/smaps or some other file inside the proc(5) pseudo-file system); this should give you the segment to which a given address belongs to, and then you would be able to understand where that segment ends.

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