If I load the crashing program and the core dump into gdb, it shows me a stack trace and crash point as below.

Core was generated by `./cut --output-d=: -b1,1234567890- /dev/fd/63'.
Program terminated with signal SIGSEGV, Segmentation fault.
#0  is_printable_field (i=1234567890) at src/cut.c:266
266   return (printable_field[n] >> (i % CHAR_BIT)) & 1;
(gdb) bt
#0  is_printable_field (i=1234567890) at src/cut.c:266
#1  set_fields (fieldstr=0x7ffccb0561c4 "") at src/cut.c:533
#2  main (argc=4, argv=0x7ffccb055cf8) at src/cut.c:865

Is there any means to know the exact assembly instruction that caused the segfault?

  • @terencehill Disassembly of a high level line may yield multiple assembly instructions. – Holmes.Sherlock Jan 19 '16 at 9:12
  • maybe you can try layout asm and step until the program crash. – terence hill Jan 19 '16 at 9:17
  • 1
    If there is not a requirement that it should be done from gdb, then, running under the valgrind will help – dlmeetei Jan 19 '16 at 9:21
  • If an answer solved your problem or helped you, please consider to accept it, see also: meta.stackexchange.com/questions/5234/… – terence hill Feb 8 '16 at 16:58

One possibility is to set:

(gdb)layout asm

When GDB stops the corresponding assembly line is pointed.


   │0x7ffff7aa441d <strtok+45>      je     0x7ffff7aa44d6 <strtok+230>                                                                                       │
   │0x7ffff7aa4423 <strtok+51>      mov    %rsi,%rax                                                                                                         │
  >│0x7ffff7aa4426 <strtok+54>      mov    (%rax),%cl                                                                                                        │
   │0x7ffff7aa4428 <strtok+56>      test   %cl,%cl                                                                                                           │
   │0x7ffff7aa442a <strtok+58>      je     0x7ffff7aa4454 <strtok+100>

Program received signal SIGSEGV, Segmentation fault.
0x00007ffff7aa4426 in strtok () from /lib64/libc.so.6

You could use the disassemble GDB command. Also perhaps use x/i on $rip (the program counter on x86-64)

However, in your case, assuming the code is in C (not C++ with some operator []), the only possible culprits are the printable_field pointer, or the n index.

Consider also using valgrind and/or compiling (in addition of -g -Wall options to a recent GCC compiler) with -fsanitize=... options, notably -fsanitize=address or -fsanitize=undefined...

  • Disassembly of a high level line may yield multiple assembly instructions. How do I know which one the culprit is? – Holmes.Sherlock Jan 19 '16 at 9:14
  • Yes, I can very well see that i has been set to a very high value. But, is there any means to pinpoint the faulting instruction that generates SIGSEGV? – Holmes.Sherlock Jan 19 '16 at 9:15
  • The GDB disassemble command is nearly useless on a large function. I'm about 75 pages into the function, and I don't know if I accidentally missed ==>, or if its coming up. What genius thought it was a great idea to always disassemble form the start of the function; and not provide a disassemble . (where dot is "here"). – jww Aug 5 '17 at 3:17

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