I have the assembly code of some code that will be executed at a point in the program. I don't know the address of the code in memory.

Is it possible to make gdb break when the current instruction matches with an inputted instruction?

For example I want gdb to break whenever gdb reaches this instruction:

leaq        0x000008eb(%rip),%rax

As others said, it is likely impossible to do it efficiently because there is no hardware support.

But if you really want to do it, this Python command can serve as a starting point:

class ContinueI(gdb.Command):
Continue until instruction with given opcode.

    ci OPCODE


    ci callq
    ci mov
    def __init__(self):
    def invoke(self, arg, from_tty):
        if arg == '':
            gdb.write('Argument missing.\n')
            thread = gdb.inferiors()[0].threads()[0]
            while thread.is_valid():
                gdb.execute('si', to_string=True)
                frame = gdb.selected_frame()
                arch = frame.architecture()
                pc = gdb.selected_frame().pc()
                instruction = arch.disassemble(pc)[0]['asm']
                if instruction.startswith(arg + ' '):
                    gdb.write(instruction + '\n')

Just source it with:

source gdb.py

and use the command as:

breaki mov
breaki callq

and you will be left on the fist instruction executed with a given opcode.

TODO: this will ignore your other breakpoints.

For the particular common case of syscall, you can use catch syscall: https://reverseengineering.stackexchange.com/questions/6835/setting-a-breakpoint-at-system-call

  • "it is likely impossible to do it efficiently because there is no hardware support...." - there's no hardware support to break on a function name, but GDB manages to do it.
    – jww
    Aug 21 '15 at 0:00
  • @jww strictly speaking you are right, but I think it is clear what I mean: GDB could of course parse the entire text section and put software breakpoints on all those opcodes, and that is easy to do in Python. Or you can single step like I'm doing. But that is going to take much longer than going through the symbol table to find a few functions and put breakpoints there. Also, there will be thousands of opcodes vs one function name, so execution is going to be slow even if you put breakpoints previously. Aug 21 '15 at 6:48
  • @jww Also I think this is worth mentioning because it would be feasible to have hardware support for it since the processor already parses opcodes. But to hardware support function breakpoints, would require an ELF parsing processor :-) Aug 21 '15 at 6:51
  • 1
    @CiroSantilli烏坎事件2016六四事件法轮功 Your script gives me: TypeError: super() takes at least 1 argument (0 given) in gdb. Oct 22 '16 at 16:43
  • @JohnnyFromBF possibly Python 3 vs Python 2 problem? Oct 22 '16 at 17:07

I don't know the address of the code in memory.

What prevents you from finding that address? Run objdump -d, find the instruction of interest, note its address. Problem solved? (This is trivially extended to shared libraries as well.)

  • 1
    It is a QuickLook plugin, so I don't know how it's loaded and called.
    – Tyilo
    Dec 25 '12 at 16:12
  • 1
    What prevents GDB from doing this for us? Computers should make our lives easier, not harder :)
    – jww
    Aug 20 '15 at 23:57

No, this is not possible and it would also be very inefficient to implement.

Debugger's typically support two kinds of breakpoints:

  • Hardware Breakpoints: The debugger asks the CPU to raise a special exception interrupt when some event occurs, like some location in memory is changed.
  • Software Breakpoints: The debugger replaces the opcode at the breakpoint's address with a special "trap" instruction (int 3 / 0xcc on the x86 architecture).

Matching the current instruction's opcode would either require CPU support to insert a hardware breakpoint or the debugger needs to know the address to use a software breakpoint.

In theory, the debugger could just search the entire memory for the instruction's byte sequence, but since the byte sequence could also occur in the middle of an instruction or in data, it may get false positives.

Since assembly instructions are variable-length, control could jump to any arbitrary address or code could modify itself, it's also not trivial to disassemble an entire region of memory to find some particular instruction.

So basically, the only way of reliably finding the instruction in arbitrary assembly code would be by single-stepping on the instruction level. And this would be extremely expensive, even a trivial library call such as printf() could take minutes on today's hardware if you single-step every instruction.

  • "... and it would also be very inefficient to implement." - I'm not sure about this. A naive implementation may be inefficient, like string comparing each mnemonic when executed. But asking GDB to do what Employed Russian suggested seems reasonable. In my case, I want to break on calls to CPUID. There's only four or five calls to it, so it seems like GDB doing what Employed Russian suggested would be perfect for me so I don't have to waste the time.
    – jww
    Aug 20 '15 at 23:57
  • for example on most ARM architectures (ignoring Thumb) instruction lengths are always 4 bytes long Jun 3 '20 at 11:03

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