I am trying to make sense out of the executable code that GCC (4.4.3) is generating for an x86_64 machine running under Ubuntu Linux. In particular, I don't understand how the code keeps track of stack frames. In the old days, in 32-bit code, I was accustomed to seeing this "prologue" in just about every function:
push %ebp movl %esp, %ebp
Then, at the end of the function, there would come an "epilogue," either
sub $xx, %esp # Where xx is a number based on GCC's accounting. pop %ebp ret
which accomplishes the same thing:
- Set the Stack Pointer to the top of the current frame, just below the return address
- Restore the old Frame Pointer value.
In 64-bit code, as I see it through an objdump disassembly, many functions do not follow this convention--they do not push %rbp and then save %rsp to %rbp, How does a debugger like GDB build a backtrace?
My real goal here to is to try to figure out a reasonable address to consider as the top (highest address) of the user stack when execution reaches the start of an arbitrary function further into the program, where perhaps the Stack Pointer has moved down. For the "top," for instance, the original address of argv would be ideal--but I have no access to it from an arbitrary function that main calls. I had at first thought that I could use the old backtrace method: chasing saved Frame Pointer values until the value saved is 0--then, the next one after that can count as the highest practical value. (This is not the same as getting the address of argv, but it will do--say, to find out the Stack Pointer value at _start or whatever _start calls [e.g., __libc_start_main].) Now, I don't know how to get the equivalent address in 64-bit code.