I have been following the excellent book Programming Ground Up, wanting to learn assembly. Although not in the book at this point, I wanted to call my assembly function from C. on a 32 bit machine, this works as is when working from the book.

What I do here is storing the first argument in %ebx and the second in %ecx.

.type power, @function
.globl power
    pushq   %ebp
    movl    %esp, %ebp
    subl    $4, %esp

    movl    8(%ebp), %ebx
    movl    12(%ebp), %ecx

I compile this (and the rest of the function) into an object file, create a main.c, where I prototype the function and call it, something like this:

int power(int b, int x);
int a = power(2, 1);

However, when I compile this on a 64 bit machine, I get some very unexpected results. I modified the obvious, like the fact that %esp and %epb needs to be replaced with %rsp and %rpb, but digging with GDB reveals that the arguments are nowhere to be found on the stack!

Checking out what happens by using the -S option to GCC I can see that instead of pushing the variables on the stack, GCC stores the arguments in registers.

 movl $1, %esi
 movl $2, %edi
 call power

On the 32 bit machine, it does what I expect and push the arguments on the stack:

 movl $1, 4(%esp)
 movl $2, (%esp)
 call power

Now what is going on here? Why does GCC pass the arguments in registers on 64 bit and on the stack on 32 bit? This is very confusing! And I can't find any mention on this anywhere. Is there anyone who can enlighten me on this situation?

  • 1
    x64 calling conventions are different to x86 ones. In most cases, due to the extra registers, the first four arguments are passed in registers. – wj32 Nov 24 '10 at 11:02

64-bit C calling convention is: %rdi, %rsi, %rdx, %rcx, %r8 and %r9

See full description here: "System V Application Binary Interface: AMD64 Architecture Processor Supplement" http://www.x86-64.org/documentation/abi.pdf

3.2 Function Calling Sequence

When I learned the same topic, I made small C programs with required functions, compiled them in 64 bit compiler and read the Assembly code produced by C compiler. C/C++ compiler can be used like kind of Assembly reference.

  • I skimmed through that exact document, but I studied it more closely now, and it's all there, and it makes totally sense now. Thanks! – Cbsch Nov 24 '10 at 11:13
  • As for your edit: Yes, that is how I try to do it as well. Modifying the assembly function to work was no problem, and observing what the compiler does is no problem either, the problem was that I did not understand the rules for this behavior. But the document you linked to was the perfect answer for that. – Cbsch Nov 24 '10 at 11:22
  • 10
    As a note, Windows uses a different ABI - msdn.microsoft.com/en-us/library/ms235286.aspx with just RCX, RDX, R8, R9 for arguments. – Brian Nov 24 '10 at 14:13
  • Answer was just edited about 2 hours ago. Note - Microsoft has multiple ABI's for 32 bit mode, one of which is fastcall , which uses ECX and EDX for the first two arguments. – rcgldr May 3 '17 at 18:06

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