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I started assembly (nasm) programming not too long ago. Now I made a C function with assembly implementation which prints an integer. I got it working using the extended registers, but when I want to write it with the x64 registers (rax, rbx, ..) my implementation fails. Does any of you see what I missed?

main.c:

#include <stdio.h>

extern void printnum(int i);

int main(void)
{
        printnum(8);
        printnum(256);

        return 0;
}

32 bit version:

; main.c: http://pastebin.com/f6wEvwTq
; nasm -f elf32 -o printnum.o printnum.asm
; gcc -o printnum printnum.o main.c -m32

section .data
    _nl db 0x0A
    nlLen equ $ - _nl

section .text
    global printnum


printnum:
        enter 0,0

        mov eax, [ebp+8]

        xor ebx, ebx
        xor ecx, ecx
        xor edx, edx
        push ebx
        mov ebx, 10

startLoop:

        idiv ebx
        add edx, 0x30

        push dx ; With an odd number of digits this will screw up the stack, but that's ok
                ; because we'll reset the stack at the end of this function anyway.
                ; Needs fixing though.
        inc ecx
        xor edx, edx

        cmp eax, 0
        jne startLoop

        push ecx
        imul ecx, 2

        mov edx, ecx

        mov eax, 4 ; Prints the string (from stack) to screen
        mov ebx, 1
        mov ecx, esp
        add ecx, 4
        int 80h

        mov eax, 4 ; Prints a new line
        mov ebx, 1
        mov ecx, _nl
        mov edx, nlLen
        int 80h

        pop eax ; returns the ammount of used characters

        leave
        ret

x64 version:

; main.c : http://pastebin.com/f6wEvwTq
; nasm -f elf64 -o object/printnum.o printnum.asm
; gcc -o bin/printnum object/printnum.o main.c -m64

section .data
    _nl db 0x0A
    nlLen equ $ - _nl

section .text
    global printnum

printnum:
    enter 0, 0

    mov rax, [rbp + 8]  ; Get the function args from the stac
    xor rbx, rbx
    xor rcx, rcx
    xor rdx, rdx

    push rbx        ; The 0 byte of the string
    mov rbx, 10     ; Dividor

startLoop:
    idiv rbx        ; modulo is in rdx
    add rdx, 0x30

    push dx

    inc rcx         ; increase the loop variable
    xor rdx, rdx        ; resetting the modulo

    cmp rax, 0
    jne startLoop

    push rcx        ; push the counter on the stack
    imul rcx, 2

    mov rdx, rcx        ; string length

    mov rax, 4
    mov rbx, 1
    mov rcx, rsp        ; the string
    add rcx, 4
    int 0x80

    mov rax, 4
    mov rbx, 1
    mov rcx, _nl
    mov rdx, nlLen
    int 0x80

    pop rax
    leave

    ret         ; return to the C routine

Thanks in advance!

share|improve this question
1  
Please put your code here instead of sending us to a different website. –  Carl Norum Feb 16 '11 at 22:25

2 Answers 2

up vote 2 down vote accepted

I'm not sure if this answer is related to the problem you're seeing (since you didn't specify anything about what the failure is), but 64-bit code has a different calling convention than 32-bit code does. Both of the major 64-bit Intel ABIs (Windows & Linux/BSD/Mac OS) pass function parameters in registers and not on the stack. Your program appears to still be expecting them on the stack, which isn't the normal way to go about it.

Edit: Now that I see there is a C main() routine that calls your functions, my answer is exactly about the problem you're having.

share|improve this answer
    
I see. When I will google at the calling conventions. It seems the idiv instruction fails. I get something like floating point error –  Michel Megens Feb 16 '11 at 22:39
    
@Michel, I'm not sure you can divide by rdx in 64-bit mode. The instruction set reference seems to indicate that would be a strange thing to do, if not totally disallowed. –  Carl Norum Feb 16 '11 at 22:46
    
@Michel - I just wrote a test program - you can't use rdx for your divisor. Maybe that was a typo in your program? You are using ebx in the 32-bit code. –  Carl Norum Feb 16 '11 at 22:55
    
Yes i saw that typo too.. fixed now. Now it just prints two empty lines. –  Michel Megens Feb 17 '11 at 8:27

I think your problem is that you're trying to use the 32-bit calling conventions in 64-bit mode. That won't fly, not if you're calling these assembly routines from C. The 64-bit calling convention is documented here: http://www.x86-64.org/documentation/abi.pdf

Also, don't open-code system calls. Call the wrappers in the C library. That way errno gets set properly, you take advantage of sysenter/syscall, you don't have to deal with the differences between the normal calling convention and the system-call argument convention, and you're insulated from certain low-level ABI issues. (Another of your problems is that write is system call number 1, not 4, for Linux/x86-64.)

Editorial aside: There are two, and only two, reasons to write anything in assembly nowadays:

  1. You are writing one of the very few remaining bits of deep magic that cannot be written in C alone (a good example is the guts of libffi)
  2. You are hand-optimizing an inner-loop subroutine that has been measured to be performance-critical and the C compiler doesn't do a good enough job on.

Otherwise just write whatever it is in C. Your successors will thank you.

EDIT: checked system call numbers.

share|improve this answer
    
Why did this answer get a downvote? Here's a +1 from me to compensate. –  Carl Norum Feb 16 '11 at 23:05
    
Probably someone objects to the editorializing. shrug No skin off my nose. –  Zack Feb 16 '11 at 23:42
    
I know I can better use C to fix this problem, but this is for pure learning purposes. The write syscall is also in the x64 abi on 4. Now I have fixed a typo, it just prints two empty lines (like it should, only the ints are missing). I will read something about the calling conventions and I should be able to fix. Thank you. –  Michel Megens Feb 17 '11 at 8:32
    
No, really, I just checked; __NR_write is 4 in asm/unistd_32.h but it's 1 in asm/unistd_64.h. –  Zack Feb 17 '11 at 16:13

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