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I'm learning 32bit assembly and I need help with code. I'm trying to put 4 to a table at index 3, which is passed by arguments to assebly code.


.equ    KERNEL, 0x80    # Linux system functions entry
.equ    WRITE,  0x04    # write data to file function
.equ    EXIT,   0x01    # exit program function

.equ    STDOUT, 1

.equ argTab,    8
.equ argLicz,   12
.equ argN,  16
.equ argZakres, 20

    .globl przelicz
    .type przelicz, @function


    pushl %ebp
    movl %esp, %ebp

    movl $2, %ecx
    movl $4, %ebx

    movl argTab(%ebp), %edx
    movl %ebx, (%edx,%ecx,4)

    movl %ebp, %esp
    popl %ebp


I execute it with C code:

#include <stdio.h>

int main(){
    const static int n = 5;
    int tab[n];
    int a;
    for(a = 0; a < n; ++a){
        tab[a] = a;
    int licz[n];

    przelicz(tab, licz, 50, 50);

    for(a = 0; a < n; ++a){
        //printf("%d ", licz[a]);

When I run it I get error: Segmentation fault (code dumped). I've read that I'm trying to get access to memory that doesn't exists. How can I solve this?

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have you verified that the code is being compiled as a 32-bit process? it makes a big difference in this case – Taylor Flores Jun 19 '13 at 22:19
did you try stepping with a debugger? – Elazar Jun 19 '13 at 22:19
@Taylor Flores - That was the problem. Thank you! – user1719194 Jun 19 '13 at 22:35
@user1719194 I added an answer that may be a little more informative – Taylor Flores Jun 19 '13 at 22:47

1 Answer 1

As I commented above, the problem is that the process is being compiled as a 64-bit process. This is a problem for two reasons:

  1. x64-linux uses a different system call table than x86-linux. Since you aren't calling a direct system call, this probably isn't the mistake - but it's something to be aware of. For example, write isn't 0x04 in x64-linux, it is 0x01. (See this table for x64-linux system call numbers).
  2. Obviously, x64-linux has larger pointer sizes. So when a 32 bit address is loaded, there is a random 32-bit upper-half of that address that may point to anywhere. This also affects values in a function's stack (they call contain 8-byte offsets, instead of 4) This is mostly likely what was causing the problem in this code.
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