section .text
     global _start
     mov eax, 1
     mov ebx, 2
     xor eax, eax

I compile with these commands:

nasm -f elf main.asm
ld -melf_i386 -o main main.o

When I run the code, Linux throw a segmentation fault error

(I am using Linux Mint Nadia 64 bits). Why this error is produced?


1 Answer 1


Because ret is NOT the proper way to exit a program in Linux, Windows, or Mac!!!!

_start is not a function, there is no return address on the stack because there is no user-space caller to return to. Execution in user-space started here (in a static executable), at the process entry point. (Or with dynamic linking, it jumped here after the dynamic linker finished, but same result).

On Linux / OS X, the stack pointer is pointing at argc on entry to _start (see the i386 or x86-64 System V ABI doc for more details on the process startup environment); the kernel puts command line args into user-space stack memory before starting user-space. (So if you do try to ret, EIP/RIP = argc = a small integer, not a valid address. If your debugger shows a fault at address 0x00000001 or something, that's why.)

For Windows it is ExitProcess and Linux is is system call - int 80H using sys_exit, for x86 or using syscall using 60 for 64-bit or a call to exit from the C Library if you are linking to it.

32-bit Linux (i386)

%define  SYS_exit  1   ; call number __NR_exit from <asm/unistd_32.h>

mov     eax, SYS_exit  ; use the NASM macro we defined earlier
xor     ebx, ebx       ; ebx = 0  exit status
int     80H            ; _exit(0)

64-bit Linux (amd64)

mov     rax, 60        ; SYS_exit aka __NR_exit from asm/unistd_64.h
xor     rdi, rdi       ; edi = 0  first arg to 64-bit system calls
syscall                ; _exit(0)

(In GAS you can actually #include <sys/syscall.h> or <asm/unistd.h> to get the right numbers for the mode you're assembling a .S for, but NASM can't easily use the C preprocessor. See Polygot include file for nasm/yasm and C for hints.)

32-bit Windows (x86)

push    0
call    ExitProcess

Or Windows/Linux linking against the C Library

; pass an int exit_status as appropriate for the calling convention
; push 0   /  xor edi,edi  /  xor ecx,ecx
call    exit

(Or for 32-bit x86 Windows, call _exit, because C names get prepended with an underscore, unlike in x86-64 Windows. The POSIX _exit function would be call __exit, if Windows had one.)

Windows x64's calling convention includes shadow space which the caller has to reserve, but exit isn't going to return so it's ok to let it step on that space above its return address. Also, 16-byte stack alignment is required by the calling convention before call exit except for 32-bit Windows, but often won't actually crash for a simple function like exit().

call exit (unlike a raw exit system call or libc _exit) will flush stdio buffers first. If you used printf from _start, use exit to make sure all output is printed before you exit, even if stdout is redirected to a file (making stdout full-buffered, not line-buffered).

It's generally recommended that if you use libc functions, you write a main function and link with gcc so it's called by the normal CRT start functions which you can ret to.

See also

Defining main as something that _start falls through into doesn't make it special, it's just confusing to use a main label if it's not like a C main function called by a _start that's prepared to exit after main returns.

  • 2
    @maxiperez Not a stupid question at all :). It shows that programs are not just a 'main' functions and that they interact with the OS in different ways.
    – Guido
    Nov 4, 2013 at 1:02
  • In your x64 Linux and Windows examples, I suppose you are returning a 0 exit code? If it were equivalent to the x86 version, that would be mov rdi, sys_exit? And similarly, push sys_exit for the Windows version?
    – odalet
    Jun 25 at 19:00
  • 1
    @odalet: Yes, the first 3 examples were returning 0. But no, sys_exit is the call number, not the exit status. (And a non-standard macro name for the call number; sys_exit is the name of the Linux kernel function that implements it; SYS_exit and __NR_exit are CPP macros with the actual number.) I edited this answer again with more/better comments, including one about setting the exit status before call exit. Aug 3 at 4:01

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