I am trying to dive into some x86 assembly programming on my Mac, but am having trouble producing an executable. The problem seems to be at the linking stage.



    .ascii "Hello World\n"


.globl _start

    # load all the arguments for write()
    movl $4, %eax
    movl $1, %ebx
    movl $HelloWorldString, %ecx
    movl $12, %edx
    # raises software interrupt to call write()
    int $0x80

    # call exit()
    movl $1, %eax
    movl $0, %ebx
    int $0x80

Assemble the program:

as -o helloWorld.o helloWorld.s

Link the object file:

ld -o helloWorld helloWorld.o

The error I get at this point is:

ld: could not find entry point "start" (perhaps missing crt1.o) for inferred architecture x86_64

Any advice on what I'm doing wrong / missing would be very helpful. thanks

  • 4
    I know I'm a bit late, but you need to change _start to start.
    – sidyll
    Aug 12, 2011 at 21:40

5 Answers 5


You'll probably find it easier to build with gcc rather than trying to micro-manage the assembler and linker, e.g.

$ gcc helloWorld.s -o helloWorld

(You'll probably want to change _start to _main if you go this route.)

Incidentally, it can be instructive to start with a working C program, and study the generated asm from this. E.g.

#include <stdio.h>

int main(void)
    puts("Hello world!\n");

    return 0;

when compiled with gcc -Wall -O3 -m32 -fno-PIC hello.c -S -o hello.S generates:

    .ascii "Hello world!\12\0"
    .align 4,0x90
.globl _main
    pushl   %ebp
    movl    %esp, %ebp
    subl    $24, %esp
    movl    $LC0, (%esp)
    call    _puts
    xorl    %eax, %eax

You might want to consider using this as a template for your own "Hello world" or other experimental asm programs, especially given that it already builds and runs:

$ gcc -m32 hello.S -o hello
$ ./hello 
Hello world!

One final comment: beware of taking examples from Linux-oriented asm books or tutorials and trying to apply them under OS X - there are important differences !

  • Any idea why I'd get this error while doing gcc -m32 hello.S -o hello? ld: warning: PIE disabled. Absolute addressing (perhaps -mdynamic-no-pic) not allowed in code signed PIE, but used in _main from /var/folders/9b/n3lsk87513d57pzh0qvxjmz00000gn/T/hello-r4fQK2.o. To fix this warning, don't compile with -mdynamic-no-pic or link with -Wl,-no_pie Feb 15, 2014 at 9:28
  • Are you using an unusual platform ?
    – Paul R
    Feb 15, 2014 at 14:02
  • 2
    @michaelsnowden the code was generated with -fno-PIC, so if you want to compile it you need to use gcc -m32 -Wl,-no_pie hello.S -o hello. Alternatively, generate the code without -fno-PIC. That will give you slightly more complex boilerplate, but then you can compile it without having to deal with the PIE issue.
    – Rikkles
    Dec 2, 2015 at 8:37


ld -e _start -arch x86_64 -o HelloWorld HelloWorld.S




-e <entry point>
-arch <architecture>, You can check your architecture by uname -a 
-o <output file>
  • Yes that will assemble+link, but the code in the question is not for x86-64 MacOS. It's for i386 Linux. After fixing that (see NoOffenceIntended's answer), then this answer will work. You can leave out the -e _start part if you give your entry point the standard (for MacOS) label of start: instead of _start: Jul 9, 2019 at 4:54



    .ascii "Hello World!\n"


.globl start

    ; load all the arguments for write()
    movl $0x2000004, %eax
    movl $1, %ebx
    movq HelloWorldString@GOTPCREL(%rip), %rsi
    movq $100, %rdx
    ; raises software interrupt to call write()

    ; call exit()
    movl $0x2000001, %eax
    movl $0, %ebx

Then run:

$ as -arch x86_64  -o hello.o hello.asm
$ ld -o hello hello.o
$ ./hello

This is a working solution for Mac OS X Mach-0 GNU-based assemblers

  • This worked for me but had to remove the commented code in .asm file. Also passing in -macosx_version_min 10.6 to linker command avoids warning, though it compiles anyway. Nov 17, 2016 at 11:32
  • Printing 100 bytes when your string is shorter will include a bunch of garbage in the output. Probably all 0 bytes which don't have any effect on a terminal so you didn't fix this bug. Also, exit() takes its arg from EDI, not EBX. Maybe you're thinking of the 32-bit Linux int 0x80 ABI? Oh, that was copied from the question. Also there's no need to fetch a pointer from memory (from the GOT) for access to your own static data. Just calculate it directly with a RIP-relative LEA like @NoOffenceIntended's answer. Jul 9, 2019 at 3:50
  • Also, ; is not the comment character for as for x86-64. It separate statements / instructions on the same line, so the assembler will try to parse your comments as code. If you tested this at all, I assume it was before adding comments. Jul 9, 2019 at 3:52

The code in the question looks like it's for 32-bit Linux using the int $0x80 ABI with args in EBX, ECX, EDX.

x86-64 code on MacOS uses the syscall instruction, with arg-passing and return value similar to what's documented in the x86-64 System V ABI for Linux. It's completely different from int $0x80, the only similarity being that the call number is passed in EAX/RAX. But the call numbers are different: https://sigsegv.pl/osx-bsd-syscalls/ ORed with 0x2000000.

Args go in the same registers as for function calls. (except R10 instead of RCX.)

See also basic assembly not working on Mac (x86_64+Lion)? and How to get this simple assembly to run?

I think this is a lot neater and more intuitive version of what was suggested in another answer.

OS X uses start, not _start, for the process entry point.

  .ascii "Hello world!\n"
  len = . - str                  # length = start - end.   . = current position

.globl start
    movl   $0x2000004, %eax
    movl   $1, %edi
    leaq   str(%rip), %rsi  
    movq   $len, %rdx          
    syscall                       # write(1, str, len)

    movl   $0x2000001, %eax 
    movl   $0, %edi
    syscall                       # _exit(0)

Normally you'd omit the operand-size suffix when a register implies it. And use xor %edi,%edi to zero RDI.

And use mov $len, %edx because you know the size is smaller than 4GB so a more efficient 32-bit zero-extended mov-immediate will work, like you're doing to set RAX to the call number.

Notice the use of a RIP-relative LEA to get the address of static data into a register. x86-64 code on MacOS can't use 32-bit absolute addressing because the base address where your executable will be mapped is above 2^32.

There are no relocation types for 32-bit absolute addresses so you can't use them. (And you want RIP-relative, not 64-bit absolute, even though that's also supported.)

  • Yes, this code is better. It still had one bug which I fixed, now I think it's a good example. I also added some explanatory text. I didn't fix the inefficiencies of wasted code-size (I left the operand-sizes matching the documented system call arg widths, instead of using implicit zero-extension). And I didn't put the read-only string data into a read-only-data section. (Like .rodata on Linux, IDK what OS X calls it.) Jul 9, 2019 at 4:12

To assemble and link the code in @NoOffenceIntended's answer on MacOS 10.15, the following changes need to be made:

Change .global _start to .global main, and _start: to main:

To assemble and link the code use:

as -arch x86_64 -o hello.o hello.asm
ld -arch x86_64 -o hello hello.o -lSystem

This is assuming that "Apple clang version 12.0.0" of "as" is being used and the corresponding "ld" is used.

  • Which "above code" are you talking about? There are multiple other answers with code, if you meant one of those, include a link to it (and maybe mention the author's name). Or if you mean the code in the question, it uses 32-bit Linux int $0x80 system calls with args in registers per the Linux 32-bit ABI; MacOS/Darwin puts args for int $0x80 on the stack. But IIRC, 10.15 doesn't support 32-bit code at all, so I doubt you're talking about the question. Nov 27, 2021 at 5:44
  • Sorry about that. The code I was referring to was posted by @NoOffenceIntended on 7/9/19 at 3:39 and posted / edited by Peter Cordes on7/9/19 at 4:24. (I'm not sure how to link directly to that code example.)
    – znih
    Nov 30, 2021 at 5:33
  • Every answer has a "share" link under it, which you can use to get a link directly to it. I edited this to add the link. Nov 30, 2021 at 6:03

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.