I'm fairly new to Linux (Ubuntu 10.04) and a total novice to assembler. I was following some tutorials and I couldn't find anything specific to Linux. So, my question is, what is a good package to compile/run assembler and what are the command line commands to compile/run for that package?

  • I'm in the same boat. I've never really picked up asm on Linux because there's no real presence. Maybe it's because on Windows cracking is all the rage. – Matt Joiner Jul 23 '10 at 2:21
  • These don't completely answer my question. I still want to know what console commands you would use to compile and run programs in NASM or gas – Rafe Kettler Jul 23 '10 at 3:01
  • My preference is NASM. I give you some info on how to get it up and running on Ubuntu below. – Justin Jul 23 '10 at 3:28

The GNU assembler (gas) and NASM are both good choices. However, they have some differences, the big one being the order you put operations and their operands.

gas uses AT&T syntax (guide: https://stackoverflow.com/tags/att/info):

mnemonic    source, destination

nasm uses Intel style (guide: https://stackoverflow.com/tags/intel-syntax/info):

mnemonic    destination, source

Either one will probably do what you need. GAS also has an Intel-syntax mode, which is a lot like MASM, not NASM.

Try out this tutorial: http://asm.sourceforge.net/intro/Assembly-Intro.html

See also more links to guides and docs in Stack Overflow's x86 tag wiki

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  • 1
    Thanks, that tutorial is great since it's linux specific. Also, the tutorial had very specific instructions on how to compile and run assembler progs in linux – Rafe Kettler Jul 23 '10 at 3:39
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    gas has supported ".intel_syntax" for a while - I'd personally still use fasm, yasm or nasm though. – snemarch Sep 29 '10 at 14:20

The GNU assembler is probably already installed on your system. Try man as to see full usage information. You can use as to compile individual files and ld to link if you really, really want to.

However, GCC makes a great front-end. It can assemble .s files for you. For example:

$ cat >hello.s <<"EOF"
.section .rodata             # read-only static data
.globl hello
  .string "Hello, world!"    # zero-terminated C string

.global main
    push    %rbp
    mov     %rsp,  %rbp                 # create a stack frame

    mov     $hello, %edi                # put the address of hello into RDI
    call    puts                        #  as the first arg for puts

    mov     $0,    %eax                 # return value = 0.  Normally xor %eax,%eax
    leave                               # tear down the stack frame
    ret                            # pop the return address off the stack into RIP
$ gcc hello.s -no-pie -o hello
$ ./hello
Hello, world!

The code above is x86-64. If you want to make a position-independent executable (PIE), you'd need lea hello(%rip), %rdi, and call puts@plt.

A non-PIE executable (position-dependent) can use 32-bit absolute addressing for static data, but a PIE should use RIP-relative LEA. (See also Difference between movq and movabsq in x86-64 neither movq nor movabsq are a good choice.)

If you wanted to write 32-bit code, the calling convention is different, and RIP-relative addressing isn't available. (So you'd push $hello before the call, and pop the stack args after.)

You can also compile C/C++ code directly to assembly if you're curious how something works:

$ cat >hello.c <<EOF
#include <stdio.h>
int main(void) {
    printf("Hello, world!\n");
    return 0;
$ gcc -S hello.c -o hello.s

See also How to remove "noise" from GCC/clang assembly output? for more about looking at compiler output, and writing useful small functions that will compile to interesting output.

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If you are using NASM, the command-line is just

nasm -felf32 -g -Fdwarf file.asm -o file.o

where 'file.asm' is your assembly file (code) and 'file.o' is an object file you can link with gcc -m32 or ld -melf_i386. (Assembling with nasm -felf64 will make a 64-bit object file, but the hello world example below uses 32-bit system calls, and won't work in a PIE executable.)

Here is some more info:


You can install NASM in Ubuntu with the following command:

apt-get install nasm

Here is a basic Hello World in Linux assembly to whet your appetite:


I hope this is what you were asking...

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  • Hello World example is a broken link! – Matt Fletcher Nov 8 '13 at 17:24

There is also FASM for Linux.

format ELF executable

segment readable executable

mov eax, 4
mov ebx, 1
mov ecx, hello_msg
mov edx, hello_size
int 80h

mov eax, 1
mov ebx, 0
int 80h

segment readable writeable

hello_msg db "Hello World!",10,0
hello_size = $-hello_msg

It comiles with

fasm hello.asm hello
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My suggestion would be to get the book Programming From Ground Up:


That is a very good starting point for getting into assembler programming under linux and it explains a lot of the basics you need to understand to get started.

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The assembler(GNU) is as(1)

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3 syntax (nasm, tasm, gas ) in 1 assembler, yasm.


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For Ubuntu 18.04 installnasm . Open the terminal and type:

sudo apt install as31 nasm

nasm docs

For compiling and running:

nasm -f elf64 example.asm # assemble the program  
ld -s -o example example.o # link the object file nasm produced into an executable file  
./example # example is an executable file
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  • as31 is an assembler for 8051 code. Linux doesn't run on 8051 microcontrollers, so you can't link and then run anything you assemble with it right on your Linux machine (which is what this question was about). – Peter Cordes Nov 14 '18 at 21:50

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