I wanted to write something basic in assembly under Windows, I'm using NASM, but I can't get anything working.

How to write and compile hello world without the help of C functions on Windows?

  • 3
    Also check out Steve Gibson's Small Is Beautiful windows assembly starter kit. – Jeremy Apr 16 '10 at 14:51
  • Not using c-libraries is a somewhat strange constraint. One has to call some library within the MS-Windows operatings system. probably kernel32.dll.Whether Microsoft has written this in c or Pascal seems irrelevant. Is it meant that only OS-supplied functions can be called, what in a Unix-type system would be called system calls? – Albert van der Horst Feb 16 '17 at 11:16
  • With C libraries I assume he or she means without using an C runtime libraries like the ones that come with GCC or MSVC. Of course he or she will have to use some standard Windows DLLs, like kernel32.dll. – Rudy Velthuis May 13 '17 at 19:23
  • 2
    The distinction between kernel32.dll and a gcc runtime library is not in the format (both are dll) and not in the language (both are probably c, but that is hidden.) The difference is between OS-supplied or not. – Albert van der Horst Oct 18 '19 at 17:01
  • Ive been looking for this also lol couldn't find anything with fasm without includes – bluejayke Aug 13 '20 at 5:29

NASM examples.

Calling libc stdio printf, implementing int main(){ return printf(message); }

; ----------------------------------------------------------------------------
; helloworld.asm
; This is a Win32 console program that writes "Hello, World" on one line and
; then exits.  It needs to be linked with a C library.
; ----------------------------------------------------------------------------

    global  _main
    extern  _printf

    section .text
    push    message
    call    _printf
    add     esp, 4
    db  'Hello, World', 10, 0

Then run

nasm -fwin32 helloworld.asm
gcc helloworld.obj

There's also The Clueless Newbies Guide to Hello World in Nasm without the use of a C library. Then the code would look like this.

16-bit code with MS-DOS system calls: works in DOS emulators or in 32-bit Windows with NTVDM support. Can't be run "directly" (transparently) under any 64-bit Windows, because an x86-64 kernel can't use vm86 mode.

org 100h
mov dx,msg
mov ah,9
int 21h
mov ah,4Ch
int 21h
msg db 'Hello, World!',0Dh,0Ah,'$'

Build this into a .com executable so it will be loaded at cs:100h with all segment registers equal to each other (tiny memory model).

Good luck.

  • 33
    The question explicitly mentions "without using C libraries" – mmx Jun 21 '09 at 10:24
  • 26
    Wrong. The C library itself obviously can, so it's possible. It's only slightly harder, in fact. You just need to call WriteConsole() with the right 5 parameters. – MSalters Jun 22 '09 at 13:02
  • 13
    Although the second example doesn't call any C library function it's not a Windows program either. Virtual DOS Machine will be fired to run it. – Rômulo Ceccon Jun 22 '09 at 16:26
  • 8
    @Alex Hart, his second example is for DOS, not for Windows. In DOS, the programs in tiny mode (.COM files, under 64Kb total code+data+stack) start at 0x100h because first 256 bytes in the segment are taken by the PSP (command-line args etc.). See this link: en.wikipedia.org/wiki/Program_Segment_Prefix – zvolkov Jan 15 '12 at 3:59
  • 9
    This is not what was asked for. The first example uses the C library and the second one is MS-DOS, not Windows. – Paulo Pinto Apr 25 '13 at 20:57

This example shows how to go directly to the Windows API and not link in the C Standard Library.

    global _main
    extern  _GetStdHandle@4
    extern  _WriteFile@20
    extern  _ExitProcess@4

    section .text
    ; DWORD  bytes;    
    mov     ebp, esp
    sub     esp, 4

    ; hStdOut = GetstdHandle( STD_OUTPUT_HANDLE)
    push    -11
    call    _GetStdHandle@4
    mov     ebx, eax    

    ; WriteFile( hstdOut, message, length(message), &bytes, 0);
    push    0
    lea     eax, [ebp-4]
    push    eax
    push    (message_end - message)
    push    message
    push    ebx
    call    _WriteFile@20

    ; ExitProcess(0)
    push    0
    call    _ExitProcess@4

    ; never here
    db      'Hello, World', 10

To compile, you'll need NASM and LINK.EXE (from Visual studio Standard Edition)

   nasm -fwin32 hello.asm
   link /subsystem:console /nodefaultlib /entry:main hello.obj 
  • 23
    you likely need to include the kernel32.lib to link this (I did). link /subsystem:console /nodefaultlib /entry:main hello.obj kernel32.lib – Zach Burlingame Jan 7 '12 at 2:49
  • 6
    How to do link the obj with ld.exe from MinGW? – DarrenVortex Aug 18 '13 at 3:03
  • 4
    @DarrenVortex gcc hello.obj – towry Oct 10 '13 at 11:39
  • 4
    Would this also work using free linkers like Alink from sourceforge.net/projects/alink or GoLink from godevtool.com/#linker ? I don't want to install visual studio only for that? – jj_ Dec 13 '14 at 8:41

These are Win32 and Win64 examples using Windows API calls. They are for MASM rather than NASM, but have a look at them. You can find more details in this article.

This uses MessageBox instead of printing to stdout.

Win32 MASM

;---ASM Hello World Win32 MessageBox

.model flat, stdcall
include kernel32.inc
includelib kernel32.lib
include user32.inc
includelib user32.lib

title db 'Win32', 0
msg db 'Hello World', 0


push 0            ; uType = MB_OK
push offset title ; LPCSTR lpCaption
push offset msg   ; LPCSTR lpText
push 0            ; hWnd = HWND_DESKTOP
call MessageBoxA
push eax          ; uExitCode = MessageBox(...)
call ExitProcess

End Main

Win64 MASM

;---ASM Hello World Win64 MessageBox

extrn MessageBoxA: PROC
extrn ExitProcess: PROC

title db 'Win64', 0
msg db 'Hello World!', 0

main proc
  sub rsp, 28h  
  mov rcx, 0       ; hWnd = HWND_DESKTOP
  lea rdx, msg     ; LPCSTR lpText
  lea r8,  title   ; LPCSTR lpCaption
  mov r9d, 0       ; uType = MB_OK
  call MessageBoxA
  add rsp, 28h  
  mov ecx, eax     ; uExitCode = MessageBox(...)
  call ExitProcess
main endp


To assemble and link these using MASM, use this for 32-bit executable:

ml.exe [filename] /link /subsystem:windows 
/defaultlib:kernel32.lib /defaultlib:user32.lib /entry:Main

or this for 64-bit executable:

ml64.exe [filename] /link /subsystem:windows 
/defaultlib:kernel32.lib /defaultlib:user32.lib /entry:main

Why does x64 Windows need to reserve 28h bytes of stack space before a call? That's 32 bytes (0x20) of shadow space aka home space, as required by the calling convention. And another 8 bytes to re-align the stack by 16, because the calling convention requires RSP be 16-byte aligned before a call. (Our main's caller (in the CRT startup code) did that. The 8-byte return address means that RSP is 8 bytes away from a 16-byte boundary on entry to a function.)

Shadow space can be used by a function to dump its register args next to where any stack args (if any) would be. A system call requires 30h (48 bytes) to also reserve space for r10 and r11 in addition to the previously mentioned 4 registers. But DLL calls are just function calls, even if they're wrappers around syscall instructions.

Fun fact: non-Windows, i.e. the x86-64 System V calling convention (e.g. on Linux) doesn't use shadow space at all, and uses up to 6 integer/pointer register args, and up to 8 FP args in XMM registers.

Using MASM's invoke directive (which knows the calling convention), you can use one ifdef to make a version of this which can be built as 32-bit or 64-bit.

ifdef rax
    extrn MessageBoxA: PROC
    extrn ExitProcess: PROC
    .model flat, stdcall
    include kernel32.inc
    includelib kernel32.lib
    include user32.inc
    includelib user32.lib
caption db 'WinAPI', 0
text    db 'Hello World', 0
main proc
    invoke MessageBoxA, 0, offset text, offset caption, 0
    invoke ExitProcess, eax
main endp

The macro variant is the same for both, but you won't learn assembly this way. You'll learn C-style asm instead. invoke is for stdcall or fastcall while cinvoke is for cdecl or variable argument fastcall. The assembler knows which to use.

You can disassemble the output to see how invoke expanded.

  • 1
    +1 for your answer. Can you please add assembly code for Windows on ARM (WOA) too? – Annie Dec 17 '12 at 14:38
  • 2
    Why does rsp require 0x28 bytes and not 0x20? All the references on the calling convention say that it should be 32 but it seems to require 40 in practice. – douggard Oct 11 '17 at 19:27
  • 1
    In your 32-bit message box code, for some reason when I use title as label name, I run into errors. However when I use something else as label name like mytitle, everything works fine. – user3405291 Mar 14 '18 at 7:38
  • how to do it withoiut includes? – bluejayke Aug 13 '20 at 5:30
  • @douggard It's a little confusing, but that's because the a) the stack alignment needs to be maintained at 16, and b) the return address is pushed by call. So adding 0x20 is for the shadow, +8 for return address, +8 to maintain alignment. – sgraham Apr 13 at 4:09

Flat Assembler does not need an extra linker. This makes assembler programming quite easy. It is also available for Linux.

This is hello.asm from the Fasm examples:

include 'win32ax.inc'


    invoke  MessageBox,HWND_DESKTOP,"Hi! I'm the example program!",invoke GetCommandLine,MB_OK
    invoke  ExitProcess,0

.end start

Fasm creates an executable:

>fasm hello.asm
flat assembler  version 1.70.03  (1048575 kilobytes memory)
4 passes, 1536 bytes.

And this is the program in IDA:

enter image description here

You can see the three calls: GetCommandLine, MessageBox and ExitProcess.


To get an .exe with NASM'compiler and Visual Studio's linker this code works fine:

global WinMain
extern ExitProcess  ; external functions in system libraries 
extern MessageBoxA

section .data 
title:  db 'Win64', 0
msg:    db 'Hello world!', 0

section .text
    sub rsp, 28h  
    mov rcx, 0       ; hWnd = HWND_DESKTOP
    lea rdx,[msg]    ; LPCSTR lpText
    lea r8,[title]   ; LPCSTR lpCaption
    mov r9d, 0       ; uType = MB_OK
    call MessageBoxA
    add rsp, 28h  

    mov  ecx,eax
    call ExitProcess

    hlt     ; never here

If this code is saved on e.g. "test64.asm", then to compile:

nasm -f win64 test64.asm

Produces "test64.obj" Then to link from command prompt:

path_to_link\link.exe test64.obj /subsystem:windows /entry:WinMain  /libpath:path_to_libs /nodefaultlib kernel32.lib user32.lib /largeaddressaware:no

where path_to_link could be C:\Program Files (x86)\Microsoft Visual Studio 10.0\VC\bin or wherever is your link.exe program in your machine, path_to_libs could be C:\Program Files (x86)\Windows Kits\8.1\Lib\winv6.3\um\x64 or wherever are your libraries (in this case both kernel32.lib and user32.lib are on the same place, otherwise use one option for each path you need) and the /largeaddressaware:no option is necessary to avoid linker's complain about addresses to long (for user32.lib in this case). Also, as it is done here, if Visual's linker is invoked from command prompt, it is necessary to setup the environment previously (run once vcvarsall.bat and/or see MS C++ 2010 and mspdb100.dll).

  • 3
    I highly recommend using default rel at the top of your file so those addressing modes ([msg] and [title]) use RIP-relative addressing instead of 32-bit absolute. – Peter Cordes Jul 22 '19 at 18:23
  • Thank you for explaining how to link! You saved my mental health. I was starting to pull my hair out over 'error LNK2001: unresolved external symbol ExitProcess' and similar errors... – Nik Oct 27 '20 at 23:47

Unless you call some function this is not at all trivial. (And, seriously, there's no real difference in complexity between calling printf and calling a win32 api function.)

Even DOS int 21h is really just a function call, even if its a different API.

If you want to do it without help you need to talk to your video hardware directly, likely writing bitmaps of the letters of "Hello world" into a framebuffer. Even then the video card is doing the work of translating those memory values into DisplayPort/HDMI/DVI/VGA signals.

Note that, really, none of this stuff all the way down to the hardware is any more interesting in ASM than in C. A "hello world" program boils down to a function call. One nice thing about ASM is that you can use any ABI you want fairly easily; you just need to know what that ABI is.

  • This is an excellent point --- ASM and C both rely on an OS provided function (_WriteFile in Windows). So where is the magic? It is in the device driver code for the video card. – Assad Ebrahim May 31 '15 at 22:32
  • 2
    This is thoroughly besides the point. The poster asks an assembler program that runs "under Windows". That means that Windows facilities can be used (e.g. kernel32.dll), but not other facilities like libc under Cygwin. For crying out loud, the poster explicitly says no c-libraries. – Albert van der Horst Jan 18 '17 at 13:54
  • 1
    I don't see how kernel32.dll is not a C (or at least C++) library. There are reasonable interpretations of what this questioner (or others asking similar questions) really meant to ask. "... e.g. kernel32.dll" is a fairly good one. ("e.g. int 21h" was the one I implicitly took, which is obviously dated now, but in 2009 64 bit Windows was the exception.) Other answers here cover those effectively; the point of this answer is to point out that this isn't quite the right question. – Captain Segfault Jan 13 at 8:43

The best examples are those with fasm, because fasm doesn't use a linker, which hides the complexity of windows programming by another opaque layer of complexity. If you're content with a program that writes into a gui window, then there is an example for that in fasm's example directory.

If you want a console program, that allows redirection of standard in and standard out that is also possible. There is a (helas highly non-trivial) example program available that doesn't use a gui, and works strictly with the console, that is fasm itself. This can be thinned out to the essentials. (I've written a forth compiler which is another non-gui example, but it is also non-trivial).

Such a program has the following command to generate a proper header for 32-bit executable, normally done by a linker.


A section called '.idata' contains a table that helps windows during startup to couple names of functions to the runtimes addresses. It also contains a reference to KERNEL.DLL which is the Windows Operating System.

 section '.idata' import data readable writeable
    dd 0,0,0,rva kernel_name,rva kernel_table
    dd 0,0,0,0,0

    _ExitProcess@4    DD rva _ExitProcess
    CreateFile        DD rva _CreateFileA
    _GetStdHandle@4   DD rva _GetStdHandle
                      DD 0

The table format is imposed by windows and contains names that are looked up in system files, when the program is started. FASM hides some of the complexity behind the rva keyword. So _ExitProcess@4 is a fasm label and _exitProcess is a string that is looked up by Windows.

Your program is in section '.text'. If you declare that section readable writeable and executable, it is the only section you need to add.

    section '.text' code executable readable writable

You can call all the facilities you declared in the .idata section. For a console program you need _GetStdHandle to find he filedescriptors for standard in and standardout (using symbolic names like STD_INPUT_HANDLE which fasm finds in the include file win32a.inc). Once you have the file descriptors you can do WriteFile and ReadFile. All functions are described in the kernel32 documentation. You are probably aware of that or you wouldn't try assembler programming.

In summary: There is a table with asci names that couple to the windows OS. During startup this is transformed into a table of callable addresses, which you use in your program.

  • FASM may not use a linker but it still has to assemble a PE file. Which means that it actually doesn't just assemble code but also takes upon itself a job normally a linker would perform, and as such it's, in my humble opinion, misleading to call absense of a linker "hiding complexity", quite on the contrary -- the job an assembler is to assemble a program, but leave it to the linker to embed the program into a program image which may depend on a lot of things. As such, I find separation between a linker and an assembler a good thing, which it appears, you disagree on. – amn May 25 '20 at 19:24
  • @amn Think about it this way. If you use a linker to create above program, does it gives you more insight in what the program does, or what it consists of? If I look at the fasm source I know the complete structure of the program. – Albert van der Horst Jun 2 '20 at 8:43
  • Fair point. On the flip side, separating linking from everything else has its benefits too. You normally have access to an object file (which goes a long way towards letting one inspect the structure of a program too, independent of the program image file format), you can invoke a different linker of your preference, with different options. It's about reusability and composability. With that in mind, FASM doing everything because it's "convenient" breaks those principles. I am not principally against it -- I see their justification for it -- but I, for one, don't need it. – amn Jun 2 '20 at 10:10
  • get error for illegal isntruction on top line in fasm 64 bit windows – bluejayke Aug 13 '20 at 5:30
  • @bluejayke Probably you didn't have the documentation for fasm at hand. FORMAT PE generates a 32 bits executable, which a 64 bit windows refuses to run. For a 64 bit program you want FORMAT PE64 . Also make sure you use proper 64 bit instructions in your program. – Albert van der Horst Oct 18 '20 at 15:26

If you want to use NASM and Visual Studio's linker (link.exe) with anderstornvig's Hello World example you will have to manually link with the C Runtime Libary that contains the printf() function.

nasm -fwin32 helloworld.asm
link.exe helloworld.obj libcmt.lib

Hope this helps someone.

  • The poster of the questions wants to know, how someone would write printf based on the facilities Windows provides, so this is again totally besides the point. – Albert van der Horst Oct 18 '20 at 15:47

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