I've seen
How to write hello world in assembler under Windows?
and
Writing hello,world to console in Fasm with DOS
How to write to the console in fasm?
I've tried / seen code like this MASM example from this answer
;---ASM Hello World Win64 MessageBox
extrn MessageBoxA: PROC
extrn ExitProcess: PROC
.data
title db 'Win64', 0
msg db 'Hello World!', 0
.code
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
End
(to which I get an error "Illegal instruction" on windows 64 bit extrn MessageBoxA:PROC because FASM doesn't understand that MASM directive.)
also this FASM example from this question
; Example of 64-bit PE program
format PE64 GUI
entry start
section '.text' code readable executable
start:
sub rsp,8*5 ; reserve stack for API use and make stack dqword aligned
mov r9d,0
lea r8,[_caption]
lea rdx,[_message]
mov rcx,0
call [MessageBoxA]
mov ecx,eax
call [ExitProcess]
section '.data' data readable writeable
_caption db 'Win64 assembly program',0
_message db 'Hello World!',0
section '.idata' import data readable writeable
dd 0,0,0,RVA kernel_name,RVA kernel_table
dd 0,0,0,RVA user_name,RVA user_table
dd 0,0,0,0,0
kernel_table:
ExitProcess dq RVA _ExitProcess
dq 0
user_table:
MessageBoxA dq RVA _MessageBoxA
dq 0
kernel_name db 'KERNEL32.DLL',0
user_name db 'USER32.DLL',0
_ExitProcess dw 0
db 'ExitProcess',0
_MessageBoxA dw 0
db 'MessageBoxA',0
but it displays a message box and also has external dependencies "kernel32.dll" and "user32.dll"
also tried this example from the FASM forum
format pe console
include 'win32ax.inc'
entry main
section '.data!!!' data readable writeable
strHello db 'Hello World !',13,10,0
strPause db 'pause',0
section '.txt' code executable readable
main:
; you can use crt functions or windows API.
cinvoke printf,strHello
cinvoke system,strPause; or import getc()
; or
; invoke printf,srtHello
; add esp, 4
; or use WriteFile and GetStdHandle APIs
push 0
call [ExitProcess]
section '.blah' import data readable
library kernel32,'kernel32.dll',\
msvcrt,'msvcrt.dll' ;; C-Run time from MS. This is always on every windows machine
import kernel32,\
ExitProcess,'ExitProcess'
import msvcrt,\
printf,'printf',\
system,'system'
but it depends on win32ax.inc and other imports
also
format PE console
include 'win32ax.inc'
.code
start:
invoke WriteConsole,<invoke GetStdHandle,STD_OUTPUT_HANDLE>,"Hello World !",13,0
invoke Sleep,-1
.end start
but requires "win32ax.inc" import
closest I could find without the win32ax from the FASM forum:
format pe64 console
entry start
STD_OUTPUT_HANDLE = -11
section '.text' code readable executable
start:
sub rsp,8*7 ; reserve stack for API use and make stack dqword aligned
mov rcx,STD_OUTPUT_HANDLE
call [GetStdHandle]
mov rcx,rax
lea rdx,[message]
mov r8d,message_length
lea r9,[rsp+4*8]
mov qword[rsp+4*8],0
call [WriteFile]
mov ecx,eax
call [ExitProcess]
section '.data' data readable writeable
message db 'Hello World!',0
message_length = $ - message
section '.idata' import data readable writeable
dd 0,0,0,RVA kernel_name,RVA kernel_table
dd 0,0,0,0,0
kernel_table:
ExitProcess dq RVA _ExitProcess
GetStdHandle dq RVA _GetStdHandle
WriteFile dq RVA _WriteFile
dq 0
kernel_name db 'KERNEL32.DLL',0
user_name db 'USER32.DLL',0
_ExitProcess db 0,0,'ExitProcess',0
_GetStdHandle db 0,0,'GetStdHandle',0
_WriteFile db 0,0,'WriteFile',0
but still requires the kernel32.dll and user32.dll
Any way to do this without any external DLLs at all? I know just the program fasm itself does it, and prints to the console, doesn't it?
Any way to do this without any external DLLs at all?
Under Windows: Definitely no!
Windows uses some methods (probably syscall) to enter the operating system, however, there are no official entry points.
This means that it is (unlikely but) possible that exactly the same program that shows the "Hello world" message box in the current Windows version will do something completely different after the next Windows update!
Because Microsoft is assuming that every Windows program is only calling the OS by using the .dll files that match the kernel version, they can do this.
I don't know about Windows 10, but an older Windows version (I don't remember if it was XP, Vista or 7) even simply assumed that an .exe file returns at once if it does not use any .dll file: The program was not even started in this case!
I know just the program fasm itself does it, and prints to the console
That is not the case, fasm is also using the kernel32 APIs.
FWIW kernel32 is loaded into the memory space of every process in Windows, so there is no penalty or overhead in using the kernel32 APIs.
You may like this Windows example in €ASM, which doesn't explicitly mention any DLL and doesn't require other external libraries.
Just save the source as "bluej.asm", assemble and link with euroasm bluej.asm and run as bluej.exe.
Nevertheless, you won't get away without using API functions imported from the default Windows system library "kernel32.dll".
bluej PROGRAM Format=PE, Entry=Start:
IMPORT GetStdHandle,WriteFile,ExitProcess
Start: PUSH -11 ; Param 1: standard output handle identificator.
CALL GetStdHandle; Return StdOutput handle in EAX.
PUSH 0 ; Param 5: no overlap.
PUSH Written ; Param 4: Address of a variable to store number of written bytes.
PUSH MsgSize ; Param 3: Number of bytes to write.
PUSH Msg ; Param 2: Address of text.
PUSH EAX ; Param 1: Output file handle.
CALL WriteFile ; System call.
PUSH 0 ; Errorlevel.
CALL ExitProcess ; System call.
Written DD 0
Msg DB "Hello, world!"
MsgSize EQU $ - Msg
ENDPROGRAM
What constitures as "dependency" to you? If you want to avoid even operating system DLL's, then you're probably out of luck. You can't rely on syscall numbers alone.
"no dependencies" can also mean "just using existing OS DLL's", such as ntdll, kernel32, etc., but without using 3rd party DLL's that may not be present, such as a specific version of the C runtime.
One method I would like to show is retrieving function pointers from the PEB. This is code that I've written and that I personally use, if I want to have shellcode that has no import section.
PebGetProcAddress works similarly to GetProcAddress, except that the DLL name and function name must be a hash, and the DLL must be loaded by using LoadLibrary.
This may not answer your question exactly, but I hope it gets you somewhat closer to your goal or help others who read it.
PebApi.asm
proc PebGetProcAddress ModuleHash:DWORD, FunctionHash:DWORD
local FirstEntry:DWORD
local CurrentEntry:DWORD
local ModuleBase:DWORD
local ExportDirectory:DWORD
local NameDirectory:DWORD
local NameOrdinalDirectory:DWORD
local FunctionCounter:DWORD
; Get InMemoryOrderModuleList from PEB
mov eax, 3
shl eax, 4
mov eax, [fs:eax] ; fs:0x30
mov eax, [eax + PEB.Ldr]
mov eax, [eax + PEB_LDR_DATA.InMemoryOrderModuleList.Flink]
mov [FirstEntry], eax
mov [CurrentEntry], eax
; Find module by hash
.L_module:
; Compute hash of case insensitive module name
xor edx, edx
mov eax, [CurrentEntry]
movzx ecx, word[eax + LDR_DATA_TABLE_ENTRY.BaseDllName.Length]
test ecx, ecx
jz .C_module
mov esi, [eax + LDR_DATA_TABLE_ENTRY.BaseDllName.Buffer]
xor eax, eax
cld
.L_module_hash:
lodsb
ror edx, 13
add edx, eax
cmp al, 'a'
jl #f
sub edx, 0x20 ; Convert lower case letters to upper case
##: dec ecx
test ecx, ecx
jnz .L_module_hash
; Check, if module is found by hash
cmp edx, [ModuleHash]
jne .C_module
; Get module base
mov eax, [CurrentEntry]
mov eax, [eax + LDR_DATA_TABLE_ENTRY.DllBase]
mov [ModuleBase], eax
; Get export directory
mov eax, [ModuleBase]
add eax, [eax + IMAGE_DOS_HEADER.e_lfanew]
mov eax, [eax + IMAGE_NT_HEADERS32.OptionalHeader.DataDirectoryExport.VirtualAddress]
add eax, [ModuleBase]
mov [ExportDirectory], eax
; Get name table
mov eax, [ExportDirectory]
mov eax, [eax + IMAGE_EXPORT_DIRECTORY.AddressOfNames]
add eax, [ModuleBase]
mov [NameDirectory], eax
; Get name ordinal table
mov eax, [ExportDirectory]
mov eax, [eax + IMAGE_EXPORT_DIRECTORY.AddressOfNameOrdinals]
add eax, [ModuleBase]
mov [NameOrdinalDirectory], eax
; Find function in export directory by hash
mov [FunctionCounter], 0
.L_functions:
mov eax, [ExportDirectory]
mov eax, [eax + IMAGE_EXPORT_DIRECTORY.NumberOfNames]
cmp eax, [FunctionCounter]
je .E_functions
; Compute hash of function name
xor edx, edx
mov esi, [NameDirectory]
mov esi, [esi]
add esi, [ModuleBase]
xor eax, eax
cld
.L_function_hash:
lodsb
test al, al
jz .E_function_hash
ror edx, 13
add edx, eax
jmp .L_function_hash
.E_function_hash:
; Check, if function is found by hash
cmp edx, [FunctionHash]
jne .C_functions
; Return function address
mov eax, [ExportDirectory]
mov eax, [eax + IMAGE_EXPORT_DIRECTORY.AddressOfFunctions]
add eax, [ModuleBase]
mov ebx, [NameOrdinalDirectory]
movzx ebx, word[ebx]
lea eax, [eax + ebx * 4]
mov eax, [eax]
add eax, [ModuleBase]
ret
.C_functions:
add [NameDirectory], 4
add [NameOrdinalDirectory], 2
inc [FunctionCounter]
jmp .L_functions
.E_functions:
; Function not found in module's export table
xor eax, eax
ret
.C_module:
; Move to next module, exit loop if CurrentEntry == FirstEntry
mov eax, [CurrentEntry]
mov eax, [eax + LIST_ENTRY.Flink]
mov [CurrentEntry], eax
cmp eax, [FirstEntry]
jne .L_module
; Module not found
xor eax, eax
ret
endp
PebApi.inc
macro pebcall modulehash, functionhash, [arg]
{
common
if ~ arg eq
reverse
pushd arg
common
end if
stdcall PebGetProcAddress, modulehash, functionhash
call eax
}
Example
PEB_User32Dll = 0x63c84283
PEB_MessageBoxW = 0xbc4da2be
; pebcall translates to a call to PebGetProcAddress and the call to the returned function pointer
pebcall PEB_User32Dll, PEB_MessageBoxW, NULL, 'Hello, World!', NULL, MB_OK
How to generate hashes for module names and function names
#define ROTR(value, bits) ((DWORD)(value) >> (bits) | (DWORD)(value) << (32 - (bits)))
DWORD ComputeFunctionHash(LPCSTR str)
{
DWORD hash = 0;
while (*str)
{
hash = ROTR(hash, 13) + *str++;
}
return hash;
}
DWORD ComputeModuleNameHash(LPCSTR str, USHORT length)
{
DWORD hash = 0;
for (USHORT i = 0; i < length; i++)
{
hash = ROTR(hash, 13) + (str[i] >= 'a' ? str[i] - 0x20 : str[i]);
}
return hash;
}
I've compiled this code with gcc (gcc -ggdb -mpreferred-stack-boundary=2 -o demo demo.c) and decompiled it to look at the assembly (I know it's using unsafe functions, this was for an exercise into buffer overflows):
#include<stdio.h>
CanNeverExecute()
{
printf("I can never execute\n");
exit(0);
}
GetInput()
{
char buffer[8];
gets(buffer);
puts(buffer);
}
main()
{
GetInput();
return 0;
}
Here is the assembly for the GetInput() Function:
(gdb) disas GetInput
Dump of assembler code for function GetInput:
0x08048432 <+0>: push ebp
0x08048433 <+1>: mov ebp,esp
0x08048435 <+3>: sub esp,0xc
=> 0x08048438 <+6>: lea eax,[ebp-0x8]
0x0804843b <+9>: mov DWORD PTR [esp],eax
0x0804843e <+12>: call 0x8048320 <gets#plt>
0x08048443 <+17>: lea eax,[ebp-0x8]
0x08048446 <+20>: mov DWORD PTR [esp],eax
0x08048449 <+23>: call 0x8048340 <puts#plt>
0x0804844e <+28>: leave
0x0804844f <+29>: ret
End of assembler dump.
Here is the assembly for the Main() Function:
(gdb) disas main
Dump of assembler code for function main:
0x08048450 <+0>: push ebp
0x08048451 <+1>: mov ebp,esp
0x08048453 <+3>: call 0x8048432 <GetInput>
0x08048458 <+8>: mov eax,0x0
0x0804845d <+13>: pop ebp
0x0804845e <+14>: ret
End of assembler dump.
I've set a breakpoint at line 13 (gets(buffer))
From Main(), I can see that the ebp value is pushed onto the stack. Then when GetInput() function is called the ret address is also pushed onto the stack. Once entered the GetInput function, the ebp value is pushed onto the stack again.
Now this is where I get confused:
0x08048435 <+3>: sub esp,0xc
The buffer variable is only 8 bytes, so 8 bytes should be subtracted from esp to allow for the buffer local variable.
The stack:
(gdb) x/8xw $esp
0xbffff404: 0x08048360 0x0804847b 0x002c3ff4 0xbffff418
0xbffff414: 0x08048458 0xbffff498 0x00147d36 0x00000001
(gdb) x/x &buffer
0xbffff408: 0x0804847b
0x08048458 is the ret address, 0xbffff418 is the old value of ebp, and 4 bytes of the buffer variable is in 0x0804847b, so I guess the other 4 bytes is 0x002c3ff4. But there seems to be another 4 bytes on the stack.
So my question is, why is it subtracting 12 bytes if only 8 bytes is needed? What's the extra 4 bytes for?
Thank you
It's because of the
mov DWORD PTR [esp],eax
Apparently, your puts and gets implementations require the argument to be pushed onto the stack.
Value [ebp-0xc] is actually [esp] now, that's why that dword is reserved ahead.
Why is it so? Doing it this way is more efficient, as you don't have to pop and push, but just move eax on [esp], so you spare at least one instruction. However, I guess this code has gone through some optimiation, because this one is clever.
I know that the first four arguments are in the register (RCX, RDX, R8, R9), and that additional arguments are pushed on the stack.
Question:
How to push an argument onto the stack? I tried with (push 0) but it does not work?
Code (MASM64)
extrn ExitProcess: PROC
extrn MessageBoxExA: PROC
.data
caption db '64-bit hello!', 0
message db 'Hello World!', 0
.code
Start PROC
sub rsp, 38h
mov rcx, 0 ; hWnd = HWND_DESKTOP
lea rdx, message ; LPCSTR lpText
lea r8, caption ; LPCSTR lpCaption
mov r9d, 0 ; uType = MB_OK
push 0 ; wLanguageId
call MessageBoxExA
mov ecx, eax
add rsp, 38h
call ExitProcess
Start ENDP
End
I'm know that MessageBox and MessageBoxEx work the same way, but im trying to use MessageBoxEx because its need one parameter to be passed (for learning purpose).
I know I've asked similar question, but it is more related to vb.net while this is not.
My assembly is a little rusty, but I was under the impression that all arguments went onto the stack (in reverse order) - I'd have thought you want to be pushing r8 and rdx in as well as the other arguments. Frankly though you might as well just keep doing lea rax, param and push rax for each of the arguments that are pointers.
The order in which the arguments are passed and whether they are passed in registers or on the stack (along with whether caller or callee is responsible for cleanup) is defined by the 'Calling Convention'.
What you are probably thinking of is STDCALL or CDECL, both are calling conventions used in 32-bit Windows that pass arguments on the stack in reverse order (right to left). x64 has moved to a FastCall calling convention where the arguments are passed in forward order (from left to right) and the first 4 arguments are passed in the registers RCX, RDX, R8 & R9. Any arguments beyond 4 are passed on the stack in the same left-to-right order. The original poster had the correct calling convention setup for x64 assembly with MASM. Also, the above responder who said the shadowspace valued subtracted from RSP should be 20h (32d) is correct. The shadow space is allowing space on the stack for the 4 arguments that are passed in by the registers in FastCall.
Changing the code above to:
extrn ExitProcess: PROC
extrn MessageBoxExA: PROC
.data
caption db '64-bit hello!', 0
message db 'Hello World!', 0
.code
Start PROC
sub rsp, 20h
mov rcx, 0 ; hWnd = HWND_DESKTOP
lea rdx, message ; LPCSTR lpText
lea r8, caption ; LPCSTR lpCaption
mov r9d, 0 ; uType = MB_OK
push 0 ; wLanguageId
call MessageBoxExA
mov ecx, eax
add rsp, 20h
call ExitProcess
Start ENDP
End
Works just fine in Visual Studio on a 64-bit machine
I am trying just to print out the value of argc using the CommandLineToArgvW Window's API function in NASM. The following is what I have:
extern _ExitProcess#4
extern _GetCommandLineA#0
extern _CommandLineToArgvW#8
extern printf
global _start
section .code
Format:
db "%d",10,0
FormatS:
db "%s",10,0
_start:
push ebp
mov ebp, esp
sub esp, 4 ; Create empty space for ArgC
call _GetCommandLineA#0
push eax; Push value beneath ArgC
mov ebx, ebp ; Set ebx to ebp
sub ebx, 4
push dword ebx ; pushes ArgC address onto stack
push dword [ebp - 8] ; pushes pointer to Command Line String
call _CommandLineToArgvW#8
push dword [ebp - 4]
push Format
call printf
push dword 0
call _ExitProcess#4
No matter what I do, the value for argc is 1. What am I doing wrong?
I assemble and link with these commands:
nasm -fwin32 FunctionTests.asm
golink FunctionTests.obj kernel32.dll msvcrt.dll shell32.dll /console /entry _start
FunctionTests.exe hi asdf asdf asdf asdf
As you can see, from the last line, argc should be 6.
Change _GetCommandLineA to _GetCommandLine*W* CommandLineToArgv expects a pointer to a UNICODE string.
MASM but just about the same:
start:
push ebp
mov ebp, esp
sub esp, 4
call GetCommandLineW
lea ecx, dword ptr[ebp - 4] ; need the address of local
push ecx ; address of local
push eax ; pointer to unicode string
call CommandLineToArgvW
push dword ptr [ebp - 4] ; value of local
push offset Format
call crt_printf
add esp, 8
; this is all? Then we don't have to restore stack.
push 0
call ExitProcess
end start
and this is the output:
D:\Projects>ConTest.exe boo boo I see you
6
D:\Projects>
Set a breakpoint just before you call CommandLineToArgvW and inspect the parameters you're about to pass. Observe that the first parameter you are passing is not a pointer to a string. It is a pointer to a pointer to a string.
You need to use GetCommandLineW rather than GetCommandLineA.
You are using CommandLineToArgvW with an ANSI string, use GetCommandLineW to get the command line in unicode.
You are also not dereferencing the pointer to the command line:
push ebx ; pushes ArgC address onto stack