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I don't know how to ask this better but why does this:

call ExitProcess

do the same as this?:

mov eax, ExitProcess
mov eax, [eax]
call eax

I would think that these would be equivalent:

call ExitProcess

mov eax, ExitProcess
call eax
share|improve this question
What assembler are you using? It's probably just silently converting call ExitProcess to call [ExitProcess] to make life a bit easier on the programmer. –  Harry Johnston Jul 31 '12 at 3:08
I'm using NASM. –  Hudson Worden Jul 31 '12 at 12:15
Odd, according to the documentation the square brackets should be mandatory. Do "call ExitProcess" and "call [ExitProcess]" actually product the same assembly code? –  Harry Johnston Jul 31 '12 at 20:01
No they don't call ExitProcess I believe goes to some jmp instruction that then jumps to [ExitProcess] while call [ExitProcess] goes straight there. What about functions I create I shouldn't need brackets around those should I? –  Hudson Worden Aug 1 '12 at 3:13
Hudson, though you've already accepted my answer, I've actually gone the extra mile to figure out why you seem to be able to call directly and indirectly. The direct call only seems that way since it's calling code which then does the indirect call. See the update to my answer for the gory details. –  paxdiablo Aug 3 '12 at 4:29
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1 Answer

up vote 7 down vote accepted

When importing the code from a DLL, the symbol ExitProcess isn't actually the address of the code that exits your process (it's the address of the address). So, in that case, you have to dereference it to get the actual code address.

That means that you must use:

call [ExitProcess]

to call it.

For example, there's some code at this location containing the following:

;; Note how we use 'AllocConsole' as if it was a variable. 'AllocConsole', to 
;; NASM, means the address of the AllocConsole "variable" ; but since the 
;; pointer to the AllocConsole() Win32 API function is stored in that 
;; variable, we need to call the address from that variable. 
;; So it's "call the code at the address: whatever's at the address
;; AllocConsole" . 
call [AllocConsole] 

However, importing the DLL directly in user code is not the only way to get at the function. I'll explain why you're seeing both ways below.

The "normal" means of calling a DLL function is to mark it extern then import it from the DLL:

extern ExitProcess
import ExitProcess kernel32.dll
call [ExitProcess]

Because that sets up the symbol to be an indirect reference to the code, you need to call it indirectly.

After some searching, it appears there is code in the wild that uses the naked form:

call ExitProcess

From what I can tell, this all seems to use the alink linker, which links with the win32.lib library file. It's possible that this library provides the stub for calling the actual DLL code, something like:

import ExitProcessActual kernel32.dll ExitProcess
global ExitProcess

    jmp [ExitProcessActual]

In nasm, this would import the address of ExitProcess from the DLL and call it ExitProcessActual, keeping in mind that this address is an indirect reference to the code, not the address of the code itself.

It would then export the ExitProcess entry point (the one in this LIB file, not the one in the DLL) so that others could use it.

Then someone could simply write:

extern ExitProcess
call ExitProcess

to exit the process - the library would jump to the actual DLL code.

In fact, with a little more research, this is exactly what's happening. From the alink.txt file which comes with the alink download:

A sample import library for Win32 is included as win32.lib. All named exports in Kernel32, User32, GDI32, Shell32, ADVAPI32, version, winmm, lz32, commdlg and commctl are included.


alink -oPE file[.obj] win32.lib

to include it or specify


in your source file.

This consists of a series of entries for import redirection - call MessageBoxA, and it jumps to [__imp_MessageBoxA], which is in the import table.

Thus calls to imports will run faster if call [__imp_importName] is used instead of call importName.

See test.asm, my sample program, which calls up a message box both ways:

includelib "win32.lib"
extrn MessageBoxA:near
extrn __imp_MessageBoxA:dword


push 0 ; OK button
push offset title1
push offset string1
push 0
call MessageBoxA

push 0 ; OK button
push offset title1
push offset string2
push 0
call large [large __imp_MessageBoxA]

(__imp_MessageBoxA is the symbol imported from the DLL, equivalent to my ExitProcessActual above).

share|improve this answer
Is that because it's in the IAT? Also, then why does "call ExitProcess" work? –  Hudson Worden Jul 31 '12 at 1:29
Yes, it's because it's in the import table. As to the second part of your comment, I have no idea. I would have thought that wouldn't work unless there's some magic happening due to the way ExitProcess is imported or invoked, such as if ExitProcess is given the real code target rather than the address in the IAT. I've never used the "naked" version myself. –  paxdiablo Jul 31 '12 at 1:44
And it appears my suspicions were correct. The code that uses the naked form all seems to use win32.lib from alink, which provides directly callable functions which in turn indirectly call the DLL entry. –  paxdiablo Aug 3 '12 at 5:39
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