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At various times, I've used both

int 0x20


mov ah, 0x4c
int 0x21

as ways of ending a 16-bit assembly program.

But what is the difference between the two?

EDIT: Thanks for your comments everyone. Following up on Alexey's reference to the PSP (program segment prefix), yielded this nugget from Microsoft MASM support.

The article seems to suggest there's more to the difference than just return codes.

Happy to award the accepted answer to anyone who can tie the two together a bit more definitively.

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Thanks for your comments everyone. EricJ has a good answer (+1) (elaborated with a useful bit of history by Ninjalj in the comments). However, a bit of follow-up on Alexey's comment on the PSP (program segment prefix), has yielded this nugget: This article seems to suggest there's more to the difference than just return codes. Happy to award the accepted answer to anyone who can tie the two together a bit more definitively. – Assad Ebrahim Sep 26 '12 at 0:19
up vote 8 down vote accepted

First, some background. DOS uses interrupt 21h for its system calls. AH is used to demultiplex the various functions INT 21h provides. When a program is executed, DOS puts before it 256 bytes known as the PSP (Program Segment Prefix), which contain information about the process.

The original exit function in DOS is INT 21/AH=00. Now, apparently DOS developers decided that returning from a program should be a way to exit the program (did this come from CP/M?). RET (near) pops a word from the stack and jumps to it. So, when a program is created, its stack starts with a word 0000. This is the start of the PSP. So, at the start of the PSP there is code to terminate the program. To keep that code small, INT 20h acts as an alias to MOV AH,00h ; INT 21h.

[Edit: This can be seen in the screenshot below.]

DOS 2.0 took many things from Unix, including return codes. So, a new INT 21h function appeared, INT 21h/AH=4ch, which takes a return code to return it to the OS. This function is also designed to work with EXE files (AFAIR also new in DOS 2.0), which can have several segments. The previous exit functions (INT 20h and INT 21h/00) assume CS is the same as it was at program startup on a COM program, that is, it points to the PSP 256 bytes before the program.

[Edit: Illustration of DOS program structure, using <code>debug</code>

Historical note: on CP/M, there were 3 ways to exit a program:

  • Calling BDOS function 0 (the equivalent of INT 21 AH=00h, DOS function 0)
  • Jumping to the WBOOTF location at 0000h (the equivalent of PSP offset 000h)
  • RETurning

The WBOOTF location consisted of 3 bytes: 1 byte for a jump, 2 bytes for the jump target (the WBOOT function in BDOS).

In early versions of CP/M, calling BDOS function 0 or jumping to WBOOT caused parts of CP/M to be reloaded from disk (warm boot), and some OS initialization to be subsequently run; while RETurning directly returned to the CCP (Console Command Processor, the equivalent of COMMAND.COM), which then prompted for the next command line. AFAIU, CP/M 3 was usually loaded in ROM, and returning returned to the WBOOT location, causing a reload of parts of the OS from ROM.

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This is very helpful, thanks! So for EXE files using int 21h/AH=4Ch, is CS free to point to any segment for the last instruction before exit? – Assad Ebrahim Sep 26 '12 at 1:33
With your permission, I'd like to insert an annotated screenshot that verifies what you described. I'll edit your response, and paste it in -- see what you think. (Won't be offended if you'd rather not!) Let me know. – Assad Ebrahim Sep 26 '12 at 1:35

The later, int 0x21, allows you to specify a return code.

The return code is placed in the register AL.

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Is this the only difference? I've noticed that in some environments (e.g. DOSbox, int 0x20 works fine, while int 0x21 goes haywire.) – Assad Ebrahim Sep 25 '12 at 22:05
Define "haywire". If for example you have an indeterminate value in AL and a subsequent step checks the return code, chances are pretty good that you returned a non-zero return code. That is usually interpreted as some sort of program failure by convention. – Eric J. Sep 25 '12 at 22:12
@AKE In a .COM program you can execute RET for exiting as well (provided you don't have any stuff of yours still unpopped from the stack and you haven't corrupted any of structures). That RET transfers control to int 0x20. – Alexey Frunze Sep 25 '12 at 22:12
@AKE: Did you just write mov ah, 0x09 ? Maybe you meant mov ah, 0x4c, or, better yet, mov ax,0x4c00. – ninjalj Sep 25 '12 at 22:56
Note that the difference comes from DOS originally not using return codes, then taking the idea of return codes from Unix for DOS 2.0. – ninjalj Sep 25 '12 at 22:57

This is what I know.

MOV AH, 0x4C
INT 0x21

Ends the running EXE file, the EXE file must be ended this way, because codesegment register CS. Correct me if I'm wrong but if you end COM files this way you get unexpected results (crashes, hangs, reboots etc). Therefore

INT 0x20

Ends a COM file.

CS is the same as it was at program startup on a COM program, that is, it points to the PSP 256 bytes before the program. (CodeSegment InstructionPointer CS:IP, CS contains codesegment). Yes we are talking registers, variables they are like a cupboard, I works like you can put something correctly in a drawer. AX=0000 BX=0000 CX=0000 (CX is composed of CL and CH) etc.

I thought COM files were generally limited to 64K ALWAYS. The second reason I thought was that COM files don't have a DATA SEGMENT, they do have data but it resides in the same segment as the code. I thought they didn't have ANY segment except for the CODE, All data in a COM file is stored within 64K. EXE files do have a segment, some EXE files can have more segments (CS:IP) when using the correct memory model (see Intel Memory Model).

  • Tiny* CS=DS=SS
  • Small DS=SS
  • Medium DS=SS, multiple code segments
  • Compact single code segment, multiple data segments
  • Large multiple code and data segments
  • Huge multiple code and data segments; single array may be >64 KB

EXE files have a limit of 64K using memory model SMALL. When using larger memory models and far 32 bit pointers, you can address more than 64K (still limited). I thought that was the 'trick'.

Now everyone is complaining on me why should you use EXE files. Above are the reasons. Memory model comes from wikipedia. For those who don't care, I learned this the hard way from professionals. Peter Norton and John Socha. From Norton Utilities (the person behind The Norton Commander for DOS). He had a book about assembly something like "Assembly for the IBM-PC". You should read it, he explains it best. He was like a good teacher for me. Microsoft CodeView clarified me a lot. Programming in DOS C? Turbo C 2.0 is the best you can get. Oh, and I don't program anymore.

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If you cut out some of the attitude this could be a very helpful answer. – APC Dec 22 '15 at 23:23

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