My question is about the logic of dynamic memory allocation in assembly (particularly, MASM). There are lot of articles on this topic and all of them rely on the use of malloc or brk. However, according to my understanding, malloc as a part of C language must (or could) be certainly written on assembly. Idem for brk, because it's a part of the operating system, thus also written on C which can be replaced 1 to 1 by assembly. Very very long time ago I have seen an article in PCMag about dynamic memory allocation in MS-DOS using pure asm. Unfortunately, I have lost all the traces of this wonderful piece of writing. Now I'm working with FreeDOS (precisely bootable FreeDOS flash card) and wondering how to proceed if someone decides to write his own memory allocator? What is the starting point and the logic of memory allocation without relying on OS mechanisms?
1 Answer
When DOS loads a .COM program, it allocates all of the memory available in the 640KB area (below 0a000h:00000h) to the program, and the program can manage its own memory. If it is desired to use MSDOS memory management, the program first has to release the memory using INT 21H, AH=49H, ES=segment, BX=# paragraphs. It can then use INT 21H, AH=48H, BX=# paragraphs, to allocate memory.
As noted in the comments, an .EXE program may or may not allocate all of the memory in the 640KB area.
Example .COM assembly code, to release, and then allocate all available memory. MSDOS will generally consume 16 bytes for its overhead. In this example, BX is set to the end of the code, then set to the next paragraph boundary that is 256 bytes past the end of the code to use as stack space. The end of this stack is the base of the memory released by the INT 21H, AH=4AH call.
.286
.model tiny,c
.code
org 0100h
; cs,ds,es,ss = program segment prefix, sp = 0fffeh
start: mov bx,offset cdend ;set bx=end stack
add bx,0010fh
and bx,0fff0h
mov sp,bx ;sp = new end of stack
mov cl,4 ;release memory
shr bx,cl
mov ax,04a00h
int 21h
mov ax,04800h ;set bx = available memory
mov bx,0ffffh
int 21h
mov ax,04800h ;allocate all of it
int 21h ; returns segment in ax
exit: mov ax,04c00h ;exit
int 21h
cdend:
end start
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3There are exceptions with EXE programs that don't request all the memory to be allocated when it is loaded. That is dependent on the tools used to generate the executable or the use of the EXEMOD program. It just so happens that many tools used a MAXALLOC value of 0xffff that have the effect of allocating all memory. COM programs though are always allocated all the memory. The limit of memory also varies and may be higher or lower than A000 for varying reasons. The paragraph after allocated memory to a program can be found in the PSP at offset 0x0002 Jun 28, 2019 at 5:41
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2Some of these things are discussed in this SO answer: stackoverflow.com/a/56747280/3857942 Jun 28, 2019 at 5:41
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@MichaelPetch: I think this question needs a kind of "stub" answer that addresses the apparent misconception in the question (that you can ignore DOS and not make any DOS system calls) and links to your answer for full details. It's not quite a duplicate. Jun 28, 2019 at 5:50
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3MS-DOS also only allocates the largest free memory block available. Though normally unlikely, there could be potentially be existing allocations fragmenting conventional memory. Much more likely is the fact that memory at the end of conventional memory could in use by the EBDA. TSRs and device drivers also sometimes allocated memory at the end of conventional memory to avoid fragmentation. Jun 28, 2019 at 5:53
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3@rossridge : another thing that DOS does... if a program has a MINALLOC=MACALLOC=0 in the MZ header of an EXE DOS will attempt to load the program at the top of available memory rather than the bottom Jun 28, 2019 at 5:54
int 21hwith AH= call number. The BIOS uses a few different interrupt numbers, but it's not the only thing callable via a software-interrupt.