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Are we able to move a memory operand to a segment register in these ways using MOV instruction in assembly(x86) language ?




MOV DS,[6401H]

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I know plenty of whom which study it . – mohammad mahed Nov 17 '12 at 8:22
up vote 1 down vote accepted

Yes, both addressing modes are valid.

You've got this question tagged both Masm and Nasm. They're not the same, y'know! To convince Masm you want a memory reference, you may need to do mov ds, ds:[6401h] - strange, I know, but that's the syntax of the assembler - or was, the last time I used Masm (long time ago!). The redundant ds: is optimized away in Masm, Nasm would emit it. If Fasm won't do this, Fasm is broken (which I doubt! Tomasz is a genius!)... just tried it with Fasm - works fine!

Incidentally, 32-bit addresses do involve a segment register - the OS sets 'em up, and it is rare to use 'em in "userland" code, but they're still there! (64-bit code, no - but I'm less sure of that).

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I checked it too: ./FASM.EXE bar.asm flat assembler version 1.70 (1484627 kilobytes memory) bar.asm [1]: mov ds, ds:[6401h] error: invalid operand. – Aki Suihkonen Nov 17 '12 at 16:25
Fasm, like Nasm, wants the segment override inside the brackets. Try mov ds, [ds:6401h] (the ds: is redundant - like Masm but unlike Nasm, Fasm removes it). – Frank Kotler Nov 17 '12 at 16:48
I dont' seem the get it... objdump -Mi8086 decodes this as mov 0x6401,%ds, which is unsupported. – Aki Suihkonen Nov 17 '12 at 17:02
AT&T syntax wants "$" to indicate an immediate operand. mov 0x6401, %ds is memory at that address. mov $0x6401, %ds would be unsupported. Gotta love that AT&T! :) – Frank Kotler Nov 17 '12 at 18:57

Yes, Intel supports mov ds, reg/mem, but not e.g. mov ds, imm16.

To verify 1) gcc -c foo.s; objdump -d foo.o

mov (%bx), %ds
mov 1231(%bx), %ds

 d:   67 8e 1f                mov    (%bx),%ds
10:   67 8e 9f cf 04          mov    0x4cf(%bx),%ds

Verifying 2) will be trickier, as the instruction in PE 386 converts in gcc/cygwin to mov 0x7b, %reg; but so it does for any register. In 80286 OTOH, there is an addressing mode mov [0x1111], reg.

mov (123), %ds               // the target is protected mode 386
mov (123), %bx
15:   8e 1d 7b 00 00 00       mov    0x7b,%ds  
1b:   66 8b 1d 7b 00 00 00    mov    0x7b,%bx

paulsm4 is probably right about question 2) -- while e.g. Flat Assembler is able to compile mov ax,[123] in 8086 mode, it doesn't allow mov ds,[123].

But, if you allow some bending of the rules, e.g. if any of bx/bp/[sp]/di/si would be zero, then mov ds, [1234 + reg] is allowed.

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Actually, the reference you cited doesn't specify whether or not that happens to be true for DS. I'm not 100% sure, but I don't think it is. – paulsm4 Nov 17 '12 at 8:28

Dude - nobody even uses the DS register this century :)!

I'd strongly encourage you to learn 32-bit assembler. If you have access to Linux, this is an excellent resource:

To answer your question - I believe "No". You typically load DS from the AX register (although you can certainly use any of the other three general-purpose registers).

To be absolutely sure, you should look it up in the Intel reference manual (you should be able to find it on Google).


When I say "32-bit", I hasten to add that anything you learn for x86-32 is directly applicable to x86-64. But much (most?) of the stuff you learn for 16-bit DOS is not applicable to any contemporary (read: virtual memory/linear address space) system.


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Note that FS and GS are still used for things such as thread-local storage and access to kernel structures (see the SWAPGS instruction). – Jester Nov 17 '12 at 15:59

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