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I need to declare a dummy absolute address in the code of a self-modifying program. This pointer works similar to a relocation for a linker - it only reserves appropriate space in the instruction and is updated with a valid address later on at runtime. This has worked fine for me on x86-32:

movups xmm0, [0xDEADBEEF]

This assembles and works as expected at runtime. However, when I try to do this in x86-64 code:

movups xmm0, [0xDEADC0DEDEADBEEF]

It assembles with the following warning:

warning: dword data exceeds bounds

And promptly crashes at runtime because the next instruction is overwritten with the rest of the address, which happens to be garbage instruction-wise.

Any address longer than 32 bits fails to assemble without a warning, even a minimally longer one than 32 bits:

movups xmm0, [0xADEADBEEF] ; 36-bit address

How should I go about declaring a constant, absolute 64-bit pointer? Or is there just no way around it and I need to drop a RIP-relative, 32-bit pointer in there?

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Could it be related to the fact that x86 hardware and operating systems don't (yet) use all 64 bits of the address bus? How much memory can a 64bit machine address at a time – Bo Persson Nov 4 '12 at 16:57
I cannot see why you even assume I'm running this code under any OS. :) No, these are raw assembly instructions, this is not related to an OS's ability to address memory at all. – IneQuation Nov 4 '12 at 17:00
I'm assuming that the assembler might know that no hardware can use all 64 address bits on an x86. – Bo Persson Nov 4 '12 at 17:08
...which would be quite short-sighted, as such hardware may arrive in the near future and the assembler would become unnecessarily impaired. No, I think I'm either missing a concept here (more probable) or it's simply a bug in NASM. – IneQuation Nov 4 '12 at 17:27
I find it really odd that it assembles with just a warning. That memory address is completely unencodable for that instruction (and the vast majority of other instructions). – harold Nov 4 '12 at 18:35
up vote 3 down vote accepted

I may be wrong because I haven't done NASM in a long time, but I don't think you can use a 64 bit immediate value with any register other than AL, AX, EAX, RAX. Your 64 bit address has to be declared as a QWORD.


movups xmm0, [rax]

See comments below for explanation.

This reference: NASM Manual

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It's not that simple. I tried "routing" the pointer via RAX: lea rax, [0xDEADCODEDEADBEEF] \n movups xmm0, [rax] And the warning doesn't change, only it now complains about the lea instruction instead of movups. I've read through the manual several times already and can't find anything useful. – IneQuation Nov 4 '12 at 16:24
Also, declaring the address as [qword 0xDEADCODEDEADBEEF] only leads to an additional warning: warning: displacement size ignored on absolute address, with the previous one not going away. – IneQuation Nov 4 '12 at 16:28
@IneQuation or declare the constant in your data section x dd 0xDEADCODEDEADBEEF then use movups xmm0, [x] – Trevor Arjeski Nov 4 '12 at 16:33
@IneQuation This may be pointless to try. mov rax , 0xDEADCODEDEADBEEF then movups xmm0, [rax] I'm sure you've tried that. Sorry I couldn't be much help :( – Trevor Arjeski Nov 4 '12 at 17:58
This answer is right, but not very descriptive. You can only use a 64-bit absolute address for moving to/from the accumulator, not for any operation with it. You can, however, move a 64-bit immediate value into any 64-bit GPR, which is what you are trying to do. mov rax, 0xDEADCODEDEADBEEF \n movups xmm0, [rax] (Edit: Just noticed Trevor posted that code while I was looking for the reference to make sure there were no other operations that could use it.) – ughoavgfhw Nov 4 '12 at 18:13

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