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Hello Everyone I am trying to build a code to do demonstrate doing AES encryption in assembly. the latest Intel manual has

AESENC xmm1,xmm2/m128 —Perform One Round of an AES Encryption Flow round key from the second source operand, operating on 128-bit data (state) from the first source operand, and store the result in the destination operand.

AESENCLAST xmm1, xmm2/m128 —Perform Last Round of an AES Encryption Flow a round key from the second source operand, operating on 128-bit data (state) from the first source operand, and store the result in the destination operand.

AESKEYGENASSIST xmm1, xmm2/m128, imm8 Assist in expanding the AES cipher key, by computing steps towards generating a round key for encryption, using 128-bit data specified in the source operand and an 8-bit round constant specified as an immediate, store the result in the destination operand.

To do this I will be trying inline assembly, I will be building it to compare speeds with normal AES done in C! my first brainstorm took me thinking how to use xmm in inline assembly any help/brainstorming/sharing ideas concerning my probs or the idea in general is welcome Cheers=)

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closed as not a real question by GregS, San Jacinto, Chris J, Oli Charlesworth, Richard Jan 7 '11 at 11:06

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

    
I'd rather code a COBOL compiler in assembly than any cryptography in assembly. –  San Jacinto Jan 5 '11 at 22:07
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@SanJacint: Cryptography is one of the few use-cases where hand crafted assembly is really a good idea. It's short, well defined code that needs high performance. And in case of AES there are even special instructions. –  CodesInChaos Jan 5 '11 at 22:09
    
FWIW The PadLock (xcrypt*) instructions on VIA processors also support AES algorithms, and having been around for longer than Intel's extensions, there's more benchmarked material out there. –  ephemient Jan 5 '11 at 22:19
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So what's the problem, exactly? –  Chris J Jan 5 '11 at 22:19
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@San:if it hadnt been for the specialized Intel insns I wouldnt have gone there but AES is a special case that Intel has dedicated macro ops for, plus in assembly it should be faster –  Syntax_Error Jan 5 '11 at 22:20
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1 Answer 1

If you want to get a 128-bit value into an XMM register, look at the MOVDQA and MOVDQU instructions.

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looked into it but both take the second operand as xmm or mem128...i want some way to move immediate to xmm....Im new to inline assembly so if im wrong let me know:) –  Syntax_Error Jan 5 '11 at 22:28
    
@Syntax_Error: You can use MOVD to move a general-purpose register into an XMM one, but that will zero-extend it to 128 bits. Which works fine for small constants, I guess. Anything larger than that you've probably got sitting on the stack anyway. –  Anon. Jan 5 '11 at 22:37
    
so what ur saying is that ill be limited to 64 bit operands? –  Syntax_Error Jan 5 '11 at 22:41
    
@Syntax_Error: You can load 128-bit operands from memory just fine. If you really don't want to do a load from memory, you can fiddle about with the insert commands (forex: PINSRD) which let you specify where in the xmm register you want the operand to be placed. –  Anon. Jan 5 '11 at 22:46
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@Syntax_Error: It depends on what the source of that operand is. For example, if it's encrypted data coming off the network, you'll probably read it straight into the xmm register from wherever the device driver leaves it. If you're providing a C interface to this code, then the key material will probably be passed in on the stack, and once again you'll just read that straight into the appropriate xmm register. If you've done some calculations and want to move the result into xmm registers, you can either use a sequence of inserts or copy it to the stack and then back. –  Anon. Jan 5 '11 at 23:15
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