907 lines
27 KiB
ArmAsm
907 lines
27 KiB
ArmAsm
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/*
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* ---------------------------------------------------------------------------
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* Copyright (c) 1998-2007, Brian Gladman, Worcester, UK. All rights reserved.
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*
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* LICENSE TERMS
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*
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* The free distribution and use of this software is allowed (with or without
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* changes) provided that:
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*
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* 1. source code distributions include the above copyright notice, this
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* list of conditions and the following disclaimer;
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*
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* 2. binary distributions include the above copyright notice, this list
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* of conditions and the following disclaimer in their documentation;
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*
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* 3. the name of the copyright holder is not used to endorse products
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* built using this software without specific written permission.
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*
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* DISCLAIMER
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*
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* This software is provided 'as is' with no explicit or implied warranties
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* in respect of its properties, including, but not limited to, correctness
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* and/or fitness for purpose.
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* ---------------------------------------------------------------------------
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* Issue 20/12/2007
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*
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* I am grateful to Dag Arne Osvik for many discussions of the techniques that
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* can be used to optimise AES assembler code on AMD64/EM64T architectures.
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* Some of the techniques used in this implementation are the result of
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* suggestions made by him for which I am most grateful.
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*
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* An AES implementation for AMD64 processors using the YASM assembler. This
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* implementation provides only encryption, decryption and hence requires key
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* scheduling support in C. It uses 8k bytes of tables but its encryption and
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* decryption performance is very close to that obtained using large tables.
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* It can use either MS Windows or Gnu/Linux/OpenSolaris OS calling conventions,
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* which are as follows:
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* ms windows gnu/linux/opensolaris os
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*
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* in_blk rcx rdi
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* out_blk rdx rsi
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* context (cx) r8 rdx
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*
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* preserved rsi - + rbx, rbp, rsp, r12, r13, r14 & r15
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* registers rdi - on both
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*
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* destroyed - rsi + rax, rcx, rdx, r8, r9, r10 & r11
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* registers - rdi on both
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*
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* The convention used here is that for gnu/linux/opensolaris os.
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*
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* This code provides the standard AES block size (128 bits, 16 bytes) and the
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* three standard AES key sizes (128, 192 and 256 bits). It has the same call
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* interface as my C implementation. It uses the Microsoft C AMD64 calling
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* conventions in which the three parameters are placed in rcx, rdx and r8
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* respectively. The rbx, rsi, rdi, rbp and r12..r15 registers are preserved.
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*
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* OpenSolaris Note:
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* Modified to use GNU/Linux/Solaris calling conventions.
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* That is parameters are placed in rdi, rsi, rdx, and rcx, respectively.
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*
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* AES_RETURN aes_encrypt(const unsigned char in_blk[],
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* unsigned char out_blk[], const aes_encrypt_ctx cx[1])/
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*
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* AES_RETURN aes_decrypt(const unsigned char in_blk[],
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* unsigned char out_blk[], const aes_decrypt_ctx cx[1])/
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*
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* AES_RETURN aes_encrypt_key<NNN>(const unsigned char key[],
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* const aes_encrypt_ctx cx[1])/
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*
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* AES_RETURN aes_decrypt_key<NNN>(const unsigned char key[],
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* const aes_decrypt_ctx cx[1])/
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*
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* AES_RETURN aes_encrypt_key(const unsigned char key[],
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* unsigned int len, const aes_decrypt_ctx cx[1])/
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*
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* AES_RETURN aes_decrypt_key(const unsigned char key[],
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* unsigned int len, const aes_decrypt_ctx cx[1])/
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*
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* where <NNN> is 128, 102 or 256. In the last two calls the length can be in
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* either bits or bytes.
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*
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* Comment in/out the following lines to obtain the desired subroutines. These
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* selections MUST match those in the C header file aesopt.h
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*/
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#define AES_REV_DKS /* define if key decryption schedule is reversed */
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#define LAST_ROUND_TABLES /* define for the faster version using extra tables */
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/*
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* The encryption key schedule has the following in memory layout where N is the
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* number of rounds (10, 12 or 14):
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*
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* lo: | input key (round 0) | / each round is four 32-bit words
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* | encryption round 1 |
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* | encryption round 2 |
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* ....
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* | encryption round N-1 |
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* hi: | encryption round N |
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*
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* The decryption key schedule is normally set up so that it has the same
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* layout as above by actually reversing the order of the encryption key
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* schedule in memory (this happens when AES_REV_DKS is set):
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*
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* lo: | decryption round 0 | = | encryption round N |
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* | decryption round 1 | = INV_MIX_COL[ | encryption round N-1 | ]
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* | decryption round 2 | = INV_MIX_COL[ | encryption round N-2 | ]
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* .... ....
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* | decryption round N-1 | = INV_MIX_COL[ | encryption round 1 | ]
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* hi: | decryption round N | = | input key (round 0) |
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*
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* with rounds except the first and last modified using inv_mix_column()
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* But if AES_REV_DKS is NOT set the order of keys is left as it is for
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* encryption so that it has to be accessed in reverse when used for
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* decryption (although the inverse mix column modifications are done)
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*
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* lo: | decryption round 0 | = | input key (round 0) |
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* | decryption round 1 | = INV_MIX_COL[ | encryption round 1 | ]
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* | decryption round 2 | = INV_MIX_COL[ | encryption round 2 | ]
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* .... ....
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* | decryption round N-1 | = INV_MIX_COL[ | encryption round N-1 | ]
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* hi: | decryption round N | = | encryption round N |
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*
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* This layout is faster when the assembler key scheduling provided here
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* is used.
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*
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* End of user defines
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*/
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/*
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* ---------------------------------------------------------------------------
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* OpenSolaris OS modifications
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*
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* This source originates from Brian Gladman file aes_amd64.asm
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* in http://fp.gladman.plus.com/AES/aes-src-04-03-08.zip
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* with these changes:
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*
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* 1. Removed MS Windows-specific code within DLL_EXPORT, _SEH_, and
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* !__GNUC__ ifdefs. Also removed ENCRYPTION, DECRYPTION,
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* AES_128, AES_192, AES_256, AES_VAR ifdefs.
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*
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* 2. Translate yasm/nasm %define and .macro definitions to cpp(1) #define
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*
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* 3. Translate yasm/nasm %ifdef/%ifndef to cpp(1) #ifdef
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*
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* 4. Translate Intel/yasm/nasm syntax to ATT/OpenSolaris as(1) syntax
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* (operands reversed, literals prefixed with "$", registers prefixed with "%",
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* and "[register+offset]", addressing changed to "offset(register)",
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* parenthesis in constant expressions "()" changed to square brackets "[]",
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* "." removed from local (numeric) labels, and other changes.
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* Examples:
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* Intel/yasm/nasm Syntax ATT/OpenSolaris Syntax
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* mov rax,(4*20h) mov $[4*0x20],%rax
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* mov rax,[ebx+20h] mov 0x20(%ebx),%rax
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* lea rax,[ebx+ecx] lea (%ebx,%ecx),%rax
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* sub rax,[ebx+ecx*4-20h] sub -0x20(%ebx,%ecx,4),%rax
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*
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* 5. Added OpenSolaris ENTRY_NP/SET_SIZE macros from
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* /usr/include/sys/asm_linkage.h, lint(1B) guards, and dummy C function
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* definitions for lint.
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*
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* 6. Renamed functions and reordered parameters to match OpenSolaris:
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* Original Gladman interface:
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* int aes_encrypt(const unsigned char *in,
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* unsigned char *out, const aes_encrypt_ctx cx[1])/
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* int aes_decrypt(const unsigned char *in,
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* unsigned char *out, const aes_encrypt_ctx cx[1])/
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* Note: aes_encrypt_ctx contains ks, a 60 element array of uint32_t,
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* and a union type, inf., containing inf.l, a uint32_t and
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* inf.b, a 4-element array of uint32_t. Only b[0] in the array (aka "l") is
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* used and contains the key schedule length * 16 where key schedule length is
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* 10, 12, or 14 bytes.
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*
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* OpenSolaris OS interface:
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* void aes_encrypt_amd64(const aes_ks_t *ks, int Nr,
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* const uint32_t pt[4], uint32_t ct[4])/
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* void aes_decrypt_amd64(const aes_ks_t *ks, int Nr,
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* const uint32_t pt[4], uint32_t ct[4])/
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* typedef union {uint64_t ks64[(MAX_AES_NR + 1) * 4]/
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* uint32_t ks32[(MAX_AES_NR + 1) * 4]/ } aes_ks_t/
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* Note: ks is the AES key schedule, Nr is number of rounds, pt is plain text,
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* ct is crypto text, and MAX_AES_NR is 14.
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* For the x86 64-bit architecture, OpenSolaris OS uses ks32 instead of ks64.
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*/
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#if defined(lint) || defined(__lint)
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#include <sys/types.h>
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/* ARGSUSED */
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void
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aes_encrypt_amd64(const uint32_t rk[], int Nr, const uint32_t pt[4],
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uint32_t ct[4]) {
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}
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/* ARGSUSED */
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void
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aes_decrypt_amd64(const uint32_t rk[], int Nr, const uint32_t ct[4],
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uint32_t pt[4]) {
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}
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#else
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#define _ASM
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#include <sys/asm_linkage.h>
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#define KS_LENGTH 60
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#define raxd eax
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#define rdxd edx
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#define rcxd ecx
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#define rbxd ebx
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#define rsid esi
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#define rdid edi
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#define raxb al
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#define rdxb dl
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#define rcxb cl
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#define rbxb bl
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#define rsib sil
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#define rdib dil
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// finite field multiplies by {02}, {04} and {08}
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#define f2(x) [[x<<1]^[[[x>>7]&1]*0x11b]]
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#define f4(x) [[x<<2]^[[[x>>6]&1]*0x11b]^[[[x>>6]&2]*0x11b]]
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#define f8(x) [[x<<3]^[[[x>>5]&1]*0x11b]^[[[x>>5]&2]*0x11b]^[[[x>>5]&4]*0x11b]]
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// finite field multiplies required in table generation
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#define f3(x) [[f2(x)] ^ [x]]
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#define f9(x) [[f8(x)] ^ [x]]
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#define fb(x) [[f8(x)] ^ [f2(x)] ^ [x]]
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#define fd(x) [[f8(x)] ^ [f4(x)] ^ [x]]
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#define fe(x) [[f8(x)] ^ [f4(x)] ^ [f2(x)]]
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// macros for expanding S-box data
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#define u8(x) [f2(x)], [x], [x], [f3(x)], [f2(x)], [x], [x], [f3(x)]
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#define v8(x) [fe(x)], [f9(x)], [fd(x)], [fb(x)], [fe(x)], [f9(x)], [fd(x)], [x]
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#define w8(x) [x], 0, 0, 0, [x], 0, 0, 0
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#define enc_vals(x) \
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.byte x(0x63),x(0x7c),x(0x77),x(0x7b),x(0xf2),x(0x6b),x(0x6f),x(0xc5); \
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.byte x(0x30),x(0x01),x(0x67),x(0x2b),x(0xfe),x(0xd7),x(0xab),x(0x76); \
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.byte x(0xca),x(0x82),x(0xc9),x(0x7d),x(0xfa),x(0x59),x(0x47),x(0xf0); \
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.byte x(0xad),x(0xd4),x(0xa2),x(0xaf),x(0x9c),x(0xa4),x(0x72),x(0xc0); \
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.byte x(0xb7),x(0xfd),x(0x93),x(0x26),x(0x36),x(0x3f),x(0xf7),x(0xcc); \
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.byte x(0x34),x(0xa5),x(0xe5),x(0xf1),x(0x71),x(0xd8),x(0x31),x(0x15); \
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.byte x(0x04),x(0xc7),x(0x23),x(0xc3),x(0x18),x(0x96),x(0x05),x(0x9a); \
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.byte x(0x07),x(0x12),x(0x80),x(0xe2),x(0xeb),x(0x27),x(0xb2),x(0x75); \
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.byte x(0x09),x(0x83),x(0x2c),x(0x1a),x(0x1b),x(0x6e),x(0x5a),x(0xa0); \
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.byte x(0x52),x(0x3b),x(0xd6),x(0xb3),x(0x29),x(0xe3),x(0x2f),x(0x84); \
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.byte x(0x53),x(0xd1),x(0x00),x(0xed),x(0x20),x(0xfc),x(0xb1),x(0x5b); \
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.byte x(0x6a),x(0xcb),x(0xbe),x(0x39),x(0x4a),x(0x4c),x(0x58),x(0xcf); \
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.byte x(0xd0),x(0xef),x(0xaa),x(0xfb),x(0x43),x(0x4d),x(0x33),x(0x85); \
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.byte x(0x45),x(0xf9),x(0x02),x(0x7f),x(0x50),x(0x3c),x(0x9f),x(0xa8); \
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.byte x(0x51),x(0xa3),x(0x40),x(0x8f),x(0x92),x(0x9d),x(0x38),x(0xf5); \
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.byte x(0xbc),x(0xb6),x(0xda),x(0x21),x(0x10),x(0xff),x(0xf3),x(0xd2); \
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.byte x(0xcd),x(0x0c),x(0x13),x(0xec),x(0x5f),x(0x97),x(0x44),x(0x17); \
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.byte x(0xc4),x(0xa7),x(0x7e),x(0x3d),x(0x64),x(0x5d),x(0x19),x(0x73); \
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.byte x(0x60),x(0x81),x(0x4f),x(0xdc),x(0x22),x(0x2a),x(0x90),x(0x88); \
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.byte x(0x46),x(0xee),x(0xb8),x(0x14),x(0xde),x(0x5e),x(0x0b),x(0xdb); \
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.byte x(0xe0),x(0x32),x(0x3a),x(0x0a),x(0x49),x(0x06),x(0x24),x(0x5c); \
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.byte x(0xc2),x(0xd3),x(0xac),x(0x62),x(0x91),x(0x95),x(0xe4),x(0x79); \
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.byte x(0xe7),x(0xc8),x(0x37),x(0x6d),x(0x8d),x(0xd5),x(0x4e),x(0xa9); \
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.byte x(0x6c),x(0x56),x(0xf4),x(0xea),x(0x65),x(0x7a),x(0xae),x(0x08); \
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.byte x(0xba),x(0x78),x(0x25),x(0x2e),x(0x1c),x(0xa6),x(0xb4),x(0xc6); \
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.byte x(0xe8),x(0xdd),x(0x74),x(0x1f),x(0x4b),x(0xbd),x(0x8b),x(0x8a); \
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.byte x(0x70),x(0x3e),x(0xb5),x(0x66),x(0x48),x(0x03),x(0xf6),x(0x0e); \
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.byte x(0x61),x(0x35),x(0x57),x(0xb9),x(0x86),x(0xc1),x(0x1d),x(0x9e); \
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.byte x(0xe1),x(0xf8),x(0x98),x(0x11),x(0x69),x(0xd9),x(0x8e),x(0x94); \
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.byte x(0x9b),x(0x1e),x(0x87),x(0xe9),x(0xce),x(0x55),x(0x28),x(0xdf); \
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.byte x(0x8c),x(0xa1),x(0x89),x(0x0d),x(0xbf),x(0xe6),x(0x42),x(0x68); \
|
||
|
|
.byte x(0x41),x(0x99),x(0x2d),x(0x0f),x(0xb0),x(0x54),x(0xbb),x(0x16)
|
||
|
|
|
||
|
|
#define dec_vals(x) \
|
||
|
|
.byte x(0x52),x(0x09),x(0x6a),x(0xd5),x(0x30),x(0x36),x(0xa5),x(0x38); \
|
||
|
|
.byte x(0xbf),x(0x40),x(0xa3),x(0x9e),x(0x81),x(0xf3),x(0xd7),x(0xfb); \
|
||
|
|
.byte x(0x7c),x(0xe3),x(0x39),x(0x82),x(0x9b),x(0x2f),x(0xff),x(0x87); \
|
||
|
|
.byte x(0x34),x(0x8e),x(0x43),x(0x44),x(0xc4),x(0xde),x(0xe9),x(0xcb); \
|
||
|
|
.byte x(0x54),x(0x7b),x(0x94),x(0x32),x(0xa6),x(0xc2),x(0x23),x(0x3d); \
|
||
|
|
.byte x(0xee),x(0x4c),x(0x95),x(0x0b),x(0x42),x(0xfa),x(0xc3),x(0x4e); \
|
||
|
|
.byte x(0x08),x(0x2e),x(0xa1),x(0x66),x(0x28),x(0xd9),x(0x24),x(0xb2); \
|
||
|
|
.byte x(0x76),x(0x5b),x(0xa2),x(0x49),x(0x6d),x(0x8b),x(0xd1),x(0x25); \
|
||
|
|
.byte x(0x72),x(0xf8),x(0xf6),x(0x64),x(0x86),x(0x68),x(0x98),x(0x16); \
|
||
|
|
.byte x(0xd4),x(0xa4),x(0x5c),x(0xcc),x(0x5d),x(0x65),x(0xb6),x(0x92); \
|
||
|
|
.byte x(0x6c),x(0x70),x(0x48),x(0x50),x(0xfd),x(0xed),x(0xb9),x(0xda); \
|
||
|
|
.byte x(0x5e),x(0x15),x(0x46),x(0x57),x(0xa7),x(0x8d),x(0x9d),x(0x84); \
|
||
|
|
.byte x(0x90),x(0xd8),x(0xab),x(0x00),x(0x8c),x(0xbc),x(0xd3),x(0x0a); \
|
||
|
|
.byte x(0xf7),x(0xe4),x(0x58),x(0x05),x(0xb8),x(0xb3),x(0x45),x(0x06); \
|
||
|
|
.byte x(0xd0),x(0x2c),x(0x1e),x(0x8f),x(0xca),x(0x3f),x(0x0f),x(0x02); \
|
||
|
|
.byte x(0xc1),x(0xaf),x(0xbd),x(0x03),x(0x01),x(0x13),x(0x8a),x(0x6b); \
|
||
|
|
.byte x(0x3a),x(0x91),x(0x11),x(0x41),x(0x4f),x(0x67),x(0xdc),x(0xea); \
|
||
|
|
.byte x(0x97),x(0xf2),x(0xcf),x(0xce),x(0xf0),x(0xb4),x(0xe6),x(0x73); \
|
||
|
|
.byte x(0x96),x(0xac),x(0x74),x(0x22),x(0xe7),x(0xad),x(0x35),x(0x85); \
|
||
|
|
.byte x(0xe2),x(0xf9),x(0x37),x(0xe8),x(0x1c),x(0x75),x(0xdf),x(0x6e); \
|
||
|
|
.byte x(0x47),x(0xf1),x(0x1a),x(0x71),x(0x1d),x(0x29),x(0xc5),x(0x89); \
|
||
|
|
.byte x(0x6f),x(0xb7),x(0x62),x(0x0e),x(0xaa),x(0x18),x(0xbe),x(0x1b); \
|
||
|
|
.byte x(0xfc),x(0x56),x(0x3e),x(0x4b),x(0xc6),x(0xd2),x(0x79),x(0x20); \
|
||
|
|
.byte x(0x9a),x(0xdb),x(0xc0),x(0xfe),x(0x78),x(0xcd),x(0x5a),x(0xf4); \
|
||
|
|
.byte x(0x1f),x(0xdd),x(0xa8),x(0x33),x(0x88),x(0x07),x(0xc7),x(0x31); \
|
||
|
|
.byte x(0xb1),x(0x12),x(0x10),x(0x59),x(0x27),x(0x80),x(0xec),x(0x5f); \
|
||
|
|
.byte x(0x60),x(0x51),x(0x7f),x(0xa9),x(0x19),x(0xb5),x(0x4a),x(0x0d); \
|
||
|
|
.byte x(0x2d),x(0xe5),x(0x7a),x(0x9f),x(0x93),x(0xc9),x(0x9c),x(0xef); \
|
||
|
|
.byte x(0xa0),x(0xe0),x(0x3b),x(0x4d),x(0xae),x(0x2a),x(0xf5),x(0xb0); \
|
||
|
|
.byte x(0xc8),x(0xeb),x(0xbb),x(0x3c),x(0x83),x(0x53),x(0x99),x(0x61); \
|
||
|
|
.byte x(0x17),x(0x2b),x(0x04),x(0x7e),x(0xba),x(0x77),x(0xd6),x(0x26); \
|
||
|
|
.byte x(0xe1),x(0x69),x(0x14),x(0x63),x(0x55),x(0x21),x(0x0c),x(0x7d)
|
||
|
|
|
||
|
|
#define tptr %rbp /* table pointer */
|
||
|
|
#define kptr %r8 /* key schedule pointer */
|
||
|
|
#define fofs 128 /* adjust offset in key schedule to keep |disp| < 128 */
|
||
|
|
#define fk_ref(x, y) -16*x+fofs+4*y(kptr)
|
||
|
|
|
||
|
|
#ifdef AES_REV_DKS
|
||
|
|
#define rofs 128
|
||
|
|
#define ik_ref(x, y) -16*x+rofs+4*y(kptr)
|
||
|
|
|
||
|
|
#else
|
||
|
|
#define rofs -128
|
||
|
|
#define ik_ref(x, y) 16*x+rofs+4*y(kptr)
|
||
|
|
#endif /* AES_REV_DKS */
|
||
|
|
|
||
|
|
#define tab_0(x) (tptr,x,8)
|
||
|
|
#define tab_1(x) 3(tptr,x,8)
|
||
|
|
#define tab_2(x) 2(tptr,x,8)
|
||
|
|
#define tab_3(x) 1(tptr,x,8)
|
||
|
|
#define tab_f(x) 1(tptr,x,8)
|
||
|
|
#define tab_i(x) 7(tptr,x,8)
|
||
|
|
|
||
|
|
#define ff_rnd(p1, p2, p3, p4, round) /* normal forward round */ \
|
||
|
|
mov fk_ref(round,0), p1; \
|
||
|
|
mov fk_ref(round,1), p2; \
|
||
|
|
mov fk_ref(round,2), p3; \
|
||
|
|
mov fk_ref(round,3), p4; \
|
||
|
|
\
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
shr $16, %eax; \
|
||
|
|
xor tab_0(%rsi), p1; \
|
||
|
|
xor tab_1(%rdi), p4; \
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
xor tab_2(%rsi), p3; \
|
||
|
|
xor tab_3(%rdi), p2; \
|
||
|
|
\
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
shr $16, %ebx; \
|
||
|
|
xor tab_0(%rsi), p2; \
|
||
|
|
xor tab_1(%rdi), p1; \
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
xor tab_2(%rsi), p4; \
|
||
|
|
xor tab_3(%rdi), p3; \
|
||
|
|
\
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
shr $16, %ecx; \
|
||
|
|
xor tab_0(%rsi), p3; \
|
||
|
|
xor tab_1(%rdi), p2; \
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
xor tab_2(%rsi), p1; \
|
||
|
|
xor tab_3(%rdi), p4; \
|
||
|
|
\
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
shr $16, %edx; \
|
||
|
|
xor tab_0(%rsi), p4; \
|
||
|
|
xor tab_1(%rdi), p3; \
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
xor tab_2(%rsi), p2; \
|
||
|
|
xor tab_3(%rdi), p1; \
|
||
|
|
\
|
||
|
|
mov p1, %eax; \
|
||
|
|
mov p2, %ebx; \
|
||
|
|
mov p3, %ecx; \
|
||
|
|
mov p4, %edx
|
||
|
|
|
||
|
|
#ifdef LAST_ROUND_TABLES
|
||
|
|
|
||
|
|
#define fl_rnd(p1, p2, p3, p4, round) /* last forward round */ \
|
||
|
|
add $2048, tptr; \
|
||
|
|
mov fk_ref(round,0), p1; \
|
||
|
|
mov fk_ref(round,1), p2; \
|
||
|
|
mov fk_ref(round,2), p3; \
|
||
|
|
mov fk_ref(round,3), p4; \
|
||
|
|
\
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
shr $16, %eax; \
|
||
|
|
xor tab_0(%rsi), p1; \
|
||
|
|
xor tab_1(%rdi), p4; \
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
xor tab_2(%rsi), p3; \
|
||
|
|
xor tab_3(%rdi), p2; \
|
||
|
|
\
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
shr $16, %ebx; \
|
||
|
|
xor tab_0(%rsi), p2; \
|
||
|
|
xor tab_1(%rdi), p1; \
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
xor tab_2(%rsi), p4; \
|
||
|
|
xor tab_3(%rdi), p3; \
|
||
|
|
\
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
shr $16, %ecx; \
|
||
|
|
xor tab_0(%rsi), p3; \
|
||
|
|
xor tab_1(%rdi), p2; \
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
xor tab_2(%rsi), p1; \
|
||
|
|
xor tab_3(%rdi), p4; \
|
||
|
|
\
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
shr $16, %edx; \
|
||
|
|
xor tab_0(%rsi), p4; \
|
||
|
|
xor tab_1(%rdi), p3; \
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
xor tab_2(%rsi), p2; \
|
||
|
|
xor tab_3(%rdi), p1
|
||
|
|
|
||
|
|
#else
|
||
|
|
|
||
|
|
#define fl_rnd(p1, p2, p3, p4, round) /* last forward round */ \
|
||
|
|
mov fk_ref(round,0), p1; \
|
||
|
|
mov fk_ref(round,1), p2; \
|
||
|
|
mov fk_ref(round,2), p3; \
|
||
|
|
mov fk_ref(round,3), p4; \
|
||
|
|
\
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
shr $16, %eax; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
xor %esi, p1; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p4; \
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p3; \
|
||
|
|
xor %edi, p2; \
|
||
|
|
\
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
shr $16, %ebx; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
xor %esi, p2; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p1; \
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p4; \
|
||
|
|
xor %edi, p3; \
|
||
|
|
\
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
shr $16, %ecx; \
|
||
|
|
xor %esi, p3; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p2; \
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p1; \
|
||
|
|
xor %edi, p4; \
|
||
|
|
\
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
shr $16, %edx; \
|
||
|
|
xor %esi, p4; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p3; \
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
movzx tab_f(%rsi), %esi; \
|
||
|
|
movzx tab_f(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p2; \
|
||
|
|
xor %edi, p1
|
||
|
|
|
||
|
|
#endif /* LAST_ROUND_TABLES */
|
||
|
|
|
||
|
|
#define ii_rnd(p1, p2, p3, p4, round) /* normal inverse round */ \
|
||
|
|
mov ik_ref(round,0), p1; \
|
||
|
|
mov ik_ref(round,1), p2; \
|
||
|
|
mov ik_ref(round,2), p3; \
|
||
|
|
mov ik_ref(round,3), p4; \
|
||
|
|
\
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
shr $16, %eax; \
|
||
|
|
xor tab_0(%rsi), p1; \
|
||
|
|
xor tab_1(%rdi), p2; \
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
xor tab_2(%rsi), p3; \
|
||
|
|
xor tab_3(%rdi), p4; \
|
||
|
|
\
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
shr $16, %ebx; \
|
||
|
|
xor tab_0(%rsi), p2; \
|
||
|
|
xor tab_1(%rdi), p3; \
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
xor tab_2(%rsi), p4; \
|
||
|
|
xor tab_3(%rdi), p1; \
|
||
|
|
\
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
shr $16, %ecx; \
|
||
|
|
xor tab_0(%rsi), p3; \
|
||
|
|
xor tab_1(%rdi), p4; \
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
xor tab_2(%rsi), p1; \
|
||
|
|
xor tab_3(%rdi), p2; \
|
||
|
|
\
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
shr $16, %edx; \
|
||
|
|
xor tab_0(%rsi), p4; \
|
||
|
|
xor tab_1(%rdi), p1; \
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
xor tab_2(%rsi), p2; \
|
||
|
|
xor tab_3(%rdi), p3; \
|
||
|
|
\
|
||
|
|
mov p1, %eax; \
|
||
|
|
mov p2, %ebx; \
|
||
|
|
mov p3, %ecx; \
|
||
|
|
mov p4, %edx
|
||
|
|
|
||
|
|
#ifdef LAST_ROUND_TABLES
|
||
|
|
|
||
|
|
#define il_rnd(p1, p2, p3, p4, round) /* last inverse round */ \
|
||
|
|
add $2048, tptr; \
|
||
|
|
mov ik_ref(round,0), p1; \
|
||
|
|
mov ik_ref(round,1), p2; \
|
||
|
|
mov ik_ref(round,2), p3; \
|
||
|
|
mov ik_ref(round,3), p4; \
|
||
|
|
\
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
shr $16, %eax; \
|
||
|
|
xor tab_0(%rsi), p1; \
|
||
|
|
xor tab_1(%rdi), p2; \
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
xor tab_2(%rsi), p3; \
|
||
|
|
xor tab_3(%rdi), p4; \
|
||
|
|
\
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
shr $16, %ebx; \
|
||
|
|
xor tab_0(%rsi), p2; \
|
||
|
|
xor tab_1(%rdi), p3; \
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
xor tab_2(%rsi), p4; \
|
||
|
|
xor tab_3(%rdi), p1; \
|
||
|
|
\
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
shr $16, %ecx; \
|
||
|
|
xor tab_0(%rsi), p3; \
|
||
|
|
xor tab_1(%rdi), p4; \
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
xor tab_2(%rsi), p1; \
|
||
|
|
xor tab_3(%rdi), p2; \
|
||
|
|
\
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
shr $16, %edx; \
|
||
|
|
xor tab_0(%rsi), p4; \
|
||
|
|
xor tab_1(%rdi), p1; \
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
xor tab_2(%rsi), p2; \
|
||
|
|
xor tab_3(%rdi), p3
|
||
|
|
|
||
|
|
#else
|
||
|
|
|
||
|
|
#define il_rnd(p1, p2, p3, p4, round) /* last inverse round */ \
|
||
|
|
mov ik_ref(round,0), p1; \
|
||
|
|
mov ik_ref(round,1), p2; \
|
||
|
|
mov ik_ref(round,2), p3; \
|
||
|
|
mov ik_ref(round,3), p4; \
|
||
|
|
\
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
shr $16, %eax; \
|
||
|
|
xor %esi, p1; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p2; \
|
||
|
|
movzx %al, %esi; \
|
||
|
|
movzx %ah, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p3; \
|
||
|
|
xor %edi, p4; \
|
||
|
|
\
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
shr $16, %ebx; \
|
||
|
|
xor %esi, p2; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p3; \
|
||
|
|
movzx %bl, %esi; \
|
||
|
|
movzx %bh, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p4; \
|
||
|
|
xor %edi, p1; \
|
||
|
|
\
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
shr $16, %ecx; \
|
||
|
|
xor %esi, p3; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p4; \
|
||
|
|
movzx %cl, %esi; \
|
||
|
|
movzx %ch, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p1; \
|
||
|
|
xor %edi, p2; \
|
||
|
|
\
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
shr $16, %edx; \
|
||
|
|
xor %esi, p4; \
|
||
|
|
rol $8, %edi; \
|
||
|
|
xor %edi, p1; \
|
||
|
|
movzx %dl, %esi; \
|
||
|
|
movzx %dh, %edi; \
|
||
|
|
movzx tab_i(%rsi), %esi; \
|
||
|
|
movzx tab_i(%rdi), %edi; \
|
||
|
|
rol $16, %esi; \
|
||
|
|
rol $24, %edi; \
|
||
|
|
xor %esi, p2; \
|
||
|
|
xor %edi, p3
|
||
|
|
|
||
|
|
#endif /* LAST_ROUND_TABLES */
|
||
|
|
|
||
|
|
/*
|
||
|
|
* OpenSolaris OS:
|
||
|
|
* void aes_encrypt_amd64(const aes_ks_t *ks, int Nr,
|
||
|
|
* const uint32_t pt[4], uint32_t ct[4])/
|
||
|
|
*
|
||
|
|
* Original interface:
|
||
|
|
* int aes_encrypt(const unsigned char *in,
|
||
|
|
* unsigned char *out, const aes_encrypt_ctx cx[1])/
|
||
|
|
*/
|
||
|
|
.data
|
||
|
|
.align 64
|
||
|
|
enc_tab:
|
||
|
|
enc_vals(u8)
|
||
|
|
#ifdef LAST_ROUND_TABLES
|
||
|
|
// Last Round Tables:
|
||
|
|
enc_vals(w8)
|
||
|
|
#endif
|
||
|
|
|
||
|
|
|
||
|
|
ENTRY_NP(aes_encrypt_amd64)
|
||
|
|
#ifdef GLADMAN_INTERFACE
|
||
|
|
// Original interface
|
||
|
|
sub $[4*8], %rsp // gnu/linux/opensolaris binary interface
|
||
|
|
mov %rsi, (%rsp) // output pointer (P2)
|
||
|
|
mov %rdx, %r8 // context (P3)
|
||
|
|
|
||
|
|
mov %rbx, 1*8(%rsp) // P1: input pointer in rdi
|
||
|
|
mov %rbp, 2*8(%rsp) // P2: output pointer in (rsp)
|
||
|
|
mov %r12, 3*8(%rsp) // P3: context in r8
|
||
|
|
movzx 4*KS_LENGTH(kptr), %esi // Get byte key length * 16
|
||
|
|
|
||
|
|
#else
|
||
|
|
// OpenSolaris OS interface
|
||
|
|
sub $[4*8], %rsp // Make room on stack to save registers
|
||
|
|
mov %rcx, (%rsp) // Save output pointer (P4) on stack
|
||
|
|
mov %rdi, %r8 // context (P1)
|
||
|
|
mov %rdx, %rdi // P3: save input pointer
|
||
|
|
shl $4, %esi // P2: esi byte key length * 16
|
||
|
|
|
||
|
|
mov %rbx, 1*8(%rsp) // Save registers
|
||
|
|
mov %rbp, 2*8(%rsp)
|
||
|
|
mov %r12, 3*8(%rsp)
|
||
|
|
// P1: context in r8
|
||
|
|
// P2: byte key length * 16 in esi
|
||
|
|
// P3: input pointer in rdi
|
||
|
|
// P4: output pointer in (rsp)
|
||
|
|
#endif /* GLADMAN_INTERFACE */
|
||
|
|
|
||
|
|
lea enc_tab(%rip), tptr
|
||
|
|
sub $fofs, kptr
|
||
|
|
|
||
|
|
// Load input block into registers
|
||
|
|
mov (%rdi), %eax
|
||
|
|
mov 1*4(%rdi), %ebx
|
||
|
|
mov 2*4(%rdi), %ecx
|
||
|
|
mov 3*4(%rdi), %edx
|
||
|
|
|
||
|
|
xor fofs(kptr), %eax
|
||
|
|
xor fofs+4(kptr), %ebx
|
||
|
|
xor fofs+8(kptr), %ecx
|
||
|
|
xor fofs+12(kptr), %edx
|
||
|
|
|
||
|
|
lea (kptr,%rsi), kptr
|
||
|
|
// Jump based on byte key length * 16:
|
||
|
|
cmp $[10*16], %esi
|
||
|
|
je 3f
|
||
|
|
cmp $[12*16], %esi
|
||
|
|
je 2f
|
||
|
|
cmp $[14*16], %esi
|
||
|
|
je 1f
|
||
|
|
mov $-1, %rax // error
|
||
|
|
jmp 4f
|
||
|
|
|
||
|
|
// Perform normal forward rounds
|
||
|
|
1: ff_rnd(%r9d, %r10d, %r11d, %r12d, 13)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 12)
|
||
|
|
2: ff_rnd(%r9d, %r10d, %r11d, %r12d, 11)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 10)
|
||
|
|
3: ff_rnd(%r9d, %r10d, %r11d, %r12d, 9)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 8)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 7)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 6)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 5)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 4)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 3)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 2)
|
||
|
|
ff_rnd(%r9d, %r10d, %r11d, %r12d, 1)
|
||
|
|
fl_rnd(%r9d, %r10d, %r11d, %r12d, 0)
|
||
|
|
|
||
|
|
// Copy results
|
||
|
|
mov (%rsp), %rbx
|
||
|
|
mov %r9d, (%rbx)
|
||
|
|
mov %r10d, 4(%rbx)
|
||
|
|
mov %r11d, 8(%rbx)
|
||
|
|
mov %r12d, 12(%rbx)
|
||
|
|
xor %rax, %rax
|
||
|
|
4: // Restore registers
|
||
|
|
mov 1*8(%rsp), %rbx
|
||
|
|
mov 2*8(%rsp), %rbp
|
||
|
|
mov 3*8(%rsp), %r12
|
||
|
|
add $[4*8], %rsp
|
||
|
|
ret
|
||
|
|
|
||
|
|
SET_SIZE(aes_encrypt_amd64)
|
||
|
|
|
||
|
|
/*
|
||
|
|
* OpenSolaris OS:
|
||
|
|
* void aes_decrypt_amd64(const aes_ks_t *ks, int Nr,
|
||
|
|
* const uint32_t pt[4], uint32_t ct[4])/
|
||
|
|
*
|
||
|
|
* Original interface:
|
||
|
|
* int aes_decrypt(const unsigned char *in,
|
||
|
|
* unsigned char *out, const aes_encrypt_ctx cx[1])/
|
||
|
|
*/
|
||
|
|
.data
|
||
|
|
.align 64
|
||
|
|
dec_tab:
|
||
|
|
dec_vals(v8)
|
||
|
|
#ifdef LAST_ROUND_TABLES
|
||
|
|
// Last Round Tables:
|
||
|
|
dec_vals(w8)
|
||
|
|
#endif
|
||
|
|
|
||
|
|
|
||
|
|
ENTRY_NP(aes_decrypt_amd64)
|
||
|
|
#ifdef GLADMAN_INTERFACE
|
||
|
|
// Original interface
|
||
|
|
sub $[4*8], %rsp // gnu/linux/opensolaris binary interface
|
||
|
|
mov %rsi, (%rsp) // output pointer (P2)
|
||
|
|
mov %rdx, %r8 // context (P3)
|
||
|
|
|
||
|
|
mov %rbx, 1*8(%rsp) // P1: input pointer in rdi
|
||
|
|
mov %rbp, 2*8(%rsp) // P2: output pointer in (rsp)
|
||
|
|
mov %r12, 3*8(%rsp) // P3: context in r8
|
||
|
|
movzx 4*KS_LENGTH(kptr), %esi // Get byte key length * 16
|
||
|
|
|
||
|
|
#else
|
||
|
|
// OpenSolaris OS interface
|
||
|
|
sub $[4*8], %rsp // Make room on stack to save registers
|
||
|
|
mov %rcx, (%rsp) // Save output pointer (P4) on stack
|
||
|
|
mov %rdi, %r8 // context (P1)
|
||
|
|
mov %rdx, %rdi // P3: save input pointer
|
||
|
|
shl $4, %esi // P2: esi byte key length * 16
|
||
|
|
|
||
|
|
mov %rbx, 1*8(%rsp) // Save registers
|
||
|
|
mov %rbp, 2*8(%rsp)
|
||
|
|
mov %r12, 3*8(%rsp)
|
||
|
|
// P1: context in r8
|
||
|
|
// P2: byte key length * 16 in esi
|
||
|
|
// P3: input pointer in rdi
|
||
|
|
// P4: output pointer in (rsp)
|
||
|
|
#endif /* GLADMAN_INTERFACE */
|
||
|
|
|
||
|
|
lea dec_tab(%rip), tptr
|
||
|
|
sub $rofs, kptr
|
||
|
|
|
||
|
|
// Load input block into registers
|
||
|
|
mov (%rdi), %eax
|
||
|
|
mov 1*4(%rdi), %ebx
|
||
|
|
mov 2*4(%rdi), %ecx
|
||
|
|
mov 3*4(%rdi), %edx
|
||
|
|
|
||
|
|
#ifdef AES_REV_DKS
|
||
|
|
mov kptr, %rdi
|
||
|
|
lea (kptr,%rsi), kptr
|
||
|
|
#else
|
||
|
|
lea (kptr,%rsi), %rdi
|
||
|
|
#endif
|
||
|
|
|
||
|
|
xor rofs(%rdi), %eax
|
||
|
|
xor rofs+4(%rdi), %ebx
|
||
|
|
xor rofs+8(%rdi), %ecx
|
||
|
|
xor rofs+12(%rdi), %edx
|
||
|
|
|
||
|
|
// Jump based on byte key length * 16:
|
||
|
|
cmp $[10*16], %esi
|
||
|
|
je 3f
|
||
|
|
cmp $[12*16], %esi
|
||
|
|
je 2f
|
||
|
|
cmp $[14*16], %esi
|
||
|
|
je 1f
|
||
|
|
mov $-1, %rax // error
|
||
|
|
jmp 4f
|
||
|
|
|
||
|
|
// Perform normal inverse rounds
|
||
|
|
1: ii_rnd(%r9d, %r10d, %r11d, %r12d, 13)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 12)
|
||
|
|
2: ii_rnd(%r9d, %r10d, %r11d, %r12d, 11)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 10)
|
||
|
|
3: ii_rnd(%r9d, %r10d, %r11d, %r12d, 9)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 8)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 7)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 6)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 5)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 4)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 3)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 2)
|
||
|
|
ii_rnd(%r9d, %r10d, %r11d, %r12d, 1)
|
||
|
|
il_rnd(%r9d, %r10d, %r11d, %r12d, 0)
|
||
|
|
|
||
|
|
// Copy results
|
||
|
|
mov (%rsp), %rbx
|
||
|
|
mov %r9d, (%rbx)
|
||
|
|
mov %r10d, 4(%rbx)
|
||
|
|
mov %r11d, 8(%rbx)
|
||
|
|
mov %r12d, 12(%rbx)
|
||
|
|
xor %rax, %rax
|
||
|
|
4: // Restore registers
|
||
|
|
mov 1*8(%rsp), %rbx
|
||
|
|
mov 2*8(%rsp), %rbp
|
||
|
|
mov 3*8(%rsp), %r12
|
||
|
|
add $[4*8], %rsp
|
||
|
|
ret
|
||
|
|
|
||
|
|
SET_SIZE(aes_decrypt_amd64)
|
||
|
|
#endif /* lint || __lint */
|
||
|
|
|
||
|
|
#ifdef __ELF__
|
||
|
|
.section .note.GNU-stack,"",%progbits
|
||
|
|
#endif
|