;; ;; Copyright (c) 2012-2018, Intel Corporation ;; ;; Redistribution and use in source and binary forms, with or without ;; modification, are permitted provided that the following conditions are met: ;; ;; * Redistributions of source code must retain the above copyright notice, ;; this list of conditions and the following disclaimer. ;; * Redistributions in binary form must reproduce the above copyright ;; notice, this list of conditions and the following disclaimer in the ;; documentation and/or other materials provided with the distribution. ;; * Neither the name of Intel Corporation nor the names of its contributors ;; may be used to endorse or promote products derived from this software ;; without specific prior written permission. ;; ;; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" ;; AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE ;; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE ;; DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE ;; FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL ;; DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR ;; SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER ;; CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, ;; OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE ;; OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ;; ; Routines to do simple AES ECB Enc on one stream with 3 blocks ;void ; aes128_ecbenc_x3_sse(void *in, void *keys, void *out1, void *out2, void *out3); ;void ; aes128_ecbenc_x3_avx(void *in, void *keys, void *out1, void *out2, void *out3); %include "os.asm" %ifdef LINUX %define IN rdi ; arg 1 %define KEYS rsi ; arg 2 %define OUT0 rdx ; arg 3 %define OUT1 rcx ; arg 4 %define OUT2 r8 ; arg 5 %else %define IN rcx ; arg 1 %define KEYS rdx ; arg 2 %define OUT0 r8 ; arg 3 %define OUT1 r9 ; arg 4 %define OUT2 rax ; %endif %define XDATA0 xmm0 %define XDATA1 xmm1 %define XDATA2 xmm2 %define XKEYA xmm3 %define XKEYB xmm4 section .text MKGLOBAL(aes128_ecbenc_x3_sse,function,internal) aes128_ecbenc_x3_sse: %ifndef LINUX mov OUT2, [rsp + 5*8] %endif movdqu XDATA0, [IN + 0*16] ; load first block of plain text movdqu XDATA1, [IN + 1*16] ; load second block of plain text movdqu XDATA2, [IN + 2*16] ; load third block of plain text movdqa XKEYA, [KEYS + 16*0] movdqa XKEYB, [KEYS + 16*1] pxor XDATA0, XKEYA ; 0. ARK pxor XDATA1, XKEYA ; 0. ARK pxor XDATA2, XKEYA ; 0. ARK movdqa XKEYA, [KEYS + 16*2] aesenc XDATA0, XKEYB ; 1. ENC aesenc XDATA1, XKEYB ; 1. ENC aesenc XDATA2, XKEYB ; 1. ENC movdqa XKEYB, [KEYS + 16*3] aesenc XDATA0, XKEYA ; 2. ENC aesenc XDATA1, XKEYA ; 2. ENC aesenc XDATA2, XKEYA ; 2. ENC movdqa XKEYA, [KEYS + 16*4] aesenc XDATA0, XKEYB ; 3. ENC aesenc XDATA1, XKEYB ; 3. ENC aesenc XDATA2, XKEYB ; 3. ENC movdqa XKEYB, [KEYS + 16*5] aesenc XDATA0, XKEYA ; 4. ENC aesenc XDATA1, XKEYA ; 4. ENC aesenc XDATA2, XKEYA ; 4. ENC movdqa XKEYA, [KEYS + 16*6] aesenc XDATA0, XKEYB ; 5. ENC aesenc XDATA1, XKEYB ; 5. ENC aesenc XDATA2, XKEYB ; 5. ENC movdqa XKEYB, [KEYS + 16*7] aesenc XDATA0, XKEYA ; 6. ENC aesenc XDATA1, XKEYA ; 6. ENC aesenc XDATA2, XKEYA ; 6. ENC movdqa XKEYA, [KEYS + 16*8] aesenc XDATA0, XKEYB ; 7. ENC aesenc XDATA1, XKEYB ; 7. ENC aesenc XDATA2, XKEYB ; 7. ENC movdqa XKEYB, [KEYS + 16*9] aesenc XDATA0, XKEYA ; 8. ENC aesenc XDATA1, XKEYA ; 8. ENC aesenc XDATA2, XKEYA ; 8. ENC movdqa XKEYA, [KEYS + 16*10] aesenc XDATA0, XKEYB ; 9. ENC aesenc XDATA1, XKEYB ; 9. ENC aesenc XDATA2, XKEYB ; 9. ENC aesenclast XDATA0, XKEYA ; 10. ENC aesenclast XDATA1, XKEYA ; 10. ENC aesenclast XDATA2, XKEYA ; 10. ENC movdqu [OUT0], XDATA0 ; write back ciphertext movdqu [OUT1], XDATA1 ; write back ciphertext movdqu [OUT2], XDATA2 ; write back ciphertext ret ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; MKGLOBAL(aes128_ecbenc_x3_avx,function,internal) aes128_ecbenc_x3_avx: %ifndef LINUX mov OUT2, [rsp + 5*8] %endif vmovdqu XDATA0, [IN + 0*16] ; load first block of plain text vmovdqu XDATA1, [IN + 1*16] ; load second block of plain text vmovdqu XDATA2, [IN + 2*16] ; load third block of plain text vmovdqa XKEYA, [KEYS + 16*0] vmovdqa XKEYB, [KEYS + 16*1] vpxor XDATA0, XDATA0, XKEYA ; 0. ARK vpxor XDATA1, XDATA1, XKEYA ; 0. ARK vpxor XDATA2, XDATA2, XKEYA ; 0. ARK vmovdqa XKEYA, [KEYS + 16*2] vaesenc XDATA0, XKEYB ; 1. ENC vaesenc XDATA1, XKEYB ; 1. ENC vaesenc XDATA2, XKEYB ; 1. ENC vmovdqa XKEYB, [KEYS + 16*3] vaesenc XDATA0, XKEYA ; 2. ENC vaesenc XDATA1, XKEYA ; 2. ENC vaesenc XDATA2, XKEYA ; 2. ENC vmovdqa XKEYA, [KEYS + 16*4] vaesenc XDATA0, XKEYB ; 3. ENC vaesenc XDATA1, XKEYB ; 3. ENC vaesenc XDATA2, XKEYB ; 3. ENC vmovdqa XKEYB, [KEYS + 16*5] vaesenc XDATA0, XKEYA ; 4. ENC vaesenc XDATA1, XKEYA ; 4. ENC vaesenc XDATA2, XKEYA ; 4. ENC vmovdqa XKEYA, [KEYS + 16*6] vaesenc XDATA0, XKEYB ; 5. ENC vaesenc XDATA1, XKEYB ; 5. ENC vaesenc XDATA2, XKEYB ; 5. ENC vmovdqa XKEYB, [KEYS + 16*7] vaesenc XDATA0, XKEYA ; 6. ENC vaesenc XDATA1, XKEYA ; 6. ENC vaesenc XDATA2, XKEYA ; 6. ENC vmovdqa XKEYA, [KEYS + 16*8] vaesenc XDATA0, XKEYB ; 7. ENC vaesenc XDATA1, XKEYB ; 7. ENC vaesenc XDATA2, XKEYB ; 7. ENC vmovdqa XKEYB, [KEYS + 16*9] vaesenc XDATA0, XKEYA ; 8. ENC vaesenc XDATA1, XKEYA ; 8. ENC vaesenc XDATA2, XKEYA ; 8. ENC vmovdqa XKEYA, [KEYS + 16*10] vaesenc XDATA0, XKEYB ; 9. ENC vaesenc XDATA1, XKEYB ; 9. ENC vaesenc XDATA2, XKEYB ; 9. ENC vaesenclast XDATA0, XKEYA ; 10. ENC vaesenclast XDATA1, XKEYA ; 10. ENC vaesenclast XDATA2, XKEYA ; 10. ENC vmovdqu [OUT0], XDATA0 ; write back ciphertext vmovdqu [OUT1], XDATA1 ; write back ciphertext vmovdqu [OUT2], XDATA2 ; write back ciphertext ret %ifdef LINUX section .note.GNU-stack noalloc noexec nowrite progbits %endif