/* * Serpent Cipher 8-way parallel algorithm (x86_64/AVX) * * Copyright (C) 2012 Johannes Goetzfried * * * Copyright © 2011-2013 Jussi Kivilinna * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA * */ #include #include #include "glue_helper-asm-avx.S" .file "serpent-avx-x86_64-asm_64.S" .section .rodata.cst16.bswap128_mask, "aM", @progbits, 16 .align 16 .Lbswap128_mask: .byte 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 .section .rodata.cst16.xts_gf128mul_and_shl1_mask, "aM", @progbits, 16 .align 16 .Lxts_gf128mul_and_shl1_mask: .byte 0x87, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0 .text #define CTX %rdi /********************************************************************** 8-way AVX serpent **********************************************************************/ #define RA1 %xmm0 #define RB1 %xmm1 #define RC1 %xmm2 #define RD1 %xmm3 #define RE1 %xmm4 #define tp %xmm5 #define RA2 %xmm6 #define RB2 %xmm7 #define RC2 %xmm8 #define RD2 %xmm9 #define RE2 %xmm10 #define RNOT %xmm11 #define RK0 %xmm12 #define RK1 %xmm13 #define RK2 %xmm14 #define RK3 %xmm15 #define S0_1(x0, x1, x2, x3, x4) \ vpor x0, x3, tp; \ vpxor x3, x0, x0; \ vpxor x2, x3, x4; \ vpxor RNOT, x4, x4; \ vpxor x1, tp, x3; \ vpand x0, x1, x1; \ vpxor x4, x1, x1; \ vpxor x0, x2, x2; #define S0_2(x0, x1, x2, x3, x4) \ vpxor x3, x0, x0; \ vpor x0, x4, x4; \ vpxor x2, x0, x0; \ vpand x1, x2, x2; \ vpxor x2, x3, x3; \ vpxor RNOT, x1, x1; \ vpxor x4, x2, x2; \ vpxor x2, x1, x1; #define S1_1(x0, x1, x2, x3, x4) \ vpxor x0, x1, tp; \ vpxor x3, x0, x0; \ vpxor RNOT, x3, x3; \ vpand tp, x1, x4; \ vpor tp, x0, x0; \ vpxor x2, x3, x3; \ vpxor x3, x0, x0; \ vpxor x3, tp, x1; #define S1_2(x0, x1, x2, x3, x4) \ vpxor x4, x3, x3; \ vpor x4, x1, x1; \ vpxor x2, x4, x4; \ vpand x0, x2, x2; \ vpxor x1, x2, x2; \ vpor x0, x1, x1; \ vpxor RNOT, x0, x0; \ vpxor x2, x0, x0; \ vpxor x1, x4, x4; #define S2_1(x0, x1, x2, x3, x4) \ vpxor RNOT, x3, x3; \ vpxor x0, x1, x1; \ vpand x2, x0, tp; \ vpxor x3, tp, tp; \ vpor x0, x3, x3; \ vpxor x1, x2, x2; \ vpxor x1, x3, x3; \ vpand tp, x1, x1; #define S2_2(x0, x1, x2, x3, x4) \ vpxor x2, tp, tp; \ vpand x3, x2, x2; \ vpor x1, x3, x3; \ vpxor RNOT, tp, tp; \ vpxor tp, x3, x3; \ vpxor tp, x0, x4; \ vpxor x2, tp, x0; \ vpor x2, x1, x1; #define S3_1(x0, x1, x2, x3, x4) \ vpxor x3, x1, tp; \ vpor x0, x3, x3; \ vpand x0, x1, x4; \ vpxor x2, x0, x0; \ vpxor tp, x2, x2; \ vpand x3, tp, x1; \ vpxor x3, x2, x2; \ vpor x4, x0, x0; \ vpxor x3, x4, x4; #define S3_2(x0, x1, x2, x3, x4) \ vpxor x0, x1, x1; \ vpand x3, x0, x0; \ vpand x4, x3, x3; \ vpxor x2, x3, x3; \ vpor x1, x4, x4; \ vpand x1, x2, x2; \ vpxor x3, x4, x4; \ vpxor x3, x0, x0; \ vpxor x2, x3, x3; #define S4_1(x0, x1, x2, x3, x4) \ vpand x0, x3, tp; \ vpxor x3, x0, x0; \ vpxor x2, tp, tp; \ vpor x3, x2, x2; \ vpxor x1, x0, x0; \ vpxor tp, x3, x4; \ vpor x0, x2, x2; \ vpxor x1, x2, x2; #define S4_2(x0, x1, x2, x3, x4) \ vpand x0, x1, x1; \ vpxor x4, x1, x1; \ vpand x2, x4, x4; \ vpxor tp, x2, x2; \ vpxor x0, x4, x4; \ vpor x1, tp, x3; \ vpxor RNOT, x1, x1; \ vpxor x0, x3, x3; #define S5_1(x0, x1, x2, x3, x4) \ vpor x0, x1, tp; \ vpxor tp, x2, x2; \ vpxor RNOT, x3, x3; \ vpxor x0, x1, x4; \ vpxor x2, x0, x0; \ vpand x4, tp, x1; \ vpor x3, x4, x4; \ vpxor x0, x4, x4; #define S5_2(x0, x1, x2, x3, x4) \ vpand x3, x0, x0; \ vpxor x3, x1, x1; \ vpxor x2, x3, x3; \ vpxor x1, x0, x0; \ vpand x4, x2, x2; \ vpxor x2, x1, x1; \ vpand x0, x2, x2; \ vpxor x2, x3, x3; #define S6_1(x0, x1, x2, x3, x4) \ vpxor x0, x3, x3; \ vpxor x2, x1, tp; \ vpxor x0, x2, x2; \ vpand x3, x0, x0; \ vpor x3, tp, tp; \ vpxor RNOT, x1, x4; \ vpxor tp, x0, x0; \ vpxor x2, tp, x1; #define S6_2(x0, x1, x2, x3, x4) \ vpxor x4, x3, x3; \ vpxor x0, x4, x4; \ vpand x0, x2, x2; \ vpxor x1, x4, x4; \ vpxor x3, x2, x2; \ vpand x1, x3, x3; \ vpxor x0, x3, x3; \ vpxor x2, x1, x1; #define S7_1(x0, x1, x2, x3, x4) \ vpxor RNOT, x1, tp; \ vpxor RNOT, x0, x0; \ vpand x2, tp, x1; \ vpxor x3, x1, x1; \ vpor tp, x3, x3; \ vpxor x2, tp, x4; \ vpxor x3, x2, x2; \ vpxor x0, x3, x3; \ vpor x1, x0, x0; #define S7_2(x0, x1, x2, x3, x4) \ vpand x0, x2, x2; \ vpxor x4, x0, x0; \ vpxor x3, x4, x4; \ vpand x0, x3, x3; \ vpxor x1, x4, x4; \ vpxor x4, x2, x2; \ vpxor x1, x3, x3; \ vpor x0, x4, x4; \ vpxor x1, x4, x4; #define SI0_1(x0, x1, x2, x3, x4) \ vpxor x0, x1, x1; \ vpor x1, x3, tp; \ vpxor x1, x3, x4; \ vpxor RNOT, x0, x0; \ vpxor tp, x2, x2; \ vpxor x0, tp, x3; \ vpand x1, x0, x0; \ vpxor x2, x0, x0; #define SI0_2(x0, x1, x2, x3, x4) \ vpand x3, x2, x2; \ vpxor x4, x3, x3; \ vpxor x3, x2, x2; \ vpxor x3, x1, x1; \ vpand x0, x3, x3; \ vpxor x0, x1, x1; \ vpxor x2, x0, x0; \ vpxor x3, x4, x4; #define SI1_1(x0, x1, x2, x3, x4) \ vpxor x3, x1, x1; \ vpxor x2, x0, tp; \ vpxor RNOT, x2, x2; \ vpor x1, x0, x4; \ vpxor x3, x4, x4; \ vpand x1, x3, x3; \ vpxor x2, x1, x1; \ vpand x4, x2, x2; #define SI1_2(x0, x1, x2, x3, x4) \ vpxor x1, x4, x4; \ vpor x3, x1, x1; \ vpxor tp, x3, x3; \ vpxor tp, x2, x2; \ vpor x4, tp, x0; \ vpxor x4, x2, x2; \ vpxor x0, x1, x1; \ vpxor x1, x4, x4; #define SI2_1(x0, x1, x2, x3, x4) \ vpxor x1, x2, x2; \ vpxor RNOT, x3, tp; \ vpor x2, tp, tp; \ vpxor x3, x2, x2; \ vpxor x0, x3, x4; \ vpxor x1, tp, x3; \ vpor x2, x1, x1; \ vpxor x0, x2, x2; #define SI2_2(x0, x1, x2, x3, x4) \ vpxor x4, x1, x1; \ vpor x3, x4, x4; \ vpxor x3, x2, x2; \ vpxor x2, x4, x4; \ vpand x1, x2, x2; \ vpxor x3, x2, x2; \ vpxor x4, x3, x3; \ vpxor x0, x4, x4; #define SI3_1(x0, x1, x2, x3, x4) \ vpxor x1, x2, x2; \ vpand x2, x1, tp; \ vpxor x0, tp, tp; \ vpor x1, x0, x0; \ vpxor x3, x1, x4; \ vpxor x3, x0, x0; \ vpor tp, x3, x3; \ vpxor x2, tp, x1; #define SI3_2(x0, x1, x2, x3, x4) \ vpxor x3, x1, x1; \ vpxor x2, x0, x0; \ vpxor x3, x2, x2; \ vpand x1, x3, x3; \ vpxor x0, x1, x1; \ vpand x2, x0, x0; \ vpxor x3, x4, x4; \ vpxor x0, x3, x3; \ vpxor x1, x0, x0; #define SI4_1(x0, x1, x2, x3, x4) \ vpxor x3, x2, x2; \ vpand x1, x0, tp; \ vpxor x2, tp, tp; \ vpor x3, x2, x2; \ vpxor RNOT, x0, x4; \ vpxor tp, x1, x1; \ vpxor x2, tp, x0; \ vpand x4, x2, x2; #define SI4_2(x0, x1, x2, x3, x4) \ vpxor x0, x2, x2; \ vpor x4, x0, x0; \ vpxor x3, x0, x0; \ vpand x2, x3, x3; \ vpxor x3, x4, x4; \ vpxor x1, x3, x3; \ vpand x0, x1, x1; \ vpxor x1, x4, x4; \ vpxor x3, x0, x0; #define SI5_1(x0, x1, x2, x3, x4) \ vpor x2, x1, tp; \ vpxor x1, x2, x2; \ vpxor x3, tp, tp; \ vpand x1, x3, x3; \ vpxor x3, x2, x2; \ vpor x0, x3, x3; \ vpxor RNOT, x0, x0; \ vpxor x2, x3, x3; \ vpor x0, x2, x2; #define SI5_2(x0, x1, x2, x3, x4) \ vpxor tp, x1, x4; \ vpxor x4, x2, x2; \ vpand x0, x4, x4; \ vpxor tp, x0, x0; \ vpxor x3, tp, x1; \ vpand x2, x0, x0; \ vpxor x3, x2, x2; \ vpxor x2, x0, x0; \ vpxor x4, x2, x2; \ vpxor x3, x4, x4; #define SI6_1(x0, x1, x2, x3, x4) \ vpxor x2, x0, x0; \ vpand x3, x0, tp; \ vpxor x3, x2, x2; \ vpxor x2, tp, tp; \ vpxor x1, x3, x3; \ vpor x0, x2, x2; \ vpxor x3, x2, x2; \ vpand tp, x3, x3; #define SI6_2(x0, x1, x2, x3, x4) \ vpxor RNOT, tp, tp; \ vpxor x1, x3, x3; \ vpand x2, x1, x1; \ vpxor tp, x0, x4; \ vpxor x4, x3, x3; \ vpxor x2, x4, x4; \ vpxor x1, tp, x0; \ vpxor x0, x2, x2; #define SI7_1(x0, x1, x2, x3, x4) \ vpand x0, x3, tp; \ vpxor x2, x0, x0; \ vpor x3, x2, x2; \ vpxor x1, x3, x4; \ vpxor RNOT, x0, x0; \ vpor tp, x1, x1; \ vpxor x0, x4, x4; \ vpand x2, x0, x0; \ vpxor x1, x0, x0; #define SI7_2(x0, x1, x2, x3, x4) \ vpand x2, x1, x1; \ vpxor x2, tp, x3; \ vpxor x3, x4, x4; \ vpand x3, x2, x2; \ vpor x0, x3, x3; \ vpxor x4, x1, x1; \ vpxor x4, x3, x3; \ vpand x0, x4, x4; \ vpxor x2, x4, x4; #define get_key(i, j, t) \ vbroadcastss (4*(i)+(j))*4(CTX), t; #define K2(x0, x1, x2, x3, x4, i) \ get_key(i, 0, RK0); \ get_key(i, 1, RK1); \ get_key(i, 2, RK2); \ get_key(i, 3, RK3); \ vpxor RK0, x0 ## 1, x0 ## 1; \ vpxor RK1, x1 ## 1, x1 ## 1; \ vpxor RK2, x2 ## 1, x2 ## 1; \ vpxor RK3, x3 ## 1, x3 ## 1; \ vpxor RK0, x0 ## 2, x0 ## 2; \ vpxor RK1, x1 ## 2, x1 ## 2; \ vpxor RK2, x2 ## 2, x2 ## 2; \ vpxor RK3, x3 ## 2, x3 ## 2; #define LK2(x0, x1, x2, x3, x4, i) \ vpslld $13, x0 ## 1, x4 ## 1; \ vpsrld $(32 - 13), x0 ## 1, x0 ## 1; \ vpor x4 ## 1, x0 ## 1, x0 ## 1; \ vpxor x0 ## 1, x1 ## 1, x1 ## 1; \ vpslld $3, x2 ## 1, x4 ## 1; \ vpsrld $(32 - 3), x2 ## 1, x2 ## 1; \ vpor x4 ## 1, x2 ## 1, x2 ## 1; \ vpxor x2 ## 1, x1 ## 1, x1 ## 1; \ vpslld $13, x0 ## 2, x4 ## 2; \ vpsrld $(32 - 13), x0 ## 2, x0 ## 2; \ vpor x4 ## 2, x0 ## 2, x0 ## 2; \ vpxor x0 ## 2, x1 ## 2, x1 ## 2; \ vpslld $3, x2 ## 2, x4 ## 2; \ vpsrld $(32 - 3), x2 ## 2, x2 ## 2; \ vpor x4 ## 2, x2 ## 2, x2 ## 2; \ vpxor x2 ## 2, x1 ## 2, x1 ## 2; \ vpslld $1, x1 ## 1, x4 ## 1; \ vpsrld $(32 - 1), x1 ## 1, x1 ## 1; \ vpor x4 ## 1, x1 ## 1, x1 ## 1; \ vpslld $3, x0 ## 1, x4 ## 1; \ vpxor x2 ## 1, x3 ## 1, x3 ## 1; \ vpxor x4 ## 1, x3 ## 1, x3 ## 1; \ get_key(i, 1, RK1); \ vpslld $1, x1 ## 2, x4 ## 2; \ vpsrld $(32 - 1), x1 ## 2, x1 ## 2; \ vpor x4 ## 2, x1 ## 2, x1 ## 2; \ vpslld $3, x0 ## 2, x4 ## 2; \ vpxor x2 ## 2, x3 ## 2, x3 ## 2; \ vpxor x4 ## 2, x3 ## 2, x3 ## 2; \ get_key(i, 3, RK3); \ vpslld $7, x3 ## 1, x4 ## 1; \ vpsrld $(32 - 7), x3 ## 1, x3 ## 1; \ vpor x4 ## 1, x3 ## 1, x3 ## 1; \ vpslld $7, x1 ## 1, x4 ## 1; \ vpxor x1 ## 1, x0 ## 1, x0 ## 1; \ vpxor x3 ## 1, x0 ## 1, x0 ## 1; \ vpxor x3 ## 1, x2 ## 1, x2 ## 1; \ vpxor x4 ## 1, x2 ## 1, x2 ## 1; \ get_key(i, 0, RK0); \ vpslld $7, x3 ## 2, x4 ## 2; \ vpsrld $(32 - 7), x3 ## 2, x3 ## 2; \ vpor x4 ## 2, x3 ## 2, x3 ## 2; \ vpslld $7, x1 ## 2, x4 ## 2; \ vpxor x1 ## 2, x0 ## 2, x0 ## 2; \ vpxor x3 ## 2, x0 ## 2, x0 ## 2; \ vpxor x3 ## 2, x2 ## 2, x2 ## 2; \ vpxor x4 ## 2, x2 ## 2, x2 ## 2; \ get_key(i, 2, RK2); \ vpxor RK1, x1 ## 1, x1 ## 1; \ vpxor RK3, x3 ## 1, x3 ## 1; \ vpslld $5, x0 ## 1, x4 ## 1; \ vpsrld $(32 - 5), x0 ## 1, x0 ## 1; \ vpor x4 ## 1, x0 ## 1, x0 ## 1; \ vpslld $22, x2 ## 1, x4 ## 1; \ vpsrld $(32 - 22), x2 ## 1, x2 ## 1; \ vpor x4 ## 1, x2 ## 1, x2 ## 1; \ vpxor RK0, x0 ## 1, x0 ## 1; \ vpxor RK2, x2 ## 1, x2 ## 1; \ vpxor RK1, x1 ## 2, x1 ## 2; \ vpxor RK3, x3 ## 2, x3 ## 2; \ vpslld $5, x0 ## 2, x4 ## 2; \ vpsrld $(32 - 5), x0 ## 2, x0 ## 2; \ vpor x4 ## 2, x0 ## 2, x0 ## 2; \ vpslld $22, x2 ## 2, x4 ## 2; \ vpsrld $(32 - 22), x2 ## 2, x2 ## 2; \ vpor x4 ## 2, x2 ## 2, x2 ## 2; \ vpxor RK0, x0 ## 2, x0 ## 2; \ vpxor RK2, x2 ## 2, x2 ## 2; #define KL2(x0, x1, x2, x3, x4, i) \ vpxor RK0, x0 ## 1, x0 ## 1; \ vpxor RK2, x2 ## 1, x2 ## 1; \ vpsrld $5, x0 ## 1, x4 ## 1; \ vpslld $(32 - 5), x0 ## 1, x0 ## 1; \ vpor x4 ## 1, x0 ## 1, x0 ## 1; \ vpxor RK3, x3 ## 1, x3 ## 1; \ vpxor RK1, x1 ## 1, x1 ## 1; \ vpsrld $22, x2 ## 1, x4 ## 1; \ vpslld $(32 - 22), x2 ## 1, x2 ## 1; \ vpor x4 ## 1, x2 ## 1, x2 ## 1; \ vpxor x3 ## 1, x2 ## 1, x2 ## 1; \ vpxor RK0, x0 ## 2, x0 ## 2; \ vpxor RK2, x2 ## 2, x2 ## 2; \ vpsrld $5, x0 ## 2, x4 ## 2; \ vpslld $(32 - 5), x0 ## 2, x0 ## 2; \ vpor x4 ## 2, x0 ## 2, x0 ## 2; \ vpxor RK3, x3 ## 2, x3 ## 2; \ vpxor RK1, x1 ## 2, x1 ## 2; \ vpsrld $22, x2 ## 2, x4 ## 2; \ vpslld $(32 - 22), x2 ## 2, x2 ## 2; \ vpor x4 ## 2, x2 ## 2, x2 ## 2; \ vpxor x3 ## 2, x2 ## 2, x2 ## 2; \ vpxor x3 ## 1, x0 ## 1, x0 ## 1; \ vpslld $7, x1 ## 1, x4 ## 1; \ vpxor x1 ## 1, x0 ## 1, x0 ## 1; \ vpxor x4 ## 1, x2 ## 1, x2 ## 1; \ vpsrld $1, x1 ## 1, x4 ## 1; \ vpslld $(32 - 1), x1 ## 1, x1 ## 1; \ vpor x4 ## 1, x1 ## 1, x1 ## 1; \ vpxor x3 ## 2, x0 ## 2, x0 ## 2; \ vpslld $7, x1 ## 2, x4 ## 2; \ vpxor x1 ## 2, x0 ## 2, x0 ## 2; \ vpxor x4 ## 2, x2 ## 2, x2 ## 2; \ vpsrld $1, x1 ## 2, x4 ## 2; \ vpslld $(32 - 1), x1 ## 2, x1 ## 2; \ vpor x4 ## 2, x1 ## 2, x1 ## 2; \ vpsrld $7, x3 ## 1, x4 ## 1; \ vpslld $(32 - 7), x3 ## 1, x3 ## 1; \ vpor x4 ## 1, x3 ## 1, x3 ## 1; \ vpxor x0 ## 1, x1 ## 1, x1 ## 1; \ vpslld $3, x0 ## 1, x4 ## 1; \ vpxor x4 ## 1, x3 ## 1, x3 ## 1; \ vpsrld $7, x3 ## 2, x4 ## 2; \ vpslld $(32 - 7), x3 ## 2, x3 ## 2; \ vpor x4 ## 2, x3 ## 2, x3 ## 2; \ vpxor x0 ## 2, x1 ## 2, x1 ## 2; \ vpslld $3, x0 ## 2, x4 ## 2; \ vpxor x4 ## 2, x3 ## 2, x3 ## 2; \ vpsrld $13, x0 ## 1, x4 ## 1; \ vpslld $(32 - 13), x0 ## 1, x0 ## 1; \ vpor x4 ## 1, x0 ## 1, x0 ## 1; \ vpxor x2 ## 1, x1 ## 1, x1 ## 1; \ vpxor x2 ## 1, x3 ## 1, x3 ## 1; \ vpsrld $3, x2 ## 1, x4 ## 1; \ vpslld $(32 - 3), x2 ## 1, x2 ## 1; \ vpor x4 ## 1, x2 ## 1, x2 ## 1; \ vpsrld $13, x0 ## 2, x4 ## 2; \ vpslld $(32 - 13), x0 ## 2, x0 ## 2; \ vpor x4 ## 2, x0 ## 2, x0 ## 2; \ vpxor x2 ## 2, x1 ## 2, x1 ## 2; \ vpxor x2 ## 2, x3 ## 2, x3 ## 2; \ vpsrld $3, x2 ## 2, x4 ## 2; \ vpslld $(32 - 3), x2 ## 2, x2 ## 2; \ vpor x4 ## 2, x2 ## 2, x2 ## 2; #define S(SBOX, x0, x1, x2, x3, x4) \ SBOX ## _1(x0 ## 1, x1 ## 1, x2 ## 1, x3 ## 1, x4 ## 1); \ SBOX ## _2(x0 ## 1, x1 ## 1, x2 ## 1, x3 ## 1, x4 ## 1); \ SBOX ## _1(x0 ## 2, x1 ## 2, x2 ## 2, x3 ## 2, x4 ## 2); \ SBOX ## _2(x0 ## 2, x1 ## 2, x2 ## 2, x3 ## 2, x4 ## 2); #define SP(SBOX, x0, x1, x2, x3, x4, i) \ get_key(i, 0, RK0); \ SBOX ## _1(x0 ## 1, x1 ## 1, x2 ## 1, x3 ## 1, x4 ## 1); \ get_key(i, 2, RK2); \ SBOX ## _2(x0 ## 1, x1 ## 1, x2 ## 1, x3 ## 1, x4 ## 1); \ get_key(i, 3, RK3); \ SBOX ## _1(x0 ## 2, x1 ## 2, x2 ## 2, x3 ## 2, x4 ## 2); \ get_key(i, 1, RK1); \ SBOX ## _2(x0 ## 2, x1 ## 2, x2 ## 2, x3 ## 2, x4 ## 2); \ #define transpose_4x4(x0, x1, x2, x3, t0, t1, t2) \ vpunpckldq x1, x0, t0; \ vpunpckhdq x1, x0, t2; \ vpunpckldq x3, x2, t1; \ vpunpckhdq x3, x2, x3; \ \ vpunpcklqdq t1, t0, x0; \ vpunpckhqdq t1, t0, x1; \ vpunpcklqdq x3, t2, x2; \ vpunpckhqdq x3, t2, x3; #define read_blocks(x0, x1, x2, x3, t0, t1, t2) \ transpose_4x4(x0, x1, x2, x3, t0, t1, t2) #define write_blocks(x0, x1, x2, x3, t0, t1, t2) \ transpose_4x4(x0, x1, x2, x3, t0, t1, t2) .align 8 __serpent_enc_blk8_avx: /* input: * %rdi: ctx, CTX * RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2: blocks * output: * RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2: encrypted blocks */ vpcmpeqd RNOT, RNOT, RNOT; read_blocks(RA1, RB1, RC1, RD1, RK0, RK1, RK2); read_blocks(RA2, RB2, RC2, RD2, RK0, RK1, RK2); K2(RA, RB, RC, RD, RE, 0); S(S0, RA, RB, RC, RD, RE); LK2(RC, RB, RD, RA, RE, 1); S(S1, RC, RB, RD, RA, RE); LK2(RE, RD, RA, RC, RB, 2); S(S2, RE, RD, RA, RC, RB); LK2(RB, RD, RE, RC, RA, 3); S(S3, RB, RD, RE, RC, RA); LK2(RC, RA, RD, RB, RE, 4); S(S4, RC, RA, RD, RB, RE); LK2(RA, RD, RB, RE, RC, 5); S(S5, RA, RD, RB, RE, RC); LK2(RC, RA, RD, RE, RB, 6); S(S6, RC, RA, RD, RE, RB); LK2(RD, RB, RA, RE, RC, 7); S(S7, RD, RB, RA, RE, RC); LK2(RC, RA, RE, RD, RB, 8); S(S0, RC, RA, RE, RD, RB); LK2(RE, RA, RD, RC, RB, 9); S(S1, RE, RA, RD, RC, RB); LK2(RB, RD, RC, RE, RA, 10); S(S2, RB, RD, RC, RE, RA); LK2(RA, RD, RB, RE, RC, 11); S(S3, RA, RD, RB, RE, RC); LK2(RE, RC, RD, RA, RB, 12); S(S4, RE, RC, RD, RA, RB); LK2(RC, RD, RA, RB, RE, 13); S(S5, RC, RD, RA, RB, RE); LK2(RE, RC, RD, RB, RA, 14); S(S6, RE, RC, RD, RB, RA); LK2(RD, RA, RC, RB, RE, 15); S(S7, RD, RA, RC, RB, RE); LK2(RE, RC, RB, RD, RA, 16); S(S0, RE, RC, RB, RD, RA); LK2(RB, RC, RD, RE, RA, 17); S(S1, RB, RC, RD, RE, RA); LK2(RA, RD, RE, RB, RC, 18); S(S2, RA, RD, RE, RB, RC); LK2(RC, RD, RA, RB, RE, 19); S(S3, RC, RD, RA, RB, RE); LK2(RB, RE, RD, RC, RA, 20); S(S4, RB, RE, RD, RC, RA); LK2(RE, RD, RC, RA, RB, 21); S(S5, RE, RD, RC, RA, RB); LK2(RB, RE, RD, RA, RC, 22); S(S6, RB, RE, RD, RA, RC); LK2(RD, RC, RE, RA, RB, 23); S(S7, RD, RC, RE, RA, RB); LK2(RB, RE, RA, RD, RC, 24); S(S0, RB, RE, RA, RD, RC); LK2(RA, RE, RD, RB, RC, 25); S(S1, RA, RE, RD, RB, RC); LK2(RC, RD, RB, RA, RE, 26); S(S2, RC, RD, RB, RA, RE); LK2(RE, RD, RC, RA, RB, 27); S(S3, RE, RD, RC, RA, RB); LK2(RA, RB, RD, RE, RC, 28); S(S4, RA, RB, RD, RE, RC); LK2(RB, RD, RE, RC, RA, 29); S(S5, RB, RD, RE, RC, RA); LK2(RA, RB, RD, RC, RE, 30); S(S6, RA, RB, RD, RC, RE); LK2(RD, RE, RB, RC, RA, 31); S(S7, RD, RE, RB, RC, RA); K2(RA, RB, RC, RD, RE, 32); write_blocks(RA1, RB1, RC1, RD1, RK0, RK1, RK2); write_blocks(RA2, RB2, RC2, RD2, RK0, RK1, RK2); ret; ENDPROC(__serpent_enc_blk8_avx) .align 8 __serpent_dec_blk8_avx: /* input: * %rdi: ctx, CTX * RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2: encrypted blocks * output: * RC1, RD1, RB1, RE1, RC2, RD2, RB2, RE2: decrypted blocks */ vpcmpeqd RNOT, RNOT, RNOT; read_blocks(RA1, RB1, RC1, RD1, RK0, RK1, RK2); read_blocks(RA2, RB2, RC2, RD2, RK0, RK1, RK2); K2(RA, RB, RC, RD, RE, 32); SP(SI7, RA, RB, RC, RD, RE, 31); KL2(RB, RD, RA, RE, RC, 31); SP(SI6, RB, RD, RA, RE, RC, 30); KL2(RA, RC, RE, RB, RD, 30); SP(SI5, RA, RC, RE, RB, RD, 29); KL2(RC, RD, RA, RE, RB, 29); SP(SI4, RC, RD, RA, RE, RB, 28); KL2(RC, RA, RB, RE, RD, 28); SP(SI3, RC, RA, RB, RE, RD, 27); KL2(RB, RC, RD, RE, RA, 27); SP(SI2, RB, RC, RD, RE, RA, 26); KL2(RC, RA, RE, RD, RB, 26); SP(SI1, RC, RA, RE, RD, RB, 25); KL2(RB, RA, RE, RD, RC, 25); SP(SI0, RB, RA, RE, RD, RC, 24); KL2(RE, RC, RA, RB, RD, 24); SP(SI7, RE, RC, RA, RB, RD, 23); KL2(RC, RB, RE, RD, RA, 23); SP(SI6, RC, RB, RE, RD, RA, 22); KL2(RE, RA, RD, RC, RB, 22); SP(SI5, RE, RA, RD, RC, RB, 21); KL2(RA, RB, RE, RD, RC, 21); SP(SI4, RA, RB, RE, RD, RC, 20); KL2(RA, RE, RC, RD, RB, 20); SP(SI3, RA, RE, RC, RD, RB, 19); KL2(RC, RA, RB, RD, RE, 19); SP(SI2, RC, RA, RB, RD, RE, 18); KL2(RA, RE, RD, RB, RC, 18); SP(SI1, RA, RE, RD, RB, RC, 17); KL2(RC, RE, RD, RB, RA, 17); SP(SI0, RC, RE, RD, RB, RA, 16); KL2(RD, RA, RE, RC, RB, 16); SP(SI7, RD, RA, RE, RC, RB, 15); KL2(RA, RC, RD, RB, RE, 15); SP(SI6, RA, RC, RD, RB, RE, 14); KL2(RD, RE, RB, RA, RC, 14); SP(SI5, RD, RE, RB, RA, RC, 13); KL2(RE, RC, RD, RB, RA, 13); SP(SI4, RE, RC, RD, RB, RA, 12); KL2(RE, RD, RA, RB, RC, 12); SP(SI3, RE, RD, RA, RB, RC, 11); KL2(RA, RE, RC, RB, RD, 11); SP(SI2, RA, RE, RC, RB, RD, 10); KL2(RE, RD, RB, RC, RA, 10); SP(SI1, RE, RD, RB, RC, RA, 9); KL2(RA, RD, RB, RC, RE, 9); SP(SI0, RA, RD, RB, RC, RE, 8); KL2(RB, RE, RD, RA, RC, 8); SP(SI7, RB, RE, RD, RA, RC, 7); KL2(RE, RA, RB, RC, RD, 7); SP(SI6, RE, RA, RB, RC, RD, 6); KL2(RB, RD, RC, RE, RA, 6); SP(SI5, RB, RD, RC, RE, RA, 5); KL2(RD, RA, RB, RC, RE, 5); SP(SI4, RD, RA, RB, RC, RE, 4); KL2(RD, RB, RE, RC, RA, 4); SP(SI3, RD, RB, RE, RC, RA, 3); KL2(RE, RD, RA, RC, RB, 3); SP(SI2, RE, RD, RA, RC, RB, 2); KL2(RD, RB, RC, RA, RE, 2); SP(SI1, RD, RB, RC, RA, RE, 1); KL2(RE, RB, RC, RA, RD, 1); S(SI0, RE, RB, RC, RA, RD); K2(RC, RD, RB, RE, RA, 0); write_blocks(RC1, RD1, RB1, RE1, RK0, RK1, RK2); write_blocks(RC2, RD2, RB2, RE2, RK0, RK1, RK2); ret; ENDPROC(__serpent_dec_blk8_avx) ENTRY(serpent_ecb_enc_8way_avx) /* input: * %rdi: ctx, CTX * %rsi: dst * %rdx: src */ FRAME_BEGIN load_8way(%rdx, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2); call __serpent_enc_blk8_avx; store_8way(%rsi, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2); FRAME_END ret; ENDPROC(serpent_ecb_enc_8way_avx) ENTRY(serpent_ecb_dec_8way_avx) /* input: * %rdi: ctx, CTX * %rsi: dst * %rdx: src */ FRAME_BEGIN load_8way(%rdx, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2); call __serpent_dec_blk8_avx; store_8way(%rsi, RC1, RD1, RB1, RE1, RC2, RD2, RB2, RE2); FRAME_END ret; ENDPROC(serpent_ecb_dec_8way_avx) ENTRY(serpent_cbc_dec_8way_avx) /* input: * %rdi: ctx, CTX * %rsi: dst * %rdx: src */ FRAME_BEGIN load_8way(%rdx, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2); call __serpent_dec_blk8_avx; store_cbc_8way(%rdx, %rsi, RC1, RD1, RB1, RE1, RC2, RD2, RB2, RE2); FRAME_END ret; ENDPROC(serpent_cbc_dec_8way_avx) ENTRY(serpent_ctr_8way_avx) /* input: * %rdi: ctx, CTX * %rsi: dst * %rdx: src * %rcx: iv (little endian, 128bit) */ FRAME_BEGIN load_ctr_8way(%rcx, .Lbswap128_mask, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2, RK0, RK1, RK2); call __serpent_enc_blk8_avx; store_ctr_8way(%rdx, %rsi, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2); FRAME_END ret; ENDPROC(serpent_ctr_8way_avx) ENTRY(serpent_xts_enc_8way_avx) /* input: * %rdi: ctx, CTX * %rsi: dst * %rdx: src * %rcx: iv (t ⊕ αⁿ ∈ GF(2¹²⁸)) */ FRAME_BEGIN /* regs <= src, dst <= IVs, regs <= regs xor IVs */ load_xts_8way(%rcx, %rdx, %rsi, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2, RK0, RK1, RK2, .Lxts_gf128mul_and_shl1_mask); call __serpent_enc_blk8_avx; /* dst <= regs xor IVs(in dst) */ store_xts_8way(%rsi, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2); FRAME_END ret; ENDPROC(serpent_xts_enc_8way_avx) ENTRY(serpent_xts_dec_8way_avx) /* input: * %rdi: ctx, CTX * %rsi: dst * %rdx: src * %rcx: iv (t ⊕ αⁿ ∈ GF(2¹²⁸)) */ FRAME_BEGIN /* regs <= src, dst <= IVs, regs <= regs xor IVs */ load_xts_8way(%rcx, %rdx, %rsi, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2, RK0, RK1, RK2, .Lxts_gf128mul_and_shl1_mask); call __serpent_dec_blk8_avx; /* dst <= regs xor IVs(in dst) */ store_xts_8way(%rsi, RC1, RD1, RB1, RE1, RC2, RD2, RB2, RE2); FRAME_END ret; ENDPROC(serpent_xts_dec_8way_avx)