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Based on 1 normalized pattern(s): 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 extracted by the scancode license scanner the SPDX license identifier GPL-2.0-or-later has been chosen to replace the boilerplate/reference in 1334 file(s). Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Reviewed-by: Allison Randal <allison@lohutok.net> Reviewed-by: Richard Fontana <rfontana@redhat.com> Cc: linux-spdx@vger.kernel.org Link: https://lkml.kernel.org/r/20190527070033.113240726@linutronix.de Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
306 lines
6.4 KiB
ArmAsm
306 lines
6.4 KiB
ArmAsm
/* SPDX-License-Identifier: GPL-2.0-or-later */
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/*
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* Twofish Cipher 3-way parallel algorithm (x86_64)
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*
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* Copyright (C) 2011 Jussi Kivilinna <jussi.kivilinna@mbnet.fi>
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*/
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#include <linux/linkage.h>
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.file "twofish-x86_64-asm-3way.S"
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.text
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/* structure of crypto context */
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#define s0 0
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#define s1 1024
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#define s2 2048
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#define s3 3072
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#define w 4096
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#define k 4128
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/**********************************************************************
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3-way twofish
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**********************************************************************/
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#define CTX %rdi
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#define RIO %rdx
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#define RAB0 %rax
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#define RAB1 %rbx
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#define RAB2 %rcx
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#define RAB0d %eax
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#define RAB1d %ebx
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#define RAB2d %ecx
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#define RAB0bh %ah
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#define RAB1bh %bh
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#define RAB2bh %ch
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#define RAB0bl %al
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#define RAB1bl %bl
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#define RAB2bl %cl
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#define CD0 0x0(%rsp)
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#define CD1 0x8(%rsp)
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#define CD2 0x10(%rsp)
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# used only before/after all rounds
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#define RCD0 %r8
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#define RCD1 %r9
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#define RCD2 %r10
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# used only during rounds
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#define RX0 %r8
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#define RX1 %r9
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#define RX2 %r10
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#define RX0d %r8d
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#define RX1d %r9d
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#define RX2d %r10d
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#define RY0 %r11
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#define RY1 %r12
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#define RY2 %r13
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#define RY0d %r11d
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#define RY1d %r12d
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#define RY2d %r13d
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#define RT0 %rdx
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#define RT1 %rsi
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#define RT0d %edx
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#define RT1d %esi
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#define RT1bl %sil
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#define do16bit_ror(rot, op1, op2, T0, T1, tmp1, tmp2, ab, dst) \
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movzbl ab ## bl, tmp2 ## d; \
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movzbl ab ## bh, tmp1 ## d; \
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rorq $(rot), ab; \
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op1##l T0(CTX, tmp2, 4), dst ## d; \
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op2##l T1(CTX, tmp1, 4), dst ## d;
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#define swap_ab_with_cd(ab, cd, tmp) \
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movq cd, tmp; \
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movq ab, cd; \
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movq tmp, ab;
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/*
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* Combined G1 & G2 function. Reordered with help of rotates to have moves
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* at begining.
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*/
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#define g1g2_3(ab, cd, Tx0, Tx1, Tx2, Tx3, Ty0, Ty1, Ty2, Ty3, x, y) \
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/* G1,1 && G2,1 */ \
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do16bit_ror(32, mov, xor, Tx0, Tx1, RT0, x ## 0, ab ## 0, x ## 0); \
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do16bit_ror(48, mov, xor, Ty1, Ty2, RT0, y ## 0, ab ## 0, y ## 0); \
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\
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do16bit_ror(32, mov, xor, Tx0, Tx1, RT0, x ## 1, ab ## 1, x ## 1); \
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do16bit_ror(48, mov, xor, Ty1, Ty2, RT0, y ## 1, ab ## 1, y ## 1); \
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\
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do16bit_ror(32, mov, xor, Tx0, Tx1, RT0, x ## 2, ab ## 2, x ## 2); \
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do16bit_ror(48, mov, xor, Ty1, Ty2, RT0, y ## 2, ab ## 2, y ## 2); \
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\
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/* G1,2 && G2,2 */ \
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do16bit_ror(32, xor, xor, Tx2, Tx3, RT0, RT1, ab ## 0, x ## 0); \
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do16bit_ror(16, xor, xor, Ty3, Ty0, RT0, RT1, ab ## 0, y ## 0); \
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swap_ab_with_cd(ab ## 0, cd ## 0, RT0); \
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\
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do16bit_ror(32, xor, xor, Tx2, Tx3, RT0, RT1, ab ## 1, x ## 1); \
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do16bit_ror(16, xor, xor, Ty3, Ty0, RT0, RT1, ab ## 1, y ## 1); \
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swap_ab_with_cd(ab ## 1, cd ## 1, RT0); \
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\
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do16bit_ror(32, xor, xor, Tx2, Tx3, RT0, RT1, ab ## 2, x ## 2); \
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do16bit_ror(16, xor, xor, Ty3, Ty0, RT0, RT1, ab ## 2, y ## 2); \
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swap_ab_with_cd(ab ## 2, cd ## 2, RT0);
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#define enc_round_end(ab, x, y, n) \
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addl y ## d, x ## d; \
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addl x ## d, y ## d; \
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addl k+4*(2*(n))(CTX), x ## d; \
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xorl ab ## d, x ## d; \
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addl k+4*(2*(n)+1)(CTX), y ## d; \
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shrq $32, ab; \
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roll $1, ab ## d; \
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xorl y ## d, ab ## d; \
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shlq $32, ab; \
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rorl $1, x ## d; \
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orq x, ab;
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#define dec_round_end(ba, x, y, n) \
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addl y ## d, x ## d; \
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addl x ## d, y ## d; \
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addl k+4*(2*(n))(CTX), x ## d; \
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addl k+4*(2*(n)+1)(CTX), y ## d; \
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xorl ba ## d, y ## d; \
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shrq $32, ba; \
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roll $1, ba ## d; \
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xorl x ## d, ba ## d; \
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shlq $32, ba; \
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rorl $1, y ## d; \
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orq y, ba;
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#define encrypt_round3(ab, cd, n) \
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g1g2_3(ab, cd, s0, s1, s2, s3, s0, s1, s2, s3, RX, RY); \
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\
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enc_round_end(ab ## 0, RX0, RY0, n); \
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enc_round_end(ab ## 1, RX1, RY1, n); \
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enc_round_end(ab ## 2, RX2, RY2, n);
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#define decrypt_round3(ba, dc, n) \
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g1g2_3(ba, dc, s1, s2, s3, s0, s3, s0, s1, s2, RY, RX); \
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\
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dec_round_end(ba ## 0, RX0, RY0, n); \
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dec_round_end(ba ## 1, RX1, RY1, n); \
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dec_round_end(ba ## 2, RX2, RY2, n);
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#define encrypt_cycle3(ab, cd, n) \
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encrypt_round3(ab, cd, n*2); \
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encrypt_round3(ab, cd, (n*2)+1);
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#define decrypt_cycle3(ba, dc, n) \
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decrypt_round3(ba, dc, (n*2)+1); \
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decrypt_round3(ba, dc, (n*2));
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#define push_cd() \
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pushq RCD2; \
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pushq RCD1; \
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pushq RCD0;
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#define pop_cd() \
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popq RCD0; \
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popq RCD1; \
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popq RCD2;
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#define inpack3(in, n, xy, m) \
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movq 4*(n)(in), xy ## 0; \
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xorq w+4*m(CTX), xy ## 0; \
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\
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movq 4*(4+(n))(in), xy ## 1; \
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xorq w+4*m(CTX), xy ## 1; \
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\
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movq 4*(8+(n))(in), xy ## 2; \
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xorq w+4*m(CTX), xy ## 2;
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#define outunpack3(op, out, n, xy, m) \
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xorq w+4*m(CTX), xy ## 0; \
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op ## q xy ## 0, 4*(n)(out); \
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\
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xorq w+4*m(CTX), xy ## 1; \
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op ## q xy ## 1, 4*(4+(n))(out); \
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\
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xorq w+4*m(CTX), xy ## 2; \
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op ## q xy ## 2, 4*(8+(n))(out);
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#define inpack_enc3() \
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inpack3(RIO, 0, RAB, 0); \
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inpack3(RIO, 2, RCD, 2);
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#define outunpack_enc3(op) \
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outunpack3(op, RIO, 2, RAB, 6); \
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outunpack3(op, RIO, 0, RCD, 4);
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#define inpack_dec3() \
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inpack3(RIO, 0, RAB, 4); \
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rorq $32, RAB0; \
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rorq $32, RAB1; \
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rorq $32, RAB2; \
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inpack3(RIO, 2, RCD, 6); \
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rorq $32, RCD0; \
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rorq $32, RCD1; \
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rorq $32, RCD2;
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#define outunpack_dec3() \
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rorq $32, RCD0; \
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rorq $32, RCD1; \
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rorq $32, RCD2; \
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outunpack3(mov, RIO, 0, RCD, 0); \
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rorq $32, RAB0; \
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rorq $32, RAB1; \
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rorq $32, RAB2; \
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outunpack3(mov, RIO, 2, RAB, 2);
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ENTRY(__twofish_enc_blk_3way)
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src, RIO
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* %rcx: bool, if true: xor output
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*/
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pushq %r13;
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pushq %r12;
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pushq %rbx;
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pushq %rcx; /* bool xor */
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pushq %rsi; /* dst */
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inpack_enc3();
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push_cd();
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encrypt_cycle3(RAB, CD, 0);
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encrypt_cycle3(RAB, CD, 1);
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encrypt_cycle3(RAB, CD, 2);
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encrypt_cycle3(RAB, CD, 3);
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encrypt_cycle3(RAB, CD, 4);
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encrypt_cycle3(RAB, CD, 5);
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encrypt_cycle3(RAB, CD, 6);
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encrypt_cycle3(RAB, CD, 7);
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pop_cd();
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popq RIO; /* dst */
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popq RT1; /* bool xor */
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testb RT1bl, RT1bl;
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jnz .L__enc_xor3;
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outunpack_enc3(mov);
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popq %rbx;
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popq %r12;
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popq %r13;
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ret;
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.L__enc_xor3:
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outunpack_enc3(xor);
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popq %rbx;
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popq %r12;
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popq %r13;
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ret;
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ENDPROC(__twofish_enc_blk_3way)
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ENTRY(twofish_dec_blk_3way)
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src, RIO
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*/
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pushq %r13;
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pushq %r12;
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pushq %rbx;
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pushq %rsi; /* dst */
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inpack_dec3();
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push_cd();
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decrypt_cycle3(RAB, CD, 7);
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decrypt_cycle3(RAB, CD, 6);
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decrypt_cycle3(RAB, CD, 5);
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decrypt_cycle3(RAB, CD, 4);
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decrypt_cycle3(RAB, CD, 3);
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decrypt_cycle3(RAB, CD, 2);
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decrypt_cycle3(RAB, CD, 1);
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decrypt_cycle3(RAB, CD, 0);
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pop_cd();
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popq RIO; /* dst */
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outunpack_dec3();
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popq %rbx;
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popq %r12;
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popq %r13;
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ret;
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ENDPROC(twofish_dec_blk_3way)
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