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|
/* serpent-armv7-neon.S - ARM/NEON assembly implementation of Serpent cipher
*
* Copyright (C) 2013 Jussi Kivilinna <jussi.kivilinna@iki.fi>
*
* This file is part of Libgcrypt.
*
* Libgcrypt is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* Libgcrypt 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this program; if not, see <http://www.gnu.org/licenses/>.
*/
#include <config.h>
#if defined(HAVE_ARM_ARCH_V6) && defined(__ARMEL__) && \
defined(HAVE_COMPATIBLE_GCC_ARM_PLATFORM_AS) && \
defined(HAVE_GCC_INLINE_ASM_NEON)
.text
.syntax unified
.fpu neon
.arm
/* ARM registers */
#define RROUND r0
/* NEON vector registers */
#define RA0 q0
#define RA1 q1
#define RA2 q2
#define RA3 q3
#define RA4 q4
#define RB0 q5
#define RB1 q6
#define RB2 q7
#define RB3 q8
#define RB4 q9
#define RT0 q10
#define RT1 q11
#define RT2 q12
#define RT3 q13
#define RA0d0 d0
#define RA0d1 d1
#define RA1d0 d2
#define RA1d1 d3
#define RA2d0 d4
#define RA2d1 d5
#define RA3d0 d6
#define RA3d1 d7
#define RA4d0 d8
#define RA4d1 d9
#define RB0d0 d10
#define RB0d1 d11
#define RB1d0 d12
#define RB1d1 d13
#define RB2d0 d14
#define RB2d1 d15
#define RB3d0 d16
#define RB3d1 d17
#define RB4d0 d18
#define RB4d1 d19
#define RT0d0 d20
#define RT0d1 d21
#define RT1d0 d22
#define RT1d1 d23
#define RT2d0 d24
#define RT2d1 d25
/**********************************************************************
helper macros
**********************************************************************/
#define transpose_4x4(_q0, _q1, _q2, _q3) \
vtrn.32 _q0, _q1; \
vtrn.32 _q2, _q3; \
vswp _q0##d1, _q2##d0; \
vswp _q1##d1, _q3##d0;
/**********************************************************************
8-way serpent
**********************************************************************/
/*
* These are the S-Boxes of Serpent from following research paper.
*
* D. A. Osvik, “Speeding up Serpent,” in Third AES Candidate Conference,
* (New York, New York, USA), p. 317–329, National Institute of Standards and
* Technology, 2000.
*
* Paper is also available at: http://www.ii.uib.no/~osvik/pub/aes3.pdf
*
*/
#define SBOX0(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
veor a3, a3, a0; veor b3, b3, b0; vmov a4, a1; vmov b4, b1; \
vand a1, a1, a3; vand b1, b1, b3; veor a4, a4, a2; veor b4, b4, b2; \
veor a1, a1, a0; veor b1, b1, b0; vorr a0, a0, a3; vorr b0, b0, b3; \
veor a0, a0, a4; veor b0, b0, b4; veor a4, a4, a3; veor b4, b4, b3; \
veor a3, a3, a2; veor b3, b3, b2; vorr a2, a2, a1; vorr b2, b2, b1; \
veor a2, a2, a4; veor b2, b2, b4; vmvn a4, a4; vmvn b4, b4; \
vorr a4, a4, a1; vorr b4, b4, b1; veor a1, a1, a3; veor b1, b1, b3; \
veor a1, a1, a4; veor b1, b1, b4; vorr a3, a3, a0; vorr b3, b3, b0; \
veor a1, a1, a3; veor b1, b1, b3; veor a4, a3; veor b4, b3;
#define SBOX0_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmvn a2, a2; vmvn b2, b2; vmov a4, a1; vmov b4, b1; \
vorr a1, a1, a0; vorr b1, b1, b0; vmvn a4, a4; vmvn b4, b4; \
veor a1, a1, a2; veor b1, b1, b2; vorr a2, a2, a4; vorr b2, b2, b4; \
veor a1, a1, a3; veor b1, b1, b3; veor a0, a0, a4; veor b0, b0, b4; \
veor a2, a2, a0; veor b2, b2, b0; vand a0, a0, a3; vand b0, b0, b3; \
veor a4, a4, a0; veor b4, b4, b0; vorr a0, a0, a1; vorr b0, b0, b1; \
veor a0, a0, a2; veor b0, b0, b2; veor a3, a3, a4; veor b3, b3, b4; \
veor a2, a2, a1; veor b2, b2, b1; veor a3, a3, a0; veor b3, b3, b0; \
veor a3, a3, a1; veor b3, b3, b1;\
vand a2, a2, a3; vand b2, b2, b3;\
veor a4, a2; veor b4, b2;
#define SBOX1(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmvn a0, a0; vmvn b0, b0; vmvn a2, a2; vmvn b2, b2; \
vmov a4, a0; vmov b4, b0; vand a0, a0, a1; vand b0, b0, b1; \
veor a2, a2, a0; veor b2, b2, b0; vorr a0, a0, a3; vorr b0, b0, b3; \
veor a3, a3, a2; veor b3, b3, b2; veor a1, a1, a0; veor b1, b1, b0; \
veor a0, a0, a4; veor b0, b0, b4; vorr a4, a4, a1; vorr b4, b4, b1; \
veor a1, a1, a3; veor b1, b1, b3; vorr a2, a2, a0; vorr b2, b2, b0; \
vand a2, a2, a4; vand b2, b2, b4; veor a0, a0, a1; veor b0, b0, b1; \
vand a1, a1, a2; vand b1, b1, b2;\
veor a1, a1, a0; veor b1, b1, b0; vand a0, a0, a2; vand b0, b0, b2; \
veor a0, a4; veor b0, b4;
#define SBOX1_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a1; vmov b4, b1; veor a1, a1, a3; veor b1, b1, b3; \
vand a3, a3, a1; vand b3, b3, b1; veor a4, a4, a2; veor b4, b4, b2; \
veor a3, a3, a0; veor b3, b3, b0; vorr a0, a0, a1; vorr b0, b0, b1; \
veor a2, a2, a3; veor b2, b2, b3; veor a0, a0, a4; veor b0, b0, b4; \
vorr a0, a0, a2; vorr b0, b0, b2; veor a1, a1, a3; veor b1, b1, b3; \
veor a0, a0, a1; veor b0, b0, b1; vorr a1, a1, a3; vorr b1, b1, b3; \
veor a1, a1, a0; veor b1, b1, b0; vmvn a4, a4; vmvn b4, b4; \
veor a4, a4, a1; veor b4, b4, b1; vorr a1, a1, a0; vorr b1, b1, b0; \
veor a1, a1, a0; veor b1, b1, b0;\
vorr a1, a1, a4; vorr b1, b1, b4;\
veor a3, a1; veor b3, b1;
#define SBOX2(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a0; vmov b4, b0; vand a0, a0, a2; vand b0, b0, b2; \
veor a0, a0, a3; veor b0, b0, b3; veor a2, a2, a1; veor b2, b2, b1; \
veor a2, a2, a0; veor b2, b2, b0; vorr a3, a3, a4; vorr b3, b3, b4; \
veor a3, a3, a1; veor b3, b3, b1; veor a4, a4, a2; veor b4, b4, b2; \
vmov a1, a3; vmov b1, b3; vorr a3, a3, a4; vorr b3, b3, b4; \
veor a3, a3, a0; veor b3, b3, b0; vand a0, a0, a1; vand b0, b0, b1; \
veor a4, a4, a0; veor b4, b4, b0; veor a1, a1, a3; veor b1, b1, b3; \
veor a1, a1, a4; veor b1, b1, b4; vmvn a4, a4; vmvn b4, b4;
#define SBOX2_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
veor a2, a2, a3; veor b2, b2, b3; veor a3, a3, a0; veor b3, b3, b0; \
vmov a4, a3; vmov b4, b3; vand a3, a3, a2; vand b3, b3, b2; \
veor a3, a3, a1; veor b3, b3, b1; vorr a1, a1, a2; vorr b1, b1, b2; \
veor a1, a1, a4; veor b1, b1, b4; vand a4, a4, a3; vand b4, b4, b3; \
veor a2, a2, a3; veor b2, b2, b3; vand a4, a4, a0; vand b4, b4, b0; \
veor a4, a4, a2; veor b4, b4, b2; vand a2, a2, a1; vand b2, b2, b1; \
vorr a2, a2, a0; vorr b2, b2, b0; vmvn a3, a3; vmvn b3, b3; \
veor a2, a2, a3; veor b2, b2, b3; veor a0, a0, a3; veor b0, b0, b3; \
vand a0, a0, a1; vand b0, b0, b1; veor a3, a3, a4; veor b3, b3, b4; \
veor a3, a0; veor b3, b0;
#define SBOX3(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a0; vmov b4, b0; vorr a0, a0, a3; vorr b0, b0, b3; \
veor a3, a3, a1; veor b3, b3, b1; vand a1, a1, a4; vand b1, b1, b4; \
veor a4, a4, a2; veor b4, b4, b2; veor a2, a2, a3; veor b2, b2, b3; \
vand a3, a3, a0; vand b3, b3, b0; vorr a4, a4, a1; vorr b4, b4, b1; \
veor a3, a3, a4; veor b3, b3, b4; veor a0, a0, a1; veor b0, b0, b1; \
vand a4, a4, a0; vand b4, b4, b0; veor a1, a1, a3; veor b1, b1, b3; \
veor a4, a4, a2; veor b4, b4, b2; vorr a1, a1, a0; vorr b1, b1, b0; \
veor a1, a1, a2; veor b1, b1, b2; veor a0, a0, a3; veor b0, b0, b3; \
vmov a2, a1; vmov b2, b1; vorr a1, a1, a3; vorr b1, b1, b3; \
veor a1, a0; veor b1, b0;
#define SBOX3_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a2; vmov b4, b2; veor a2, a2, a1; veor b2, b2, b1; \
veor a0, a0, a2; veor b0, b0, b2; vand a4, a4, a2; vand b4, b4, b2; \
veor a4, a4, a0; veor b4, b4, b0; vand a0, a0, a1; vand b0, b0, b1; \
veor a1, a1, a3; veor b1, b1, b3; vorr a3, a3, a4; vorr b3, b3, b4; \
veor a2, a2, a3; veor b2, b2, b3; veor a0, a0, a3; veor b0, b0, b3; \
veor a1, a1, a4; veor b1, b1, b4; vand a3, a3, a2; vand b3, b3, b2; \
veor a3, a3, a1; veor b3, b3, b1; veor a1, a1, a0; veor b1, b1, b0; \
vorr a1, a1, a2; vorr b1, b1, b2; veor a0, a0, a3; veor b0, b0, b3; \
veor a1, a1, a4; veor b1, b1, b4;\
veor a0, a1; veor b0, b1;
#define SBOX4(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
veor a1, a1, a3; veor b1, b1, b3; vmvn a3, a3; vmvn b3, b3; \
veor a2, a2, a3; veor b2, b2, b3; veor a3, a3, a0; veor b3, b3, b0; \
vmov a4, a1; vmov b4, b1; vand a1, a1, a3; vand b1, b1, b3; \
veor a1, a1, a2; veor b1, b1, b2; veor a4, a4, a3; veor b4, b4, b3; \
veor a0, a0, a4; veor b0, b0, b4; vand a2, a2, a4; vand b2, b2, b4; \
veor a2, a2, a0; veor b2, b2, b0; vand a0, a0, a1; vand b0, b0, b1; \
veor a3, a3, a0; veor b3, b3, b0; vorr a4, a4, a1; vorr b4, b4, b1; \
veor a4, a4, a0; veor b4, b4, b0; vorr a0, a0, a3; vorr b0, b0, b3; \
veor a0, a0, a2; veor b0, b0, b2; vand a2, a2, a3; vand b2, b2, b3; \
vmvn a0, a0; vmvn b0, b0; veor a4, a2; veor b4, b2;
#define SBOX4_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a2; vmov b4, b2; vand a2, a2, a3; vand b2, b2, b3; \
veor a2, a2, a1; veor b2, b2, b1; vorr a1, a1, a3; vorr b1, b1, b3; \
vand a1, a1, a0; vand b1, b1, b0; veor a4, a4, a2; veor b4, b4, b2; \
veor a4, a4, a1; veor b4, b4, b1; vand a1, a1, a2; vand b1, b1, b2; \
vmvn a0, a0; vmvn b0, b0; veor a3, a3, a4; veor b3, b3, b4; \
veor a1, a1, a3; veor b1, b1, b3; vand a3, a3, a0; vand b3, b3, b0; \
veor a3, a3, a2; veor b3, b3, b2; veor a0, a0, a1; veor b0, b0, b1; \
vand a2, a2, a0; vand b2, b2, b0; veor a3, a3, a0; veor b3, b3, b0; \
veor a2, a2, a4; veor b2, b2, b4;\
vorr a2, a2, a3; vorr b2, b2, b3; veor a3, a3, a0; veor b3, b3, b0; \
veor a2, a1; veor b2, b1;
#define SBOX5(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
veor a0, a0, a1; veor b0, b0, b1; veor a1, a1, a3; veor b1, b1, b3; \
vmvn a3, a3; vmvn b3, b3; vmov a4, a1; vmov b4, b1; \
vand a1, a1, a0; vand b1, b1, b0; veor a2, a2, a3; veor b2, b2, b3; \
veor a1, a1, a2; veor b1, b1, b2; vorr a2, a2, a4; vorr b2, b2, b4; \
veor a4, a4, a3; veor b4, b4, b3; vand a3, a3, a1; vand b3, b3, b1; \
veor a3, a3, a0; veor b3, b3, b0; veor a4, a4, a1; veor b4, b4, b1; \
veor a4, a4, a2; veor b4, b4, b2; veor a2, a2, a0; veor b2, b2, b0; \
vand a0, a0, a3; vand b0, b0, b3; vmvn a2, a2; vmvn b2, b2; \
veor a0, a0, a4; veor b0, b0, b4; vorr a4, a4, a3; vorr b4, b4, b3; \
veor a2, a4; veor b2, b4;
#define SBOX5_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmvn a1, a1; vmvn b1, b1; vmov a4, a3; vmov b4, b3; \
veor a2, a2, a1; veor b2, b2, b1; vorr a3, a3, a0; vorr b3, b3, b0; \
veor a3, a3, a2; veor b3, b3, b2; vorr a2, a2, a1; vorr b2, b2, b1; \
vand a2, a2, a0; vand b2, b2, b0; veor a4, a4, a3; veor b4, b4, b3; \
veor a2, a2, a4; veor b2, b2, b4; vorr a4, a4, a0; vorr b4, b4, b0; \
veor a4, a4, a1; veor b4, b4, b1; vand a1, a1, a2; vand b1, b1, b2; \
veor a1, a1, a3; veor b1, b1, b3; veor a4, a4, a2; veor b4, b4, b2; \
vand a3, a3, a4; vand b3, b3, b4; veor a4, a4, a1; veor b4, b4, b1; \
veor a3, a3, a4; veor b3, b3, b4; vmvn a4, a4; vmvn b4, b4; \
veor a3, a0; veor b3, b0;
#define SBOX6(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmvn a2, a2; vmvn b2, b2; vmov a4, a3; vmov b4, b3; \
vand a3, a3, a0; vand b3, b3, b0; veor a0, a0, a4; veor b0, b0, b4; \
veor a3, a3, a2; veor b3, b3, b2; vorr a2, a2, a4; vorr b2, b2, b4; \
veor a1, a1, a3; veor b1, b1, b3; veor a2, a2, a0; veor b2, b2, b0; \
vorr a0, a0, a1; vorr b0, b0, b1; veor a2, a2, a1; veor b2, b2, b1; \
veor a4, a4, a0; veor b4, b4, b0; vorr a0, a0, a3; vorr b0, b0, b3; \
veor a0, a0, a2; veor b0, b0, b2; veor a4, a4, a3; veor b4, b4, b3; \
veor a4, a4, a0; veor b4, b4, b0; vmvn a3, a3; vmvn b3, b3; \
vand a2, a2, a4; vand b2, b2, b4;\
veor a2, a3; veor b2, b3;
#define SBOX6_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
veor a0, a0, a2; veor b0, b0, b2; vmov a4, a2; vmov b4, b2; \
vand a2, a2, a0; vand b2, b2, b0; veor a4, a4, a3; veor b4, b4, b3; \
vmvn a2, a2; vmvn b2, b2; veor a3, a3, a1; veor b3, b3, b1; \
veor a2, a2, a3; veor b2, b2, b3; vorr a4, a4, a0; vorr b4, b4, b0; \
veor a0, a0, a2; veor b0, b0, b2; veor a3, a3, a4; veor b3, b3, b4; \
veor a4, a4, a1; veor b4, b4, b1; vand a1, a1, a3; vand b1, b1, b3; \
veor a1, a1, a0; veor b1, b1, b0; veor a0, a0, a3; veor b0, b0, b3; \
vorr a0, a0, a2; vorr b0, b0, b2; veor a3, a3, a1; veor b3, b3, b1; \
veor a4, a0; veor b4, b0;
#define SBOX7(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a1; vmov b4, b1; vorr a1, a1, a2; vorr b1, b1, b2; \
veor a1, a1, a3; veor b1, b1, b3; veor a4, a4, a2; veor b4, b4, b2; \
veor a2, a2, a1; veor b2, b2, b1; vorr a3, a3, a4; vorr b3, b3, b4; \
vand a3, a3, a0; vand b3, b3, b0; veor a4, a4, a2; veor b4, b4, b2; \
veor a3, a3, a1; veor b3, b3, b1; vorr a1, a1, a4; vorr b1, b1, b4; \
veor a1, a1, a0; veor b1, b1, b0; vorr a0, a0, a4; vorr b0, b0, b4; \
veor a0, a0, a2; veor b0, b0, b2; veor a1, a1, a4; veor b1, b1, b4; \
veor a2, a2, a1; veor b2, b2, b1; vand a1, a1, a0; vand b1, b1, b0; \
veor a1, a1, a4; veor b1, b1, b4; vmvn a2, a2; vmvn b2, b2; \
vorr a2, a2, a0; vorr b2, b2, b0;\
veor a4, a2; veor b4, b2;
#define SBOX7_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vmov a4, a2; vmov b4, b2; veor a2, a2, a0; veor b2, b2, b0; \
vand a0, a0, a3; vand b0, b0, b3; vorr a4, a4, a3; vorr b4, b4, b3; \
vmvn a2, a2; vmvn b2, b2; veor a3, a3, a1; veor b3, b3, b1; \
vorr a1, a1, a0; vorr b1, b1, b0; veor a0, a0, a2; veor b0, b0, b2; \
vand a2, a2, a4; vand b2, b2, b4; vand a3, a3, a4; vand b3, b3, b4; \
veor a1, a1, a2; veor b1, b1, b2; veor a2, a2, a0; veor b2, b2, b0; \
vorr a0, a0, a2; vorr b0, b0, b2; veor a4, a4, a1; veor b4, b4, b1; \
veor a0, a0, a3; veor b0, b0, b3; veor a3, a3, a4; veor b3, b3, b4; \
vorr a4, a4, a0; vorr b4, b4, b0; veor a3, a3, a2; veor b3, b3, b2; \
veor a4, a2; veor b4, b2;
/* Apply SBOX number WHICH to to the block. */
#define SBOX(which, a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
SBOX##which (a0, a1, a2, a3, a4, b0, b1, b2, b3, b4)
/* Apply inverse SBOX number WHICH to to the block. */
#define SBOX_INVERSE(which, a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
SBOX##which##_INVERSE (a0, a1, a2, a3, a4, b0, b1, b2, b3, b4)
/* XOR round key into block state in a0,a1,a2,a3. a4 used as temporary. */
#define BLOCK_XOR_KEY(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vdup.32 RT3, RT0d0[0]; \
vdup.32 RT1, RT0d0[1]; \
vdup.32 RT2, RT0d1[0]; \
vdup.32 RT0, RT0d1[1]; \
veor a0, a0, RT3; veor b0, b0, RT3; \
veor a1, a1, RT1; veor b1, b1, RT1; \
veor a2, a2, RT2; veor b2, b2, RT2; \
veor a3, a3, RT0; veor b3, b3, RT0;
#define BLOCK_LOAD_KEY_ENC() \
vld1.8 {RT0d0, RT0d1}, [RROUND]!;
#define BLOCK_LOAD_KEY_DEC() \
vld1.8 {RT0d0, RT0d1}, [RROUND]; \
sub RROUND, RROUND, #16
/* Apply the linear transformation to BLOCK. */
#define LINEAR_TRANSFORMATION(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vshl.u32 a4, a0, #13; vshl.u32 b4, b0, #13; \
vshr.u32 a0, a0, #(32-13); vshr.u32 b0, b0, #(32-13); \
veor a0, a0, a4; veor b0, b0, b4; \
vshl.u32 a4, a2, #3; vshl.u32 b4, b2, #3; \
vshr.u32 a2, a2, #(32-3); vshr.u32 b2, b2, #(32-3); \
veor a2, a2, a4; veor b2, b2, b4; \
veor a1, a0, a1; veor b1, b0, b1; \
veor a1, a2, a1; veor b1, b2, b1; \
vshl.u32 a4, a0, #3; vshl.u32 b4, b0, #3; \
veor a3, a2, a3; veor b3, b2, b3; \
veor a3, a4, a3; veor b3, b4, b3; \
vshl.u32 a4, a1, #1; vshl.u32 b4, b1, #1; \
vshr.u32 a1, a1, #(32-1); vshr.u32 b1, b1, #(32-1); \
veor a1, a1, a4; veor b1, b1, b4; \
vshl.u32 a4, a3, #7; vshl.u32 b4, b3, #7; \
vshr.u32 a3, a3, #(32-7); vshr.u32 b3, b3, #(32-7); \
veor a3, a3, a4; veor b3, b3, b4; \
veor a0, a1, a0; veor b0, b1, b0; \
veor a0, a3, a0; veor b0, b3, b0; \
vshl.u32 a4, a1, #7; vshl.u32 b4, b1, #7; \
veor a2, a3, a2; veor b2, b3, b2; \
veor a2, a4, a2; veor b2, b4, b2; \
vshl.u32 a4, a0, #5; vshl.u32 b4, b0, #5; \
vshr.u32 a0, a0, #(32-5); vshr.u32 b0, b0, #(32-5); \
veor a0, a0, a4; veor b0, b0, b4; \
vshl.u32 a4, a2, #22; vshl.u32 b4, b2, #22; \
vshr.u32 a2, a2, #(32-22); vshr.u32 b2, b2, #(32-22); \
veor a2, a2, a4; veor b2, b2, b4;
/* Apply the inverse linear transformation to BLOCK. */
#define LINEAR_TRANSFORMATION_INVERSE(a0, a1, a2, a3, a4, b0, b1, b2, b3, b4) \
vshr.u32 a4, a2, #22; vshr.u32 b4, b2, #22; \
vshl.u32 a2, a2, #(32-22); vshl.u32 b2, b2, #(32-22); \
veor a2, a2, a4; veor b2, b2, b4; \
vshr.u32 a4, a0, #5; vshr.u32 b4, b0, #5; \
vshl.u32 a0, a0, #(32-5); vshl.u32 b0, b0, #(32-5); \
veor a0, a0, a4; veor b0, b0, b4; \
vshl.u32 a4, a1, #7; vshl.u32 b4, b1, #7; \
veor a2, a3, a2; veor b2, b3, b2; \
veor a2, a4, a2; veor b2, b4, b2; \
veor a0, a1, a0; veor b0, b1, b0; \
veor a0, a3, a0; veor b0, b3, b0; \
vshr.u32 a4, a3, #7; vshr.u32 b4, b3, #7; \
vshl.u32 a3, a3, #(32-7); vshl.u32 b3, b3, #(32-7); \
veor a3, a3, a4; veor b3, b3, b4; \
vshr.u32 a4, a1, #1; vshr.u32 b4, b1, #1; \
vshl.u32 a1, a1, #(32-1); vshl.u32 b1, b1, #(32-1); \
veor a1, a1, a4; veor b1, b1, b4; \
vshl.u32 a4, a0, #3; vshl.u32 b4, b0, #3; \
veor a3, a2, a3; veor b3, b2, b3; \
veor a3, a4, a3; veor b3, b4, b3; \
veor a1, a0, a1; veor b1, b0, b1; \
veor a1, a2, a1; veor b1, b2, b1; \
vshr.u32 a4, a2, #3; vshr.u32 b4, b2, #3; \
vshl.u32 a2, a2, #(32-3); vshl.u32 b2, b2, #(32-3); \
veor a2, a2, a4; veor b2, b2, b4; \
vshr.u32 a4, a0, #13; vshr.u32 b4, b0, #13; \
vshl.u32 a0, a0, #(32-13); vshl.u32 b0, b0, #(32-13); \
veor a0, a0, a4; veor b0, b0, b4;
/* Apply a Serpent round to eight parallel blocks. This macro increments
`round'. */
#define ROUND(round, which, a0, a1, a2, a3, a4, na0, na1, na2, na3, na4, \
b0, b1, b2, b3, b4, nb0, nb1, nb2, nb3, nb4) \
BLOCK_XOR_KEY (a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
BLOCK_LOAD_KEY_ENC (); \
SBOX (which, a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
LINEAR_TRANSFORMATION (na0, na1, na2, na3, na4, nb0, nb1, nb2, nb3, nb4);
/* Apply the last Serpent round to eight parallel blocks. This macro increments
`round'. */
#define ROUND_LAST(round, which, a0, a1, a2, a3, a4, na0, na1, na2, na3, na4, \
b0, b1, b2, b3, b4, nb0, nb1, nb2, nb3, nb4) \
BLOCK_XOR_KEY (a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
BLOCK_LOAD_KEY_ENC (); \
SBOX (which, a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
BLOCK_XOR_KEY (na0, na1, na2, na3, na4, nb0, nb1, nb2, nb3, nb4);
/* Apply an inverse Serpent round to eight parallel blocks. This macro
increments `round'. */
#define ROUND_INVERSE(round, which, a0, a1, a2, a3, a4, \
na0, na1, na2, na3, na4, \
b0, b1, b2, b3, b4, \
nb0, nb1, nb2, nb3, nb4) \
LINEAR_TRANSFORMATION_INVERSE (a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
SBOX_INVERSE (which, a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
BLOCK_XOR_KEY (na0, na1, na2, na3, na4, nb0, nb1, nb2, nb3, nb4); \
BLOCK_LOAD_KEY_DEC ();
/* Apply the first inverse Serpent round to eight parallel blocks. This macro
increments `round'. */
#define ROUND_FIRST_INVERSE(round, which, a0, a1, a2, a3, a4, \
na0, na1, na2, na3, na4, \
b0, b1, b2, b3, b4, \
nb0, nb1, nb2, nb3, nb4) \
BLOCK_XOR_KEY (a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
BLOCK_LOAD_KEY_DEC (); \
SBOX_INVERSE (which, a0, a1, a2, a3, a4, b0, b1, b2, b3, b4); \
BLOCK_XOR_KEY (na0, na1, na2, na3, na4, nb0, nb1, nb2, nb3, nb4); \
BLOCK_LOAD_KEY_DEC ();
.align 3
.type __serpent_enc_blk8,%function;
__serpent_enc_blk8:
/* input:
* r0: round key pointer
* RA0, RA1, RA2, RA3, RB0, RB1, RB2, RB3: eight parallel plaintext
* blocks
* output:
* RA4, RA1, RA2, RA0, RB4, RB1, RB2, RB0: eight parallel
* ciphertext blocks
*/
transpose_4x4(RA0, RA1, RA2, RA3);
BLOCK_LOAD_KEY_ENC ();
transpose_4x4(RB0, RB1, RB2, RB3);
ROUND (0, 0, RA0, RA1, RA2, RA3, RA4, RA1, RA4, RA2, RA0, RA3,
RB0, RB1, RB2, RB3, RB4, RB1, RB4, RB2, RB0, RB3);
ROUND (1, 1, RA1, RA4, RA2, RA0, RA3, RA2, RA1, RA0, RA4, RA3,
RB1, RB4, RB2, RB0, RB3, RB2, RB1, RB0, RB4, RB3);
ROUND (2, 2, RA2, RA1, RA0, RA4, RA3, RA0, RA4, RA1, RA3, RA2,
RB2, RB1, RB0, RB4, RB3, RB0, RB4, RB1, RB3, RB2);
ROUND (3, 3, RA0, RA4, RA1, RA3, RA2, RA4, RA1, RA3, RA2, RA0,
RB0, RB4, RB1, RB3, RB2, RB4, RB1, RB3, RB2, RB0);
ROUND (4, 4, RA4, RA1, RA3, RA2, RA0, RA1, RA0, RA4, RA2, RA3,
RB4, RB1, RB3, RB2, RB0, RB1, RB0, RB4, RB2, RB3);
ROUND (5, 5, RA1, RA0, RA4, RA2, RA3, RA0, RA2, RA1, RA4, RA3,
RB1, RB0, RB4, RB2, RB3, RB0, RB2, RB1, RB4, RB3);
ROUND (6, 6, RA0, RA2, RA1, RA4, RA3, RA0, RA2, RA3, RA1, RA4,
RB0, RB2, RB1, RB4, RB3, RB0, RB2, RB3, RB1, RB4);
ROUND (7, 7, RA0, RA2, RA3, RA1, RA4, RA4, RA1, RA2, RA0, RA3,
RB0, RB2, RB3, RB1, RB4, RB4, RB1, RB2, RB0, RB3);
ROUND (8, 0, RA4, RA1, RA2, RA0, RA3, RA1, RA3, RA2, RA4, RA0,
RB4, RB1, RB2, RB0, RB3, RB1, RB3, RB2, RB4, RB0);
ROUND (9, 1, RA1, RA3, RA2, RA4, RA0, RA2, RA1, RA4, RA3, RA0,
RB1, RB3, RB2, RB4, RB0, RB2, RB1, RB4, RB3, RB0);
ROUND (10, 2, RA2, RA1, RA4, RA3, RA0, RA4, RA3, RA1, RA0, RA2,
RB2, RB1, RB4, RB3, RB0, RB4, RB3, RB1, RB0, RB2);
ROUND (11, 3, RA4, RA3, RA1, RA0, RA2, RA3, RA1, RA0, RA2, RA4,
RB4, RB3, RB1, RB0, RB2, RB3, RB1, RB0, RB2, RB4);
ROUND (12, 4, RA3, RA1, RA0, RA2, RA4, RA1, RA4, RA3, RA2, RA0,
RB3, RB1, RB0, RB2, RB4, RB1, RB4, RB3, RB2, RB0);
ROUND (13, 5, RA1, RA4, RA3, RA2, RA0, RA4, RA2, RA1, RA3, RA0,
RB1, RB4, RB3, RB2, RB0, RB4, RB2, RB1, RB3, RB0);
ROUND (14, 6, RA4, RA2, RA1, RA3, RA0, RA4, RA2, RA0, RA1, RA3,
RB4, RB2, RB1, RB3, RB0, RB4, RB2, RB0, RB1, RB3);
ROUND (15, 7, RA4, RA2, RA0, RA1, RA3, RA3, RA1, RA2, RA4, RA0,
RB4, RB2, RB0, RB1, RB3, RB3, RB1, RB2, RB4, RB0);
ROUND (16, 0, RA3, RA1, RA2, RA4, RA0, RA1, RA0, RA2, RA3, RA4,
RB3, RB1, RB2, RB4, RB0, RB1, RB0, RB2, RB3, RB4);
ROUND (17, 1, RA1, RA0, RA2, RA3, RA4, RA2, RA1, RA3, RA0, RA4,
RB1, RB0, RB2, RB3, RB4, RB2, RB1, RB3, RB0, RB4);
ROUND (18, 2, RA2, RA1, RA3, RA0, RA4, RA3, RA0, RA1, RA4, RA2,
RB2, RB1, RB3, RB0, RB4, RB3, RB0, RB1, RB4, RB2);
ROUND (19, 3, RA3, RA0, RA1, RA4, RA2, RA0, RA1, RA4, RA2, RA3,
RB3, RB0, RB1, RB4, RB2, RB0, RB1, RB4, RB2, RB3);
ROUND (20, 4, RA0, RA1, RA4, RA2, RA3, RA1, RA3, RA0, RA2, RA4,
RB0, RB1, RB4, RB2, RB3, RB1, RB3, RB0, RB2, RB4);
ROUND (21, 5, RA1, RA3, RA0, RA2, RA4, RA3, RA2, RA1, RA0, RA4,
RB1, RB3, RB0, RB2, RB4, RB3, RB2, RB1, RB0, RB4);
ROUND (22, 6, RA3, RA2, RA1, RA0, RA4, RA3, RA2, RA4, RA1, RA0,
RB3, RB2, RB1, RB0, RB4, RB3, RB2, RB4, RB1, RB0);
ROUND (23, 7, RA3, RA2, RA4, RA1, RA0, RA0, RA1, RA2, RA3, RA4,
RB3, RB2, RB4, RB1, RB0, RB0, RB1, RB2, RB3, RB4);
ROUND (24, 0, RA0, RA1, RA2, RA3, RA4, RA1, RA4, RA2, RA0, RA3,
RB0, RB1, RB2, RB3, RB4, RB1, RB4, RB2, RB0, RB3);
ROUND (25, 1, RA1, RA4, RA2, RA0, RA3, RA2, RA1, RA0, RA4, RA3,
RB1, RB4, RB2, RB0, RB3, RB2, RB1, RB0, RB4, RB3);
ROUND (26, 2, RA2, RA1, RA0, RA4, RA3, RA0, RA4, RA1, RA3, RA2,
RB2, RB1, RB0, RB4, RB3, RB0, RB4, RB1, RB3, RB2);
ROUND (27, 3, RA0, RA4, RA1, RA3, RA2, RA4, RA1, RA3, RA2, RA0,
RB0, RB4, RB1, RB3, RB2, RB4, RB1, RB3, RB2, RB0);
ROUND (28, 4, RA4, RA1, RA3, RA2, RA0, RA1, RA0, RA4, RA2, RA3,
RB4, RB1, RB3, RB2, RB0, RB1, RB0, RB4, RB2, RB3);
ROUND (29, 5, RA1, RA0, RA4, RA2, RA3, RA0, RA2, RA1, RA4, RA3,
RB1, RB0, RB4, RB2, RB3, RB0, RB2, RB1, RB4, RB3);
ROUND (30, 6, RA0, RA2, RA1, RA4, RA3, RA0, RA2, RA3, RA1, RA4,
RB0, RB2, RB1, RB4, RB3, RB0, RB2, RB3, RB1, RB4);
ROUND_LAST (31, 7, RA0, RA2, RA3, RA1, RA4, RA4, RA1, RA2, RA0, RA3,
RB0, RB2, RB3, RB1, RB4, RB4, RB1, RB2, RB0, RB3);
transpose_4x4(RA4, RA1, RA2, RA0);
transpose_4x4(RB4, RB1, RB2, RB0);
bx lr;
.size __serpent_enc_blk8,.-__serpent_enc_blk8;
.align 3
.type __serpent_dec_blk8,%function;
__serpent_dec_blk8:
/* input:
* r0: round key pointer
* RA0, RA1, RA2, RA3, RB0, RB1, RB2, RB3: eight parallel
* ciphertext blocks
* output:
* RA0, RA1, RA2, RA3, RB0, RB1, RB2, RB3: eight parallel plaintext
* blocks
*/
add RROUND, RROUND, #(32*16);
transpose_4x4(RA0, RA1, RA2, RA3);
BLOCK_LOAD_KEY_DEC ();
transpose_4x4(RB0, RB1, RB2, RB3);
ROUND_FIRST_INVERSE (31, 7, RA0, RA1, RA2, RA3, RA4,
RA3, RA0, RA1, RA4, RA2,
RB0, RB1, RB2, RB3, RB4,
RB3, RB0, RB1, RB4, RB2);
ROUND_INVERSE (30, 6, RA3, RA0, RA1, RA4, RA2, RA0, RA1, RA2, RA4, RA3,
RB3, RB0, RB1, RB4, RB2, RB0, RB1, RB2, RB4, RB3);
ROUND_INVERSE (29, 5, RA0, RA1, RA2, RA4, RA3, RA1, RA3, RA4, RA2, RA0,
RB0, RB1, RB2, RB4, RB3, RB1, RB3, RB4, RB2, RB0);
ROUND_INVERSE (28, 4, RA1, RA3, RA4, RA2, RA0, RA1, RA2, RA4, RA0, RA3,
RB1, RB3, RB4, RB2, RB0, RB1, RB2, RB4, RB0, RB3);
ROUND_INVERSE (27, 3, RA1, RA2, RA4, RA0, RA3, RA4, RA2, RA0, RA1, RA3,
RB1, RB2, RB4, RB0, RB3, RB4, RB2, RB0, RB1, RB3);
ROUND_INVERSE (26, 2, RA4, RA2, RA0, RA1, RA3, RA2, RA3, RA0, RA1, RA4,
RB4, RB2, RB0, RB1, RB3, RB2, RB3, RB0, RB1, RB4);
ROUND_INVERSE (25, 1, RA2, RA3, RA0, RA1, RA4, RA4, RA2, RA1, RA0, RA3,
RB2, RB3, RB0, RB1, RB4, RB4, RB2, RB1, RB0, RB3);
ROUND_INVERSE (24, 0, RA4, RA2, RA1, RA0, RA3, RA4, RA3, RA2, RA0, RA1,
RB4, RB2, RB1, RB0, RB3, RB4, RB3, RB2, RB0, RB1);
ROUND_INVERSE (23, 7, RA4, RA3, RA2, RA0, RA1, RA0, RA4, RA3, RA1, RA2,
RB4, RB3, RB2, RB0, RB1, RB0, RB4, RB3, RB1, RB2);
ROUND_INVERSE (22, 6, RA0, RA4, RA3, RA1, RA2, RA4, RA3, RA2, RA1, RA0,
RB0, RB4, RB3, RB1, RB2, RB4, RB3, RB2, RB1, RB0);
ROUND_INVERSE (21, 5, RA4, RA3, RA2, RA1, RA0, RA3, RA0, RA1, RA2, RA4,
RB4, RB3, RB2, RB1, RB0, RB3, RB0, RB1, RB2, RB4);
ROUND_INVERSE (20, 4, RA3, RA0, RA1, RA2, RA4, RA3, RA2, RA1, RA4, RA0,
RB3, RB0, RB1, RB2, RB4, RB3, RB2, RB1, RB4, RB0);
ROUND_INVERSE (19, 3, RA3, RA2, RA1, RA4, RA0, RA1, RA2, RA4, RA3, RA0,
RB3, RB2, RB1, RB4, RB0, RB1, RB2, RB4, RB3, RB0);
ROUND_INVERSE (18, 2, RA1, RA2, RA4, RA3, RA0, RA2, RA0, RA4, RA3, RA1,
RB1, RB2, RB4, RB3, RB0, RB2, RB0, RB4, RB3, RB1);
ROUND_INVERSE (17, 1, RA2, RA0, RA4, RA3, RA1, RA1, RA2, RA3, RA4, RA0,
RB2, RB0, RB4, RB3, RB1, RB1, RB2, RB3, RB4, RB0);
ROUND_INVERSE (16, 0, RA1, RA2, RA3, RA4, RA0, RA1, RA0, RA2, RA4, RA3,
RB1, RB2, RB3, RB4, RB0, RB1, RB0, RB2, RB4, RB3);
ROUND_INVERSE (15, 7, RA1, RA0, RA2, RA4, RA3, RA4, RA1, RA0, RA3, RA2,
RB1, RB0, RB2, RB4, RB3, RB4, RB1, RB0, RB3, RB2);
ROUND_INVERSE (14, 6, RA4, RA1, RA0, RA3, RA2, RA1, RA0, RA2, RA3, RA4,
RB4, RB1, RB0, RB3, RB2, RB1, RB0, RB2, RB3, RB4);
ROUND_INVERSE (13, 5, RA1, RA0, RA2, RA3, RA4, RA0, RA4, RA3, RA2, RA1,
RB1, RB0, RB2, RB3, RB4, RB0, RB4, RB3, RB2, RB1);
ROUND_INVERSE (12, 4, RA0, RA4, RA3, RA2, RA1, RA0, RA2, RA3, RA1, RA4,
RB0, RB4, RB3, RB2, RB1, RB0, RB2, RB3, RB1, RB4);
ROUND_INVERSE (11, 3, RA0, RA2, RA3, RA1, RA4, RA3, RA2, RA1, RA0, RA4,
RB0, RB2, RB3, RB1, RB4, RB3, RB2, RB1, RB0, RB4);
ROUND_INVERSE (10, 2, RA3, RA2, RA1, RA0, RA4, RA2, RA4, RA1, RA0, RA3,
RB3, RB2, RB1, RB0, RB4, RB2, RB4, RB1, RB0, RB3);
ROUND_INVERSE (9, 1, RA2, RA4, RA1, RA0, RA3, RA3, RA2, RA0, RA1, RA4,
RB2, RB4, RB1, RB0, RB3, RB3, RB2, RB0, RB1, RB4);
ROUND_INVERSE (8, 0, RA3, RA2, RA0, RA1, RA4, RA3, RA4, RA2, RA1, RA0,
RB3, RB2, RB0, RB1, RB4, RB3, RB4, RB2, RB1, RB0);
ROUND_INVERSE (7, 7, RA3, RA4, RA2, RA1, RA0, RA1, RA3, RA4, RA0, RA2,
RB3, RB4, RB2, RB1, RB0, RB1, RB3, RB4, RB0, RB2);
ROUND_INVERSE (6, 6, RA1, RA3, RA4, RA0, RA2, RA3, RA4, RA2, RA0, RA1,
RB1, RB3, RB4, RB0, RB2, RB3, RB4, RB2, RB0, RB1);
ROUND_INVERSE (5, 5, RA3, RA4, RA2, RA0, RA1, RA4, RA1, RA0, RA2, RA3,
RB3, RB4, RB2, RB0, RB1, RB4, RB1, RB0, RB2, RB3);
ROUND_INVERSE (4, 4, RA4, RA1, RA0, RA2, RA3, RA4, RA2, RA0, RA3, RA1,
RB4, RB1, RB0, RB2, RB3, RB4, RB2, RB0, RB3, RB1);
ROUND_INVERSE (3, 3, RA4, RA2, RA0, RA3, RA1, RA0, RA2, RA3, RA4, RA1,
RB4, RB2, RB0, RB3, RB1, RB0, RB2, RB3, RB4, RB1);
ROUND_INVERSE (2, 2, RA0, RA2, RA3, RA4, RA1, RA2, RA1, RA3, RA4, RA0,
RB0, RB2, RB3, RB4, RB1, RB2, RB1, RB3, RB4, RB0);
ROUND_INVERSE (1, 1, RA2, RA1, RA3, RA4, RA0, RA0, RA2, RA4, RA3, RA1,
RB2, RB1, RB3, RB4, RB0, RB0, RB2, RB4, RB3, RB1);
ROUND_INVERSE (0, 0, RA0, RA2, RA4, RA3, RA1, RA0, RA1, RA2, RA3, RA4,
RB0, RB2, RB4, RB3, RB1, RB0, RB1, RB2, RB3, RB4);
transpose_4x4(RA0, RA1, RA2, RA3);
transpose_4x4(RB0, RB1, RB2, RB3);
bx lr;
.size __serpent_dec_blk8,.-__serpent_dec_blk8;
.align 3
.globl _gcry_serpent_neon_blk8
.type _gcry_serpent_neon_blk8,%function;
_gcry_serpent_neon_blk8:
/* input:
* r0: ctx, CTX
* r1: dst (8 blocks)
* r2: src (8 blocks)
* r3: encrypt
*/
push {lr};
vpush {RA4-RB2};
cmp r3, #0
vld1.8 {RA0, RA1}, [r2]!;
vld1.8 {RA2, RA3}, [r2]!;
vld1.8 {RB0, RB1}, [r2]!;
vld1.8 {RB2, RB3}, [r2]!;
beq .Lblk8_dec;
bl __serpent_enc_blk8;
vst1.8 {RA4}, [r1]!;
vst1.8 {RA1, RA2}, [r1]!;
vst1.8 {RA0}, [r1]!;
vst1.8 {RB4}, [r1]!;
vst1.8 {RB1, RB2}, [r1]!;
vst1.8 {RB0}, [r1]!;
b .Lblk8_end;
.Lblk8_dec:
bl __serpent_dec_blk8;
vst1.8 {RA0, RA1}, [r1]!;
vst1.8 {RA2, RA3}, [r1]!;
vst1.8 {RB0, RB1}, [r1]!;
vst1.8 {RB2, RB3}, [r1]!;
.Lblk8_end:
/* clear the used registers */
veor RA0, RA0;
veor RA1, RA1;
veor RA2, RA2;
veor RA3, RA3;
vpop {RA4-RB2};
veor RB3, RB3;
veor RB4, RB4;
veor RT0, RT0;
veor RT1, RT1;
veor RT2, RT2;
veor RT3, RT3;
pop {pc};
.size _gcry_serpent_neon_cbc_dec,.-_gcry_serpent_neon_cbc_dec;
.align 3
.globl _gcry_serpent_neon_ctr_enc
.type _gcry_serpent_neon_ctr_enc,%function;
_gcry_serpent_neon_ctr_enc:
/* input:
* r0: ctx, CTX
* r1: dst (8 blocks)
* r2: src (8 blocks)
* r3: iv
*/
vmov.u8 RT1d0, #0xff; /* u64: -1 */
push {r4,lr};
vadd.u64 RT2d0, RT1d0, RT1d0; /* u64: -2 */
vpush {RA4-RB2};
/* load IV and byteswap */
vld1.8 {RA0}, [r3];
vrev64.u8 RT0, RA0; /* be => le */
ldr r4, [r3, #8];
/* construct IVs */
vsub.u64 RA2d1, RT0d1, RT2d0; /* +2 */
vsub.u64 RA1d1, RT0d1, RT1d0; /* +1 */
cmp r4, #-1;
vsub.u64 RB0d1, RA2d1, RT2d0; /* +4 */
vsub.u64 RA3d1, RA2d1, RT1d0; /* +3 */
ldr r4, [r3, #12];
vsub.u64 RB2d1, RB0d1, RT2d0; /* +6 */
vsub.u64 RB1d1, RB0d1, RT1d0; /* +5 */
vsub.u64 RT2d1, RB2d1, RT2d0; /* +8 */
vsub.u64 RB3d1, RB2d1, RT1d0; /* +7 */
vmov RA1d0, RT0d0;
vmov RA2d0, RT0d0;
vmov RA3d0, RT0d0;
vmov RB0d0, RT0d0;
rev r4, r4;
vmov RB1d0, RT0d0;
vmov RB2d0, RT0d0;
vmov RB3d0, RT0d0;
vmov RT2d0, RT0d0;
/* check need for handling 64-bit overflow and carry */
beq .Ldo_ctr_carry;
.Lctr_carry_done:
/* le => be */
vrev64.u8 RA1, RA1;
vrev64.u8 RA2, RA2;
vrev64.u8 RA3, RA3;
vrev64.u8 RB0, RB0;
vrev64.u8 RT2, RT2;
vrev64.u8 RB1, RB1;
vrev64.u8 RB2, RB2;
vrev64.u8 RB3, RB3;
/* store new IV */
vst1.8 {RT2}, [r3];
bl __serpent_enc_blk8;
vld1.8 {RT0, RT1}, [r2]!;
vld1.8 {RT2, RT3}, [r2]!;
veor RA4, RA4, RT0;
veor RA1, RA1, RT1;
vld1.8 {RT0, RT1}, [r2]!;
veor RA2, RA2, RT2;
veor RA0, RA0, RT3;
vld1.8 {RT2, RT3}, [r2]!;
veor RB4, RB4, RT0;
veor RT0, RT0;
veor RB1, RB1, RT1;
veor RT1, RT1;
veor RB2, RB2, RT2;
veor RT2, RT2;
veor RB0, RB0, RT3;
veor RT3, RT3;
vst1.8 {RA4}, [r1]!;
vst1.8 {RA1}, [r1]!;
veor RA1, RA1;
vst1.8 {RA2}, [r1]!;
veor RA2, RA2;
vst1.8 {RA0}, [r1]!;
veor RA0, RA0;
vst1.8 {RB4}, [r1]!;
veor RB4, RB4;
vst1.8 {RB1}, [r1]!;
vst1.8 {RB2}, [r1]!;
vst1.8 {RB0}, [r1]!;
vpop {RA4-RB2};
/* clear the used registers */
veor RA3, RA3;
veor RB3, RB3;
pop {r4,pc};
.Ldo_ctr_carry:
cmp r4, #-8;
blo .Lctr_carry_done;
beq .Lcarry_RT2;
cmp r4, #-6;
blo .Lcarry_RB3;
beq .Lcarry_RB2;
cmp r4, #-4;
blo .Lcarry_RB1;
beq .Lcarry_RB0;
cmp r4, #-2;
blo .Lcarry_RA3;
beq .Lcarry_RA2;
vsub.u64 RA1d0, RT1d0;
.Lcarry_RA2:
vsub.u64 RA2d0, RT1d0;
.Lcarry_RA3:
vsub.u64 RA3d0, RT1d0;
.Lcarry_RB0:
vsub.u64 RB0d0, RT1d0;
.Lcarry_RB1:
vsub.u64 RB1d0, RT1d0;
.Lcarry_RB2:
vsub.u64 RB2d0, RT1d0;
.Lcarry_RB3:
vsub.u64 RB3d0, RT1d0;
.Lcarry_RT2:
vsub.u64 RT2d0, RT1d0;
b .Lctr_carry_done;
.size _gcry_serpent_neon_ctr_enc,.-_gcry_serpent_neon_ctr_enc;
.align 3
.globl _gcry_serpent_neon_cfb_dec
.type _gcry_serpent_neon_cfb_dec,%function;
_gcry_serpent_neon_cfb_dec:
/* input:
* r0: ctx, CTX
* r1: dst (8 blocks)
* r2: src (8 blocks)
* r3: iv
*/
push {lr};
vpush {RA4-RB2};
/* Load input */
vld1.8 {RA0}, [r3];
vld1.8 {RA1, RA2}, [r2]!;
vld1.8 {RA3}, [r2]!;
vld1.8 {RB0}, [r2]!;
vld1.8 {RB1, RB2}, [r2]!;
vld1.8 {RB3}, [r2]!;
/* Update IV */
vld1.8 {RT0}, [r2]!;
vst1.8 {RT0}, [r3];
mov r3, lr;
sub r2, r2, #(8*16);
bl __serpent_enc_blk8;
vld1.8 {RT0, RT1}, [r2]!;
vld1.8 {RT2, RT3}, [r2]!;
veor RA4, RA4, RT0;
veor RA1, RA1, RT1;
vld1.8 {RT0, RT1}, [r2]!;
veor RA2, RA2, RT2;
veor RA0, RA0, RT3;
vld1.8 {RT2, RT3}, [r2]!;
veor RB4, RB4, RT0;
veor RT0, RT0;
veor RB1, RB1, RT1;
veor RT1, RT1;
veor RB2, RB2, RT2;
veor RT2, RT2;
veor RB0, RB0, RT3;
veor RT3, RT3;
vst1.8 {RA4}, [r1]!;
vst1.8 {RA1}, [r1]!;
veor RA1, RA1;
vst1.8 {RA2}, [r1]!;
veor RA2, RA2;
vst1.8 {RA0}, [r1]!;
veor RA0, RA0;
vst1.8 {RB4}, [r1]!;
veor RB4, RB4;
vst1.8 {RB1}, [r1]!;
vst1.8 {RB2}, [r1]!;
vst1.8 {RB0}, [r1]!;
vpop {RA4-RB2};
/* clear the used registers */
veor RA3, RA3;
veor RB3, RB3;
pop {pc};
.size _gcry_serpent_neon_cfb_dec,.-_gcry_serpent_neon_cfb_dec;
.align 3
.globl _gcry_serpent_neon_cbc_dec
.type _gcry_serpent_neon_cbc_dec,%function;
_gcry_serpent_neon_cbc_dec:
/* input:
* r0: ctx, CTX
* r1: dst (8 blocks)
* r2: src (8 blocks)
* r3: iv
*/
push {lr};
vpush {RA4-RB2};
vld1.8 {RA0, RA1}, [r2]!;
vld1.8 {RA2, RA3}, [r2]!;
vld1.8 {RB0, RB1}, [r2]!;
vld1.8 {RB2, RB3}, [r2]!;
sub r2, r2, #(8*16);
bl __serpent_dec_blk8;
vld1.8 {RB4}, [r3];
vld1.8 {RT0, RT1}, [r2]!;
vld1.8 {RT2, RT3}, [r2]!;
veor RA0, RA0, RB4;
veor RA1, RA1, RT0;
veor RA2, RA2, RT1;
vld1.8 {RT0, RT1}, [r2]!;
veor RA3, RA3, RT2;
veor RB0, RB0, RT3;
vld1.8 {RT2, RT3}, [r2]!;
veor RB1, RB1, RT0;
veor RT0, RT0;
veor RB2, RB2, RT1;
veor RT1, RT1;
veor RB3, RB3, RT2;
veor RT2, RT2;
vst1.8 {RT3}, [r3]; /* store new IV */
veor RT3, RT3;
vst1.8 {RA0, RA1}, [r1]!;
veor RA0, RA0;
veor RA1, RA1;
vst1.8 {RA2, RA3}, [r1]!;
veor RA2, RA2;
vst1.8 {RB0, RB1}, [r1]!;
veor RA3, RA3;
vst1.8 {RB2, RB3}, [r1]!;
veor RB3, RB3;
vpop {RA4-RB2};
/* clear the used registers */
veor RB4, RB4;
pop {pc};
.size _gcry_serpent_neon_cbc_dec,.-_gcry_serpent_neon_cbc_dec;
.align 3
.globl _gcry_serpent_neon_ocb_enc
.type _gcry_serpent_neon_ocb_enc,%function;
_gcry_serpent_neon_ocb_enc:
/* input:
* r0 : ctx, CTX
* r1 : dst (8 blocks)
* r2 : src (8 blocks)
* r3 : offset
* sp+0: checksum
* sp+4: L pointers (void *L[8])
*/
push {r4-r11, ip, lr};
add ip, sp, #(10*4);
vpush {RA4-RB2};
ldm ip, {r4, lr};
vld1.8 {RT0}, [r3];
vld1.8 {RT1}, [r4];
/* Load L pointers */
ldm lr!, {r5, r6, r7, r8};
ldm lr, {r9, r10, r11, ip};
/* Offset_i = Offset_{i-1} xor L_{ntz(i)} */
/* Checksum_i = Checksum_{i-1} xor P_i */
/* C_i = Offset_i xor ENCIPHER(K, P_i xor Offset_i) */
vld1.8 {RA0, RA1}, [r2]!;
vld1.8 {RA2, RA3}, [r2]!;
vld1.8 {RB0, RB1}, [r2]!;
vld1.8 {RB2, RB3}, [r2];
#define OCB_INPUT(lreg, vreg) \
vld1.8 {RT3}, [lreg]; \
veor RT0, RT3; \
veor RT1, vreg; \
veor vreg, RT0; \
vst1.8 {RT0}, [r1]!;
OCB_INPUT(r5, RA0);
OCB_INPUT(r6, RA1);
OCB_INPUT(r7, RA2);
OCB_INPUT(r8, RA3);
OCB_INPUT(r9, RB0);
OCB_INPUT(r10, RB1);
OCB_INPUT(r11, RB2);
OCB_INPUT(ip, RB3);
#undef OCB_INPUT
sub r1, r1, #(8*16);
vst1.8 {RT0}, [r3];
vst1.8 {RT1}, [r4];
mov r2, r1;
bl __serpent_enc_blk8;
vld1.8 {RT0, RT1}, [r1]!;
veor RT0, RA4, RT0;
veor RT1, RA1, RT1;
vld1.8 {RT2, RT3}, [r1]!;
vst1.8 {RT0, RT1}, [r2]!;
veor RT2, RA2, RT2;
veor RT3, RA0, RT3;
vld1.8 {RT0, RT1}, [r1]!;
vst1.8 {RT2, RT3}, [r2]!;
veor RT0, RB4, RT0;
veor RT1, RB1, RT1;
vld1.8 {RT2, RT3}, [r1]!;
vst1.8 {RT0, RT1}, [r2]!;
veor RT2, RB2, RT2;
veor RT3, RB0, RT3;
vst1.8 {RT2, RT3}, [r2]!;
vpop {RA4-RB2};
/* clear the used registers */
veor RA3, RA3;
veor RB3, RB3;
pop {r4-r11, ip, pc};
.size _gcry_serpent_neon_ocb_enc,.-_gcry_serpent_neon_ocb_enc;
.align 3
.globl _gcry_serpent_neon_ocb_dec
.type _gcry_serpent_neon_ocb_dec,%function;
_gcry_serpent_neon_ocb_dec:
/* input:
* r0 : ctx, CTX
* r1 : dst (8 blocks)
* r2 : src (8 blocks)
* r3 : offset
* sp+0: checksum
* sp+4: L pointers (void *L[8])
*/
push {r4-r11, ip, lr};
add ip, sp, #(10*4);
vpush {RA4-RB2};
ldm ip, {r4, lr};
vld1.8 {RT0}, [r3];
/* Load L pointers */
ldm lr!, {r5, r6, r7, r8};
ldm lr, {r9, r10, r11, ip};
/* Offset_i = Offset_{i-1} xor L_{ntz(i)} */
/* P_i = Offset_i xor DECIPHER(K, C_i xor Offset_i) */
vld1.8 {RA0, RA1}, [r2]!;
vld1.8 {RA2, RA3}, [r2]!;
vld1.8 {RB0, RB1}, [r2]!;
vld1.8 {RB2, RB3}, [r2];
#define OCB_INPUT(lreg, vreg) \
vld1.8 {RT3}, [lreg]; \
veor RT0, RT3; \
veor vreg, RT0; \
vst1.8 {RT0}, [r1]!;
OCB_INPUT(r5, RA0);
OCB_INPUT(r6, RA1);
OCB_INPUT(r7, RA2);
OCB_INPUT(r8, RA3);
OCB_INPUT(r9, RB0);
OCB_INPUT(r10, RB1);
OCB_INPUT(r11, RB2);
OCB_INPUT(ip, RB3);
#undef OCB_INPUT
sub r1, r1, #(8*16);
vst1.8 {RT0}, [r3];
mov r2, r1;
bl __serpent_dec_blk8;
/* Checksum_i = Checksum_{i-1} xor P_i */
vld1.8 {RA4}, [r4];
vld1.8 {RT0, RT1}, [r1]!;
veor RA0, RA0, RT0;
veor RA1, RA1, RT1;
vld1.8 {RT2, RT3}, [r1]!;
veor RA4, RA4, RA0;
vst1.8 {RA0, RA1}, [r2]!;
veor RA4, RA4, RA1;
veor RA2, RA2, RT2;
veor RA3, RA3, RT3;
vld1.8 {RT0, RT1}, [r1]!;
veor RA4, RA4, RA2;
vst1.8 {RA2, RA3}, [r2]!;
veor RA4, RA4, RA3;
veor RB0, RB0, RT0;
veor RB1, RB1, RT1;
vld1.8 {RT2, RT3}, [r1]!;
veor RA4, RA4, RB0;
vst1.8 {RB0, RB1}, [r2]!;
veor RA4, RA4, RB1;
veor RB2, RB2, RT2;
veor RB3, RB3, RT3;
veor RA4, RA4, RB2;
vst1.8 {RB2, RB3}, [r2]!;
veor RA4, RA4, RB3;
vst1.8 {RA4}, [r4];
vpop {RA4-RB2};
/* clear the used registers */
veor RB4, RB4;
pop {r4-r11, ip, pc};
.size _gcry_serpent_neon_ocb_dec,.-_gcry_serpent_neon_ocb_dec;
.align 3
.globl _gcry_serpent_neon_ocb_auth
.type _gcry_serpent_neon_ocb_auth,%function;
_gcry_serpent_neon_ocb_auth:
/* input:
* r0 : ctx, CTX
* r1 : abuf (8 blocks)
* r2 : offset
* r3 : checksum
* sp+0: L pointers (void *L[8])
*/
push {r5-r11, ip, lr};
ldr lr, [sp, #(9*4)];
vpush {RA4-RB2};
vld1.8 {RT0}, [r2];
/* Load L pointers */
ldm lr!, {r5, r6, r7, r8};
ldm lr, {r9, r10, r11, ip};
/* Offset_i = Offset_{i-1} xor L_{ntz(i)} */
/* Sum_i = Sum_{i-1} xor ENCIPHER(K, A_i xor Offset_i) */
vld1.8 {RA0, RA1}, [r1]!;
vld1.8 {RA2, RA3}, [r1]!;
vld1.8 {RB0, RB1}, [r1]!;
vld1.8 {RB2, RB3}, [r1];
#define OCB_INPUT(lreg, vreg) \
vld1.8 {RT3}, [lreg]; \
veor RT0, RT3; \
veor vreg, RT0;
OCB_INPUT(r5, RA0);
OCB_INPUT(r6, RA1);
OCB_INPUT(r7, RA2);
OCB_INPUT(r8, RA3);
OCB_INPUT(r9, RB0);
OCB_INPUT(r10, RB1);
OCB_INPUT(r11, RB2);
OCB_INPUT(ip, RB3);
#undef OCB_INPUT
vst1.8 {RT0}, [r2];
bl __serpent_enc_blk8;
/* Checksum_i = Checksum_{i-1} xor P_i */
vld1.8 {RT0}, [r3];
veor RA4, RB4;
veor RA1, RB1;
veor RA2, RB2;
veor RA0, RB0;
veor RA2, RT0;
veor RA1, RA4;
veor RA0, RA2;
veor RA0, RA1;
vst1.8 {RA0}, [r3];
vpop {RA4-RB2};
/* clear the used registers */
veor RA3, RA3;
veor RB3, RB3;
pop {r5-r11, ip, pc};
.size _gcry_serpent_neon_ocb_auth,.-_gcry_serpent_neon_ocb_auth;
#endif
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