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linux-next/arch/x86/crypto/serpent-sse2-i586-asm_32.S
Jussi Kivilinna 847cb7ef56 crypto: serpent-sse2 - change transpose_4x4 to only use integer instructions
Matrix transpose macro in serpent-sse2 uses mix of SSE2 integer and SSE floating
point instructions, which might cause performance penality on some CPUs.

This patch replaces transpose_4x4 macro with version that uses only SSE2
integer instructions.

Signed-off-by: Jussi Kivilinna <jussi.kivilinna@mbnet.fi>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
2012-01-13 16:38:40 +11:00

636 lines
14 KiB
ArmAsm

/*
* Serpent Cipher 4-way parallel algorithm (i586/SSE2)
*
* Copyright (C) 2011 Jussi Kivilinna <jussi.kivilinna@mbnet.fi>
*
* Based on crypto/serpent.c by
* Copyright (C) 2002 Dag Arne Osvik <osvik@ii.uib.no>
* 2003 Herbert Valerio Riedel <hvr@gnu.org>
*
* 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
*
*/
.file "serpent-sse2-i586-asm_32.S"
.text
#define arg_ctx 4
#define arg_dst 8
#define arg_src 12
#define arg_xor 16
/**********************************************************************
4-way SSE2 serpent
**********************************************************************/
#define CTX %edx
#define RA %xmm0
#define RB %xmm1
#define RC %xmm2
#define RD %xmm3
#define RE %xmm4
#define RT0 %xmm5
#define RT1 %xmm6
#define RNOT %xmm7
#define get_key(i, j, t) \
movd (4*(i)+(j))*4(CTX), t; \
pshufd $0, t, t;
#define K(x0, x1, x2, x3, x4, i) \
get_key(i, 0, x4); \
get_key(i, 1, RT0); \
get_key(i, 2, RT1); \
pxor x4, x0; \
pxor RT0, x1; \
pxor RT1, x2; \
get_key(i, 3, x4); \
pxor x4, x3;
#define LK(x0, x1, x2, x3, x4, i) \
movdqa x0, x4; \
pslld $13, x0; \
psrld $(32 - 13), x4; \
por x4, x0; \
pxor x0, x1; \
movdqa x2, x4; \
pslld $3, x2; \
psrld $(32 - 3), x4; \
por x4, x2; \
pxor x2, x1; \
movdqa x1, x4; \
pslld $1, x1; \
psrld $(32 - 1), x4; \
por x4, x1; \
movdqa x0, x4; \
pslld $3, x4; \
pxor x2, x3; \
pxor x4, x3; \
movdqa x3, x4; \
pslld $7, x3; \
psrld $(32 - 7), x4; \
por x4, x3; \
movdqa x1, x4; \
pslld $7, x4; \
pxor x1, x0; \
pxor x3, x0; \
pxor x3, x2; \
pxor x4, x2; \
movdqa x0, x4; \
get_key(i, 1, RT0); \
pxor RT0, x1; \
get_key(i, 3, RT0); \
pxor RT0, x3; \
pslld $5, x0; \
psrld $(32 - 5), x4; \
por x4, x0; \
movdqa x2, x4; \
pslld $22, x2; \
psrld $(32 - 22), x4; \
por x4, x2; \
get_key(i, 0, RT0); \
pxor RT0, x0; \
get_key(i, 2, RT0); \
pxor RT0, x2;
#define KL(x0, x1, x2, x3, x4, i) \
K(x0, x1, x2, x3, x4, i); \
movdqa x0, x4; \
psrld $5, x0; \
pslld $(32 - 5), x4; \
por x4, x0; \
movdqa x2, x4; \
psrld $22, x2; \
pslld $(32 - 22), x4; \
por x4, x2; \
pxor x3, x2; \
pxor x3, x0; \
movdqa x1, x4; \
pslld $7, x4; \
pxor x1, x0; \
pxor x4, x2; \
movdqa x1, x4; \
psrld $1, x1; \
pslld $(32 - 1), x4; \
por x4, x1; \
movdqa x3, x4; \
psrld $7, x3; \
pslld $(32 - 7), x4; \
por x4, x3; \
pxor x0, x1; \
movdqa x0, x4; \
pslld $3, x4; \
pxor x4, x3; \
movdqa x0, x4; \
psrld $13, x0; \
pslld $(32 - 13), x4; \
por x4, x0; \
pxor x2, x1; \
pxor x2, x3; \
movdqa x2, x4; \
psrld $3, x2; \
pslld $(32 - 3), x4; \
por x4, x2;
#define S0(x0, x1, x2, x3, x4) \
movdqa x3, x4; \
por x0, x3; \
pxor x4, x0; \
pxor x2, x4; \
pxor RNOT, x4; \
pxor x1, x3; \
pand x0, x1; \
pxor x4, x1; \
pxor x0, x2; \
pxor x3, x0; \
por x0, x4; \
pxor x2, x0; \
pand x1, x2; \
pxor x2, x3; \
pxor RNOT, x1; \
pxor x4, x2; \
pxor x2, x1;
#define S1(x0, x1, x2, x3, x4) \
movdqa x1, x4; \
pxor x0, x1; \
pxor x3, x0; \
pxor RNOT, x3; \
pand x1, x4; \
por x1, x0; \
pxor x2, x3; \
pxor x3, x0; \
pxor x3, x1; \
pxor x4, x3; \
por x4, x1; \
pxor x2, x4; \
pand x0, x2; \
pxor x1, x2; \
por x0, x1; \
pxor RNOT, x0; \
pxor x2, x0; \
pxor x1, x4;
#define S2(x0, x1, x2, x3, x4) \
pxor RNOT, x3; \
pxor x0, x1; \
movdqa x0, x4; \
pand x2, x0; \
pxor x3, x0; \
por x4, x3; \
pxor x1, x2; \
pxor x1, x3; \
pand x0, x1; \
pxor x2, x0; \
pand x3, x2; \
por x1, x3; \
pxor RNOT, x0; \
pxor x0, x3; \
pxor x0, x4; \
pxor x2, x0; \
por x2, x1;
#define S3(x0, x1, x2, x3, x4) \
movdqa x1, x4; \
pxor x3, x1; \
por x0, x3; \
pand x0, x4; \
pxor x2, x0; \
pxor x1, x2; \
pand x3, x1; \
pxor x3, x2; \
por x4, x0; \
pxor x3, x4; \
pxor x0, x1; \
pand x3, x0; \
pand x4, x3; \
pxor x2, x3; \
por x1, x4; \
pand x1, x2; \
pxor x3, x4; \
pxor x3, x0; \
pxor x2, x3;
#define S4(x0, x1, x2, x3, x4) \
movdqa x3, x4; \
pand x0, x3; \
pxor x4, x0; \
pxor x2, x3; \
por x4, x2; \
pxor x1, x0; \
pxor x3, x4; \
por x0, x2; \
pxor x1, x2; \
pand x0, x1; \
pxor x4, x1; \
pand x2, x4; \
pxor x3, x2; \
pxor x0, x4; \
por x1, x3; \
pxor RNOT, x1; \
pxor x0, x3;
#define S5(x0, x1, x2, x3, x4) \
movdqa x1, x4; \
por x0, x1; \
pxor x1, x2; \
pxor RNOT, x3; \
pxor x0, x4; \
pxor x2, x0; \
pand x4, x1; \
por x3, x4; \
pxor x0, x4; \
pand x3, x0; \
pxor x3, x1; \
pxor x2, x3; \
pxor x1, x0; \
pand x4, x2; \
pxor x2, x1; \
pand x0, x2; \
pxor x2, x3;
#define S6(x0, x1, x2, x3, x4) \
movdqa x1, x4; \
pxor x0, x3; \
pxor x2, x1; \
pxor x0, x2; \
pand x3, x0; \
por x3, x1; \
pxor RNOT, x4; \
pxor x1, x0; \
pxor x2, x1; \
pxor x4, x3; \
pxor x0, x4; \
pand x0, x2; \
pxor x1, x4; \
pxor x3, x2; \
pand x1, x3; \
pxor x0, x3; \
pxor x2, x1;
#define S7(x0, x1, x2, x3, x4) \
pxor RNOT, x1; \
movdqa x1, x4; \
pxor RNOT, x0; \
pand x2, x1; \
pxor x3, x1; \
por x4, x3; \
pxor x2, x4; \
pxor x3, x2; \
pxor x0, x3; \
por x1, x0; \
pand x0, x2; \
pxor x4, x0; \
pxor x3, x4; \
pand x0, x3; \
pxor x1, x4; \
pxor x4, x2; \
pxor x1, x3; \
por x0, x4; \
pxor x1, x4;
#define SI0(x0, x1, x2, x3, x4) \
movdqa x3, x4; \
pxor x0, x1; \
por x1, x3; \
pxor x1, x4; \
pxor RNOT, x0; \
pxor x3, x2; \
pxor x0, x3; \
pand x1, x0; \
pxor x2, x0; \
pand x3, x2; \
pxor x4, x3; \
pxor x3, x2; \
pxor x3, x1; \
pand x0, x3; \
pxor x0, x1; \
pxor x2, x0; \
pxor x3, x4;
#define SI1(x0, x1, x2, x3, x4) \
pxor x3, x1; \
movdqa x0, x4; \
pxor x2, x0; \
pxor RNOT, x2; \
por x1, x4; \
pxor x3, x4; \
pand x1, x3; \
pxor x2, x1; \
pand x4, x2; \
pxor x1, x4; \
por x3, x1; \
pxor x0, x3; \
pxor x0, x2; \
por x4, x0; \
pxor x4, x2; \
pxor x0, x1; \
pxor x1, x4;
#define SI2(x0, x1, x2, x3, x4) \
pxor x1, x2; \
movdqa x3, x4; \
pxor RNOT, x3; \
por x2, x3; \
pxor x4, x2; \
pxor x0, x4; \
pxor x1, x3; \
por x2, x1; \
pxor x0, x2; \
pxor x4, x1; \
por x3, x4; \
pxor x3, x2; \
pxor x2, x4; \
pand x1, x2; \
pxor x3, x2; \
pxor x4, x3; \
pxor x0, x4;
#define SI3(x0, x1, x2, x3, x4) \
pxor x1, x2; \
movdqa x1, x4; \
pand x2, x1; \
pxor x0, x1; \
por x4, x0; \
pxor x3, x4; \
pxor x3, x0; \
por x1, x3; \
pxor x2, x1; \
pxor x3, x1; \
pxor x2, x0; \
pxor x3, x2; \
pand x1, x3; \
pxor x0, x1; \
pand x2, x0; \
pxor x3, x4; \
pxor x0, x3; \
pxor x1, x0;
#define SI4(x0, x1, x2, x3, x4) \
pxor x3, x2; \
movdqa x0, x4; \
pand x1, x0; \
pxor x2, x0; \
por x3, x2; \
pxor RNOT, x4; \
pxor x0, x1; \
pxor x2, x0; \
pand x4, x2; \
pxor x0, x2; \
por x4, x0; \
pxor x3, x0; \
pand x2, x3; \
pxor x3, x4; \
pxor x1, x3; \
pand x0, x1; \
pxor x1, x4; \
pxor x3, x0;
#define SI5(x0, x1, x2, x3, x4) \
movdqa x1, x4; \
por x2, x1; \
pxor x4, x2; \
pxor x3, x1; \
pand x4, x3; \
pxor x3, x2; \
por x0, x3; \
pxor RNOT, x0; \
pxor x2, x3; \
por x0, x2; \
pxor x1, x4; \
pxor x4, x2; \
pand x0, x4; \
pxor x1, x0; \
pxor x3, x1; \
pand x2, x0; \
pxor x3, x2; \
pxor x2, x0; \
pxor x4, x2; \
pxor x3, x4;
#define SI6(x0, x1, x2, x3, x4) \
pxor x2, x0; \
movdqa x0, x4; \
pand x3, x0; \
pxor x3, x2; \
pxor x2, x0; \
pxor x1, x3; \
por x4, x2; \
pxor x3, x2; \
pand x0, x3; \
pxor RNOT, x0; \
pxor x1, x3; \
pand x2, x1; \
pxor x0, x4; \
pxor x4, x3; \
pxor x2, x4; \
pxor x1, x0; \
pxor x0, x2;
#define SI7(x0, x1, x2, x3, x4) \
movdqa x3, x4; \
pand x0, x3; \
pxor x2, x0; \
por x4, x2; \
pxor x1, x4; \
pxor RNOT, x0; \
por x3, x1; \
pxor x0, x4; \
pand x2, x0; \
pxor x1, x0; \
pand x2, x1; \
pxor x2, x3; \
pxor x3, x4; \
pand x3, x2; \
por x0, x3; \
pxor x4, x1; \
pxor x4, x3; \
pand x0, x4; \
pxor x2, x4;
#define transpose_4x4(x0, x1, x2, x3, t0, t1, t2) \
movdqa x0, t2; \
punpckldq x1, x0; \
punpckhdq x1, t2; \
movdqa x2, t1; \
punpckhdq x3, x2; \
punpckldq x3, t1; \
movdqa x0, x1; \
punpcklqdq t1, x0; \
punpckhqdq t1, x1; \
movdqa t2, x3; \
punpcklqdq x2, t2; \
punpckhqdq x2, x3; \
movdqa t2, x2;
#define read_blocks(in, x0, x1, x2, x3, t0, t1, t2) \
movdqu (0*4*4)(in), x0; \
movdqu (1*4*4)(in), x1; \
movdqu (2*4*4)(in), x2; \
movdqu (3*4*4)(in), x3; \
\
transpose_4x4(x0, x1, x2, x3, t0, t1, t2)
#define write_blocks(out, x0, x1, x2, x3, t0, t1, t2) \
transpose_4x4(x0, x1, x2, x3, t0, t1, t2) \
\
movdqu x0, (0*4*4)(out); \
movdqu x1, (1*4*4)(out); \
movdqu x2, (2*4*4)(out); \
movdqu x3, (3*4*4)(out);
#define xor_blocks(out, x0, x1, x2, x3, t0, t1, t2) \
transpose_4x4(x0, x1, x2, x3, t0, t1, t2) \
\
movdqu (0*4*4)(out), t0; \
pxor t0, x0; \
movdqu x0, (0*4*4)(out); \
movdqu (1*4*4)(out), t0; \
pxor t0, x1; \
movdqu x1, (1*4*4)(out); \
movdqu (2*4*4)(out), t0; \
pxor t0, x2; \
movdqu x2, (2*4*4)(out); \
movdqu (3*4*4)(out), t0; \
pxor t0, x3; \
movdqu x3, (3*4*4)(out);
.align 8
.global __serpent_enc_blk_4way
.type __serpent_enc_blk_4way,@function;
__serpent_enc_blk_4way:
/* input:
* arg_ctx(%esp): ctx, CTX
* arg_dst(%esp): dst
* arg_src(%esp): src
* arg_xor(%esp): bool, if true: xor output
*/
pcmpeqd RNOT, RNOT;
movl arg_ctx(%esp), CTX;
movl arg_src(%esp), %eax;
read_blocks(%eax, RA, RB, RC, RD, RT0, RT1, RE);
K(RA, RB, RC, RD, RE, 0);
S0(RA, RB, RC, RD, RE); LK(RC, RB, RD, RA, RE, 1);
S1(RC, RB, RD, RA, RE); LK(RE, RD, RA, RC, RB, 2);
S2(RE, RD, RA, RC, RB); LK(RB, RD, RE, RC, RA, 3);
S3(RB, RD, RE, RC, RA); LK(RC, RA, RD, RB, RE, 4);
S4(RC, RA, RD, RB, RE); LK(RA, RD, RB, RE, RC, 5);
S5(RA, RD, RB, RE, RC); LK(RC, RA, RD, RE, RB, 6);
S6(RC, RA, RD, RE, RB); LK(RD, RB, RA, RE, RC, 7);
S7(RD, RB, RA, RE, RC); LK(RC, RA, RE, RD, RB, 8);
S0(RC, RA, RE, RD, RB); LK(RE, RA, RD, RC, RB, 9);
S1(RE, RA, RD, RC, RB); LK(RB, RD, RC, RE, RA, 10);
S2(RB, RD, RC, RE, RA); LK(RA, RD, RB, RE, RC, 11);
S3(RA, RD, RB, RE, RC); LK(RE, RC, RD, RA, RB, 12);
S4(RE, RC, RD, RA, RB); LK(RC, RD, RA, RB, RE, 13);
S5(RC, RD, RA, RB, RE); LK(RE, RC, RD, RB, RA, 14);
S6(RE, RC, RD, RB, RA); LK(RD, RA, RC, RB, RE, 15);
S7(RD, RA, RC, RB, RE); LK(RE, RC, RB, RD, RA, 16);
S0(RE, RC, RB, RD, RA); LK(RB, RC, RD, RE, RA, 17);
S1(RB, RC, RD, RE, RA); LK(RA, RD, RE, RB, RC, 18);
S2(RA, RD, RE, RB, RC); LK(RC, RD, RA, RB, RE, 19);
S3(RC, RD, RA, RB, RE); LK(RB, RE, RD, RC, RA, 20);
S4(RB, RE, RD, RC, RA); LK(RE, RD, RC, RA, RB, 21);
S5(RE, RD, RC, RA, RB); LK(RB, RE, RD, RA, RC, 22);
S6(RB, RE, RD, RA, RC); LK(RD, RC, RE, RA, RB, 23);
S7(RD, RC, RE, RA, RB); LK(RB, RE, RA, RD, RC, 24);
S0(RB, RE, RA, RD, RC); LK(RA, RE, RD, RB, RC, 25);
S1(RA, RE, RD, RB, RC); LK(RC, RD, RB, RA, RE, 26);
S2(RC, RD, RB, RA, RE); LK(RE, RD, RC, RA, RB, 27);
S3(RE, RD, RC, RA, RB); LK(RA, RB, RD, RE, RC, 28);
S4(RA, RB, RD, RE, RC); LK(RB, RD, RE, RC, RA, 29);
S5(RB, RD, RE, RC, RA); LK(RA, RB, RD, RC, RE, 30);
S6(RA, RB, RD, RC, RE); LK(RD, RE, RB, RC, RA, 31);
S7(RD, RE, RB, RC, RA); K(RA, RB, RC, RD, RE, 32);
movl arg_dst(%esp), %eax;
cmpb $0, arg_xor(%esp);
jnz __enc_xor4;
write_blocks(%eax, RA, RB, RC, RD, RT0, RT1, RE);
ret;
__enc_xor4:
xor_blocks(%eax, RA, RB, RC, RD, RT0, RT1, RE);
ret;
.align 8
.global serpent_dec_blk_4way
.type serpent_dec_blk_4way,@function;
serpent_dec_blk_4way:
/* input:
* arg_ctx(%esp): ctx, CTX
* arg_dst(%esp): dst
* arg_src(%esp): src
*/
pcmpeqd RNOT, RNOT;
movl arg_ctx(%esp), CTX;
movl arg_src(%esp), %eax;
read_blocks(%eax, RA, RB, RC, RD, RT0, RT1, RE);
K(RA, RB, RC, RD, RE, 32);
SI7(RA, RB, RC, RD, RE); KL(RB, RD, RA, RE, RC, 31);
SI6(RB, RD, RA, RE, RC); KL(RA, RC, RE, RB, RD, 30);
SI5(RA, RC, RE, RB, RD); KL(RC, RD, RA, RE, RB, 29);
SI4(RC, RD, RA, RE, RB); KL(RC, RA, RB, RE, RD, 28);
SI3(RC, RA, RB, RE, RD); KL(RB, RC, RD, RE, RA, 27);
SI2(RB, RC, RD, RE, RA); KL(RC, RA, RE, RD, RB, 26);
SI1(RC, RA, RE, RD, RB); KL(RB, RA, RE, RD, RC, 25);
SI0(RB, RA, RE, RD, RC); KL(RE, RC, RA, RB, RD, 24);
SI7(RE, RC, RA, RB, RD); KL(RC, RB, RE, RD, RA, 23);
SI6(RC, RB, RE, RD, RA); KL(RE, RA, RD, RC, RB, 22);
SI5(RE, RA, RD, RC, RB); KL(RA, RB, RE, RD, RC, 21);
SI4(RA, RB, RE, RD, RC); KL(RA, RE, RC, RD, RB, 20);
SI3(RA, RE, RC, RD, RB); KL(RC, RA, RB, RD, RE, 19);
SI2(RC, RA, RB, RD, RE); KL(RA, RE, RD, RB, RC, 18);
SI1(RA, RE, RD, RB, RC); KL(RC, RE, RD, RB, RA, 17);
SI0(RC, RE, RD, RB, RA); KL(RD, RA, RE, RC, RB, 16);
SI7(RD, RA, RE, RC, RB); KL(RA, RC, RD, RB, RE, 15);
SI6(RA, RC, RD, RB, RE); KL(RD, RE, RB, RA, RC, 14);
SI5(RD, RE, RB, RA, RC); KL(RE, RC, RD, RB, RA, 13);
SI4(RE, RC, RD, RB, RA); KL(RE, RD, RA, RB, RC, 12);
SI3(RE, RD, RA, RB, RC); KL(RA, RE, RC, RB, RD, 11);
SI2(RA, RE, RC, RB, RD); KL(RE, RD, RB, RC, RA, 10);
SI1(RE, RD, RB, RC, RA); KL(RA, RD, RB, RC, RE, 9);
SI0(RA, RD, RB, RC, RE); KL(RB, RE, RD, RA, RC, 8);
SI7(RB, RE, RD, RA, RC); KL(RE, RA, RB, RC, RD, 7);
SI6(RE, RA, RB, RC, RD); KL(RB, RD, RC, RE, RA, 6);
SI5(RB, RD, RC, RE, RA); KL(RD, RA, RB, RC, RE, 5);
SI4(RD, RA, RB, RC, RE); KL(RD, RB, RE, RC, RA, 4);
SI3(RD, RB, RE, RC, RA); KL(RE, RD, RA, RC, RB, 3);
SI2(RE, RD, RA, RC, RB); KL(RD, RB, RC, RA, RE, 2);
SI1(RD, RB, RC, RA, RE); KL(RE, RB, RC, RA, RD, 1);
SI0(RE, RB, RC, RA, RD); K(RC, RD, RB, RE, RA, 0);
movl arg_dst(%esp), %eax;
write_blocks(%eax, RC, RD, RB, RE, RT0, RT1, RA);
ret;