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linux/arch/x86/crypto/blowfish-avx2-asm_64.S
Jussi Kivilinna 6048801070 crypto: blowfish - add AVX2/x86_64 implementation of blowfish cipher 
Patch adds AVX2/x86-64 implementation of Blowfish cipher, requiring 32 parallel
blocks for input (256 bytes). Table look-ups are performed using vpgatherdd
instruction directly from vector registers and thus should be faster than
earlier implementations.

Signed-off-by: Jussi Kivilinna <jussi.kivilinna@iki.fi>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
2013-04-25 21:09:04 +08:00

450 lines
9.5 KiB
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/*
* x86_64/AVX2 assembler optimized version of Blowfish
*
* Copyright © 2012-2013 Jussi Kivilinna <jussi.kivilinna@iki.fi>
*
* 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.
*
*/
#include <linux/linkage.h>
.file "blowfish-avx2-asm_64.S"
.data
.align 32
.Lprefetch_mask:
.long 0*64
.long 1*64
.long 2*64
.long 3*64
.long 4*64
.long 5*64
.long 6*64
.long 7*64
.Lbswap32_mask:
.long 0x00010203
.long 0x04050607
.long 0x08090a0b
.long 0x0c0d0e0f
.Lbswap128_mask:
.byte 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0
.Lbswap_iv_mask:
.byte 7, 6, 5, 4, 3, 2, 1, 0, 7, 6, 5, 4, 3, 2, 1, 0
.text
/* structure of crypto context */
#define p 0
#define s0 ((16 + 2) * 4)
#define s1 ((16 + 2 + (1 * 256)) * 4)
#define s2 ((16 + 2 + (2 * 256)) * 4)
#define s3 ((16 + 2 + (3 * 256)) * 4)
/* register macros */
#define CTX %rdi
#define RIO %rdx
#define RS0 %rax
#define RS1 %r8
#define RS2 %r9
#define RS3 %r10
#define RLOOP %r11
#define RLOOPd %r11d
#define RXr0 %ymm8
#define RXr1 %ymm9
#define RXr2 %ymm10
#define RXr3 %ymm11
#define RXl0 %ymm12
#define RXl1 %ymm13
#define RXl2 %ymm14
#define RXl3 %ymm15
/* temp regs */
#define RT0 %ymm0
#define RT0x %xmm0
#define RT1 %ymm1
#define RT1x %xmm1
#define RIDX0 %ymm2
#define RIDX1 %ymm3
#define RIDX1x %xmm3
#define RIDX2 %ymm4
#define RIDX3 %ymm5
/* vpgatherdd mask and '-1' */
#define RNOT %ymm6
/* byte mask, (-1 >> 24) */
#define RBYTE %ymm7
/***********************************************************************
* 32-way AVX2 blowfish
***********************************************************************/
#define F(xl, xr) \
vpsrld $24, xl, RIDX0; \
vpsrld $16, xl, RIDX1; \
vpsrld $8, xl, RIDX2; \
vpand RBYTE, RIDX1, RIDX1; \
vpand RBYTE, RIDX2, RIDX2; \
vpand RBYTE, xl, RIDX3; \
\
vpgatherdd RNOT, (RS0, RIDX0, 4), RT0; \
vpcmpeqd RNOT, RNOT, RNOT; \
vpcmpeqd RIDX0, RIDX0, RIDX0; \
\
vpgatherdd RNOT, (RS1, RIDX1, 4), RT1; \
vpcmpeqd RIDX1, RIDX1, RIDX1; \
vpaddd RT0, RT1, RT0; \
\
vpgatherdd RIDX0, (RS2, RIDX2, 4), RT1; \
vpxor RT0, RT1, RT0; \
\
vpgatherdd RIDX1, (RS3, RIDX3, 4), RT1; \
vpcmpeqd RNOT, RNOT, RNOT; \
vpaddd RT0, RT1, RT0; \
\
vpxor RT0, xr, xr;
#define add_roundkey(xl, nmem) \
vpbroadcastd nmem, RT0; \
vpxor RT0, xl ## 0, xl ## 0; \
vpxor RT0, xl ## 1, xl ## 1; \
vpxor RT0, xl ## 2, xl ## 2; \
vpxor RT0, xl ## 3, xl ## 3;
#define round_enc() \
add_roundkey(RXr, p(CTX,RLOOP,4)); \
F(RXl0, RXr0); \
F(RXl1, RXr1); \
F(RXl2, RXr2); \
F(RXl3, RXr3); \
\
add_roundkey(RXl, p+4(CTX,RLOOP,4)); \
F(RXr0, RXl0); \
F(RXr1, RXl1); \
F(RXr2, RXl2); \
F(RXr3, RXl3);
#define round_dec() \
add_roundkey(RXr, p+4*2(CTX,RLOOP,4)); \
F(RXl0, RXr0); \
F(RXl1, RXr1); \
F(RXl2, RXr2); \
F(RXl3, RXr3); \
\
add_roundkey(RXl, p+4(CTX,RLOOP,4)); \
F(RXr0, RXl0); \
F(RXr1, RXl1); \
F(RXr2, RXl2); \
F(RXr3, RXl3);
#define init_round_constants() \
vpcmpeqd RNOT, RNOT, RNOT; \
leaq s0(CTX), RS0; \
leaq s1(CTX), RS1; \
leaq s2(CTX), RS2; \
leaq s3(CTX), RS3; \
vpsrld $24, RNOT, RBYTE;
#define transpose_2x2(x0, x1, t0) \
vpunpckldq x0, x1, t0; \
vpunpckhdq x0, x1, x1; \
\
vpunpcklqdq t0, x1, x0; \
vpunpckhqdq t0, x1, x1;
#define read_block(xl, xr) \
vbroadcasti128 .Lbswap32_mask, RT1; \
\
vpshufb RT1, xl ## 0, xl ## 0; \
vpshufb RT1, xr ## 0, xr ## 0; \
vpshufb RT1, xl ## 1, xl ## 1; \
vpshufb RT1, xr ## 1, xr ## 1; \
vpshufb RT1, xl ## 2, xl ## 2; \
vpshufb RT1, xr ## 2, xr ## 2; \
vpshufb RT1, xl ## 3, xl ## 3; \
vpshufb RT1, xr ## 3, xr ## 3; \
\
transpose_2x2(xl ## 0, xr ## 0, RT0); \
transpose_2x2(xl ## 1, xr ## 1, RT0); \
transpose_2x2(xl ## 2, xr ## 2, RT0); \
transpose_2x2(xl ## 3, xr ## 3, RT0);
#define write_block(xl, xr) \
vbroadcasti128 .Lbswap32_mask, RT1; \
\
transpose_2x2(xl ## 0, xr ## 0, RT0); \
transpose_2x2(xl ## 1, xr ## 1, RT0); \
transpose_2x2(xl ## 2, xr ## 2, RT0); \
transpose_2x2(xl ## 3, xr ## 3, RT0); \
\
vpshufb RT1, xl ## 0, xl ## 0; \
vpshufb RT1, xr ## 0, xr ## 0; \
vpshufb RT1, xl ## 1, xl ## 1; \
vpshufb RT1, xr ## 1, xr ## 1; \
vpshufb RT1, xl ## 2, xl ## 2; \
vpshufb RT1, xr ## 2, xr ## 2; \
vpshufb RT1, xl ## 3, xl ## 3; \
vpshufb RT1, xr ## 3, xr ## 3;
.align 8
__blowfish_enc_blk32:
/* input:
* %rdi: ctx, CTX
* RXl0..4, RXr0..4: plaintext
* output:
* RXl0..4, RXr0..4: ciphertext (RXl <=> RXr swapped)
*/
init_round_constants();
read_block(RXl, RXr);
movl $1, RLOOPd;
add_roundkey(RXl, p+4*(0)(CTX));
.align 4
.L__enc_loop:
round_enc();
leal 2(RLOOPd), RLOOPd;
cmpl $17, RLOOPd;
jne .L__enc_loop;
add_roundkey(RXr, p+4*(17)(CTX));
write_block(RXl, RXr);
ret;
ENDPROC(__blowfish_enc_blk32)
.align 8
__blowfish_dec_blk32:
/* input:
* %rdi: ctx, CTX
* RXl0..4, RXr0..4: ciphertext
* output:
* RXl0..4, RXr0..4: plaintext (RXl <=> RXr swapped)
*/
init_round_constants();
read_block(RXl, RXr);
movl $14, RLOOPd;
add_roundkey(RXl, p+4*(17)(CTX));
.align 4
.L__dec_loop:
round_dec();
addl $-2, RLOOPd;
jns .L__dec_loop;
add_roundkey(RXr, p+4*(0)(CTX));
write_block(RXl, RXr);
ret;
ENDPROC(__blowfish_dec_blk32)
ENTRY(blowfish_ecb_enc_32way)
/* input:
* %rdi: ctx, CTX
* %rsi: dst
* %rdx: src
*/
vzeroupper;
vmovdqu 0*32(%rdx), RXl0;
vmovdqu 1*32(%rdx), RXr0;
vmovdqu 2*32(%rdx), RXl1;
vmovdqu 3*32(%rdx), RXr1;
vmovdqu 4*32(%rdx), RXl2;
vmovdqu 5*32(%rdx), RXr2;
vmovdqu 6*32(%rdx), RXl3;
vmovdqu 7*32(%rdx), RXr3;
call __blowfish_enc_blk32;
vmovdqu RXr0, 0*32(%rsi);
vmovdqu RXl0, 1*32(%rsi);
vmovdqu RXr1, 2*32(%rsi);
vmovdqu RXl1, 3*32(%rsi);
vmovdqu RXr2, 4*32(%rsi);
vmovdqu RXl2, 5*32(%rsi);
vmovdqu RXr3, 6*32(%rsi);
vmovdqu RXl3, 7*32(%rsi);
vzeroupper;
ret;
ENDPROC(blowfish_ecb_enc_32way)
ENTRY(blowfish_ecb_dec_32way)
/* input:
* %rdi: ctx, CTX
* %rsi: dst
* %rdx: src
*/
vzeroupper;
vmovdqu 0*32(%rdx), RXl0;
vmovdqu 1*32(%rdx), RXr0;
vmovdqu 2*32(%rdx), RXl1;
vmovdqu 3*32(%rdx), RXr1;
vmovdqu 4*32(%rdx), RXl2;
vmovdqu 5*32(%rdx), RXr2;
vmovdqu 6*32(%rdx), RXl3;
vmovdqu 7*32(%rdx), RXr3;
call __blowfish_dec_blk32;
vmovdqu RXr0, 0*32(%rsi);
vmovdqu RXl0, 1*32(%rsi);
vmovdqu RXr1, 2*32(%rsi);
vmovdqu RXl1, 3*32(%rsi);
vmovdqu RXr2, 4*32(%rsi);
vmovdqu RXl2, 5*32(%rsi);
vmovdqu RXr3, 6*32(%rsi);
vmovdqu RXl3, 7*32(%rsi);
vzeroupper;
ret;
ENDPROC(blowfish_ecb_dec_32way)
ENTRY(blowfish_cbc_dec_32way)
/* input:
* %rdi: ctx, CTX
* %rsi: dst
* %rdx: src
*/
vzeroupper;
vmovdqu 0*32(%rdx), RXl0;
vmovdqu 1*32(%rdx), RXr0;
vmovdqu 2*32(%rdx), RXl1;
vmovdqu 3*32(%rdx), RXr1;
vmovdqu 4*32(%rdx), RXl2;
vmovdqu 5*32(%rdx), RXr2;
vmovdqu 6*32(%rdx), RXl3;
vmovdqu 7*32(%rdx), RXr3;
call __blowfish_dec_blk32;
/* xor with src */
vmovq (%rdx), RT0x;
vpshufd $0x4f, RT0x, RT0x;
vinserti128 $1, 8(%rdx), RT0, RT0;
vpxor RT0, RXr0, RXr0;
vpxor 0*32+24(%rdx), RXl0, RXl0;
vpxor 1*32+24(%rdx), RXr1, RXr1;
vpxor 2*32+24(%rdx), RXl1, RXl1;
vpxor 3*32+24(%rdx), RXr2, RXr2;
vpxor 4*32+24(%rdx), RXl2, RXl2;
vpxor 5*32+24(%rdx), RXr3, RXr3;
vpxor 6*32+24(%rdx), RXl3, RXl3;
vmovdqu RXr0, (0*32)(%rsi);
vmovdqu RXl0, (1*32)(%rsi);
vmovdqu RXr1, (2*32)(%rsi);
vmovdqu RXl1, (3*32)(%rsi);
vmovdqu RXr2, (4*32)(%rsi);
vmovdqu RXl2, (5*32)(%rsi);
vmovdqu RXr3, (6*32)(%rsi);
vmovdqu RXl3, (7*32)(%rsi);
vzeroupper;
ret;
ENDPROC(blowfish_cbc_dec_32way)
ENTRY(blowfish_ctr_32way)
/* input:
* %rdi: ctx, CTX
* %rsi: dst
* %rdx: src
* %rcx: iv (big endian, 64bit)
*/
vzeroupper;
vpcmpeqd RT0, RT0, RT0;
vpsrldq $8, RT0, RT0; /* a: -1, b: 0, c: -1, d: 0 */
vpcmpeqd RT1x, RT1x, RT1x;
vpaddq RT1x, RT1x, RT1x; /* a: -2, b: -2 */
vpxor RIDX0, RIDX0, RIDX0;
vinserti128 $1, RT1x, RIDX0, RIDX0; /* a: 0, b: 0, c: -2, d: -2 */
vpaddq RIDX0, RT0, RT0; /* a: -1, b: 0, c: -3, d: -2 */
vpcmpeqd RT1, RT1, RT1;
vpaddq RT1, RT1, RT1; /* a: -2, b: -2, c: -2, d: -2 */
vpaddq RT1, RT1, RIDX2; /* a: -4, b: -4, c: -4, d: -4 */
vbroadcasti128 .Lbswap_iv_mask, RIDX0;
vbroadcasti128 .Lbswap128_mask, RIDX1;
/* load IV and byteswap */
vmovq (%rcx), RT1x;
vinserti128 $1, RT1x, RT1, RT1; /* a: BE, b: 0, c: BE, d: 0 */
vpshufb RIDX0, RT1, RT1; /* a: LE, b: LE, c: LE, d: LE */
/* construct IVs */
vpsubq RT0, RT1, RT1; /* a: le1, b: le0, c: le3, d: le2 */
vpshufb RIDX1, RT1, RXl0; /* a: be0, b: be1, c: be2, d: be3 */
vpsubq RIDX2, RT1, RT1; /* le5, le4, le7, le6 */
vpshufb RIDX1, RT1, RXr0; /* be4, be5, be6, be7 */
vpsubq RIDX2, RT1, RT1;
vpshufb RIDX1, RT1, RXl1;
vpsubq RIDX2, RT1, RT1;
vpshufb RIDX1, RT1, RXr1;
vpsubq RIDX2, RT1, RT1;
vpshufb RIDX1, RT1, RXl2;
vpsubq RIDX2, RT1, RT1;
vpshufb RIDX1, RT1, RXr2;
vpsubq RIDX2, RT1, RT1;
vpshufb RIDX1, RT1, RXl3;
vpsubq RIDX2, RT1, RT1;
vpshufb RIDX1, RT1, RXr3;
/* store last IV */
vpsubq RIDX2, RT1, RT1; /* a: le33, b: le32, ... */
vpshufb RIDX1x, RT1x, RT1x; /* a: be32, ... */
vmovq RT1x, (%rcx);
call __blowfish_enc_blk32;
/* dst = src ^ iv */
vpxor 0*32(%rdx), RXr0, RXr0;
vpxor 1*32(%rdx), RXl0, RXl0;
vpxor 2*32(%rdx), RXr1, RXr1;
vpxor 3*32(%rdx), RXl1, RXl1;
vpxor 4*32(%rdx), RXr2, RXr2;
vpxor 5*32(%rdx), RXl2, RXl2;
vpxor 6*32(%rdx), RXr3, RXr3;
vpxor 7*32(%rdx), RXl3, RXl3;
vmovdqu RXr0, (0*32)(%rsi);
vmovdqu RXl0, (1*32)(%rsi);
vmovdqu RXr1, (2*32)(%rsi);
vmovdqu RXl1, (3*32)(%rsi);
vmovdqu RXr2, (4*32)(%rsi);
vmovdqu RXl2, (5*32)(%rsi);
vmovdqu RXr3, (6*32)(%rsi);
vmovdqu RXl3, (7*32)(%rsi);
vzeroupper;
ret;
ENDPROC(blowfish_ctr_32way)
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