alistair23-linux/arch/x86/crypto/blowfish-x86_64-asm_64.S

/*
 * Blowfish Cipher Algorithm (x86_64)
 *
 * Copyright (C) 2011 Jussi Kivilinna <jussi.kivilinna@mbnet.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.
 *
 * 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 "blowfish-x86_64-asm.S"
.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 %rsi

#define RX0 %rax
#define RX1 %rbx
#define RX2 %rcx
#define RX3 %rdx

#define RX0d %eax
#define RX1d %ebx
#define RX2d %ecx
#define RX3d %edx

#define RX0bl %al
#define RX1bl %bl
#define RX2bl %cl
#define RX3bl %dl

#define RX0bh %ah
#define RX1bh %bh
#define RX2bh %ch
#define RX3bh %dh

#define RT0 %rbp
#define RT1 %rsi

#define RT0d %ebp
#define RT1d %esi

#define RK0 %r8
#define RK1 %r9
#define RK2 %r10
#define RK3 %r11

#define RK0d %r8d
#define RK1d %r9d
#define RK2d %r10d
#define RK3d %r11d

#define RKEY %r12

/***********************************************************************
 * 1-way blowfish
 ***********************************************************************/
#define F(x, k) \
	rorq $16,		x; \
	movzbl x ## bh,		RT0d; \
	movzbl x ## bl,		RT1d; \
	rolq $16,		x; \
	movl s0(CTX,RT0,4),	k ## d; \
	addl s1(CTX,RT1,4),	k ## d; \
	movzbl x ## bh,		RT0d; \
	movzbl x ## bl,		RT1d; \
	rolq $32,		x; \
	xorl s2(CTX,RT0,4),	k ## d; \
	addl s3(CTX,RT1,4),	k ## d; \
	xorq k,			x;

#define add_roundkey_enc(n) \
	xorq p+4*(n)(CTX), 	RX0;

#define round_enc(n) \
	add_roundkey_enc(n); \
	\
	F(RX0, RK0); \
	F(RX0, RK0);

#define round_final_enc(n) \
	xorq p+4*(n)(CTX), 	RX0;

#define add_roundkey_dec(n) \
	movq p+4*(n-1)(CTX),	RT0; \
	rorq $32,		RT0; \
	xorq RT0,		RX0;

#define round_dec(n) \
	add_roundkey_dec(n); \
	\
	F(RX0, RK0); \
	F(RX0, RK0); \

#define read_block() \
	movq (RIO), 		RX0; \
	rorq $32, 		RX0; \
	bswapq 			RX0;

#define write_block() \
	bswapq 			RX0; \
	movq RX0, 		(RIO);

#define xor_block() \
	bswapq 			RX0; \
	xorq RX0, 		(RIO);

.align 8
.global __blowfish_enc_blk
.type   __blowfish_enc_blk,@function;

__blowfish_enc_blk:
	// input:
	//	%rdi: ctx, CTX
	//	%rsi: dst
	//	%rdx: src
	//	%rcx: bool xor
	pushq %rbp;
	pushq %rbx;

	pushq %rsi;
	pushq %rcx;
	movq %rdx, RIO;

	read_block();

	round_enc(0);
	round_enc(2);
	round_enc(4);
	round_enc(6);
	round_enc(8);
	round_enc(10);
	round_enc(12);
	round_enc(14);
	add_roundkey_enc(16);

	popq %rbp;
	popq RIO;

	test %bpl, %bpl;
	jnz __enc_xor;

	write_block();

__enc_ret:
	popq %rbx;
	popq %rbp;

	ret;

__enc_xor:
	xor_block();

	jmp __enc_ret;

.align 8
.global blowfish_dec_blk
.type   blowfish_dec_blk,@function;

blowfish_dec_blk:
	// input:
	//	%rdi: ctx, CTX
	//	%rsi: dst
	//	%rdx: src
	pushq %rbp;
	pushq %rbx;

	pushq %rsi;
	movq %rdx, RIO;

	read_block();

	round_dec(17);
	round_dec(15);
	round_dec(13);
	round_dec(11);
	round_dec(9);
	round_dec(7);
	round_dec(5);
	round_dec(3);
	add_roundkey_dec(1);

	popq RIO;
	write_block();

	popq %rbx;
	popq %rbp;

	ret;

/**********************************************************************
  4-way blowfish, four blocks parallel
 **********************************************************************/
#define add_preloaded_roundkey4() \
	xorq RKEY,		RX0; \
	xorq RKEY,		RX1; \
	xorq RKEY,		RX2; \
	xorq RKEY,		RX3;

#define preload_roundkey_enc(n) \
	movq p+4*(n)(CTX),	RKEY;

#define add_roundkey_enc4(n) \
	add_preloaded_roundkey4(); \
	preload_roundkey_enc(n + 2);

#define round_enc4(n) \
	add_roundkey_enc4(n); \
	\
	F(RX0, RK0); \
	F(RX1, RK1); \
	F(RX2, RK2); \
	F(RX3, RK3); \
	\
	F(RX0, RK0); \
	F(RX1, RK1); \
	F(RX2, RK2); \
	F(RX3, RK3);

#define preload_roundkey_dec(n) \
	movq p+4*((n)-1)(CTX),	RKEY; \
	rorq $32,		RKEY;

#define add_roundkey_dec4(n) \
	add_preloaded_roundkey4(); \
	preload_roundkey_dec(n - 2);

#define round_dec4(n) \
	add_roundkey_dec4(n); \
	\
	F(RX0, RK0); \
	F(RX1, RK1); \
	F(RX2, RK2); \
	F(RX3, RK3); \
	\
	F(RX0, RK0); \
	F(RX1, RK1); \
	F(RX2, RK2); \
	F(RX3, RK3);

#define read_block4() \
	movq (RIO),		RX0; \
	rorq $32,		RX0; \
	bswapq 			RX0; \
	\
	movq 8(RIO),		RX1; \
	rorq $32,		RX1; \
	bswapq 			RX1; \
	\
	movq 16(RIO),		RX2; \
	rorq $32,		RX2; \
	bswapq 			RX2; \
	\
	movq 24(RIO),		RX3; \
	rorq $32,		RX3; \
	bswapq 			RX3;

#define write_block4() \
	bswapq 			RX0; \
	movq RX0,		(RIO); \
	\
	bswapq 			RX1; \
	movq RX1,		8(RIO); \
	\
	bswapq 			RX2; \
	movq RX2,		16(RIO); \
	\
	bswapq 			RX3; \
	movq RX3,		24(RIO);

#define xor_block4() \
	bswapq 			RX0; \
	xorq RX0,		(RIO); \
	\
	bswapq 			RX1; \
	xorq RX1,		8(RIO); \
	\
	bswapq 			RX2; \
	xorq RX2,		16(RIO); \
	\
	bswapq 			RX3; \
	xorq RX3,		24(RIO);

.align 8
.global __blowfish_enc_blk_4way
.type   __blowfish_enc_blk_4way,@function;

__blowfish_enc_blk_4way:
	// input:
	//	%rdi: ctx, CTX
	//	%rsi: dst
	//	%rdx: src
	//	%rcx: bool xor
	pushq %rbp;
	pushq %rbx;
	pushq RKEY;
	preload_roundkey_enc(0);

	pushq %rsi;
	pushq %rcx;
	movq %rdx, RIO;

	read_block4();

	round_enc4(0);
	round_enc4(2);
	round_enc4(4);
	round_enc4(6);
	round_enc4(8);
	round_enc4(10);
	round_enc4(12);
	round_enc4(14);
	add_preloaded_roundkey4();

	popq %rbp;
	popq RIO;

	test %bpl, %bpl;
	jnz __enc_xor4;

	write_block4();

__enc_ret4:
	popq RKEY;
	popq %rbx;
	popq %rbp;

	ret;

__enc_xor4:
	xor_block4();

	jmp __enc_ret4;

.align 8
.global blowfish_dec_blk_4way
.type   blowfish_dec_blk_4way,@function;

blowfish_dec_blk_4way:
	// input:
	//	%rdi: ctx, CTX
	//	%rsi: dst
	//	%rdx: src
	pushq %rbp;
	pushq %rbx;
	pushq RKEY;
	preload_roundkey_dec(17);

	pushq %rsi;
	movq %rdx, RIO;

	read_block4();

	round_dec4(17);
	round_dec4(15);
	round_dec4(13);
	round_dec4(11);
	round_dec4(9);
	round_dec4(7);
	round_dec4(5);
	round_dec4(3);
	add_preloaded_roundkey4();

	popq RIO;
	write_block4();

	popq RKEY;
	popq %rbx;
	popq %rbp;

	ret;
crypto: blowfish - add x86_64 assembly implementation Patch adds x86_64 assembly implementation of blowfish. Two set of assembler functions are provided. First set is regular 'one-block at time' encrypt/decrypt functions. Second is 'four-block at time' functions that gain performance increase on out-of-order CPUs. Performance of 4-way functions should be equal to 1-way functions with in-order CPUs. Summary of the tcrypt benchmarks: Blowfish assembler vs blowfish C (256bit 8kb block ECB) encrypt: 2.2x speed decrypt: 2.3x speed Blowfish assembler vs blowfish C (256bit 8kb block CBC) encrypt: 1.12x speed decrypt: 2.5x speed Blowfish assembler vs blowfish C (256bit 8kb block CTR) encrypt: 2.5x speed Full output: http://koti.mbnet.fi/axh/kernel/crypto/tcrypt-speed-blowfish-asm-x86_64.txt http://koti.mbnet.fi/axh/kernel/crypto/tcrypt-speed-blowfish-c-x86_64.txt Tests were run on: vendor_id : AuthenticAMD cpu family : 16 model : 10 model name : AMD Phenom(tm) II X6 1055T Processor stepping : 0 Signed-off-by: Jussi Kivilinna <jussi.kivilinna@mbnet.fi> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au> 2011-09-01 16:45:22 -06:00			`/*`
			`* Blowfish Cipher Algorithm (x86_64)`
			`*`
			`* Copyright (C) 2011 Jussi Kivilinna <jussi.kivilinna@mbnet.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.`
			`*`
			`* 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 "blowfish-x86_64-asm.S"`
			`.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 %rsi`

			`#define RX0 %rax`
			`#define RX1 %rbx`
			`#define RX2 %rcx`
			`#define RX3 %rdx`

			`#define RX0d %eax`
			`#define RX1d %ebx`
			`#define RX2d %ecx`
			`#define RX3d %edx`

			`#define RX0bl %al`
			`#define RX1bl %bl`
			`#define RX2bl %cl`
			`#define RX3bl %dl`

			`#define RX0bh %ah`
			`#define RX1bh %bh`
			`#define RX2bh %ch`
			`#define RX3bh %dh`

			`#define RT0 %rbp`
			`#define RT1 %rsi`

			`#define RT0d %ebp`
			`#define RT1d %esi`

			`#define RK0 %r8`
			`#define RK1 %r9`
			`#define RK2 %r10`
			`#define RK3 %r11`

			`#define RK0d %r8d`
			`#define RK1d %r9d`
			`#define RK2d %r10d`
			`#define RK3d %r11d`

			`#define RKEY %r12`

			`/***********************************************************************`
			`* 1-way blowfish`
			`***********************************************************************/`
			`#define F(x, k) \`
			`rorq $16, x; \`
			`movzbl x ## bh, RT0d; \`
			`movzbl x ## bl, RT1d; \`
			`rolq $16, x; \`
			`movl s0(CTX,RT0,4), k ## d; \`
			`addl s1(CTX,RT1,4), k ## d; \`
			`movzbl x ## bh, RT0d; \`
			`movzbl x ## bl, RT1d; \`
			`rolq $32, x; \`
			`xorl s2(CTX,RT0,4), k ## d; \`
			`addl s3(CTX,RT1,4), k ## d; \`
			`xorq k, x;`

			`#define add_roundkey_enc(n) \`
			`xorq p+4*(n)(CTX), RX0;`

			`#define round_enc(n) \`
			`add_roundkey_enc(n); \`
			`\`
			`F(RX0, RK0); \`
			`F(RX0, RK0);`

			`#define round_final_enc(n) \`
			`xorq p+4*(n)(CTX), RX0;`

			`#define add_roundkey_dec(n) \`
			`movq p+4*(n-1)(CTX), RT0; \`
			`rorq $32, RT0; \`
			`xorq RT0, RX0;`

			`#define round_dec(n) \`
			`add_roundkey_dec(n); \`
			`\`
			`F(RX0, RK0); \`
			`F(RX0, RK0); \`

			`#define read_block() \`
			`movq (RIO), RX0; \`
			`rorq $32, RX0; \`
			`bswapq RX0;`

			`#define write_block() \`
			`bswapq RX0; \`
			`movq RX0, (RIO);`

			`#define xor_block() \`
			`bswapq RX0; \`
			`xorq RX0, (RIO);`

			`.align 8`
			`.global __blowfish_enc_blk`
			`.type __blowfish_enc_blk,@function;`

			`__blowfish_enc_blk:`
			`// input:`
			`// %rdi: ctx, CTX`
			`// %rsi: dst`
			`// %rdx: src`
			`// %rcx: bool xor`
			`pushq %rbp;`
			`pushq %rbx;`

			`pushq %rsi;`
			`pushq %rcx;`
			`movq %rdx, RIO;`

			`read_block();`

			`round_enc(0);`
			`round_enc(2);`
			`round_enc(4);`
			`round_enc(6);`
			`round_enc(8);`
			`round_enc(10);`
			`round_enc(12);`
			`round_enc(14);`
			`add_roundkey_enc(16);`

			`popq %rbp;`
			`popq RIO;`

			`test %bpl, %bpl;`
			`jnz __enc_xor;`

			`write_block();`

			`__enc_ret:`
			`popq %rbx;`
			`popq %rbp;`

			`ret;`

			`__enc_xor:`
			`xor_block();`

			`jmp __enc_ret;`

			`.align 8`
			`.global blowfish_dec_blk`
			`.type blowfish_dec_blk,@function;`

			`blowfish_dec_blk:`
			`// input:`
			`// %rdi: ctx, CTX`
			`// %rsi: dst`
			`// %rdx: src`
			`pushq %rbp;`
			`pushq %rbx;`

			`pushq %rsi;`
			`movq %rdx, RIO;`

			`read_block();`

			`round_dec(17);`
			`round_dec(15);`
			`round_dec(13);`
			`round_dec(11);`
			`round_dec(9);`
			`round_dec(7);`
			`round_dec(5);`
			`round_dec(3);`
			`add_roundkey_dec(1);`

			`popq RIO;`
			`write_block();`

			`popq %rbx;`
			`popq %rbp;`

			`ret;`

			`/**********************************************************************`
			`4-way blowfish, four blocks parallel`
			`**********************************************************************/`
			`#define add_preloaded_roundkey4() \`
			`xorq RKEY, RX0; \`
			`xorq RKEY, RX1; \`
			`xorq RKEY, RX2; \`
			`xorq RKEY, RX3;`

			`#define preload_roundkey_enc(n) \`
			`movq p+4*(n)(CTX), RKEY;`

			`#define add_roundkey_enc4(n) \`
			`add_preloaded_roundkey4(); \`
			`preload_roundkey_enc(n + 2);`

			`#define round_enc4(n) \`
			`add_roundkey_enc4(n); \`
			`\`
			`F(RX0, RK0); \`
			`F(RX1, RK1); \`
			`F(RX2, RK2); \`
			`F(RX3, RK3); \`
			`\`
			`F(RX0, RK0); \`
			`F(RX1, RK1); \`
			`F(RX2, RK2); \`
			`F(RX3, RK3);`

			`#define preload_roundkey_dec(n) \`
			`movq p+4*((n)-1)(CTX), RKEY; \`
			`rorq $32, RKEY;`

			`#define add_roundkey_dec4(n) \`
			`add_preloaded_roundkey4(); \`
			`preload_roundkey_dec(n - 2);`

			`#define round_dec4(n) \`
			`add_roundkey_dec4(n); \`
			`\`
			`F(RX0, RK0); \`
			`F(RX1, RK1); \`
			`F(RX2, RK2); \`
			`F(RX3, RK3); \`
			`\`
			`F(RX0, RK0); \`
			`F(RX1, RK1); \`
			`F(RX2, RK2); \`
			`F(RX3, RK3);`

			`#define read_block4() \`
			`movq (RIO), RX0; \`
			`rorq $32, RX0; \`
			`bswapq RX0; \`
			`\`
			`movq 8(RIO), RX1; \`
			`rorq $32, RX1; \`
			`bswapq RX1; \`
			`\`
			`movq 16(RIO), RX2; \`
			`rorq $32, RX2; \`
			`bswapq RX2; \`
			`\`
			`movq 24(RIO), RX3; \`
			`rorq $32, RX3; \`
			`bswapq RX3;`

			`#define write_block4() \`
			`bswapq RX0; \`
			`movq RX0, (RIO); \`
			`\`
			`bswapq RX1; \`
			`movq RX1, 8(RIO); \`
			`\`
			`bswapq RX2; \`
			`movq RX2, 16(RIO); \`
			`\`
			`bswapq RX3; \`
			`movq RX3, 24(RIO);`

			`#define xor_block4() \`
			`bswapq RX0; \`
			`xorq RX0, (RIO); \`
			`\`
			`bswapq RX1; \`
			`xorq RX1, 8(RIO); \`
			`\`
			`bswapq RX2; \`
			`xorq RX2, 16(RIO); \`
			`\`
			`bswapq RX3; \`
			`xorq RX3, 24(RIO);`

			`.align 8`
			`.global __blowfish_enc_blk_4way`
			`.type __blowfish_enc_blk_4way,@function;`

			`__blowfish_enc_blk_4way:`
			`// input:`
			`// %rdi: ctx, CTX`
			`// %rsi: dst`
			`// %rdx: src`
			`// %rcx: bool xor`
			`pushq %rbp;`
			`pushq %rbx;`
			`pushq RKEY;`
			`preload_roundkey_enc(0);`

			`pushq %rsi;`
			`pushq %rcx;`
			`movq %rdx, RIO;`

			`read_block4();`

			`round_enc4(0);`
			`round_enc4(2);`
			`round_enc4(4);`
			`round_enc4(6);`
			`round_enc4(8);`
			`round_enc4(10);`
			`round_enc4(12);`
			`round_enc4(14);`
			`add_preloaded_roundkey4();`

			`popq %rbp;`
			`popq RIO;`

			`test %bpl, %bpl;`
			`jnz __enc_xor4;`

			`write_block4();`

			`__enc_ret4:`
			`popq RKEY;`
			`popq %rbx;`
			`popq %rbp;`

			`ret;`

			`__enc_xor4:`
			`xor_block4();`

			`jmp __enc_ret4;`

			`.align 8`
			`.global blowfish_dec_blk_4way`
			`.type blowfish_dec_blk_4way,@function;`

			`blowfish_dec_blk_4way:`
			`// input:`
			`// %rdi: ctx, CTX`
			`// %rsi: dst`
			`// %rdx: src`
			`pushq %rbp;`
			`pushq %rbx;`
			`pushq RKEY;`
			`preload_roundkey_dec(17);`

			`pushq %rsi;`
			`movq %rdx, RIO;`

			`read_block4();`

			`round_dec4(17);`
			`round_dec4(15);`
			`round_dec4(13);`
			`round_dec4(11);`
			`round_dec4(9);`
			`round_dec4(7);`
			`round_dec4(5);`
			`round_dec4(3);`
			`add_preloaded_roundkey4();`

			`popq RIO;`
			`write_block4();`

			`popq RKEY;`
			`popq %rbx;`
			`popq %rbp;`

			`ret;`