Commit cc9f8349 authored by Jackie Liu's avatar Jackie Liu Committed by Will Deacon

arm64: crypto: add NEON accelerated XOR implementation

This is a NEON acceleration method that can improve
performance by approximately 20%. I got the following
data from the centos 7.5 on Huawei's HISI1616 chip:

[ 93.837726] xor: measuring software checksum speed
[ 93.874039]   8regs  : 7123.200 MB/sec
[ 93.914038]   32regs : 7180.300 MB/sec
[ 93.954043]   arm64_neon: 9856.000 MB/sec
[ 93.954047] xor: using function: arm64_neon (9856.000 MB/sec)

I believe this code can bring some optimization for
all arm64 platform. thanks for Ard Biesheuvel's suggestions.
Signed-off-by: default avatarJackie Liu <liuyun01@kylinos.cn>
Reviewed-by: default avatarArd Biesheuvel <ard.biesheuvel@linaro.org>
Signed-off-by: default avatarWill Deacon <will.deacon@arm.com>
parent 21e28547
......@@ -27,4 +27,3 @@ generic-y += trace_clock.h
generic-y += unaligned.h
generic-y += user.h
generic-y += vga.h
generic-y += xor.h
/*
* arch/arm64/include/asm/xor.h
*
* Authors: Jackie Liu <liuyun01@kylinos.cn>
* Copyright (C) 2018,Tianjin KYLIN Information Technology Co., Ltd.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include <linux/hardirq.h>
#include <asm-generic/xor.h>
#include <asm/hwcap.h>
#include <asm/neon.h>
#ifdef CONFIG_KERNEL_MODE_NEON
extern struct xor_block_template const xor_block_inner_neon;
static void
xor_neon_2(unsigned long bytes, unsigned long *p1, unsigned long *p2)
{
kernel_neon_begin();
xor_block_inner_neon.do_2(bytes, p1, p2);
kernel_neon_end();
}
static void
xor_neon_3(unsigned long bytes, unsigned long *p1, unsigned long *p2,
unsigned long *p3)
{
kernel_neon_begin();
xor_block_inner_neon.do_3(bytes, p1, p2, p3);
kernel_neon_end();
}
static void
xor_neon_4(unsigned long bytes, unsigned long *p1, unsigned long *p2,
unsigned long *p3, unsigned long *p4)
{
kernel_neon_begin();
xor_block_inner_neon.do_4(bytes, p1, p2, p3, p4);
kernel_neon_end();
}
static void
xor_neon_5(unsigned long bytes, unsigned long *p1, unsigned long *p2,
unsigned long *p3, unsigned long *p4, unsigned long *p5)
{
kernel_neon_begin();
xor_block_inner_neon.do_5(bytes, p1, p2, p3, p4, p5);
kernel_neon_end();
}
static struct xor_block_template xor_block_arm64 = {
.name = "arm64_neon",
.do_2 = xor_neon_2,
.do_3 = xor_neon_3,
.do_4 = xor_neon_4,
.do_5 = xor_neon_5
};
#undef XOR_TRY_TEMPLATES
#define XOR_TRY_TEMPLATES \
do { \
xor_speed(&xor_block_8regs); \
xor_speed(&xor_block_32regs); \
if (cpu_has_neon()) { \
xor_speed(&xor_block_arm64);\
} \
} while (0)
#endif /* ! CONFIG_KERNEL_MODE_NEON */
......@@ -5,6 +5,12 @@ lib-y := clear_user.o delay.o copy_from_user.o \
memcmp.o strcmp.o strncmp.o strlen.o strnlen.o \
strchr.o strrchr.o tishift.o
ifeq ($(CONFIG_KERNEL_MODE_NEON), y)
obj-$(CONFIG_XOR_BLOCKS) += xor-neon.o
CFLAGS_REMOVE_xor-neon.o += -mgeneral-regs-only
CFLAGS_xor-neon.o += -ffreestanding
endif
# Tell the compiler to treat all general purpose registers (with the
# exception of the IP registers, which are already handled by the caller
# in case of a PLT) as callee-saved, which allows for efficient runtime
......
/*
* arch/arm64/lib/xor-neon.c
*
* Authors: Jackie Liu <liuyun01@kylinos.cn>
* Copyright (C) 2018,Tianjin KYLIN Information Technology Co., Ltd.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include <linux/raid/xor.h>
#include <linux/module.h>
#include <asm/neon-intrinsics.h>
void xor_arm64_neon_2(unsigned long bytes, unsigned long *p1,
unsigned long *p2)
{
uint64_t *dp1 = (uint64_t *)p1;
uint64_t *dp2 = (uint64_t *)p2;
register uint64x2_t v0, v1, v2, v3;
long lines = bytes / (sizeof(uint64x2_t) * 4);
do {
/* p1 ^= p2 */
v0 = veorq_u64(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0));
v1 = veorq_u64(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2));
v2 = veorq_u64(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4));
v3 = veorq_u64(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6));
/* store */
vst1q_u64(dp1 + 0, v0);
vst1q_u64(dp1 + 2, v1);
vst1q_u64(dp1 + 4, v2);
vst1q_u64(dp1 + 6, v3);
dp1 += 8;
dp2 += 8;
} while (--lines > 0);
}
void xor_arm64_neon_3(unsigned long bytes, unsigned long *p1,
unsigned long *p2, unsigned long *p3)
{
uint64_t *dp1 = (uint64_t *)p1;
uint64_t *dp2 = (uint64_t *)p2;
uint64_t *dp3 = (uint64_t *)p3;
register uint64x2_t v0, v1, v2, v3;
long lines = bytes / (sizeof(uint64x2_t) * 4);
do {
/* p1 ^= p2 */
v0 = veorq_u64(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0));
v1 = veorq_u64(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2));
v2 = veorq_u64(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4));
v3 = veorq_u64(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6));
/* p1 ^= p3 */
v0 = veorq_u64(v0, vld1q_u64(dp3 + 0));
v1 = veorq_u64(v1, vld1q_u64(dp3 + 2));
v2 = veorq_u64(v2, vld1q_u64(dp3 + 4));
v3 = veorq_u64(v3, vld1q_u64(dp3 + 6));
/* store */
vst1q_u64(dp1 + 0, v0);
vst1q_u64(dp1 + 2, v1);
vst1q_u64(dp1 + 4, v2);
vst1q_u64(dp1 + 6, v3);
dp1 += 8;
dp2 += 8;
dp3 += 8;
} while (--lines > 0);
}
void xor_arm64_neon_4(unsigned long bytes, unsigned long *p1,
unsigned long *p2, unsigned long *p3, unsigned long *p4)
{
uint64_t *dp1 = (uint64_t *)p1;
uint64_t *dp2 = (uint64_t *)p2;
uint64_t *dp3 = (uint64_t *)p3;
uint64_t *dp4 = (uint64_t *)p4;
register uint64x2_t v0, v1, v2, v3;
long lines = bytes / (sizeof(uint64x2_t) * 4);
do {
/* p1 ^= p2 */
v0 = veorq_u64(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0));
v1 = veorq_u64(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2));
v2 = veorq_u64(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4));
v3 = veorq_u64(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6));
/* p1 ^= p3 */
v0 = veorq_u64(v0, vld1q_u64(dp3 + 0));
v1 = veorq_u64(v1, vld1q_u64(dp3 + 2));
v2 = veorq_u64(v2, vld1q_u64(dp3 + 4));
v3 = veorq_u64(v3, vld1q_u64(dp3 + 6));
/* p1 ^= p4 */
v0 = veorq_u64(v0, vld1q_u64(dp4 + 0));
v1 = veorq_u64(v1, vld1q_u64(dp4 + 2));
v2 = veorq_u64(v2, vld1q_u64(dp4 + 4));
v3 = veorq_u64(v3, vld1q_u64(dp4 + 6));
/* store */
vst1q_u64(dp1 + 0, v0);
vst1q_u64(dp1 + 2, v1);
vst1q_u64(dp1 + 4, v2);
vst1q_u64(dp1 + 6, v3);
dp1 += 8;
dp2 += 8;
dp3 += 8;
dp4 += 8;
} while (--lines > 0);
}
void xor_arm64_neon_5(unsigned long bytes, unsigned long *p1,
unsigned long *p2, unsigned long *p3,
unsigned long *p4, unsigned long *p5)
{
uint64_t *dp1 = (uint64_t *)p1;
uint64_t *dp2 = (uint64_t *)p2;
uint64_t *dp3 = (uint64_t *)p3;
uint64_t *dp4 = (uint64_t *)p4;
uint64_t *dp5 = (uint64_t *)p5;
register uint64x2_t v0, v1, v2, v3;
long lines = bytes / (sizeof(uint64x2_t) * 4);
do {
/* p1 ^= p2 */
v0 = veorq_u64(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0));
v1 = veorq_u64(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2));
v2 = veorq_u64(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4));
v3 = veorq_u64(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6));
/* p1 ^= p3 */
v0 = veorq_u64(v0, vld1q_u64(dp3 + 0));
v1 = veorq_u64(v1, vld1q_u64(dp3 + 2));
v2 = veorq_u64(v2, vld1q_u64(dp3 + 4));
v3 = veorq_u64(v3, vld1q_u64(dp3 + 6));
/* p1 ^= p4 */
v0 = veorq_u64(v0, vld1q_u64(dp4 + 0));
v1 = veorq_u64(v1, vld1q_u64(dp4 + 2));
v2 = veorq_u64(v2, vld1q_u64(dp4 + 4));
v3 = veorq_u64(v3, vld1q_u64(dp4 + 6));
/* p1 ^= p5 */
v0 = veorq_u64(v0, vld1q_u64(dp5 + 0));
v1 = veorq_u64(v1, vld1q_u64(dp5 + 2));
v2 = veorq_u64(v2, vld1q_u64(dp5 + 4));
v3 = veorq_u64(v3, vld1q_u64(dp5 + 6));
/* store */
vst1q_u64(dp1 + 0, v0);
vst1q_u64(dp1 + 2, v1);
vst1q_u64(dp1 + 4, v2);
vst1q_u64(dp1 + 6, v3);
dp1 += 8;
dp2 += 8;
dp3 += 8;
dp4 += 8;
dp5 += 8;
} while (--lines > 0);
}
struct xor_block_template const xor_block_inner_neon = {
.name = "__inner_neon__",
.do_2 = xor_arm64_neon_2,
.do_3 = xor_arm64_neon_3,
.do_4 = xor_arm64_neon_4,
.do_5 = xor_arm64_neon_5,
};
EXPORT_SYMBOL(xor_block_inner_neon);
MODULE_AUTHOR("Jackie Liu <liuyun01@kylinos.cn>");
MODULE_DESCRIPTION("ARMv8 XOR Extensions");
MODULE_LICENSE("GPL");
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