#include <linux/raid/xor.h>
#include <linux/module.h>
#include <asm/neon-intrinsics.h>
static void xor_arm64_neon_2(unsigned long bytes, unsigned long * __restrict p1,
const unsigned long * __restrict 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 {
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));
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);
}
static void xor_arm64_neon_3(unsigned long bytes, unsigned long * __restrict p1,
const unsigned long * __restrict p2,
const unsigned long * __restrict 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 {
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));
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));
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);
}
static void xor_arm64_neon_4(unsigned long bytes, unsigned long * __restrict p1,
const unsigned long * __restrict p2,
const unsigned long * __restrict p3,
const unsigned long * __restrict 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 {
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));
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));
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));
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);
}
static void xor_arm64_neon_5(unsigned long bytes, unsigned long * __restrict p1,
const unsigned long * __restrict p2,
const unsigned long * __restrict p3,
const unsigned long * __restrict p4,
const unsigned long * __restrict 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 {
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));
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));
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));
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));
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 xor_block_inner_neon __ro_after_init = {
.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);
static inline uint64x2_t eor3(uint64x2_t p, uint64x2_t q, uint64x2_t r)
{
uint64x2_t res;
asm(ARM64_ASM_PREAMBLE ".arch_extension sha3\n"
"eor3 %0.16b, %1.16b, %2.16b, %3.16b"
: "=w"(res) : "w"(p), "w"(q), "w"(r));
return res;
}
static void xor_arm64_eor3_3(unsigned long bytes,
unsigned long * __restrict p1,
const unsigned long * __restrict p2,
const unsigned long * __restrict 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 {
v0 = eor3(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0),
vld1q_u64(dp3 + 0));
v1 = eor3(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2),
vld1q_u64(dp3 + 2));
v2 = eor3(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4),
vld1q_u64(dp3 + 4));
v3 = eor3(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6),
vld1q_u64(dp3 + 6));
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);
}
static void xor_arm64_eor3_4(unsigned long bytes,
unsigned long * __restrict p1,
const unsigned long * __restrict p2,
const unsigned long * __restrict p3,
const unsigned long * __restrict 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 {
v0 = eor3(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0),
vld1q_u64(dp3 + 0));
v1 = eor3(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2),
vld1q_u64(dp3 + 2));
v2 = eor3(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4),
vld1q_u64(dp3 + 4));
v3 = eor3(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6),
vld1q_u64(dp3 + 6));
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));
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);
}
static void xor_arm64_eor3_5(unsigned long bytes,
unsigned long * __restrict p1,
const unsigned long * __restrict p2,
const unsigned long * __restrict p3,
const unsigned long * __restrict p4,
const unsigned long * __restrict 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 {
v0 = eor3(vld1q_u64(dp1 + 0), vld1q_u64(dp2 + 0),
vld1q_u64(dp3 + 0));
v1 = eor3(vld1q_u64(dp1 + 2), vld1q_u64(dp2 + 2),
vld1q_u64(dp3 + 2));
v2 = eor3(vld1q_u64(dp1 + 4), vld1q_u64(dp2 + 4),
vld1q_u64(dp3 + 4));
v3 = eor3(vld1q_u64(dp1 + 6), vld1q_u64(dp2 + 6),
vld1q_u64(dp3 + 6));
v0 = eor3(v0, vld1q_u64(dp4 + 0), vld1q_u64(dp5 + 0));
v1 = eor3(v1, vld1q_u64(dp4 + 2), vld1q_u64(dp5 + 2));
v2 = eor3(v2, vld1q_u64(dp4 + 4), vld1q_u64(dp5 + 4));
v3 = eor3(v3, vld1q_u64(dp4 + 6), vld1q_u64(dp5 + 6));
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);
}
static int __init xor_neon_init(void)
{
if (cpu_have_named_feature(SHA3)) {
xor_block_inner_neon.do_3 = xor_arm64_eor3_3;
xor_block_inner_neon.do_4 = xor_arm64_eor3_4;
xor_block_inner_neon.do_5 = xor_arm64_eor3_5;
}
return 0;
}
module_init(xor_neon_init);
static void __exit xor_neon_exit(void)
{
}
module_exit(xor_neon_exit);
MODULE_AUTHOR("Jackie Liu <liuyun01@kylinos.cn>");
MODULE_DESCRIPTION("ARMv8 XOR Extensions");
MODULE_LICENSE("GPL");
