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sse_hash3.c
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#include <sys/types.h>
#include <stdint.h>
#include <string.h>
#include <x86intrin.h>
#include "sse_hash3.h"
static const __m128i k1 = { 0xcc9e2d51db873593, 0xcc9e2d51db873593 };
static const __m128i s1 = { 0xc05bbd6b47c57574, 0xf83c1e9e4a934534 };
static const __m128i s2 = { 0xa224e4507e645d91, 0xe7a9131a4b842813 };
static const __m128i s3 = { 0x58f082e3580f347e, 0xceb5795349196aff };
static const __m128i s4 = { 0xb549200b5168588f, 0xfd5c07200540ada5 };
static inline __m128i
mix128(const __m128i h)
{
__m128i a, b;
a = _mm_xor_si128(h, k1);
b = _mm_alignr_epi8(a, a, 12);
a = _mm_mul_epu32(a, b);
return a;
}
static inline __m128i
round128(const __m128i h, const __m128i x)
{
__m128i a;
a = _mm_xor_si128(h, x);
a = mix128(a);
return a;
}
static inline __m128i
combine128(const __m128i h, const __m128i x)
{
__m128i a, m;
m = _mm_set_epi32(3, 3, 3, 3);
a = _mm_mullo_epi32(h, m);
a = _mm_add_epi64(a, x);
return a;
}
static inline __m128i
fmix128(const __m128i h)
{
__m128i a;
a = _mm_xor_si128(h, _mm_srli_epi32(h, 16));
a = _mm_mullo_epi32(a, k1);
a = _mm_xor_si128(a, _mm_srli_epi32(a, 16));
return a;
}
void
sse_hash3_start_seed(sse_hash3_state_t * const state,
const void * const seed)
{
__m128i s;
s = _mm_loadu_si128(seed);
state->x1 = _mm_xor_si128(s1, s);
state->x2 = _mm_xor_si128(s2, s);
state->x3 = _mm_xor_si128(s3, s);
state->x4 = _mm_xor_si128(s4, s);
state->block_size = sizeof(state->buf);
state->count = 0;
state->total_len = 0;
}
void
sse_hash3_start(sse_hash3_state_t * const state)
{
uint64_t seed[2] = { 0, 0 };
sse_hash3_start_seed(state, seed);
}
void
sse_hash3_update(sse_hash3_state_t * const state, const void * const data,
const size_t len)
{
__m128i *v;
__m128i x1, x2, x3, x4;
const unsigned char *curr = data;
size_t llen;
uint32_t left;
if (data == NULL || len == 0)
return;
if (state->count + len < state->block_size) {
memcpy(state->buf.chars + state->count, data, len);
state->count += len;
return;
}
llen = len;
if (state->count > 0) {
left = state->block_size - state->count;
memcpy(state->buf.chars + state->count, data, left);
llen -= left;
curr += left;
}
x1 = state->x1;
x2 = state->x2;
x3 = state->x3;
x4 = state->x4;
if (state->count > 0) {
v = state->buf.ints;
x1 = round128(x1, v[0]);
x2 = round128(x2, v[1]);
x3 = round128(x3, v[2]);
x4 = round128(x4, v[3]);
state->count = 0;
}
while (llen >= state->block_size) {
v = (__m128i_u *)curr;
x1 = round128(x1, _mm_loadu_si128(&v[0]));
x2 = round128(x2, _mm_loadu_si128(&v[1]));
x3 = round128(x3, _mm_loadu_si128(&v[2]));
x4 = round128(x4, _mm_loadu_si128(&v[3]));
curr += state->block_size;
llen -= state->block_size;
}
state->x1 = x1;
state->x2 = x2;
state->x3 = x3;
state->x4 = x4;
if (llen > 0) {
memcpy(state->buf.chars, curr, llen);
state->count = llen;
}
}
static const unsigned char padding[256] = { 0x80 };
void
sse_hash3_end(sse_hash3_state_t * const state, sse_hash3_t * const hash)
{
__m128i h, x1, x2, x3, x4;
uint64_t total_len;
uint32_t len, i;
total_len = state->total_len;
len = (state->count < 56) ? 56 - state->count : 120 - state->count;
sse_hash3_update(state, padding, len);
sse_hash3_update(state, &total_len, 8);
x1 = state->x1;
x2 = state->x2;
x3 = state->x3;
x4 = state->x4;
for (i = 0; i < 4; i++) {
x1 = mix128(x1);
x2 = mix128(x2);
x3 = mix128(x3);
x4 = mix128(x4);
}
x1 = combine128(x1, x2);
x3 = combine128(x3, x4);
h = combine128(x1, x3);
h = fmix128(h);
_mm_storeu_si128((__m128i_u *)hash, h);
}
void
sse_hash3_seed(const void * const data, const size_t len,
const void * const seed, sse_hash3_t * const hash)
{
sse_hash3_state_t sse_hash2;
sse_hash3_start_seed(&sse_hash2, seed);
sse_hash3_update(&sse_hash2, data, len);
sse_hash3_end(&sse_hash2, hash);
}
void
sse_hash3(const void * const data, const size_t len,
sse_hash3_t * const hash)
{
uint64_t seed[2] = { 0, 0 };
sse_hash3_seed(data, len, seed, hash);
}