468 lines
11 KiB
C
468 lines
11 KiB
C
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// SPDX-License-Identifier: (GPL-2.0 or BSD-2-Clause)
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/*
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* xxHash - Extremely Fast Hash algorithm
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* Copyright (C) 2012-2016, Yann Collet.
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*
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* You can contact the author at:
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* - xxHash homepage: http://cyan4973.github.io/xxHash/
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* - xxHash source repository: https://github.com/Cyan4973/xxHash
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*/
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#include <asm/unaligned.h>
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#include <linux/errno.h>
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#include <linux/compiler.h>
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#include <linux/kernel.h>
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#include <linux/compat.h>
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#include <linux/string.h>
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#include <linux/xxhash.h>
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/*-*************************************
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* Macros
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**************************************/
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#define xxh_rotl32(x, r) ((x << r) | (x >> (32 - r)))
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#define xxh_rotl64(x, r) ((x << r) | (x >> (64 - r)))
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#ifdef __LITTLE_ENDIAN
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# define XXH_CPU_LITTLE_ENDIAN 1
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#else
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# define XXH_CPU_LITTLE_ENDIAN 0
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#endif
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/*-*************************************
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* Constants
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**************************************/
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static const uint32_t PRIME32_1 = 2654435761U;
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static const uint32_t PRIME32_2 = 2246822519U;
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static const uint32_t PRIME32_3 = 3266489917U;
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static const uint32_t PRIME32_4 = 668265263U;
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static const uint32_t PRIME32_5 = 374761393U;
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static const uint64_t PRIME64_1 = 11400714785074694791ULL;
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static const uint64_t PRIME64_2 = 14029467366897019727ULL;
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static const uint64_t PRIME64_3 = 1609587929392839161ULL;
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static const uint64_t PRIME64_4 = 9650029242287828579ULL;
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static const uint64_t PRIME64_5 = 2870177450012600261ULL;
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/*-**************************
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* Utils
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***************************/
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void xxh32_copy_state(struct xxh32_state *dst, const struct xxh32_state *src)
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{
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memcpy(dst, src, sizeof(*dst));
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}
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EXPORT_SYMBOL(xxh32_copy_state);
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void xxh64_copy_state(struct xxh64_state *dst, const struct xxh64_state *src)
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{
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memcpy(dst, src, sizeof(*dst));
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}
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EXPORT_SYMBOL(xxh64_copy_state);
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/*-***************************
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* Simple Hash Functions
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****************************/
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static uint32_t xxh32_round(uint32_t seed, const uint32_t input)
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{
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seed += input * PRIME32_2;
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seed = xxh_rotl32(seed, 13);
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seed *= PRIME32_1;
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return seed;
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}
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uint32_t xxh32(const void *input, const size_t len, const uint32_t seed)
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{
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const uint8_t *p = (const uint8_t *)input;
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const uint8_t *b_end = p + len;
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uint32_t h32;
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if (len >= 16) {
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const uint8_t *const limit = b_end - 16;
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uint32_t v1 = seed + PRIME32_1 + PRIME32_2;
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uint32_t v2 = seed + PRIME32_2;
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uint32_t v3 = seed + 0;
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uint32_t v4 = seed - PRIME32_1;
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do {
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v1 = xxh32_round(v1, get_unaligned_le32(p));
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p += 4;
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v2 = xxh32_round(v2, get_unaligned_le32(p));
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p += 4;
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v3 = xxh32_round(v3, get_unaligned_le32(p));
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p += 4;
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v4 = xxh32_round(v4, get_unaligned_le32(p));
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p += 4;
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} while (p <= limit);
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h32 = xxh_rotl32(v1, 1) + xxh_rotl32(v2, 7) +
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xxh_rotl32(v3, 12) + xxh_rotl32(v4, 18);
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} else {
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h32 = seed + PRIME32_5;
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}
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h32 += (uint32_t)len;
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while (p + 4 <= b_end) {
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h32 += get_unaligned_le32(p) * PRIME32_3;
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h32 = xxh_rotl32(h32, 17) * PRIME32_4;
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p += 4;
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}
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while (p < b_end) {
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h32 += (*p) * PRIME32_5;
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h32 = xxh_rotl32(h32, 11) * PRIME32_1;
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p++;
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}
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h32 ^= h32 >> 15;
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h32 *= PRIME32_2;
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h32 ^= h32 >> 13;
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h32 *= PRIME32_3;
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h32 ^= h32 >> 16;
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return h32;
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}
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EXPORT_SYMBOL(xxh32);
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static uint64_t xxh64_round(uint64_t acc, const uint64_t input)
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{
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acc += input * PRIME64_2;
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acc = xxh_rotl64(acc, 31);
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acc *= PRIME64_1;
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return acc;
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}
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static uint64_t xxh64_merge_round(uint64_t acc, uint64_t val)
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{
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val = xxh64_round(0, val);
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acc ^= val;
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acc = acc * PRIME64_1 + PRIME64_4;
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return acc;
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}
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uint64_t xxh64(const void *input, const size_t len, const uint64_t seed)
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{
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const uint8_t *p = (const uint8_t *)input;
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const uint8_t *const b_end = p + len;
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uint64_t h64;
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if (len >= 32) {
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const uint8_t *const limit = b_end - 32;
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uint64_t v1 = seed + PRIME64_1 + PRIME64_2;
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uint64_t v2 = seed + PRIME64_2;
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uint64_t v3 = seed + 0;
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uint64_t v4 = seed - PRIME64_1;
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do {
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v1 = xxh64_round(v1, get_unaligned_le64(p));
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p += 8;
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v2 = xxh64_round(v2, get_unaligned_le64(p));
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p += 8;
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v3 = xxh64_round(v3, get_unaligned_le64(p));
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p += 8;
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v4 = xxh64_round(v4, get_unaligned_le64(p));
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p += 8;
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} while (p <= limit);
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h64 = xxh_rotl64(v1, 1) + xxh_rotl64(v2, 7) +
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xxh_rotl64(v3, 12) + xxh_rotl64(v4, 18);
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h64 = xxh64_merge_round(h64, v1);
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h64 = xxh64_merge_round(h64, v2);
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h64 = xxh64_merge_round(h64, v3);
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h64 = xxh64_merge_round(h64, v4);
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} else {
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h64 = seed + PRIME64_5;
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}
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h64 += (uint64_t)len;
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while (p + 8 <= b_end) {
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const uint64_t k1 = xxh64_round(0, get_unaligned_le64(p));
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h64 ^= k1;
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h64 = xxh_rotl64(h64, 27) * PRIME64_1 + PRIME64_4;
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p += 8;
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}
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if (p + 4 <= b_end) {
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h64 ^= (uint64_t)(get_unaligned_le32(p)) * PRIME64_1;
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h64 = xxh_rotl64(h64, 23) * PRIME64_2 + PRIME64_3;
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p += 4;
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}
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while (p < b_end) {
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h64 ^= (*p) * PRIME64_5;
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h64 = xxh_rotl64(h64, 11) * PRIME64_1;
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p++;
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}
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h64 ^= h64 >> 33;
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h64 *= PRIME64_2;
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h64 ^= h64 >> 29;
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h64 *= PRIME64_3;
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h64 ^= h64 >> 32;
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return h64;
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}
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EXPORT_SYMBOL(xxh64);
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/*-**************************************************
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* Advanced Hash Functions
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***************************************************/
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void xxh32_reset(struct xxh32_state *statePtr, const uint32_t seed)
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{
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/* use a local state for memcpy() to avoid strict-aliasing warnings */
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struct xxh32_state state;
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memset(&state, 0, sizeof(state));
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state.v1 = seed + PRIME32_1 + PRIME32_2;
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state.v2 = seed + PRIME32_2;
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state.v3 = seed + 0;
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state.v4 = seed - PRIME32_1;
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memcpy(statePtr, &state, sizeof(state));
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}
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EXPORT_SYMBOL(xxh32_reset);
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void xxh64_reset(struct xxh64_state *statePtr, const uint64_t seed)
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{
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/* use a local state for memcpy() to avoid strict-aliasing warnings */
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struct xxh64_state state;
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memset(&state, 0, sizeof(state));
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state.v1 = seed + PRIME64_1 + PRIME64_2;
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state.v2 = seed + PRIME64_2;
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state.v3 = seed + 0;
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state.v4 = seed - PRIME64_1;
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memcpy(statePtr, &state, sizeof(state));
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}
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EXPORT_SYMBOL(xxh64_reset);
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int xxh32_update(struct xxh32_state *state, const void *input, const size_t len)
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{
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const uint8_t *p = (const uint8_t *)input;
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const uint8_t *const b_end = p + len;
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if (input == NULL)
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return -EINVAL;
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state->total_len_32 += (uint32_t)len;
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state->large_len |= (len >= 16) | (state->total_len_32 >= 16);
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if (state->memsize + len < 16) { /* fill in tmp buffer */
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memcpy((uint8_t *)(state->mem32) + state->memsize, input, len);
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state->memsize += (uint32_t)len;
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return 0;
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}
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if (state->memsize) { /* some data left from previous update */
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const uint32_t *p32 = state->mem32;
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memcpy((uint8_t *)(state->mem32) + state->memsize, input,
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16 - state->memsize);
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state->v1 = xxh32_round(state->v1, get_unaligned_le32(p32));
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p32++;
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state->v2 = xxh32_round(state->v2, get_unaligned_le32(p32));
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p32++;
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state->v3 = xxh32_round(state->v3, get_unaligned_le32(p32));
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p32++;
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state->v4 = xxh32_round(state->v4, get_unaligned_le32(p32));
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p32++;
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p += 16-state->memsize;
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state->memsize = 0;
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}
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if (p <= b_end - 16) {
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const uint8_t *const limit = b_end - 16;
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uint32_t v1 = state->v1;
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uint32_t v2 = state->v2;
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uint32_t v3 = state->v3;
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uint32_t v4 = state->v4;
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do {
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v1 = xxh32_round(v1, get_unaligned_le32(p));
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p += 4;
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v2 = xxh32_round(v2, get_unaligned_le32(p));
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p += 4;
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v3 = xxh32_round(v3, get_unaligned_le32(p));
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p += 4;
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v4 = xxh32_round(v4, get_unaligned_le32(p));
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p += 4;
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} while (p <= limit);
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state->v1 = v1;
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state->v2 = v2;
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state->v3 = v3;
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state->v4 = v4;
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}
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if (p < b_end) {
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memcpy(state->mem32, p, (size_t)(b_end-p));
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state->memsize = (uint32_t)(b_end-p);
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}
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return 0;
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}
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EXPORT_SYMBOL(xxh32_update);
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uint32_t xxh32_digest(const struct xxh32_state *state)
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{
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const uint8_t *p = (const uint8_t *)state->mem32;
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const uint8_t *const b_end = (const uint8_t *)(state->mem32) +
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state->memsize;
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uint32_t h32;
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if (state->large_len) {
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h32 = xxh_rotl32(state->v1, 1) + xxh_rotl32(state->v2, 7) +
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xxh_rotl32(state->v3, 12) + xxh_rotl32(state->v4, 18);
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} else {
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h32 = state->v3 /* == seed */ + PRIME32_5;
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}
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h32 += state->total_len_32;
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while (p + 4 <= b_end) {
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h32 += get_unaligned_le32(p) * PRIME32_3;
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h32 = xxh_rotl32(h32, 17) * PRIME32_4;
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p += 4;
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}
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while (p < b_end) {
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h32 += (*p) * PRIME32_5;
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h32 = xxh_rotl32(h32, 11) * PRIME32_1;
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p++;
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}
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h32 ^= h32 >> 15;
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h32 *= PRIME32_2;
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h32 ^= h32 >> 13;
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h32 *= PRIME32_3;
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h32 ^= h32 >> 16;
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return h32;
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}
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EXPORT_SYMBOL(xxh32_digest);
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int xxh64_update(struct xxh64_state *state, const void *input, const size_t len)
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{
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const uint8_t *p = (const uint8_t *)input;
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const uint8_t *const b_end = p + len;
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if (input == NULL)
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return -EINVAL;
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state->total_len += len;
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if (state->memsize + len < 32) { /* fill in tmp buffer */
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memcpy(((uint8_t *)state->mem64) + state->memsize, input, len);
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state->memsize += (uint32_t)len;
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return 0;
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}
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if (state->memsize) { /* tmp buffer is full */
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uint64_t *p64 = state->mem64;
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memcpy(((uint8_t *)p64) + state->memsize, input,
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32 - state->memsize);
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state->v1 = xxh64_round(state->v1, get_unaligned_le64(p64));
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p64++;
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state->v2 = xxh64_round(state->v2, get_unaligned_le64(p64));
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p64++;
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state->v3 = xxh64_round(state->v3, get_unaligned_le64(p64));
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p64++;
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state->v4 = xxh64_round(state->v4, get_unaligned_le64(p64));
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p += 32 - state->memsize;
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state->memsize = 0;
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}
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if (p + 32 <= b_end) {
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const uint8_t *const limit = b_end - 32;
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uint64_t v1 = state->v1;
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uint64_t v2 = state->v2;
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uint64_t v3 = state->v3;
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uint64_t v4 = state->v4;
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do {
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v1 = xxh64_round(v1, get_unaligned_le64(p));
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p += 8;
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v2 = xxh64_round(v2, get_unaligned_le64(p));
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p += 8;
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v3 = xxh64_round(v3, get_unaligned_le64(p));
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p += 8;
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v4 = xxh64_round(v4, get_unaligned_le64(p));
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p += 8;
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} while (p <= limit);
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state->v1 = v1;
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state->v2 = v2;
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state->v3 = v3;
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state->v4 = v4;
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}
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if (p < b_end) {
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memcpy(state->mem64, p, (size_t)(b_end-p));
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state->memsize = (uint32_t)(b_end - p);
|
||
|
}
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
EXPORT_SYMBOL(xxh64_update);
|
||
|
|
||
|
uint64_t xxh64_digest(const struct xxh64_state *state)
|
||
|
{
|
||
|
const uint8_t *p = (const uint8_t *)state->mem64;
|
||
|
const uint8_t *const b_end = (const uint8_t *)state->mem64 +
|
||
|
state->memsize;
|
||
|
uint64_t h64;
|
||
|
|
||
|
if (state->total_len >= 32) {
|
||
|
const uint64_t v1 = state->v1;
|
||
|
const uint64_t v2 = state->v2;
|
||
|
const uint64_t v3 = state->v3;
|
||
|
const uint64_t v4 = state->v4;
|
||
|
|
||
|
h64 = xxh_rotl64(v1, 1) + xxh_rotl64(v2, 7) +
|
||
|
xxh_rotl64(v3, 12) + xxh_rotl64(v4, 18);
|
||
|
h64 = xxh64_merge_round(h64, v1);
|
||
|
h64 = xxh64_merge_round(h64, v2);
|
||
|
h64 = xxh64_merge_round(h64, v3);
|
||
|
h64 = xxh64_merge_round(h64, v4);
|
||
|
} else {
|
||
|
h64 = state->v3 + PRIME64_5;
|
||
|
}
|
||
|
|
||
|
h64 += (uint64_t)state->total_len;
|
||
|
|
||
|
while (p + 8 <= b_end) {
|
||
|
const uint64_t k1 = xxh64_round(0, get_unaligned_le64(p));
|
||
|
|
||
|
h64 ^= k1;
|
||
|
h64 = xxh_rotl64(h64, 27) * PRIME64_1 + PRIME64_4;
|
||
|
p += 8;
|
||
|
}
|
||
|
|
||
|
if (p + 4 <= b_end) {
|
||
|
h64 ^= (uint64_t)(get_unaligned_le32(p)) * PRIME64_1;
|
||
|
h64 = xxh_rotl64(h64, 23) * PRIME64_2 + PRIME64_3;
|
||
|
p += 4;
|
||
|
}
|
||
|
|
||
|
while (p < b_end) {
|
||
|
h64 ^= (*p) * PRIME64_5;
|
||
|
h64 = xxh_rotl64(h64, 11) * PRIME64_1;
|
||
|
p++;
|
||
|
}
|
||
|
|
||
|
h64 ^= h64 >> 33;
|
||
|
h64 *= PRIME64_2;
|
||
|
h64 ^= h64 >> 29;
|
||
|
h64 *= PRIME64_3;
|
||
|
h64 ^= h64 >> 32;
|
||
|
|
||
|
return h64;
|
||
|
}
|
||
|
EXPORT_SYMBOL(xxh64_digest);
|