/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2010-2018 Intel Corporation */ #ifndef __INCLUDE_RTE_TABLE_HASH_FUNC_H__ #define __INCLUDE_RTE_TABLE_HASH_FUNC_H__ #ifdef __cplusplus extern "C" { #endif #include #include #include static inline uint64_t __rte_experimental rte_crc32_u64_generic(uint64_t crc, uint64_t value) { int i; crc = (crc & 0xFFFFFFFFLLU) ^ value; for (i = 63; i >= 0; i--) { uint64_t mask; mask = -(crc & 1LLU); crc = (crc >> 1LLU) ^ (0x82F63B78LLU & mask); } return crc; } #if defined(RTE_ARCH_X86_64) #include static inline uint64_t rte_crc32_u64(uint64_t crc, uint64_t v) { return _mm_crc32_u64(crc, v); } #elif defined(RTE_ARCH_ARM64) #include "rte_table_hash_func_arm64.h" #else static inline uint64_t rte_crc32_u64(uint64_t crc, uint64_t v) { return rte_crc32_u64_generic(crc, v); } #endif static inline uint64_t __rte_experimental rte_table_hash_crc_key8(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t crc0; crc0 = rte_crc32_u64(seed, k[0] & m[0]); return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key16(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, crc0, crc1; k0 = k[0] & m[0]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc0 ^= crc1; return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key24(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, k2, crc0, crc1; k0 = k[0] & m[0]; k2 = k[2] & m[2]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc0 = rte_crc32_u64(crc0, k2); crc0 ^= crc1; return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key32(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, k2, crc0, crc1, crc2, crc3; k0 = k[0] & m[0]; k2 = k[2] & m[2]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc2 = rte_crc32_u64(k2, k[3] & m[3]); crc3 = k2 >> 32; crc0 = rte_crc32_u64(crc0, crc1); crc1 = rte_crc32_u64(crc2, crc3); crc0 ^= crc1; return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key40(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, k2, crc0, crc1, crc2, crc3; k0 = k[0] & m[0]; k2 = k[2] & m[2]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc2 = rte_crc32_u64(k2, k[3] & m[3]); crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]); crc0 = rte_crc32_u64(crc0, crc1); crc1 = rte_crc32_u64(crc2, crc3); crc0 ^= crc1; return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key48(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, k2, k5, crc0, crc1, crc2, crc3; k0 = k[0] & m[0]; k2 = k[2] & m[2]; k5 = k[5] & m[5]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc2 = rte_crc32_u64(k2, k[3] & m[3]); crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]); crc0 = rte_crc32_u64(crc0, (crc1 << 32) ^ crc2); crc1 = rte_crc32_u64(crc3, k5); crc0 ^= crc1; return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key56(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, k2, k5, crc0, crc1, crc2, crc3, crc4, crc5; k0 = k[0] & m[0]; k2 = k[2] & m[2]; k5 = k[5] & m[5]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc2 = rte_crc32_u64(k2, k[3] & m[3]); crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]); crc4 = rte_crc32_u64(k5, k[6] & m[6]); crc5 = k5 >> 32; crc0 = rte_crc32_u64(crc0, (crc1 << 32) ^ crc2); crc1 = rte_crc32_u64(crc3, (crc4 << 32) ^ crc5); crc0 ^= crc1; return crc0; } static inline uint64_t __rte_experimental rte_table_hash_crc_key64(void *key, void *mask, __rte_unused uint32_t key_size, uint64_t seed) { uint64_t *k = key; uint64_t *m = mask; uint64_t k0, k2, k5, crc0, crc1, crc2, crc3, crc4, crc5; k0 = k[0] & m[0]; k2 = k[2] & m[2]; k5 = k[5] & m[5]; crc0 = rte_crc32_u64(k0, seed); crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]); crc2 = rte_crc32_u64(k2, k[3] & m[3]); crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]); crc4 = rte_crc32_u64(k5, k[6] & m[6]); crc5 = rte_crc32_u64(k5 >> 32, k[7] & m[7]); crc0 = rte_crc32_u64(crc0, (crc1 << 32) ^ crc2); crc1 = rte_crc32_u64(crc3, (crc4 << 32) ^ crc5); crc0 ^= crc1; return crc0; } #ifdef __cplusplus } #endif #endif