#include #include "bloom.h" #include "../hash.h" #include "../crc/xxhash.h" #include "../crc/murmur3.h" #include "../crc/crc32c.h" #include "../crc/fnv.h" struct bloom { uint64_t nentries; uint32_t *map; }; #define BITS_PER_INDEX (sizeof(uint32_t) * 8) #define BITS_INDEX_MASK (BITS_PER_INDEX - 1) struct bloom_hash { unsigned int seed; uint32_t (*fn)(const void *, uint32_t, uint32_t); }; static uint32_t bloom_crc32c(const void *buf, uint32_t len, uint32_t seed) { return fio_crc32c(buf, len); } static uint32_t bloom_fnv(const void *buf, uint32_t len, uint32_t seed) { return fnv(buf, len, seed); } #define BLOOM_SEED 0x8989 static struct bloom_hash hashes[] = { { .seed = BLOOM_SEED, .fn = jhash, }, { .seed = BLOOM_SEED, .fn = XXH32, }, { .seed = BLOOM_SEED, .fn = murmurhash3, }, { .seed = BLOOM_SEED, .fn = bloom_crc32c, }, { .seed = BLOOM_SEED, .fn = bloom_fnv, }, }; #define N_HASHES 5 struct bloom *bloom_new(uint64_t entries) { struct bloom *b; size_t no_uints; crc32c_arm64_probe(); crc32c_intel_probe(); b = malloc(sizeof(*b)); b->nentries = entries; no_uints = (entries + BITS_PER_INDEX - 1) / BITS_PER_INDEX; b->map = calloc(no_uints, sizeof(uint32_t)); if (!b->map) { free(b); return NULL; } return b; } void bloom_free(struct bloom *b) { free(b->map); free(b); } static bool __bloom_check(struct bloom *b, const void *data, unsigned int len, bool set) { uint32_t hash[N_HASHES]; int i, was_set; for (i = 0; i < N_HASHES; i++) { hash[i] = hashes[i].fn(data, len, hashes[i].seed); hash[i] = hash[i] % b->nentries; } was_set = 0; for (i = 0; i < N_HASHES; i++) { const unsigned int index = hash[i] / BITS_PER_INDEX; const unsigned int bit = hash[i] & BITS_INDEX_MASK; if (b->map[index] & (1U << bit)) was_set++; else if (set) b->map[index] |= 1U << bit; else break; } return was_set == N_HASHES; } bool bloom_set(struct bloom *b, uint32_t *data, unsigned int nwords) { return __bloom_check(b, data, nwords * sizeof(uint32_t), true); } bool bloom_string(struct bloom *b, const char *data, unsigned int len, bool set) { return __bloom_check(b, data, len, set); }