/* * libkmod - interface to kernel module operations * * Copyright (C) 2011-2013 ProFUSION embedded systems * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . */ #include #include #include #include #include #include struct hash_entry { const char *key; const void *value; }; struct hash_bucket { struct hash_entry *entries; unsigned int used; unsigned int total; }; struct hash { unsigned int count; unsigned int step; unsigned int n_buckets; void (*free_value)(void *value); struct hash_bucket buckets[]; }; struct hash *hash_new(unsigned int n_buckets, void (*free_value)(void *value)) { struct hash *hash; n_buckets = ALIGN_POWER2(n_buckets); hash = calloc(1, sizeof(struct hash) + n_buckets * sizeof(struct hash_bucket)); if (hash == NULL) return NULL; hash->n_buckets = n_buckets; hash->free_value = free_value; hash->step = n_buckets / 32; if (hash->step == 0) hash->step = 4; else if (hash->step > 64) hash->step = 64; return hash; } void hash_free(struct hash *hash) { struct hash_bucket *bucket, *bucket_end; if (hash == NULL) return; bucket = hash->buckets; bucket_end = bucket + hash->n_buckets; for (; bucket < bucket_end; bucket++) { if (hash->free_value) { struct hash_entry *entry, *entry_end; entry = bucket->entries; entry_end = entry + bucket->used; for (; entry < entry_end; entry++) hash->free_value((void *)entry->value); } free(bucket->entries); } free(hash); } static inline unsigned int hash_superfast(const char *key, unsigned int len) { /* Paul Hsieh (http://www.azillionmonkeys.com/qed/hash.html) * used by WebCore (http://webkit.org/blog/8/hashtables-part-2/) * EFL's eina and possible others. */ unsigned int tmp, hash = len, rem = len & 3; len /= 4; /* Main loop */ for (; len > 0; len--) { hash += get_unaligned((uint16_t *) key); tmp = (get_unaligned((uint16_t *)(key + 2)) << 11) ^ hash; hash = (hash << 16) ^ tmp; key += 4; hash += hash >> 11; } /* Handle end cases */ switch (rem) { case 3: hash += get_unaligned((uint16_t *) key); hash ^= hash << 16; hash ^= key[2] << 18; hash += hash >> 11; break; case 2: hash += get_unaligned((uint16_t *) key); hash ^= hash << 11; hash += hash >> 17; break; case 1: hash += *key; hash ^= hash << 10; hash += hash >> 1; } /* Force "avalanching" of final 127 bits */ hash ^= hash << 3; hash += hash >> 5; hash ^= hash << 4; hash += hash >> 17; hash ^= hash << 25; hash += hash >> 6; return hash; } /* * add or replace key in hash map. * * none of key or value are copied, just references are remembered as is, * make sure they are live while pair exists in hash! */ int hash_add(struct hash *hash, const char *key, const void *value) { unsigned int keylen = strlen(key); unsigned int hashval = hash_superfast(key, keylen); unsigned int pos = hashval & (hash->n_buckets - 1); struct hash_bucket *bucket = hash->buckets + pos; struct hash_entry *entry, *entry_end; if (bucket->used + 1 >= bucket->total) { unsigned new_total = bucket->total + hash->step; size_t size = new_total * sizeof(struct hash_entry); struct hash_entry *tmp = realloc(bucket->entries, size); if (tmp == NULL) return -errno; bucket->entries = tmp; bucket->total = new_total; } entry = bucket->entries; entry_end = entry + bucket->used; for (; entry < entry_end; entry++) { int c = strcmp(key, entry->key); if (c == 0) { if (hash->free_value) hash->free_value((void *)entry->value); entry->key = key; entry->value = value; return 0; } else if (c < 0) { memmove(entry + 1, entry, (entry_end - entry) * sizeof(struct hash_entry)); break; } } entry->key = key; entry->value = value; bucket->used++; hash->count++; return 0; } /* similar to hash_add(), but fails if key already exists */ int hash_add_unique(struct hash *hash, const char *key, const void *value) { unsigned int keylen = strlen(key); unsigned int hashval = hash_superfast(key, keylen); unsigned int pos = hashval & (hash->n_buckets - 1); struct hash_bucket *bucket = hash->buckets + pos; struct hash_entry *entry, *entry_end; if (bucket->used + 1 >= bucket->total) { unsigned new_total = bucket->total + hash->step; size_t size = new_total * sizeof(struct hash_entry); struct hash_entry *tmp = realloc(bucket->entries, size); if (tmp == NULL) return -errno; bucket->entries = tmp; bucket->total = new_total; } entry = bucket->entries; entry_end = entry + bucket->used; for (; entry < entry_end; entry++) { int c = strcmp(key, entry->key); if (c == 0) return -EEXIST; else if (c < 0) { memmove(entry + 1, entry, (entry_end - entry) * sizeof(struct hash_entry)); break; } } entry->key = key; entry->value = value; bucket->used++; hash->count++; return 0; } static int hash_entry_cmp(const void *pa, const void *pb) { const struct hash_entry *a = pa; const struct hash_entry *b = pb; return strcmp(a->key, b->key); } void *hash_find(const struct hash *hash, const char *key) { unsigned int keylen = strlen(key); unsigned int hashval = hash_superfast(key, keylen); unsigned int pos = hashval & (hash->n_buckets - 1); const struct hash_bucket *bucket = hash->buckets + pos; const struct hash_entry se = { .key = key, .value = NULL }; const struct hash_entry *entry; if (!bucket->entries) return NULL; entry = bsearch(&se, bucket->entries, bucket->used, sizeof(struct hash_entry), hash_entry_cmp); return entry ? (void *)entry->value : NULL; } int hash_del(struct hash *hash, const char *key) { unsigned int keylen = strlen(key); unsigned int hashval = hash_superfast(key, keylen); unsigned int pos = hashval & (hash->n_buckets - 1); unsigned int steps_used, steps_total; struct hash_bucket *bucket = hash->buckets + pos; struct hash_entry *entry, *entry_end; const struct hash_entry se = { .key = key, .value = NULL }; entry = bsearch(&se, bucket->entries, bucket->used, sizeof(struct hash_entry), hash_entry_cmp); if (entry == NULL) return -ENOENT; if (hash->free_value) hash->free_value((void *)entry->value); entry_end = bucket->entries + bucket->used; memmove(entry, entry + 1, (entry_end - entry) * sizeof(struct hash_entry)); bucket->used--; hash->count--; steps_used = bucket->used / hash->step; steps_total = bucket->total / hash->step; if (steps_used + 1 < steps_total) { size_t size = (steps_used + 1) * hash->step * sizeof(struct hash_entry); struct hash_entry *tmp = realloc(bucket->entries, size); if (tmp) { bucket->entries = tmp; bucket->total = (steps_used + 1) * hash->step; } } return 0; } unsigned int hash_get_count(const struct hash *hash) { return hash->count; } void hash_iter_init(const struct hash *hash, struct hash_iter *iter) { iter->hash = hash; iter->bucket = 0; iter->entry = -1; } bool hash_iter_next(struct hash_iter *iter, const char **key, const void **value) { const struct hash_bucket *b = iter->hash->buckets + iter->bucket; const struct hash_entry *e; iter->entry++; if (iter->entry >= b->used) { iter->entry = 0; for (iter->bucket++; iter->bucket < iter->hash->n_buckets; iter->bucket++) { b = iter->hash->buckets + iter->bucket; if (b->used > 0) break; } if (iter->bucket >= iter->hash->n_buckets) return false; } e = b->entries + iter->entry; if (value != NULL) *value = e->value; if (key != NULL) *key = e->key; return true; }