/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include /** * The hash multiplier used to calculate hash value. */ #define PJ_HASH_MULTIPLIER 33 struct pj_hash_entry { struct pj_hash_entry *next; void *key; pj_uint32_t hash; pj_uint32_t keylen; void *value; }; struct pj_hash_table_t { pj_hash_entry **table; unsigned count, rows; pj_hash_iterator_t iterator; }; PJ_DEF(pj_uint32_t) pj_hash_calc(pj_uint32_t hash, const void *key, unsigned keylen) { PJ_CHECK_STACK(); if (keylen==PJ_HASH_KEY_STRING) { const pj_uint8_t *p = (const pj_uint8_t*)key; for ( ; *p; ++p ) { hash = (hash * PJ_HASH_MULTIPLIER) + *p; } } else { const pj_uint8_t *p = (const pj_uint8_t*)key, *end = p + keylen; for ( ; p!=end; ++p) { hash = (hash * PJ_HASH_MULTIPLIER) + *p; } } return hash; } PJ_DEF(pj_uint32_t) pj_hash_calc_tolower( pj_uint32_t hval, char *result, const pj_str_t *key) { long i; for (i=0; islen; ++i) { char lower = (char)pj_tolower(key->ptr[i]); if (result) result[i] = lower; hval = hval * PJ_HASH_MULTIPLIER + lower; } return hval; } PJ_DEF(pj_hash_table_t*) pj_hash_create(pj_pool_t *pool, unsigned size) { pj_hash_table_t *h; unsigned table_size; /* Check that PJ_HASH_ENTRY_BUF_SIZE is correct. */ PJ_ASSERT_RETURN(sizeof(pj_hash_entry)<=PJ_HASH_ENTRY_BUF_SIZE, NULL); h = PJ_POOL_ALLOC_T(pool, pj_hash_table_t); h->count = 0; PJ_LOG( 6, ("hashtbl", "hash table %p created from pool %s", h, pj_pool_getobjname(pool))); /* size must be 2^n - 1. round-up the size to this rule, except when size is 2^n, then size will be round-down to 2^n-1. */ table_size = 8; do { table_size <<= 1; } while (table_size < size); table_size -= 1; h->rows = table_size; h->table = (pj_hash_entry**) pj_pool_calloc(pool, table_size+1, sizeof(pj_hash_entry*)); return h; } static pj_hash_entry **find_entry( pj_pool_t *pool, pj_hash_table_t *ht, const void *key, unsigned keylen, void *val, pj_uint32_t *hval, void *entry_buf, pj_bool_t lower) { pj_uint32_t hash; pj_hash_entry **p_entry, *entry; if (hval && *hval != 0) { hash = *hval; if (keylen==PJ_HASH_KEY_STRING) { keylen = (unsigned)pj_ansi_strlen((const char*)key); } } else { /* This slightly differs with pj_hash_calc() because we need * to get the keylen when keylen is PJ_HASH_KEY_STRING. */ hash=0; if (keylen==PJ_HASH_KEY_STRING) { const pj_uint8_t *p = (const pj_uint8_t*)key; for ( ; *p; ++p ) { if (lower) hash = hash * PJ_HASH_MULTIPLIER + pj_tolower(*p); else hash = hash * PJ_HASH_MULTIPLIER + *p; } keylen = (unsigned)(p - (const unsigned char*)key); } else { const pj_uint8_t *p = (const pj_uint8_t*)key, *end = p + keylen; for ( ; p!=end; ++p) { if (lower) hash = hash * PJ_HASH_MULTIPLIER + pj_tolower(*p); else hash = hash * PJ_HASH_MULTIPLIER + *p; } } /* Report back the computed hash. */ if (hval) *hval = hash; } /* scan the linked list */ for (p_entry = &ht->table[hash & ht->rows], entry=*p_entry; entry; p_entry = &entry->next, entry = *p_entry) { if (entry->hash==hash && entry->keylen==keylen && ((lower && pj_ansi_strnicmp((const char*)entry->key, (const char*)key, keylen)==0) || (!lower && pj_memcmp(entry->key, key, keylen)==0))) { break; } } if (entry || val==NULL) return p_entry; /* Entry not found, create a new one. * If entry_buf is specified, use it. Otherwise allocate from pool. */ if (entry_buf) { entry = (pj_hash_entry*)entry_buf; } else { /* Pool must be specified! */ PJ_ASSERT_RETURN(pool != NULL, NULL); entry = PJ_POOL_ALLOC_T(pool, pj_hash_entry); PJ_LOG(6, ("hashtbl", "%p: New p_entry %p created, pool used=%u, cap=%u", ht, entry, pj_pool_get_used_size(pool), pj_pool_get_capacity(pool))); } entry->next = NULL; entry->hash = hash; if (pool) { entry->key = pj_pool_alloc(pool, keylen); pj_memcpy(entry->key, key, keylen); } else { entry->key = (void*)key; } entry->keylen = keylen; entry->value = val; *p_entry = entry; ++ht->count; return p_entry; } PJ_DEF(void *) pj_hash_get( pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t *hval) { pj_hash_entry *entry; entry = *find_entry( NULL, ht, key, keylen, NULL, hval, NULL, PJ_FALSE); return entry ? entry->value : NULL; } PJ_DEF(void *) pj_hash_get_lower( pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t *hval) { pj_hash_entry *entry; entry = *find_entry( NULL, ht, key, keylen, NULL, hval, NULL, PJ_TRUE); return entry ? entry->value : NULL; } static void hash_set( pj_pool_t *pool, pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t hval, void *value, void *entry_buf, pj_bool_t lower ) { pj_hash_entry **p_entry; p_entry = find_entry( pool, ht, key, keylen, value, &hval, entry_buf, lower); if (*p_entry) { if (value == NULL) { /* delete entry */ PJ_LOG(6, ("hashtbl", "%p: p_entry %p deleted", ht, *p_entry)); *p_entry = (*p_entry)->next; --ht->count; } else { /* overwrite */ (*p_entry)->value = value; PJ_LOG(6, ("hashtbl", "%p: p_entry %p value set to %p", ht, *p_entry, value)); } } } PJ_DEF(void) pj_hash_set( pj_pool_t *pool, pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t hval, void *value ) { hash_set(pool, ht, key, keylen, hval, value, NULL, PJ_FALSE); } PJ_DEF(void) pj_hash_set_lower( pj_pool_t *pool, pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t hval, void *value ) { hash_set(pool, ht, key, keylen, hval, value, NULL, PJ_TRUE); } PJ_DEF(void) pj_hash_set_np( pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t hval, pj_hash_entry_buf entry_buf, void *value) { hash_set(NULL, ht, key, keylen, hval, value, (void *)entry_buf, PJ_FALSE); } PJ_DEF(void) pj_hash_set_np_lower( pj_hash_table_t *ht, const void *key, unsigned keylen, pj_uint32_t hval, pj_hash_entry_buf entry_buf, void *value) { hash_set(NULL, ht, key, keylen, hval, value, (void *)entry_buf, PJ_TRUE); } PJ_DEF(unsigned) pj_hash_count( pj_hash_table_t *ht ) { return ht->count; } PJ_DEF(pj_hash_iterator_t*) pj_hash_first( pj_hash_table_t *ht, pj_hash_iterator_t *it ) { it->index = 0; it->entry = NULL; for (; it->index <= ht->rows; ++it->index) { it->entry = ht->table[it->index]; if (it->entry) { break; } } return it->entry ? it : NULL; } PJ_DEF(pj_hash_iterator_t*) pj_hash_next( pj_hash_table_t *ht, pj_hash_iterator_t *it ) { it->entry = it->entry->next; if (it->entry) { return it; } for (++it->index; it->index <= ht->rows; ++it->index) { it->entry = ht->table[it->index]; if (it->entry) { break; } } return it->entry ? it : NULL; } PJ_DEF(void*) pj_hash_this( pj_hash_table_t *ht, pj_hash_iterator_t *it ) { PJ_CHECK_STACK(); PJ_UNUSED_ARG(ht); return it->entry->value; } #if 0 void pj_hash_dump_collision( pj_hash_table_t *ht ) { unsigned min=0xFFFFFFFF, max=0; unsigned i; char line[120]; int len, totlen = 0; for (i=0; i<=ht->rows; ++i) { unsigned count = 0; pj_hash_entry *entry = ht->table[i]; while (entry) { ++count; entry = entry->next; } if (count < min) min = count; if (count > max) max = count; len = pj_snprintf( line+totlen, sizeof(line)-totlen, "%3d:%3d ", i, count); if (len < 1) break; totlen += len; if ((i+1) % 10 == 0) { line[totlen] = '\0'; PJ_LOG(4,(__FILE__, line)); } } PJ_LOG(4,(__FILE__,"Count: %d, min: %d, max: %d\n", ht->count, min, max)); } #endif