/* Copyright (c) 2013, Vsevolod Stakhov * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "ucl_internal.h" #include "ucl_hash.h" #include "khash.h" #include "kvec.h" #include "cryptobox.h" #include "libutil/str_util.h" #include #include struct ucl_hash_elt { const ucl_object_t *obj; size_t ar_idx; }; struct ucl_hash_struct { void *hash; kvec_t(const ucl_object_t *) ar; bool caseless; }; static uint64_t ucl_hash_seed (void) { static uint64_t seed; if (seed == 0) { #ifdef UCL_RANDOM_FUNCTION seed = UCL_RANDOM_FUNCTION; #else /* Not very random but can be useful for our purposes */ seed = time (NULL); #endif } return seed; } extern const guchar lc_map[256]; static inline uint32_t ucl_hash_func (const ucl_object_t *o) { return rspamd_cryptobox_fast_hash (o->key, o->keylen, ucl_hash_seed ()); } static inline int ucl_hash_equal (const ucl_object_t *k1, const ucl_object_t *k2) { if (k1->keylen == k2->keylen) { return memcmp (k1->key, k2->key, k1->keylen) == 0; } return 0; } KHASH_INIT (ucl_hash_node, const ucl_object_t *, struct ucl_hash_elt, 1, ucl_hash_func, ucl_hash_equal) static inline uint32_t ucl_hash_caseless_func (const ucl_object_t *o) { unsigned len = o->keylen; unsigned leftover = o->keylen % 4; unsigned fp, i; const uint8_t* s = (const uint8_t*)o->key; union { struct { unsigned char c1, c2, c3, c4; } c; uint32_t pp; } u; uint64_t h = ucl_hash_seed (); fp = len - leftover; for (i = 0; i != fp; i += 4) { u.c.c1 = s[i], u.c.c2 = s[i + 1], u.c.c3 = s[i + 2], u.c.c4 = s[i + 3]; u.c.c1 = lc_map[u.c.c1]; u.c.c2 = lc_map[u.c.c2]; u.c.c3 = lc_map[u.c.c3]; u.c.c4 = lc_map[u.c.c4]; h = rspamd_cryptobox_fast_hash (&u.pp, sizeof (u), h); } u.pp = 0; switch (leftover) { case 3: u.c.c3 = lc_map[(unsigned char)s[i++]]; case 2: u.c.c2 = lc_map[(unsigned char)s[i++]]; case 1: u.c.c1 = lc_map[(unsigned char)s[i]]; rspamd_cryptobox_fast_hash (&u.pp, leftover, h); break; } return h; } static inline int ucl_hash_caseless_equal (const ucl_object_t *k1, const ucl_object_t *k2) { if (k1->keylen == k2->keylen) { return rspamd_lc_cmp (k1->key, k2->key, k1->keylen) == 0; } return 0; } KHASH_INIT (ucl_hash_caseless_node, const ucl_object_t *, struct ucl_hash_elt, 1, ucl_hash_caseless_func, ucl_hash_caseless_equal) ucl_hash_t* ucl_hash_create (bool ignore_case) { ucl_hash_t *new; new = UCL_ALLOC (sizeof (ucl_hash_t)); if (new != NULL) { kv_init (new->ar); new->caseless = ignore_case; if (ignore_case) { khash_t(ucl_hash_caseless_node) *h = kh_init (ucl_hash_caseless_node); new->hash = (void *)h; } else { khash_t(ucl_hash_node) *h = kh_init (ucl_hash_node); new->hash = (void *)h; } } return new; } void ucl_hash_destroy (ucl_hash_t* hashlin, ucl_hash_free_func func) { const ucl_object_t *cur, *tmp; if (hashlin == NULL) { return; } if (func != NULL) { /* Iterate over the hash first */ khash_t(ucl_hash_node) *h = (khash_t(ucl_hash_node) *) hashlin->hash; khiter_t k; for (k = kh_begin (h); k != kh_end (h); ++k) { if (kh_exist (h, k)) { cur = (kh_value (h, k)).obj; while (cur != NULL) { tmp = cur->next; func (__DECONST (ucl_object_t *, cur)); cur = tmp; } } } } if (hashlin->caseless) { khash_t(ucl_hash_caseless_node) *h = (khash_t(ucl_hash_caseless_node) *) hashlin->hash; kh_destroy (ucl_hash_caseless_node, h); } else { khash_t(ucl_hash_node) *h = (khash_t(ucl_hash_node) *) hashlin->hash; kh_destroy (ucl_hash_node, h); } kv_destroy (hashlin->ar); UCL_FREE (sizeof (*hashlin), hashlin); } void ucl_hash_insert (ucl_hash_t* hashlin, const ucl_object_t *obj, const char *key, unsigned keylen) { khiter_t k; int ret; struct ucl_hash_elt *elt; if (hashlin == NULL) { return; } if (hashlin->caseless) { khash_t(ucl_hash_caseless_node) *h = (khash_t(ucl_hash_caseless_node) *) hashlin->hash; k = kh_put (ucl_hash_caseless_node, h, obj, &ret); if (ret > 0) { elt = &kh_value (h, k); kv_push (const ucl_object_t *, hashlin->ar, obj); elt->obj = obj; elt->ar_idx = kv_size (hashlin->ar) - 1; } } else { khash_t(ucl_hash_node) *h = (khash_t(ucl_hash_node) *) hashlin->hash; k = kh_put (ucl_hash_node, h, obj, &ret); if (ret > 0) { elt = &kh_value (h, k); kv_push (const ucl_object_t *, hashlin->ar, obj); elt->obj = obj; elt->ar_idx = kv_size (hashlin->ar) - 1; } } } void ucl_hash_replace (ucl_hash_t* hashlin, const ucl_object_t *old, const ucl_object_t *new) { khiter_t k; int ret; struct ucl_hash_elt elt, *pelt; if (hashlin == NULL) { return; } if (hashlin->caseless) { khash_t(ucl_hash_caseless_node) *h = (khash_t(ucl_hash_caseless_node) *) hashlin->hash; k = kh_put (ucl_hash_caseless_node, h, old, &ret); if (ret == 0) { elt = kh_value (h, k); kh_del (ucl_hash_caseless_node, h, k); k = kh_put (ucl_hash_caseless_node, h, new, &ret); pelt = &kh_value (h, k); pelt->obj = new; pelt->ar_idx = elt.ar_idx; kv_A (hashlin->ar, elt.ar_idx) = new; } } else { khash_t(ucl_hash_node) *h = (khash_t(ucl_hash_node) *) hashlin->hash; k = kh_put (ucl_hash_node, h, old, &ret); if (ret == 0) { elt = kh_value (h, k); kh_del (ucl_hash_node, h, k); k = kh_put (ucl_hash_node, h, new, &ret); pelt = &kh_value (h, k); pelt->obj = new; pelt->ar_idx = elt.ar_idx; kv_A (hashlin->ar, elt.ar_idx) = new; } } } struct ucl_hash_real_iter { const ucl_object_t **cur; const ucl_object_t **end; }; const void* ucl_hash_iterate (ucl_hash_t *hashlin, ucl_hash_iter_t *iter) { struct ucl_hash_real_iter *it = (struct ucl_hash_real_iter *)(*iter); const ucl_object_t *ret = NULL; if (hashlin == NULL) { return NULL; } if (it == NULL) { it = UCL_ALLOC (sizeof (*it)); if (it == NULL) { return NULL; } it->cur = &hashlin->ar.a[0]; it->end = it->cur + hashlin->ar.n; } if (it->cur < it->end) { ret = *it->cur++; } else { UCL_FREE (sizeof (*it), it); *iter = NULL; return NULL; } *iter = it; return ret; } bool ucl_hash_iter_has_next (ucl_hash_t *hashlin, ucl_hash_iter_t iter) { struct ucl_hash_real_iter *it = (struct ucl_hash_real_iter *)(iter); return it->cur < it->end - 1; } const ucl_object_t* ucl_hash_search (ucl_hash_t* hashlin, const char *key, unsigned keylen) { khiter_t k; const ucl_object_t *ret = NULL; ucl_object_t search; struct ucl_hash_elt *elt; search.key = key; search.keylen = keylen; if (hashlin == NULL) { return NULL; } if (hashlin->caseless) { khash_t(ucl_hash_caseless_node) *h = (khash_t(ucl_hash_caseless_node) *) hashlin->hash; k = kh_get (ucl_hash_caseless_node, h, &search); if (k != kh_end (h)) { elt = &kh_value (h, k); ret = elt->obj; } } else { khash_t(ucl_hash_node) *h = (khash_t(ucl_hash_node) *) hashlin->hash; k = kh_get (ucl_hash_node, h, &search); if (k != kh_end (h)) { elt = &kh_value (h, k); ret = elt->obj; } } return ret; } void ucl_hash_delete (ucl_hash_t* hashlin, const ucl_object_t *obj) { khiter_t k; struct ucl_hash_elt *elt; if (hashlin == NULL) { return; } if (hashlin->caseless) { khash_t(ucl_hash_caseless_node) *h = (khash_t(ucl_hash_caseless_node) *) hashlin->hash; k = kh_get (ucl_hash_caseless_node, h, obj); if (k != kh_end (h)) { elt = &kh_value (h, k); kv_del (const ucl_object_t *, hashlin->ar, elt->ar_idx); kh_del (ucl_hash_caseless_node, h, k); } } else { khash_t(ucl_hash_node) *h = (khash_t(ucl_hash_node) *) hashlin->hash; k = kh_get (ucl_hash_node, h, obj); if (k != kh_end (h)) { elt = &kh_value (h, k); kv_del (const ucl_object_t *, hashlin->ar, elt->ar_idx); kh_del (ucl_hash_node, h, k); } } }