/* * namedb.c -- common namedb operations. * * Copyright (c) 2001-2006, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include "config.h" #include #include #include #include #include #include #include "namedb.h" #include "nsec3.h" static domain_type * allocate_domain_info(domain_table_type* table, const dname_type* dname, domain_type* parent) { domain_type *result; assert(table); assert(dname); assert(parent); result = (domain_type *) region_alloc(table->region, sizeof(domain_type)); #ifdef USE_RADIX_TREE result->dname #else result->node.key #endif = dname_partial_copy( table->region, dname, domain_dname(parent)->label_count + 1); result->parent = parent; result->wildcard_child_closest_match = result; result->rrsets = NULL; result->usage = 0; #ifdef NSEC3 result->nsec3 = NULL; #endif result->is_existing = 0; result->is_apex = 0; assert(table->numlist_last); /* it exists because root exists */ /* push this domain at the end of the numlist */ result->number = table->numlist_last->number+1; result->numlist_next = NULL; result->numlist_prev = table->numlist_last; table->numlist_last->numlist_next = result; table->numlist_last = result; return result; } #ifdef NSEC3 void allocate_domain_nsec3(domain_table_type* table, domain_type* result) { if(result->nsec3) return; result->nsec3 = (struct nsec3_domain_data*) region_alloc(table->region, sizeof(struct nsec3_domain_data)); result->nsec3->nsec3_cover = NULL; result->nsec3->nsec3_wcard_child_cover = NULL; result->nsec3->nsec3_ds_parent_cover = NULL; result->nsec3->nsec3_is_exact = 0; result->nsec3->nsec3_ds_parent_is_exact = 0; result->nsec3->hash_wc = NULL; result->nsec3->ds_parent_hash = NULL; result->nsec3->prehash_prev = NULL; result->nsec3->prehash_next = NULL; result->nsec3->nsec3_node.key = NULL; } #endif /* NSEC3 */ /** make the domain last in the numlist, changes numbers of domains */ static void numlist_make_last(domain_table_type* table, domain_type* domain) { uint32_t sw; domain_type* last = table->numlist_last; if(domain == last) return; /* swap numbers with the last element */ sw = domain->number; domain->number = last->number; last->number = sw; /* swap list position with the last element */ assert(domain->numlist_next); assert(last->numlist_prev); if(domain->numlist_next != last) { /* case 1: there are nodes between domain .. last */ domain_type* span_start = domain->numlist_next; domain_type* span_end = last->numlist_prev; /* these assignments walk the new list from start to end */ if(domain->numlist_prev) domain->numlist_prev->numlist_next = last; last->numlist_prev = domain->numlist_prev; last->numlist_next = span_start; span_start->numlist_prev = last; span_end->numlist_next = domain; domain->numlist_prev = span_end; domain->numlist_next = NULL; } else { /* case 2: domain and last are neighbors */ /* these assignments walk the new list from start to end */ if(domain->numlist_prev) domain->numlist_prev->numlist_next = last; last->numlist_prev = domain->numlist_prev; last->numlist_next = domain; domain->numlist_prev = last; domain->numlist_next = NULL; } table->numlist_last = domain; } /** pop the biggest domain off the numlist */ static domain_type* numlist_pop_last(domain_table_type* table) { domain_type* d = table->numlist_last; table->numlist_last = table->numlist_last->numlist_prev; if(table->numlist_last) table->numlist_last->numlist_next = NULL; return d; } /** see if a domain is eligible to be deleted, and thus is not used */ static int domain_can_be_deleted(domain_type* domain) { domain_type* n; /* it has data or it has usage, do not delete it */ if(domain->rrsets) return 0; if(domain->usage) return 0; n = domain_next(domain); /* it has children domains, do not delete it */ if(n && domain_is_subdomain(n, domain)) return 0; return 1; } #ifdef NSEC3 /** see if domain is on the prehash list */ int domain_is_prehash(domain_table_type* table, domain_type* domain) { if(domain->nsec3 && (domain->nsec3->prehash_prev || domain->nsec3->prehash_next)) return 1; return (table->prehash_list == domain); } /** remove domain node from NSEC3 tree in hash space */ void zone_del_domain_in_hash_tree(rbtree_type* tree, rbnode_type* node) { if(!node->key) return; rbtree_delete(tree, node->key); /* note that domain is no longer in the tree */ node->key = NULL; } /** clear the prehash list */ void prehash_clear(domain_table_type* table) { domain_type* d = table->prehash_list, *n; while(d) { n = d->nsec3->prehash_next; d->nsec3->prehash_prev = NULL; d->nsec3->prehash_next = NULL; d = n; } table->prehash_list = NULL; } /** add domain to prehash list */ void prehash_add(domain_table_type* table, domain_type* domain) { if(domain_is_prehash(table, domain)) return; allocate_domain_nsec3(table, domain); domain->nsec3->prehash_next = table->prehash_list; if(table->prehash_list) table->prehash_list->nsec3->prehash_prev = domain; table->prehash_list = domain; } /** remove domain from prehash list */ void prehash_del(domain_table_type* table, domain_type* domain) { if(domain->nsec3->prehash_next) domain->nsec3->prehash_next->nsec3->prehash_prev = domain->nsec3->prehash_prev; if(domain->nsec3->prehash_prev) domain->nsec3->prehash_prev->nsec3->prehash_next = domain->nsec3->prehash_next; else table->prehash_list = domain->nsec3->prehash_next; domain->nsec3->prehash_next = NULL; domain->nsec3->prehash_prev = NULL; } #endif /* NSEC3 */ /** perform domain name deletion */ static void do_deldomain(namedb_type* db, domain_type* domain) { assert(domain && domain->parent); /* exists and not root */ /* first adjust the number list so that domain is the last one */ numlist_make_last(db->domains, domain); /* pop off the domain from the number list */ (void)numlist_pop_last(db->domains); #ifdef NSEC3 /* if on prehash list, remove from prehash */ if(domain_is_prehash(db->domains, domain)) prehash_del(db->domains, domain); /* see if nsec3-nodes are used */ if(domain->nsec3) { if(domain->nsec3->nsec3_node.key) zone_del_domain_in_hash_tree(nsec3_tree_zone(db, domain) ->nsec3tree, &domain->nsec3->nsec3_node); if(domain->nsec3->hash_wc) { if(domain->nsec3->hash_wc->hash.node.key) zone_del_domain_in_hash_tree(nsec3_tree_zone(db, domain) ->hashtree, &domain->nsec3->hash_wc->hash.node); if(domain->nsec3->hash_wc->wc.node.key) zone_del_domain_in_hash_tree(nsec3_tree_zone(db, domain) ->wchashtree, &domain->nsec3->hash_wc->wc.node); } if(domain->nsec3->ds_parent_hash && domain->nsec3->ds_parent_hash->node.key) zone_del_domain_in_hash_tree(nsec3_tree_dszone(db, domain) ->dshashtree, &domain->nsec3->ds_parent_hash->node); if(domain->nsec3->hash_wc) { region_recycle(db->domains->region, domain->nsec3->hash_wc, sizeof(nsec3_hash_wc_node_type)); } if(domain->nsec3->ds_parent_hash) { region_recycle(db->domains->region, domain->nsec3->ds_parent_hash, sizeof(nsec3_hash_node_type)); } region_recycle(db->domains->region, domain->nsec3, sizeof(struct nsec3_domain_data)); } #endif /* NSEC3 */ /* see if this domain is someones wildcard-child-closest-match, * which can only be the parent, and then it should use the * one-smaller than this domain as closest-match. */ if(domain->parent->wildcard_child_closest_match == domain) domain->parent->wildcard_child_closest_match = domain_previous_existing_child(domain); /* actual removal */ #ifdef USE_RADIX_TREE radix_delete(db->domains->nametree, domain->rnode); #else rbtree_delete(db->domains->names_to_domains, domain->node.key); #endif region_recycle(db->domains->region, domain_dname(domain), dname_total_size(domain_dname(domain))); region_recycle(db->domains->region, domain, sizeof(domain_type)); } void domain_table_deldomain(namedb_type* db, domain_type* domain) { domain_type* parent; while(domain_can_be_deleted(domain)) { parent = domain->parent; /* delete it */ do_deldomain(db, domain); /* test parent */ domain = parent; } } void hash_tree_delete(region_type* region, rbtree_type* tree) { region_recycle(region, tree, sizeof(rbtree_type)); } /** add domain nsec3 node to hashedspace tree */ void zone_add_domain_in_hash_tree(region_type* region, rbtree_type** tree, int (*cmpf)(const void*, const void*), domain_type* domain, rbnode_type* node) { if(!*tree) *tree = rbtree_create(region, cmpf); if(node->key && node->key == domain && rbtree_search(*tree, domain) == node) return; memset(node, 0, sizeof(rbnode_type)); node->key = domain; rbtree_insert(*tree, node); } domain_table_type * domain_table_create(region_type* region) { const dname_type* origin; domain_table_type* result; domain_type* root; assert(region); origin = dname_make(region, (uint8_t *) "", 0); root = (domain_type *) region_alloc(region, sizeof(domain_type)); #ifdef USE_RADIX_TREE root->dname #else root->node.key #endif = origin; root->parent = NULL; root->wildcard_child_closest_match = root; root->rrsets = NULL; root->number = 1; /* 0 is used for after header */ root->usage = 1; /* do not delete root, ever */ root->is_existing = 0; root->is_apex = 0; root->numlist_prev = NULL; root->numlist_next = NULL; #ifdef NSEC3 root->nsec3 = NULL; #endif result = (domain_table_type *) region_alloc(region, sizeof(domain_table_type)); result->region = region; #ifdef USE_RADIX_TREE result->nametree = radix_tree_create(region); root->rnode = radname_insert(result->nametree, dname_name(root->dname), root->dname->name_size, root); #else result->names_to_domains = rbtree_create( region, (int (*)(const void *, const void *)) dname_compare); rbtree_insert(result->names_to_domains, (rbnode_type *) root); #endif result->root = root; result->numlist_last = root; #ifdef NSEC3 result->prehash_list = NULL; #endif return result; } int domain_table_search(domain_table_type *table, const dname_type *dname, domain_type **closest_match, domain_type **closest_encloser) { int exact; uint8_t label_match_count; assert(table); assert(dname); assert(closest_match); assert(closest_encloser); #ifdef USE_RADIX_TREE exact = radname_find_less_equal(table->nametree, dname_name(dname), dname->name_size, (struct radnode**)closest_match); *closest_match = (domain_type*)((*(struct radnode**)closest_match)->elem); #else exact = rbtree_find_less_equal(table->names_to_domains, dname, (rbnode_type **) closest_match); #endif assert(*closest_match); *closest_encloser = *closest_match; if (!exact) { label_match_count = dname_label_match_count( domain_dname(*closest_encloser), dname); assert(label_match_count < dname->label_count); while (label_match_count < domain_dname(*closest_encloser)->label_count) { (*closest_encloser) = (*closest_encloser)->parent; assert(*closest_encloser); } } return exact; } domain_type * domain_table_find(domain_table_type* table, const dname_type* dname) { domain_type* closest_match; domain_type* closest_encloser; int exact; exact = domain_table_search( table, dname, &closest_match, &closest_encloser); return exact ? closest_encloser : NULL; } domain_type * domain_table_insert(domain_table_type* table, const dname_type* dname) { domain_type* closest_match; domain_type* closest_encloser; domain_type* result; int exact; assert(table); assert(dname); exact = domain_table_search( table, dname, &closest_match, &closest_encloser); if (exact) { result = closest_encloser; } else { assert(domain_dname(closest_encloser)->label_count < dname->label_count); /* Insert new node(s). */ do { result = allocate_domain_info(table, dname, closest_encloser); #ifdef USE_RADIX_TREE result->rnode = radname_insert(table->nametree, dname_name(result->dname), result->dname->name_size, result); #else rbtree_insert(table->names_to_domains, (rbnode_type *) result); #endif /* * If the newly added domain name is larger * than the parent's current * wildcard_child_closest_match but smaller or * equal to the wildcard domain name, update * the parent's wildcard_child_closest_match * field. */ if (label_compare(dname_name(domain_dname(result)), (const uint8_t *) "\001*") <= 0 && dname_compare(domain_dname(result), domain_dname(closest_encloser->wildcard_child_closest_match)) > 0) { closest_encloser->wildcard_child_closest_match = result; } closest_encloser = result; } while (domain_dname(closest_encloser)->label_count < dname->label_count); } return result; } domain_type *domain_previous_existing_child(domain_type* domain) { domain_type* parent = domain->parent; domain = domain_previous(domain); while(domain && !domain->is_existing) { if(domain == parent) /* do not walk back above parent */ return parent; domain = domain_previous(domain); } return domain; } void domain_add_rrset(domain_type* domain, rrset_type* rrset) { #if 0 /* fast */ rrset->next = domain->rrsets; domain->rrsets = rrset; #else /* preserve ordering, add at end */ rrset_type** p = &domain->rrsets; while(*p) p = &((*p)->next); *p = rrset; rrset->next = 0; #endif while (domain && !domain->is_existing) { domain->is_existing = 1; /* does this name in existance update the parent's * wildcard closest match? */ if(domain->parent && label_compare(dname_name(domain_dname(domain)), (const uint8_t *) "\001*") <= 0 && dname_compare(domain_dname(domain), domain_dname(domain->parent->wildcard_child_closest_match)) > 0) { domain->parent->wildcard_child_closest_match = domain; } domain = domain->parent; } } rrset_type * domain_find_rrset(domain_type* domain, zone_type* zone, uint16_t type) { rrset_type* result = domain->rrsets; while (result) { if (result->zone == zone && rrset_rrtype(result) == type) { return result; } result = result->next; } return NULL; } rrset_type * domain_find_any_rrset(domain_type* domain, zone_type* zone) { rrset_type* result = domain->rrsets; while (result) { if (result->zone == zone) { return result; } result = result->next; } return NULL; } zone_type * domain_find_zone(namedb_type* db, domain_type* domain) { rrset_type* rrset; while (domain) { if(domain->is_apex) { for (rrset = domain->rrsets; rrset; rrset = rrset->next) { if (rrset_rrtype(rrset) == TYPE_SOA) { return rrset->zone; } } return namedb_find_zone(db, domain_dname(domain)); } domain = domain->parent; } return NULL; } zone_type * domain_find_parent_zone(namedb_type* db, zone_type* zone) { rrset_type* rrset; assert(zone); for (rrset = zone->apex->rrsets; rrset; rrset = rrset->next) { if (rrset->zone != zone && rrset_rrtype(rrset) == TYPE_NS) { return rrset->zone; } } /* the NS record in the parent zone above this zone is not present, * workaround to find that parent zone anyway */ if(zone->apex->parent) return domain_find_zone(db, zone->apex->parent); return NULL; } domain_type * domain_find_ns_rrsets(domain_type* domain, zone_type* zone, rrset_type **ns) { while (domain && domain != zone->apex) { *ns = domain_find_rrset(domain, zone, TYPE_NS); if (*ns) return domain; domain = domain->parent; } *ns = NULL; return NULL; } domain_type * find_dname_above(domain_type* domain, zone_type* zone) { domain_type* d = domain->parent; while(d && d != zone->apex) { if(domain_find_rrset(d, zone, TYPE_DNAME)) return d; d = d->parent; } return NULL; } int domain_is_glue(domain_type* domain, zone_type* zone) { rrset_type* unused; domain_type* ns_domain = domain_find_ns_rrsets(domain, zone, &unused); return (ns_domain != NULL && domain_find_rrset(ns_domain, zone, TYPE_SOA) == NULL); } domain_type * domain_wildcard_child(domain_type* domain) { domain_type* wildcard_child; assert(domain); assert(domain->wildcard_child_closest_match); wildcard_child = domain->wildcard_child_closest_match; if (wildcard_child != domain && label_is_wildcard(dname_name(domain_dname(wildcard_child)))) { return wildcard_child; } else { return NULL; } } int zone_is_secure(zone_type* zone) { assert(zone); return zone->is_secure; } uint16_t rr_rrsig_type_covered(rr_type* rr) { assert(rr->type == TYPE_RRSIG); assert(rr->rdata_count > 0); assert(rdata_atom_size(rr->rdatas[0]) == sizeof(uint16_t)); return ntohs(* (uint16_t *) rdata_atom_data(rr->rdatas[0])); } zone_type * namedb_find_zone(namedb_type* db, const dname_type* dname) { struct radnode* n = radname_search(db->zonetree, dname_name(dname), dname->name_size); if(n) return (zone_type*)n->elem; return NULL; } rrset_type * domain_find_non_cname_rrset(domain_type* domain, zone_type* zone) { /* find any rrset type that is not allowed next to a CNAME */ /* nothing is allowed next to a CNAME, except RRSIG, NSEC, NSEC3 */ rrset_type *result = domain->rrsets; while (result) { if (result->zone == zone && /* here is the list of exceptions*/ rrset_rrtype(result) != TYPE_CNAME && rrset_rrtype(result) != TYPE_RRSIG && rrset_rrtype(result) != TYPE_NXT && rrset_rrtype(result) != TYPE_SIG && rrset_rrtype(result) != TYPE_NSEC && rrset_rrtype(result) != TYPE_NSEC3 ) { return result; } result = result->next; } return NULL; } int namedb_lookup(struct namedb* db, const dname_type* dname, domain_type **closest_match, domain_type **closest_encloser) { return domain_table_search( db->domains, dname, closest_match, closest_encloser); } void zone_rr_iter_init(struct zone_rr_iter *iter, struct zone *zone) { assert(iter != NULL); assert(zone != NULL); memset(iter, 0, sizeof(*iter)); iter->zone = zone; } rr_type *zone_rr_iter_next(struct zone_rr_iter *iter) { assert(iter != NULL); assert(iter->zone != NULL); if(iter->index == -1) { assert(iter->domain == NULL); assert(iter->rrset == NULL); return NULL; } else if(iter->rrset == NULL) { /* ensure SOA RR is returned first */ assert(iter->domain == NULL); assert(iter->index == 0); iter->rrset = iter->zone->soa_rrset; } while(iter->rrset != NULL) { if(iter->index < iter->rrset->rr_count) { return &iter->rrset->rrs[iter->index++]; } iter->index = 0; if(iter->domain == NULL) { assert(iter->rrset == iter->zone->soa_rrset); iter->domain = iter->zone->apex; iter->rrset = iter->domain->rrsets; } else { iter->rrset = iter->rrset->next; } /* ensure SOA RR is not returned again and RR belongs to zone */ while((iter->rrset == NULL && iter->domain != NULL) || (iter->rrset != NULL && (iter->rrset == iter->zone->soa_rrset || iter->rrset->zone != iter->zone))) { if(iter->rrset != NULL) { iter->rrset = iter->rrset->next; } else { iter->domain = domain_next(iter->domain); if(iter->domain != NULL && dname_is_subdomain(domain_dname(iter->domain), domain_dname(iter->zone->apex))) { iter->rrset = iter->domain->rrsets; } } } } assert(iter->rrset == NULL); assert(iter->domain == NULL); iter->index = -1; return NULL; }