/* Unix SMB/CIFS implementation. NetBIOS name cache module on top of gencache mechanism. Copyright (C) Tim Potter 2002 Copyright (C) Rafal Szczesniak 2002 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "includes.h" #define NBTKEY_FMT "NBT/%s#%02X" /** * Initialise namecache system. Function calls gencache * initialisation function to perform necessary actions * * @return true upon successful initialisation of the cache or * false on failure **/ BOOL namecache_enable(void) { /* * Check if name caching disabled by setting the name cache * timeout to zero. */ if (lp_name_cache_timeout() == 0) { DEBUG(5, ("namecache_enable: disabling netbios name cache\n")); return False; } /* Init namecache by calling gencache initialisation */ if (!gencache_init()) { DEBUG(2, ("namecache_enable: Couldn't initialise namecache on top of gencache.\n")); return False; } /* I leave it for now, though I don't think we really need this (mimir, 27.09.2002) */ DEBUG(5, ("namecache_enable: enabling netbios namecache, timeout %d " "seconds\n", lp_name_cache_timeout())); return True; } /** * Shutdown namecache. Routine calls gencache close function * to safely close gencache file. * * @return true upon successful shutdown of the cache or * false on failure **/ BOOL namecache_shutdown(void) { if (!gencache_shutdown()) { DEBUG(2, ("namecache_shutdown: Couldn't close namecache on top of gencache.\n")); return False; } DEBUG(5, ("namecache_shutdown: netbios namecache closed successfully.\n")); return True; } /** * Generates a key for netbios name lookups on basis of * netbios name and type. * The caller must free returned key string when finished. * * @param name netbios name string (case insensitive) * @param name_type netbios type of the name being looked up * * @return string consisted of uppercased name and appended * type number */ static char* namecache_key(const char *name, int name_type) { char *keystr; asprintf(&keystr, NBTKEY_FMT, strupper_static(name), name_type); return keystr; } /** * Store a name(s) in the name cache * * @param name netbios names array * @param name_type integer netbios name type * @param num_names number of names being stored * @param ip_list array of in_addr structures containing * ip addresses being stored **/ BOOL namecache_store(const char *name, int name_type, int num_names, struct ip_service *ip_list) { time_t expiry; char *key, *value_string; int i; BOOL ret; /* * we use gecache call to avoid annoying debug messages about * initialised namecache again and again... */ if (!gencache_init()) return False; if (name_type > 255) { return False; /* Don't store non-real name types. */ } if ( DEBUGLEVEL >= 5 ) { DEBUG(5, ("namecache_store: storing %d address%s for %s#%02x: ", num_names, num_names == 1 ? "": "es", name, name_type)); for (i = 0; i < num_names; i++) DEBUGADD(5, ("%s:%d%s", inet_ntoa(ip_list[i].ip), ip_list[i].port, (i == (num_names - 1) ? "" : ","))); DEBUGADD(5, ("\n")); } key = namecache_key(name, name_type); if (!key) { return False; } expiry = time(NULL) + lp_name_cache_timeout(); /* * Generate string representation of ip addresses list * First, store the number of ip addresses and then * place each single ip */ if (!ipstr_list_make(&value_string, ip_list, num_names)) { SAFE_FREE(key); SAFE_FREE(value_string); return False; } /* set the entry */ ret = gencache_set(key, value_string, expiry); SAFE_FREE(key); SAFE_FREE(value_string); return ret; } /** * Look up a name in the cache. * * @param name netbios name to look up for * @param name_type netbios name type of @param name * @param ip_list mallocated list of IP addresses if found in the cache, * NULL otherwise * @param num_names number of entries found * * @return true upon successful fetch or * false if name isn't found in the cache or has expired **/ BOOL namecache_fetch(const char *name, int name_type, struct ip_service **ip_list, int *num_names) { char *key, *value; time_t timeout; /* exit now if null pointers were passed as they're required further */ if (!ip_list || !num_names) return False; if (!gencache_init()) return False; if (name_type > 255) { return False; /* Don't fetch non-real name types. */ } *num_names = 0; /* * Use gencache interface - lookup the key */ key = namecache_key(name, name_type); if (!key) { return False; } if (!gencache_get(key, &value, &timeout)) { DEBUG(5, ("no entry for %s#%02X found.\n", name, name_type)); SAFE_FREE(key); return False; } else { DEBUG(5, ("name %s#%02X found.\n", name, name_type)); } /* * Split up the stored value into the list of IP adresses */ *num_names = ipstr_list_parse(value, ip_list); SAFE_FREE(key); SAFE_FREE(value); return *num_names > 0; /* true only if some ip has been fetched */ } /** * Remove a namecache entry. Needed for site support. * **/ BOOL namecache_delete(const char *name, int name_type) { BOOL ret; char *key; if (!gencache_init()) return False; if (name_type > 255) { return False; /* Don't fetch non-real name types. */ } key = namecache_key(name, name_type); if (!key) { return False; } ret = gencache_del(key); SAFE_FREE(key); return ret; } /** * Delete single namecache entry. Look at the * gencache_iterate definition. * **/ static void flush_netbios_name(const char* key, const char *value, time_t timeout, void* dptr) { gencache_del(key); DEBUG(5, ("Deleting entry %s\n", key)); } /** * Flush all names from the name cache. * It's done by gencache_iterate() * * @return True upon successful deletion or * False in case of an error **/ void namecache_flush(void) { if (!gencache_init()) return; /* * iterate through each NBT cache's entry and flush it * by flush_netbios_name function */ gencache_iterate(flush_netbios_name, NULL, "NBT/*"); DEBUG(5, ("Namecache flushed\n")); } /* Construct a name status record key. */ static char *namecache_status_record_key(const char *name, int name_type1, int name_type2, struct in_addr keyip) { char *keystr; asprintf(&keystr, "NBT/%s#%02X.%02X.%s", strupper_static(name), name_type1, name_type2, inet_ntoa(keyip)); return keystr; } /* Store a name status record. */ BOOL namecache_status_store(const char *keyname, int keyname_type, int name_type, struct in_addr keyip, const char *srvname) { char *key; time_t expiry; BOOL ret; if (!gencache_init()) return False; key = namecache_status_record_key(keyname, keyname_type, name_type, keyip); if (!key) return False; expiry = time(NULL) + lp_name_cache_timeout(); ret = gencache_set(key, srvname, expiry); if (ret) DEBUG(5, ("namecache_status_store: entry %s -> %s\n", key, srvname )); else DEBUG(5, ("namecache_status_store: entry %s store failed.\n", key )); SAFE_FREE(key); return ret; } /* Fetch a name status record. */ BOOL namecache_status_fetch(const char *keyname, int keyname_type, int name_type, struct in_addr keyip, char *srvname_out) { char *key = NULL; char *value = NULL; time_t timeout; if (!gencache_init()) return False; key = namecache_status_record_key(keyname, keyname_type, name_type, keyip); if (!key) return False; if (!gencache_get(key, &value, &timeout)) { DEBUG(5, ("namecache_status_fetch: no entry for %s found.\n", key)); SAFE_FREE(key); return False; } else { DEBUG(5, ("namecache_status_fetch: key %s -> %s\n", key, value )); } strlcpy(srvname_out, value, 16); SAFE_FREE(key); SAFE_FREE(value); return True; }