/* * lib/cache_mngt.c Cache Management * * 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 version 2.1 * of the License. * * Copyright (c) 2003-2006 Thomas Graf */ /** * @defgroup cache_mngt Caching * @{ */ #include #include #include #include static struct nl_cache_ops *cache_ops; static NL_RW_LOCK(cache_ops_lock); /** * @name Cache Operations Sets * @{ */ struct nl_cache_ops *__nl_cache_ops_lookup(const char *name) { struct nl_cache_ops *ops; for (ops = cache_ops; ops; ops = ops->co_next) if (!strcmp(ops->co_name, name)) return ops; return NULL; } /** * Increment reference counter * @arg ops Cache operations */ void nl_cache_ops_get(struct nl_cache_ops *ops) { ops->co_refcnt++; } /** * Decrement reference counter * @arg ops Cache operations */ void nl_cache_ops_put(struct nl_cache_ops *ops) { ops->co_refcnt--; } /** * Lookup cache operations by name * @arg name name of the cache type * * @attention This function is not safe, it does not increment the reference * counter. Please use nl_cache_ops_lookup_safe(). * * @return The cache operations or NULL if not found. */ struct nl_cache_ops *nl_cache_ops_lookup(const char *name) { struct nl_cache_ops *ops; nl_read_lock(&cache_ops_lock); ops = __nl_cache_ops_lookup(name); nl_read_unlock(&cache_ops_lock); return ops; } /** * Lookup cache operations by name * @arg name name of the cache type * * @note The reference counter of the returned cache operation is incremented * and must be decremented after use with nl_cache_ops_put(). * * @return The cache operations or NULL if not found. */ struct nl_cache_ops *nl_cache_ops_lookup_safe(const char *name) { struct nl_cache_ops *ops; nl_write_lock(&cache_ops_lock); if ((ops = __nl_cache_ops_lookup(name))) nl_cache_ops_get(ops); nl_write_unlock(&cache_ops_lock); return ops; } static struct nl_cache_ops *__cache_ops_associate(int protocol, int msgtype) { int i; struct nl_cache_ops *ops; for (ops = cache_ops; ops; ops = ops->co_next) { if (ops->co_protocol != protocol) continue; for (i = 0; ops->co_msgtypes[i].mt_id >= 0; i++) if (ops->co_msgtypes[i].mt_id == msgtype) return ops; } return NULL; } /** * Associate protocol and message type to cache operations * @arg protocol netlink protocol * @arg msgtype netlink message type * * @attention This function is not safe, it does not increment the reference * counter. Please use nl_cache_ops_associate_safe(). * * @see nl_cache_ops_associate_safe() * * @return The cache operations or NULL if no match found. */ struct nl_cache_ops *nl_cache_ops_associate(int protocol, int msgtype) { struct nl_cache_ops *ops; nl_read_lock(&cache_ops_lock); ops = __cache_ops_associate(protocol, msgtype); nl_read_unlock(&cache_ops_lock); return ops; } /** * Associate protocol and message type to cache operations * @arg protocol netlink protocol * @arg msgtype netlink message type * * Searches the registered cache operations for a matching protocol * and message type. * * @note The reference counter of the returned cache operation is incremented * and must be decremented after use with nl_cache_ops_put(). * * @return The cache operations or NULL if no no match was found. */ struct nl_cache_ops *nl_cache_ops_associate_safe(int protocol, int msgtype) { struct nl_cache_ops *ops; nl_write_lock(&cache_ops_lock); if ((ops = __cache_ops_associate(protocol, msgtype))) nl_cache_ops_get(ops); nl_write_unlock(&cache_ops_lock); return ops; } /** * Lookup message type cache association * @arg ops cache operations * @arg msgtype netlink message type * * Searches for a matching message type association ing the specified * cache operations. * * @attention The guranteed lifetime of the returned message type is bound * to the lifetime of the underlying cache operations. * * @return A message type association or NULL. */ struct nl_msgtype *nl_msgtype_lookup(struct nl_cache_ops *ops, int msgtype) { int i; for (i = 0; ops->co_msgtypes[i].mt_id >= 0; i++) if (ops->co_msgtypes[i].mt_id == msgtype) return &ops->co_msgtypes[i]; return NULL; } /* Must hold cache_ops_lock */ static struct nl_cache_ops *cache_ops_lookup_for_obj(struct nl_object_ops *obj_ops) { struct nl_cache_ops *ops; for (ops = cache_ops; ops; ops = ops->co_next) if (ops->co_obj_ops == obj_ops) return ops; return NULL; } /** * Call a function for each registered cache operation * @arg cb Callback function to be called * @arg arg User specific argument. */ void nl_cache_ops_foreach(void (*cb)(struct nl_cache_ops *, void *), void *arg) { struct nl_cache_ops *ops; nl_read_lock(&cache_ops_lock); for (ops = cache_ops; ops; ops = ops->co_next) cb(ops, arg); nl_read_unlock(&cache_ops_lock); } /** * Register a set of cache operations * @arg ops cache operations * * Called by users of caches to announce the avaibility of * a certain cache type. * * @return 0 on success or a negative error code. */ int nl_cache_mngt_register(struct nl_cache_ops *ops) { if (!ops->co_name) return nl_error(EINVAL, "No cache name specified"); if (!ops->co_obj_ops) return nl_error(EINVAL, "No obj cache ops specified"); nl_write_lock(&cache_ops_lock); if (__nl_cache_ops_lookup(ops->co_name)) { nl_write_unlock(&cache_ops_lock); return nl_error(EEXIST, "Cache operations already exist"); } ops->co_refcnt = 0; ops->co_next = cache_ops; cache_ops = ops; nl_write_unlock(&cache_ops_lock); NL_DBG(1, "Registered cache operations %s\n", ops->co_name); return 0; } /** * Unregister a set of cache operations * @arg ops cache operations * * Called by users of caches to announce a set of * cache operations is no longer available. The * specified cache operations must have been registered * previously using nl_cache_mngt_register() * * @return 0 on success or a negative error code */ int nl_cache_mngt_unregister(struct nl_cache_ops *ops) { struct nl_cache_ops *t, **tp; nl_write_lock(&cache_ops_lock); if (ops->co_refcnt > 0) { nl_write_unlock(&cache_ops_lock); return nl_error(EBUSY, "Cache operations busy"); } for (tp = &cache_ops; (t=*tp) != NULL; tp = &t->co_next) if (t == ops) break; if (!t) { nl_write_unlock(&cache_ops_lock); return nl_error(ENOENT, "No such cache operations"); } NL_DBG(1, "Unregistered cache operations %s\n", ops->co_name); *tp = t->co_next; nl_write_unlock(&cache_ops_lock); return 0; } /** @} */ /** * @name Global Cache Provisioning/Requiring * @{ */ /** * Provide a cache for global use * @arg cache cache to provide * * Offers the specified cache to be used by other modules. * Only one cache per type may be shared at a time, * a previsouly provided caches will be overwritten. */ void nl_cache_mngt_provide(struct nl_cache *cache) { struct nl_cache_ops *ops; nl_write_lock(&cache_ops_lock); ops = cache_ops_lookup_for_obj(cache->c_ops->co_obj_ops); if (!ops) BUG(); else { nl_cache_get(cache); ops->co_major_cache = cache; } nl_write_unlock(&cache_ops_lock); } /** * Unprovide a cache for global use * @arg cache cache to unprovide * * Cancels the offer to use a cache globally. The * cache will no longer be returned via lookups but * may still be in use. */ void nl_cache_mngt_unprovide(struct nl_cache *cache) { struct nl_cache_ops *ops; nl_write_lock(&cache_ops_lock); ops = cache_ops_lookup_for_obj(cache->c_ops->co_obj_ops); if (!ops) BUG(); else if (ops->co_major_cache == cache) { nl_cache_free(ops->co_major_cache); ops->co_major_cache = NULL; } nl_write_unlock(&cache_ops_lock); } /** * Demand the use of a global cache * @arg name name of the required object type * * Trys to find a cache of the specified type for global * use. * * @return A cache provided by another subsystem of the * specified type marked to be available. */ struct nl_cache *nl_cache_mngt_require(const char *name) { struct nl_cache_ops *ops; ops = nl_cache_ops_lookup(name); if (!ops || !ops->co_major_cache) { fprintf(stderr, "Application BUG: Your application must " "call nl_cache_mngt_provide() and\nprovide a valid " "%s cache to be used for internal lookups.\nSee the " " API documentation for more details.\n", name); return NULL; } return ops->co_major_cache; } /** @} */ /** @} */