/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2013, Digium, Inc. * * David M. Lee, II * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ /*! \file * * \brief Stasis Message API. * * \author David M. Lee, II */ /*** MODULEINFO core ***/ #include "asterisk.h" #include "asterisk/astobj2.h" #include "asterisk/hashtab.h" #include "asterisk/stasis_internal.h" #include "asterisk/stasis.h" #include "asterisk/utils.h" #include "asterisk/vector.h" #ifdef LOW_MEMORY #define NUM_CACHE_BUCKETS 17 #else #define NUM_CACHE_BUCKETS 563 #endif /*! \internal */ struct stasis_cache { struct ao2_container *entries; snapshot_get_id id_fn; cache_aggregate_calc_fn aggregate_calc_fn; cache_aggregate_publish_fn aggregate_publish_fn; }; /*! \internal */ struct stasis_caching_topic { struct stasis_cache *cache; struct stasis_topic *topic; struct stasis_topic *original_topic; struct stasis_subscription *sub; }; static void stasis_caching_topic_dtor(void *obj) { struct stasis_caching_topic *caching_topic = obj; /* Caching topics contain subscriptions, and must be manually * unsubscribed. */ ast_assert(!stasis_subscription_is_subscribed(caching_topic->sub)); /* If there are any messages in flight to this subscription; that would * be bad. */ ast_assert(stasis_subscription_is_done(caching_topic->sub)); ao2_cleanup(caching_topic->sub); caching_topic->sub = NULL; ao2_cleanup(caching_topic->cache); caching_topic->cache = NULL; ao2_cleanup(caching_topic->topic); caching_topic->topic = NULL; ao2_cleanup(caching_topic->original_topic); caching_topic->original_topic = NULL; } struct stasis_topic *stasis_caching_get_topic(struct stasis_caching_topic *caching_topic) { return caching_topic->topic; } struct stasis_caching_topic *stasis_caching_unsubscribe(struct stasis_caching_topic *caching_topic) { if (!caching_topic) { return NULL; } /* * The subscription may hold the last reference to this caching * topic, but we want to make sure the unsubscribe finishes * before kicking of the caching topic's dtor. */ ao2_ref(caching_topic, +1); if (stasis_subscription_is_subscribed(caching_topic->sub)) { /* * Increment the reference to hold on to it past the * unsubscribe. Will be cleaned up in dtor. */ ao2_ref(caching_topic->sub, +1); stasis_unsubscribe(caching_topic->sub); } else { ast_log(LOG_ERROR, "stasis_caching_topic unsubscribed multiple times\n"); } ao2_cleanup(caching_topic); return NULL; } struct stasis_caching_topic *stasis_caching_unsubscribe_and_join(struct stasis_caching_topic *caching_topic) { if (!caching_topic) { return NULL; } /* Hold a ref past the unsubscribe */ ao2_ref(caching_topic, +1); stasis_caching_unsubscribe(caching_topic); stasis_subscription_join(caching_topic->sub); ao2_cleanup(caching_topic); return NULL; } /*! * \brief The key for an entry in the cache * \note The items in this struct must be immutable for the item in the cache */ struct cache_entry_key { /*! The message type of the item stored in the cache */ struct stasis_message_type *type; /*! The unique ID of the item stored in the cache */ const char *id; /*! The hash, computed from \c type and \c id */ unsigned int hash; }; struct stasis_cache_entry { struct cache_entry_key key; /*! Aggregate snapshot of the stasis cache. */ struct stasis_message *aggregate; /*! Local entity snapshot of the stasis event. */ struct stasis_message *local; /*! Remote entity snapshots of the stasis event. */ AST_VECTOR(, struct stasis_message *) remote; }; static void cache_entry_dtor(void *obj) { struct stasis_cache_entry *entry = obj; size_t idx; ao2_cleanup(entry->key.type); entry->key.type = NULL; ast_free((char *) entry->key.id); entry->key.id = NULL; ao2_cleanup(entry->aggregate); entry->aggregate = NULL; ao2_cleanup(entry->local); entry->local = NULL; for (idx = 0; idx < AST_VECTOR_SIZE(&entry->remote); ++idx) { struct stasis_message *remote; remote = AST_VECTOR_GET(&entry->remote, idx); ao2_cleanup(remote); } AST_VECTOR_FREE(&entry->remote); } static void cache_entry_compute_hash(struct cache_entry_key *key) { key->hash = ast_hashtab_hash_string(stasis_message_type_name(key->type)); key->hash += ast_hashtab_hash_string(key->id); } static struct stasis_cache_entry *cache_entry_create(struct stasis_message_type *type, const char *id, struct stasis_message *snapshot) { struct stasis_cache_entry *entry; int is_remote; ast_assert(id != NULL); ast_assert(snapshot != NULL); if (!type) { return NULL; } entry = ao2_alloc_options(sizeof(*entry), cache_entry_dtor, AO2_ALLOC_OPT_LOCK_NOLOCK); if (!entry) { return NULL; } entry->key.id = ast_strdup(id); if (!entry->key.id) { ao2_cleanup(entry); return NULL; } entry->key.type = ao2_bump(type); cache_entry_compute_hash(&entry->key); is_remote = ast_eid_cmp(&ast_eid_default, stasis_message_eid(snapshot)) ? 1 : 0; if (AST_VECTOR_INIT(&entry->remote, is_remote)) { ao2_cleanup(entry); return NULL; } if (is_remote) { if (AST_VECTOR_APPEND(&entry->remote, snapshot)) { ao2_cleanup(entry); return NULL; } } else { entry->local = snapshot; } ao2_bump(snapshot); return entry; } static int cache_entry_hash(const void *obj, int flags) { const struct stasis_cache_entry *object; const struct cache_entry_key *key; switch (flags & OBJ_SEARCH_MASK) { case OBJ_SEARCH_KEY: key = obj; break; case OBJ_SEARCH_OBJECT: object = obj; key = &object->key; break; default: /* Hash can only work on something with a full key. */ ast_assert(0); return 0; } return (int)key->hash; } static int cache_entry_cmp(void *obj, void *arg, int flags) { const struct stasis_cache_entry *object_left = obj; const struct stasis_cache_entry *object_right = arg; const struct cache_entry_key *right_key = arg; int cmp; switch (flags & OBJ_SEARCH_MASK) { case OBJ_SEARCH_OBJECT: right_key = &object_right->key; /* Fall through */ case OBJ_SEARCH_KEY: cmp = object_left->key.type != right_key->type || strcmp(object_left->key.id, right_key->id); break; case OBJ_SEARCH_PARTIAL_KEY: /* Not supported by container */ ast_assert(0); cmp = -1; break; default: /* * What arg points to is specific to this traversal callback * and has no special meaning to astobj2. */ cmp = 0; break; } if (cmp) { return 0; } /* * At this point the traversal callback is identical to a sorted * container. */ return CMP_MATCH; } static void cache_dtor(void *obj) { struct stasis_cache *cache = obj; ao2_cleanup(cache->entries); cache->entries = NULL; } struct stasis_cache *stasis_cache_create_full(snapshot_get_id id_fn, cache_aggregate_calc_fn aggregate_calc_fn, cache_aggregate_publish_fn aggregate_publish_fn) { struct stasis_cache *cache; cache = ao2_alloc_options(sizeof(*cache), cache_dtor, AO2_ALLOC_OPT_LOCK_NOLOCK); if (!cache) { return NULL; } cache->entries = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_RWLOCK, 0, NUM_CACHE_BUCKETS, cache_entry_hash, NULL, cache_entry_cmp); if (!cache->entries) { ao2_cleanup(cache); return NULL; } cache->id_fn = id_fn; cache->aggregate_calc_fn = aggregate_calc_fn; cache->aggregate_publish_fn = aggregate_publish_fn; return cache; } struct stasis_cache *stasis_cache_create(snapshot_get_id id_fn) { return stasis_cache_create_full(id_fn, NULL, NULL); } struct stasis_message *stasis_cache_entry_get_aggregate(struct stasis_cache_entry *entry) { return entry->aggregate; } struct stasis_message *stasis_cache_entry_get_local(struct stasis_cache_entry *entry) { return entry->local; } struct stasis_message *stasis_cache_entry_get_remote(struct stasis_cache_entry *entry, int idx) { if (idx < AST_VECTOR_SIZE(&entry->remote)) { return AST_VECTOR_GET(&entry->remote, idx); } return NULL; } /*! * \internal * \brief Find the cache entry in the cache entries container. * * \param entries Container of cached entries. * \param type Type of message to retrieve the cache entry. * \param id Identity of the snapshot to retrieve the cache entry. * * \note The entries container is already locked. * * \retval Cache-entry on success. * \retval NULL Not in cache. */ static struct stasis_cache_entry *cache_find(struct ao2_container *entries, struct stasis_message_type *type, const char *id) { struct cache_entry_key search_key; struct stasis_cache_entry *entry; search_key.type = type; search_key.id = id; cache_entry_compute_hash(&search_key); entry = ao2_find(entries, &search_key, OBJ_SEARCH_KEY | OBJ_NOLOCK); /* Ensure that what we looked for is what we found. */ ast_assert(!entry || (!strcmp(stasis_message_type_name(entry->key.type), stasis_message_type_name(type)) && !strcmp(entry->key.id, id))); return entry; } /*! * \internal * \brief Remove the stasis snapshot in the cache entry determined by eid. * * \param entries Container of cached entries. * \param cached_entry The entry to remove the snapshot from. * \param eid Which snapshot in the cached entry. * * \note The entries container is already locked. * * \return Previous stasis entry snapshot. */ static struct stasis_message *cache_remove(struct ao2_container *entries, struct stasis_cache_entry *cached_entry, const struct ast_eid *eid) { struct stasis_message *old_snapshot; int is_remote; is_remote = ast_eid_cmp(eid, &ast_eid_default); if (!is_remote) { old_snapshot = cached_entry->local; cached_entry->local = NULL; } else { int idx; old_snapshot = NULL; for (idx = 0; idx < AST_VECTOR_SIZE(&cached_entry->remote); ++idx) { struct stasis_message *cur; cur = AST_VECTOR_GET(&cached_entry->remote, idx); if (!ast_eid_cmp(eid, stasis_message_eid(cur))) { old_snapshot = AST_VECTOR_REMOVE_UNORDERED(&cached_entry->remote, idx); break; } } } if (!cached_entry->local && !AST_VECTOR_SIZE(&cached_entry->remote)) { ao2_unlink_flags(entries, cached_entry, OBJ_NOLOCK); } return old_snapshot; } /*! * \internal * \brief Update the stasis snapshot in the cache entry determined by eid. * * \param cached_entry The entry to remove the snapshot from. * \param eid Which snapshot in the cached entry. * \param new_snapshot Snapshot to replace the old snapshot. * * \return Previous stasis entry snapshot. */ static struct stasis_message *cache_udpate(struct stasis_cache_entry *cached_entry, const struct ast_eid *eid, struct stasis_message *new_snapshot) { struct stasis_message *old_snapshot; int is_remote; int idx; is_remote = ast_eid_cmp(eid, &ast_eid_default); if (!is_remote) { old_snapshot = cached_entry->local; cached_entry->local = ao2_bump(new_snapshot); return old_snapshot; } old_snapshot = NULL; for (idx = 0; idx < AST_VECTOR_SIZE(&cached_entry->remote); ++idx) { struct stasis_message *cur; cur = AST_VECTOR_GET(&cached_entry->remote, idx); if (!ast_eid_cmp(eid, stasis_message_eid(cur))) { old_snapshot = AST_VECTOR_REMOVE_UNORDERED(&cached_entry->remote, idx); break; } } if (!AST_VECTOR_APPEND(&cached_entry->remote, new_snapshot)) { ao2_bump(new_snapshot); } return old_snapshot; } struct cache_put_snapshots { /*! Old cache eid snapshot. */ struct stasis_message *old; /*! Old cache aggregate snapshot. */ struct stasis_message *aggregate_old; /*! New cache aggregate snapshot. */ struct stasis_message *aggregate_new; }; static struct cache_put_snapshots cache_put(struct stasis_cache *cache, struct stasis_message_type *type, const char *id, const struct ast_eid *eid, struct stasis_message *new_snapshot) { struct stasis_cache_entry *cached_entry; struct cache_put_snapshots snapshots; ast_assert(cache->entries != NULL); ast_assert(eid != NULL);/* Aggregate snapshots not allowed to be put directly. */ ast_assert(new_snapshot == NULL || type == stasis_message_type(new_snapshot)); memset(&snapshots, 0, sizeof(snapshots)); ao2_wrlock(cache->entries); cached_entry = cache_find(cache->entries, type, id); /* Update the eid snapshot. */ if (!new_snapshot) { /* Remove snapshot from cache */ if (cached_entry) { snapshots.old = cache_remove(cache->entries, cached_entry, eid); } } else if (cached_entry) { /* Update snapshot in cache */ snapshots.old = cache_udpate(cached_entry, eid, new_snapshot); } else { /* Insert into the cache */ cached_entry = cache_entry_create(type, id, new_snapshot); if (cached_entry) { ao2_link_flags(cache->entries, cached_entry, OBJ_NOLOCK); } } /* Update the aggregate snapshot. */ if (cache->aggregate_calc_fn && cached_entry) { snapshots.aggregate_new = cache->aggregate_calc_fn(cached_entry, new_snapshot); snapshots.aggregate_old = cached_entry->aggregate; cached_entry->aggregate = ao2_bump(snapshots.aggregate_new); } ao2_unlock(cache->entries); ao2_cleanup(cached_entry); return snapshots; } /*! * \internal * \brief Dump all entity snapshots in the cache entry into the given container. * * \param snapshots Container to put all snapshots in the cache entry. * \param entry Cache entry to use. * * \retval 0 on success. * \retval non-zero on error. */ static int cache_entry_dump(struct ao2_container *snapshots, const struct stasis_cache_entry *entry) { int idx; int err = 0; ast_assert(snapshots != NULL); ast_assert(entry != NULL); /* The aggregate snapshot is not a snapshot from an entity. */ if (entry->local) { err |= !ao2_link(snapshots, entry->local); } for (idx = 0; !err && idx < AST_VECTOR_SIZE(&entry->remote); ++idx) { struct stasis_message *snapshot; snapshot = AST_VECTOR_GET(&entry->remote, idx); err |= !ao2_link(snapshots, snapshot); } return err; } struct ao2_container *stasis_cache_get_all(struct stasis_cache *cache, struct stasis_message_type *type, const char *id) { struct stasis_cache_entry *cached_entry; struct ao2_container *found; ast_assert(cache != NULL); ast_assert(cache->entries != NULL); ast_assert(id != NULL); if (!type) { return NULL; } found = ao2_container_alloc_list(AO2_ALLOC_OPT_LOCK_NOLOCK, 0, NULL, NULL); if (!found) { return NULL; } ao2_rdlock(cache->entries); cached_entry = cache_find(cache->entries, type, id); if (cached_entry && cache_entry_dump(found, cached_entry)) { ao2_cleanup(found); found = NULL; } ao2_unlock(cache->entries); ao2_cleanup(cached_entry); return found; } /*! * \internal * \brief Retrieve an item from the cache entry for a specific eid. * * \param entry Cache entry to use. * \param eid Specific entity id to retrieve. NULL for aggregate. * * \note The returned snapshot has not had its reference bumped. * * \retval Snapshot from the cache. * \retval \c NULL if snapshot is not found. */ static struct stasis_message *cache_entry_by_eid(const struct stasis_cache_entry *entry, const struct ast_eid *eid) { int is_remote; int idx; if (!eid) { /* Get aggregate. */ return entry->aggregate; } /* Get snapshot with specific eid. */ is_remote = ast_eid_cmp(eid, &ast_eid_default); if (!is_remote) { return entry->local; } for (idx = 0; idx < AST_VECTOR_SIZE(&entry->remote); ++idx) { struct stasis_message *cur; cur = AST_VECTOR_GET(&entry->remote, idx); if (!ast_eid_cmp(eid, stasis_message_eid(cur))) { return cur; } } return NULL; } struct stasis_message *stasis_cache_get_by_eid(struct stasis_cache *cache, struct stasis_message_type *type, const char *id, const struct ast_eid *eid) { struct stasis_cache_entry *cached_entry; struct stasis_message *snapshot = NULL; ast_assert(cache != NULL); ast_assert(cache->entries != NULL); ast_assert(id != NULL); if (!type) { return NULL; } ao2_rdlock(cache->entries); cached_entry = cache_find(cache->entries, type, id); if (cached_entry) { snapshot = cache_entry_by_eid(cached_entry, eid); ao2_bump(snapshot); } ao2_unlock(cache->entries); ao2_cleanup(cached_entry); return snapshot; } struct stasis_message *stasis_cache_get(struct stasis_cache *cache, struct stasis_message_type *type, const char *id) { return stasis_cache_get_by_eid(cache, type, id, &ast_eid_default); } struct cache_dump_data { struct ao2_container *container; struct stasis_message_type *type; const struct ast_eid *eid; }; static int cache_dump_by_eid_cb(void *obj, void *arg, int flags) { struct cache_dump_data *cache_dump = arg; struct stasis_cache_entry *entry = obj; if (!cache_dump->type || entry->key.type == cache_dump->type) { struct stasis_message *snapshot; snapshot = cache_entry_by_eid(entry, cache_dump->eid); if (snapshot) { if (!ao2_link(cache_dump->container, snapshot)) { ao2_cleanup(cache_dump->container); cache_dump->container = NULL; return CMP_STOP; } } } return 0; } struct ao2_container *stasis_cache_dump_by_eid(struct stasis_cache *cache, struct stasis_message_type *type, const struct ast_eid *eid) { struct cache_dump_data cache_dump; ast_assert(cache != NULL); ast_assert(cache->entries != NULL); cache_dump.eid = eid; cache_dump.type = type; cache_dump.container = ao2_container_alloc_list(AO2_ALLOC_OPT_LOCK_NOLOCK, 0, NULL, NULL); if (!cache_dump.container) { return NULL; } ao2_callback(cache->entries, OBJ_MULTIPLE | OBJ_NODATA, cache_dump_by_eid_cb, &cache_dump); return cache_dump.container; } struct ao2_container *stasis_cache_dump(struct stasis_cache *cache, struct stasis_message_type *type) { return stasis_cache_dump_by_eid(cache, type, &ast_eid_default); } static int cache_dump_all_cb(void *obj, void *arg, int flags) { struct cache_dump_data *cache_dump = arg; struct stasis_cache_entry *entry = obj; if (!cache_dump->type || entry->key.type == cache_dump->type) { if (cache_entry_dump(cache_dump->container, entry)) { ao2_cleanup(cache_dump->container); cache_dump->container = NULL; return CMP_STOP; } } return 0; } struct ao2_container *stasis_cache_dump_all(struct stasis_cache *cache, struct stasis_message_type *type) { struct cache_dump_data cache_dump; ast_assert(cache != NULL); ast_assert(cache->entries != NULL); cache_dump.eid = NULL; cache_dump.type = type; cache_dump.container = ao2_container_alloc_list(AO2_ALLOC_OPT_LOCK_NOLOCK, 0, NULL, NULL); if (!cache_dump.container) { return NULL; } ao2_callback(cache->entries, OBJ_MULTIPLE | OBJ_NODATA, cache_dump_all_cb, &cache_dump); return cache_dump.container; } STASIS_MESSAGE_TYPE_DEFN(stasis_cache_clear_type); STASIS_MESSAGE_TYPE_DEFN(stasis_cache_update_type); struct stasis_message *stasis_cache_clear_create(struct stasis_message *id_message) { return stasis_message_create(stasis_cache_clear_type(), id_message); } static void stasis_cache_update_dtor(void *obj) { struct stasis_cache_update *update = obj; ao2_cleanup(update->old_snapshot); update->old_snapshot = NULL; ao2_cleanup(update->new_snapshot); update->new_snapshot = NULL; ao2_cleanup(update->type); update->type = NULL; } static struct stasis_message *update_create(struct stasis_message *old_snapshot, struct stasis_message *new_snapshot) { struct stasis_cache_update *update; struct stasis_message *msg; ast_assert(old_snapshot != NULL || new_snapshot != NULL); if (!stasis_cache_update_type()) { return NULL; } update = ao2_alloc_options(sizeof(*update), stasis_cache_update_dtor, AO2_ALLOC_OPT_LOCK_NOLOCK); if (!update) { return NULL; } if (old_snapshot) { ao2_ref(old_snapshot, +1); update->old_snapshot = old_snapshot; if (!new_snapshot) { ao2_ref(stasis_message_type(old_snapshot), +1); update->type = stasis_message_type(old_snapshot); } } if (new_snapshot) { ao2_ref(new_snapshot, +1); update->new_snapshot = new_snapshot; ao2_ref(stasis_message_type(new_snapshot), +1); update->type = stasis_message_type(new_snapshot); } msg = stasis_message_create(stasis_cache_update_type(), update); ao2_cleanup(update); return msg; } static void caching_topic_exec(void *data, struct stasis_subscription *sub, struct stasis_message *message) { struct stasis_caching_topic *caching_topic_needs_unref; struct stasis_caching_topic *caching_topic = data; struct stasis_message *msg; struct stasis_message *msg_put; struct stasis_message_type *msg_type; const struct ast_eid *msg_eid; const char *msg_id; ast_assert(caching_topic != NULL); ast_assert(caching_topic->topic != NULL); ast_assert(caching_topic->cache != NULL); ast_assert(caching_topic->cache->id_fn != NULL); if (stasis_subscription_final_message(sub, message)) { caching_topic_needs_unref = caching_topic; } else { caching_topic_needs_unref = NULL; } msg_type = stasis_message_type(message); if (stasis_cache_clear_type() == msg_type) { /* Cache clear event. */ msg_put = NULL; msg = stasis_message_data(message); msg_type = stasis_message_type(msg); } else { /* Normal cache update event. */ msg_put = message; msg = message; } ast_assert(msg_type != NULL); msg_eid = stasis_message_eid(msg);/* msg_eid is NULL for aggregate message. */ msg_id = caching_topic->cache->id_fn(msg); if (msg_id && msg_eid) { struct stasis_message *update; struct cache_put_snapshots snapshots; /* Update the cache */ snapshots = cache_put(caching_topic->cache, msg_type, msg_id, msg_eid, msg_put); if (snapshots.old || msg_put) { update = update_create(snapshots.old, msg_put); if (update) { stasis_publish(caching_topic->topic, update); } ao2_cleanup(update); } else { ast_debug(1, "Attempting to remove an item from the %s cache that isn't there: %s %s\n", stasis_topic_name(caching_topic->topic), stasis_message_type_name(msg_type), msg_id); } if (snapshots.aggregate_old != snapshots.aggregate_new) { if (snapshots.aggregate_new && caching_topic->cache->aggregate_publish_fn) { caching_topic->cache->aggregate_publish_fn(caching_topic->original_topic, snapshots.aggregate_new); } update = update_create(snapshots.aggregate_old, snapshots.aggregate_new); if (update) { stasis_publish(caching_topic->topic, update); } ao2_cleanup(update); } ao2_cleanup(snapshots.old); ao2_cleanup(snapshots.aggregate_old); ao2_cleanup(snapshots.aggregate_new); } ao2_cleanup(caching_topic_needs_unref); } struct stasis_caching_topic *stasis_caching_topic_create(struct stasis_topic *original_topic, struct stasis_cache *cache) { struct stasis_caching_topic *caching_topic; char *new_name; int ret; ret = ast_asprintf(&new_name, "%s-cached", stasis_topic_name(original_topic)); if (ret < 0) { return NULL; } caching_topic = ao2_alloc_options(sizeof(*caching_topic), stasis_caching_topic_dtor, AO2_ALLOC_OPT_LOCK_NOLOCK); if (caching_topic == NULL) { ast_free(new_name); return NULL; } caching_topic->topic = stasis_topic_create(new_name); ast_free(new_name); if (caching_topic->topic == NULL) { ao2_ref(caching_topic, -1); return NULL; } ao2_ref(cache, +1); caching_topic->cache = cache; caching_topic->sub = internal_stasis_subscribe(original_topic, caching_topic_exec, caching_topic, 0, 0); if (caching_topic->sub == NULL) { ao2_ref(caching_topic, -1); return NULL; } ao2_ref(original_topic, +1); caching_topic->original_topic = original_topic; /* The subscription holds the reference, so no additional ref bump. */ return caching_topic; } static void stasis_cache_cleanup(void) { STASIS_MESSAGE_TYPE_CLEANUP(stasis_cache_clear_type); STASIS_MESSAGE_TYPE_CLEANUP(stasis_cache_update_type); } int stasis_cache_init(void) { ast_register_cleanup(stasis_cache_cleanup); if (STASIS_MESSAGE_TYPE_INIT(stasis_cache_clear_type) != 0) { return -1; } if (STASIS_MESSAGE_TYPE_INIT(stasis_cache_update_type) != 0) { return -1; } return 0; }