/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 1999 - 2008, Digium, Inc. * * Mark Spencer * Russell Bryant * * 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 Device state management * * \author Mark Spencer * \author Russell Bryant * * \arg \ref AstExtState */ /*! \page AstExtState Extension and device states in Asterisk * * (Note that these descriptions of device states and extension * states have not been updated to the way things work * in Asterisk 1.6.) * * Asterisk has an internal system that reports states * for an extension. By using the dialplan priority -1, * also called a \b hint, a connection can be made from an * extension to one or many devices. The state of the extension * now depends on the combined state of the devices. * * The device state is basically based on the current calls. * If the devicestate engine can find a call from or to the * device, it's in use. * * Some channel drivers implement a callback function for * a better level of reporting device states. The SIP channel * has a complicated system for this, which is improved * by adding call limits to the configuration. * * Functions that want to check the status of an extension * register themself as a \b watcher. * Watchers in this system can subscribe either to all extensions * or just a specific extensions. * * For non-device related states, there's an API called * devicestate providers. This is an extendible system for * delivering state information from outside sources or * functions within Asterisk. Currently we have providers * for app_meetme.c - the conference bridge - and call * parking (metermaids). * * There are manly three subscribers to extension states * within Asterisk: * - AMI, the manager interface * - app_queue.c - the Queue dialplan application * - SIP subscriptions, a.k.a. "blinking lamps" or * "buddy lists" * * The CLI command "show hints" show last known state * * \note None of these handle user states, like an IM presence * system. res_jabber.c can subscribe and watch such states * in jabber/xmpp based systems. * * \section AstDevStateArch Architecture for devicestates * * When a channel driver or asterisk app changes state for * a watched object, it alerts the core. The core queues * a change. When the change is processed, there's a query * sent to the channel driver/provider if there's a function * to handle that, otherwise a channel walk is issued to find * a channel that involves the object. * * The changes are queued and processed by a separate thread. * This thread calls the watchers subscribing to status * changes for the object. For manager, this results * in events. For SIP, NOTIFY requests. * * - Device states * \arg \ref devicestate.c * \arg \ref devicestate.h * * \section AstExtStateArch Architecture for extension states * * Hints are connected to extension. If an extension changes state * it checks the hint devices. If there is a hint, the callbacks into * device states are checked. The aggregated state is set for the hint * and reported back. * * - Extension states * \arg \ref AstENUM ast_extension_states * \arg \ref pbx.c * \arg \ref pbx.h * - Structures * - \ref ast_state_cb struct. Callbacks for watchers * - Callback ast_state_cb_type * - \ref ast_hint struct. * - Functions * - ast_extension_state_add() * - ast_extension_state_del() * - ast_get_hint() * */ #include "asterisk.h" ASTERISK_FILE_VERSION(__FILE__, "$Revision$") #include "asterisk/_private.h" #include "asterisk/channel.h" #include "asterisk/utils.h" #include "asterisk/lock.h" #include "asterisk/linkedlists.h" #include "asterisk/devicestate.h" #include "asterisk/pbx.h" #include "asterisk/app.h" #include "asterisk/event.h" /*! \brief Device state strings for printing */ static const char *devstatestring[][2] = { { /* 0 AST_DEVICE_UNKNOWN */ "Unknown", "UNKNOWN" }, /*!< Valid, but unknown state */ { /* 1 AST_DEVICE_NOT_INUSE */ "Not in use", "NOT_INUSE" }, /*!< Not used */ { /* 2 AST_DEVICE IN USE */ "In use", "INUSE" }, /*!< In use */ { /* 3 AST_DEVICE_BUSY */ "Busy", "BUSY" }, /*!< Busy */ { /* 4 AST_DEVICE_INVALID */ "Invalid", "INVALID" }, /*!< Invalid - not known to Asterisk */ { /* 5 AST_DEVICE_UNAVAILABLE */ "Unavailable", "UNAVAILABLE" }, /*!< Unavailable (not registered) */ { /* 6 AST_DEVICE_RINGING */ "Ringing", "RINGING" }, /*!< Ring, ring, ring */ { /* 7 AST_DEVICE_RINGINUSE */ "Ring+Inuse", "RINGINUSE" }, /*!< Ring and in use */ { /* 8 AST_DEVICE_ONHOLD */ "On Hold", "ONHOLD" }, /*!< On Hold */ }; /*!\brief Mapping for channel states to device states */ static const struct chan2dev { enum ast_channel_state chan; enum ast_device_state dev; } chan2dev[] = { { AST_STATE_DOWN, AST_DEVICE_NOT_INUSE }, { AST_STATE_RESERVED, AST_DEVICE_INUSE }, { AST_STATE_OFFHOOK, AST_DEVICE_INUSE }, { AST_STATE_DIALING, AST_DEVICE_INUSE }, { AST_STATE_RING, AST_DEVICE_INUSE }, { AST_STATE_RINGING, AST_DEVICE_RINGING }, { AST_STATE_UP, AST_DEVICE_INUSE }, { AST_STATE_BUSY, AST_DEVICE_BUSY }, { AST_STATE_DIALING_OFFHOOK, AST_DEVICE_INUSE }, { AST_STATE_PRERING, AST_DEVICE_RINGING }, { -100, -100 }, }; /*! \brief A device state provider (not a channel) */ struct devstate_prov { char label[40]; ast_devstate_prov_cb_type callback; AST_RWLIST_ENTRY(devstate_prov) list; }; /*! \brief A list of providers */ static AST_RWLIST_HEAD_STATIC(devstate_provs, devstate_prov); struct state_change { AST_LIST_ENTRY(state_change) list; char device[1]; }; /*! \brief The state change queue. State changes are queued for processing by a separate thread */ static AST_LIST_HEAD_STATIC(state_changes, state_change); /*! \brief The device state change notification thread */ static pthread_t change_thread = AST_PTHREADT_NULL; /*! \brief Flag for the queue */ static ast_cond_t change_pending; struct devstate_change { AST_LIST_ENTRY(devstate_change) entry; uint32_t state; struct ast_eid eid; char device[1]; }; struct { pthread_t thread; struct ast_event_sub *event_sub; ast_cond_t cond; ast_mutex_t lock; AST_LIST_HEAD_NOLOCK(, devstate_change) devstate_change_q; unsigned int enabled:1; } devstate_collector = { .thread = AST_PTHREADT_NULL, .enabled = 0, }; /* Forward declarations */ static int getproviderstate(const char *provider, const char *address); /*! \brief Find devicestate as text message for output */ const char *ast_devstate2str(enum ast_device_state devstate) { return devstatestring[devstate][0]; } /* Deprecated interface (not prefixed with ast_) */ const char *devstate2str(enum ast_device_state devstate) { return devstatestring[devstate][0]; } enum ast_device_state ast_state_chan2dev(enum ast_channel_state chanstate) { int i; chanstate &= 0xFFFF; for (i = 0; chan2dev[i].chan != -100; i++) { if (chan2dev[i].chan == chanstate) { return chan2dev[i].dev; } } return AST_DEVICE_UNKNOWN; } /* Parseable */ const char *ast_devstate_str(enum ast_device_state state) { return devstatestring[state][1]; } enum ast_device_state ast_devstate_val(const char *val) { if (!strcasecmp(val, "NOT_INUSE")) return AST_DEVICE_NOT_INUSE; else if (!strcasecmp(val, "INUSE")) return AST_DEVICE_INUSE; else if (!strcasecmp(val, "BUSY")) return AST_DEVICE_BUSY; else if (!strcasecmp(val, "INVALID")) return AST_DEVICE_INVALID; else if (!strcasecmp(val, "UNAVAILABLE")) return AST_DEVICE_UNAVAILABLE; else if (!strcasecmp(val, "RINGING")) return AST_DEVICE_RINGING; else if (!strcasecmp(val, "RINGINUSE")) return AST_DEVICE_RINGINUSE; else if (!strcasecmp(val, "ONHOLD")) return AST_DEVICE_ONHOLD; return AST_DEVICE_UNKNOWN; } /*! \brief Find out if device is active in a call or not \note find channels with the device's name in it This function is only used for channels that does not implement devicestate natively */ enum ast_device_state ast_parse_device_state(const char *device) { struct ast_channel *chan; char match[AST_CHANNEL_NAME]; enum ast_device_state res; ast_copy_string(match, device, sizeof(match)-1); strcat(match, "-"); chan = ast_get_channel_by_name_prefix_locked(match, strlen(match)); if (!chan) return AST_DEVICE_UNKNOWN; if (chan->_state == AST_STATE_RINGING) res = AST_DEVICE_RINGING; else res = AST_DEVICE_INUSE; ast_channel_unlock(chan); return res; } static enum ast_device_state devstate_cached(const char *device) { enum ast_device_state res = AST_DEVICE_UNKNOWN; struct ast_event *event; event = ast_event_get_cached(AST_EVENT_DEVICE_STATE, AST_EVENT_IE_DEVICE, AST_EVENT_IE_PLTYPE_STR, device, AST_EVENT_IE_END); if (!event) return res; res = ast_event_get_ie_uint(event, AST_EVENT_IE_STATE); ast_event_destroy(event); return res; } /*! \brief Check device state through channel specific function or generic function */ static enum ast_device_state _ast_device_state(const char *device, int check_cache) { char *buf; char *number; const struct ast_channel_tech *chan_tech; enum ast_device_state res; /*! \brief Channel driver that provides device state */ char *tech; /*! \brief Another provider of device state */ char *provider = NULL; /* If the last known state is cached, just return that */ if (check_cache) { res = devstate_cached(device); if (res != AST_DEVICE_UNKNOWN) { return res; } } buf = ast_strdupa(device); tech = strsep(&buf, "/"); if (!(number = buf)) { provider = strsep(&tech, ":"); if (!tech) { return AST_DEVICE_INVALID; } /* We have a provider */ number = tech; tech = NULL; } if (provider) { ast_debug(3, "Checking if I can find provider for \"%s\" - number: %s\n", provider, number); return getproviderstate(provider, number); } ast_debug(4, "No provider found, checking channel drivers for %s - %s\n", tech, number); if (!(chan_tech = ast_get_channel_tech(tech))) return AST_DEVICE_INVALID; if (!(chan_tech->devicestate)) /* Does the channel driver support device state notification? */ return ast_parse_device_state(device); /* No, try the generic function */ res = chan_tech->devicestate(number); if (res != AST_DEVICE_UNKNOWN) return res; res = ast_parse_device_state(device); return res; } enum ast_device_state ast_device_state(const char *device) { /* This function is called from elsewhere in the code to find out the * current state of a device. Check the cache, first. */ return _ast_device_state(device, 1); } /*! \brief Add device state provider */ int ast_devstate_prov_add(const char *label, ast_devstate_prov_cb_type callback) { struct devstate_prov *devprov; if (!callback || !(devprov = ast_calloc(1, sizeof(*devprov)))) return -1; devprov->callback = callback; ast_copy_string(devprov->label, label, sizeof(devprov->label)); AST_RWLIST_WRLOCK(&devstate_provs); AST_RWLIST_INSERT_HEAD(&devstate_provs, devprov, list); AST_RWLIST_UNLOCK(&devstate_provs); return 0; } /*! \brief Remove device state provider */ int ast_devstate_prov_del(const char *label) { struct devstate_prov *devcb; int res = -1; AST_RWLIST_WRLOCK(&devstate_provs); AST_RWLIST_TRAVERSE_SAFE_BEGIN(&devstate_provs, devcb, list) { if (!strcasecmp(devcb->label, label)) { AST_RWLIST_REMOVE_CURRENT(list); ast_free(devcb); res = 0; break; } } AST_RWLIST_TRAVERSE_SAFE_END; AST_RWLIST_UNLOCK(&devstate_provs); return res; } /*! \brief Get provider device state */ static int getproviderstate(const char *provider, const char *address) { struct devstate_prov *devprov; int res = AST_DEVICE_INVALID; AST_RWLIST_RDLOCK(&devstate_provs); AST_RWLIST_TRAVERSE(&devstate_provs, devprov, list) { ast_debug(5, "Checking provider %s with %s\n", devprov->label, provider); if (!strcasecmp(devprov->label, provider)) { res = devprov->callback(address); break; } } AST_RWLIST_UNLOCK(&devstate_provs); return res; } static void devstate_event(const char *device, enum ast_device_state state) { struct ast_event *event; enum ast_event_type event_type; if (devstate_collector.enabled) { /* Distributed device state is enabled, so this state change is a change * for a single server, not the real state. */ event_type = AST_EVENT_DEVICE_STATE_CHANGE; } else { event_type = AST_EVENT_DEVICE_STATE; } ast_debug(3, "device '%s' state '%d'\n", device, state); if (!(event = ast_event_new(event_type, AST_EVENT_IE_DEVICE, AST_EVENT_IE_PLTYPE_STR, device, AST_EVENT_IE_STATE, AST_EVENT_IE_PLTYPE_UINT, state, AST_EVENT_IE_END))) { return; } ast_event_queue_and_cache(event); } /*! Called by the state change thread to find out what the state is, and then * to queue up the state change event */ static void do_state_change(const char *device) { enum ast_device_state state; state = _ast_device_state(device, 0); ast_debug(3, "Changing state for %s - state %d (%s)\n", device, state, ast_devstate2str(state)); devstate_event(device, state); } int ast_devstate_changed_literal(enum ast_device_state state, const char *device) { struct state_change *change; /* * If we know the state change (how nice of the caller of this function!) * then we can just generate a device state event. * * Otherwise, we do the following: * - Queue an event up to another thread that the state has changed * - In the processing thread, it calls the callback provided by the * device state provider (which may or may not be a channel driver) * to determine the state. * - If the device state provider does not know the state, or this is * for a channel and the channel driver does not implement a device * state callback, then we will look through the channel list to * see if we can determine a state based on active calls. * - Once a state has been determined, a device state event is generated. */ if (state != AST_DEVICE_UNKNOWN) { devstate_event(device, state); } else if (change_thread == AST_PTHREADT_NULL || !(change = ast_calloc(1, sizeof(*change) + strlen(device)))) { /* we could not allocate a change struct, or */ /* there is no background thread, so process the change now */ do_state_change(device); } else { /* queue the change */ strcpy(change->device, device); AST_LIST_LOCK(&state_changes); AST_LIST_INSERT_TAIL(&state_changes, change, list); ast_cond_signal(&change_pending); AST_LIST_UNLOCK(&state_changes); } return 1; } int ast_device_state_changed_literal(const char *dev) { return ast_devstate_changed_literal(AST_DEVICE_UNKNOWN, dev); } int ast_devstate_changed(enum ast_device_state state, const char *fmt, ...) { char buf[AST_MAX_EXTENSION]; va_list ap; va_start(ap, fmt); vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); return ast_devstate_changed_literal(state, buf); } int ast_device_state_changed(const char *fmt, ...) { char buf[AST_MAX_EXTENSION]; va_list ap; va_start(ap, fmt); vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); return ast_devstate_changed_literal(AST_DEVICE_UNKNOWN, buf); } /*! \brief Go through the dev state change queue and update changes in the dev state thread */ static void *do_devstate_changes(void *data) { struct state_change *next, *current; for (;;) { /* This basically pops off any state change entries, resets the list back to NULL, unlocks, and processes each state change */ AST_LIST_LOCK(&state_changes); if (AST_LIST_EMPTY(&state_changes)) ast_cond_wait(&change_pending, &state_changes.lock); next = AST_LIST_FIRST(&state_changes); AST_LIST_HEAD_INIT_NOLOCK(&state_changes); AST_LIST_UNLOCK(&state_changes); /* Process each state change */ while ((current = next)) { next = AST_LIST_NEXT(current, list); do_state_change(current->device); ast_free(current); } } return NULL; } static void destroy_devstate_change(struct devstate_change *sc) { ast_free(sc); } #define MAX_SERVERS 64 struct change_collection { struct devstate_change states[MAX_SERVERS]; size_t num_states; }; static void devstate_cache_cb(const struct ast_event *event, void *data) { struct change_collection *collection = data; int i; const struct ast_eid *eid; if (collection->num_states == ARRAY_LEN(collection->states)) { ast_log(LOG_ERROR, "More per-server state values than we have room for (MAX_SERVERS is %d)\n", MAX_SERVERS); return; } if (!(eid = ast_event_get_ie_raw(event, AST_EVENT_IE_EID))) { ast_log(LOG_ERROR, "Device state change event with no EID\n"); return; } i = collection->num_states; collection->states[i].state = ast_event_get_ie_uint(event, AST_EVENT_IE_STATE); collection->states[i].eid = *eid; collection->num_states++; } static void process_collection(const char *device, struct change_collection *collection) { int i; struct ast_devstate_aggregate agg; enum ast_device_state state; struct ast_event *event; ast_devstate_aggregate_init(&agg); for (i = 0; i < collection->num_states; i++) { ast_debug(1, "Adding per-server state of '%s' for '%s'\n", ast_devstate2str(collection->states[i].state), device); ast_devstate_aggregate_add(&agg, collection->states[i].state); } state = ast_devstate_aggregate_result(&agg); ast_debug(1, "Aggregate devstate result is '%s' for '%s'\n", ast_devstate2str(state), device); event = ast_event_get_cached(AST_EVENT_DEVICE_STATE, AST_EVENT_IE_DEVICE, AST_EVENT_IE_PLTYPE_STR, device, AST_EVENT_IE_END); if (event) { enum ast_device_state old_state; old_state = ast_event_get_ie_uint(event, AST_EVENT_IE_STATE); ast_event_destroy(event); if (state == old_state) { /* No change since last reported device state */ ast_debug(1, "Aggregate state for device '%s' has not changed from '%s'\n", device, ast_devstate2str(state)); return; } } ast_debug(1, "Aggregate state for device '%s' has changed to '%s'\n", device, ast_devstate2str(state)); event = ast_event_new(AST_EVENT_DEVICE_STATE, AST_EVENT_IE_DEVICE, AST_EVENT_IE_PLTYPE_STR, device, AST_EVENT_IE_STATE, AST_EVENT_IE_PLTYPE_UINT, state, AST_EVENT_IE_END); if (!event) { return; } ast_event_queue_and_cache(event); } static void handle_devstate_change(struct devstate_change *sc) { struct ast_event_sub *tmp_sub; struct change_collection collection = { .num_states = 0, }; ast_debug(1, "Processing device state change for '%s'\n", sc->device); if (!(tmp_sub = ast_event_subscribe_new(AST_EVENT_DEVICE_STATE_CHANGE, devstate_cache_cb, &collection))) { ast_log(LOG_ERROR, "Failed to create subscription\n"); return; } if (ast_event_sub_append_ie_str(tmp_sub, AST_EVENT_IE_DEVICE, sc->device)) { ast_log(LOG_ERROR, "Failed to append device IE\n"); ast_event_sub_destroy(tmp_sub); return; } /* Populate the collection of device states from the cache */ ast_event_dump_cache(tmp_sub); process_collection(sc->device, &collection); ast_event_sub_destroy(tmp_sub); } static void *run_devstate_collector(void *data) { for (;;) { struct devstate_change *sc; ast_mutex_lock(&devstate_collector.lock); while (!(sc = AST_LIST_REMOVE_HEAD(&devstate_collector.devstate_change_q, entry))) ast_cond_wait(&devstate_collector.cond, &devstate_collector.lock); ast_mutex_unlock(&devstate_collector.lock); handle_devstate_change(sc); destroy_devstate_change(sc); } return NULL; } static void devstate_change_collector_cb(const struct ast_event *event, void *data) { struct devstate_change *sc; const char *device; const struct ast_eid *eid; uint32_t state; device = ast_event_get_ie_str(event, AST_EVENT_IE_DEVICE); eid = ast_event_get_ie_raw(event, AST_EVENT_IE_EID); state = ast_event_get_ie_uint(event, AST_EVENT_IE_STATE); if (ast_strlen_zero(device) || !eid) { ast_log(LOG_ERROR, "Invalid device state change event received\n"); return; } if (!(sc = ast_calloc(1, sizeof(*sc) + strlen(device)))) return; strcpy(sc->device, device); sc->eid = *eid; sc->state = state; ast_mutex_lock(&devstate_collector.lock); AST_LIST_INSERT_TAIL(&devstate_collector.devstate_change_q, sc, entry); ast_cond_signal(&devstate_collector.cond); ast_mutex_unlock(&devstate_collector.lock); } /*! \brief Initialize the device state engine in separate thread */ int ast_device_state_engine_init(void) { ast_cond_init(&change_pending, NULL); if (ast_pthread_create_background(&change_thread, NULL, do_devstate_changes, NULL) < 0) { ast_log(LOG_ERROR, "Unable to start device state change thread.\n"); return -1; } return 0; } void ast_devstate_aggregate_init(struct ast_devstate_aggregate *agg) { memset(agg, 0, sizeof(*agg)); agg->all_unknown = 1; agg->all_unavail = 1; agg->all_busy = 1; agg->all_free = 1; } void ast_devstate_aggregate_add(struct ast_devstate_aggregate *agg, enum ast_device_state state) { switch (state) { case AST_DEVICE_NOT_INUSE: agg->all_unknown = 0; agg->all_unavail = 0; agg->all_busy = 0; break; case AST_DEVICE_INUSE: agg->in_use = 1; agg->all_unavail = 0; agg->all_free = 0; agg->all_unknown = 0; break; case AST_DEVICE_RINGING: agg->ring = 1; agg->all_unavail = 0; agg->all_free = 0; agg->all_unknown = 0; break; case AST_DEVICE_RINGINUSE: agg->in_use = 1; agg->ring = 1; agg->all_unavail = 0; agg->all_free = 0; agg->all_unknown = 0; break; case AST_DEVICE_ONHOLD: agg->all_unknown = 0; agg->all_unavail = 0; agg->all_free = 0; agg->on_hold = 1; break; case AST_DEVICE_BUSY: agg->all_unknown = 0; agg->all_unavail = 0; agg->all_free = 0; agg->busy = 1; agg->in_use = 1; break; case AST_DEVICE_UNAVAILABLE: agg->all_unknown = 0; case AST_DEVICE_INVALID: agg->all_busy = 0; agg->all_free = 0; break; case AST_DEVICE_UNKNOWN: agg->all_busy = 0; agg->all_free = 0; break; case AST_DEVICE_TOTAL: /* not a device state, included for completeness. */ break; } } enum ast_device_state ast_devstate_aggregate_result(struct ast_devstate_aggregate *agg) { if (agg->all_free) return AST_DEVICE_NOT_INUSE; if ((agg->in_use || agg->on_hold) && agg->ring) return AST_DEVICE_RINGINUSE; if (agg->ring) return AST_DEVICE_RINGING; if (agg->busy) return AST_DEVICE_BUSY; if (agg->in_use) return AST_DEVICE_INUSE; if (agg->on_hold) return AST_DEVICE_ONHOLD; if (agg->all_busy) return AST_DEVICE_BUSY; if (agg->all_unknown) return AST_DEVICE_UNKNOWN; if (agg->all_unavail) return AST_DEVICE_UNAVAILABLE; return AST_DEVICE_NOT_INUSE; } int ast_enable_distributed_devstate(void) { if (devstate_collector.enabled) { return 0; } devstate_collector.event_sub = ast_event_subscribe(AST_EVENT_DEVICE_STATE_CHANGE, devstate_change_collector_cb, NULL, AST_EVENT_IE_END); if (!devstate_collector.event_sub) { ast_log(LOG_ERROR, "Failed to create subscription for the device state change collector\n"); return -1; } ast_mutex_init(&devstate_collector.lock); ast_cond_init(&devstate_collector.cond, NULL); if (ast_pthread_create_background(&devstate_collector.thread, NULL, run_devstate_collector, NULL) < 0) { ast_log(LOG_ERROR, "Unable to start device state collector thread.\n"); return -1; } devstate_collector.enabled = 1; return 0; }