/* * FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application * Copyright (C) 2005-2012, Anthony Minessale II * * Version: MPL 1.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application * * The Initial Developer of the Original Code is * Anthony Minessale II * Portions created by the Initial Developer are Copyright (C) * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Anthony Minessale II * Michael Jerris * Paul D. Tinsley * * * switch_event.c -- Event System * */ #include #include //#define SWITCH_EVENT_RECYCLE #define DISPATCH_QUEUE_LEN 1000 //#define DEBUG_DISPATCH_QUEUES /*! \brief A node to store binded events */ struct switch_event_node { /*! the id of the node */ char *id; /*! the event id enumeration to bind to */ switch_event_types_t event_id; /*! the event subclass to bind to for custom events */ char *subclass_name; /*! a callback function to execute when the event is triggered */ switch_event_callback_t callback; /*! private data */ void *user_data; struct switch_event_node *next; }; /*! \brief A registered custom event subclass */ struct switch_event_subclass { /*! the owner of the subclass */ char *owner; /*! the subclass name */ char *name; /*! the subclass was reserved by a listener so it's ok for a module to reserve it still */ int bind; }; #define MAX_DISPATCH_VAL 64 static unsigned int MAX_DISPATCH = MAX_DISPATCH_VAL; static unsigned int SOFT_MAX_DISPATCH = 0; static char guess_ip_v4[80] = ""; static char guess_ip_v6[80] = ""; static switch_event_node_t *EVENT_NODES[SWITCH_EVENT_ALL + 1] = { NULL }; static switch_thread_rwlock_t *RWLOCK = NULL; static switch_mutex_t *BLOCK = NULL; static switch_mutex_t *POOL_LOCK = NULL; static switch_memory_pool_t *RUNTIME_POOL = NULL; static switch_memory_pool_t *THRUNTIME_POOL = NULL; #define NUMBER_OF_QUEUES 3 static switch_thread_t *EVENT_QUEUE_THREADS[NUMBER_OF_QUEUES] = { 0 }; static switch_queue_t *EVENT_QUEUE[NUMBER_OF_QUEUES] = { 0 }; static switch_thread_t *EVENT_DISPATCH_QUEUE_THREADS[MAX_DISPATCH_VAL] = { 0 }; static uint8_t EVENT_DISPATCH_QUEUE_RUNNING[MAX_DISPATCH_VAL] = { 0 }; static switch_queue_t *EVENT_DISPATCH_QUEUE[MAX_DISPATCH_VAL] = { 0 }; static int POOL_COUNT_MAX = SWITCH_CORE_QUEUE_LEN; static switch_mutex_t *EVENT_QUEUE_MUTEX = NULL; static switch_hash_t *CUSTOM_HASH = NULL; static int THREAD_COUNT = 0; static int SYSTEM_RUNNING = 0; static uint64_t EVENT_SEQUENCE_NR = 0; #ifdef SWITCH_EVENT_RECYCLE static switch_queue_t *EVENT_RECYCLE_QUEUE = NULL; static switch_queue_t *EVENT_HEADER_RECYCLE_QUEUE = NULL; #endif static void launch_dispatch_threads(uint32_t max, int len, switch_memory_pool_t *pool); static char *my_dup(const char *s) { size_t len = strlen(s) + 1; void *new = malloc(len); switch_assert(new); return (char *) memcpy(new, s, len); } #ifndef ALLOC #define ALLOC(size) malloc(size) #endif #ifndef DUP #define DUP(str) my_dup(str) #endif #ifndef FREE #define FREE(ptr) switch_safe_free(ptr) #endif /* make sure this is synced with the switch_event_types_t enum in switch_types.h also never put any new ones before EVENT_ALL */ static char *EVENT_NAMES[] = { "CUSTOM", "CLONE", "CHANNEL_CREATE", "CHANNEL_DESTROY", "CHANNEL_STATE", "CHANNEL_CALLSTATE", "CHANNEL_ANSWER", "CHANNEL_HANGUP", "CHANNEL_HANGUP_COMPLETE", "CHANNEL_EXECUTE", "CHANNEL_EXECUTE_COMPLETE", "CHANNEL_HOLD", "CHANNEL_UNHOLD", "CHANNEL_BRIDGE", "CHANNEL_UNBRIDGE", "CHANNEL_PROGRESS", "CHANNEL_PROGRESS_MEDIA", "CHANNEL_OUTGOING", "CHANNEL_PARK", "CHANNEL_UNPARK", "CHANNEL_APPLICATION", "CHANNEL_ORIGINATE", "CHANNEL_UUID", "API", "LOG", "INBOUND_CHAN", "OUTBOUND_CHAN", "STARTUP", "SHUTDOWN", "PUBLISH", "UNPUBLISH", "TALK", "NOTALK", "SESSION_CRASH", "MODULE_LOAD", "MODULE_UNLOAD", "DTMF", "MESSAGE", "PRESENCE_IN", "NOTIFY_IN", "PRESENCE_OUT", "PRESENCE_PROBE", "MESSAGE_WAITING", "MESSAGE_QUERY", "ROSTER", "CODEC", "BACKGROUND_JOB", "DETECTED_SPEECH", "DETECTED_TONE", "PRIVATE_COMMAND", "HEARTBEAT", "TRAP", "ADD_SCHEDULE", "DEL_SCHEDULE", "EXE_SCHEDULE", "RE_SCHEDULE", "RELOADXML", "NOTIFY", "SEND_MESSAGE", "RECV_MESSAGE", "REQUEST_PARAMS", "CHANNEL_DATA", "GENERAL", "COMMAND", "SESSION_HEARTBEAT", "CLIENT_DISCONNECTED", "SERVER_DISCONNECTED", "SEND_INFO", "RECV_INFO", "RECV_RTCP_MESSAGE", "CALL_SECURE", "NAT", "RECORD_START", "RECORD_STOP", "PLAYBACK_START", "PLAYBACK_STOP", "CALL_UPDATE", "FAILURE", "SOCKET_DATA", "MEDIA_BUG_START", "MEDIA_BUG_STOP", "ALL" }; static int switch_events_match(switch_event_t *event, switch_event_node_t *node) { int match = 0; if (node->event_id == SWITCH_EVENT_ALL) { match++; if (!node->subclass_name) { return match; } } if (match || event->event_id == node->event_id) { if (event->subclass_name && node->subclass_name) { if (!strncasecmp(node->subclass_name, "file:", 5)) { char *file_header; if ((file_header = switch_event_get_header(event, "file")) != 0) { match = strstr(node->subclass_name + 5, file_header) ? 1 : 0; } } else if (!strncasecmp(node->subclass_name, "func:", 5)) { char *func_header; if ((func_header = switch_event_get_header(event, "function")) != 0) { match = strstr(node->subclass_name + 5, func_header) ? 1 : 0; } } else if (event->subclass_name && node->subclass_name) { match = strstr(event->subclass_name, node->subclass_name) ? 1 : 0; } } else if ((event->subclass_name && !node->subclass_name) || (!event->subclass_name && !node->subclass_name)) { match = 1; } else { match = 0; } } return match; } static void *SWITCH_THREAD_FUNC switch_event_dispatch_thread(switch_thread_t *thread, void *obj) { switch_queue_t *queue = (switch_queue_t *) obj; int my_id = 0; switch_mutex_lock(EVENT_QUEUE_MUTEX); THREAD_COUNT++; for (my_id = 0; my_id < NUMBER_OF_QUEUES; my_id++) { if (EVENT_DISPATCH_QUEUE[my_id] == queue) { break; } } EVENT_DISPATCH_QUEUE_RUNNING[my_id] = 1; switch_mutex_unlock(EVENT_QUEUE_MUTEX); #ifdef HAVE_CPU_SET_MACROS { cpu_set_t set; CPU_ZERO(&set); CPU_SET(my_id, &set); sched_setaffinity(0, sizeof(set), &set); } #endif for (;;) { void *pop = NULL; switch_event_t *event = NULL; if (!SYSTEM_RUNNING) { break; } if (switch_queue_pop(queue, &pop) != SWITCH_STATUS_SUCCESS) { break; } if (!pop) { break; } event = (switch_event_t *) pop; switch_event_deliver(&event); } switch_mutex_lock(EVENT_QUEUE_MUTEX); EVENT_DISPATCH_QUEUE_RUNNING[my_id] = 0; THREAD_COUNT--; switch_mutex_unlock(EVENT_QUEUE_MUTEX); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Dispatch Thread %d Ended.\n", my_id); return NULL; } static void *SWITCH_THREAD_FUNC switch_event_thread(switch_thread_t *thread, void *obj) { switch_queue_t *queue = (switch_queue_t *) obj; uint32_t index = 0; int my_id = 0; switch_mutex_lock(EVENT_QUEUE_MUTEX); THREAD_COUNT++; switch_mutex_unlock(EVENT_QUEUE_MUTEX); for (my_id = 0; my_id < NUMBER_OF_QUEUES; my_id++) { if (EVENT_QUEUE[my_id] == queue) { break; } } for (;;) { void *pop = NULL; switch_event_t *event = NULL; if (switch_queue_pop(queue, &pop) != SWITCH_STATUS_SUCCESS) { break; } if (!pop) { break; } if (!SYSTEM_RUNNING) { break; } event = (switch_event_t *) pop; while (event) { for (index = 0; index < SOFT_MAX_DISPATCH; index++) { if (switch_queue_trypush(EVENT_DISPATCH_QUEUE[index], event) == SWITCH_STATUS_SUCCESS) { event = NULL; break; } } if (event) { if (SOFT_MAX_DISPATCH + 1 < MAX_DISPATCH) { switch_mutex_lock(EVENT_QUEUE_MUTEX); launch_dispatch_threads(SOFT_MAX_DISPATCH + 1, DISPATCH_QUEUE_LEN, RUNTIME_POOL); switch_mutex_unlock(EVENT_QUEUE_MUTEX); } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Event Thread %d is blocking\n", my_id); switch_queue_push(EVENT_DISPATCH_QUEUE[0], event); event = NULL; } } } } switch_mutex_lock(EVENT_QUEUE_MUTEX); THREAD_COUNT--; switch_mutex_unlock(EVENT_QUEUE_MUTEX); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Event Thread %d Ended.\n", my_id); return NULL; } SWITCH_DECLARE(void) switch_event_deliver(switch_event_t **event) { switch_event_types_t e; switch_event_node_t *node; if (SYSTEM_RUNNING) { switch_thread_rwlock_rdlock(RWLOCK); for (e = (*event)->event_id;; e = SWITCH_EVENT_ALL) { for (node = EVENT_NODES[e]; node; node = node->next) { if (switch_events_match(*event, node)) { (*event)->bind_user_data = node->user_data; node->callback(*event); } } if (e == SWITCH_EVENT_ALL) { break; } } switch_thread_rwlock_unlock(RWLOCK); } switch_event_destroy(event); } SWITCH_DECLARE(switch_status_t) switch_event_running(void) { return SYSTEM_RUNNING ? SWITCH_STATUS_SUCCESS : SWITCH_STATUS_FALSE; } SWITCH_DECLARE(const char *) switch_event_name(switch_event_types_t event) { switch_assert(BLOCK != NULL); switch_assert(RUNTIME_POOL != NULL); return EVENT_NAMES[event]; } SWITCH_DECLARE(switch_status_t) switch_name_event(const char *name, switch_event_types_t *type) { switch_event_types_t x; switch_assert(BLOCK != NULL); switch_assert(RUNTIME_POOL != NULL); for (x = 0; x <= SWITCH_EVENT_ALL; x++) { if ((strlen(name) > 13 && !strcasecmp(name + 13, EVENT_NAMES[x])) || !strcasecmp(name, EVENT_NAMES[x])) { *type = x; return SWITCH_STATUS_SUCCESS; } } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_event_free_subclass_detailed(const char *owner, const char *subclass_name) { switch_event_subclass_t *subclass; switch_status_t status = SWITCH_STATUS_FALSE; switch_assert(RUNTIME_POOL != NULL); switch_assert(CUSTOM_HASH != NULL); if ((subclass = switch_core_hash_find(CUSTOM_HASH, subclass_name))) { if (!strcmp(owner, subclass->owner)) { switch_thread_rwlock_wrlock(RWLOCK); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "Subclass reservation deleted for %s:%s\n", owner, subclass_name); switch_core_hash_delete(CUSTOM_HASH, subclass_name); FREE(subclass->owner); FREE(subclass->name); FREE(subclass); status = SWITCH_STATUS_SUCCESS; switch_thread_rwlock_unlock(RWLOCK); } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "Subclass reservation %s inuse by listeners, detaching..\n", subclass_name); subclass->bind = 1; } } return status; } SWITCH_DECLARE(switch_status_t) switch_event_reserve_subclass_detailed(const char *owner, const char *subclass_name) { switch_event_subclass_t *subclass; switch_assert(RUNTIME_POOL != NULL); switch_assert(CUSTOM_HASH != NULL); if ((subclass = switch_core_hash_find(CUSTOM_HASH, subclass_name))) { /* a listener reserved it for us, now we can lock it so nobody else can have it */ if (subclass->bind) { subclass->bind = 0; return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_INUSE; } switch_zmalloc(subclass, sizeof(*subclass)); subclass->owner = DUP(owner); subclass->name = DUP(subclass_name); switch_core_hash_insert(CUSTOM_HASH, subclass->name, subclass); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(void) switch_core_memory_reclaim_events(void) { #ifdef SWITCH_EVENT_RECYCLE void *pop; int size; size = switch_queue_size(EVENT_RECYCLE_QUEUE); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Returning %d recycled event(s) %d bytes\n", size, (int) sizeof(switch_event_t) * size); size = switch_queue_size(EVENT_HEADER_RECYCLE_QUEUE); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Returning %d recycled event header(s) %d bytes\n", size, (int) sizeof(switch_event_header_t) * size); while (switch_queue_trypop(EVENT_HEADER_RECYCLE_QUEUE, &pop) == SWITCH_STATUS_SUCCESS && pop) { free(pop); } while (switch_queue_trypop(EVENT_RECYCLE_QUEUE, &pop) == SWITCH_STATUS_SUCCESS && pop) { free(pop); } #else return; #endif } SWITCH_DECLARE(switch_status_t) switch_event_shutdown(void) { uint32_t x = 0; int last = 0; switch_hash_index_t *hi; const void *var; void *val; switch_mutex_lock(EVENT_QUEUE_MUTEX); SYSTEM_RUNNING = 0; switch_mutex_unlock(EVENT_QUEUE_MUTEX); for (x = 0; x < 3; x++) { if (EVENT_QUEUE[x]) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Stopping event queue %d\n", x); switch_queue_trypush(EVENT_QUEUE[x], NULL); switch_queue_interrupt_all(EVENT_QUEUE[x]); } } for (x = 0; x < SOFT_MAX_DISPATCH; x++) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Stopping dispatch queue %d\n", x); switch_queue_trypush(EVENT_DISPATCH_QUEUE[x], NULL); switch_queue_interrupt_all(EVENT_DISPATCH_QUEUE[x]); } while (x < 10000 && THREAD_COUNT) { switch_cond_next(); if (THREAD_COUNT == last) { x++; } last = THREAD_COUNT; } for (x = 0; x < SOFT_MAX_DISPATCH; x++) { void *pop = NULL; switch_event_t *event = NULL; switch_status_t st; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Stopping dispatch thread %d\n", x); switch_thread_join(&st, EVENT_DISPATCH_QUEUE_THREADS[x]); while (switch_queue_trypop(EVENT_DISPATCH_QUEUE[x], &pop) == SWITCH_STATUS_SUCCESS && pop) { event = (switch_event_t *) pop; switch_event_destroy(&event); } } for (x = 0; x < NUMBER_OF_QUEUES; x++) { void *pop = NULL; switch_event_t *event = NULL; switch_status_t st; if (EVENT_QUEUE_THREADS[x]) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CONSOLE, "Stopping queue thread %d\n", x); switch_thread_join(&st, EVENT_QUEUE_THREADS[x]); while (switch_queue_trypop(EVENT_QUEUE[x], &pop) == SWITCH_STATUS_SUCCESS && pop) { event = (switch_event_t *) pop; switch_event_destroy(&event); } } } for (hi = switch_hash_first(NULL, CUSTOM_HASH); hi; hi = switch_hash_next(hi)) { switch_event_subclass_t *subclass; switch_hash_this(hi, &var, NULL, &val); if ((subclass = (switch_event_subclass_t *) val)) { FREE(subclass->name); FREE(subclass->owner); FREE(subclass); } } switch_core_hash_destroy(&CUSTOM_HASH); switch_core_memory_reclaim_events(); return SWITCH_STATUS_SUCCESS; } static void launch_dispatch_threads(uint32_t max, int len, switch_memory_pool_t *pool) { switch_threadattr_t *thd_attr; uint32_t index = 0; int launched = 0; uint32_t sanity = 200; if (max > MAX_DISPATCH) { return; } if (max < SOFT_MAX_DISPATCH) { return; } for (index = SOFT_MAX_DISPATCH; index < max && index < MAX_DISPATCH; index++) { if (EVENT_DISPATCH_QUEUE[index]) { continue; } switch_queue_create(&EVENT_DISPATCH_QUEUE[index], len, pool); switch_threadattr_create(&thd_attr, pool); switch_threadattr_stacksize_set(thd_attr, SWITCH_THREAD_STACKSIZE); switch_threadattr_priority_increase(thd_attr); switch_thread_create(&EVENT_DISPATCH_QUEUE_THREADS[index], thd_attr, switch_event_dispatch_thread, EVENT_DISPATCH_QUEUE[index], pool); while(--sanity && !EVENT_DISPATCH_QUEUE_RUNNING[index]) switch_yield(10000); if (index == 1) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Create event dispatch thread %d\n", index); } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Create additional event dispatch thread %d\n", index); } launched++; break; } SOFT_MAX_DISPATCH = index; } SWITCH_DECLARE(switch_status_t) switch_event_init(switch_memory_pool_t *pool) { //switch_threadattr_t *thd_attr; /* This statement doesn't do anything commenting it out for now. switch_assert(switch_arraylen(EVENT_NAMES) == SWITCH_EVENT_ALL + 1); */ /* don't need any more dispatch threads than we have CPU's*/ MAX_DISPATCH = switch_core_cpu_count() + 1; switch_assert(pool != NULL); THRUNTIME_POOL = RUNTIME_POOL = pool; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "Activate Eventing Engine.\n"); switch_thread_rwlock_create(&RWLOCK, RUNTIME_POOL); switch_mutex_init(&BLOCK, SWITCH_MUTEX_NESTED, RUNTIME_POOL); switch_mutex_init(&POOL_LOCK, SWITCH_MUTEX_NESTED, RUNTIME_POOL); switch_mutex_init(&EVENT_QUEUE_MUTEX, SWITCH_MUTEX_NESTED, RUNTIME_POOL); switch_core_hash_init(&CUSTOM_HASH, RUNTIME_POOL); switch_mutex_lock(EVENT_QUEUE_MUTEX); SYSTEM_RUNNING = -1; switch_mutex_unlock(EVENT_QUEUE_MUTEX); //switch_threadattr_create(&thd_attr, pool); switch_find_local_ip(guess_ip_v4, sizeof(guess_ip_v4), NULL, AF_INET); switch_find_local_ip(guess_ip_v6, sizeof(guess_ip_v6), NULL, AF_INET6); //switch_queue_create(&EVENT_QUEUE[0], POOL_COUNT_MAX + 10, THRUNTIME_POOL); //switch_queue_create(&EVENT_QUEUE[1], POOL_COUNT_MAX + 10, THRUNTIME_POOL); //switch_queue_create(&EVENT_QUEUE[2], POOL_COUNT_MAX + 10, THRUNTIME_POOL); #ifdef SWITCH_EVENT_RECYCLE switch_queue_create(&EVENT_RECYCLE_QUEUE, 250000, THRUNTIME_POOL); switch_queue_create(&EVENT_HEADER_RECYCLE_QUEUE, 250000, THRUNTIME_POOL); #endif //switch_threadattr_stacksize_set(thd_attr, SWITCH_THREAD_STACKSIZE); //switch_threadattr_priority_increase(thd_attr); launch_dispatch_threads(1, DISPATCH_QUEUE_LEN, RUNTIME_POOL); //switch_thread_create(&EVENT_QUEUE_THREADS[0], thd_attr, switch_event_thread, EVENT_QUEUE[0], RUNTIME_POOL); //switch_thread_create(&EVENT_QUEUE_THREADS[1], thd_attr, switch_event_thread, EVENT_QUEUE[1], RUNTIME_POOL); //switch_thread_create(&EVENT_QUEUE_THREADS[2], thd_attr, switch_event_thread, EVENT_QUEUE[2], RUNTIME_POOL); while (!THREAD_COUNT) { switch_cond_next(); } switch_mutex_lock(EVENT_QUEUE_MUTEX); SYSTEM_RUNNING = 1; switch_mutex_unlock(EVENT_QUEUE_MUTEX); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_create_subclass_detailed(const char *file, const char *func, int line, switch_event_t **event, switch_event_types_t event_id, const char *subclass_name) { #ifdef SWITCH_EVENT_RECYCLE void *pop; #endif *event = NULL; if ((event_id != SWITCH_EVENT_CLONE && event_id != SWITCH_EVENT_CUSTOM) && subclass_name) { return SWITCH_STATUS_GENERR; } #ifdef SWITCH_EVENT_RECYCLE if (EVENT_RECYCLE_QUEUE && switch_queue_trypop(EVENT_RECYCLE_QUEUE, &pop) == SWITCH_STATUS_SUCCESS && pop) { *event = (switch_event_t *) pop; } else { #endif *event = ALLOC(sizeof(switch_event_t)); switch_assert(*event); #ifdef SWITCH_EVENT_RECYCLE } #endif memset(*event, 0, sizeof(switch_event_t)); if (event_id == SWITCH_EVENT_REQUEST_PARAMS || event_id == SWITCH_EVENT_CHANNEL_DATA || event_id == SWITCH_EVENT_MESSAGE) { (*event)->flags |= EF_UNIQ_HEADERS; } if (event_id != SWITCH_EVENT_CLONE) { (*event)->event_id = event_id; switch_event_prep_for_delivery_detailed(file, func, line, *event); } if (subclass_name) { (*event)->subclass_name = DUP(subclass_name); switch_event_add_header_string(*event, SWITCH_STACK_BOTTOM, "Event-Subclass", subclass_name); } return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_set_priority(switch_event_t *event, switch_priority_t priority) { event->priority = priority; switch_event_add_header_string(event, SWITCH_STACK_TOP, "priority", switch_priority_name(priority)); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_rename_header(switch_event_t *event, const char *header_name, const char *new_header_name) { switch_event_header_t *hp; switch_ssize_t hlen = -1; unsigned long hash = 0; int x = 0; switch_assert(event); if (!header_name) { return SWITCH_STATUS_FALSE; } hash = switch_ci_hashfunc_default(header_name, &hlen); for (hp = event->headers; hp; hp = hp->next) { if ((!hp->hash || hash == hp->hash) && !strcasecmp(hp->name, header_name)) { FREE(hp->name); hp->name = DUP(new_header_name); hlen = -1; hp->hash = switch_ci_hashfunc_default(hp->name, &hlen); x++; } } return x ? SWITCH_STATUS_SUCCESS : SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_event_header_t *) switch_event_get_header_ptr(switch_event_t *event, const char *header_name) { switch_event_header_t *hp; switch_ssize_t hlen = -1; unsigned long hash = 0; switch_assert(event); if (!header_name) return NULL; hash = switch_ci_hashfunc_default(header_name, &hlen); for (hp = event->headers; hp; hp = hp->next) { if ((!hp->hash || hash == hp->hash) && !strcasecmp(hp->name, header_name)) { return hp; } } return NULL; } SWITCH_DECLARE(char *) switch_event_get_header_idx(switch_event_t *event, const char *header_name, int idx) { switch_event_header_t *hp; if ((hp = switch_event_get_header_ptr(event, header_name))) { if (idx > -1) { if (idx < hp->idx) { return hp->array[idx]; } else { return NULL; } } return hp->value; } else if (!strcmp(header_name, "_body")) { return event->body; } return NULL; } SWITCH_DECLARE(char *) switch_event_get_body(switch_event_t *event) { return (event ? event->body : NULL); } SWITCH_DECLARE(switch_status_t) switch_event_del_header_val(switch_event_t *event, const char *header_name, const char *val) { switch_event_header_t *hp, *lp = NULL, *tp; switch_status_t status = SWITCH_STATUS_FALSE; int x = 0; switch_ssize_t hlen = -1; unsigned long hash = 0; tp = event->headers; while (tp) { hp = tp; tp = tp->next; x++; switch_assert(x < 1000000); hash = switch_ci_hashfunc_default(header_name, &hlen); if ((!hp->hash || hash == hp->hash) && !strcasecmp(header_name, hp->name) && (zstr(val) || !strcmp(hp->value, val))) { if (lp) { lp->next = hp->next; } else { event->headers = hp->next; } if (hp == event->last_header || !hp->next) { event->last_header = lp; } FREE(hp->name); if (hp->idx) { int i = 0; for (i = 0; i < hp->idx; i++) { FREE(hp->array[i]); } FREE(hp->array); } FREE(hp->value); memset(hp, 0, sizeof(*hp)); #ifdef SWITCH_EVENT_RECYCLE if (switch_queue_trypush(EVENT_HEADER_RECYCLE_QUEUE, hp) != SWITCH_STATUS_SUCCESS) { FREE(hp); } #else FREE(hp); #endif status = SWITCH_STATUS_SUCCESS; } else { lp = hp; } } return status; } static switch_event_header_t *new_header(const char *header_name) { switch_event_header_t *header; #ifdef SWITCH_EVENT_RECYCLE void *pop; if (EVENT_HEADER_RECYCLE_QUEUE && switch_queue_trypop(EVENT_HEADER_RECYCLE_QUEUE, &pop) == SWITCH_STATUS_SUCCESS) { header = (switch_event_header_t *) pop; } else { #endif header = ALLOC(sizeof(*header)); switch_assert(header); #ifdef SWITCH_EVENT_RECYCLE } #endif memset(header, 0, sizeof(*header)); header->name = DUP(header_name); return header; } SWITCH_DECLARE(int) switch_event_add_array(switch_event_t *event, const char *var, const char *val) { char *data; char **array; int max = 0; int len; const char *p; int i; if (strlen(val) < 8) { return -1; } p = val + 7; max = 1; while((p = strstr(p, "|:"))) { max++; p += 2; } if (!max) { return -2; } data = strdup(val + 7); len = (sizeof(char *) * max) + 1; switch_assert(len); array = malloc(len); memset(array, 0, len); switch_separate_string_string(data, "|:", array, max); for(i = 0; i < max; i++) { switch_event_add_header_string(event, SWITCH_STACK_PUSH, var, array[i]); } free(array); free(data); return 0; } static switch_status_t switch_event_base_add_header(switch_event_t *event, switch_stack_t stack, const char *header_name, char *data) { switch_event_header_t *header = NULL; switch_ssize_t hlen = -1; int exists = 0, fly = 0; char *index_ptr; int index = 0; char *real_header_name = NULL; if (!strcmp(header_name, "_body")) { switch_event_set_body(event, data); } if ((index_ptr = strchr(header_name, '['))) { index_ptr++; index = atoi(index_ptr); real_header_name = DUP(header_name); if ((index_ptr = strchr(real_header_name, '['))) { *index_ptr++ = '\0'; } header_name = real_header_name; } if (index_ptr || (stack & SWITCH_STACK_PUSH) || (stack & SWITCH_STACK_UNSHIFT)) { if (!(header = switch_event_get_header_ptr(event, header_name)) && index_ptr) { header = new_header(header_name); if (switch_test_flag(event, EF_UNIQ_HEADERS)) { switch_event_del_header(event, header_name); } fly++; } if ((header = switch_event_get_header_ptr(event, header_name))) { if (index_ptr) { if (index > -1 && index <= 4000) { if (index < header->idx) { FREE(header->array[index]); header->array[index] = DUP(data); } else { int i; char **m; m = realloc(header->array, sizeof(char *) * (index + 1)); switch_assert(m); header->array = m; for (i = header->idx; i < index; i++) { m[i] = DUP(""); } m[index] = DUP(data); header->idx = index + 1; if (!fly) { exists = 1; } goto redraw; } } goto end; } else { if ((stack & SWITCH_STACK_PUSH) || (stack & SWITCH_STACK_UNSHIFT)) { exists++; stack &= ~(SWITCH_STACK_TOP | SWITCH_STACK_BOTTOM); } else { header = NULL; } } } } if (!header) { if (zstr(data)) { switch_event_del_header(event, header_name); FREE(data); goto end; } if (switch_test_flag(event, EF_UNIQ_HEADERS)) { switch_event_del_header(event, header_name); } if (strstr(data, "ARRAY::")) { switch_event_add_array(event, header_name, data); FREE(data); goto end; } header = new_header(header_name); } if ((stack & SWITCH_STACK_PUSH) || (stack & SWITCH_STACK_UNSHIFT)) { char **m = NULL; switch_size_t len = 0; char *hv; int i = 0, j = 0; if (header->value && !header->idx) { m = malloc(sizeof(char *)); switch_assert(m); m[0] = header->value; header->value = NULL; header->array = m; header->idx++; m = NULL; } i = header->idx + 1; m = realloc(header->array, sizeof(char *) * i); switch_assert(m); if ((stack & SWITCH_STACK_PUSH)) { m[header->idx] = data; } else if ((stack & SWITCH_STACK_UNSHIFT)) { for (j = header->idx; j > 0; j--) { m[j] = m[j-1]; } m[0] = data; } header->idx++; header->array = m; redraw: len = 0; for(j = 0; j < header->idx; j++) { len += strlen(header->array[j]) + 2; } if (len) { len += 8; hv = realloc(header->value, len); switch_assert(hv); header->value = hv; switch_snprintf(header->value, len, "ARRAY::"); for(j = 0; j < header->idx; j++) { switch_snprintf(header->value + strlen(header->value), len - strlen(header->value), "%s%s", j == 0 ? "" : "|:", header->array[j]); } } } else { header->value = data; } if (!exists) { header->hash = switch_ci_hashfunc_default(header->name, &hlen); if ((stack & SWITCH_STACK_TOP)) { header->next = event->headers; event->headers = header; if (!event->last_header) { event->last_header = header; } } else { if (event->last_header) { event->last_header->next = header; } else { event->headers = header; header->next = NULL; } event->last_header = header; } } end: switch_safe_free(real_header_name); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_add_header(switch_event_t *event, switch_stack_t stack, const char *header_name, const char *fmt, ...) { int ret = 0; char *data; va_list ap; va_start(ap, fmt); ret = switch_vasprintf(&data, fmt, ap); va_end(ap); if (ret == -1) { return SWITCH_STATUS_MEMERR; } return switch_event_base_add_header(event, stack, header_name, data); } SWITCH_DECLARE(switch_status_t) switch_event_set_subclass_name(switch_event_t *event, const char *subclass_name) { if (!event || !subclass_name) return SWITCH_STATUS_GENERR; switch_safe_free(event->subclass_name); event->subclass_name = DUP(subclass_name); switch_event_del_header(event, "Event-Subclass"); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Event-Subclass", event->subclass_name); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_add_header_string(switch_event_t *event, switch_stack_t stack, const char *header_name, const char *data) { if (data) { return switch_event_base_add_header(event, stack, header_name, (stack & SWITCH_STACK_NODUP) ? (char *)data : DUP(data)); } return SWITCH_STATUS_GENERR; } SWITCH_DECLARE(switch_status_t) switch_event_set_body(switch_event_t *event, const char *body) { switch_safe_free(event->body); if (body) { event->body = DUP(body); } return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_add_body(switch_event_t *event, const char *fmt, ...) { int ret = 0; char *data; va_list ap; if (fmt) { va_start(ap, fmt); ret = switch_vasprintf(&data, fmt, ap); va_end(ap); if (ret == -1) { return SWITCH_STATUS_GENERR; } else { switch_safe_free(event->body); event->body = data; return SWITCH_STATUS_SUCCESS; } } else { return SWITCH_STATUS_GENERR; } } SWITCH_DECLARE(void) switch_event_destroy(switch_event_t **event) { switch_event_t *ep = *event; switch_event_header_t *hp, *this; if (ep) { for (hp = ep->headers; hp;) { this = hp; hp = hp->next; FREE(this->name); if (this->idx) { int i = 0; for (i = 0; i < this->idx; i++) { FREE(this->array[i]); } FREE(this->array); } FREE(this->value); #ifdef SWITCH_EVENT_RECYCLE if (switch_queue_trypush(EVENT_HEADER_RECYCLE_QUEUE, this) != SWITCH_STATUS_SUCCESS) { FREE(this); } #else FREE(this); #endif } FREE(ep->body); FREE(ep->subclass_name); #ifdef SWITCH_EVENT_RECYCLE if (switch_queue_trypush(EVENT_RECYCLE_QUEUE, ep) != SWITCH_STATUS_SUCCESS) { FREE(ep); } #else FREE(ep); #endif } *event = NULL; } SWITCH_DECLARE(void) switch_event_merge(switch_event_t *event, switch_event_t *tomerge) { switch_event_header_t *hp; switch_assert(tomerge && event); for (hp = tomerge->headers; hp; hp = hp->next) { if (hp->idx) { int i; for(i = 0; i < hp->idx; i++) { switch_event_add_header_string(event, SWITCH_STACK_PUSH, hp->name, hp->array[i]); } } else { switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, hp->name, hp->value); } } } SWITCH_DECLARE(switch_status_t) switch_event_dup(switch_event_t **event, switch_event_t *todup) { switch_event_header_t *hp; if (switch_event_create_subclass(event, SWITCH_EVENT_CLONE, todup->subclass_name) != SWITCH_STATUS_SUCCESS) { return SWITCH_STATUS_GENERR; } (*event)->event_id = todup->event_id; (*event)->event_user_data = todup->event_user_data; (*event)->bind_user_data = todup->bind_user_data; (*event)->flags = todup->flags; for (hp = todup->headers; hp; hp = hp->next) { if (todup->subclass_name && !strcmp(hp->name, "Event-Subclass")) { continue; } if (hp->idx) { int i; for (i = 0; i < hp->idx; i++) { switch_event_add_header_string(*event, SWITCH_STACK_PUSH, hp->name, hp->array[i]); } } else { switch_event_add_header_string(*event, SWITCH_STACK_BOTTOM, hp->name, hp->value); } } if (todup->body) { (*event)->body = DUP(todup->body); } (*event)->key = todup->key; return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_dup_reply(switch_event_t **event, switch_event_t *todup) { switch_event_header_t *hp; char hname[1024] = ""; char *p; if (switch_event_create_subclass(event, SWITCH_EVENT_CLONE, todup->subclass_name) != SWITCH_STATUS_SUCCESS) { return SWITCH_STATUS_GENERR; } (*event)->event_id = todup->event_id; (*event)->event_user_data = todup->event_user_data; (*event)->bind_user_data = todup->bind_user_data; (*event)->flags = todup->flags; for (hp = todup->headers; hp; hp = hp->next) { char *name = hp->name, *value = hp->value; if (todup->subclass_name && !strcmp(hp->name, "Event-Subclass")) { continue; } if (!strncasecmp(hp->name, "from_", 5)) { p = hp->name + 5; switch_snprintf(hname, sizeof(hname), "to_%s", p); name = hname; } else if (!strncasecmp(hp->name, "to_", 3)) { p = hp->name + 3; switch_snprintf(hname, sizeof(hname), "from_%s", p); name = hname; } else if (!strcasecmp(name, "to")) { name = "from"; } else if (!strcasecmp(name, "from")) { name = "to"; } if (hp->idx) { int i; for (i = 0; i < hp->idx; i++) { switch_event_add_header_string(*event, SWITCH_STACK_PUSH, name, hp->array[i]); } } else { switch_event_add_header_string(*event, SWITCH_STACK_BOTTOM, name, value); } } switch_event_add_header_string(*event, SWITCH_STACK_BOTTOM, "replying", "true"); if (todup->body) { switch_event_add_header_string(*event, SWITCH_STACK_BOTTOM, "orig_body", todup->body); } (*event)->key = todup->key; return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_serialize(switch_event_t *event, char **str, switch_bool_t encode) { switch_size_t len = 0; switch_event_header_t *hp; switch_size_t llen = 0, dlen = 0, blocksize = 512, encode_len = 1536, new_len = 0; char *buf; char *encode_buf = NULL; /* used for url encoding of variables to make sure unsafe things stay out of the serialized copy */ *str = NULL; dlen = blocksize * 2; if (!(buf = malloc(dlen))) { abort(); } /* go ahead and give ourselves some space to work with, should save a few reallocs */ if (!(encode_buf = malloc(encode_len))) { abort(); } /* switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "hit serialized!.\n"); */ for (hp = event->headers; hp; hp = hp->next) { /* * grab enough memory to store 3x the string (url encode takes one char and turns it into %XX) * so we could end up with a string that is 3 times the originals length, unlikely but rather * be safe than destroy the string, also add one for the null. And try to be smart about using * the memory, allocate and only reallocate if we need more. This avoids an alloc, free CPU * destroying loop. */ if (hp->idx) { int i; new_len = 0; for(i = 0; i < hp->idx; i++) { new_len += (strlen(hp->array[i]) * 3) + 1; } } else { new_len = (strlen(hp->value) * 3) + 1; } if (encode_len < new_len) { char *tmp; /* keep track of the size of our allocation */ encode_len = new_len; if (!(tmp = realloc(encode_buf, encode_len))) { abort(); } encode_buf = tmp; } /* handle any bad things in the string like newlines : etc that screw up the serialized format */ if (encode) { switch_url_encode(hp->value, encode_buf, encode_len); } else { switch_snprintf(encode_buf, encode_len, "[%s]", hp->value); } llen = strlen(hp->name) + strlen(encode_buf) + 8; if ((len + llen) > dlen) { char *m = buf; dlen += (blocksize + (len + llen)); if (!(buf = realloc(buf, dlen))) { buf = m; abort(); } } switch_snprintf(buf + len, dlen - len, "%s: %s\n", hp->name, *encode_buf == '\0' ? "_undef_" : encode_buf); len = strlen(buf); } /* we are done with the memory we used for encoding, give it back */ switch_safe_free(encode_buf); if (event->body) { int blen = (int) strlen(event->body); llen = blen; if (blen) { llen += 25; } else { llen += 5; } if ((len + llen) > dlen) { char *m = buf; dlen += (blocksize + (len + llen)); if (!(buf = realloc(buf, dlen))) { buf = m; abort(); } } if (blen) { switch_snprintf(buf + len, dlen - len, "Content-Length: %d\n\n%s", blen, event->body); } else { switch_snprintf(buf + len, dlen - len, "\n"); } } else { switch_snprintf(buf + len, dlen - len, "\n"); } *str = buf; return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_create_brackets(char *data, char a, char b, char c, switch_event_t **event, char **new_data, switch_bool_t dup) { char *vdata, *vdatap = NULL; char *end, *check_a, *check_b; switch_event_t *e = *event; char *var_array[1024] = { 0 }; int var_count = 0; char *next = NULL, *vnext = NULL; if (dup) { vdatap = strdup(data); vdata = vdatap; } else { vdata = data; } end = switch_find_end_paren(vdata, a, b); check_a = end; while (check_a && (check_b = switch_strchr_strict(check_a, a, " "))) { if ((check_b = switch_find_end_paren(check_b, a, b))) { check_a = check_b; } } if (check_a) end = check_a; if (end) { next = end; vdata++; *end++ = '\0'; } else { if (dup) { free(vdatap); } return SWITCH_STATUS_FALSE; } if (!e) { switch_event_create_plain(&e, SWITCH_EVENT_CHANNEL_DATA); } for (;;) { if (next) { char *pnext; *next++ = '\0'; if ((pnext = switch_strchr_strict(next, a, " "))) { next = pnext + 1; } vnext = switch_find_end_paren(next, a, b); next = NULL; } if (vdata) { if (*vdata == '^' && *(vdata + 1) == '^') { vdata += 2; c = *vdata++; } } if ((var_count = switch_separate_string(vdata, c, var_array, (sizeof(var_array) / sizeof(var_array[0]))))) { int x = 0; for (x = 0; x < var_count; x++) { char *inner_var_array[2] = { 0 }; int inner_var_count; if ((inner_var_count = switch_separate_string(var_array[x], '=', inner_var_array, (sizeof(inner_var_array) / sizeof(inner_var_array[0])))) == 2) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Parsing variable [%s]=[%s]\n", inner_var_array[0], inner_var_array[1]); switch_event_add_header_string(e, SWITCH_STACK_BOTTOM, inner_var_array[0], inner_var_array[1]); } } } if (vnext) { vdata = vnext; } else { break; } } *event = e; if (dup) { *new_data = strdup(end); free(vdatap); } else { *new_data = end; } return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_create_json(switch_event_t **event, const char *json) { switch_event_t *new_event; cJSON *cj, *cjp; if (!(cj = cJSON_Parse(json))) { return SWITCH_STATUS_FALSE; } if (switch_event_create(&new_event, SWITCH_EVENT_CLONE) != SWITCH_STATUS_SUCCESS) { cJSON_Delete(cj); return SWITCH_STATUS_FALSE; } for (cjp = cj->child; cjp; cjp = cjp->next) { char *name = cjp->string; char *value = cjp->valuestring; if (name && value) { if (!strcasecmp(name, "_body")) { switch_event_add_body(new_event, value, SWITCH_VA_NONE); } else { if (!strcasecmp(name, "event-name")) { switch_event_del_header(new_event, "event-name"); switch_name_event(value, &new_event->event_id); } switch_event_add_header_string(new_event, SWITCH_STACK_BOTTOM, name, value); } } else if (name) { if (cjp->type == cJSON_Array) { int i, x = cJSON_GetArraySize(cjp); for (i = 0; i < x; i++) { cJSON *item = cJSON_GetArrayItem(cjp, i); if (item && item->type == cJSON_String && item->valuestring) { switch_event_add_header_string(new_event, SWITCH_STACK_PUSH, name, item->valuestring); } } } } } cJSON_Delete(cj); *event = new_event; return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_serialize_json(switch_event_t *event, char **str) { switch_event_header_t *hp; cJSON *cj; *str = NULL; cj = cJSON_CreateObject(); for (hp = event->headers; hp; hp = hp->next) { if (hp->idx) { cJSON *a = cJSON_CreateArray(); int i; for(i = 0; i < hp->idx; i++) { cJSON_AddItemToArray(a, cJSON_CreateString(hp->array[i])); } cJSON_AddItemToObject(cj, hp->name, a); } else { cJSON_AddItemToObject(cj, hp->name, cJSON_CreateString(hp->value)); } } if (event->body) { int blen = (int) strlen(event->body); char tmp[25]; switch_snprintf(tmp, sizeof(tmp), "%d", blen); cJSON_AddItemToObject(cj, "Content-Length", cJSON_CreateString(tmp)); cJSON_AddItemToObject(cj, "_body", cJSON_CreateString(event->body)); } *str = cJSON_Print(cj); cJSON_Delete(cj); return SWITCH_STATUS_SUCCESS; } static switch_xml_t add_xml_header(switch_xml_t xml, char *name, char *value, int offset) { switch_xml_t header = switch_xml_add_child_d(xml, name, offset); if (header) { switch_size_t encode_len = (strlen(value) * 3) + 1; char *encode_buf = malloc(encode_len); switch_assert(encode_buf); memset(encode_buf, 0, encode_len); switch_url_encode((char *) value, encode_buf, encode_len); switch_xml_set_txt_d(header, encode_buf); free(encode_buf); } return header; } SWITCH_DECLARE(switch_xml_t) switch_event_xmlize(switch_event_t *event, const char *fmt,...) { switch_event_header_t *hp; char *data = NULL, *body = NULL; int ret = 0; switch_xml_t xml = NULL; uint32_t off = 0; va_list ap; switch_xml_t xheaders = NULL; if (!(xml = switch_xml_new("event"))) { return xml; } if (!zstr(fmt)) { va_start(ap, fmt); #ifdef HAVE_VASPRINTF ret = vasprintf(&data, fmt, ap); #else data = (char *) malloc(2048); if (!data) return NULL; ret = vsnprintf(data, 2048, fmt, ap); #endif va_end(ap); if (ret == -1) { #ifndef HAVE_VASPRINTF free(data); #endif return NULL; } } if ((xheaders = switch_xml_add_child_d(xml, "headers", off++))) { int hoff = 0; for (hp = event->headers; hp; hp = hp->next) { if (hp->idx) { int i; for (i = 0; i < hp->idx; i++) { add_xml_header(xheaders, hp->name, hp->array[i], hoff++); } } else { add_xml_header(xheaders, hp->name, hp->value, hoff++); } } } if (!zstr(data)) { body = data; } else if (event->body) { body = event->body; } if (body) { int blen = (int) strlen(body); char blena[25]; switch_snprintf(blena, sizeof(blena), "%d", blen); if (blen) { switch_xml_t xbody = NULL; add_xml_header(xml, "Content-Length", blena, off++); if ((xbody = switch_xml_add_child_d(xml, "body", off++))) { switch_xml_set_txt_d(xbody, body); } } } if (data) { free(data); } return xml; } SWITCH_DECLARE(void) switch_event_prep_for_delivery_detailed(const char *file, const char *func, int line, switch_event_t *event) { switch_time_exp_t tm; char date[80] = ""; switch_size_t retsize; switch_time_t ts = switch_micro_time_now(); switch_mutex_lock(EVENT_QUEUE_MUTEX); EVENT_SEQUENCE_NR++; switch_mutex_unlock(EVENT_QUEUE_MUTEX); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Event-Name", switch_event_name(event->event_id)); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Core-UUID", switch_core_get_uuid()); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "FreeSWITCH-Hostname", switch_core_get_hostname()); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "FreeSWITCH-Switchname", switch_core_get_switchname()); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "FreeSWITCH-IPv4", guess_ip_v4); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "FreeSWITCH-IPv6", guess_ip_v6); switch_time_exp_lt(&tm, ts); switch_strftime_nocheck(date, &retsize, sizeof(date), "%Y-%m-%d %T", &tm); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Event-Date-Local", date); switch_rfc822_date(date, ts); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Event-Date-GMT", date); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Event-Date-Timestamp", "%" SWITCH_UINT64_T_FMT, (uint64_t) ts); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Event-Calling-File", switch_cut_path(file)); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, "Event-Calling-Function", func); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Event-Calling-Line-Number", "%d", line); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Event-Sequence", "%" SWITCH_UINT64_T_FMT, (uint64_t) EVENT_SEQUENCE_NR); } SWITCH_DECLARE(switch_status_t) switch_event_fire_detailed(const char *file, const char *func, int line, switch_event_t **event, void *user_data) { switch_assert(BLOCK != NULL); switch_assert(RUNTIME_POOL != NULL); switch_assert(EVENT_QUEUE_MUTEX != NULL); switch_assert(RUNTIME_POOL != NULL); if (SYSTEM_RUNNING <= 0) { /* sorry we're closed */ switch_event_destroy(event); return SWITCH_STATUS_SUCCESS; } if (user_data) { (*event)->event_user_data = user_data; } if (!EVENT_QUEUE_THREADS[(*event)->priority] && (*event)->priority < 3) { switch_threadattr_t *thd_attr; switch_queue_create(&EVENT_QUEUE[(*event)->priority], POOL_COUNT_MAX + 10, THRUNTIME_POOL); switch_threadattr_create(&thd_attr, THRUNTIME_POOL); switch_threadattr_stacksize_set(thd_attr, SWITCH_THREAD_STACKSIZE); switch_threadattr_priority_increase(thd_attr); switch_thread_create(&EVENT_QUEUE_THREADS[(*event)->priority], thd_attr, switch_event_thread, EVENT_QUEUE[(*event)->priority], RUNTIME_POOL); } for (;;) { if (switch_queue_trypush(EVENT_QUEUE[(*event)->priority], *event) == SWITCH_STATUS_SUCCESS) { goto end; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Event queue is full!\n"); switch_yield(100000); } end: *event = NULL; return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_event_bind_removable(const char *id, switch_event_types_t event, const char *subclass_name, switch_event_callback_t callback, void *user_data, switch_event_node_t **node) { switch_event_node_t *event_node; switch_event_subclass_t *subclass = NULL; switch_assert(BLOCK != NULL); switch_assert(RUNTIME_POOL != NULL); if (node) { *node = NULL; } if (subclass_name) { if (!(subclass = switch_core_hash_find(CUSTOM_HASH, subclass_name))) { switch_event_reserve_subclass_detailed(id, subclass_name); subclass = switch_core_hash_find(CUSTOM_HASH, subclass_name); subclass->bind = 1; } if (!subclass) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Could not reserve subclass. '%s'\n", subclass_name); return SWITCH_STATUS_FALSE; } } if (event <= SWITCH_EVENT_ALL) { switch_zmalloc(event_node, sizeof(*event_node)); switch_thread_rwlock_wrlock(RWLOCK); switch_mutex_lock(BLOCK); /* ----------------------------------------------- */ event_node->id = DUP(id); event_node->event_id = event; if (subclass_name) { event_node->subclass_name = DUP(subclass_name); } event_node->callback = callback; event_node->user_data = user_data; if (EVENT_NODES[event]) { event_node->next = EVENT_NODES[event]; } EVENT_NODES[event] = event_node; switch_mutex_unlock(BLOCK); switch_thread_rwlock_unlock(RWLOCK); /* ----------------------------------------------- */ if (node) { *node = event_node; } return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_MEMERR; } SWITCH_DECLARE(switch_status_t) switch_event_bind(const char *id, switch_event_types_t event, const char *subclass_name, switch_event_callback_t callback, void *user_data) { return switch_event_bind_removable(id, event, subclass_name, callback, user_data, NULL); } SWITCH_DECLARE(switch_status_t) switch_event_unbind_callback(switch_event_callback_t callback) { switch_event_node_t *n, *np, *lnp = NULL; switch_status_t status = SWITCH_STATUS_FALSE; int id; switch_thread_rwlock_wrlock(RWLOCK); switch_mutex_lock(BLOCK); /* ----------------------------------------------- */ for (id = 0; id <= SWITCH_EVENT_ALL; id++) { lnp = NULL; for (np = EVENT_NODES[id]; np;) { n = np; np = np->next; if (n->callback == callback) { if (lnp) { lnp->next = n->next; } else { EVENT_NODES[n->event_id] = n->next; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "Event Binding deleted for %s:%s\n", n->id, switch_event_name(n->event_id)); FREE(n->subclass_name); FREE(n->id); FREE(n); status = SWITCH_STATUS_SUCCESS; } else { lnp = n; } } } switch_mutex_unlock(BLOCK); switch_thread_rwlock_unlock(RWLOCK); /* ----------------------------------------------- */ return status; } SWITCH_DECLARE(switch_status_t) switch_event_unbind(switch_event_node_t **node) { switch_event_node_t *n, *np, *lnp = NULL; switch_status_t status = SWITCH_STATUS_FALSE; n = *node; if (!n) { return status; } switch_thread_rwlock_wrlock(RWLOCK); switch_mutex_lock(BLOCK); /* ----------------------------------------------- */ for (np = EVENT_NODES[n->event_id]; np; np = np->next) { if (np == n) { if (lnp) { lnp->next = n->next; } else { EVENT_NODES[n->event_id] = n->next; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "Event Binding deleted for %s:%s\n", n->id, switch_event_name(n->event_id)); FREE(n->subclass_name); FREE(n->id); FREE(n); *node = NULL; status = SWITCH_STATUS_SUCCESS; break; } lnp = np; } switch_mutex_unlock(BLOCK); switch_thread_rwlock_unlock(RWLOCK); /* ----------------------------------------------- */ return status; } SWITCH_DECLARE(switch_status_t) switch_event_create_pres_in_detailed(char *file, char *func, int line, const char *proto, const char *login, const char *from, const char *from_domain, const char *status, const char *event_type, const char *alt_event_type, int event_count, const char *unique_id, const char *channel_state, const char *answer_state, const char *call_direction) { switch_event_t *pres_event; if (switch_event_create_subclass(&pres_event, SWITCH_EVENT_PRESENCE_IN, SWITCH_EVENT_SUBCLASS_ANY) == SWITCH_STATUS_SUCCESS) { switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "proto", proto); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "login", login); switch_event_add_header(pres_event, SWITCH_STACK_TOP, "from", "%s@%s", from, from_domain); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "status", status); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "event_type", event_type); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "alt_event_type", alt_event_type); switch_event_add_header(pres_event, SWITCH_STACK_TOP, "event_count", "%d", event_count); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "unique-id", alt_event_type); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "channel-state", channel_state); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "answer-state", answer_state); switch_event_add_header_string(pres_event, SWITCH_STACK_TOP, "presence-call-direction", call_direction); switch_event_fire_detailed(file, func, line, &pres_event, NULL); return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_MEMERR; } #define resize(l) {\ char *dp;\ olen += (len + l + block);\ cpos = c - data;\ if ((dp = realloc(data, olen))) {\ data = dp;\ c = data + cpos;\ memset(c, 0, olen - cpos);\ }} \ SWITCH_DECLARE(char *) switch_event_expand_headers_check(switch_event_t *event, const char *in, switch_event_t *var_list, switch_event_t *api_list, uint32_t recur) { char *p, *c = NULL; char *data, *indup, *endof_indup; size_t sp = 0, len = 0, olen = 0, vtype = 0, br = 0, cpos, block = 128; const char *sub_val = NULL; char *cloned_sub_val = NULL, *expanded_sub_val = NULL; char *func_val = NULL; int nv = 0; char *gvar = NULL, *sb = NULL; if (recur > 100) { return (char *) in; } if (zstr(in)) { return (char *) in; } nv = switch_string_var_check_const(in) || switch_string_has_escaped_data(in); if (!nv) { return (char *) in; } nv = 0; olen = strlen(in) + 1; indup = strdup(in); endof_indup = end_of_p(indup) + 1; if ((data = malloc(olen))) { memset(data, 0, olen); c = data; for (p = indup; p && p < endof_indup && *p; p++) { vtype = 0; if (*p == '\\') { if (*(p + 1) == '$') { nv = 1; p++; } else if (*(p + 1) == '\'') { p++; continue; } else if (*(p + 1) == '\\') { *c++ = *p++; len++; continue; } } if (*p == '$' && !nv) { if (*(p + 1)) { if (*(p + 1) == '{') { vtype = 1; } else { nv = 1; } } else { nv = 1; } } if (nv) { *c++ = *p; len++; nv = 0; continue; } if (vtype) { char *s = p, *e, *vname, *vval = NULL; size_t nlen; s++; if (vtype == 1 && *s == '{') { br = 1; s++; } e = s; vname = s; while (*e) { if (br == 1 && *e == '}') { br = 0; *e++ = '\0'; break; } if (br > 0) { if (e != s && *e == '{') { br++; } else if (br > 1 && *e == '}') { br--; } } e++; } p = e > endof_indup ? endof_indup : e; vval = NULL; for(sb = vname; sb && *sb; sb++) { if (*sb == ' ') { vval = sb; break; } else if (*sb == '(') { vval = sb; br = 1; break; } } if (vval) { e = vval - 1; *vval++ = '\0'; while (*e == ' ') { *e-- = '\0'; } e = vval; while (e && *e) { if (*e == '(') { br++; } else if (br > 1 && *e == ')') { br--; } else if (br == 1 && *e == ')') { *e = '\0'; break; } e++; } vtype = 2; } if (vtype == 1) { char *expanded = NULL; int offset = 0; int ooffset = 0; char *ptr; int idx = -1; if ((expanded = switch_event_expand_headers_check(event, (char *) vname, var_list, api_list, recur+1)) == vname) { expanded = NULL; } else { vname = expanded; } if ((ptr = strchr(vname, ':'))) { *ptr++ = '\0'; offset = atoi(ptr); if ((ptr = strchr(ptr, ':'))) { ptr++; ooffset = atoi(ptr); } } if ((ptr = strchr(vname, '[')) && strchr(ptr, ']')) { *ptr++ = '\0'; idx = atoi(ptr); } if (!(sub_val = switch_event_get_header_idx(event, vname, idx))) { switch_safe_free(gvar); if ((gvar = switch_core_get_variable_dup(vname))) { sub_val = gvar; } if (var_list && !switch_event_check_permission_list(var_list, vname)) { sub_val = "INVALID"; } if ((expanded_sub_val = switch_event_expand_headers_check(event, sub_val, var_list, api_list, recur+1)) == sub_val) { expanded_sub_val = NULL; } else { sub_val = expanded_sub_val; } } if (offset || ooffset) { cloned_sub_val = strdup(sub_val); switch_assert(cloned_sub_val); sub_val = cloned_sub_val; } if (offset >= 0) { sub_val += offset; } else if ((size_t) abs(offset) <= strlen(sub_val)) { sub_val = cloned_sub_val + (strlen(cloned_sub_val) + offset); } if (ooffset > 0 && (size_t) ooffset < strlen(sub_val)) { if ((ptr = (char *) sub_val + ooffset)) { *ptr = '\0'; } } switch_safe_free(expanded); } else { switch_stream_handle_t stream = { 0 }; char *expanded = NULL; SWITCH_STANDARD_STREAM(stream); if (stream.data) { char *expanded_vname = NULL; if ((expanded_vname = switch_event_expand_headers_check(event, (char *) vname, var_list, api_list, recur+1)) == vname) { expanded_vname = NULL; } else { vname = expanded_vname; } if ((expanded = switch_event_expand_headers_check(event, vval, var_list, api_list, recur+1)) == vval) { expanded = NULL; } else { vval = expanded; } if (api_list && !switch_event_check_permission_list(api_list, vname)) { func_val = "INVALID"; sub_val = "INVALID"; } else { if (switch_api_execute(vname, vval, NULL, &stream) == SWITCH_STATUS_SUCCESS) { func_val = stream.data; sub_val = func_val; } else { free(stream.data); } } switch_safe_free(expanded); switch_safe_free(expanded_vname); } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Memory Error!\n"); free(data); free(indup); return (char *) in; } } if ((nlen = sub_val ? strlen(sub_val) : 0)) { if (len + nlen >= olen) { resize(nlen); } len += nlen; strcat(c, sub_val); c += nlen; } switch_safe_free(func_val); switch_safe_free(cloned_sub_val); switch_safe_free(expanded_sub_val); sub_val = NULL; vname = NULL; vtype = 0; br = 0; } if (len + 1 >= olen) { resize(1); } if (sp) { *c++ = ' '; sp = 0; len++; } if (*p == '$') { p--; } else { *c++ = *p; len++; } } } free(indup); switch_safe_free(gvar); return data; } SWITCH_DECLARE(char *) switch_event_build_param_string(switch_event_t *event, const char *prefix, switch_hash_t *vars_map) { switch_stream_handle_t stream = { 0 }; switch_size_t encode_len = 1024, new_len = 0; char *encode_buf = NULL; const char *prof[12] = { 0 }, *prof_names[12] = { 0}; char *e = NULL; switch_event_header_t *hi; uint32_t x = 0; void *data = NULL; SWITCH_STANDARD_STREAM(stream); if (prefix) { stream.write_function(&stream, "%s&", prefix); } encode_buf = malloc(encode_len); switch_assert(encode_buf); for (x = 0; prof[x]; x++) { if (zstr(prof[x])) { continue; } new_len = (strlen(prof[x]) * 3) + 1; if (encode_len < new_len) { char *tmp; encode_len = new_len; if (!(tmp = realloc(encode_buf, encode_len))) { abort(); } encode_buf = tmp; } switch_url_encode(prof[x], encode_buf, encode_len); stream.write_function(&stream, "%s=%s&", prof_names[x], encode_buf); } if (event) { if ((hi = event->headers)) { for (; hi; hi = hi->next) { char *var = hi->name; char *val = hi->value; if (vars_map != NULL) { if ((data = switch_core_hash_find(vars_map, var)) == NULL || strcasecmp(((char *) data), "enabled")) continue; } new_len = (strlen((char *) var) * 3) + 1; if (encode_len < new_len) { char *tmp; encode_len = new_len; tmp = realloc(encode_buf, encode_len); switch_assert(tmp); encode_buf = tmp; } switch_url_encode((char *) val, encode_buf, encode_len); stream.write_function(&stream, "%s=%s&", (char *) var, encode_buf); } } } e = (char *) stream.data + (strlen((char *) stream.data) - 1); if (e && *e == '&') { *e = '\0'; } switch_safe_free(encode_buf); return stream.data; } SWITCH_DECLARE(int) switch_event_check_permission_list(switch_event_t *list, const char *name) { const char *v; int r = 0; int default_allow = 0; if (!list) { return 1; } default_allow = switch_test_flag(list, EF_DEFAULT_ALLOW); if (!list->headers) { return default_allow; } if ((v = switch_event_get_header(list, name))) { if (*v == 'd') { r = 0; } else { r = 1; } } else { r = default_allow; } return r; } SWITCH_DECLARE(void) switch_event_add_presence_data_cols(switch_channel_t *channel, switch_event_t *event, const char *prefix) { const char *data; if (!prefix) prefix = ""; if ((data = switch_channel_get_variable(channel, "presence_data_cols"))) { char *cols[128] = { 0 }; char header_name[128] = ""; int col_count = 0, i = 0; char *data_copy = NULL; data_copy = strdup(data); col_count = switch_split(data_copy, ':', cols); for (i = 0; i < col_count; i++) { const char *val = NULL; switch_snprintf(header_name, sizeof(header_name), "%s%s", prefix, cols[i]); val = switch_channel_get_variable(channel, cols[i]); switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, header_name, val); } switch_safe_free(data_copy); } } /* For Emacs: * Local Variables: * mode:c * indent-tabs-mode:t * tab-width:4 * c-basic-offset:4 * End: * For VIM: * vim:set softtabstop=4 shiftwidth=4 tabstop=4: */