/* * FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application * Copyright (C) 2005/2006, 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 * Paul D. Tinsley * Neal Horman * * switch_ivr_api.c -- IVR Library * */ #include #include #include static const switch_state_handler_table_t audio_bridge_peer_state_handlers; typedef enum { IDX_CANCEL = -2, IDX_NADA = -1 } abort_t; SWITCH_DECLARE(switch_status_t) switch_ivr_sleep(switch_core_session_t *session, uint32_t ms) { switch_channel_t *channel; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_time_t start, now, done = switch_time_now() + (ms * 1000); switch_frame_t *read_frame; int32_t left, elapsed; channel = switch_core_session_get_channel(session); assert(channel != NULL); start = switch_time_now(); for(;;) { now = switch_time_now(); elapsed = (int32_t)((now - start) / 1000); left = ms - elapsed; if (!switch_channel_ready(channel)) { status = SWITCH_STATUS_FALSE; break; } if (now > done || left <= 0) { break; } if (switch_channel_test_flag(channel, CF_SERVICE)) { switch_yield(1000); } else { status = switch_core_session_read_frame(session, &read_frame, left, 0); if (!SWITCH_READ_ACCEPTABLE(status)) { break; } } } return status; } static void switch_ivr_parse_event(switch_core_session_t *session, switch_event_t *event) { switch_channel_t *channel = switch_core_session_get_channel(session); char *cmd = switch_event_get_header(event, "call-command"); unsigned long cmd_hash; apr_ssize_t hlen = APR_HASH_KEY_STRING; unsigned long CMD_EXECUTE = apr_hashfunc_default("execute", &hlen); unsigned long CMD_HANGUP = apr_hashfunc_default("hangup", &hlen); unsigned long CMD_NOMEDIA = apr_hashfunc_default("nomedia", &hlen); assert(channel != NULL); hlen = (switch_size_t) strlen(cmd); cmd_hash = apr_hashfunc_default(cmd, &hlen); switch_channel_set_flag(channel, CF_EVENT_PARSE); if (!switch_strlen_zero(cmd)) { if (cmd_hash == CMD_EXECUTE) { const switch_application_interface_t *application_interface; char *app_name = switch_event_get_header(event, "execute-app-name"); char *app_arg = switch_event_get_header(event, "execute-app-arg"); if (app_name && app_arg) { if ((application_interface = switch_loadable_module_get_application_interface(app_name))) { if (application_interface->application_function) { application_interface->application_function(session, app_arg); } } } } else if (cmd_hash == CMD_HANGUP) { char *cause_name = switch_event_get_header(event, "hangup-cause"); switch_call_cause_t cause = SWITCH_CAUSE_NORMAL_CLEARING; if (cause_name) { cause = switch_channel_str2cause(cause_name); } switch_channel_hangup(channel, cause); } else if (cmd_hash == CMD_NOMEDIA) { char *uuid = switch_event_get_header(event, "nomedia-uuid"); switch_ivr_nomedia(uuid, SMF_REBRIDGE); } } switch_channel_clear_flag(channel, CF_EVENT_PARSE); } SWITCH_DECLARE(switch_status_t) switch_ivr_park(switch_core_session_t *session) { switch_status_t status = SWITCH_STATUS_SUCCESS; switch_channel_t *channel; switch_frame_t *frame; int stream_id; switch_event_t *event; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_channel_answer(channel); if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_PARK) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(channel, event); switch_event_fire(&event); } switch_channel_set_flag(channel, CF_CONTROLLED); while (switch_channel_ready(channel)) { for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { if ((status = switch_core_session_read_frame(session, &frame, -1, stream_id)) == SWITCH_STATUS_SUCCESS) { if (!SWITCH_READ_ACCEPTABLE(status)) { break; } if (switch_core_session_dequeue_private_event(session, &event) == SWITCH_STATUS_SUCCESS) { switch_ivr_parse_event(session, event); switch_event_destroy(&event); } } } } switch_channel_clear_flag(channel, CF_CONTROLLED); if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_UNPARK) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(channel, event); switch_event_fire(&event); } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_collect_digits_callback(switch_core_session_t *session, switch_input_callback_function_t input_callback, void *buf, uint32_t buflen, uint32_t timeout) { switch_channel_t *channel; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_time_t started = 0; uint32_t elapsed; channel = switch_core_session_get_channel(session); assert(channel != NULL); if (!input_callback) { return SWITCH_STATUS_GENERR; } if (timeout) { started = switch_time_now(); } while(switch_channel_ready(channel)) { switch_frame_t *read_frame; switch_event_t *event; char dtmf[128]; if (timeout) { elapsed = (uint32_t)((switch_time_now() - started) / 1000); if (elapsed >= timeout) { break; } } if (switch_core_session_dequeue_private_event(session, &event) == SWITCH_STATUS_SUCCESS) { switch_ivr_parse_event(session, event); switch_event_destroy(&event); } if (switch_channel_has_dtmf(channel)) { switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf)); status = input_callback(session, dtmf, SWITCH_INPUT_TYPE_DTMF, buf, buflen); } if (switch_core_session_dequeue_event(session, &event) == SWITCH_STATUS_SUCCESS) { status = input_callback(session, event, SWITCH_INPUT_TYPE_EVENT, buf, buflen); switch_event_destroy(&event); } if (status != SWITCH_STATUS_SUCCESS) { break; } if (switch_channel_test_flag(channel, CF_SERVICE)) { switch_yield(1000); } else { status = switch_core_session_read_frame(session, &read_frame, -1, 0); } if (!SWITCH_READ_ACCEPTABLE(status)) { break; } } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_collect_digits_count(switch_core_session_t *session, char *buf, uint32_t buflen, uint32_t maxdigits, const char *terminators, char *terminator, uint32_t timeout) { uint32_t i = 0, x = (uint32_t) strlen(buf); switch_channel_t *channel; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_time_t started = 0; uint32_t elapsed; channel = switch_core_session_get_channel(session); assert(channel != NULL); *terminator = '\0'; if (terminators) { for (i = 0 ; i < x; i++) { if (strchr(terminators, buf[i])) { *terminator = buf[i]; return SWITCH_STATUS_SUCCESS; } } } if (timeout) { started = switch_time_now(); } while(switch_channel_ready(channel)) { switch_frame_t *read_frame; switch_event_t *event; if (timeout) { elapsed = (uint32_t)((switch_time_now() - started) / 1000); if (elapsed >= timeout) { break; } } if (switch_core_session_dequeue_private_event(session, &event) == SWITCH_STATUS_SUCCESS) { switch_ivr_parse_event(session, event); switch_event_destroy(&event); } if (switch_channel_has_dtmf(channel)) { char dtmf[128]; switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf)); for(i =0 ; i < (uint32_t) strlen(dtmf); i++) { if (strchr(terminators, dtmf[i])) { *terminator = dtmf[i]; return SWITCH_STATUS_SUCCESS; } buf[x++] = dtmf[i]; buf[x] = '\0'; if (x >= buflen || x >= maxdigits) { return SWITCH_STATUS_SUCCESS; } } } if (switch_channel_test_flag(channel, CF_SERVICE)) { switch_yield(1000); } else { status = switch_core_session_read_frame(session, &read_frame, -1, 0); if (!SWITCH_READ_ACCEPTABLE(status)) { break; } } } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_record_file(switch_core_session_t *session, switch_file_handle_t *fh, char *file, switch_input_callback_function_t input_callback, void *buf, uint32_t buflen, uint32_t limit) { switch_channel_t *channel; char dtmf[128]; switch_file_handle_t lfh; switch_frame_t *read_frame; switch_codec_t codec, *read_codec; char *codec_name; switch_status_t status = SWITCH_STATUS_SUCCESS; char *p; const char *vval; time_t start = 0; if (!fh) { fh = &lfh; } memset(fh, 0, sizeof(*fh)); channel = switch_core_session_get_channel(session); assert(channel != NULL); read_codec = switch_core_session_get_read_codec(session); assert(read_codec != NULL); fh->channels = read_codec->implementation->number_of_channels; fh->samplerate = read_codec->implementation->samples_per_second; if (switch_core_file_open(fh, file, SWITCH_FILE_FLAG_WRITE | SWITCH_FILE_DATA_SHORT, switch_core_session_get_pool(session)) != SWITCH_STATUS_SUCCESS) { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } switch_channel_answer(channel); if ((p = switch_channel_get_variable(channel, "RECORD_TITLE"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_TITLE, vval); switch_channel_set_variable(channel, "RECORD_TITLE", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_COPYRIGHT"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_COPYRIGHT, vval); switch_channel_set_variable(channel, "RECORD_COPYRIGHT", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_SOFTWARE"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_SOFTWARE, vval); switch_channel_set_variable(channel, "RECORD_SOFTWARE", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_ARTIST"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_ARTIST, vval); switch_channel_set_variable(channel, "RECORD_ARTIST", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_COMMENT"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_COMMENT, vval); switch_channel_set_variable(channel, "RECORD_COMMENT", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_DATE"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_DATE, vval); switch_channel_set_variable(channel, "RECORD_DATE", NULL); } codec_name = "L16"; if (switch_core_codec_init(&codec, codec_name, NULL, read_codec->implementation->samples_per_second, read_codec->implementation->microseconds_per_frame / 1000, read_codec->implementation->number_of_channels, SWITCH_CODEC_FLAG_ENCODE | SWITCH_CODEC_FLAG_DECODE, NULL, switch_core_session_get_pool(session)) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Raw Codec Activated\n"); switch_core_session_set_read_codec(session, &codec); } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Raw Codec Activation Failed %s@%uhz %u channels %dms\n", codec_name, fh->samplerate, fh->channels, read_codec->implementation->microseconds_per_frame / 1000); switch_core_file_close(fh); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } if (limit) { start = time(NULL); } while(switch_channel_ready(channel)) { switch_size_t len; switch_event_t *event; if (switch_core_session_dequeue_private_event(session, &event) == SWITCH_STATUS_SUCCESS) { switch_ivr_parse_event(session, event); switch_event_destroy(&event); } if (start && (time(NULL) - start) > limit) { break; } if (input_callback || buf || buflen) { /* dtmf handler function you can hook up to be executed when a digit is dialed during playback if you return anything but SWITCH_STATUS_SUCCESS the playback will stop. */ if (switch_channel_has_dtmf(channel)) { if (!input_callback && !buf) { status = SWITCH_STATUS_BREAK; break; } switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf)); if (input_callback) { status = input_callback(session, dtmf, SWITCH_INPUT_TYPE_DTMF, buf, buflen); } else { switch_copy_string((char *)buf, dtmf, buflen); status = SWITCH_STATUS_BREAK; } } if (input_callback) { if (switch_core_session_dequeue_event(session, &event) == SWITCH_STATUS_SUCCESS) { status = input_callback(session, event, SWITCH_INPUT_TYPE_EVENT, buf, buflen); switch_event_destroy(&event); } } if (status != SWITCH_STATUS_SUCCESS) { break; } } status = switch_core_session_read_frame(session, &read_frame, -1, 0); if (!SWITCH_READ_ACCEPTABLE(status)) { break; } if (!switch_test_flag(fh, SWITCH_FILE_PAUSE)) { len = (switch_size_t) read_frame->datalen / 2; switch_core_file_write(fh, read_frame->data, &len); } } switch_core_session_set_read_codec(session, read_codec); switch_core_file_close(fh); switch_core_session_reset(session); return status; } static void record_callback(switch_media_bug_t *bug, void *user_data, switch_abc_type_t type) { switch_file_handle_t *fh = (switch_file_handle_t *) user_data; uint8_t data[SWITCH_RECCOMMENDED_BUFFER_SIZE]; switch_frame_t frame = {0}; frame.data = data; frame.buflen = SWITCH_RECCOMMENDED_BUFFER_SIZE; switch(type) { case SWITCH_ABC_TYPE_INIT: break; case SWITCH_ABC_TYPE_CLOSE: switch_core_file_close(fh); case SWITCH_ABC_TYPE_READ: if (fh) { switch_size_t len; if (switch_core_media_bug_read(bug, &frame) == SWITCH_STATUS_SUCCESS) { len = (switch_size_t) frame.datalen / 2; switch_core_file_write(fh, frame.data, &len); } } break; case SWITCH_ABC_TYPE_WRITE: break; } } SWITCH_DECLARE(switch_status_t) switch_ivr_stop_record_session(switch_core_session_t *session, char *file) { switch_media_bug_t *bug; switch_channel_t *channel = switch_core_session_get_channel(session); assert(channel != NULL); if ((bug = switch_channel_get_private(channel, file))) { switch_channel_set_private(channel, file, NULL); switch_core_media_bug_remove(session, &bug); return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_record_session(switch_core_session_t *session, char *file, switch_file_handle_t *fh) { switch_channel_t *channel; switch_codec_t *read_codec; char *p; const char *vval; switch_media_bug_t *bug; switch_status_t status; if (!fh) { if (!(fh = switch_core_session_alloc(session, sizeof(*fh)))) { return SWITCH_STATUS_MEMERR; } } channel = switch_core_session_get_channel(session); assert(channel != NULL); read_codec = switch_core_session_get_read_codec(session); assert(read_codec != NULL); fh->channels = read_codec->implementation->number_of_channels; fh->samplerate = read_codec->implementation->samples_per_second; if (switch_core_file_open(fh, file, SWITCH_FILE_FLAG_WRITE | SWITCH_FILE_DATA_SHORT, switch_core_session_get_pool(session)) != SWITCH_STATUS_SUCCESS) { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } switch_channel_answer(channel); if ((p = switch_channel_get_variable(channel, "RECORD_TITLE"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_TITLE, vval); switch_channel_set_variable(channel, "RECORD_TITLE", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_COPYRIGHT"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_COPYRIGHT, vval); switch_channel_set_variable(channel, "RECORD_COPYRIGHT", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_SOFTWARE"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_SOFTWARE, vval); switch_channel_set_variable(channel, "RECORD_SOFTWARE", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_ARTIST"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_ARTIST, vval); switch_channel_set_variable(channel, "RECORD_ARTIST", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_COMMENT"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_COMMENT, vval); switch_channel_set_variable(channel, "RECORD_COMMENT", NULL); } if ((p = switch_channel_get_variable(channel, "RECORD_DATE"))) { vval = (const char *) switch_core_session_strdup(session, p); switch_core_file_set_string(fh, SWITCH_AUDIO_COL_STR_DATE, vval); switch_channel_set_variable(channel, "RECORD_DATE", NULL); } if ((status = switch_core_media_bug_add(session, record_callback, fh, SMBF_BOTH, &bug)) != SWITCH_STATUS_SUCCESS) { switch_core_file_close(fh); return status; } switch_channel_set_private(channel, file, bug); return SWITCH_STATUS_SUCCESS; } struct speech_thread_handle { switch_core_session_t *session; switch_asr_handle_t *ah; switch_media_bug_t *bug; switch_mutex_t *mutex; switch_thread_cond_t *cond; switch_memory_pool_t *pool; }; static void *SWITCH_THREAD_FUNC speech_thread(switch_thread_t *thread, void *obj) { struct speech_thread_handle *sth = (struct speech_thread_handle *) obj; switch_channel_t *channel = switch_core_session_get_channel(sth->session); switch_asr_flag_t flags = SWITCH_ASR_FLAG_NONE; switch_status_t status; switch_thread_cond_create(&sth->cond, sth->pool); switch_mutex_init(&sth->mutex, SWITCH_MUTEX_NESTED, sth->pool); switch_core_session_read_lock(sth->session); switch_mutex_lock(sth->mutex); while (switch_channel_ready(channel) && !switch_test_flag(sth->ah, SWITCH_ASR_FLAG_CLOSED)) { char *xmlstr = NULL; switch_thread_cond_wait(sth->cond, sth->mutex); if (switch_core_asr_check_results(sth->ah, &flags) == SWITCH_STATUS_SUCCESS) { switch_event_t *event; status = switch_core_asr_get_results(sth->ah, &xmlstr, &flags); if (status != SWITCH_STATUS_SUCCESS && status != SWITCH_STATUS_BREAK) { goto done; } if (switch_event_create(&event, SWITCH_EVENT_DETECTED_SPEECH) == SWITCH_STATUS_SUCCESS) { if (status == SWITCH_STATUS_SUCCESS) { switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Speech-Type", "detected-speech"); switch_event_add_body(event, xmlstr); } else { switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Speech-Type", "begin-speaking"); } if (switch_test_flag(sth->ah, SWITCH_ASR_FLAG_FIRE_EVENTS)) { switch_event_t *dup; if (switch_event_dup(&dup, event) == SWITCH_STATUS_SUCCESS) { switch_event_fire(&dup); } } if (switch_core_session_queue_event(sth->session, &event) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Event queue failed!\n"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "delivery-failure", "true"); switch_event_fire(&event); } } switch_safe_free(xmlstr); } } done: switch_mutex_unlock(sth->mutex); switch_core_session_rwunlock(sth->session); return NULL; } static void speech_callback(switch_media_bug_t *bug, void *user_data, switch_abc_type_t type) { struct speech_thread_handle *sth = (struct speech_thread_handle *) user_data; uint8_t data[SWITCH_RECCOMMENDED_BUFFER_SIZE]; switch_frame_t frame = {0}; switch_asr_flag_t flags = SWITCH_ASR_FLAG_NONE; frame.data = data; frame.buflen = SWITCH_RECCOMMENDED_BUFFER_SIZE; switch(type) { case SWITCH_ABC_TYPE_INIT: { switch_thread_t *thread; switch_threadattr_t *thd_attr = NULL; switch_threadattr_create(&thd_attr, sth->pool); switch_threadattr_detach_set(thd_attr, 1); switch_threadattr_stacksize_set(thd_attr, SWITCH_THREAD_STACKSIZE); switch_thread_create(&thread, thd_attr, speech_thread, sth, sth->pool); } break; case SWITCH_ABC_TYPE_CLOSE: switch_core_asr_close(sth->ah, &flags); switch_mutex_lock(sth->mutex); switch_thread_cond_signal(sth->cond); switch_mutex_unlock(sth->mutex); case SWITCH_ABC_TYPE_READ: if (sth->ah) { if (switch_core_media_bug_read(bug, &frame) == SWITCH_STATUS_SUCCESS) { if (switch_core_asr_feed(sth->ah, frame.data, frame.datalen, &flags) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Error Feeding Data\n"); return; } if (switch_core_asr_check_results(sth->ah, &flags) == SWITCH_STATUS_SUCCESS) { switch_mutex_lock(sth->mutex); switch_thread_cond_signal(sth->cond); switch_mutex_unlock(sth->mutex); } } } break; case SWITCH_ABC_TYPE_WRITE: break; } } SWITCH_DECLARE(switch_status_t) switch_ivr_stop_detect_speech(switch_core_session_t *session) { switch_channel_t *channel = switch_core_session_get_channel(session); struct speech_thread_handle *sth; assert(channel != NULL); if ((sth = switch_channel_get_private(channel, SWITCH_SPEECH_KEY))) { switch_channel_set_private(channel, SWITCH_SPEECH_KEY, NULL); switch_core_media_bug_remove(session, &sth->bug); return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_pause_detect_speech(switch_core_session_t *session) { switch_channel_t *channel = switch_core_session_get_channel(session); struct speech_thread_handle *sth; assert(channel != NULL); if ((sth = switch_channel_get_private(channel, SWITCH_SPEECH_KEY))) { switch_core_asr_pause(sth->ah); return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_resume_detect_speech(switch_core_session_t *session) { switch_channel_t *channel = switch_core_session_get_channel(session); struct speech_thread_handle *sth; assert(channel != NULL); if ((sth = switch_channel_get_private(channel, SWITCH_SPEECH_KEY))) { switch_core_asr_resume(sth->ah); return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_detect_speech_load_grammar(switch_core_session_t *session, char *grammar, char *path) { switch_channel_t *channel = switch_core_session_get_channel(session); switch_asr_flag_t flags = SWITCH_ASR_FLAG_NONE; struct speech_thread_handle *sth; assert(channel != NULL); if ((sth = switch_channel_get_private(channel, SWITCH_SPEECH_KEY))) { if (switch_core_asr_load_grammar(sth->ah, grammar, path) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Error loading Grammar\n"); switch_core_asr_close(sth->ah, &flags); switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); return SWITCH_STATUS_FALSE; } return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_detect_speech_unload_grammar(switch_core_session_t *session, char *grammar) { switch_channel_t *channel = switch_core_session_get_channel(session); switch_asr_flag_t flags = SWITCH_ASR_FLAG_NONE; struct speech_thread_handle *sth; assert(channel != NULL); if ((sth = switch_channel_get_private(channel, SWITCH_SPEECH_KEY))) { if (switch_core_asr_unload_grammar(sth->ah, grammar) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Error unloading Grammar\n"); switch_core_asr_close(sth->ah, &flags); switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); return SWITCH_STATUS_FALSE; } return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_detect_speech(switch_core_session_t *session, char *mod_name, char *grammar, char *path, char *dest, switch_asr_handle_t *ah) { switch_channel_t *channel; switch_codec_t *read_codec; switch_status_t status; switch_asr_flag_t flags = SWITCH_ASR_FLAG_NONE; struct speech_thread_handle *sth; char *val; if (!ah) { if (!(ah = switch_core_session_alloc(session, sizeof(*ah)))) { return SWITCH_STATUS_MEMERR; } } channel = switch_core_session_get_channel(session); assert(channel != NULL); read_codec = switch_core_session_get_read_codec(session); assert(read_codec != NULL); if ((val = switch_channel_get_variable(channel, "fire_asr_events"))) { switch_set_flag(ah, SWITCH_ASR_FLAG_FIRE_EVENTS); } if ((sth = switch_channel_get_private(channel, SWITCH_SPEECH_KEY))) { if (switch_core_asr_load_grammar(sth->ah, grammar, path) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Error loading Grammar\n"); switch_core_asr_close(sth->ah, &flags); return SWITCH_STATUS_FALSE; } return SWITCH_STATUS_SUCCESS; } if (switch_core_asr_open(ah, mod_name, "L16", read_codec->implementation->samples_per_second, dest, &flags, switch_core_session_get_pool(session)) == SWITCH_STATUS_SUCCESS) { if (switch_core_asr_load_grammar(ah, grammar, path) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Error loading Grammar\n"); switch_core_asr_close(ah, &flags); switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); return SWITCH_STATUS_FALSE; } } else { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); return SWITCH_STATUS_FALSE; } sth = switch_core_session_alloc(session, sizeof(*sth)); sth->pool = switch_core_session_get_pool(session); sth->session = session; sth->ah = ah; if ((status = switch_core_media_bug_add(session, speech_callback, sth, SMBF_READ_STREAM, &sth->bug)) != SWITCH_STATUS_SUCCESS) { switch_core_asr_close(ah, &flags); switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); return status; } switch_channel_set_private(channel, SWITCH_SPEECH_KEY, sth); return SWITCH_STATUS_SUCCESS; } #define FILE_STARTSAMPLES 1024 * 32 #define FILE_BLOCKSIZE 1024 * 8 #define FILE_BUFSIZE 1024 * 64 SWITCH_DECLARE(switch_status_t) switch_ivr_play_file(switch_core_session_t *session, switch_file_handle_t *fh, char *file, char *timer_name, switch_input_callback_function_t input_callback, void *buf, uint32_t buflen) { switch_channel_t *channel; int16_t abuf[FILE_STARTSAMPLES]; char dtmf[128]; uint32_t interval = 0, samples = 0, framelen; uint32_t ilen = 0; switch_size_t olen = 0; switch_frame_t write_frame = {0}; switch_timer_t timer; switch_core_thread_session_t thread_session; switch_codec_t codec; switch_memory_pool_t *pool = switch_core_session_get_pool(session); char *codec_name; int stream_id; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_file_handle_t lfh; switch_codec_t *read_codec = switch_core_session_get_read_codec(session); const char *p; char *title = "", *copyright = "", *software = "", *artist = "", *comment = "", *date = ""; uint8_t asis = 0; char *ext; if (file) { if ((ext = strrchr(file, '.'))) { ext++; } else { char *new_file; uint32_t len; ext = read_codec->implementation->iananame; len = (uint32_t)strlen(file) + (uint32_t)strlen(ext) + 2; new_file = switch_core_session_alloc(session, len); snprintf(new_file, len, "%s.%s", file, ext); file = new_file; asis = 1; } } if (!fh) { fh = &lfh; memset(fh, 0, sizeof(lfh)); } channel = switch_core_session_get_channel(session); assert(channel != NULL); if (switch_core_file_open(fh, file, SWITCH_FILE_FLAG_READ | SWITCH_FILE_DATA_SHORT, switch_core_session_get_pool(session)) != SWITCH_STATUS_SUCCESS) { switch_core_session_reset(session); return SWITCH_STATUS_NOTFOUND; } write_frame.data = abuf; write_frame.buflen = sizeof(abuf); if (switch_core_file_get_string(fh, SWITCH_AUDIO_COL_STR_TITLE, &p) == SWITCH_STATUS_SUCCESS) { title = (char *) switch_core_session_strdup(session, (char *)p); switch_channel_set_variable(channel, "RECORD_TITLE", (char *)p); } if (switch_core_file_get_string(fh, SWITCH_AUDIO_COL_STR_COPYRIGHT, &p) == SWITCH_STATUS_SUCCESS) { copyright = (char *) switch_core_session_strdup(session, (char *)p); switch_channel_set_variable(channel, "RECORD_COPYRIGHT", (char *)p); } if (switch_core_file_get_string(fh, SWITCH_AUDIO_COL_STR_SOFTWARE, &p) == SWITCH_STATUS_SUCCESS) { software = (char *) switch_core_session_strdup(session, (char *)p); switch_channel_set_variable(channel, "RECORD_SOFTWARE", (char *)p); } if (switch_core_file_get_string(fh, SWITCH_AUDIO_COL_STR_ARTIST, &p) == SWITCH_STATUS_SUCCESS) { artist = (char *) switch_core_session_strdup(session, (char *)p); switch_channel_set_variable(channel, "RECORD_ARTIST", (char *)p); } if (switch_core_file_get_string(fh, SWITCH_AUDIO_COL_STR_COMMENT, &p) == SWITCH_STATUS_SUCCESS) { comment = (char *) switch_core_session_strdup(session, (char *)p); switch_channel_set_variable(channel, "RECORD_COMMENT", (char *)p); } if (switch_core_file_get_string(fh, SWITCH_AUDIO_COL_STR_DATE, &p) == SWITCH_STATUS_SUCCESS) { date = (char *) switch_core_session_strdup(session, (char *)p); switch_channel_set_variable(channel, "RECORD_DATE", (char *)p); } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "OPEN FILE %s %uhz %u channels\n" "TITLE=%s\n" "COPYRIGHT=%s\n" "SOFTWARE=%s\n" "ARTIST=%s\n" "COMMENT=%s\n" "DATE=%s\n", file, fh->samplerate, fh->channels, title, copyright, software, artist, comment, date); assert(read_codec != NULL); interval = read_codec->implementation->microseconds_per_frame / 1000; if (!fh->audio_buffer) { switch_buffer_create_dynamic(&fh->audio_buffer, FILE_BLOCKSIZE, FILE_BUFSIZE, 0); } if (asis) { write_frame.codec = read_codec; samples = read_codec->implementation->samples_per_frame; framelen = read_codec->implementation->encoded_bytes_per_frame; } else { codec_name = "L16"; if (switch_core_codec_init(&codec, codec_name, NULL, fh->samplerate, interval, fh->channels, SWITCH_CODEC_FLAG_ENCODE | SWITCH_CODEC_FLAG_DECODE, NULL, pool) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Codec Activated %s@%uhz %u channels %dms\n", codec_name, fh->samplerate, fh->channels, interval); write_frame.codec = &codec; } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Raw Codec Activation Failed %s@%uhz %u channels %dms\n", codec_name, fh->samplerate, fh->channels, interval); switch_core_file_close(fh); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } samples = codec.implementation->samples_per_frame; framelen = codec.implementation->bytes_per_frame; } if (timer_name) { uint32_t len; len = samples * 2; if (switch_core_timer_init(&timer, timer_name, interval, samples, pool) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "setup timer failed!\n"); switch_core_codec_destroy(&codec); switch_core_file_close(fh); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "setup timer success %u bytes per %d ms!\n", len, interval); } write_frame.rate = fh->samplerate; if (timer_name) { /* start a thread to absorb incoming audio */ for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { switch_core_service_session(session, &thread_session, stream_id); } } ilen = samples; while(switch_channel_ready(channel)) { int done = 0; int do_speed = 1; int last_speed = -1; switch_event_t *event; if (switch_core_session_dequeue_private_event(session, &event) == SWITCH_STATUS_SUCCESS) { switch_ivr_parse_event(session, event); switch_event_destroy(&event); } if (input_callback || buf || buflen) { /* dtmf handler function you can hook up to be executed when a digit is dialed during playback if you return anything but SWITCH_STATUS_SUCCESS the playback will stop. */ if (switch_channel_has_dtmf(channel)) { if (!input_callback && !buf) { status = SWITCH_STATUS_BREAK; done = 1; break; } switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf)); if (input_callback) { status = input_callback(session, dtmf, SWITCH_INPUT_TYPE_DTMF, buf, buflen); } else { switch_copy_string((char *)buf, dtmf, buflen); status = SWITCH_STATUS_BREAK; } } if (input_callback) { if (switch_core_session_dequeue_event(session, &event) == SWITCH_STATUS_SUCCESS) { status = input_callback(session, event, SWITCH_INPUT_TYPE_EVENT, buf, buflen); switch_event_destroy(&event); } } if (status != SWITCH_STATUS_SUCCESS) { done = 1; break; } } if (switch_test_flag(fh, SWITCH_FILE_PAUSE)) { memset(abuf, 0, framelen); olen = ilen; do_speed = 0; } else if (fh->audio_buffer && (switch_buffer_inuse(fh->audio_buffer) > (switch_size_t)(framelen))) { switch_buffer_read(fh->audio_buffer, abuf, framelen); olen = asis ? framelen : ilen; do_speed = 0; } else { olen = 32 * framelen; switch_core_file_read(fh, abuf, &olen); switch_buffer_write(fh->audio_buffer, abuf, asis ? olen : olen * 2); olen = switch_buffer_read(fh->audio_buffer, abuf, framelen); if (!asis) { olen /= 2; } } if (done || olen <= 0) { break; } if (!asis) { if (fh->speed > 2) { fh->speed = 2; } else if (fh->speed < -2) { fh->speed = -2; } } if (!asis && fh->audio_buffer && last_speed > -1 && last_speed != fh->speed) { switch_buffer_zero(fh->audio_buffer); } if (!asis && fh->speed && do_speed) { float factor = 0.25f * abs(fh->speed); switch_size_t newlen, supplement, step; short *bp = write_frame.data; switch_size_t wrote = 0; supplement = (int) (factor * olen); newlen = (fh->speed > 0) ? olen - supplement : olen + supplement; step = (fh->speed > 0) ? (newlen / supplement) : (olen / supplement); while ((wrote + step) < newlen) { switch_buffer_write(fh->audio_buffer, bp, step * 2); wrote += step; bp += step; if (fh->speed > 0) { bp++; } else { float f; short s; f = (float)(*bp + *(bp+1) + *(bp-1)); f /= 3; s = (short) f; switch_buffer_write(fh->audio_buffer, &s, 2); wrote++; } } if (wrote < newlen) { switch_size_t r = newlen - wrote; switch_buffer_write(fh->audio_buffer, bp, r*2); wrote += r; } last_speed = fh->speed; continue; } write_frame.datalen = (uint32_t)(olen * (asis ? 1 : 2)); write_frame.samples = (uint32_t)olen; #ifndef WIN32 #if __BYTE_ORDER == __BIG_ENDIAN if (!asis) {switch_swap_linear(write_frame.data, (int) write_frame.datalen / 2);} #endif #endif for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { status = switch_core_session_write_frame(session, &write_frame, -1, stream_id); if (status == SWITCH_STATUS_MORE_DATA) { status = SWITCH_STATUS_SUCCESS; continue; } else if (status != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Bad Write\n"); done = 1; break; } if (done) { break; } } if (timer_name) { if (switch_core_timer_next(&timer) < 0) { break; } } else { /* time off the channel (if you must) */ switch_frame_t *read_frame; switch_status_t status; while (switch_channel_test_flag(channel, CF_HOLD)) { switch_yield(10000); } status = switch_core_session_read_frame(session, &read_frame, -1, 0); if (!SWITCH_READ_ACCEPTABLE(status)) { break; } } } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "done playing file\n"); switch_core_file_close(fh); switch_buffer_destroy(&fh->audio_buffer); if (!asis) { switch_core_codec_destroy(&codec); } if (timer_name) { /* End the audio absorbing thread */ switch_core_thread_session_end(&thread_session); switch_core_timer_destroy(&timer); } switch_core_session_reset(session); return status; } SWITCH_DECLARE(switch_status_t) switch_regex_match(char *target, char *expression) { const char* error = NULL; //Used to hold any errors int error_offset = 0; //Holds the offset of an error pcre* pcre_prepared = NULL; //Holds the compiled regex int match_count = 0; //Number of times the regex was matched int offset_vectors[2]; //not used, but has to exist or pcre won't even try to find a match //Compile the expression pcre_prepared = pcre_compile(expression, 0, &error, &error_offset, NULL); //See if there was an error in the expression if (error != NULL) { //Clean up after ourselves if (pcre_prepared) { pcre_free(pcre_prepared); pcre_prepared = NULL; } //Note our error switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Regular Expression Error expression[%s] error[%s] location[%d]\n", expression, error, error_offset); //We definitely didn't match anything return SWITCH_STATUS_FALSE; } //So far so good, run the regex match_count = pcre_exec(pcre_prepared, NULL, target, (int) strlen(target), 0, 0, offset_vectors, sizeof(offset_vectors) / sizeof(offset_vectors[0])); //Clean up if (pcre_prepared) { pcre_free(pcre_prepared); pcre_prepared = NULL; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "number of matches: %d\n", match_count); //Was it a match made in heaven? if (match_count > 0) { return SWITCH_STATUS_SUCCESS; } else { return SWITCH_STATUS_FALSE; } } SWITCH_DECLARE(switch_status_t) switch_play_and_get_digits(switch_core_session_t *session, uint32_t min_digits, uint32_t max_digits, uint32_t max_tries, uint32_t timeout, char* valid_terminators, char* prompt_audio_file, char* bad_input_audio_file, void* digit_buffer, uint32_t digit_buffer_length, char* digits_regex) { char terminator; //used to hold terminator recieved from switch_channel_t *channel; //the channel contained in session switch_status_t status; //used to recieve state out of called functions switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "switch_play_and_get_digits(session, %d, %d, %d, %d, %s, %s, %s, digit_buffer, %d, %s)\n", min_digits, max_digits, max_tries, timeout, valid_terminators, prompt_audio_file, bad_input_audio_file, digit_buffer_length, digits_regex); //Get the channel channel = switch_core_session_get_channel(session); //Make sure somebody is home assert(channel != NULL); //Answer the channel if it hasn't already been answered switch_channel_answer(channel); //Start pestering the user for input for(;(switch_channel_get_state(channel) == CS_EXECUTE) && max_tries > 0; max_tries--) { //make the buffer so fresh and so clean clean memset(digit_buffer, 0, digit_buffer_length); //Play the file status = switch_ivr_play_file(session, NULL, prompt_audio_file, NULL, NULL, digit_buffer, digit_buffer_length); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "play gave up %s", digit_buffer); //Make sure we made it out alive if (status != SWITCH_STATUS_SUCCESS && status != SWITCH_STATUS_BREAK) { switch_channel_hangup(channel, SWITCH_CAUSE_NORMAL_CLEARING); break; } //we only get one digit out of playback, see if thats all we needed and what we got if (max_digits == 1 && status == SWITCH_STATUS_BREAK) { //Check the digit if we have a regex if (digits_regex != NULL) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Checking regex [%s] on [%s]\n", digits_regex, digit_buffer); //Make sure the digit is allowed if (switch_regex_match(digit_buffer, digits_regex) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Match found!\n"); //jobs done break; } else { //See if a bad input prompt was specified, if so, play it if (strlen(bad_input_audio_file) > 0) { status = switch_ivr_play_file(session, NULL, bad_input_audio_file, NULL, NULL, NULL, 0); //Make sure we made it out alive if (status != SWITCH_STATUS_SUCCESS && status != SWITCH_STATUS_BREAK) { switch_channel_hangup(channel, SWITCH_CAUSE_NORMAL_CLEARING); break; } } } } else { //jobs done break; } } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Calling more digits try %d\n", max_tries); //Try to grab some more digits for the timeout period status = switch_ivr_collect_digits_count(session, digit_buffer, digit_buffer_length, max_digits, valid_terminators, &terminator, timeout); //Make sure we made it out alive if (status != SWITCH_STATUS_SUCCESS) { //Bail switch_channel_hangup(channel, SWITCH_CAUSE_NORMAL_CLEARING); break; } //see if we got enough if (min_digits <= strlen(digit_buffer)) { //See if we need to test a regex if (digits_regex != NULL) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Checking regex [%s] on [%s]\n", digits_regex, digit_buffer); //Test the regex if (switch_regex_match(digit_buffer, digits_regex) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Match found!\n"); //Jobs done return SWITCH_STATUS_SUCCESS; } else { //See if a bad input prompt was specified, if so, play it if (strlen(bad_input_audio_file) > 0) { status = switch_ivr_play_file(session, NULL, bad_input_audio_file, NULL, NULL, NULL, 0); //Make sure we made it out alive if (status != SWITCH_STATUS_SUCCESS && status != SWITCH_STATUS_BREAK) { switch_channel_hangup(channel, SWITCH_CAUSE_NORMAL_CLEARING); break; } } } } else { //Jobs done return SWITCH_STATUS_SUCCESS; } } } //if we got here, we got no digits or lost the channel digit_buffer = "\0"; return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_speak_text_handle(switch_core_session_t *session, switch_speech_handle_t *sh, switch_codec_t *codec, switch_timer_t *timer, switch_input_callback_function_t input_callback, char *text, void *buf, uint32_t buflen) { switch_channel_t *channel; short abuf[960]; char dtmf[128]; uint32_t len = 0; switch_size_t ilen = 0; switch_frame_t write_frame = {0}; int x; int stream_id; int done = 0; int lead_in_out = 10; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_speech_flag_t flags = SWITCH_SPEECH_FLAG_NONE; uint32_t rate = 0, samples = 0; channel = switch_core_session_get_channel(session); assert(channel != NULL); if (!sh) { return SWITCH_STATUS_FALSE; } switch_channel_answer(channel); write_frame.data = abuf; write_frame.buflen = sizeof(abuf); samples = (uint32_t)(sh->rate / 50); len = samples * 2; flags = 0; switch_sleep(200000); switch_core_speech_feed_tts(sh, text, &flags); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Speaking text: %s\n", text); write_frame.rate = sh->rate; memset(write_frame.data, 0, len); write_frame.datalen = len; write_frame.samples = len / 2; write_frame.codec = codec; for( x = 0; !done && x < lead_in_out; x++) { for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { if (switch_core_session_write_frame(session, &write_frame, -1, stream_id) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Bad Write\n"); done = 1; break; } } } ilen = len; while(switch_channel_ready(channel)) { switch_event_t *event; if (switch_core_session_dequeue_private_event(session, &event) == SWITCH_STATUS_SUCCESS) { switch_ivr_parse_event(session, event); switch_event_destroy(&event); } if (input_callback || buf || buflen) { /* dtmf handler function you can hook up to be executed when a digit is dialed during playback if you return anything but SWITCH_STATUS_SUCCESS the playback will stop. */ if (switch_channel_has_dtmf(channel)) { if (!input_callback && !buf) { status = SWITCH_STATUS_BREAK; done = 1; break; } if (buf && !strcasecmp(buf, "_break_")) { status = SWITCH_STATUS_BREAK; } else { switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf)); if (input_callback) { status = input_callback(session, dtmf, SWITCH_INPUT_TYPE_DTMF, buf, buflen); } else { switch_copy_string((char *)buf, dtmf, buflen); status = SWITCH_STATUS_BREAK; } } } if (input_callback) { if (switch_core_session_dequeue_event(session, &event) == SWITCH_STATUS_SUCCESS) { status = input_callback(session, event, SWITCH_INPUT_TYPE_EVENT, buf, buflen); switch_event_destroy(&event); } } if (status != SWITCH_STATUS_SUCCESS) { done = 1; break; } } if (switch_test_flag(sh, SWITCH_SPEECH_FLAG_PAUSE)) { if (timer) { if ((x = switch_core_timer_next(timer)) < 0) { break; } } else { switch_frame_t *read_frame; switch_status_t status = switch_core_session_read_frame(session, &read_frame, -1, 0); while (switch_channel_test_flag(channel, CF_HOLD)) { switch_yield(10000); } if (!SWITCH_READ_ACCEPTABLE(status)) { break; } } continue; } flags = SWITCH_SPEECH_FLAG_BLOCKING; status = switch_core_speech_read_tts(sh, abuf, &ilen, &rate, &flags); if (status != SWITCH_STATUS_SUCCESS) { for( x = 0; !done && x < lead_in_out; x++) { for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { if (switch_core_session_write_frame(session, &write_frame, -1, stream_id) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Bad Write\n"); done = 1; break; } } } if (status == SWITCH_STATUS_BREAK) { status = SWITCH_STATUS_SUCCESS; } done = 1; } if (done) { break; } write_frame.datalen = (uint32_t)ilen; write_frame.samples = (uint32_t)(ilen / 2); for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { if (switch_core_session_write_frame(session, &write_frame, -1, stream_id) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Bad Write\n"); done = 1; break; } if (done) { break; } } if (timer) { if ((x = switch_core_timer_next(timer)) < 0) { break; } } else { /* time off the channel (if you must) */ switch_frame_t *read_frame; switch_status_t status = switch_core_session_read_frame(session, &read_frame, -1, 0); while (switch_channel_test_flag(channel, CF_HOLD)) { switch_yield(10000); } if (!SWITCH_READ_ACCEPTABLE(status)) { break; } } } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "done speaking text\n"); flags = 0; switch_core_speech_flush_tts(sh); return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_speak_text(switch_core_session_t *session, char *tts_name, char *voice_name, char *timer_name, uint32_t rate, switch_input_callback_function_t input_callback, char *text, void *buf, uint32_t buflen) { switch_channel_t *channel; int interval = 0; uint32_t samples = 0; uint32_t len = 0; switch_frame_t write_frame = {0}; switch_timer_t timer; switch_core_thread_session_t thread_session; switch_codec_t codec; switch_memory_pool_t *pool = switch_core_session_get_pool(session); char *codec_name; int stream_id; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_speech_handle_t sh; switch_speech_flag_t flags = SWITCH_SPEECH_FLAG_NONE; switch_codec_t *read_codec; channel = switch_core_session_get_channel(session); assert(channel != NULL); if (rate == 0) { read_codec = switch_core_session_get_read_codec(session); rate = read_codec->implementation->samples_per_second; } memset(&sh, 0, sizeof(sh)); if (switch_core_speech_open(&sh, tts_name, voice_name, (uint32_t)rate, &flags, switch_core_session_get_pool(session)) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Invalid TTS module!\n"); switch_core_session_reset(session); return SWITCH_STATUS_FALSE; } switch_channel_answer(channel); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "OPEN TTS %s\n", tts_name); interval = 20; samples = (uint32_t)(rate / 50); len = samples * 2; codec_name = "L16"; if (switch_core_codec_init(&codec, codec_name, NULL, (int)rate, interval, 1, SWITCH_CODEC_FLAG_ENCODE | SWITCH_CODEC_FLAG_DECODE, NULL, pool) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Raw Codec Activated\n"); write_frame.codec = &codec; } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Raw Codec Activation Failed %s@%uhz 1 channel %dms\n", codec_name, rate, interval); flags = 0; switch_core_speech_close(&sh, &flags); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } if (timer_name) { if (switch_core_timer_init(&timer, timer_name, interval, (int)samples, pool) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "setup timer failed!\n"); switch_core_codec_destroy(&codec); flags = 0; switch_core_speech_close(&sh, &flags); switch_core_session_reset(session); return SWITCH_STATUS_GENERR; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "setup timer success %u bytes per %d ms!\n", len, interval); /* start a thread to absorb incoming audio */ for (stream_id = 0; stream_id < switch_core_session_get_stream_count(session); stream_id++) { switch_core_service_session(session, &thread_session, stream_id); } } switch_ivr_speak_text_handle(session, &sh, &codec, timer_name ? &timer : NULL, input_callback, text, buf, buflen); flags = 0; switch_core_speech_close(&sh, &flags); switch_core_codec_destroy(&codec); if (timer_name) { /* End the audio absorbing thread */ switch_core_thread_session_end(&thread_session); switch_core_timer_destroy(&timer); } switch_core_session_reset(session); return status; } /* Bridge Related Stuff*/ /*********************************************************************************/ struct audio_bridge_data { switch_core_session_t *session_a; switch_core_session_t *session_b; int running; }; static void *audio_bridge_thread(switch_thread_t *thread, void *obj) { switch_core_thread_session_t *his_thread, *data = obj; int *stream_id_p; int stream_id = 0, pre_b = 0, ans_a = 0, ans_b = 0, originator = 0; switch_input_callback_function_t input_callback; switch_core_session_message_t *message, msg = {0}; void *user_data; switch_channel_t *chan_a, *chan_b; switch_frame_t *read_frame; switch_core_session_t *session_a, *session_b; assert(!thread || thread); session_a = data->objs[0]; session_b = data->objs[1]; stream_id_p = data->objs[2]; input_callback = (switch_input_callback_function_t) data->objs[3]; user_data = data->objs[4]; his_thread = data->objs[5]; if (stream_id_p) { stream_id = *stream_id_p; } chan_a = switch_core_session_get_channel(session_a); chan_b = switch_core_session_get_channel(session_b); ans_a = switch_channel_test_flag(chan_a, CF_ANSWERED); if ((originator = switch_channel_test_flag(chan_a, CF_ORIGINATOR))) { pre_b = switch_channel_test_flag(chan_a, CF_EARLY_MEDIA); ans_b = switch_channel_test_flag(chan_b, CF_ANSWERED); } switch_channel_set_flag(chan_a, CF_BRIDGED); while (switch_channel_ready(chan_a) && data->running > 0 && his_thread->running > 0) { switch_channel_state_t b_state = switch_channel_get_state(chan_b); switch_status_t status; switch_event_t *event; switch (b_state) { case CS_HANGUP: case CS_DONE: switch_mutex_lock(data->mutex); data->running = -1; switch_mutex_unlock(data->mutex); continue; default: break; } if (switch_channel_test_flag(chan_a, CF_TRANSFER)) { switch_channel_clear_flag(chan_a, CF_HOLD); switch_channel_clear_flag(chan_a, CF_SUSPEND); break; } if (switch_core_session_dequeue_private_event(session_a, &event) == SWITCH_STATUS_SUCCESS) { switch_channel_set_flag(chan_b, CF_SUSPEND); switch_ivr_parse_event(session_a, event); switch_channel_clear_flag(chan_b, CF_SUSPEND); switch_event_destroy(&event); } /* if 1 channel has DTMF pass it to the other */ if (switch_channel_has_dtmf(chan_a)) { char dtmf[128]; switch_channel_dequeue_dtmf(chan_a, dtmf, sizeof(dtmf)); switch_core_session_send_dtmf(session_b, dtmf); if (input_callback) { if (input_callback(session_a, dtmf, SWITCH_INPUT_TYPE_DTMF, user_data, 0) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "%s ended call via DTMF\n", switch_channel_get_name(chan_a)); switch_mutex_lock(data->mutex); data->running = -1; switch_mutex_unlock(data->mutex); break; } } } if (switch_core_session_dequeue_event(session_a, &event) == SWITCH_STATUS_SUCCESS) { if (input_callback) { status = input_callback(session_a, event, SWITCH_INPUT_TYPE_EVENT, user_data, 0); } if (event->event_id != SWITCH_EVENT_MESSAGE || switch_core_session_receive_event(session_b, &event) != SWITCH_STATUS_SUCCESS) { switch_event_destroy(&event); } } if (switch_core_session_dequeue_message(session_b, &message) == SWITCH_STATUS_SUCCESS) { switch_core_session_receive_message(session_a, message); if (switch_test_flag(message, SCSMF_DYNAMIC)) { switch_safe_free(message); } else { message = NULL; } } if (!ans_a && originator) { if (!ans_b && switch_channel_test_flag(chan_b, CF_ANSWERED)) { switch_channel_answer(chan_a); ans_a++; } else if (!pre_b && switch_channel_test_flag(chan_b, CF_EARLY_MEDIA)) { switch_channel_pre_answer(chan_a); pre_b++; } switch_yield(10000); continue; } if (switch_channel_test_flag(chan_a, CF_SUSPEND) || switch_channel_test_flag(chan_b, CF_SUSPEND)) { switch_yield(10000); continue; } /* read audio from 1 channel and write it to the other */ status = switch_core_session_read_frame(session_a, &read_frame, -1, stream_id); if (SWITCH_READ_ACCEPTABLE(status)) { if (status != SWITCH_STATUS_BREAK && !switch_channel_test_flag(chan_a, CF_HOLD)) { if (switch_core_session_write_frame(session_b, read_frame, -1, stream_id) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "write: %s Bad Frame....[%u] Bubye!\n", switch_channel_get_name(chan_b), read_frame->datalen); switch_mutex_lock(data->mutex); data->running = -1; switch_mutex_unlock(data->mutex); } } } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "read: %s Bad Frame.... Bubye!\n", switch_channel_get_name(chan_a)); switch_mutex_lock(data->mutex); data->running = -1; switch_mutex_unlock(data->mutex); } } msg.message_id = SWITCH_MESSAGE_INDICATE_UNBRIDGE; msg.from = __FILE__; switch_core_session_receive_message(session_a, &msg); switch_channel_set_variable(chan_a, SWITCH_BRIDGE_VARIABLE, NULL); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "BRIDGE THREAD DONE [%s]\n", switch_channel_get_name(chan_a)); switch_channel_clear_flag(chan_a, CF_BRIDGED); switch_mutex_lock(data->mutex); data->running = 0; switch_mutex_unlock(data->mutex); return NULL; } static switch_status_t audio_bridge_on_loopback(switch_core_session_t *session) { switch_channel_t *channel = NULL; void *arg; channel = switch_core_session_get_channel(session); assert(channel != NULL); if ((arg = switch_channel_get_private(channel, "_bridge_"))) { switch_channel_set_private(channel, "_bridge_", NULL); audio_bridge_thread(NULL, (void *) arg); } else { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); } switch_channel_clear_state_handler(channel, &audio_bridge_peer_state_handlers); if (!switch_channel_test_flag(channel, CF_TRANSFER)) { switch_channel_hangup(channel, SWITCH_CAUSE_NORMAL_CLEARING); } return SWITCH_STATUS_FALSE; } static switch_status_t audio_bridge_on_ring(switch_core_session_t *session) { switch_channel_t *channel = NULL; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "CUSTOM RING\n"); /* put the channel in a passive state so we can loop audio to it */ switch_channel_set_state(channel, CS_HOLD); return SWITCH_STATUS_FALSE; } static switch_status_t audio_bridge_on_hold(switch_core_session_t *session) { switch_channel_t *channel = NULL; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "CUSTOM HOLD\n"); /* put the channel in a passive state so we can loop audio to it */ return SWITCH_STATUS_FALSE; } static const switch_state_handler_table_t audio_bridge_peer_state_handlers = { /*.on_init */ NULL, /*.on_ring */ audio_bridge_on_ring, /*.on_execute */ NULL, /*.on_hangup */ NULL, /*.on_loopback */ audio_bridge_on_loopback, /*.on_transmit */ NULL, /*.on_hold */ audio_bridge_on_hold, }; static switch_status_t uuid_bridge_on_transmit(switch_core_session_t *session) { switch_channel_t *channel = NULL; switch_core_session_t *other_session; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "CUSTOM TRANSMIT\n"); switch_channel_clear_state_handler(channel, NULL); if (!switch_channel_test_flag(channel, CF_ORIGINATOR)) { return SWITCH_STATUS_FALSE; } if ((other_session = switch_channel_get_private(channel, SWITCH_UUID_BRIDGE))) { switch_channel_t *other_channel = switch_core_session_get_channel(other_session); switch_channel_state_t state = switch_channel_get_state(other_channel); switch_channel_state_t mystate = switch_channel_get_state(channel); switch_event_t *event; uint8_t ready_a, ready_b; switch_caller_profile_t *profile, *new_profile; switch_channel_clear_flag(channel, CF_TRANSFER); switch_channel_set_private(channel, SWITCH_UUID_BRIDGE, NULL); while (mystate <= CS_HANGUP && state <= CS_HANGUP && !switch_channel_test_flag(other_channel, CF_TAGGED)) { switch_yield(1000); state = switch_channel_get_state(other_channel); mystate = switch_channel_get_state(channel); } switch_channel_clear_flag(other_channel, CF_TRANSFER); switch_channel_clear_flag(other_channel, CF_TAGGED); switch_core_session_reset(session); switch_core_session_reset(other_session); ready_a = switch_channel_ready(channel); ready_b = switch_channel_ready(other_channel); if (!ready_a || !ready_b) { if (!ready_a) { switch_channel_hangup(other_channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); } if (!ready_b) { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); } return SWITCH_STATUS_FALSE; } /* add another profile to both sessions for CDR's sake */ if ((profile = switch_channel_get_caller_profile(channel))) { new_profile = switch_caller_profile_clone(session, profile); new_profile->destination_number = switch_core_session_strdup(session, switch_core_session_get_uuid(other_session)); switch_channel_set_caller_profile(channel, new_profile); } if ((profile = switch_channel_get_caller_profile(other_channel))) { new_profile = switch_caller_profile_clone(other_session, profile); new_profile->destination_number = switch_core_session_strdup(other_session, switch_core_session_get_uuid(session)); switch_channel_set_caller_profile(other_channel, new_profile); } /* fire events that will change the data table from "show channels" */ if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_EXECUTE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(channel, event); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application", "uuid_bridge"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application-Data", "%s", switch_core_session_get_uuid(other_session)); switch_event_fire(&event); } if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_EXECUTE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(other_channel, event); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application", "uuid_bridge"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application-Data", "%s", switch_core_session_get_uuid(session)); switch_event_fire(&event); } switch_ivr_multi_threaded_bridge(session, other_session, NULL, NULL, NULL); } else { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); } return SWITCH_STATUS_FALSE; } static const switch_state_handler_table_t uuid_bridge_state_handlers = { /*.on_init */ NULL, /*.on_ring */ NULL, /*.on_execute */ NULL, /*.on_hangup */ NULL, /*.on_loopback */ NULL, /*.on_transmit */ uuid_bridge_on_transmit, /*.on_hold */ NULL }; struct key_collect { char *key; char *file; switch_core_session_t *session; }; static void *SWITCH_THREAD_FUNC collect_thread_run(switch_thread_t *thread, void *obj) { struct key_collect *collect = (struct key_collect *) obj; switch_channel_t *channel = switch_core_session_get_channel(collect->session); char buf[10] = ""; char *p, term; if (!strcasecmp(collect->key, "exec")) { char *data; const switch_application_interface_t *application_interface; char *app_name, *app_data; if (!(data = collect->file)) { goto wbreak; } app_name = data; if ((app_data = strchr(app_name, ' '))) { *app_data++ = '\0'; } if ((application_interface = switch_loadable_module_get_application_interface(app_name)) == 0) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Invalid Application %s\n", app_name); switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); goto wbreak; } if (!application_interface->application_function) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "No Function for %s\n", app_name); switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); goto wbreak; } application_interface->application_function(collect->session, app_data); if (switch_channel_get_state(channel) < CS_HANGUP) { switch_channel_set_flag(channel, CF_WINNER); } goto wbreak; } if (!switch_channel_ready(channel)) { switch_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER); goto wbreak; } while(switch_channel_ready(channel)) { memset(buf, 0, sizeof(buf)); if (collect->file) { switch_ivr_play_file(collect->session, NULL, collect->file, NULL, NULL, buf, sizeof(buf)); } else { switch_ivr_collect_digits_count(collect->session, buf, sizeof(buf), 1, "", &term, 0); } for(p = buf; *p; p++) { if (*collect->key == *p) { switch_channel_set_flag(channel, CF_WINNER); goto wbreak; } } } wbreak: return NULL; } static void launch_collect_thread(struct key_collect *collect) { switch_thread_t *thread; switch_threadattr_t *thd_attr = NULL; switch_threadattr_create(&thd_attr, switch_core_session_get_pool(collect->session)); switch_threadattr_detach_set(thd_attr, 1); switch_threadattr_stacksize_set(thd_attr, SWITCH_THREAD_STACKSIZE); switch_thread_create(&thread, thd_attr, collect_thread_run, collect, switch_core_session_get_pool(collect->session)); } static uint8_t check_channel_status(switch_channel_t **peer_channels, switch_core_session_t **peer_sessions, uint32_t len, int32_t *idx, char *file, char *key, char *ringback_data) { uint32_t i; uint32_t hups = 0; *idx = -1; for (i = 0; i < len; i++) { if (!peer_channels[i]) { continue; } if (switch_channel_get_state(peer_channels[i]) >= CS_HANGUP) { hups++; } else if ((switch_channel_test_flag(peer_channels[i], CF_ANSWERED) || (!ringback_data && len == 1 && switch_channel_test_flag(peer_channels[0], CF_EARLY_MEDIA))) && !switch_channel_test_flag(peer_channels[i], CF_TAGGED)) { if (key) { struct key_collect *collect; if ((collect = switch_core_session_alloc(peer_sessions[i], sizeof(*collect)))) { switch_channel_set_flag(peer_channels[i], CF_TAGGED); collect->key = key; if (file) { collect->file = switch_core_session_strdup(peer_sessions[i], file); } collect->session = peer_sessions[i]; launch_collect_thread(collect); } } else { *idx = i; return 0; } } else if (switch_channel_test_flag(peer_channels[i], CF_WINNER)) { *idx = i; return 0; } } if (hups == len) { return 0; } else { return 1; } } struct ringback { switch_buffer_t *audio_buffer; switch_buffer_t *loop_buffer; teletone_generation_session_t ts; switch_file_handle_t fhb; switch_file_handle_t *fh; uint8_t asis; }; typedef struct ringback ringback_t; static int teletone_handler(teletone_generation_session_t *ts, teletone_tone_map_t *map) { ringback_t *tto = ts->user_data; int wrote; if (!tto) { return -1; } wrote = teletone_mux_tones(ts, map); switch_buffer_write(tto->audio_buffer, ts->buffer, wrote * 2); return 0; } #define MAX_PEERS 256 SWITCH_DECLARE(switch_status_t) switch_ivr_originate(switch_core_session_t *session, switch_core_session_t **bleg, switch_call_cause_t *cause, char *bridgeto, uint32_t timelimit_sec, const switch_state_handler_table_t *table, char *cid_name_override, char *cid_num_override, switch_caller_profile_t *caller_profile_override ) { char *pipe_names[MAX_PEERS] = {0}; char *data = NULL; switch_status_t status = SWITCH_STATUS_SUCCESS; switch_channel_t *caller_channel = NULL; char *peer_names[MAX_PEERS] = {0}; switch_core_session_t *peer_session, *peer_sessions[MAX_PEERS] = {0}; switch_caller_profile_t *caller_profiles[MAX_PEERS] = {0}, *caller_caller_profile; char *chan_type = NULL, *chan_data; switch_channel_t *peer_channel = NULL, *peer_channels[MAX_PEERS] = {0}; ringback_t ringback = {0}; time_t start; switch_frame_t *read_frame = NULL; switch_memory_pool_t *pool = NULL; int r = 0, i, and_argc = 0, or_argc = 0; int32_t idx = IDX_NADA; switch_codec_t write_codec = {0}; switch_frame_t write_frame = {0}; uint8_t err = 0, fdata[1024], pass = 0; char *file = NULL, *key = NULL, *odata, *var; switch_call_cause_t reason = SWITCH_CAUSE_UNALLOCATED; uint8_t to = 0; char *ringback_data = NULL; switch_codec_t *read_codec = NULL; uint8_t sent_ring = 0; switch_core_session_message_t *message = NULL; write_frame.data = fdata; *bleg = NULL; odata = strdup(bridgeto); data = odata; if (!strncasecmp(data, "confirm=", 8)) { data += 8; file = data; if ((data = strchr(file, ';'))) { *data++ = '\0'; if ((key = strchr(file, ':'))) { *key++ = '\0'; } else { err++; } } else { err++; } } if (err) { status = SWITCH_STATUS_GENERR; goto done; } if (session) { caller_channel = switch_core_session_get_channel(session); assert(caller_channel != NULL); ringback_data = switch_channel_get_variable(caller_channel, "ringback"); switch_channel_set_variable(caller_channel, "originate_disposition", "failure"); if ((var = switch_channel_get_variable(caller_channel, "group_confirm_key"))) { key = switch_core_session_strdup(session, var); if ((var = switch_channel_get_variable(caller_channel, "group_confirm_file"))) { file = switch_core_session_strdup(session, var); } } } if (file && !strcmp(file, "undef")) { file = NULL; } or_argc = switch_separate_string(data, '|', pipe_names, (sizeof(pipe_names) / sizeof(pipe_names[0]))); if (caller_channel && or_argc > 1 && !ringback_data) { switch_channel_ringback(caller_channel); sent_ring = 1; } for (r = 0; r < or_argc; r++) { memset(peer_names, 0, sizeof(peer_names)); peer_session = NULL; memset(peer_sessions, 0, sizeof(peer_sessions)); memset(peer_channels, 0, sizeof(peer_channels)); memset(caller_profiles, 0, sizeof(caller_profiles)); chan_type = NULL; chan_data = NULL; peer_channel = NULL; start = 0; read_frame = NULL; pool = NULL; pass = 0; file = NULL; key = NULL; var = NULL; to = 0; and_argc = switch_separate_string(pipe_names[r], '&', peer_names, (sizeof(peer_names) / sizeof(peer_names[0]))); if (caller_channel && !sent_ring && and_argc > 1 && !ringback_data) { switch_channel_ringback(caller_channel); sent_ring = 1; } for (i = 0; i < and_argc; i++) { chan_type = peer_names[i]; if ((chan_data = strchr(chan_type, '/')) != 0) { *chan_data = '\0'; chan_data++; } if (session) { if (!switch_channel_ready(caller_channel)) { status = SWITCH_STATUS_FALSE; goto done; } caller_caller_profile = caller_profile_override ? caller_profile_override : switch_channel_get_caller_profile(caller_channel); if (!cid_name_override) { cid_name_override = caller_caller_profile->caller_id_name; } if (!cid_num_override) { cid_num_override = caller_caller_profile->caller_id_number; } caller_profiles[i] = switch_caller_profile_new(switch_core_session_get_pool(session), caller_caller_profile->username, caller_caller_profile->dialplan, cid_name_override, cid_num_override, caller_caller_profile->network_addr, NULL, NULL, caller_caller_profile->rdnis, caller_caller_profile->source, caller_caller_profile->context, chan_data); caller_profiles[i]->flags = caller_caller_profile->flags; pool = NULL; } else { if (!cid_name_override) { cid_name_override = "FreeSWITCH"; } if (!cid_num_override) { cid_num_override = "0000000000"; } if (switch_core_new_memory_pool(&pool) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "OH OH no pool\n"); status = SWITCH_STATUS_TERM; goto done; } if (caller_profile_override) { caller_profiles[i] = switch_caller_profile_new(pool, caller_profile_override->username, caller_profile_override->dialplan, caller_profile_override->caller_id_name, caller_profile_override->caller_id_number, caller_profile_override->network_addr, caller_profile_override->ani, caller_profile_override->aniii, caller_profile_override->rdnis, caller_profile_override->source, caller_profile_override->context, chan_data); } else { caller_profiles[i] = switch_caller_profile_new(pool, NULL, NULL, cid_name_override, cid_num_override, NULL, NULL, NULL, NULL, __FILE__, NULL, chan_data); } } if (switch_core_session_outgoing_channel(session, chan_type, caller_profiles[i], &peer_sessions[i], pool) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Cannot Create Outgoing Channel!\n"); if (pool) { switch_core_destroy_memory_pool(&pool); } caller_profiles[i] = NULL; peer_channels[i] = NULL; peer_sessions[i] = NULL; continue; } switch_core_session_read_lock(peer_sessions[i]); pool = NULL; peer_channels[i] = switch_core_session_get_channel(peer_sessions[i]); assert(peer_channels[i] != NULL); //switch_channel_set_flag(peer_channels[i], CF_NO_INDICATE); if (table == &noop_state_handler) { table = NULL; } else if (!table) { table = &audio_bridge_peer_state_handlers; } if (table) { switch_channel_add_state_handler(peer_channels[i], table); } if (switch_core_session_running(peer_sessions[i])) { switch_channel_set_state(peer_channels[i], CS_RING); } else { switch_core_session_thread_launch(peer_sessions[i]); } } time(&start); for (;;) { uint32_t valid_channels = 0; for (i = 0; i < and_argc; i++) { int state; if (!peer_channels[i]) { continue; } valid_channels++; state = switch_channel_get_state(peer_channels[i]); if (state >= CS_RING) { goto endfor1; } if (caller_channel && !switch_channel_ready(caller_channel)) { goto notready; } if ((time(NULL) - start) > (time_t)timelimit_sec) { to++; idx = IDX_CANCEL; goto notready; } switch_yield(1000); } if (valid_channels == 0) { status = SWITCH_STATUS_GENERR; goto done; } } endfor1: if (ringback_data && !switch_channel_test_flag(caller_channel, CF_ANSWERED) && !switch_channel_test_flag(caller_channel, CF_EARLY_MEDIA)) { switch_channel_pre_answer(caller_channel); } if (session && (ringback_data || !switch_channel_test_flag(caller_channel, CF_NOMEDIA))) { read_codec = switch_core_session_get_read_codec(session); assert(read_codec != NULL); if (!(pass = (uint8_t)switch_test_flag(read_codec, SWITCH_CODEC_FLAG_PASSTHROUGH))) { if (switch_core_codec_init(&write_codec, "L16", NULL, read_codec->implementation->samples_per_second, read_codec->implementation->microseconds_per_frame / 1000, 1, SWITCH_CODEC_FLAG_ENCODE | SWITCH_CODEC_FLAG_DECODE, NULL, pool) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Raw Codec Activation Success L16@%uhz 1 channel %dms\n", read_codec->implementation->samples_per_second, read_codec->implementation->microseconds_per_frame / 1000); write_frame.codec = &write_codec; write_frame.datalen = read_codec->implementation->bytes_per_frame; write_frame.samples = write_frame.datalen / 2; memset(write_frame.data, 255, write_frame.datalen); if (ringback_data) { char *tmp_data = NULL; switch_buffer_create_dynamic(&ringback.audio_buffer, 512, 1024, 0); switch_buffer_create_dynamic(&ringback.loop_buffer, 512, 1024, 0); if (*ringback_data == '/') { char *ext; if ((ext = strrchr(ringback_data, '.'))) { switch_core_session_set_read_codec(session, &write_codec); ext++; } else { ringback.asis++; write_frame.codec = read_codec; ext = read_codec->implementation->iananame; tmp_data = switch_mprintf("%s.%s", ringback_data, ext); ringback_data = tmp_data; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Play Ringback File [%s]\n", ringback_data); ringback.fhb.channels = read_codec->implementation->number_of_channels; ringback.fhb.samplerate = read_codec->implementation->samples_per_second; if (switch_core_file_open(&ringback.fhb, ringback_data, SWITCH_FILE_FLAG_READ | SWITCH_FILE_DATA_SHORT, switch_core_session_get_pool(session)) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error Playing File\n"); switch_safe_free(tmp_data); goto notready; } ringback.fh = &ringback.fhb; } else { teletone_init_session(&ringback.ts, 0, teletone_handler, &ringback); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Play Ringback Tone [%s]\n", ringback_data); //ringback.ts.debug = 1; //ringback.ts.debug_stream = switch_core_get_console(); if (teletone_run(&ringback.ts, ringback_data)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error Playing Tone\n"); teletone_destroy_session(&ringback.ts); switch_buffer_destroy(&ringback.audio_buffer); switch_buffer_destroy(&ringback.loop_buffer); ringback_data = NULL; } } switch_safe_free(tmp_data); } } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Codec Error!"); switch_channel_hangup(caller_channel, SWITCH_CAUSE_NORMAL_TEMPORARY_FAILURE); read_codec = NULL; } } } while ((!caller_channel || switch_channel_ready(caller_channel)) && check_channel_status(peer_channels, peer_sessions, and_argc, &idx, file, key, ringback_data)) { if ((to = (uint8_t)((time(NULL) - start) >= (time_t)timelimit_sec))) { idx = IDX_CANCEL; goto notready; } if (switch_core_session_dequeue_message(peer_sessions[0], &message) == SWITCH_STATUS_SUCCESS) { if (session && !ringback_data && or_argc == 1 && and_argc == 1) { /* when there is only 1 channel to call and bridge and no ringback */ switch_core_session_receive_message(session, message); } if (switch_test_flag(message, SCSMF_DYNAMIC)) { switch_safe_free(message); } else { message = NULL; } } /* read from the channel while we wait if the audio is up on it */ if (session && (ringback_data || !switch_channel_test_flag(caller_channel, CF_NOMEDIA)) && (switch_channel_test_flag(caller_channel, CF_ANSWERED) || switch_channel_test_flag(caller_channel, CF_EARLY_MEDIA))) { switch_status_t status = switch_core_session_read_frame(session, &read_frame, 1000, 0); if (!SWITCH_READ_ACCEPTABLE(status)) { break; } if (read_frame && !pass && !switch_test_flag(read_frame, SFF_CNG) && read_frame->datalen > 1) { if (ringback.fh) { uint8_t abuf[1024]; switch_size_t mlen, olen; unsigned int pos = 0; if (ringback.asis) { mlen = read_frame->datalen; } else { mlen = read_frame->datalen / 2; } olen = mlen; switch_core_file_read(ringback.fh, abuf, &olen); if (olen == 0) { olen = mlen; ringback.fh->speed = 0; switch_core_file_seek(ringback.fh, &pos, 0, SEEK_SET); switch_core_file_read(ringback.fh, abuf, &olen); if (olen == 0) { break; } } write_frame.data = abuf; write_frame.datalen = (uint32_t) (ringback.asis ? olen : olen * 2); if (switch_core_session_write_frame(session, &write_frame, 1000, 0) != SWITCH_STATUS_SUCCESS) { break; } } else if (ringback.audio_buffer) { if ((write_frame.datalen = (uint32_t)switch_buffer_read(ringback.audio_buffer, write_frame.data, write_frame.codec->implementation->bytes_per_frame)) <= 0) { switch_buffer_t *tmp; tmp = ringback.audio_buffer; ringback.audio_buffer = ringback.loop_buffer; ringback.loop_buffer = tmp; if ((write_frame.datalen = (uint32_t)switch_buffer_read(ringback.audio_buffer, write_frame.data, write_frame.codec->implementation->bytes_per_frame)) <= 0) { break; } } } if (switch_core_session_write_frame(session, &write_frame, 1000, 0) != SWITCH_STATUS_SUCCESS) { break; } if (ringback.loop_buffer) { switch_buffer_write(ringback.loop_buffer, write_frame.data, write_frame.datalen); } } } else { switch_yield(1000); } } notready: if (caller_channel && !switch_channel_ready(caller_channel)) { idx = IDX_CANCEL; } if (session && (ringback_data || !switch_channel_test_flag(caller_channel, CF_NOMEDIA))) { switch_core_session_reset(session); } for (i = 0; i < and_argc; i++) { if (!peer_channels[i]) { continue; } if (i != idx) { if (idx == IDX_CANCEL) { reason = SWITCH_CAUSE_ORIGINATOR_CANCEL; } else { if (to) { reason = SWITCH_CAUSE_NO_ANSWER; } else if (and_argc > 1) { reason = SWITCH_CAUSE_LOSE_RACE; } else { reason = SWITCH_CAUSE_NO_ANSWER; } } switch_channel_hangup(peer_channels[i], reason); } } if (idx > IDX_NADA) { peer_session = peer_sessions[idx]; peer_channel = peer_channels[idx]; } else { status = SWITCH_STATUS_FALSE; goto done; } if (caller_channel) { if (switch_channel_test_flag(peer_channel, CF_ANSWERED)) { switch_channel_answer(caller_channel); } else if (switch_channel_test_flag(peer_channel, CF_EARLY_MEDIA)) { switch_channel_pre_answer(caller_channel); } } if (switch_channel_test_flag(peer_channel, CF_ANSWERED) || switch_channel_test_flag(peer_channel, CF_EARLY_MEDIA)) { *bleg = peer_session; status = SWITCH_STATUS_SUCCESS; } else { status = SWITCH_STATUS_FALSE; } done: *cause = SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER; if (status == SWITCH_STATUS_SUCCESS) { if (caller_channel) { switch_channel_set_variable(caller_channel, "originate_disposition", "call accepted"); } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Originate Resulted in Success: [%s]\n", switch_channel_get_name(peer_channel)); } else { if (peer_channel) { *cause = switch_channel_get_cause(peer_channel); } else { for (i = 0; i < and_argc; i++) { if (!peer_channels[i]) { continue; } *cause = switch_channel_get_cause(peer_channels[i]); break; } } if (caller_channel) { if (idx == IDX_CANCEL) { *cause = switch_channel_get_cause(caller_channel); } switch_channel_set_variable(caller_channel, "originate_disposition", switch_channel_cause2str(*cause)); } if (idx == IDX_CANCEL) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Originate Cancelled by originator termination Cause: %d [%s]\n", *cause, switch_channel_cause2str(*cause)); if (peer_channel) { switch_channel_hangup(peer_channel, SWITCH_CAUSE_ORIGINATOR_CANCEL); } } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Originate Resulted in Error Cause: %d [%s]\n", *cause, switch_channel_cause2str(*cause)); } } if (!pass && write_codec.implementation) { switch_core_codec_destroy(&write_codec); } if (ringback.fh) { switch_core_file_close(ringback.fh); ringback.fh = NULL; if (read_codec && !ringback.asis) { switch_core_session_set_read_codec(session, read_codec); switch_core_session_reset(session); } } else if (ringback.audio_buffer) { teletone_destroy_session(&ringback.ts); switch_buffer_destroy(&ringback.audio_buffer); switch_buffer_destroy(&ringback.loop_buffer); } for (i = 0; i < and_argc; i++) { if (!peer_channels[i]) { continue; } switch_core_session_rwunlock(peer_sessions[i]); } if (status == SWITCH_STATUS_SUCCESS) { break; } } switch_safe_free(odata); return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_hold(switch_core_session_t *session) { switch_core_session_message_t msg = {0}; switch_channel_t *channel; msg.message_id = SWITCH_MESSAGE_INDICATE_HOLD; msg.from = __FILE__; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_channel_set_flag(channel, CF_HOLD); switch_channel_set_flag(channel, CF_SUSPEND); switch_core_session_receive_message(session, &msg); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_hold_uuid(char *uuid) { switch_core_session_t *session; if ((session = switch_core_session_locate(uuid))) { switch_ivr_hold(session); switch_core_session_rwunlock(session); } return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_unhold(switch_core_session_t *session) { switch_core_session_message_t msg = {0}; switch_channel_t *channel; msg.message_id = SWITCH_MESSAGE_INDICATE_UNHOLD; msg.from = __FILE__; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_channel_clear_flag(channel, CF_HOLD); switch_channel_clear_flag(channel, CF_SUSPEND); switch_core_session_receive_message(session, &msg); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_unhold_uuid(char *uuid) { switch_core_session_t *session; if ((session = switch_core_session_locate(uuid))) { switch_ivr_unhold(session); switch_core_session_rwunlock(session); } return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_broadcast(char *uuid, char *path, switch_media_flag_t flags) { switch_channel_t *channel; int nomedia; switch_core_session_t *session, *master; switch_event_t *event; switch_core_session_t *other_session = NULL; char *other_uuid = NULL; if ((session = switch_core_session_locate(uuid))) { char *app; master = session; channel = switch_core_session_get_channel(session); assert(channel != NULL); if ((nomedia = switch_channel_test_flag(channel, CF_NOMEDIA))) { switch_ivr_media(uuid, SMF_REBRIDGE); } if (!strncasecmp(path, "speak:", 6)) { path += 6; app = "speak"; } else { app = "playback"; } if ((flags & SMF_ECHO_BLEG) && (other_uuid = switch_channel_get_variable(channel, SWITCH_BRIDGE_VARIABLE)) && (other_session = switch_core_session_locate(other_uuid))) { if (switch_event_create(&event, SWITCH_EVENT_MESSAGE) == SWITCH_STATUS_SUCCESS) { switch_event_add_header(event, SWITCH_STACK_BOTTOM, "call-command", "execute"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "execute-app-name", app); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "execute-app-arg", "%s", path); switch_core_session_queue_private_event(other_session, &event); } switch_core_session_rwunlock(other_session); master = other_session; other_session = NULL; } if ((flags & SMF_ECHO_ALEG)) { if (switch_event_create(&event, SWITCH_EVENT_MESSAGE) == SWITCH_STATUS_SUCCESS) { switch_event_add_header(event, SWITCH_STACK_BOTTOM, "call-command", "execute"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "execute-app-name", app); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "execute-app-arg", "%s", path); switch_core_session_queue_private_event(session, &event); } master = session; } if (nomedia) { if (switch_event_create(&event, SWITCH_EVENT_MESSAGE) == SWITCH_STATUS_SUCCESS) { switch_event_add_header(event, SWITCH_STACK_BOTTOM, "call-command", "nomedia"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "nomedia-uuid", "%s", uuid); switch_core_session_queue_private_event(master, &event); } } switch_core_session_rwunlock(session); } return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_media(char *uuid, switch_media_flag_t flags) { char *other_uuid = NULL; switch_channel_t *channel, *other_channel = NULL; switch_core_session_t *session, *other_session; switch_core_session_message_t msg = {0}; switch_status_t status = SWITCH_STATUS_GENERR; uint8_t swap = 0; msg.message_id = SWITCH_MESSAGE_INDICATE_MEDIA; msg.from = __FILE__; if ((session = switch_core_session_locate(uuid))) { channel = switch_core_session_get_channel(session); assert(channel != NULL); if ((flags & SMF_REBRIDGE) && !switch_channel_test_flag(channel, CF_ORIGINATOR)) { swap = 1; } if (switch_channel_test_flag(channel, CF_NOMEDIA)) { status = SWITCH_STATUS_SUCCESS; switch_channel_clear_flag(channel, CF_NOMEDIA); switch_core_session_receive_message(session, &msg); if ((flags & SMF_REBRIDGE) && (other_uuid = switch_channel_get_variable(channel, SWITCH_SIGNAL_BRIDGE_VARIABLE)) && (other_session = switch_core_session_locate(other_uuid))) { other_channel = switch_core_session_get_channel(other_session); assert(other_channel != NULL); switch_core_session_receive_message(other_session, &msg); switch_channel_clear_state_handler(other_channel, NULL); switch_core_session_rwunlock(other_session); } if (other_channel) { switch_channel_clear_state_handler(channel, NULL); } } switch_core_session_rwunlock(session); if (other_channel) { if (swap) { switch_ivr_uuid_bridge(other_uuid, uuid); } else { switch_ivr_uuid_bridge(uuid, other_uuid); } } } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_nomedia(char *uuid, switch_media_flag_t flags) { char *other_uuid; switch_channel_t *channel, *other_channel = NULL; switch_core_session_t *session, *other_session = NULL; switch_core_session_message_t msg = {0}; switch_status_t status = SWITCH_STATUS_GENERR; uint8_t swap = 0; msg.message_id = SWITCH_MESSAGE_INDICATE_NOMEDIA; msg.from = __FILE__; if ((session = switch_core_session_locate(uuid))) { status = SWITCH_STATUS_SUCCESS; channel = switch_core_session_get_channel(session); assert(channel != NULL); if ((flags & SMF_REBRIDGE) && !switch_channel_test_flag(channel, CF_ORIGINATOR)) { swap = 1; } if ((flags & SMF_FORCE) || !switch_channel_test_flag(channel, CF_NOMEDIA)) { switch_channel_set_flag(channel, CF_NOMEDIA); switch_core_session_receive_message(session, &msg); if ((flags & SMF_REBRIDGE) && (other_uuid = switch_channel_get_variable(channel, SWITCH_BRIDGE_VARIABLE)) && (other_session = switch_core_session_locate(other_uuid))) { other_channel = switch_core_session_get_channel(other_session); assert(other_channel != NULL); switch_core_session_receive_message(other_session, &msg); switch_channel_clear_state_handler(other_channel, NULL); } if (other_channel) { switch_channel_clear_state_handler(channel, NULL); if (swap) { switch_ivr_signal_bridge(other_session, session); } else { switch_ivr_signal_bridge(session, other_session); } switch_core_session_rwunlock(other_session); } } switch_core_session_rwunlock(session); } return status; } static switch_status_t signal_bridge_on_hibernate(switch_core_session_t *session) { switch_channel_t *channel = NULL; channel = switch_core_session_get_channel(session); assert(channel != NULL); switch_channel_clear_flag(channel, CF_TRANSFER); switch_channel_set_variable(channel, SWITCH_BRIDGE_VARIABLE, switch_channel_get_variable(channel, SWITCH_SIGNAL_BRIDGE_VARIABLE)); return SWITCH_STATUS_SUCCESS; } static switch_status_t signal_bridge_on_hangup(switch_core_session_t *session) { char *uuid; switch_channel_t *channel = NULL; switch_core_session_t *other_session; switch_event_t *event; channel = switch_core_session_get_channel(session); assert(channel != NULL); if (switch_channel_test_flag(channel, CF_ORIGINATOR)) { switch_channel_clear_flag(channel, CF_ORIGINATOR); if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_UNBRIDGE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(channel, event); switch_event_fire(&event); } } if ((uuid = switch_channel_get_variable(channel, SWITCH_BRIDGE_VARIABLE)) && (other_session = switch_core_session_locate(uuid))) { switch_channel_t *other_channel = NULL; other_channel = switch_core_session_get_channel(other_session); assert(other_channel != NULL); switch_channel_hangup(other_channel, switch_channel_get_cause(channel)); switch_core_session_rwunlock(other_session); } return SWITCH_STATUS_SUCCESS; } static const switch_state_handler_table_t signal_bridge_state_handlers = { /*.on_init */ NULL, /*.on_ring */ NULL, /*.on_execute */ NULL, /*.on_hangup */ signal_bridge_on_hangup, /*.on_loopback */ NULL, /*.on_transmit */ NULL, /*.on_hold */ NULL, /*.on_hibernate*/ signal_bridge_on_hibernate }; SWITCH_DECLARE(switch_status_t) switch_ivr_signal_bridge(switch_core_session_t *session, switch_core_session_t *peer_session) { switch_channel_t *caller_channel, *peer_channel; switch_event_t *event; caller_channel = switch_core_session_get_channel(session); assert(caller_channel != NULL); peer_channel = switch_core_session_get_channel(peer_session); assert(peer_channel != NULL); switch_channel_set_flag(caller_channel, CF_ORIGINATOR); switch_channel_clear_state_handler(caller_channel, NULL); switch_channel_clear_state_handler(peer_channel, NULL); switch_channel_add_state_handler(caller_channel, &signal_bridge_state_handlers); switch_channel_add_state_handler(peer_channel, &signal_bridge_state_handlers); /* fire events that will change the data table from "show channels" */ if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_EXECUTE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(caller_channel, event); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application", "signal_bridge"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application-Data", "%s", switch_core_session_get_uuid(peer_session)); switch_event_fire(&event); } if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_EXECUTE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(peer_channel, event); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application", "signal_bridge"); switch_event_add_header(event, SWITCH_STACK_BOTTOM, "Application-Data", "%s", switch_core_session_get_uuid(session)); switch_event_fire(&event); } if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_BRIDGE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(caller_channel, event); switch_event_fire(&event); } switch_channel_set_state_flag(caller_channel, CF_TRANSFER); switch_channel_set_state_flag(peer_channel, CF_TRANSFER); switch_channel_set_variable(caller_channel, SWITCH_SIGNAL_BRIDGE_VARIABLE, switch_core_session_get_uuid(peer_session)); switch_channel_set_variable(peer_channel, SWITCH_SIGNAL_BRIDGE_VARIABLE, switch_core_session_get_uuid(session)); switch_channel_set_state(caller_channel, CS_HIBERNATE); switch_channel_set_state(peer_channel, CS_HIBERNATE); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_multi_threaded_bridge(switch_core_session_t *session, switch_core_session_t *peer_session, switch_input_callback_function_t input_callback, void *session_data, void *peer_session_data) { switch_core_thread_session_t *this_audio_thread, *other_audio_thread; switch_channel_t *caller_channel, *peer_channel; int stream_id = 0; switch_status_t status = SWITCH_STATUS_SUCCESS; caller_channel = switch_core_session_get_channel(session); assert(caller_channel != NULL); switch_channel_set_flag(caller_channel, CF_ORIGINATOR); peer_channel = switch_core_session_get_channel(peer_session); assert(peer_channel != NULL); other_audio_thread = switch_core_session_alloc(peer_session, sizeof(switch_core_thread_session_t)); this_audio_thread = switch_core_session_alloc(peer_session, sizeof(switch_core_thread_session_t)); other_audio_thread->objs[0] = session; other_audio_thread->objs[1] = peer_session; other_audio_thread->objs[2] = &stream_id; other_audio_thread->objs[3] = (void *) input_callback; other_audio_thread->objs[4] = session_data; other_audio_thread->objs[5] = this_audio_thread; other_audio_thread->running = 5; switch_mutex_init(&other_audio_thread->mutex, SWITCH_MUTEX_NESTED, switch_core_session_get_pool(session)); this_audio_thread->objs[0] = peer_session; this_audio_thread->objs[1] = session; this_audio_thread->objs[2] = &stream_id; this_audio_thread->objs[3] = (void *) input_callback; this_audio_thread->objs[4] = peer_session_data; this_audio_thread->objs[5] = other_audio_thread; this_audio_thread->running = 2; switch_mutex_init(&this_audio_thread->mutex, SWITCH_MUTEX_NESTED, switch_core_session_get_pool(peer_session)); switch_channel_add_state_handler(peer_channel, &audio_bridge_peer_state_handlers); if (switch_channel_test_flag(peer_channel, CF_ANSWERED) && !switch_channel_test_flag(caller_channel, CF_ANSWERED)) { switch_channel_answer(caller_channel); } if (switch_channel_test_flag(peer_channel, CF_ANSWERED) || switch_channel_test_flag(peer_channel, CF_EARLY_MEDIA)) { switch_event_t *event; switch_core_session_message_t msg = {0}; switch_channel_set_state(peer_channel, CS_HOLD); if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_BRIDGE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(caller_channel, event); switch_event_fire(&event); } if (switch_core_session_read_lock(peer_session) == SWITCH_STATUS_SUCCESS) { switch_channel_set_variable(caller_channel, SWITCH_BRIDGE_VARIABLE, switch_core_session_get_uuid(peer_session)); switch_channel_set_variable(peer_channel, SWITCH_BRIDGE_VARIABLE, switch_core_session_get_uuid(session)); msg.message_id = SWITCH_MESSAGE_INDICATE_BRIDGE; msg.from = __FILE__; msg.pointer_arg = session; switch_core_session_receive_message(peer_session, &msg); if (!msg.pointer_arg) { status = SWITCH_STATUS_FALSE; switch_core_session_rwunlock(peer_session); goto done; } msg.pointer_arg = peer_session; switch_core_session_receive_message(session, &msg); if (!msg.pointer_arg) { status = SWITCH_STATUS_FALSE; switch_core_session_rwunlock(peer_session); goto done; } switch_channel_set_private(peer_channel, "_bridge_", other_audio_thread); switch_channel_set_state(peer_channel, CS_LOOPBACK); audio_bridge_thread(NULL, (void *) this_audio_thread); if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_UNBRIDGE) == SWITCH_STATUS_SUCCESS) { switch_channel_event_set_data(caller_channel, event); switch_event_fire(&event); } if (switch_channel_get_state(caller_channel) != CS_EXECUTE && !switch_channel_test_flag(caller_channel, CF_TRANSFER)) { switch_channel_hangup(caller_channel, SWITCH_CAUSE_NORMAL_CLEARING); } this_audio_thread->objs[0] = NULL; this_audio_thread->objs[1] = NULL; this_audio_thread->objs[2] = NULL; this_audio_thread->objs[3] = NULL; this_audio_thread->objs[4] = NULL; this_audio_thread->objs[5] = NULL; switch_mutex_lock(this_audio_thread->mutex); this_audio_thread->running = 0; switch_mutex_unlock(this_audio_thread->mutex); switch_channel_clear_flag(caller_channel, CF_ORIGINATOR); if (other_audio_thread->running > 0) { switch_mutex_lock(other_audio_thread->mutex); other_audio_thread->running = -1; switch_mutex_unlock(other_audio_thread->mutex); while (other_audio_thread->running) { switch_yield(1000); } } switch_core_session_rwunlock(peer_session); } else { status = SWITCH_STATUS_FALSE; } } else { status = SWITCH_STATUS_FALSE; } if (status != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Bridge Failed %s->%s\n", switch_channel_get_name(caller_channel), switch_channel_get_name(peer_channel) ); switch_channel_hangup(peer_channel, SWITCH_CAUSE_NO_ANSWER); } done: return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_uuid_bridge(char *originator_uuid, char *originatee_uuid) { switch_core_session_t *originator_session, *originatee_session; switch_channel_t *originator_channel, *originatee_channel; switch_status_t status = SWITCH_STATUS_FALSE; if ((originator_session = switch_core_session_locate(originator_uuid))) { if ((originatee_session = switch_core_session_locate(originatee_uuid))) { originator_channel = switch_core_session_get_channel(originator_session); originatee_channel = switch_core_session_get_channel(originatee_session); /* override transmit state for originator_channel to bridge to originatee_channel * install pointer to originatee_session into originator_channel * set CF_TRANSFER on both channels and change state to CS_TRANSMIT to * inturrupt anything they are already doing. * originatee_session will fall asleep and originator_session will bridge to it */ switch_channel_clear_state_handler(originator_channel, NULL); switch_channel_clear_state_handler(originatee_channel, NULL); switch_channel_set_flag(originator_channel, CF_ORIGINATOR); switch_channel_add_state_handler(originator_channel, &uuid_bridge_state_handlers); switch_channel_add_state_handler(originatee_channel, &uuid_bridge_state_handlers); switch_channel_set_flag(originatee_channel, CF_TAGGED); switch_channel_set_private(originator_channel, SWITCH_UUID_BRIDGE, originatee_session); /* switch_channel_set_state_flag sets flags you want to be set when the next state change happens */ switch_channel_set_state_flag(originator_channel, CF_TRANSFER); switch_channel_set_state_flag(originatee_channel, CF_TRANSFER); /* release the read locks we have on the channels */ switch_core_session_rwunlock(originator_session); switch_core_session_rwunlock(originatee_session); /* change the states and let the chips fall where they may */ switch_channel_set_state(originator_channel, CS_TRANSMIT); switch_channel_set_state(originatee_channel, CS_TRANSMIT); status = SWITCH_STATUS_SUCCESS; while(switch_channel_get_state(originatee_channel) < CS_HANGUP && switch_channel_test_flag(originatee_channel, CF_TAGGED)) { switch_yield(20000); } } else { switch_core_session_rwunlock(originator_session); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "no channel for originatee uuid %s\n", originatee_uuid); } } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "no channel for originator uuid %s\n", originator_uuid); } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_session_transfer(switch_core_session_t *session, char *extension, char *dialplan, char *context) { switch_channel_t *channel; switch_caller_profile_t *profile, *new_profile; switch_core_session_message_t msg = {0}; switch_core_session_t *other_session; char *uuid = NULL; assert(session != NULL); assert(extension != NULL); channel = switch_core_session_get_channel(session); assert(channel != NULL); if ((profile = switch_channel_get_caller_profile(channel))) { new_profile = switch_caller_profile_clone(session, profile); new_profile->destination_number = switch_core_session_strdup(session, extension); if (dialplan) { new_profile->dialplan = switch_core_session_strdup(session, dialplan); } else { dialplan = new_profile->dialplan; } if (context) { new_profile->context = switch_core_session_strdup(session, context); } else { context = new_profile->context; } if ((uuid = switch_channel_get_variable(channel, SWITCH_SIGNAL_BRIDGE_VARIABLE)) && (other_session = switch_core_session_locate(uuid))) { switch_channel_t *other_channel = NULL; other_channel = switch_core_session_get_channel(other_session); assert(other_channel != NULL); switch_channel_set_variable(channel, SWITCH_SIGNAL_BRIDGE_VARIABLE, NULL); switch_channel_set_variable(other_channel, SWITCH_SIGNAL_BRIDGE_VARIABLE, NULL); switch_channel_hangup(other_channel, SWITCH_CAUSE_BLIND_TRANSFER); switch_ivr_media(uuid, SMF_NONE); switch_core_session_rwunlock(other_session); } switch_channel_set_caller_profile(channel, new_profile); switch_channel_set_flag(channel, CF_TRANSFER); switch_channel_set_state(channel, CS_RING); msg.message_id = SWITCH_MESSAGE_INDICATE_TRANSFER; msg.from = __FILE__; switch_core_session_receive_message(session, &msg); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "Transfer %s to %s[%s@%s]\n", switch_channel_get_name(channel), dialplan, extension, context); return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_FALSE; } SWITCH_DECLARE(switch_status_t) switch_ivr_transfer_variable(switch_core_session_t *sessa, switch_core_session_t *sessb, char *var) { switch_channel_t *chana = switch_core_session_get_channel(sessa); switch_channel_t *chanb = switch_core_session_get_channel(sessb); char *val = NULL; if (var) { if ((val = switch_channel_get_variable(chana, var))) { switch_channel_set_variable(chanb, var, val); } } else { switch_hash_index_t *hi; void *vval; const void *vvar; for (hi = switch_channel_variable_first(chana, switch_core_session_get_pool(sessa)); hi; hi = switch_hash_next(hi)) { switch_hash_this(hi, &vvar, NULL, &vval); if (vvar && vval) { switch_channel_set_variable(chanb, (char *) vvar, (char *) vval); } } } return SWITCH_STATUS_SUCCESS; } struct switch_ivr_digit_stream_parser { int pool_auto_created; switch_memory_pool_t *pool; switch_hash_t *hash; char *digits; char terminator; switch_size_t maxlen; }; SWITCH_DECLARE(switch_status_t) switch_ivr_digit_stream_parser_new(switch_memory_pool_t *pool, switch_ivr_digit_stream_parser_t **parser) { switch_status_t status = SWITCH_STATUS_FALSE; if(parser != NULL) { int pool_auto_created = 0; // if the caller didn't provide a pool, make one if (pool == NULL) { switch_core_new_memory_pool(&pool); if (pool != NULL) { pool_auto_created = 1; } } // if we have a pool, make a parser object if (pool != NULL) { *parser = (switch_ivr_digit_stream_parser_t *)switch_core_alloc(pool,sizeof(switch_ivr_digit_stream_parser_t)); } // if we have parser object, initialize it for the caller if (*parser != NULL) { memset(*parser,0,sizeof(switch_ivr_digit_stream_parser_t)); (*parser)->pool_auto_created = pool_auto_created; (*parser)->pool = pool; switch_core_hash_init(&(*parser)->hash,(*parser)->pool); status = SWITCH_STATUS_SUCCESS; } else { status = SWITCH_STATUS_MEMERR; // clean up the pool if we created it if (pool != NULL && pool_auto_created) { switch_core_destroy_memory_pool(&pool); } } } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_digit_stream_parser_destroy(switch_ivr_digit_stream_parser_t **parser) { switch_status_t status = SWITCH_STATUS_FALSE; if (parser != NULL && *parser != NULL) { if ((*parser)->hash != NULL) { switch_core_hash_destroy((*parser)->hash); (*parser)->hash = NULL; } // free the memory pool if we created it if ((*parser)->pool_auto_created && (*parser)->pool != NULL) { status = switch_core_destroy_memory_pool(&(*parser)->pool); } // clean up for the caller *parser = NULL; } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_digit_stream_parser_set_event(switch_ivr_digit_stream_parser_t *parser, char *digits, void *data) { switch_status_t status = SWITCH_STATUS_FALSE; if (parser != NULL && digits != NULL && *digits && parser->hash != NULL) { switch_size_t len; status = switch_core_hash_insert_dup(parser->hash,digits,data); if (status == SWITCH_STATUS_SUCCESS && parser->terminator == '\0' && (len = strlen(digits)) > parser->maxlen) { parser->maxlen = len; } } if (status != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "unable to add hash for '%s'\n",digits); } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_digit_stream_parser_del_event(switch_ivr_digit_stream_parser_t *parser, char *digits) { switch_status_t status = SWITCH_STATUS_FALSE; if (parser != NULL && digits != NULL && *digits) { status = switch_core_hash_delete(parser->hash,digits); } if (status != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "unable to del hash for '%s'\n",digits); } return status; } SWITCH_DECLARE(void *) switch_ivr_digit_stream_parser_feed(switch_ivr_digit_stream_parser_t *parser, char digit) { void *result = NULL; if (parser != NULL && digit != '\0') { size_t len = (parser->digits != NULL ? strlen(parser->digits) : 0); // if it's not a terminator digit, add it to the collected digits if (digit != parser->terminator) { // if collected digits length >= the max length of the keys // in the hash table, then left shift the digit string if ( len > 1 && parser->maxlen != 0 && len >= parser->maxlen) { char *src = parser->digits + 1; char *dst = parser->digits; while (*src) { *(dst++) = *(src++); } *dst = digit; } else { parser->digits = realloc(parser->digits,len+2); *(parser->digits+(len++)) = digit; *(parser->digits+len) = '\0'; } } // if we have digits to test if (len) { result = switch_core_hash_find(parser->hash,parser->digits); // if we matched the digit string, or this digit is the terminator // reset the collected digits for next digit string if (result != NULL || parser->terminator == digit) { free(parser->digits); parser->digits = NULL; } } } return result; } SWITCH_DECLARE(switch_status_t) switch_ivr_digit_stream_parser_reset(switch_ivr_digit_stream_parser_t *parser) { switch_status_t status = SWITCH_STATUS_FALSE; if (parser != NULL && parser->digits != NULL) { free(parser->digits); parser->digits = NULL; status = SWITCH_STATUS_SUCCESS; } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_digit_stream_parser_set_terminator(switch_ivr_digit_stream_parser_t *parser, char digit) { switch_status_t status = SWITCH_STATUS_FALSE; if (parser != NULL) { parser->terminator = digit; parser->maxlen = 0; status = SWITCH_STATUS_SUCCESS; } return status; } struct switch_ivr_menu_action; struct switch_ivr_menu { char *name; char *greeting_sound; char *short_greeting_sound; char *invalid_sound; char *tts_engine; char *tts_voice; char *buf; char *ptr; int max_failures; int timeout; uint32_t inlen; uint32_t flags; struct switch_ivr_menu_action *actions; struct switch_ivr_menu *next; switch_memory_pool_t *pool; }; struct switch_ivr_menu_action { switch_ivr_menu_action_function_t *function; switch_ivr_action_t ivr_action; char *arg; char *bind; struct switch_ivr_menu_action *next; }; static switch_ivr_menu_t *switch_ivr_find_menu(switch_ivr_menu_t *stack, char *name) { switch_ivr_menu_t *ret; for(ret = stack; ret ; ret = ret->next) { if (!name || !strcmp(ret->name, name)) break; } return ret; } static void switch_ivr_menu_stack(switch_ivr_menu_t **top, switch_ivr_menu_t *bottom) { switch_ivr_menu_t *ptr; for(ptr = *top ; ptr && ptr->next ; ptr = ptr->next); if (ptr) { ptr->next = bottom; } else { *top = bottom; } } SWITCH_DECLARE(switch_status_t) switch_ivr_menu_init(switch_ivr_menu_t **new_menu, switch_ivr_menu_t *main, char *name, char *greeting_sound, char *short_greeting_sound, char *invalid_sound, char *tts_engine, char *tts_voice, int timeout, int max_failures, switch_memory_pool_t *pool) { switch_ivr_menu_t *menu; uint8_t newpool = 0; if (!pool) { if (switch_core_new_memory_pool(&pool) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "OH OH no pool\n"); return SWITCH_STATUS_MEMERR; } newpool = 1; } if (!(menu = switch_core_alloc(pool, sizeof(*menu)))) { if (newpool) { switch_core_destroy_memory_pool(&pool); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Memory Error!\n"); return SWITCH_STATUS_MEMERR; } } menu->pool = pool; if (name) { menu->name = switch_core_strdup(menu->pool, name); } if (greeting_sound) { menu->greeting_sound = switch_core_strdup(menu->pool, greeting_sound); } if (short_greeting_sound) { menu->short_greeting_sound = switch_core_strdup(menu->pool, short_greeting_sound); } if (invalid_sound) { menu->invalid_sound = switch_core_strdup(menu->pool, invalid_sound); } if (tts_engine) { menu->tts_engine = switch_core_strdup(menu->pool, tts_engine); } if (tts_voice) { menu->tts_voice = switch_core_strdup(menu->pool, tts_voice); } menu->max_failures = max_failures; menu->timeout = timeout; menu->actions = NULL; if (newpool) { menu->flags |= SWITCH_IVR_MENU_FLAG_FREEPOOL; } if (menu->timeout <= 0) { menu->timeout = 10000; } if (main) { switch_ivr_menu_stack(&main, menu); } else { menu->flags |= SWITCH_IVR_MENU_FLAG_STACK; } *new_menu = menu; return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_ivr_menu_bind_action(switch_ivr_menu_t *menu, switch_ivr_action_t ivr_action, char *arg, char *bind) { switch_ivr_menu_action_t *action; uint32_t len; if ((action = switch_core_alloc(menu->pool, sizeof(*action)))) { action->bind = switch_core_strdup(menu->pool, bind); action->next = menu->actions; action->arg = switch_core_strdup(menu->pool, arg); len = (uint32_t)strlen(action->bind); if (len > menu->inlen) { menu->inlen = len; } action->ivr_action = ivr_action; menu->actions = action; return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_MEMERR; } SWITCH_DECLARE(switch_status_t) switch_ivr_menu_bind_function(switch_ivr_menu_t *menu, switch_ivr_menu_action_function_t *function, char *bind) { switch_ivr_menu_action_t *action; if ((action = switch_core_alloc(menu->pool, sizeof(*action)))) { action->bind = bind; action->function = function; action->next = menu->actions; menu->actions = action; return SWITCH_STATUS_SUCCESS; } return SWITCH_STATUS_MEMERR; } SWITCH_DECLARE(switch_status_t) switch_ivr_menu_free_stack(switch_ivr_menu_t *stack) { switch_memory_pool_t *pool; if (!switch_test_flag(stack, SWITCH_IVR_MENU_FLAG_STACK) || switch_test_flag(stack, SWITCH_IVR_MENU_FLAG_FREEPOOL)) { return SWITCH_STATUS_FALSE; } pool = stack->pool; switch_core_destroy_memory_pool(&pool); pool = NULL; return SWITCH_STATUS_SUCCESS; } static switch_status_t play_or_say(switch_core_session_t *session, switch_ivr_menu_t *menu, char *sound, uint32_t need) { char terminator; uint32_t len; char *ptr; switch_status_t status = SWITCH_STATUS_SUCCESS; memset(menu->buf, 0, menu->inlen); menu->ptr = menu->buf; if (!need) { len = 1; ptr = NULL; } else { len = menu->inlen + 1; ptr = menu->ptr; } if (*sound == '/' || *sound == '\\') { switch_ivr_play_file(session, NULL, sound, NULL, NULL, ptr, len); } else { if (menu->tts_engine && menu->tts_voice) { switch_ivr_speak_text(session, menu->tts_engine, menu->tts_voice, NULL, 0, NULL, sound, ptr, len); } } if (need) { menu->ptr += strlen(menu->buf); if (strlen(menu->buf) < need) { status = switch_ivr_collect_digits_count(session, menu->ptr, menu->inlen - strlen(menu->buf), need, "#", &terminator, menu->timeout); } } return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_menu_execute(switch_core_session_t *session, switch_ivr_menu_t *stack, char *name, void *obj) { int reps = 0, errs = 0, match = 0, running = 1; char *greeting_sound = NULL, *aptr; char arg[512]; switch_ivr_action_t todo = SWITCH_IVR_ACTION_DIE; switch_ivr_menu_action_t *ap; switch_ivr_menu_t *menu; switch_channel_t *channel; switch_status_t status = SWITCH_STATUS_SUCCESS; channel = switch_core_session_get_channel(session); assert(channel != NULL); if (!(menu = switch_ivr_find_menu(stack, name))) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Invalid Menu!\n"); return -1; } if (!(menu->buf = malloc(menu->inlen))) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "No Memory!\n"); return -1; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Executing IVR menu %s\n", menu->name); for (reps = 0 ; (running && status == SWITCH_STATUS_SUCCESS && errs < menu->max_failures) ; reps++) { if (!switch_channel_ready(channel)) { break; } if (reps > 0 && menu->short_greeting_sound) { greeting_sound = menu->short_greeting_sound; } else { greeting_sound = menu->greeting_sound; } match = 0; aptr = NULL; memset(arg, 0, sizeof(arg)); play_or_say(session, menu, greeting_sound, menu->inlen); if (!switch_strlen_zero(menu->buf)) { for(ap = menu->actions; ap ; ap = ap->next) { if (!strcmp(menu->buf, ap->bind)) { char *membuf; match++; errs = 0; if (ap->function) { todo = ap->function(menu, arg, sizeof(arg), obj); aptr = arg; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "IVR function on menu '%s' matched '%s'\n", menu->name, menu->buf); } else { todo = ap->ivr_action; aptr = ap->arg; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "IVR action on menu '%s' matched '%s' param '%s'\n", menu->name, menu->buf,aptr); } switch(todo) { case SWITCH_IVR_ACTION_DIE: status = SWITCH_STATUS_FALSE; break; case SWITCH_IVR_ACTION_PLAYSOUND: status = switch_ivr_play_file(session, NULL, aptr, NULL, NULL, NULL, 0); break; case SWITCH_IVR_ACTION_SAYTEXT: if (menu->tts_engine && menu->tts_voice) { switch_ivr_speak_text(session, menu->tts_engine, menu->tts_voice, NULL, 0, NULL, aptr, NULL, 0); } break; case SWITCH_IVR_ACTION_TRANSFER: switch_ivr_session_transfer(session, aptr, NULL, NULL); running = 0; break; case SWITCH_IVR_ACTION_EXECMENU: reps = -1; status = switch_ivr_menu_execute(session, stack, aptr, obj); break; case SWITCH_IVR_ACTION_EXECAPP: { const switch_application_interface_t *application_interface; if ((membuf = strdup(aptr))) { char *app_name = membuf; char *app_arg = strchr(app_name, ' '); if (app_arg) { *app_arg = '\0'; app_arg++; } if (app_name && app_arg) { if ((application_interface = switch_loadable_module_get_application_interface(app_name))) { if (application_interface->application_function) { application_interface->application_function(session, app_arg); } } } } } break; case SWITCH_IVR_ACTION_BACK: running = 0; status = SWITCH_STATUS_SUCCESS; break; case SWITCH_IVR_ACTION_TOMAIN: switch_set_flag(stack, SWITCH_IVR_MENU_FLAG_FALLTOMAIN); status = SWITCH_STATUS_BREAK; break; default: switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Invalid TODO!\n"); break; } } } if (switch_test_flag(menu, SWITCH_IVR_MENU_FLAG_STACK)) { /* top level */ if (switch_test_flag(stack, SWITCH_IVR_MENU_FLAG_FALLTOMAIN)) { /* catch the fallback and recover */ switch_clear_flag(stack, SWITCH_IVR_MENU_FLAG_FALLTOMAIN); status = SWITCH_STATUS_SUCCESS; running = 1; continue; } } } if (!match) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "IVR menu %s caught invalid input %s\n", menu->name, menu->buf); if (menu->invalid_sound) { play_or_say(session, menu, menu->invalid_sound, 0); } errs++; if (status == SWITCH_STATUS_SUCCESS) { status = switch_ivr_sleep(session, 1000); } } } switch_safe_free(menu->buf); return status; } SWITCH_DECLARE(switch_status_t) switch_ivr_build_xml_menu_stack(switch_ivr_menu_t **menu_stack, switch_xml_t xml_menus, switch_xml_t xml_menu, switch_memory_pool_t *pool) { switch_status_t status = SWITCH_STATUS_FALSE; char *menu_name = (char *)switch_xml_attr_soft(xml_menu,"name"); // if the attr doesn't exist, return "" char *greet_long = (char *)switch_xml_attr(xml_menu,"greet-long"); // if the attr doesn't exist, return NULL char *greet_short = (char *)switch_xml_attr(xml_menu,"greet-short"); // if the attr doesn't exist, return NULL char *invalid_sound = (char *)switch_xml_attr(xml_menu,"invalid-sound"); // if the attr doesn't exist, return NULL char *tts_engine = (char *)switch_xml_attr(xml_menu,"tts-engine"); // if the attr doesn't exist, return NULL char *tts_voice = (char *)switch_xml_attr(xml_menu,"tts-voice"); // if the attr doesn't exist, return NULL char *timeout = (char *)switch_xml_attr_soft(xml_menu,"timeout"); // if the attr doesn't exist, return "" char *max_failures = (char *)switch_xml_attr_soft(xml_menu,"max-failures"); // if the attr doesn't exist, return "" switch_ivr_menu_t *menu = NULL; status = switch_ivr_menu_init(&menu, *menu_stack, menu_name, greet_long, greet_short, invalid_sound, tts_engine, tts_voice, atoi(timeout)*1000, atoi(max_failures), pool ); if (status == SWITCH_STATUS_SUCCESS) { switch_xml_t xml_kvp; struct ivr_action_map { char *name; switch_ivr_action_t action; } iam [] = { {"exit", SWITCH_IVR_ACTION_DIE}, {"menu-sub", SWITCH_IVR_ACTION_EXECMENU}, {"exec-api", SWITCH_IVR_ACTION_EXECAPP}, {"play-sound", SWITCH_IVR_ACTION_PLAYSOUND}, {"say-text", SWITCH_IVR_ACTION_SAYTEXT}, {"menu-back", SWITCH_IVR_ACTION_BACK}, {"menu-top", SWITCH_IVR_ACTION_TOMAIN}, {"call-transfer", SWITCH_IVR_ACTION_TRANSFER}, }; int iam_qty = sizeof(iam)/sizeof(iam[0]); // set the menu stack for the caller if (*menu_stack == NULL) { *menu_stack = menu; } // build menu entries for(xml_kvp = switch_xml_child(xml_menu, "entry"); xml_kvp != NULL && status == SWITCH_STATUS_SUCCESS; xml_kvp = xml_kvp->next) { char *action = (char *)switch_xml_attr(xml_kvp, "action"); char *digits = (char *)switch_xml_attr(xml_kvp, "digits"); char *param = (char *)switch_xml_attr_soft(xml_kvp, "param"); if (!switch_strlen_zero(action) && !switch_strlen_zero(digits)) { int i,found; for(i=0,found=0; i