/*
* FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
* Copyright (C) 2005/2006, Anthony Minessale II <anthmct@yahoo.com>
*
* 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 <anthmct@yahoo.com>
* Portions created by the Initial Developer are Copyright (C)
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Anthony Minessale II <anthmct@yahoo.com>
*
*
* switch_ivr_api.c -- IVR Library
*
*/
#include <switch.h>
#include <switch_ivr.h>
static const switch_state_handler_table audio_bridge_peer_state_handlers;
SWITCH_DECLARE(switch_status) switch_ivr_collect_digits_callback(switch_core_session *session,
switch_dtmf_callback_function dtmf_callback,
void *buf,
unsigned int buflen)
{
switch_channel *channel;
switch_status status = SWITCH_STATUS_SUCCESS;
channel = switch_core_session_get_channel(session);
assert(channel != NULL);
if (!dtmf_callback) {
return SWITCH_STATUS_GENERR;
}
while(switch_channel_ready(channel)) {
switch_frame *read_frame;
char dtmf[128];
if (switch_channel_has_dtmf(channel)) {
switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf));
status = dtmf_callback(session, dtmf, buf, buflen);
}
if (status != SWITCH_STATUS_SUCCESS) {
break;
}
if (switch_core_session_read_frame(session, &read_frame, -1, 0) != SWITCH_STATUS_SUCCESS) {
break;
}
}
return status;
}
SWITCH_DECLARE(switch_status) switch_ivr_collect_digits_count(switch_core_session *session,
char *buf,
unsigned int buflen,
unsigned int maxdigits,
const char *terminators,
char *terminator,
unsigned int timeout,
unsigned int poll_channel
)
{
unsigned int i = 0, x = (unsigned int) strlen(buf);
switch_channel *channel;
switch_status status = SWITCH_STATUS_SUCCESS;
switch_time_t started = 0;
unsigned int 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 *read_frame;
if (timeout) {
elapsed = (unsigned int)((switch_time_now() - started) / 1000);
if (elapsed >= timeout) {
break;
}
}
if (switch_channel_has_dtmf(channel)) {
char dtmf[128];
switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf));
for(i =0 ; i < (unsigned int) 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 (poll_channel) {
if ((status = switch_core_session_read_frame(session, &read_frame, -1, 0)) != SWITCH_STATUS_SUCCESS) {
break;
}
} else {
switch_yield(1000);
}
}
return status;
}
SWITCH_DECLARE(switch_status) switch_ivr_record_file(switch_core_session *session,
switch_file_handle *fh,
char *file,
switch_dtmf_callback_function dtmf_callback,
void *buf,
unsigned int buflen)
{
switch_channel *channel;
char dtmf[128];
switch_file_handle lfh;
switch_frame *read_frame;
switch_codec codec, *read_codec;
char *codec_name;
switch_status status = SWITCH_STATUS_SUCCESS;
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);
return SWITCH_STATUS_GENERR;
}
switch_channel_answer(channel);
codec_name = "L16";
if (switch_core_codec_init(&codec,
codec_name,
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);
return SWITCH_STATUS_GENERR;
}
while(switch_channel_ready(channel)) {
switch_size_t len;
if (dtmf_callback || buf) {
/*
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)) {
switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf));
if (dtmf_callback) {
status = dtmf_callback(session, dtmf, buf, buflen);
} else {
switch_copy_string((char *)buf, dtmf, buflen);
status = SWITCH_STATUS_BREAK;
}
}
if (status != SWITCH_STATUS_SUCCESS) {
break;
}
}
if ((status = switch_core_session_read_frame(session, &read_frame, -1, 0)) != SWITCH_STATUS_SUCCESS) {
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);
return status;
}
SWITCH_DECLARE(switch_status) switch_ivr_play_file(switch_core_session *session,
switch_file_handle *fh,
char *file,
char *timer_name,
switch_dtmf_callback_function dtmf_callback,
void *buf,
unsigned int buflen)
{
switch_channel *channel;
short abuf[960];
char dtmf[128];
uint32_t interval = 0, samples = 0;
uint32_t len = 0, ilen = 0;
switch_size_t olen = 0;
switch_frame write_frame = {0};
switch_timer timer;
switch_core_thread_session thread_session;
switch_codec codec;
switch_memory_pool *pool = switch_core_session_get_pool(session);
char *codec_name;
int stream_id;
switch_status status = SWITCH_STATUS_SUCCESS;
switch_file_handle lfh;
switch_codec *read_codec = switch_core_session_get_read_codec(session);
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_channel_hangup(channel, SWITCH_CAUSE_DESTINATION_OUT_OF_ORDER);
return SWITCH_STATUS_GENERR;
}
write_frame.data = abuf;
write_frame.buflen = sizeof(abuf);
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "OPEN FILE %s %uhz %u channels\n", file, fh->samplerate, fh->channels);
interval = read_codec->implementation->microseconds_per_frame / 1000;
samples = read_codec->implementation->bytes_per_frame / 2;
len = samples * 2;
codec_name = "L16";
if (switch_core_codec_init(&codec,
codec_name,
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, "Raw Codec Activated\n");
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);
return SWITCH_STATUS_GENERR;
}
if (timer_name) {
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);
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;
if (dtmf_callback || buf) {
/*
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)) {
switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf));
if (dtmf_callback) {
status = dtmf_callback(session, dtmf, buf, buflen);
} else {
switch_copy_string((char *)buf, dtmf, buflen);
status = SWITCH_STATUS_BREAK;
}
}
if (status != SWITCH_STATUS_SUCCESS) {
done = 1;
break;
}
}
if (switch_test_flag(fh, SWITCH_FILE_PAUSE)) {
memset(abuf, 0, ilen * 2);
olen = ilen;
do_speed = 0;
} else if (fh->audio_buffer && (switch_buffer_inuse(fh->audio_buffer) > (switch_size_t)(ilen * 2))) {
switch_buffer_read(fh->audio_buffer, abuf, ilen * 2);
olen = ilen;
do_speed = 0;
} else {
olen = ilen;
switch_core_file_read(fh, abuf, &olen);
}
if (done || olen <= 0) {
break;
}
if (fh->speed > 2) {
fh->speed = 2;
} else if(fh->speed < -2) {
fh->speed = -2;
}
if (fh->audio_buffer && last_speed > -1 && last_speed != fh->speed) {
switch_buffer_zero(fh->audio_buffer);
}
if (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;
if (!fh->audio_buffer) {
switch_buffer_create(fh->memory_pool, &fh->audio_buffer, SWITCH_RECCOMMENDED_BUFFER_SIZE);
}
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 * 2);
write_frame.samples = (uint32_t)olen;
#if __BYTE_ORDER == __BIG_ENDIAN
switch_swap_linear(write_frame.data, (int) write_frame.datalen / 2);
#endif
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_name) {
if (switch_core_timer_next(&timer) < 0) {
break;
}
} else { /* time off the channel (if you must) */
switch_frame *read_frame;
if (switch_core_session_read_frame(session, &read_frame, -1, 0) != SWITCH_STATUS_SUCCESS) {
break;
}
}
}
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "done playing file\n");
switch_core_file_close(fh);
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);
}
return status;
}
SWITCH_DECLARE(switch_status) switch_ivr_speak_text(switch_core_session *session,
char *tts_name,
char *voice_name,
char *timer_name,
uint32_t rate,
switch_dtmf_callback_function dtmf_callback,
char *text,
void *buf,
unsigned int buflen)
{
switch_channel *channel;
short abuf[960];
char dtmf[128];
int interval = 0;
uint32_t samples = 0;
uint32_t len = 0;
switch_size_t ilen = 0;
switch_frame write_frame = {0};
switch_timer timer;
switch_core_thread_session thread_session;
switch_codec codec;
switch_memory_pool *pool = switch_core_session_get_pool(session);
char *codec_name;
int x;
int stream_id;
int done = 0;
int lead_in_out = 10;
switch_status status = SWITCH_STATUS_SUCCESS;
switch_speech_handle sh;
switch_speech_flag flags = SWITCH_SPEECH_FLAG_TTS;
memset(&sh, 0, sizeof(sh));
channel = switch_core_session_get_channel(session);
assert(channel != NULL);
if (switch_core_speech_open(&sh,
tts_name,
voice_name,
(unsigned int)rate,
&flags,
switch_core_session_get_pool(session)) != SWITCH_STATUS_SUCCESS) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Invalid TTS module!\n");
return SWITCH_STATUS_FALSE;
}
switch_channel_answer(channel);
write_frame.data = abuf;
write_frame.buflen = sizeof(abuf);
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,
(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);
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);
return SWITCH_STATUS_GENERR;
}
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "setup timer success %u bytes per %d ms!\n", len, interval);
}
flags = 0;
switch_core_speech_feed_tts(&sh, text, &flags);
write_frame.rate = rate;
memset(write_frame.data, 0, len);
write_frame.datalen = len;
write_frame.samples = len / 2;
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 (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 = len;
while(switch_channel_ready(channel)) {
if (dtmf_callback || buf) {
/*
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)) {
switch_channel_dequeue_dtmf(channel, dtmf, sizeof(dtmf));
if (dtmf_callback) {
status = dtmf_callback(session, dtmf, buf, buflen);
} else {
switch_copy_string((char *)buf, dtmf, buflen);
status = SWITCH_STATUS_BREAK;
}
}
if (status != SWITCH_STATUS_SUCCESS) {
done = 1;
break;
}
}
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;
}
}
}
done = 1;
}
if (done || ilen <= 0) {
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_name) {
if ((x = switch_core_timer_next(&timer)) < 0) {
break;
}
} else { /* time off the channel (if you must) */
switch_frame *read_frame;
if (switch_core_session_read_frame(session, &read_frame, -1, 0) != SWITCH_STATUS_SUCCESS) {
break;
}
}
}
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "done speaking text\n");
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);
}
return status;
}
/* Bridge Related Stuff*/
/*********************************************************************************/
struct audio_bridge_data {
switch_core_session *session_a;
switch_core_session *session_b;
int running;
};
static void *audio_bridge_thread(switch_thread *thread, void *obj)
{
struct switch_core_thread_session *his_thread, *data = obj;
int *stream_id_p;
int stream_id = 0, ans_a = 0, ans_b = 0;
switch_dtmf_callback_function dtmf_callback;
switch_core_session_message msg = {0};
void *user_data;
switch_channel *chan_a, *chan_b;
switch_frame *read_frame;
switch_core_session *session_a, *session_b;
assert(!thread || thread);
session_a = data->objs[0];
session_b = data->objs[1];
stream_id_p = data->objs[2];
dtmf_callback = (switch_dtmf_callback_function) 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);
ans_b = switch_channel_test_flag(chan_b, CF_ANSWERED);
while (data->running > 0 && his_thread->running > 0) {
switch_channel_state b_state = switch_channel_get_state(chan_b);
switch (b_state) {
case CS_HANGUP:
data->running = -1;
continue;
default:
break;
}
/* If this call is running on early media and it answers for real, pass it along... */
if (!ans_b && switch_channel_test_flag(chan_a, CF_ANSWERED)) {
if (!switch_channel_test_flag(chan_b, CF_ANSWERED)) {
switch_channel_answer(chan_b);
}
ans_b++;
}
if (!ans_a && switch_channel_test_flag(chan_b, CF_ANSWERED)) {
if (!switch_channel_test_flag(chan_a, CF_ANSWERED)) {
switch_channel_answer(chan_a);
}
ans_a++;
}
/* 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 (dtmf_callback) {
if (dtmf_callback(session_a, 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));
data->running = -1;
break;
}
}
}
/* read audio from 1 channel and write it to the other */
if (switch_core_session_read_frame(session_a, &read_frame, -1, stream_id) == SWITCH_STATUS_SUCCESS && read_frame->datalen) {
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);
data->running = -1;
}
} else {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "read: %s Bad Frame.... Bubye!\n", switch_channel_get_name(chan_a));
data->running = -1;
}
//switch_yield(1000);
}
msg.message_id = SWITCH_MESSAGE_INDICATE_UNBRIDGE;
msg.from = __FILE__;
switch_core_session_receive_message(session_a, &msg);
data->running = 0;
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "BRIDGE THREAD DONE [%s]\n", switch_channel_get_name(chan_a));
if (switch_channel_test_flag(chan_a, CF_ORIGINATOR)) {
if (switch_channel_test_flag(chan_b, CF_TRANSFER)) {
if (switch_channel_get_state(chan_b) < CS_HANGUP) {
switch_channel_set_state(chan_b, CS_RING);
/* TBD we need to teach all the endpoints to honor this still */
switch_core_session_kill_channel(session_b, SWITCH_SIG_XFER);
}
} else {
switch_core_session_kill_channel(session_b, SWITCH_SIG_KILL);
switch_channel_hangup(chan_b, SWITCH_CAUSE_NORMAL_CLEARING);
}
switch_channel_clear_flag(chan_a, CF_ORIGINATOR);
}
his_thread->running = 0;
data->running = 0;
return NULL;
}
static switch_status audio_bridge_on_loopback(switch_core_session *session)
{
switch_channel *channel = NULL;
void *arg;
channel = switch_core_session_get_channel(session);
assert(channel != NULL);
arg = switch_channel_get_private(channel);
audio_bridge_thread(NULL, (void *) arg);
switch_channel_set_private(channel, NULL);
switch_channel_clear_state_handler(channel, &audio_bridge_peer_state_handlers);
return SWITCH_STATUS_FALSE;
}
static switch_status audio_bridge_on_ring(switch_core_session *session)
{
switch_channel *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_TRANSMIT);
return SWITCH_STATUS_FALSE;
}
static switch_status audio_bridge_on_transmit(switch_core_session *session)
{
switch_channel *channel = NULL;
channel = switch_core_session_get_channel(session);
assert(channel != NULL);
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "CUSTOM TRANSMIT\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 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 */ audio_bridge_on_transmit,
};
SWITCH_DECLARE(switch_status) switch_ivr_multi_threaded_bridge(switch_core_session *session,
switch_core_session *peer_session,
unsigned int timelimit,
switch_dtmf_callback_function dtmf_callback,
void *session_data,
void *peer_session_data)
{
struct switch_core_thread_session this_audio_thread, other_audio_thread;
switch_channel *caller_channel, *peer_channel;
time_t start;
int stream_id = 0;
switch_frame *read_frame = NULL;
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);
memset(&other_audio_thread, 0, sizeof(other_audio_thread));
memset(&this_audio_thread, 0, sizeof(this_audio_thread));
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 *) dtmf_callback;
other_audio_thread.objs[4] = session_data;
other_audio_thread.objs[5] = &this_audio_thread;
other_audio_thread.running = 5;
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 *) dtmf_callback;
this_audio_thread.objs[4] = peer_session_data;
this_audio_thread.objs[5] = &other_audio_thread;
this_audio_thread.running = 2;
switch_channel_add_state_handler(peer_channel, &audio_bridge_peer_state_handlers);
if (switch_core_session_runing(peer_session)) {
switch_channel_set_state(peer_channel, CS_RING);
} else {
switch_core_session_thread_launch(peer_session);
}
time(&start);
for (;;) {
int state = switch_channel_get_state(peer_channel);
if (state >= CS_RING) {
break;
}
if (!switch_channel_ready(caller_channel)) {
break;
}
if ((time(NULL) - start) > timelimit) {
break;
}
switch_yield(1000);
}
switch_channel_pre_answer(caller_channel);
while (switch_channel_ready(caller_channel) &&
switch_channel_ready(peer_channel) &&
!switch_channel_test_flag(peer_channel, CF_ANSWERED) &&
!switch_channel_test_flag(peer_channel, CF_EARLY_MEDIA) &&
((time(NULL) - start) < timelimit)) {
/* read from the channel while we wait if the audio is up on it */
if (switch_channel_test_flag(caller_channel, CF_ANSWERED) || switch_channel_test_flag(caller_channel, CF_EARLY_MEDIA)) {
if (switch_core_session_read_frame(session, &read_frame, 1000, 0) != SWITCH_STATUS_SUCCESS) {
break;
}
if (read_frame) {
//memset(read_frame->data, 0, read_frame->datalen);
if (switch_core_session_write_frame(session, read_frame, 1000, 0) != SWITCH_STATUS_SUCCESS) {
break;
}
}
} else {
switch_yield(1000);
}
}
if (switch_channel_test_flag(peer_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 *event;
switch_core_session_message msg = {0};
switch_channel_set_state(peer_channel, CS_TRANSMIT);
if (switch_event_create(&event, SWITCH_EVENT_CHANNEL_BRIDGE) == SWITCH_STATUS_SUCCESS) {
switch_channel_event_set_data(caller_channel, event);
switch_event_fire(&event);
}
msg.message_id = SWITCH_MESSAGE_INDICATE_BRIDGE;
msg.from = __FILE__;
msg.pointer_arg = session;
switch_core_session_receive_message(peer_session, &msg);
msg.pointer_arg = peer_session;
switch_core_session_receive_message(session, &msg);
switch_channel_set_flag(peer_channel, CF_LOCK_THREAD);
switch_channel_set_private(peer_channel, &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);
}
switch_channel_clear_flag(peer_channel, CF_LOCK_THREAD);
} else {
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)
);
return SWITCH_STATUS_FALSE;
}
return SWITCH_STATUS_SUCCESS;
}