int SrsSource::on_reload_queue_length(string vhost)
{
int ret = ERROR_SUCCESS;
if (req->vhost != vhost) {
return ret;
}
double queue_size = config->get_queue_length(req->vhost);
if (true) {
std::vector<SrsConsumer*>::iterator it;
for (it = consumers.begin(); it != consumers.end(); ++it) {
SrsConsumer* consumer = *it;
consumer->set_queue_size(queue_size);
}
srs_trace("consumers reload queue size success.");
}
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
forwarder->set_queue_size(queue_size);
}
srs_trace("forwarders reload queue size success.");
}
return ret;
}
int SrsSource::create_forwarders()
{
int ret = ERROR_SUCCESS;
SrsConfDirective* conf = config->get_forward(req->vhost);
for (int i = 0; conf && i < (int)conf->args.size(); i++) {
std::string forward_server = conf->args.at(i);
SrsForwarder* forwarder = new SrsForwarder(this);
forwarders.push_back(forwarder);
double queue_size = config->get_queue_length(req->vhost);
forwarder->set_queue_size(queue_size);
if ((ret = forwarder->on_publish(req, forward_server)) != ERROR_SUCCESS) {
srs_error("start forwarder failed. "
"vhost=%s, app=%s, stream=%s, forward-to=%s",
req->vhost.c_str(), req->app.c_str(), req->stream.c_str(),
forward_server.c_str());
return ret;
}
}
return ret;
}
void SrsSource::on_unpublish()
{
#ifdef SRS_HLS
hls->on_unpublish();
#endif
#ifdef SRS_FFMPEG
encoder->on_unpublish();
#endif
// close all forwarders
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
forwarder->on_unpublish();
srs_freep(forwarder);
}
forwarders.clear();
gop_cache->clear();
srs_freep(cache_metadata);
frame_rate = sample_rate = 0;
srs_freep(cache_sh_video);
srs_freep(cache_sh_audio);
srs_trace("clear cache/metadata/sequence-headers when unpublish.");
_can_publish = true;
}
void SrsSource::destroy_forwarders()
{
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
forwarder->on_unpublish();
srs_freep(forwarder);
}
forwarders.clear();
}
int SrsSource::on_publish(std::string vhost, std::string port, std::string app, std::string stream)
{
int ret = ERROR_SUCCESS;
_can_publish = false;
#ifdef SRS_HLS
if ((ret = hls->on_publish(vhost, app, stream)) != ERROR_SUCCESS) {
return ret;
}
#endif
#ifdef SRS_FFMPEG
if ((ret = encoder->on_publish(vhost, port, app, stream)) != ERROR_SUCCESS) {
return ret;
}
#endif
// TODO: support reload.
// create forwarders
SrsConfDirective* conf = config->get_forward(vhost);
for (int i = 0; conf && i < (int)conf->args.size(); i++) {
std::string forward_server = conf->args.at(i);
SrsForwarder* forwarder = new SrsForwarder();
forwarders.push_back(forwarder);
if ((ret = forwarder->on_publish(vhost, app, stream, forward_server)) != ERROR_SUCCESS) {
srs_error("start forwarder failed. "
"vhost=%s, app=%s, stream=%s, forward-to=%s",
vhost.c_str(), app.c_str(), stream.c_str(),
forward_server.c_str());
return ret;
}
}
return ret;
}
int SrsSource::on_video(SrsCommonMessage* video)
{
int ret = ERROR_SUCCESS;
SrsSharedPtrMessage* msg = new SrsSharedPtrMessage();
SrsAutoFree(SrsSharedPtrMessage, msg, false);
if ((ret = msg->initialize(video)) != ERROR_SUCCESS) {
srs_error("initialize the video failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr video success.");
#ifdef SRS_HLS
if ((ret = hls->on_video(msg->copy())) != ERROR_SUCCESS) {
srs_warn("hls process video message failed, ignore and disable hls. ret=%d", ret);
// unpublish, ignore ret.
hls->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
// copy to all consumer
if (true) {
std::vector<SrsConsumer*>::iterator it;
for (it = consumers.begin(); it != consumers.end(); ++it) {
SrsConsumer* consumer = *it;
if ((ret = consumer->enqueue(msg->copy(), sample_rate, frame_rate)) != ERROR_SUCCESS) {
srs_error("dispatch the video failed. ret=%d", ret);
return ret;
}
}
srs_info("dispatch video success.");
}
// copy to all forwarders.
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_video(msg->copy())) != ERROR_SUCCESS) {
srs_error("forwarder process video message failed. ret=%d", ret);
return ret;
}
}
}
// cache the sequence header if h264
if (SrsCodec::video_is_sequence_header(msg->payload, msg->size)) {
srs_freep(cache_sh_video);
cache_sh_video = msg->copy();
srs_trace("update video sequence header success. size=%d", msg->header.payload_length);
return ret;
}
// cache the last gop packets
if ((ret = gop_cache->cache(msg)) != ERROR_SUCCESS) {
srs_error("gop cache msg failed. ret=%d", ret);
return ret;
}
srs_verbose("cache gop success.");
return ret;
}
int SrsSource::on_meta_data(SrsCommonMessage* msg, SrsOnMetaDataPacket* metadata)
{
int ret = ERROR_SUCCESS;
#ifdef SRS_HLS
if (metadata && (ret = hls->on_meta_data(metadata->metadata)) != ERROR_SUCCESS) {
srs_error("hls process onMetaData message failed. ret=%d", ret);
return ret;
}
#endif
metadata->metadata->set("server", new SrsAmf0String(
RTMP_SIG_SRS_KEY" "RTMP_SIG_SRS_VERSION" ("RTMP_SIG_SRS_URL_SHORT")"));
metadata->metadata->set("contributor",
new SrsAmf0String(RTMP_SIG_SRS_PRIMARY_AUTHROS));
SrsAmf0Any* prop = NULL;
if ((prop = metadata->metadata->get_property("audiosamplerate")) != NULL) {
if (prop->is_number()) {
sample_rate = (int)(srs_amf0_convert<SrsAmf0Number>(prop)->value);
}
}
if ((prop = metadata->metadata->get_property("framerate")) != NULL) {
if (prop->is_number()) {
frame_rate = (int)(srs_amf0_convert<SrsAmf0Number>(prop)->value);
}
}
// encode the metadata to payload
int size = metadata->get_payload_length();
if (size <= 0) {
srs_warn("ignore the invalid metadata. size=%d", size);
return ret;
}
srs_verbose("get metadata size success.");
char* payload = NULL;
if ((ret = metadata->encode(size, payload)) != ERROR_SUCCESS) {
srs_error("encode metadata error. ret=%d", ret);
srs_freepa(payload);
return ret;
}
srs_verbose("encode metadata success.");
// create a shared ptr message.
srs_freep(cache_metadata);
cache_metadata = new SrsSharedPtrMessage();
// dump message to shared ptr message.
if ((ret = cache_metadata->initialize(msg, payload, size)) != ERROR_SUCCESS) {
srs_error("initialize the cache metadata failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr metadata success.");
// copy to all consumer
if (true) {
std::vector<SrsConsumer*>::iterator it;
for (it = consumers.begin(); it != consumers.end(); ++it) {
SrsConsumer* consumer = *it;
if ((ret = consumer->enqueue(cache_metadata->copy(), sample_rate, frame_rate)) != ERROR_SUCCESS) {
srs_error("dispatch the metadata failed. ret=%d", ret);
return ret;
}
}
srs_trace("dispatch metadata success.");
}
// copy to all forwarders
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_meta_data(cache_metadata->copy())) != ERROR_SUCCESS) {
srs_error("forwarder process onMetaData message failed. ret=%d", ret);
return ret;
}
}
}
return ret;
}
int SrsSource::on_meta_data(SrsMessage* msg, SrsOnMetaDataPacket* metadata)
{
int ret = ERROR_SUCCESS;
#ifdef SRS_AUTO_HLS
if (metadata && (ret = hls->on_meta_data(metadata->metadata)) != ERROR_SUCCESS) {
srs_error("hls process onMetaData message failed. ret=%d", ret);
return ret;
}
#endif
#ifdef SRS_AUTO_DVR
if (metadata && (ret = dvr->on_meta_data(metadata)) != ERROR_SUCCESS) {
srs_error("dvr process onMetaData message failed. ret=%d", ret);
return ret;
}
#endif
SrsAmf0Any* prop = NULL;
// generate metadata info to print
std::stringstream ss;
if ((prop = metadata->metadata->ensure_property_number("width")) != NULL) {
ss << ", width=" << (int)prop->to_number();
}
if ((prop = metadata->metadata->ensure_property_number("height")) != NULL) {
ss << ", height=" << (int)prop->to_number();
}
if ((prop = metadata->metadata->ensure_property_number("videocodecid")) != NULL) {
ss << ", vcodec=" << (int)prop->to_number();
}
if ((prop = metadata->metadata->ensure_property_number("audiocodecid")) != NULL) {
ss << ", acodec=" << (int)prop->to_number();
}
// add server info to metadata
metadata->metadata->set("server", SrsAmf0Any::str(RTMP_SIG_SRS_KEY" "RTMP_SIG_SRS_VERSION" ("RTMP_SIG_SRS_URL_SHORT")"));
metadata->metadata->set("authors", SrsAmf0Any::str(RTMP_SIG_SRS_PRIMARY_AUTHROS));
// version, for example, 1.0.0
// add version to metadata, please donot remove it, for debug.
metadata->metadata->set("server_version", SrsAmf0Any::str(RTMP_SIG_SRS_VERSION));
if ((prop = metadata->metadata->get_property("audiosamplerate")) != NULL) {
if (prop->is_number()) {
sample_rate = (int)prop->to_number();
}
}
if ((prop = metadata->metadata->get_property("framerate")) != NULL) {
if (prop->is_number()) {
frame_rate = (int)prop->to_number();
}
}
// if allow atc_auto and bravo-atc detected, open atc for vhost.
atc = _srs_config->get_atc(_req->vhost);
if (_srs_config->get_atc_auto(_req->vhost)) {
if ((prop = metadata->metadata->get_property("bravo_atc")) != NULL) {
if (prop->is_string() && prop->to_str() == "true") {
atc = true;
}
}
}
// encode the metadata to payload
int size = 0;
char* payload = NULL;
if ((ret = metadata->encode(size, payload)) != ERROR_SUCCESS) {
srs_error("encode metadata error. ret=%d", ret);
srs_freep(payload);
return ret;
}
srs_verbose("encode metadata success.");
if (size <= 0) {
srs_warn("ignore the invalid metadata. size=%d", size);
return ret;
}
// create a shared ptr message.
srs_freep(cache_metadata);
cache_metadata = new SrsSharedPtrMessage();
// dump message to shared ptr message.
// the payload/size managed by cache_metadata, user should not free it.
if ((ret = cache_metadata->create(&msg->header, payload, size)) != ERROR_SUCCESS) {
srs_error("initialize the cache metadata failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr metadata success.");
// copy to all consumer
if (true) {
std::vector<SrsConsumer*>::iterator it;
for (it = consumers.begin(); it != consumers.end(); ++it) {
SrsConsumer* consumer = *it;
SrsSharedPtrMessage* copy = cache_metadata->copy();
if ((ret = consumer->enqueue(copy, atc, sample_rate, frame_rate, jitter_algorithm)) != ERROR_SUCCESS) {
srs_error("dispatch the metadata failed. ret=%d", ret);
return ret;
}
}
srs_trace("got metadata%s", ss.str().c_str());
}
// copy to all forwarders
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_meta_data(cache_metadata->copy())) != ERROR_SUCCESS) {
srs_error("forwarder process onMetaData message failed. ret=%d", ret);
return ret;
}
}
}
return ret;
}
int SrsSource::on_video(SrsMessage* __video)
{
int ret = ERROR_SUCCESS;
// convert __video to msg, user should not use __video again.
// the payload is transfer to msg, and set to NULL in __video.
SrsSharedPtrMessage msg;
if ((ret = msg.create(__video)) != ERROR_SUCCESS) {
srs_error("initialize the video failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr video success.");
#ifdef SRS_AUTO_HLS
if ((ret = hls->on_video(msg.copy())) != ERROR_SUCCESS) {
srs_warn("hls process video message failed, ignore and disable hls. ret=%d", ret);
// unpublish, ignore ret.
hls->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
#ifdef SRS_AUTO_DVR
if ((ret = dvr->on_video(msg.copy())) != ERROR_SUCCESS) {
srs_warn("dvr process video message failed, ignore and disable dvr. ret=%d", ret);
// unpublish, ignore ret.
dvr->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
// copy to all consumer
if (true) {
for (int i = 0; i < (int)consumers.size(); i++) {
SrsConsumer* consumer = consumers.at(i);
SrsSharedPtrMessage* copy = msg.copy();
if ((ret = consumer->enqueue(copy, atc, sample_rate, frame_rate, jitter_algorithm)) != ERROR_SUCCESS) {
srs_error("dispatch the video failed. ret=%d", ret);
return ret;
}
}
srs_info("dispatch video success.");
}
// copy to all forwarders.
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_video(msg.copy())) != ERROR_SUCCESS) {
srs_error("forwarder process video message failed. ret=%d", ret);
return ret;
}
}
}
// cache the sequence header if h264
// donot cache the sequence header to gop_cache, return here.
if (SrsFlvCodec::video_is_sequence_header(msg.payload, msg.size)) {
srs_freep(cache_sh_video);
cache_sh_video = msg.copy();
// parse detail audio codec
SrsAvcAacCodec codec;
SrsCodecSample sample;
if ((ret = codec.video_avc_demux(msg.payload, msg.size, &sample)) != ERROR_SUCCESS) {
srs_error("codec demux video failed. ret=%d", ret);
return ret;
}
srs_trace("%dB video sh, "
"codec(%d, profile=%d, level=%d, %dx%d, %dkbps, %dfps, %ds)",
msg.header.payload_length, codec.video_codec_id,
codec.avc_profile, codec.avc_level, codec.width, codec.height,
codec.video_data_rate / 1000, codec.frame_rate, codec.duration);
return ret;
}
// cache the last gop packets
if ((ret = gop_cache->cache(&msg)) != ERROR_SUCCESS) {
srs_error("gop cache msg failed. ret=%d", ret);
return ret;
}
srs_verbose("cache gop success.");
// if atc, update the sequence header to abs time.
if (atc) {
if (cache_sh_video) {
cache_sh_video->header.timestamp = msg.header.timestamp;
}
if (cache_metadata) {
cache_metadata->header.timestamp = msg.header.timestamp;
}
}
return ret;
}
int SrsSource::on_audio(SrsMessage* audio)
{
int ret = ERROR_SUCCESS;
SrsSharedPtrMessage* msg = new SrsSharedPtrMessage();
SrsAutoFree(SrsSharedPtrMessage, msg);
if ((ret = msg->initialize(audio)) != ERROR_SUCCESS) {
srs_error("initialize the audio failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr audio success.");
#ifdef SRS_AUTO_HLS
if ((ret = hls->on_audio(msg->copy())) != ERROR_SUCCESS) {
srs_warn("hls process audio message failed, ignore and disable hls. ret=%d", ret);
// unpublish, ignore ret.
hls->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
#ifdef SRS_AUTO_DVR
if ((ret = dvr->on_audio(msg->copy())) != ERROR_SUCCESS) {
srs_warn("dvr process audio message failed, ignore and disable dvr. ret=%d", ret);
// unpublish, ignore ret.
dvr->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
// copy to all consumer
if (true) {
std::vector<SrsConsumer*>::iterator it;
for (it = consumers.begin(); it != consumers.end(); ++it) {
SrsConsumer* consumer = *it;
if ((ret = consumer->enqueue(msg->copy(), sample_rate, frame_rate)) != ERROR_SUCCESS) {
srs_error("dispatch the audio failed. ret=%d", ret);
return ret;
}
}
srs_info("dispatch audio success.");
}
// copy to all forwarders.
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_audio(msg->copy())) != ERROR_SUCCESS) {
srs_error("forwarder process audio message failed. ret=%d", ret);
return ret;
}
}
}
// cache the sequence header if h264
// donot cache the sequence header to gop_cache, return here.
if (SrsFlvCodec::audio_is_sequence_header(msg->payload, msg->size)) {
srs_freep(cache_sh_audio);
cache_sh_audio = msg->copy();
srs_trace("got audio sh, size=%d", msg->header.payload_length);
return ret;
}
// cache the last gop packets
if ((ret = gop_cache->cache(msg)) != ERROR_SUCCESS) {
srs_error("shrink gop cache failed. ret=%d", ret);
return ret;
}
srs_verbose("cache gop success.");
// if atc, update the sequence header to abs time.
if (atc) {
if (cache_sh_audio) {
cache_sh_audio->header.timestamp = msg->header.timestamp;
}
if (cache_metadata) {
cache_metadata->header.timestamp = msg->header.timestamp;
}
}
return ret;
}
int SrsSource::on_meta_data(SrsMessage* msg, SrsOnMetaDataPacket* metadata)
{
int ret = ERROR_SUCCESS;
#ifdef SRS_AUTO_HLS
if (metadata && (ret = hls->on_meta_data(metadata->metadata)) != ERROR_SUCCESS) {
srs_error("hls process onMetaData message failed. ret=%d", ret);
return ret;
}
#endif
#ifdef SRS_AUTO_DVR
if (metadata && (ret = dvr->on_meta_data(metadata)) != ERROR_SUCCESS) {
srs_error("dvr process onMetaData message failed. ret=%d", ret);
return ret;
}
#endif
metadata->metadata->set("server", SrsAmf0Any::str(RTMP_SIG_SRS_KEY" "RTMP_SIG_SRS_VERSION" ("RTMP_SIG_SRS_URL_SHORT")"));
metadata->metadata->set("authors", SrsAmf0Any::str(RTMP_SIG_SRS_PRIMARY_AUTHROS));
SrsAmf0Any* prop = NULL;
if ((prop = metadata->metadata->get_property("audiosamplerate")) != NULL) {
if (prop->is_number()) {
sample_rate = (int)prop->to_number();
}
}
if ((prop = metadata->metadata->get_property("framerate")) != NULL) {
if (prop->is_number()) {
frame_rate = (int)prop->to_number();
}
}
// if allow atc_auto and bravo-atc detected, open atc for vhost.
atc = _srs_config->get_atc(_req->vhost);
if (_srs_config->get_atc_auto(_req->vhost)) {
if ((prop = metadata->metadata->get_property("bravo_atc")) != NULL) {
if (prop->is_string() && prop->to_str() == "true") {
atc = true;
}
}
}
// encode the metadata to payload
int size = 0;
char* payload = NULL;
if ((ret = metadata->encode(size, payload)) != ERROR_SUCCESS) {
srs_error("encode metadata error. ret=%d", ret);
srs_freep(payload);
return ret;
}
srs_verbose("encode metadata success.");
if (size <= 0) {
srs_warn("ignore the invalid metadata. size=%d", size);
return ret;
}
// create a shared ptr message.
srs_freep(cache_metadata);
cache_metadata = new SrsSharedPtrMessage();
// dump message to shared ptr message.
if ((ret = cache_metadata->initialize(&msg->header, payload, size)) != ERROR_SUCCESS) {
srs_error("initialize the cache metadata failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr metadata success.");
// copy to all consumer
if (true) {
std::vector<SrsConsumer*>::iterator it;
for (it = consumers.begin(); it != consumers.end(); ++it) {
SrsConsumer* consumer = *it;
if ((ret = consumer->enqueue(cache_metadata->copy(), sample_rate, frame_rate)) != ERROR_SUCCESS) {
srs_error("dispatch the metadata failed. ret=%d", ret);
return ret;
}
}
srs_trace("dispatch metadata success.");
}
// copy to all forwarders
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_meta_data(cache_metadata->copy())) != ERROR_SUCCESS) {
srs_error("forwarder process onMetaData message failed. ret=%d", ret);
return ret;
}
}
}
return ret;
}
int SrsSource::on_audio(SrsCommonMessage* __audio)
{
int ret = ERROR_SUCCESS;
// convert __audio to msg, user should not use __audio again.
// the payload is transfer to msg, and set to NULL in __audio.
SrsSharedPtrMessage msg;
if ((ret = msg.create(__audio)) != ERROR_SUCCESS) {
srs_error("initialize the audio failed. ret=%d", ret);
return ret;
}
srs_verbose("initialize shared ptr audio success.");
#ifdef SRS_AUTO_HLS
if ((ret = hls->on_audio(&msg)) != ERROR_SUCCESS) {
srs_warn("hls process audio message failed, ignore and disable hls. ret=%d", ret);
// unpublish, ignore ret.
hls->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
#ifdef SRS_AUTO_DVR
if ((ret = dvr->on_audio(&msg)) != ERROR_SUCCESS) {
srs_warn("dvr process audio message failed, ignore and disable dvr. ret=%d", ret);
// unpublish, ignore ret.
dvr->on_unpublish();
// ignore.
ret = ERROR_SUCCESS;
}
#endif
// copy to all consumer
int nb_consumers = (int)consumers.size();
if (nb_consumers > 0) {
SrsConsumer** pconsumer = consumers.data();
for (int i = 0; i < nb_consumers; i++) {
SrsConsumer* consumer = pconsumer[i];
if ((ret = consumer->enqueue(&msg, atc, sample_rate, frame_rate, jitter_algorithm)) != ERROR_SUCCESS) {
srs_error("dispatch the audio failed. ret=%d", ret);
return ret;
}
}
srs_info("dispatch audio success.");
}
// copy to all forwarders.
if (true) {
std::vector<SrsForwarder*>::iterator it;
for (it = forwarders.begin(); it != forwarders.end(); ++it) {
SrsForwarder* forwarder = *it;
if ((ret = forwarder->on_audio(&msg)) != ERROR_SUCCESS) {
srs_error("forwarder process audio message failed. ret=%d", ret);
return ret;
}
}
}
// cache the sequence header if h264
// donot cache the sequence header to gop_cache, return here.
if (SrsFlvCodec::audio_is_sequence_header(msg.payload, msg.size)) {
srs_freep(cache_sh_audio);
cache_sh_audio = msg.copy();
// parse detail audio codec
SrsAvcAacCodec codec;
SrsCodecSample sample;
if ((ret = codec.audio_aac_demux(msg.payload, msg.size, &sample)) != ERROR_SUCCESS) {
srs_error("codec demux audio failed. ret=%d", ret);
return ret;
}
static int flv_sample_sizes[] = {8, 16, 0};
static int flv_sound_types[] = {1, 2, 0};
srs_trace("%dB audio sh, "
"codec(%d, profile=%d, %dchannels, %dkbps, %dHZ), "
"flv(%dbits, %dchannels, %dHZ)",
msg.size, codec.audio_codec_id,
codec.aac_profile, codec.aac_channels,
codec.audio_data_rate / 1000, aac_sample_rates[codec.aac_sample_rate],
flv_sample_sizes[sample.sound_size], flv_sound_types[sample.sound_type],
flv_sample_rates[sample.sound_rate]);
return ret;
}
// cache the last gop packets
if ((ret = gop_cache->cache(&msg)) != ERROR_SUCCESS) {
srs_error("shrink gop cache failed. ret=%d", ret);
return ret;
}
srs_verbose("cache gop success.");
// if atc, update the sequence header to abs time.
if (atc) {
if (cache_sh_audio) {
cache_sh_audio->timestamp = msg.timestamp;
}
if (cache_metadata) {
cache_metadata->timestamp = msg.timestamp;
}
}
return ret;
}
