/* * Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/xia-chu/ZLMediaKit). * * Use of this source code is governed by MIT license that can be found in the * LICENSE file in the root of the source tree. All contributing project authors * may be found in the AUTHORS file in the root of the source tree. */ #include #include "Common/config.h" #include "MultiMediaSourceMuxer.h" using namespace std; using namespace toolkit; namespace toolkit { StatisticImp(mediakit::MultiMediaSourceMuxer); } namespace mediakit { ProtocolOption::ProtocolOption() { GET_CONFIG(bool, s_to_hls, General::kPublishToHls); GET_CONFIG(bool, s_to_mp4, General::kPublishToMP4); GET_CONFIG(bool, s_enabel_audio, General::kEnableAudio); GET_CONFIG(bool, s_add_mute_audio, General::kAddMuteAudio); GET_CONFIG(bool, s_mp4_as_player, Record::kMP4AsPlayer); GET_CONFIG(uint32_t, s_continue_push_ms, General::kContinuePushMS); enable_hls = s_to_hls; enable_mp4 = s_to_mp4; enable_audio = s_enabel_audio; add_mute_audio = s_add_mute_audio; continue_push_ms = s_continue_push_ms; mp4_as_player = s_mp4_as_player; } static std::shared_ptr makeRecorder(MediaSource &sender, const vector &tracks, Recorder::type type, const string &custom_path, size_t max_second){ auto recorder = Recorder::createRecorder(type, sender.getVhost(), sender.getApp(), sender.getId(), custom_path, max_second); for (auto &track : tracks) { recorder->addTrack(track); } return recorder; } static string getTrackInfoStr(const TrackSource *track_src){ _StrPrinter codec_info; auto tracks = track_src->getTracks(true); for (auto &track : tracks) { auto codec_type = track->getTrackType(); codec_info << track->getCodecName(); switch (codec_type) { case TrackAudio : { auto audio_track = dynamic_pointer_cast(track); codec_info << "[" << audio_track->getAudioSampleRate() << "/" << audio_track->getAudioChannel() << "/" << audio_track->getAudioSampleBit() << "] "; break; } case TrackVideo : { auto video_track = dynamic_pointer_cast(track); codec_info << "[" << video_track->getVideoWidth() << "/" << video_track->getVideoHeight() << "/" << round(video_track->getVideoFps()) << "] "; break; } default: break; } } return std::move(codec_info); } MultiMediaSourceMuxer::MultiMediaSourceMuxer(const string &vhost, const string &app, const string &stream, float dur_sec, const ProtocolOption &option) { _option = option; _get_origin_url = [this, vhost, app, stream]() { auto ret = getOriginUrl(*MediaSource::NullMediaSource); if (!ret.empty()) { return ret; } return vhost + "/" + app + "/" + stream; }; if (option.enable_rtmp) { _rtmp = std::make_shared(vhost, app, stream, std::make_shared(dur_sec)); } if (option.enable_rtsp) { _rtsp = std::make_shared(vhost, app, stream, std::make_shared(dur_sec)); } if (option.enable_hls) { _hls = dynamic_pointer_cast(Recorder::createRecorder(Recorder::type_hls, vhost, app, stream, option.hls_save_path)); } if (option.enable_mp4) { _mp4 = Recorder::createRecorder(Recorder::type_mp4, vhost, app, stream, option.mp4_save_path, option.mp4_max_second); } if (option.enable_ts) { _ts = std::make_shared(vhost, app, stream); } #if defined(ENABLE_MP4) if (option.enable_fmp4) { _fmp4 = std::make_shared(vhost, app, stream); } #endif //音频相关设置 enableAudio(option.enable_audio); enableMuteAudio(option.add_mute_audio); } void MultiMediaSourceMuxer::setMediaListener(const std::weak_ptr &listener) { setDelegate(listener); auto self = shared_from_this(); //拦截事件 if (_rtmp) { _rtmp->setListener(self); } if (_rtsp) { _rtsp->setListener(self); } if (_ts) { _ts->setListener(self); } #if defined(ENABLE_MP4) if (_fmp4) { _fmp4->setListener(self); } #endif auto hls = _hls; if (hls) { hls->setListener(self); } } void MultiMediaSourceMuxer::setTrackListener(const std::weak_ptr &listener) { _track_listener = listener; } int MultiMediaSourceMuxer::totalReaderCount() const { auto hls = _hls; auto ret = (_rtsp ? _rtsp->readerCount() : 0) + (_rtmp ? _rtmp->readerCount() : 0) + (_ts ? _ts->readerCount() : 0) + #if defined(ENABLE_MP4) (_fmp4 ? _fmp4->readerCount() : 0) + #endif (_mp4 ? _option.mp4_as_player : 0) + (hls ? hls->readerCount() : 0); #if defined(ENABLE_RTPPROXY) return ret + (int)_rtp_sender.size(); #else return ret; #endif } void MultiMediaSourceMuxer::setTimeStamp(uint32_t stamp) { if (_rtmp) { _rtmp->setTimeStamp(stamp); } if (_rtsp) { _rtsp->setTimeStamp(stamp); } } int MultiMediaSourceMuxer::totalReaderCount(MediaSource &sender) { auto listener = getDelegate(); if (!listener) { return totalReaderCount(); } return listener->totalReaderCount(sender); } //此函数可能跨线程调用 bool MultiMediaSourceMuxer::setupRecord(MediaSource &sender, Recorder::type type, bool start, const string &custom_path, size_t max_second) { switch (type) { case Recorder::type_hls : { if (start && !_hls) { //开始录制 auto hls = dynamic_pointer_cast(makeRecorder(sender, getTracks(), type, custom_path, max_second)); if (hls) { //设置HlsMediaSource的事件监听器 hls->setListener(shared_from_this()); } _hls = hls; } else if (!start && _hls) { //停止录制 _hls = nullptr; } return true; } case Recorder::type_mp4 : { if (start && !_mp4) { //开始录制 _mp4 = makeRecorder(sender, getTracks(), type, custom_path, max_second); } else if (!start && _mp4) { //停止录制 _mp4 = nullptr; } return true; } default : return false; } } //此函数可能跨线程调用 bool MultiMediaSourceMuxer::isRecording(MediaSource &sender, Recorder::type type) { switch (type){ case Recorder::type_hls : return !!_hls; case Recorder::type_mp4 : return !!_mp4; default: return false; } } void MultiMediaSourceMuxer::startSendRtp(MediaSource &, const MediaSourceEvent::SendRtpArgs &args, const std::function cb) { #if defined(ENABLE_RTPPROXY) auto rtp_sender = std::make_shared(); weak_ptr weak_self = shared_from_this(); rtp_sender->startSend(args, [args, weak_self, rtp_sender, cb](uint16_t local_port, const SockException &ex) { cb(local_port, ex); auto strong_self = weak_self.lock(); if (!strong_self || ex) { return; } for (auto &track : strong_self->getTracks(false)) { rtp_sender->addTrack(track); } rtp_sender->addTrackCompleted(); strong_self->_rtp_sender[args.ssrc] = rtp_sender; }); #else cb(0, SockException(Err_other, "该功能未启用,编译时请打开ENABLE_RTPPROXY宏")); #endif//ENABLE_RTPPROXY } bool MultiMediaSourceMuxer::stopSendRtp(MediaSource &sender, const string &ssrc) { #if defined(ENABLE_RTPPROXY) std::unique_ptr token; if (&sender != MediaSource::NullMediaSource) { token.reset(new onceToken(nullptr, [&]() { //关闭rtp推流,可能触发无人观看事件 MediaSourceEventInterceptor::onReaderChanged(sender, totalReaderCount()); })); } if (ssrc.empty()) { //关闭全部 auto size = _rtp_sender.size(); _rtp_sender.clear(); return size; } //关闭特定的 return _rtp_sender.erase(ssrc); #else return false; #endif//ENABLE_RTPPROXY } vector MultiMediaSourceMuxer::getMediaTracks(MediaSource &sender, bool trackReady) const { return getTracks(trackReady); } bool MultiMediaSourceMuxer::onTrackReady(const Track::Ptr &track) { if (CodecL16 == track->getCodecId()) { WarnL << "L16音频格式目前只支持RTSP协议推流拉流!!!"; return false; } bool ret = false; if (_rtmp) { ret = _rtmp->addTrack(track) ? true : ret; } if (_rtsp) { ret = _rtsp->addTrack(track) ? true : ret; } if (_ts) { ret = _ts->addTrack(track) ? true : ret; } #if defined(ENABLE_MP4) if (_fmp4) { ret = _fmp4->addTrack(track) ? true : ret; } #endif //拷贝智能指针,目的是为了防止跨线程调用设置录像相关api导致的线程竞争问题 auto hls = _hls; if (hls) { ret = hls->addTrack(track) ? true : ret; } auto mp4 = _mp4; if (mp4) { ret = mp4->addTrack(track) ? true : ret; } return ret; } void MultiMediaSourceMuxer::onAllTrackReady() { setMediaListener(getDelegate()); if (_rtmp) { _rtmp->onAllTrackReady(); } if (_rtsp) { _rtsp->onAllTrackReady(); } #if defined(ENABLE_MP4) if (_fmp4) { _fmp4->onAllTrackReady(); } #endif auto listener = _track_listener.lock(); if (listener) { listener->onAllTrackReady(); } InfoL << "stream: " << _get_origin_url() << " , codec info: " << getTrackInfoStr(this); } void MultiMediaSourceMuxer::resetTracks() { MediaSink::resetTracks(); if (_rtmp) { _rtmp->resetTracks(); } if (_rtsp) { _rtsp->resetTracks(); } if (_ts) { _ts->resetTracks(); } #if defined(ENABLE_MP4) if (_fmp4) { _fmp4->resetTracks(); } #endif #if defined(ENABLE_RTPPROXY) for (auto &pr : _rtp_sender) { pr.second->resetTracks(); } #endif //拷贝智能指针,目的是为了防止跨线程调用设置录像相关api导致的线程竞争问题 auto hls = _hls; if (hls) { hls->resetTracks(); } auto mp4 = _mp4; if (mp4) { mp4->resetTracks(); } } bool MultiMediaSourceMuxer::onTrackFrame(const Frame::Ptr &frame_in) { GET_CONFIG(bool, modify_stamp, General::kModifyStamp); auto frame = frame_in; if (modify_stamp) { //开启了时间戳覆盖 frame = std::make_shared(frame, _stamp[frame->getTrackType()],true); } bool ret = false; if (_rtmp) { ret = _rtmp->inputFrame(frame) ? true : ret; } if (_rtsp) { ret = _rtsp->inputFrame(frame) ? true : ret; } if (_ts) { ret = _ts->inputFrame(frame) ? true : ret; } //拷贝智能指针,目的是为了防止跨线程调用设置录像相关api导致的线程竞争问题 //此处使用智能指针拷贝来确保线程安全,比互斥锁性能更优 auto hls = _hls; if (hls) { ret = hls->inputFrame(frame) ? true : ret; } auto mp4 = _mp4; if (mp4) { ret = mp4->inputFrame(frame) ? true : ret; } #if defined(ENABLE_MP4) if (_fmp4) { ret = _fmp4->inputFrame(frame) ? true : ret; } #endif #if defined(ENABLE_RTPPROXY) for (auto &pr : _rtp_sender) { ret = pr.second->inputFrame(frame) ? true : ret; } #endif //ENABLE_RTPPROXY return ret; } bool MultiMediaSourceMuxer::isEnabled(){ GET_CONFIG(uint32_t, stream_none_reader_delay_ms, General::kStreamNoneReaderDelayMS); if (!_is_enable || _last_check.elapsedTime() > stream_none_reader_delay_ms) { //无人观看时,每次检查是否真的无人观看 //有人观看时,则延迟一定时间检查一遍是否无人观看了(节省性能) auto hls = _hls; auto flag = (_rtmp ? _rtmp->isEnabled() : false) || (_rtsp ? _rtsp->isEnabled() : false) || (_ts ? _ts->isEnabled() : false) || #if defined(ENABLE_MP4) (_fmp4 ? _fmp4->isEnabled() : false) || #endif (hls ? hls->isEnabled() : false) || _mp4; #if defined(ENABLE_RTPPROXY) _is_enable = flag || _rtp_sender.size(); #else _is_enable = flag; #endif //ENABLE_RTPPROXY if (_is_enable) { //无人观看时,不刷新计时器,因为无人观看时每次都会检查一遍,所以刷新计数器无意义且浪费cpu _last_check.resetTime(); } } return _is_enable; } }//namespace mediakit