/* This file is part of Telegram Desktop, the official desktop application for the Telegram messaging service. For license and copyright information please follow this link: https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL */ #include "media/streaming/media_streaming_player.h" #include "media/streaming/media_streaming_file.h" #include "media/streaming/media_streaming_loader.h" #include "media/streaming/media_streaming_audio_track.h" #include "media/streaming/media_streaming_video_track.h" #include "media/audio/media_audio.h" // for SupportsSpeedControl() #include "media/media_common.h" #include "data/data_document.h" // for DocumentData::duration() namespace Media { namespace Streaming { namespace { constexpr auto kBufferFor = 3 * crl::time(1000); constexpr auto kLoadInAdvanceForRemote = 32 * crl::time(1000); constexpr auto kLoadInAdvanceForLocal = 5 * crl::time(1000); constexpr auto kMsFrequency = 1000; // 1000 ms per second. // If we played for 3 seconds and got stuck it looks like we're loading // slower than we're playing, so load full file in that case. //constexpr auto kLoadFullIfStuckAfterPlayback = 3 * crl::time(1000); [[nodiscard]] bool FullTrackReceived(const TrackState &state) { return (state.duration != kTimeUnknown) && (state.receivedTill == state.duration); } void SaveValidStateInformation(TrackState &to, TrackState &&from) { Expects(from.position != kTimeUnknown); Expects(from.receivedTill != kTimeUnknown); Expects(from.duration != kTimeUnknown); to.duration = from.duration; to.position = from.position; to.receivedTill = (to.receivedTill == kTimeUnknown) ? from.receivedTill : std::clamp( std::max(from.receivedTill, to.receivedTill), to.position, to.duration); } void SaveValidAudioInformation( AudioInformation &to, AudioInformation &&from) { SaveValidStateInformation(to.state, std::move(from.state)); } void SaveValidVideoInformation( VideoInformation &to, VideoInformation &&from) { Expects(!from.size.isEmpty()); Expects(!from.cover.isNull()); SaveValidStateInformation(to.state, std::move(from.state)); to.size = from.size; to.cover = std::move(from.cover); to.rotation = from.rotation; to.alpha = from.alpha; } void SaveValidStartInformation(Information &to, Information &&from) { if (from.audio.state.duration != kTimeUnknown) { SaveValidAudioInformation(to.audio, std::move(from.audio)); } if (from.video.state.duration != kTimeUnknown) { SaveValidVideoInformation(to.video, std::move(from.video)); } if (from.headerSize && !to.headerSize) { to.headerSize = from.headerSize; } } } // namespace Player::Player(std::shared_ptr reader) : _file(std::make_unique(std::move(reader))) , _remoteLoader(_file->isRemoteLoader()) , _renderFrameTimer([=] { checkNextFrameRender(); }) { } not_null Player::delegate() { return static_cast(this); } void Player::checkNextFrameRender() { Expects(_nextFrameTime != kTimeUnknown); const auto now = crl::now(); if (now < _nextFrameTime) { if (!_renderFrameTimer.isActive()) { _renderFrameTimer.callOnce(_nextFrameTime - now); } } else { _renderFrameTimer.cancel(); renderFrame(now); } } void Player::checkNextFrameAvailability() { Expects(_video != nullptr); _nextFrameTime = _video->nextFrameDisplayTime(); Assert(_nextFrameTime != kFrameDisplayTimeAlreadyDone); if (_nextFrameTime != kTimeUnknown) { checkNextFrameRender(); } } void Player::renderFrame(crl::time now) { Expects(_video != nullptr); Expects(_nextFrameTime != kTimeUnknown); Expects(_nextFrameTime != kFrameDisplayTimeAlreadyDone); const auto position = _video->markFrameDisplayed(now); if (_options.waitForMarkAsShown) { _currentFrameTime = _nextFrameTime; _nextFrameTime = kFrameDisplayTimeAlreadyDone; } else { _video->markFrameShown(); _nextFrameTime = kTimeUnknown; } Assert(position != kTimeUnknown); videoPlayedTill(position); } bool Player::markFrameShown() { Expects(_video != nullptr); if (_nextFrameTime == kFrameDisplayTimeAlreadyDone) { _nextFrameTime = kTimeUnknown; _video->addTimelineDelay(crl::now() - _currentFrameTime); } return _video->markFrameShown(); } void Player::setLoaderPriority(int priority) { _file->setLoaderPriority(priority); } template void Player::trackReceivedTill( const Track &track, TrackState &state, crl::time position) { if (position == kTimeUnknown) { return; } else if (state.duration != kTimeUnknown) { if (state.receivedTill < position) { state.receivedTill = position; trackSendReceivedTill(track, state); } } else { state.receivedTill = position; } if (!_pauseReading && bothReceivedEnough(loadInAdvanceFor()) && !receivedTillEnd()) { _pauseReading = true; } } template void Player::trackPlayedTill( const Track &track, TrackState &state, crl::time position) { const auto guard = base::make_weak(&_sessionGuard); trackReceivedTill(track, state, position); if (guard && position != kTimeUnknown) { state.position = position; const auto value = _options.loop ? (position % computeTotalDuration()) : position; _updates.fire({ PlaybackUpdate{ value } }); } if (_pauseReading && (!bothReceivedEnough(loadInAdvanceFor()) || receivedTillEnd())) { _pauseReading = false; _file->wake(); } } template void Player::trackSendReceivedTill( const Track &track, TrackState &state) { Expects(state.duration != kTimeUnknown); Expects(state.receivedTill != kTimeUnknown); if (!_remoteLoader || _fullInCacheSinceStart.value_or(false)) { return; } const auto receivedTill = std::max( state.receivedTill, _previousReceivedTill); const auto value = _options.loop ? (receivedTill % computeTotalDuration()) : receivedTill; _updates.fire({ PreloadedUpdate{ value } }); } void Player::audioReceivedTill(crl::time position) { Expects(_audio != nullptr); trackReceivedTill(*_audio, _information.audio.state, position); checkResumeFromWaitingForData(); } void Player::audioPlayedTill(crl::time position) { Expects(_audio != nullptr); trackPlayedTill(*_audio, _information.audio.state, position); } void Player::videoReceivedTill(crl::time position) { Expects(_video != nullptr); trackReceivedTill(*_video, _information.video.state, position); checkResumeFromWaitingForData(); } void Player::videoPlayedTill(crl::time position) { Expects(_video != nullptr); trackPlayedTill(*_video, _information.video.state, position); } Mode Player::fileOpenMode() { return _options.mode; } bool Player::fileReady(int headerSize, Stream &&video, Stream &&audio) { _waitingForData = false; const auto weak = base::make_weak(&_sessionGuard); const auto ready = [=](const Information &data) { crl::on_main(weak, [=, data = data]() mutable { data.headerSize = headerSize; streamReady(std::move(data)); }); }; const auto error = [=](Error error) { crl::on_main(weak, [=] { streamFailed(error); }); }; const auto mode = _options.mode; if ((mode != Mode::Audio && mode != Mode::Both) || audio.duration == kDurationUnavailable) { audio = Stream(); } if (mode != Mode::Video && mode != Mode::Both) { video = Stream(); } if (audio.duration == kDurationUnavailable) { LOG(("Streaming Error: Audio stream with unknown duration.")); return false; } else if (audio.codec) { if (_options.audioId.audio() != nullptr) { _audioId = AudioMsgId( _options.audioId.audio(), _options.audioId.contextId(), AudioMsgId::CreateExternalPlayId()); } else { _audioId = AudioMsgId::ForVideo(); } _audio = std::make_unique( _options, std::move(audio), _audioId, ready, error); } else if (audio.index >= 0) { LOG(("Streaming Error: No codec for audio stream %1, mode %2." ).arg(audio.index ).arg(int(mode))); return false; } else { _audioId = AudioMsgId(); } if (video.codec) { _video = std::make_unique( _options, std::move(video), _audioId, ready, error); } else if (video.index >= 0) { LOG(("Streaming Error: No codec for video stream %1, mode %2." ).arg(video.index ).arg(int(mode))); return false; } if ((mode == Mode::Audio && !_audio) || (mode == Mode::Video && !_video) || (!_audio && !_video)) { LOG(("Streaming Error: Required stream not found for mode %1." ).arg(int(mode))); return false; } else if (_audio && _video && _video->streamDuration() == kDurationUnavailable) { LOG(("Streaming Error: Both streams with unknown video duration.")); return false; } _totalDuration = std::max( _audio ? _audio->streamDuration() : kTimeUnknown, _video ? _video->streamDuration() : kTimeUnknown); Ensures(_totalDuration > 1); return true; } void Player::fileError(Error error) { _waitingForData = false; crl::on_main(&_sessionGuard, [=] { fail(error); }); } void Player::fileFullInCache(bool fullInCache) { crl::on_main(&_sessionGuard, [=] { if (!_fullInCacheSinceStart.has_value()) { _fullInCacheSinceStart = fullInCache; } _fullInCache.fire_copy(fullInCache); }); } void Player::fileWaitingForData() { if (_waitingForData) { return; } _waitingForData = true; if (_audio) { _audio->waitForData(); } if (_video) { _video->waitForData(); } } bool Player::fileProcessPackets( base::flat_map> &packets) { _waitingForData = false; for (auto &[index, list] : packets) { if (list.empty()) { continue; } if (_audio && _audio->streamIndex() == index) { //for (const auto &packet : list) { // // Maybe it is enough to count by list.back()?.. hope so. // accumulate_max( // _durationByLastAudioPacket, // durationByPacket(*_audio, packet)); //} accumulate_max( _durationByLastAudioPacket, durationByPacket(*_audio, list.back())); const auto till = _loopingShift + std::clamp( FFmpeg::PacketPosition( list.back(), _audio->streamTimeBase()), crl::time(0), computeAudioDuration() - 1); crl::on_main(&_sessionGuard, [=] { audioReceivedTill(till); }); _audio->process(base::take(list)); } else if (_video && _video->streamIndex() == index) { //for (const auto &packet : list) { // // Maybe it is enough to count by list.back()?.. hope so. // accumulate_max( // _durationByLastVideoPacket, // durationByPacket(*_video, packet)); //} accumulate_max( _durationByLastVideoPacket, durationByPacket(*_video, list.back())); const auto till = _loopingShift + std::clamp( FFmpeg::PacketPosition( list.back(), _video->streamTimeBase()), crl::time(0), computeVideoDuration() - 1); crl::on_main(&_sessionGuard, [=] { videoReceivedTill(till); }); _video->process(base::take(list)); } else { list.clear(); // Free non-needed packets. } } return fileReadMore(); } void Player::fileProcessEndOfFile() { _waitingForData = false; _readTillEnd = true; setDurationByPackets(); const auto generateEmptyQueue = [] { auto result = std::vector(); result.emplace_back(); return result; }; if (_audio) { const auto till = _loopingShift + computeAudioDuration(); crl::on_main(&_sessionGuard, [=] { audioReceivedTill(till); }); _audio->process(generateEmptyQueue()); } if (_video) { const auto till = _loopingShift + computeVideoDuration(); crl::on_main(&_sessionGuard, [=] { videoReceivedTill(till); }); _video->process(generateEmptyQueue()); } } bool Player::fileReadMore() { if (_options.loop && _readTillEnd) { const auto duration = computeTotalDuration(); if (duration == kDurationUnavailable) { LOG(("Streaming Error: " "Couldn't find out the real stream duration.")); fileError(Error::InvalidData); return false; } _loopingShift += duration; _readTillEnd = false; return true; } return !_readTillEnd && !_pauseReading; } void Player::streamReady(Information &&information) { SaveValidStartInformation(_information, std::move(information)); provideStartInformation(); } void Player::streamFailed(Error error) { fail(error); } template int Player::durationByPacket( const Track &track, const FFmpeg::Packet &packet) { // We've set this value on the first cycle. if (_loopingShift || _totalDuration != kDurationUnavailable) { return 0; } const auto result = DurationByPacket(packet, track.streamTimeBase()); if (result < 0) { fileError(Error::InvalidData); return 0; } Ensures(result > 0); return result; } void Player::setDurationByPackets() { if (_loopingShift || _totalDuration != kDurationUnavailable) { return; } const auto duration = std::max( _durationByLastAudioPacket, _durationByLastVideoPacket); if (duration > 1) { _durationByPackets = duration; } else { LOG(("Streaming Error: Bad total duration by packets: %1" ).arg(duration)); fileError(Error::InvalidData); } } void Player::provideStartInformation() { Expects(_stage == Stage::Initializing); if ((_audio && _information.audio.state.duration == kTimeUnknown) || (_video && _information.video.state.duration == kTimeUnknown)) { return; // Not ready yet. } else if ((!_audio && !_video) || (!_audio && _options.mode == Mode::Audio) || (!_video && _options.mode == Mode::Video)) { fail(Error::OpenFailed); } else { _stage = Stage::Ready; if (_audio && _audioFinished) { // Audio was stopped before it was ready. _audio->stop(); } // Don't keep the reference to the video cover. auto copy = _information; _information.video.cover = QImage(); _updates.fire(Update{ std::move(copy) }); if (_stage == Stage::Ready && !_paused) { _paused = true; updatePausedState(); } } } void Player::fail(Error error) { _sessionLifetime = rpl::lifetime(); const auto stopGuarded = crl::guard(&_sessionGuard, [=] { stop(); }); _lastFailure = error; _updates.fire_error(std::move(error)); stopGuarded(); } void Player::play(const PlaybackOptions &options) { Expects(options.speed >= kSpeedMin && options.speed <= kSpeedMax); // Looping video with audio is not supported for now. Expects(!options.loop || (options.mode != Mode::Both)); const auto previous = getCurrentReceivedTill(computeTotalDuration()); stop(true); _lastFailure = std::nullopt; savePreviousReceivedTill(options, previous); _options = options; if (!Media::Audio::SupportsSpeedControl()) { _options.speed = 1.; } _stage = Stage::Initializing; _file->start(delegate(), _options.position, _options.hwAllowed); } void Player::savePreviousReceivedTill( const PlaybackOptions &options, crl::time previousReceivedTill) { // Save previous 'receivedTill' values if we seek inside the range. _previousReceivedTill = ((options.position >= _options.position) && (options.mode == _options.mode) && (options.position < previousReceivedTill)) ? previousReceivedTill : kTimeUnknown; } crl::time Player::loadInAdvanceFor() const { return _remoteLoader ? kLoadInAdvanceForRemote : kLoadInAdvanceForLocal; } crl::time Player::computeTotalDuration() const { if (_totalDuration != kDurationUnavailable) { return _totalDuration; } else if (const auto byPackets = _durationByPackets.load()) { return byPackets; } return kDurationUnavailable; } crl::time Player::computeAudioDuration() const { Expects(_audio != nullptr); const auto result = _audio->streamDuration(); if (result != kDurationUnavailable) { return result; } else if ((_loopingShift || _readTillEnd) && _durationByLastAudioPacket) { // We looped, so it already holds full stream duration. return _durationByLastAudioPacket; } return kDurationUnavailable; } crl::time Player::computeVideoDuration() const { Expects(_video != nullptr); const auto result = _video->streamDuration(); if (result != kDurationUnavailable) { return result; } else if ((_loopingShift || _readTillEnd) && _durationByLastVideoPacket) { // We looped, so it already holds full stream duration. return _durationByLastVideoPacket; } return kDurationUnavailable; } void Player::pause() { Expects(active()); _pausedByUser = true; updatePausedState(); } void Player::resume() { Expects(active()); _pausedByUser = false; updatePausedState(); } void Player::stop() { stop(false); } void Player::stopAudio() { if (!_video) { stop(); } else if (_audio) { _audioFinished = true; if (_information.audio.state.duration != kTimeUnknown) { // Audio is ready. _audio->stop(); } } } void Player::updatePausedState() { const auto paused = _pausedByUser || _pausedByWaitingForData; if (_paused == paused) { return; } _paused = paused; if (!_paused && _stage == Stage::Ready) { const auto guard = base::make_weak(&_sessionGuard); start(); if (!guard) { return; } } if (_stage != Stage::Started) { return; } if (_paused) { _pausedTime = crl::now(); //if (_pausedByWaitingForData // && _pausedTime - _startedTime > kLoadFullIfStuckAfterPlayback) { // _loadFull = true; //} if (_audio) { _audio->pause(_pausedTime); } if (_video) { _video->pause(_pausedTime); } } else { _startedTime = crl::now(); if (_audio) { _audio->resume(_startedTime); } if (_video) { _video->resume(_startedTime); } } } bool Player::trackReceivedEnough( const TrackState &state, crl::time amount) const { return (!_options.loop && FullTrackReceived(state)) || (state.position != kTimeUnknown && (state.position + std::min(amount, state.duration) <= state.receivedTill)); } bool Player::bothReceivedEnough(crl::time amount) const { const auto &info = _information; return (!_audio || trackReceivedEnough(info.audio.state, amount)) && (!_video || trackReceivedEnough(info.video.state, amount)); } bool Player::receivedTillEnd() const { if (_options.loop) { return false; } return (!_video || FullTrackReceived(_information.video.state)) && (!_audio || FullTrackReceived(_information.audio.state)); } void Player::checkResumeFromWaitingForData() { if (_pausedByWaitingForData && bothReceivedEnough(kBufferFor)) { _pausedByWaitingForData = false; updatePausedState(); _updates.fire({ WaitingForData{ false } }); } } void Player::start() { Expects(_stage == Stage::Ready); _stage = Stage::Started; const auto guard = base::make_weak(&_sessionGuard); rpl::merge( _audio ? _audio->waitingForData() : nullptr, _video ? _video->waitingForData() : nullptr ) | rpl::filter([=] { return !bothReceivedEnough(kBufferFor); }) | rpl::start_with_next([=] { _pausedByWaitingForData = true; updatePausedState(); _updates.fire({ WaitingForData{ true } }); }, _sessionLifetime); if (guard && _audio && !_audioFinished) { _audio->playPosition( ) | rpl::start_with_next_done([=](crl::time position) { audioPlayedTill(position); }, [=] { Expects(_stage == Stage::Started); _audioFinished = true; if (!_video || _videoFinished) { _updates.fire({ Finished() }); } }, _sessionLifetime); } if (guard && _video) { _video->checkNextFrame( ) | rpl::start_with_next_done([=] { checkVideoStep(); }, [=] { Assert(_stage == Stage::Started); _videoFinished = true; if (!_audio || _audioFinished) { _updates.fire({ Finished() }); } }, _sessionLifetime); crl::on_main_update_requests( ) | rpl::filter([=] { return !_videoFinished; }) | rpl::start_with_next([=] { checkVideoStep(); }, _sessionLifetime); } if (guard && _audio) { if (_audioFinished) { if (!_video || _videoFinished) { _updates.fire({ Finished() }); } } else { trackSendReceivedTill(*_audio, _information.audio.state); } } if (guard && _video) { trackSendReceivedTill(*_video, _information.video.state); } } void Player::checkVideoStep() { if (_nextFrameTime == kFrameDisplayTimeAlreadyDone) { return; } else if (_nextFrameTime != kTimeUnknown) { checkNextFrameRender(); } else { checkNextFrameAvailability(); } } void Player::stop(bool stillActive) { _file->stop(stillActive); _sessionLifetime = rpl::lifetime(); _stage = Stage::Uninitialized; _audio = nullptr; _video = nullptr; invalidate_weak_ptrs(&_sessionGuard); _pausedByUser = _pausedByWaitingForData = _paused = false; _renderFrameTimer.cancel(); _nextFrameTime = kTimeUnknown; _audioFinished = false; _videoFinished = false; _pauseReading = false; _readTillEnd = false; _loopingShift = 0; _durationByPackets = 0; _durationByLastAudioPacket = 0; _durationByLastVideoPacket = 0; const auto header = _information.headerSize; _information = Information(); _information.headerSize = header; } std::optional Player::failed() const { return _lastFailure; } bool Player::playing() const { return (_stage == Stage::Started) && !paused() && !finished() && !failed(); } bool Player::buffering() const { return _pausedByWaitingForData; } bool Player::paused() const { return _pausedByUser && active(); } bool Player::finished() const { return (_stage == Stage::Started) && (!_audio || _audioFinished) && (!_video || _videoFinished); } float64 Player::speed() const { return _options.speed; } void Player::setSpeed(float64 speed) { Expects(speed >= kSpeedMin && speed <= kSpeedMax); if (!Media::Audio::SupportsSpeedControl()) { speed = 1.; } if (!EqualSpeeds(_options.speed, speed)) { _options.speed = speed; if (active()) { if (_audio) { _audio->setSpeed(speed); } if (_video) { _video->setSpeed(speed); } } } } void Player::setWaitForMarkAsShown(bool wait) { if (_options.waitForMarkAsShown != wait) { _options.waitForMarkAsShown = wait; if (_video) { _video->setWaitForMarkAsShown(wait); } } } bool Player::active() const { return (_stage != Stage::Uninitialized) && !finished() && !failed(); } bool Player::ready() const { return (_stage != Stage::Uninitialized) && (_stage != Stage::Initializing); } rpl::producer Player::updates() const { return _updates.events(); } rpl::producer Player::fullInCache() const { return _fullInCache.events(); } QSize Player::videoSize() const { return _information.video.size; } QImage Player::frame( const FrameRequest &request, const Instance *instance) const { Expects(_video != nullptr); return _video->frame(request, instance); } FrameWithInfo Player::frameWithInfo( const FrameRequest &request, const Instance *instance) const { Expects(_video != nullptr); return _video->frameWithInfo(request, instance); } FrameWithInfo Player::frameWithInfo(const Instance *instance) const { Expects(_video != nullptr); return _video->frameWithInfo(instance); } QImage Player::currentFrameImage() const { Expects(_video != nullptr); return _video->currentFrameImage(); } void Player::unregisterInstance(not_null instance) { if (_video) { _video->unregisterInstance(instance); } } Media::Player::TrackState Player::prepareLegacyState() const { using namespace Media::Player; auto result = Media::Player::TrackState(); result.id = _audioId.externalPlayId() ? _audioId : _options.audioId; result.state = (_lastFailure == Error::OpenFailed || _lastFailure == Error::NotStreamable) ? State::StoppedAtStart : _lastFailure ? State::StoppedAtError : finished() ? State::StoppedAtEnd : (_stage == Stage::Uninitialized) ? State::Stopped : paused() ? State::Paused : State::Playing; result.position = std::max( _information.audio.state.position, _information.video.state.position); result.length = computeTotalDuration(); if (result.position == kTimeUnknown) { result.position = _options.position; } else if (_options.loop && result.length > 0) { result.position %= result.length; } result.receivedTill = (_remoteLoader && !_fullInCacheSinceStart.value_or(false)) ? getCurrentReceivedTill(result.length) : 0; result.frequency = kMsFrequency; result.fileHeaderSize = _information.headerSize; if (result.length == kTimeUnknown) { const auto document = _options.audioId.audio(); const auto duration = document ? document->getDuration() : 0; if (duration > 0) { result.length = duration * crl::time(1000); } else { result.length = std::max(crl::time(result.position), crl::time(0)); } } return result; } crl::time Player::getCurrentReceivedTill(crl::time duration) const { const auto forTrack = [&](const TrackState &state) { return (state.duration > 0 && state.receivedTill == state.duration) ? std::max(state.receivedTill, duration) : state.receivedTill; }; const auto previous = std::max(_previousReceivedTill, crl::time(0)); const auto result = std::min( std::max(forTrack(_information.audio.state), previous), std::max(forTrack(_information.video.state), previous)); return (result >= 0 && duration > 1 && _options.loop) ? (result % duration) : result; } void Player::lock() { ++_locks; } void Player::unlock() { Expects(_locks > 0); --_locks; if (!_locks) { stopAudio(); if (active()) { setSpeed(1.); } setWaitForMarkAsShown(true); } } bool Player::locked() const { return (_locks > 0); } rpl::lifetime &Player::lifetime() { return _lifetime; } Player::~Player() { // The order of field destruction is important. // // We are forced to maintain the correct order in the stop() method, // because it can be called even before the player destruction. // // So instead of maintaining it in the class definition as well we // simply call stop() here, after that the destruction is trivial. stop(); } } // namespace Streaming } // namespace Media