import 'package:audio_service/audio_service.dart'; import 'package:audio_session/audio_session.dart'; import 'package:fluttertoast/fluttertoast.dart'; import 'package:freezer/api/cache.dart'; import 'package:freezer/api/deezer.dart'; import 'package:freezer/ui/android_auto.dart'; import 'package:just_audio/just_audio.dart'; import 'package:connectivity/connectivity.dart'; import 'package:path/path.dart' as p; import 'package:path_provider/path_provider.dart'; import 'package:freezer/translations.i18n.dart'; import 'package:scrobblenaut/scrobblenaut.dart'; import 'definitions.dart'; import '../settings.dart'; import 'dart:io'; import 'dart:async'; import 'dart:convert'; PlayerHelper playerHelper = PlayerHelper(); class PlayerHelper { StreamSubscription _customEventSubscription; StreamSubscription _mediaItemSubscription; StreamSubscription _playbackStateStreamSubscription; QueueSource queueSource; LoopMode repeatType = LoopMode.off; Timer _timer; Scrobblenaut scrobblenaut; //Find queue index by id int get queueIndex => AudioService.queue == null ? 0 : AudioService.queue.indexWhere((mi) => mi.id == AudioService.currentMediaItem?.id??'Random string so it returns -1'); Future start() async { //Subscribe to custom events _customEventSubscription = AudioService.customEventStream.listen((event) async { if (!(event is Map)) return; if (event['action'] == 'onLoad') { //After audio_service is loaded, load queue, set quality await settings.updateAudioServiceQuality(); await AudioService.customAction('load'); return; } if (event['action'] == 'onRestore') { //Load queueSource from isolate this.queueSource = QueueSource.fromJson(event['queueSource']); } if (event['action'] == 'queueEnd') { //If last song is played, load more queue this.queueSource = QueueSource.fromJson(event['queueSource']); onQueueEnd(); return; } //Android auto get screen if (event['action'] == 'screenAndroidAuto') { AndroidAuto androidAuto = AndroidAuto(); List data = await androidAuto.getScreen(event['id']); await AudioService.customAction('screenAndroidAuto', jsonEncode(data)); } //Android auto play list if (event['action'] == 'tracksAndroidAuto') { AndroidAuto androidAuto = AndroidAuto(); await androidAuto.playItem(event['id']); } }); _mediaItemSubscription = AudioService.currentMediaItemStream.listen((event) { if (event == null) return; //Save queue AudioService.customAction('saveQueue'); //Add to history if (cache.history == null) cache.history = []; if (cache.history.length > 0 && cache.history.last.id == event.id) return; cache.history.add(Track.fromMediaItem(event)); cache.save(); }); //Logging listen timer _timer = Timer.periodic(Duration(seconds: 2), (timer) async { if (AudioService.currentMediaItem == null || !AudioService.playbackState.playing) return; if (AudioService.playbackState.currentPosition.inSeconds > (AudioService.currentMediaItem.duration.inSeconds * 0.75)) { if (cache.loggedTrackId == AudioService.currentMediaItem.id) return; cache.loggedTrackId = AudioService.currentMediaItem.id; await cache.save(); //Log to Deezer if (settings.logListen) { deezerAPI.logListen(AudioService.currentMediaItem.id); } //LastFM if (scrobblenaut != null) { await scrobblenaut.track.scrobble( track: AudioService.currentMediaItem.title, artist: AudioService.currentMediaItem.artist, album: AudioService.currentMediaItem.album, ); } } }); //Start audio_service await startService(); } Future startService() async { if (AudioService.running && AudioService.connected) return; if (!AudioService.connected) await AudioService.connect(); if (!AudioService.running) await AudioService.start( backgroundTaskEntrypoint: backgroundTaskEntrypoint, androidEnableQueue: true, androidStopForegroundOnPause: false, androidNotificationOngoing: false, androidNotificationClickStartsActivity: true, androidNotificationChannelDescription: 'Freezer', androidNotificationChannelName: 'Freezer', androidNotificationIcon: 'drawable/ic_logo', params: {'ignoreInterruptions': settings.ignoreInterruptions} ); } Future authorizeLastFM() async { if (settings.lastFMUsername == null || settings.lastFMPassword == null) return; try { LastFM lastFM = await LastFM.authenticateWithPasswordHash( apiKey: 'b6ab5ae967bcd8b10b23f68f42493829', apiSecret: '861b0dff9a8a574bec747f9dab8b82bf', username: settings.lastFMUsername, passwordHash: settings.lastFMPassword ); scrobblenaut = Scrobblenaut(lastFM: lastFM); } catch (e) {} } Future toggleShuffle() async { await AudioService.customAction('shuffle'); } //Repeat toggle Future changeRepeat() async { //Change to next repeat type switch (repeatType) { case LoopMode.one: repeatType = LoopMode.off; break; case LoopMode.all: repeatType = LoopMode.one; break; default: repeatType = LoopMode.all; break; } //Set repeat type await AudioService.customAction("repeatType", LoopMode.values.indexOf(repeatType)); } //Executed before exit Future onExit() async { _customEventSubscription.cancel(); _playbackStateStreamSubscription.cancel(); _mediaItemSubscription.cancel(); } //Replace queue, play specified track id Future _loadQueuePlay(List queue, String trackId) async { await startService(); await settings.updateAudioServiceQuality(); await AudioService.updateQueue(queue); if (queue[0].id != trackId) await AudioService.skipToQueueItem(trackId); if (!AudioService.playbackState.playing) AudioService.play(); } //Called when queue ends to load more tracks Future onQueueEnd() async { //Flow if (queueSource == null) return; List tracks = []; switch(queueSource.source) { case 'flow': tracks = await deezerAPI.flow(); break; case 'smartradio': //SmartRadio/Artist radio tracks = await deezerAPI.smartRadio(queueSource.id); break; case 'libraryshuffle': //Library shuffle tracks = await deezerAPI.libraryShuffle(start: AudioService.queue.length); break; case 'mix': tracks = await deezerAPI.playMix(queueSource.id); // Deduplicate tracks with the same id List queueIds = AudioService.queue.map((e) => e.id).toList(); tracks.removeWhere((track) => queueIds.contains(track.id)); break; default: print(queueSource.toJson()); } List mi = tracks.map((t) => t.toMediaItem()).toList(); await AudioService.addQueueItems(mi); AudioService.skipToNext(); } //Play track from album Future playFromAlbum(Album album, String trackId) async { await playFromTrackList(album.tracks, trackId, QueueSource( id: album.id, text: album.title, source: 'album' )); } //Play mix by track Future playMix(String trackId, String trackTitle) async { List tracks = await deezerAPI.playMix(trackId); playFromTrackList(tracks, tracks[0].id, QueueSource( id: trackId, text: 'Mix based on'.i18n + ' $trackTitle', source: 'mix' )); } //Play from artist top tracks Future playFromTopTracks(List tracks, String trackId, Artist artist) async { await playFromTrackList(tracks, trackId, QueueSource( id: artist.id, text: 'Top ${artist.name}', source: 'topTracks' )); } Future playFromPlaylist(Playlist playlist, String trackId) async { await playFromTrackList(playlist.tracks, trackId, QueueSource( id: playlist.id, text: playlist.title, source: 'playlist' )); } //Load tracks as queue, play track id, set queue source Future playFromTrackList(List tracks, String trackId, QueueSource queueSource) async { await startService(); List queue = tracks.map((track) => track.toMediaItem()).toList(); await setQueueSource(queueSource); await _loadQueuePlay(queue, trackId); } //Load smart track list as queue, start from beginning Future playFromSmartTrackList(SmartTrackList stl) async { //Load from API if no tracks if (stl.tracks == null || stl.tracks.length == 0) { if (settings.offlineMode) { Fluttertoast.showToast( msg: "Offline mode, can't play flow or smart track lists.".i18n, gravity: ToastGravity.BOTTOM, toastLength: Toast.LENGTH_SHORT ); return; } //Flow songs cannot be accessed by smart track list call if (stl.id == 'flow') { stl.tracks = await deezerAPI.flow(); } else { stl = await deezerAPI.smartTrackList(stl.id); } } QueueSource queueSource = QueueSource( id: stl.id, source: (stl.id == 'flow')?'flow':'smarttracklist', text: stl.title??((stl.id == 'flow') ? 'Flow'.i18n : 'Smart track list'.i18n) ); await playFromTrackList(stl.tracks, stl.tracks[0].id, queueSource); } Future setQueueSource(QueueSource queueSource) async { await startService(); this.queueSource = queueSource; await AudioService.customAction('queueSource', queueSource.toJson()); } //Reorder tracks in queue Future reorder(int oldIndex, int newIndex) async { await AudioService.customAction('reorder', [oldIndex, newIndex]); } } void backgroundTaskEntrypoint() async { AudioServiceBackground.run(() => AudioPlayerTask()); } class AudioPlayerTask extends BackgroundAudioTask { AudioPlayer _player; //Queue List _queue = []; int _queueIndex = 0; ConcatenatingAudioSource _audioSource; AudioProcessingState _skipState; Seeker _seeker; //Stream subscriptions StreamSubscription _eventSub; //Loaded from file/frontend int mobileQuality; int wifiQuality; QueueSource queueSource; Duration _lastPosition; Completer _androidAutoCallback; MediaItem get mediaItem => _queue[_queueIndex]; @override Future onStart(Map params) async { final session = await AudioSession.instance; session.configure(AudioSessionConfiguration.music()); if (params['ignoreInterruptions'] == true) { _player = AudioPlayer(handleInterruptions: false); session.interruptionEventStream.listen((_) {}); session.becomingNoisyEventStream.listen((_) {}); } else _player = AudioPlayer(); //Update track index _player.currentIndexStream.listen((index) { if (index != null) { _queueIndex = index; AudioServiceBackground.setMediaItem(mediaItem); } }); //Update state on all clients on change _eventSub = _player.playbackEventStream.listen((event) { //Quality string if (_queueIndex != -1 && _queueIndex < _queue.length) { Map extras = mediaItem.extras; extras['qualityString'] = event.qualityString??''; _queue[_queueIndex] = mediaItem.copyWith(extras: extras); } //Update _broadcastState(); }); _player.processingStateStream.listen((state) { switch(state) { case ProcessingState.completed: //Player ended, get more songs if (_queueIndex == _queue.length - 1) AudioServiceBackground.sendCustomEvent({ 'action': 'queueEnd', 'queueSource': (queueSource??QueueSource()).toJson() }); break; case ProcessingState.ready: //Ready to play _skipState = null; break; default: break; } }); //Load queue AudioServiceBackground.setQueue(_queue); AudioServiceBackground.sendCustomEvent({'action': 'onLoad'}); } @override Future onSkipToQueueItem(String mediaId) async { _lastPosition = null; //Calculate new index final newIndex = _queue.indexWhere((i) => i.id == mediaId); if (newIndex == -1) return; //Update buffering state _skipState = newIndex > _queueIndex ? AudioProcessingState.skippingToNext : AudioProcessingState.skippingToPrevious; //Skip in player await _player.seek(Duration.zero, index: newIndex); _queueIndex = newIndex; _skipState = null; onPlay(); } @override Future onPlay() { _player.play(); //Restore position on play if (_lastPosition != null) { onSeekTo(_lastPosition); _lastPosition = null; } } @override Future onPause() => _player.pause(); @override Future onSeekTo(Duration pos) => _player.seek(pos); @override Future onFastForward() => _seekRelative(fastForwardInterval); @override Future onRewind() => _seekRelative(-rewindInterval); @override Future onSeekForward(bool begin) async => _seekContinuously(begin, 1); @override Future onSeekBackward(bool begin) async => _seekContinuously(begin, -1); @override Future onSkipToNext() async { if (_queueIndex == _queue.length-1) return; //Update buffering state _skipState = AudioProcessingState.skippingToNext; _queueIndex++; await _player.seekToNext(); _skipState = null; await _broadcastState(); } @override Future onSkipToPrevious() async { if (_queueIndex == 0) return; //Update buffering state _skipState = AudioProcessingState.skippingToPrevious; //Normal skip to previous _queueIndex--; await _player.seekToPrevious(); _skipState = null; } @override Future> onLoadChildren(String parentMediaId) async { AudioServiceBackground.sendCustomEvent({ 'action': 'screenAndroidAuto', 'id': parentMediaId }); //Wait for data from main thread _androidAutoCallback = Completer(); List data = (await _androidAutoCallback.future) as List; _androidAutoCallback = null; return data; } //While seeking, jump 10s every 1s void _seekContinuously(bool begin, int direction) { _seeker?.stop(); if (begin) { _seeker = Seeker(_player, Duration(seconds: 10 * direction), Duration(seconds: 1), mediaItem)..start(); } } //Relative seek Future _seekRelative(Duration offset) async { Duration newPos = _player.position + offset; //Out of bounds check if (newPos < Duration.zero) newPos = Duration.zero; if (newPos > mediaItem.duration) newPos = mediaItem.duration; await _player.seek(newPos); } //Update state on all clients Future _broadcastState() async { await AudioServiceBackground.setState( controls: [ MediaControl.skipToPrevious, if (_player.playing) MediaControl.pause else MediaControl.play, MediaControl.skipToNext, //Stop MediaControl( androidIcon: 'drawable/ic_action_stop', label: 'stop', action: MediaAction.stop ), ], systemActions: [ MediaAction.seekTo, MediaAction.seekForward, MediaAction.seekBackward, MediaAction.stop ], processingState: _getProcessingState(), playing: _player.playing, position: _player.position, bufferedPosition: _player.bufferedPosition, speed: _player.speed ); } //just_audio state -> audio_service state. If skipping, use _skipState AudioProcessingState _getProcessingState() { if (_skipState != null) return _skipState; //SRC: audio_service example switch (_player.processingState) { case ProcessingState.none: return AudioProcessingState.stopped; case ProcessingState.loading: return AudioProcessingState.connecting; case ProcessingState.buffering: return AudioProcessingState.buffering; case ProcessingState.ready: return AudioProcessingState.ready; case ProcessingState.completed: return AudioProcessingState.completed; default: throw Exception("Invalid state: ${_player.processingState}"); } } //Replace current queue @override Future onUpdateQueue(List q) async { //just_audio _player.stop(); if (_audioSource != null) _audioSource.clear(); //audio_service this._queue = q; AudioServiceBackground.setQueue(_queue); //Load _queueIndex = 0; await _loadQueue(); //await _player.seek(Duration.zero, index: 0); } //Load queue to just_audio Future _loadQueue() async { //Don't reset queue index by starting player int qi = _queueIndex; List sources = []; for(int i=0; i<_queue.length; i++) { AudioSource s = await _mediaItemToAudioSource(_queue[i]); if (s != null) sources.add(s); } _audioSource = ConcatenatingAudioSource(children: sources); //Load in just_audio try { await _player.load(_audioSource); await _player.seek(Duration.zero, index: qi); } catch (e) { //Error loading tracks } _queueIndex = qi; AudioServiceBackground.setMediaItem(mediaItem); } Future _mediaItemToAudioSource(MediaItem mi) async { String url = await _getTrackUrl(mi); if (url == null) return null; if (url.startsWith('http')) return ProgressiveAudioSource(Uri.parse(url)); return AudioSource.uri(Uri.parse(url)); } Future _getTrackUrl(MediaItem mediaItem, {int quality}) async { //Check if offline String _offlinePath = p.join((await getExternalStorageDirectory()).path, 'offline/'); File f = File(p.join(_offlinePath, mediaItem.id)); if (await f.exists()) { return f.path; } //Due to current limitations of just_audio, quality fallback moved to DeezerDataSource in ExoPlayer //This just returns fake url that contains metadata List playbackDetails = jsonDecode(mediaItem.extras['playbackDetails']); //Quality ConnectivityResult conn = await Connectivity().checkConnectivity(); quality = mobileQuality; if (conn == ConnectivityResult.wifi) quality = wifiQuality; if ((playbackDetails??[]).length < 2) return null; String url = 'https://dzcdn.net/?md5=${playbackDetails[0]}&mv=${playbackDetails[1]}&q=${quality.toString()}#${mediaItem.id}'; return url; } //Custom actions @override Future onCustomAction(String name, dynamic args) async { if (name == 'updateQuality') { //Pass wifi & mobile quality by custom action //Isolate can't access globals this.wifiQuality = args['wifiQuality']; this.mobileQuality = args['mobileQuality']; } //Change queue source if (name == 'queueSource') { this.queueSource = QueueSource.fromJson(Map.from(args)); } //Looping if (name == 'repeatType') { _player.setLoopMode(LoopMode.values[args]); } if (name == 'saveQueue') await this._saveQueue(); //Load queue after some initialization in frontend if (name == 'load') await this._loadQueueFile(); //Shuffle if (name == 'shuffle') { _queue.shuffle(); AudioServiceBackground.setQueue(_queue); _queueIndex = 0; await _loadQueue(); } //Android auto callback if (name == 'screenAndroidAuto' && _androidAutoCallback != null) { _androidAutoCallback.complete(jsonDecode(args).map((m) => MediaItem.fromJson(m)).toList()); } //Reorder tracks, args = [old, new] if (name == 'reorder') { await _audioSource.move(args[0], args[1]); //Switch in queue List newQueue = List.from(_queue); newQueue.removeAt(args[0]); newQueue.insert(args[1], _queue[args[0]]); _queue = newQueue; //Update UI AudioServiceBackground.setQueue(_queue); _broadcastState(); } return true; } @override Future onTaskRemoved() async { await onStop(); } @override Future onClose() async { print('onClose'); await onStop(); } Future onStop() async { await _saveQueue(); _player.stop(); if (_eventSub != null) _eventSub.cancel(); await super.onStop(); } //Get queue save file path Future _getQueuePath() async { Directory dir = await getApplicationDocumentsDirectory(); return p.join(dir.path, 'playback.json'); } //Export queue to JSON Future _saveQueue() async { if (_queueIndex == 0 && _queue.length == 0) return; String path = await _getQueuePath(); File f = File(path); //Create if doesn't exist if (! await File(path).exists()) { f = await f.create(); } Map data = { 'index': _queueIndex, 'queue': _queue.map>((mi) => mi.toJson()).toList(), 'position': _player.position.inMilliseconds, 'queueSource': (queueSource??QueueSource()).toJson(), }; await f.writeAsString(jsonEncode(data)); } //Restore queue & playback info from path Future _loadQueueFile() async { File f = File(await _getQueuePath()); if (await f.exists()) { Map json = jsonDecode(await f.readAsString()); this._queue = (json['queue']??[]).map((mi) => MediaItem.fromJson(mi)).toList(); this._queueIndex = json['index'] ?? 0; this._lastPosition = Duration(milliseconds: json['position']??0); this.queueSource = QueueSource.fromJson(json['queueSource']??{}); //Restore queue if (_queue != null) { await AudioServiceBackground.setQueue(_queue); await _loadQueue(); await AudioServiceBackground.setMediaItem(mediaItem); } } //Send restored queue source to ui AudioServiceBackground.sendCustomEvent({ 'action': 'onRestore', 'queueSource': (queueSource??QueueSource()).toJson() }); return true; } @override Future onAddQueueItemAt(MediaItem mi, int index) async { //-1 == play next if (index == -1) index = _queueIndex + 1; _queue.insert(index, mi); await AudioServiceBackground.setQueue(_queue); AudioSource _newSource = await _mediaItemToAudioSource(mi); if (_newSource != null) await _audioSource.insert(index,_newSource); _saveQueue(); } //Add at end of queue @override Future onAddQueueItem(MediaItem mi) async { _queue.add(mi); await AudioServiceBackground.setQueue(_queue); AudioSource _newSource = await _mediaItemToAudioSource(mi); if (_newSource != null) await _audioSource.add(_newSource); _saveQueue(); } @override Future onPlayFromMediaId(String mediaId) async { //Android auto load tracks if (mediaId.startsWith(AndroidAuto.prefix)) { AudioServiceBackground.sendCustomEvent({ 'action': 'tracksAndroidAuto', 'id': mediaId.replaceFirst(AndroidAuto.prefix, '') }); return; } //Does the same thing await this.onSkipToQueueItem(mediaId); } } //Seeker from audio_service example (why reinvent the wheel?) //While holding seek button, will continuously seek class Seeker { final AudioPlayer player; final Duration positionInterval; final Duration stepInterval; final MediaItem mediaItem; bool _running = false; Seeker(this.player, this.positionInterval, this.stepInterval, this.mediaItem); Future start() async { _running = true; while (_running) { Duration newPosition = player.position + positionInterval; if (newPosition < Duration.zero) newPosition = Duration.zero; if (newPosition > mediaItem.duration) newPosition = mediaItem.duration; player.seek(newPosition); await Future.delayed(stepInterval); } } void stop() { _running = false; } }