use std::cmp::max; use std::future::Future; use std::io::{self, Read, Seek, SeekFrom}; use std::pin::Pin; use std::task::{Context, Poll}; use std::time::{Duration, Instant}; use std::{mem, thread}; use byteorder::{LittleEndian, ReadBytesExt}; use futures_util::stream::futures_unordered::FuturesUnordered; use futures_util::{future, StreamExt, TryFutureExt}; use tokio::sync::{mpsc, oneshot}; use crate::audio::{AudioDecoder, AudioError, AudioPacket, PassthroughDecoder, VorbisDecoder}; use crate::audio::{AudioDecrypt, AudioFile, StreamLoaderController}; use crate::audio::{ READ_AHEAD_BEFORE_PLAYBACK_ROUNDTRIPS, READ_AHEAD_BEFORE_PLAYBACK_SECONDS, READ_AHEAD_DURING_PLAYBACK_ROUNDTRIPS, READ_AHEAD_DURING_PLAYBACK_SECONDS, }; use crate::audio_backend::Sink; use crate::config::NormalisationType; use crate::config::{Bitrate, PlayerConfig}; use crate::core::session::Session; use crate::core::spotify_id::SpotifyId; use crate::core::util::SeqGenerator; use crate::metadata::{AudioItem, FileFormat}; use crate::mixer::AudioFilter; const PRELOAD_NEXT_TRACK_BEFORE_END_DURATION_MS: u32 = 30000; pub struct Player { commands: Option>, thread_handle: Option>, play_request_id_generator: SeqGenerator, } #[derive(PartialEq, Debug, Clone, Copy)] pub enum SinkStatus { Running, Closed, TemporarilyClosed, } pub type SinkEventCallback = Box; struct PlayerInternal { session: Session, config: PlayerConfig, commands: mpsc::UnboundedReceiver, state: PlayerState, preload: PlayerPreload, sink: Box, sink_status: SinkStatus, sink_event_callback: Option, audio_filter: Option>, event_senders: Vec>, } enum PlayerCommand { Load { track_id: SpotifyId, play_request_id: u64, play: bool, position_ms: u32, }, Preload { track_id: SpotifyId, }, Play, Pause, Stop, Seek(u32), AddEventSender(mpsc::UnboundedSender), SetSinkEventCallback(Option), EmitVolumeSetEvent(u16), } #[derive(Debug, Clone)] pub enum PlayerEvent { // Fired when the player is stopped (e.g. by issuing a "stop" command to the player). Stopped { play_request_id: u64, track_id: SpotifyId, }, // The player started working on playback of a track while it was in a stopped state. // This is always immediately followed up by a "Loading" or "Playing" event. Started { play_request_id: u64, track_id: SpotifyId, position_ms: u32, }, // Same as started but in the case that the player already had a track loaded. // The player was either playing the loaded track or it was paused. Changed { old_track_id: SpotifyId, new_track_id: SpotifyId, }, // The player is delayed by loading a track. Loading { play_request_id: u64, track_id: SpotifyId, position_ms: u32, }, // The player is preloading a track. Preloading { track_id: SpotifyId, }, // The player is playing a track. // This event is issued at the start of playback of whenever the position must be communicated // because it is out of sync. This includes: // start of a track // un-pausing // after a seek // after a buffer-underrun Playing { play_request_id: u64, track_id: SpotifyId, position_ms: u32, duration_ms: u32, }, // The player entered a paused state. Paused { play_request_id: u64, track_id: SpotifyId, position_ms: u32, duration_ms: u32, }, // The player thinks it's a good idea to issue a preload command for the next track now. // This event is intended for use within spirc. TimeToPreloadNextTrack { play_request_id: u64, track_id: SpotifyId, }, // The player reached the end of a track. // This event is intended for use within spirc. Spirc will respond by issuing another command // which will trigger another event (e.g. Changed or Stopped) EndOfTrack { play_request_id: u64, track_id: SpotifyId, }, // The player was unable to load the requested track. Unavailable { play_request_id: u64, track_id: SpotifyId, }, // The mixer volume was set to a new level. VolumeSet { volume: u16, }, } impl PlayerEvent { pub fn get_play_request_id(&self) -> Option { use PlayerEvent::*; match self { Loading { play_request_id, .. } | Unavailable { play_request_id, .. } | Started { play_request_id, .. } | Playing { play_request_id, .. } | TimeToPreloadNextTrack { play_request_id, .. } | EndOfTrack { play_request_id, .. } | Paused { play_request_id, .. } | Stopped { play_request_id, .. } => Some(*play_request_id), Changed { .. } | Preloading { .. } | VolumeSet { .. } => None, } } } pub type PlayerEventChannel = mpsc::UnboundedReceiver; #[derive(Clone, Copy, Debug)] struct NormalisationData { track_gain_db: f32, track_peak: f32, album_gain_db: f32, album_peak: f32, } impl NormalisationData { fn parse_from_file(mut file: T) -> io::Result { const SPOTIFY_NORMALIZATION_HEADER_START_OFFSET: u64 = 144; file.seek(SeekFrom::Start(SPOTIFY_NORMALIZATION_HEADER_START_OFFSET))?; let track_gain_db = file.read_f32::()?; let track_peak = file.read_f32::()?; let album_gain_db = file.read_f32::()?; let album_peak = file.read_f32::()?; let r = NormalisationData { track_gain_db, track_peak, album_gain_db, album_peak, }; Ok(r) } fn get_factor(config: &PlayerConfig, data: NormalisationData) -> f32 { let [gain_db, gain_peak] = match config.normalisation_type { NormalisationType::Album => [data.album_gain_db, data.album_peak], NormalisationType::Track => [data.track_gain_db, data.track_peak], }; let mut normalisation_factor = f32::powf(10.0, (gain_db + config.normalisation_pregain) / 20.0); if normalisation_factor * gain_peak > 1.0 { warn!("Reducing normalisation factor to prevent clipping. Please add negative pregain to avoid."); normalisation_factor = 1.0 / gain_peak; } debug!("Normalisation Data: {:?}", data); debug!("Normalisation Type: {:?}", config.normalisation_type); debug!("Applied normalisation factor: {}", normalisation_factor); normalisation_factor } } impl Player { pub fn new( config: PlayerConfig, session: Session, audio_filter: Option>, sink_builder: F, ) -> (Player, PlayerEventChannel) where F: FnOnce() -> Box + Send + 'static, { let (cmd_tx, cmd_rx) = mpsc::unbounded_channel(); let (event_sender, event_receiver) = mpsc::unbounded_channel(); let handle = thread::spawn(move || { debug!("new Player[{}]", session.session_id()); let internal = PlayerInternal { session, config, commands: cmd_rx, state: PlayerState::Stopped, preload: PlayerPreload::None, sink: sink_builder(), sink_status: SinkStatus::Closed, sink_event_callback: None, audio_filter, event_senders: [event_sender].to_vec(), }; // While PlayerInternal is written as a future, it still contains blocking code. // It must be run by using block_on() in a dedicated thread. futures_executor::block_on(internal); debug!("PlayerInternal thread finished."); }); ( Player { commands: Some(cmd_tx), thread_handle: Some(handle), play_request_id_generator: SeqGenerator::new(0), }, event_receiver, ) } fn command(&self, cmd: PlayerCommand) { self.commands.as_ref().unwrap().send(cmd).unwrap(); } pub fn load(&mut self, track_id: SpotifyId, start_playing: bool, position_ms: u32) -> u64 { let play_request_id = self.play_request_id_generator.get(); self.command(PlayerCommand::Load { track_id, play_request_id, play: start_playing, position_ms, }); play_request_id } pub fn preload(&self, track_id: SpotifyId) { self.command(PlayerCommand::Preload { track_id }); } pub fn play(&self) { self.command(PlayerCommand::Play) } pub fn pause(&self) { self.command(PlayerCommand::Pause) } pub fn stop(&self) { self.command(PlayerCommand::Stop) } pub fn seek(&self, position_ms: u32) { self.command(PlayerCommand::Seek(position_ms)); } pub fn get_player_event_channel(&self) -> PlayerEventChannel { let (event_sender, event_receiver) = mpsc::unbounded_channel(); self.command(PlayerCommand::AddEventSender(event_sender)); event_receiver } pub async fn await_end_of_track(&self) { let mut channel = self.get_player_event_channel(); while let Some(event) = channel.recv().await { if matches!( event, PlayerEvent::EndOfTrack { .. } | PlayerEvent::Stopped { .. } ) { return; } } } pub fn set_sink_event_callback(&self, callback: Option) { self.command(PlayerCommand::SetSinkEventCallback(callback)); } pub fn emit_volume_set_event(&self, volume: u16) { self.command(PlayerCommand::EmitVolumeSetEvent(volume)); } } impl Drop for Player { fn drop(&mut self) { debug!("Shutting down player thread ..."); self.commands = None; if let Some(handle) = self.thread_handle.take() { match handle.join() { Ok(_) => (), Err(_) => error!("Player thread panicked!"), } } } } struct PlayerLoadedTrackData { decoder: Decoder, normalisation_factor: f32, stream_loader_controller: StreamLoaderController, bytes_per_second: usize, duration_ms: u32, stream_position_pcm: u64, } enum PlayerPreload { None, Loading { track_id: SpotifyId, loader: Pin> + Send>>, }, Ready { track_id: SpotifyId, loaded_track: Box, }, } type Decoder = Box; enum PlayerState { Stopped, Loading { track_id: SpotifyId, play_request_id: u64, start_playback: bool, loader: Pin> + Send>>, }, Paused { track_id: SpotifyId, play_request_id: u64, decoder: Decoder, normalisation_factor: f32, stream_loader_controller: StreamLoaderController, bytes_per_second: usize, duration_ms: u32, stream_position_pcm: u64, suggested_to_preload_next_track: bool, }, Playing { track_id: SpotifyId, play_request_id: u64, decoder: Decoder, normalisation_factor: f32, stream_loader_controller: StreamLoaderController, bytes_per_second: usize, duration_ms: u32, stream_position_pcm: u64, reported_nominal_start_time: Option, suggested_to_preload_next_track: bool, }, EndOfTrack { track_id: SpotifyId, play_request_id: u64, loaded_track: PlayerLoadedTrackData, }, Invalid, } impl PlayerState { fn is_playing(&self) -> bool { use self::PlayerState::*; match *self { Stopped | EndOfTrack { .. } | Paused { .. } | Loading { .. } => false, Playing { .. } => true, Invalid => panic!("invalid state"), } } #[allow(dead_code)] fn is_stopped(&self) -> bool { use self::PlayerState::*; matches!(self, Stopped) } fn is_loading(&self) -> bool { use self::PlayerState::*; matches!(self, Loading { .. }) } fn decoder(&mut self) -> Option<&mut Decoder> { use self::PlayerState::*; match *self { Stopped | EndOfTrack { .. } | Loading { .. } => None, Paused { ref mut decoder, .. } | Playing { ref mut decoder, .. } => Some(decoder), Invalid => panic!("invalid state"), } } fn stream_loader_controller(&mut self) -> Option<&mut StreamLoaderController> { use self::PlayerState::*; match *self { Stopped | EndOfTrack { .. } | Loading { .. } => None, Paused { ref mut stream_loader_controller, .. } | Playing { ref mut stream_loader_controller, .. } => Some(stream_loader_controller), Invalid => panic!("invalid state"), } } fn playing_to_end_of_track(&mut self) { use self::PlayerState::*; match mem::replace(self, Invalid) { Playing { track_id, play_request_id, decoder, duration_ms, bytes_per_second, normalisation_factor, stream_loader_controller, stream_position_pcm, .. } => { *self = EndOfTrack { track_id, play_request_id, loaded_track: PlayerLoadedTrackData { decoder, duration_ms, bytes_per_second, normalisation_factor, stream_loader_controller, stream_position_pcm, }, }; } _ => panic!("Called playing_to_end_of_track in non-playing state."), } } fn paused_to_playing(&mut self) { use self::PlayerState::*; match ::std::mem::replace(self, Invalid) { Paused { track_id, play_request_id, decoder, normalisation_factor, stream_loader_controller, duration_ms, bytes_per_second, stream_position_pcm, suggested_to_preload_next_track, } => { *self = Playing { track_id, play_request_id, decoder, normalisation_factor, stream_loader_controller, duration_ms, bytes_per_second, stream_position_pcm, reported_nominal_start_time: None, suggested_to_preload_next_track, }; } _ => panic!("invalid state"), } } fn playing_to_paused(&mut self) { use self::PlayerState::*; match ::std::mem::replace(self, Invalid) { Playing { track_id, play_request_id, decoder, normalisation_factor, stream_loader_controller, duration_ms, bytes_per_second, stream_position_pcm, reported_nominal_start_time: _, suggested_to_preload_next_track, } => { *self = Paused { track_id, play_request_id, decoder, normalisation_factor, stream_loader_controller, duration_ms, bytes_per_second, stream_position_pcm, suggested_to_preload_next_track, }; } _ => panic!("invalid state"), } } } struct PlayerTrackLoader { session: Session, config: PlayerConfig, } impl PlayerTrackLoader { async fn find_available_alternative(&self, audio: AudioItem) -> Option { if audio.available { Some(audio) } else if let Some(alternatives) = &audio.alternatives { let alternatives: FuturesUnordered<_> = alternatives .iter() .map(|alt_id| AudioItem::get_audio_item(&self.session, *alt_id)) .collect(); alternatives .filter_map(|x| future::ready(x.ok())) .filter(|x| future::ready(x.available)) .next() .await } else { None } } fn stream_data_rate(&self, format: FileFormat) -> usize { match format { FileFormat::OGG_VORBIS_96 => 12 * 1024, FileFormat::OGG_VORBIS_160 => 20 * 1024, FileFormat::OGG_VORBIS_320 => 40 * 1024, FileFormat::MP3_256 => 32 * 1024, FileFormat::MP3_320 => 40 * 1024, FileFormat::MP3_160 => 20 * 1024, FileFormat::MP3_96 => 12 * 1024, FileFormat::MP3_160_ENC => 20 * 1024, FileFormat::MP4_128_DUAL => 16 * 1024, FileFormat::OTHER3 => 40 * 1024, // better some high guess than nothing FileFormat::AAC_160 => 20 * 1024, FileFormat::AAC_320 => 40 * 1024, FileFormat::MP4_128 => 16 * 1024, FileFormat::OTHER5 => 40 * 1024, // better some high guess than nothing } } async fn load_track( &self, spotify_id: SpotifyId, position_ms: u32, ) -> Option { let audio = match AudioItem::get_audio_item(&self.session, spotify_id).await { Ok(audio) => audio, Err(_) => { error!("Unable to load audio item."); return None; } }; info!("Loading <{}> with Spotify URI <{}>", audio.name, audio.uri); let audio = match self.find_available_alternative(audio).await { Some(audio) => audio, None => { warn!("<{}> is not available", spotify_id.to_uri()); return None; } }; assert!(audio.duration >= 0); let duration_ms = audio.duration as u32; // (Most) podcasts seem to support only 96 bit Vorbis, so fall back to it let formats = match self.config.bitrate { Bitrate::Bitrate96 => [ FileFormat::OGG_VORBIS_96, FileFormat::OGG_VORBIS_160, FileFormat::OGG_VORBIS_320, ], Bitrate::Bitrate160 => [ FileFormat::OGG_VORBIS_160, FileFormat::OGG_VORBIS_96, FileFormat::OGG_VORBIS_320, ], Bitrate::Bitrate320 => [ FileFormat::OGG_VORBIS_320, FileFormat::OGG_VORBIS_160, FileFormat::OGG_VORBIS_96, ], }; let entry = formats.iter().find_map(|format| { if let Some(&file_id) = audio.files.get(format) { Some((*format, file_id)) } else { None } }); let (format, file_id) = match entry { Some(t) => t, None => { warn!("<{}> is not available in any supported format", audio.name); return None; } }; let bytes_per_second = self.stream_data_rate(format); let play_from_beginning = position_ms == 0; // This is only a loop to be able to reload the file if an error occured // while opening a cached file. loop { let encrypted_file = AudioFile::open( &self.session, file_id, bytes_per_second, play_from_beginning, ); let encrypted_file = match encrypted_file.await { Ok(encrypted_file) => encrypted_file, Err(_) => { error!("Unable to load encrypted file."); return None; } }; let is_cached = encrypted_file.is_cached(); let stream_loader_controller = encrypted_file.get_stream_loader_controller(); if play_from_beginning { // No need to seek -> we stream from the beginning stream_loader_controller.set_stream_mode(); } else { // we need to seek -> we set stream mode after the initial seek. stream_loader_controller.set_random_access_mode(); } let key = match self.session.audio_key().request(spotify_id, file_id).await { Ok(key) => key, Err(_) => { error!("Unable to load decryption key"); return None; } }; let mut decrypted_file = AudioDecrypt::new(key, encrypted_file); let normalisation_factor = match NormalisationData::parse_from_file(&mut decrypted_file) { Ok(normalisation_data) => { NormalisationData::get_factor(&self.config, normalisation_data) } Err(_) => { warn!("Unable to extract normalisation data, using default value."); 1.0_f32 } }; let audio_file = Subfile::new(decrypted_file, 0xa7); let result = if self.config.passthrough { match PassthroughDecoder::new(audio_file) { Ok(result) => Ok(Box::new(result) as Decoder), Err(e) => Err(AudioError::PassthroughError(e)), } } else { match VorbisDecoder::new(audio_file) { Ok(result) => Ok(Box::new(result) as Decoder), Err(e) => Err(AudioError::VorbisError(e)), } }; let mut decoder = match result { Ok(decoder) => decoder, Err(e) if is_cached => { warn!( "Unable to read cached audio file: {}. Trying to download it.", e ); // unwrap safety: The file is cached, so session must have a cache if !self.session.cache().unwrap().remove_file(file_id) { return None; } // Just try it again continue; } Err(e) => { error!("Unable to read audio file: {}", e); return None; } }; if position_ms != 0 { if let Err(err) = decoder.seek(position_ms as i64) { error!("Vorbis error: {}", err); } stream_loader_controller.set_stream_mode(); } let stream_position_pcm = PlayerInternal::position_ms_to_pcm(position_ms); info!("<{}> ({} ms) loaded", audio.name, audio.duration); return Some(PlayerLoadedTrackData { decoder, normalisation_factor, stream_loader_controller, bytes_per_second, duration_ms, stream_position_pcm, }); } } } impl Future for PlayerInternal { type Output = (); fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<()> { // While this is written as a future, it still contains blocking code. // It must be run on its own thread. let passthrough = self.config.passthrough; loop { let mut all_futures_completed_or_not_ready = true; // process commands that were sent to us let cmd = match self.commands.poll_recv(cx) { Poll::Ready(None) => return Poll::Ready(()), // client has disconnected - shut down. Poll::Ready(Some(cmd)) => { all_futures_completed_or_not_ready = false; Some(cmd) } _ => None, }; if let Some(cmd) = cmd { self.handle_command(cmd); } // Handle loading of a new track to play if let PlayerState::Loading { ref mut loader, track_id, start_playback, play_request_id, } = self.state { match loader.as_mut().poll(cx) { Poll::Ready(Ok(loaded_track)) => { self.start_playback( track_id, play_request_id, loaded_track, start_playback, ); if let PlayerState::Loading { .. } = self.state { panic!("The state wasn't changed by start_playback()"); } } Poll::Ready(Err(_)) => { warn!("Unable to load <{:?}>\nSkipping to next track", track_id); assert!(self.state.is_loading()); self.send_event(PlayerEvent::EndOfTrack { track_id, play_request_id, }) } Poll::Pending => (), } } // handle pending preload requests. if let PlayerPreload::Loading { ref mut loader, track_id, } = self.preload { match loader.as_mut().poll(cx) { Poll::Ready(Ok(loaded_track)) => { self.send_event(PlayerEvent::Preloading { track_id }); self.preload = PlayerPreload::Ready { track_id, loaded_track: Box::new(loaded_track), }; } Poll::Ready(Err(_)) => { debug!("Unable to preload {:?}", track_id); self.preload = PlayerPreload::None; // Let Spirc know that the track was unavailable. if let PlayerState::Playing { play_request_id, .. } | PlayerState::Paused { play_request_id, .. } = self.state { self.send_event(PlayerEvent::Unavailable { track_id, play_request_id, }); } } Poll::Pending => (), } } if self.state.is_playing() { self.ensure_sink_running(); if let PlayerState::Playing { track_id, play_request_id, ref mut decoder, normalisation_factor, ref mut stream_position_pcm, ref mut reported_nominal_start_time, duration_ms, .. } = self.state { let packet = decoder.next_packet().expect("Vorbis error"); if !passthrough { if let Some(ref packet) = packet { *stream_position_pcm += (packet.samples().len() / 2) as u64; let stream_position_millis = Self::position_pcm_to_ms(*stream_position_pcm); let notify_about_position = match *reported_nominal_start_time { None => true, Some(reported_nominal_start_time) => { // only notify if we're behind. If we're ahead it's probably due to a buffer of the backend and we;re actually in time. let lag = (Instant::now() - reported_nominal_start_time) .as_millis() as i64 - stream_position_millis as i64; lag > 1000 } }; if notify_about_position { *reported_nominal_start_time = Some( Instant::now() - Duration::from_millis(stream_position_millis as u64), ); self.send_event(PlayerEvent::Playing { track_id, play_request_id, position_ms: stream_position_millis as u32, duration_ms, }); } } } else { // position, even if irrelevant, must be set so that seek() is called *stream_position_pcm = duration_ms.into(); } self.handle_packet(packet, normalisation_factor); } else { unreachable!(); }; } if let PlayerState::Playing { track_id, play_request_id, duration_ms, stream_position_pcm, ref mut stream_loader_controller, ref mut suggested_to_preload_next_track, .. } | PlayerState::Paused { track_id, play_request_id, duration_ms, stream_position_pcm, ref mut stream_loader_controller, ref mut suggested_to_preload_next_track, .. } = self.state { if (!*suggested_to_preload_next_track) && ((duration_ms as i64 - Self::position_pcm_to_ms(stream_position_pcm) as i64) < PRELOAD_NEXT_TRACK_BEFORE_END_DURATION_MS as i64) && stream_loader_controller.range_to_end_available() { *suggested_to_preload_next_track = true; self.send_event(PlayerEvent::TimeToPreloadNextTrack { track_id, play_request_id, }); } } if self.session.is_invalid() { return Poll::Ready(()); } if (!self.state.is_playing()) && all_futures_completed_or_not_ready { return Poll::Pending; } } } } impl PlayerInternal { fn position_pcm_to_ms(position_pcm: u64) -> u32 { (position_pcm * 10 / 441) as u32 } fn position_ms_to_pcm(position_ms: u32) -> u64 { position_ms as u64 * 441 / 10 } fn ensure_sink_running(&mut self) { if self.sink_status != SinkStatus::Running { trace!("== Starting sink =="); if let Some(callback) = &mut self.sink_event_callback { callback(SinkStatus::Running); } match self.sink.start() { Ok(()) => self.sink_status = SinkStatus::Running, Err(err) => error!("Could not start audio: {}", err), } } } fn ensure_sink_stopped(&mut self, temporarily: bool) { match self.sink_status { SinkStatus::Running => { trace!("== Stopping sink =="); self.sink.stop().unwrap(); self.sink_status = if temporarily { SinkStatus::TemporarilyClosed } else { SinkStatus::Closed }; if let Some(callback) = &mut self.sink_event_callback { callback(self.sink_status); } } SinkStatus::TemporarilyClosed => { if !temporarily { self.sink_status = SinkStatus::Closed; if let Some(callback) = &mut self.sink_event_callback { callback(SinkStatus::Closed); } } } SinkStatus::Closed => (), } } fn handle_player_stop(&mut self) { match self.state { PlayerState::Playing { track_id, play_request_id, .. } | PlayerState::Paused { track_id, play_request_id, .. } | PlayerState::EndOfTrack { track_id, play_request_id, .. } | PlayerState::Loading { track_id, play_request_id, .. } => { self.ensure_sink_stopped(false); self.send_event(PlayerEvent::Stopped { track_id, play_request_id, }); self.state = PlayerState::Stopped; } PlayerState::Stopped => (), PlayerState::Invalid => panic!("invalid state"), } } fn handle_play(&mut self) { if let PlayerState::Paused { track_id, play_request_id, stream_position_pcm, duration_ms, .. } = self.state { self.state.paused_to_playing(); let position_ms = Self::position_pcm_to_ms(stream_position_pcm); self.send_event(PlayerEvent::Playing { track_id, play_request_id, position_ms, duration_ms, }); self.ensure_sink_running(); } else { warn!("Player::play called from invalid state"); } } fn handle_pause(&mut self) { if let PlayerState::Playing { track_id, play_request_id, stream_position_pcm, duration_ms, .. } = self.state { self.state.playing_to_paused(); self.ensure_sink_stopped(false); let position_ms = Self::position_pcm_to_ms(stream_position_pcm); self.send_event(PlayerEvent::Paused { track_id, play_request_id, position_ms, duration_ms, }); } else { warn!("Player::pause called from invalid state"); } } fn handle_packet(&mut self, packet: Option, normalisation_factor: f32) { match packet { Some(mut packet) => { if !packet.is_empty() { if let AudioPacket::Samples(ref mut data) = packet { if let Some(ref editor) = self.audio_filter { editor.modify_stream(data) } if self.config.normalisation && f32::abs(normalisation_factor - 1.0) > f32::EPSILON { for x in data.iter_mut() { *x = (*x as f32 * normalisation_factor) as i16; } } } if let Err(err) = self.sink.write(&packet) { error!("Could not write audio: {}", err); self.ensure_sink_stopped(false); } } } None => { self.state.playing_to_end_of_track(); if let PlayerState::EndOfTrack { track_id, play_request_id, .. } = self.state { self.send_event(PlayerEvent::EndOfTrack { track_id, play_request_id, }) } else { unreachable!(); } } } } fn start_playback( &mut self, track_id: SpotifyId, play_request_id: u64, loaded_track: PlayerLoadedTrackData, start_playback: bool, ) { let position_ms = Self::position_pcm_to_ms(loaded_track.stream_position_pcm); if start_playback { self.ensure_sink_running(); self.send_event(PlayerEvent::Playing { track_id, play_request_id, position_ms, duration_ms: loaded_track.duration_ms, }); self.state = PlayerState::Playing { track_id, play_request_id, decoder: loaded_track.decoder, normalisation_factor: loaded_track.normalisation_factor, stream_loader_controller: loaded_track.stream_loader_controller, duration_ms: loaded_track.duration_ms, bytes_per_second: loaded_track.bytes_per_second, stream_position_pcm: loaded_track.stream_position_pcm, reported_nominal_start_time: Some( Instant::now() - Duration::from_millis(position_ms as u64), ), suggested_to_preload_next_track: false, }; } else { self.ensure_sink_stopped(false); self.state = PlayerState::Paused { track_id, play_request_id, decoder: loaded_track.decoder, normalisation_factor: loaded_track.normalisation_factor, stream_loader_controller: loaded_track.stream_loader_controller, duration_ms: loaded_track.duration_ms, bytes_per_second: loaded_track.bytes_per_second, stream_position_pcm: loaded_track.stream_position_pcm, suggested_to_preload_next_track: false, }; self.send_event(PlayerEvent::Paused { track_id, play_request_id, position_ms, duration_ms: loaded_track.duration_ms, }); } } fn handle_command_load( &mut self, track_id: SpotifyId, play_request_id: u64, play: bool, position_ms: u32, ) { if !self.config.gapless { self.ensure_sink_stopped(play); } // emit the correct player event match self.state { PlayerState::Playing { track_id: old_track_id, .. } | PlayerState::Paused { track_id: old_track_id, .. } | PlayerState::EndOfTrack { track_id: old_track_id, .. } | PlayerState::Loading { track_id: old_track_id, .. } => self.send_event(PlayerEvent::Changed { old_track_id, new_track_id: track_id, }), PlayerState::Stopped => self.send_event(PlayerEvent::Started { track_id, play_request_id, position_ms, }), PlayerState::Invalid { .. } => panic!("Player is in an invalid state."), } // Now we check at different positions whether we already have a pre-loaded version // of this track somewhere. If so, use it and return. // Check if there's a matching loaded track in the EndOfTrack player state. // This is the case if we're repeating the same track again. if let PlayerState::EndOfTrack { track_id: previous_track_id, .. } = self.state { if previous_track_id == track_id { let mut loaded_track = match mem::replace(&mut self.state, PlayerState::Invalid) { PlayerState::EndOfTrack { loaded_track, .. } => loaded_track, _ => unreachable!(), }; if Self::position_ms_to_pcm(position_ms) != loaded_track.stream_position_pcm { loaded_track .stream_loader_controller .set_random_access_mode(); let _ = loaded_track.decoder.seek(position_ms as i64); // This may be blocking. // But most likely the track is fully // loaded already because we played // to the end of it. loaded_track.stream_loader_controller.set_stream_mode(); loaded_track.stream_position_pcm = Self::position_ms_to_pcm(position_ms); } self.preload = PlayerPreload::None; self.start_playback(track_id, play_request_id, loaded_track, play); if let PlayerState::Invalid = self.state { panic!("start_playback() hasn't set a valid player state."); } return; } } // Check if we are already playing the track. If so, just do a seek and update our info. if let PlayerState::Playing { track_id: current_track_id, ref mut stream_position_pcm, ref mut decoder, ref mut stream_loader_controller, .. } | PlayerState::Paused { track_id: current_track_id, ref mut stream_position_pcm, ref mut decoder, ref mut stream_loader_controller, .. } = self.state { if current_track_id == track_id { // we can use the current decoder. Ensure it's at the correct position. if Self::position_ms_to_pcm(position_ms) != *stream_position_pcm { stream_loader_controller.set_random_access_mode(); let _ = decoder.seek(position_ms as i64); // This may be blocking. stream_loader_controller.set_stream_mode(); *stream_position_pcm = Self::position_ms_to_pcm(position_ms); } // Move the info from the current state into a PlayerLoadedTrackData so we can use // the usual code path to start playback. let old_state = mem::replace(&mut self.state, PlayerState::Invalid); if let PlayerState::Playing { stream_position_pcm, decoder, stream_loader_controller, bytes_per_second, duration_ms, normalisation_factor, .. } | PlayerState::Paused { stream_position_pcm, decoder, stream_loader_controller, bytes_per_second, duration_ms, normalisation_factor, .. } = old_state { let loaded_track = PlayerLoadedTrackData { decoder, normalisation_factor, stream_loader_controller, bytes_per_second, duration_ms, stream_position_pcm, }; self.preload = PlayerPreload::None; self.start_playback(track_id, play_request_id, loaded_track, play); if let PlayerState::Invalid = self.state { panic!("start_playback() hasn't set a valid player state."); } return; } else { unreachable!(); } } } // Check if the requested track has been preloaded already. If so use the preloaded data. if let PlayerPreload::Ready { track_id: loaded_track_id, .. } = self.preload { if track_id == loaded_track_id { let preload = std::mem::replace(&mut self.preload, PlayerPreload::None); if let PlayerPreload::Ready { track_id, mut loaded_track, } = preload { if Self::position_ms_to_pcm(position_ms) != loaded_track.stream_position_pcm { loaded_track .stream_loader_controller .set_random_access_mode(); let _ = loaded_track.decoder.seek(position_ms as i64); // This may be blocking loaded_track.stream_loader_controller.set_stream_mode(); } self.start_playback(track_id, play_request_id, *loaded_track, play); return; } else { unreachable!(); } } } // We need to load the track - either from scratch or by completing a preload. // In any case we go into a Loading state to load the track. self.ensure_sink_stopped(play); self.send_event(PlayerEvent::Loading { track_id, play_request_id, position_ms, }); // Try to extract a pending loader from the preloading mechanism let loader = if let PlayerPreload::Loading { track_id: loaded_track_id, .. } = self.preload { if (track_id == loaded_track_id) && (position_ms == 0) { let mut preload = PlayerPreload::None; std::mem::swap(&mut preload, &mut self.preload); if let PlayerPreload::Loading { loader, .. } = preload { Some(loader) } else { None } } else { None } } else { None }; self.preload = PlayerPreload::None; // If we don't have a loader yet, create one from scratch. let loader = loader.unwrap_or_else(|| Box::pin(self.load_track(track_id, position_ms))); // Set ourselves to a loading state. self.state = PlayerState::Loading { track_id, play_request_id, start_playback: play, loader, }; } fn handle_command_preload(&mut self, track_id: SpotifyId) { debug!("Preloading track"); let mut preload_track = true; // check whether the track is already loaded somewhere or being loaded. if let PlayerPreload::Loading { track_id: currently_loading, .. } | PlayerPreload::Ready { track_id: currently_loading, .. } = self.preload { if currently_loading == track_id { // we're already preloading the requested track. preload_track = false; } else { // we're preloading something else - cancel it. self.preload = PlayerPreload::None; } } if let PlayerState::Playing { track_id: current_track_id, .. } | PlayerState::Paused { track_id: current_track_id, .. } | PlayerState::EndOfTrack { track_id: current_track_id, .. } = self.state { if current_track_id == track_id { // we already have the requested track loaded. preload_track = false; } } // schedule the preload of the current track if desired. if preload_track { let loader = self.load_track(track_id, 0); self.preload = PlayerPreload::Loading { track_id, loader: Box::pin(loader), } } } fn handle_command_seek(&mut self, position_ms: u32) { if let Some(stream_loader_controller) = self.state.stream_loader_controller() { stream_loader_controller.set_random_access_mode(); } if let Some(decoder) = self.state.decoder() { match decoder.seek(position_ms as i64) { Ok(_) => { if let PlayerState::Playing { ref mut stream_position_pcm, .. } | PlayerState::Paused { ref mut stream_position_pcm, .. } = self.state { *stream_position_pcm = Self::position_ms_to_pcm(position_ms); } } Err(err) => error!("Vorbis error: {:?}", err), } } else { warn!("Player::seek called from invalid state"); } // If we're playing, ensure, that we have enough data leaded to avoid a buffer underrun. if let Some(stream_loader_controller) = self.state.stream_loader_controller() { stream_loader_controller.set_stream_mode(); } // ensure we have a bit of a buffer of downloaded data self.preload_data_before_playback(); if let PlayerState::Playing { track_id, play_request_id, ref mut reported_nominal_start_time, duration_ms, .. } = self.state { *reported_nominal_start_time = Some(Instant::now() - Duration::from_millis(position_ms as u64)); self.send_event(PlayerEvent::Playing { track_id, play_request_id, position_ms, duration_ms, }); } if let PlayerState::Paused { track_id, play_request_id, duration_ms, .. } = self.state { self.send_event(PlayerEvent::Paused { track_id, play_request_id, position_ms, duration_ms, }); } } fn handle_command(&mut self, cmd: PlayerCommand) { debug!("command={:?}", cmd); match cmd { PlayerCommand::Load { track_id, play_request_id, play, position_ms, } => self.handle_command_load(track_id, play_request_id, play, position_ms), PlayerCommand::Preload { track_id } => self.handle_command_preload(track_id), PlayerCommand::Seek(position_ms) => self.handle_command_seek(position_ms), PlayerCommand::Play => self.handle_play(), PlayerCommand::Pause => self.handle_pause(), PlayerCommand::Stop => self.handle_player_stop(), PlayerCommand::AddEventSender(sender) => self.event_senders.push(sender), PlayerCommand::SetSinkEventCallback(callback) => self.sink_event_callback = callback, PlayerCommand::EmitVolumeSetEvent(volume) => { self.send_event(PlayerEvent::VolumeSet { volume }) } } } fn send_event(&mut self, event: PlayerEvent) { let mut index = 0; while index < self.event_senders.len() { match self.event_senders[index].send(event.clone()) { Ok(_) => index += 1, Err(_) => { self.event_senders.remove(index); } } } } fn load_track( &self, spotify_id: SpotifyId, position_ms: u32, ) -> impl Future> + Send + 'static { // This method creates a future that returns the loaded stream and associated info. // Ideally all work should be done using asynchronous code. However, seek() on the // audio stream is implemented in a blocking fashion. Thus, we can't turn it into future // easily. Instead we spawn a thread to do the work and return a one-shot channel as the // future to work with. let loader = PlayerTrackLoader { session: self.session.clone(), config: self.config.clone(), }; let (result_tx, result_rx) = oneshot::channel(); std::thread::spawn(move || { let data = futures_executor::block_on(loader.load_track(spotify_id, position_ms)); if let Some(data) = data { let _ = result_tx.send(data); } }); result_rx.map_err(|_| ()) } fn preload_data_before_playback(&mut self) { if let PlayerState::Playing { bytes_per_second, ref mut stream_loader_controller, .. } = self.state { // Request our read ahead range let request_data_length = max( (READ_AHEAD_DURING_PLAYBACK_ROUNDTRIPS * (0.001 * stream_loader_controller.ping_time_ms() as f64) * bytes_per_second as f64) as usize, (READ_AHEAD_DURING_PLAYBACK_SECONDS * bytes_per_second as f64) as usize, ); stream_loader_controller.fetch_next(request_data_length); // Request the part we want to wait for blocking. This effecively means we wait for the previous request to partially complete. let wait_for_data_length = max( (READ_AHEAD_BEFORE_PLAYBACK_ROUNDTRIPS * (0.001 * stream_loader_controller.ping_time_ms() as f64) * bytes_per_second as f64) as usize, (READ_AHEAD_BEFORE_PLAYBACK_SECONDS * bytes_per_second as f64) as usize, ); stream_loader_controller.fetch_next_blocking(wait_for_data_length); } } } impl Drop for PlayerInternal { fn drop(&mut self) { debug!("drop PlayerInternal[{}]", self.session.session_id()); } } impl ::std::fmt::Debug for PlayerCommand { fn fmt(&self, f: &mut ::std::fmt::Formatter) -> ::std::fmt::Result { match *self { PlayerCommand::Load { track_id, play, position_ms, .. } => f .debug_tuple("Load") .field(&track_id) .field(&play) .field(&position_ms) .finish(), PlayerCommand::Preload { track_id } => { f.debug_tuple("Preload").field(&track_id).finish() } PlayerCommand::Play => f.debug_tuple("Play").finish(), PlayerCommand::Pause => f.debug_tuple("Pause").finish(), PlayerCommand::Stop => f.debug_tuple("Stop").finish(), PlayerCommand::Seek(position) => f.debug_tuple("Seek").field(&position).finish(), PlayerCommand::AddEventSender(_) => f.debug_tuple("AddEventSender").finish(), PlayerCommand::SetSinkEventCallback(_) => { f.debug_tuple("SetSinkEventCallback").finish() } PlayerCommand::EmitVolumeSetEvent(volume) => { f.debug_tuple("VolumeSet").field(&volume).finish() } } } } impl ::std::fmt::Debug for PlayerState { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { use PlayerState::*; match *self { Stopped => f.debug_struct("Stopped").finish(), Loading { track_id, play_request_id, .. } => f .debug_struct("Loading") .field("track_id", &track_id) .field("play_request_id", &play_request_id) .finish(), Paused { track_id, play_request_id, .. } => f .debug_struct("Paused") .field("track_id", &track_id) .field("play_request_id", &play_request_id) .finish(), Playing { track_id, play_request_id, .. } => f .debug_struct("Playing") .field("track_id", &track_id) .field("play_request_id", &play_request_id) .finish(), EndOfTrack { track_id, play_request_id, .. } => f .debug_struct("EndOfTrack") .field("track_id", &track_id) .field("play_request_id", &play_request_id) .finish(), Invalid => f.debug_struct("Invalid").finish(), } } } struct Subfile { stream: T, offset: u64, } impl Subfile { pub fn new(mut stream: T, offset: u64) -> Subfile { stream.seek(SeekFrom::Start(offset)).unwrap(); Subfile { stream, offset } } } impl Read for Subfile { fn read(&mut self, buf: &mut [u8]) -> io::Result { self.stream.read(buf) } } impl Seek for Subfile { fn seek(&mut self, mut pos: SeekFrom) -> io::Result { pos = match pos { SeekFrom::Start(offset) => SeekFrom::Start(offset + self.offset), x => x, }; let newpos = self.stream.seek(pos)?; if newpos > self.offset { Ok(newpos - self.offset) } else { Ok(0) } } }