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use std::future::Future;
use std::pin::Pin;
use std::time::{SystemTime, UNIX_EPOCH};

use crate::context::StationContext;
use crate::core::config::{ConnectConfig, VolumeCtrl};
use crate::core::mercury::{MercuryError, MercurySender};
use crate::core::session::Session;
use crate::core::spotify_id::{SpotifyAudioType, SpotifyId, SpotifyIdError};
use crate::core::util::SeqGenerator;
use crate::core::version;
use crate::playback::mixer::Mixer;
use crate::playback::player::{Player, PlayerEvent, PlayerEventChannel};
use crate::protocol;
use crate::protocol::spirc::{DeviceState, Frame, MessageType, PlayStatus, State, TrackRef};

use futures_util::future::{self, FusedFuture};
use futures_util::stream::FusedStream;
use futures_util::{FutureExt, StreamExt};
use protobuf::{self, Message};
use rand::seq::SliceRandom;
use tokio::sync::mpsc;
use tokio_stream::wrappers::UnboundedReceiverStream;

enum SpircPlayStatus {
    Stopped,
    LoadingPlay {
        position_ms: u32,
    },
    LoadingPause {
        position_ms: u32,
    },
    Playing {
        nominal_start_time: i64,
        preloading_of_next_track_triggered: bool,
    },
    Paused {
        position_ms: u32,
        preloading_of_next_track_triggered: bool,
    },
}

type BoxedFuture<T> = Pin<Box<dyn FusedFuture<Output = T> + Send>>;
type BoxedStream<T> = Pin<Box<dyn FusedStream<Item = T> + Send>>;

struct SpircTask {
    player: Player,
    mixer: Box<dyn Mixer>,
    config: SpircTaskConfig,

    sequence: SeqGenerator<u32>,

    ident: String,
    device: DeviceState,
    state: State,
    play_request_id: Option<u64>,
    mixer_started: bool,
    play_status: SpircPlayStatus,

    subscription: BoxedStream<Frame>,
    sender: MercurySender,
    commands: Option<mpsc::UnboundedReceiver<SpircCommand>>,
    player_events: Option<PlayerEventChannel>,

    shutdown: bool,
    session: Session,
    context_fut: BoxedFuture<Result<serde_json::Value, MercuryError>>,
    autoplay_fut: BoxedFuture<Result<String, MercuryError>>,
    context: Option<StationContext>,
}

pub enum SpircCommand {
    Play,
    PlayPause,
    Pause,
    Prev,
    Next,
    VolumeUp,
    VolumeDown,
    Shutdown,
    Shuffle,
}

struct SpircTaskConfig {
    volume_ctrl: VolumeCtrl,
    autoplay: bool,
}

const CONTEXT_TRACKS_HISTORY: usize = 10;
const CONTEXT_FETCH_THRESHOLD: u32 = 5;

pub struct Spirc {
    commands: mpsc::UnboundedSender<SpircCommand>,
}

fn initial_state() -> State {
    let mut frame = protocol::spirc::State::new();
    frame.set_repeat(false);
    frame.set_shuffle(false);
    frame.set_status(PlayStatus::kPlayStatusStop);
    frame.set_position_ms(0);
    frame.set_position_measured_at(0);
    frame
}

fn initial_device_state(config: ConnectConfig) -> DeviceState {
    {
        let mut msg = DeviceState::new();
        msg.set_sw_version(version::VERSION_STRING.to_string());
        msg.set_is_active(false);
        msg.set_can_play(true);
        msg.set_volume(0);
        msg.set_name(config.name);
        {
            let repeated = msg.mut_capabilities();
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kCanBePlayer);
                {
                    let repeated = msg.mut_intValue();
                    repeated.push(1)
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kDeviceType);
                {
                    let repeated = msg.mut_intValue();
                    repeated.push(config.device_type as i64)
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kGaiaEqConnectId);
                {
                    let repeated = msg.mut_intValue();
                    repeated.push(1)
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kSupportsLogout);
                {
                    let repeated = msg.mut_intValue();
                    repeated.push(0)
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kIsObservable);
                {
                    let repeated = msg.mut_intValue();
                    repeated.push(1)
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kVolumeSteps);
                {
                    let repeated = msg.mut_intValue();
                    if let VolumeCtrl::Fixed = config.volume_ctrl {
                        repeated.push(0)
                    } else {
                        repeated.push(64)
                    }
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kSupportsPlaylistV2);
                {
                    let repeated = msg.mut_intValue();
                    repeated.push(1)
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kSupportedContexts);
                {
                    let repeated = msg.mut_stringValue();
                    repeated.push(::std::convert::Into::into("album"));
                    repeated.push(::std::convert::Into::into("playlist"));
                    repeated.push(::std::convert::Into::into("search"));
                    repeated.push(::std::convert::Into::into("inbox"));
                    repeated.push(::std::convert::Into::into("toplist"));
                    repeated.push(::std::convert::Into::into("starred"));
                    repeated.push(::std::convert::Into::into("publishedstarred"));
                    repeated.push(::std::convert::Into::into("track"))
                };
                msg
            };
            {
                let msg = repeated.push_default();
                msg.set_typ(protocol::spirc::CapabilityType::kSupportedTypes);
                {
                    let repeated = msg.mut_stringValue();
                    repeated.push(::std::convert::Into::into("audio/local"));
                    repeated.push(::std::convert::Into::into("audio/track"));
                    repeated.push(::std::convert::Into::into("audio/episode"));
                    repeated.push(::std::convert::Into::into("local"));
                    repeated.push(::std::convert::Into::into("track"))
                };
                msg
            };
        };
        msg
    }
}

fn calc_logarithmic_volume(volume: u16) -> u16 {
    // Volume conversion taken from https://www.dr-lex.be/info-stuff/volumecontrols.html#ideal2
    // Convert the given volume [0..0xffff] to a dB gain
    // We assume a dB range of 60dB.
    // Use the equation: a * exp(b * x)
    // in which a = IDEAL_FACTOR, b = 1/1000
    const IDEAL_FACTOR: f64 = 6.908;
    let normalized_volume = volume as f64 / std::u16::MAX as f64; // To get a value between 0 and 1

    let mut val = std::u16::MAX;
    // Prevent val > std::u16::MAX due to rounding errors
    if normalized_volume < 0.999 {
        let new_volume = (normalized_volume * IDEAL_FACTOR).exp() / 1000.0;
        val = (new_volume * std::u16::MAX as f64) as u16;
    }

    debug!("input volume:{} to mixer: {}", volume, val);

    // return the scale factor (0..0xffff) (equivalent to a voltage multiplier).
    val
}

fn volume_to_mixer(volume: u16, volume_ctrl: &VolumeCtrl) -> u16 {
    match volume_ctrl {
        VolumeCtrl::Linear => volume,
        VolumeCtrl::Log => calc_logarithmic_volume(volume),
        VolumeCtrl::Fixed => volume,
    }
}

fn url_encode(bytes: impl AsRef<[u8]>) -> String {
    form_urlencoded::byte_serialize(bytes.as_ref()).collect()
}

impl Spirc {
    pub fn new(
        config: ConnectConfig,
        session: Session,
        player: Player,
        mixer: Box<dyn Mixer>,
    ) -> (Spirc, impl Future<Output = ()>) {
        debug!("new Spirc[{}]", session.session_id());

        let ident = session.device_id().to_owned();

        // Uri updated in response to issue #288
        debug!("canonical_username: {}", &session.username());
        let uri = format!("hm://remote/user/{}/", url_encode(&session.username()));

        let subscription = Box::pin(
            session
                .mercury()
                .subscribe(uri.clone())
                .map(Result::unwrap)
                .map(UnboundedReceiverStream::new)
                .flatten_stream()
                .map(|response| -> Frame {
                    let data = response.payload.first().unwrap();
                    protobuf::parse_from_bytes(data).unwrap()
                }),
        );

        let sender = session.mercury().sender(uri);

        let (cmd_tx, cmd_rx) = mpsc::unbounded_channel();

        let volume = config.volume;
        let task_config = SpircTaskConfig {
            volume_ctrl: config.volume_ctrl.to_owned(),
            autoplay: config.autoplay,
        };

        let device = initial_device_state(config);

        let player_events = player.get_player_event_channel();

        let mut task = SpircTask {
            player,
            mixer,
            config: task_config,

            sequence: SeqGenerator::new(1),

            ident,

            device,
            state: initial_state(),
            play_request_id: None,
            mixer_started: false,
            play_status: SpircPlayStatus::Stopped,

            subscription,
            sender,
            commands: Some(cmd_rx),
            player_events: Some(player_events),

            shutdown: false,
            session,

            context_fut: Box::pin(future::pending()),
            autoplay_fut: Box::pin(future::pending()),
            context: None,
        };

        task.set_volume(volume);

        let spirc = Spirc { commands: cmd_tx };

        task.hello();

        (spirc, task.run())
    }

    pub fn play(&self) {
        let _ = self.commands.send(SpircCommand::Play);
    }
    pub fn play_pause(&self) {
        let _ = self.commands.send(SpircCommand::PlayPause);
    }
    pub fn pause(&self) {
        let _ = self.commands.send(SpircCommand::Pause);
    }
    pub fn prev(&self) {
        let _ = self.commands.send(SpircCommand::Prev);
    }
    pub fn next(&self) {
        let _ = self.commands.send(SpircCommand::Next);
    }
    pub fn volume_up(&self) {
        let _ = self.commands.send(SpircCommand::VolumeUp);
    }
    pub fn volume_down(&self) {
        let _ = self.commands.send(SpircCommand::VolumeDown);
    }
    pub fn shutdown(&self) {
        let _ = self.commands.send(SpircCommand::Shutdown);
    }
    pub fn shuffle(&self) {
        let _ = self.commands.send(SpircCommand::Shuffle);
    }
}

impl SpircTask {
    async fn run(mut self) {
        while !self.session.is_invalid() && !self.shutdown {
            let commands = self.commands.as_mut();
            let player_events = self.player_events.as_mut();
            tokio::select! {
                frame = self.subscription.next() => match frame {
                    Some(frame) => self.handle_frame(frame),
                    None => {
                        error!("subscription terminated");
                        break;
                    }
                },
                cmd = async { commands.unwrap().recv().await }, if commands.is_some() => if let Some(cmd) = cmd {
                    self.handle_command(cmd);
                },
                event = async { player_events.unwrap().recv().await }, if player_events.is_some() => if let Some(event) = event {
                    self.handle_player_event(event)
                },
                result = self.sender.flush(), if !self.sender.is_flushed() => if result.is_err() {
                    error!("Cannot flush spirc event sender.");
                    break;
                },
                context = &mut self.context_fut, if !self.context_fut.is_terminated() => {
                    match context {
                        Ok(value) => {
                            let r_context = serde_json::from_value::<StationContext>(value);
                            self.context = match r_context {
                                Ok(context) => {
                                    info!(
                                        "Resolved {:?} tracks from <{:?}>",
                                        context.tracks.len(),
                                        self.state.get_context_uri(),
                                    );
                                    Some(context)
                                }
                                Err(e) => {
                                    error!("Unable to parse JSONContext {:?}", e);
                                    None
                                }
                            };
                            // It needn't be so verbose - can be as simple as
                            // if let Some(ref context) = r_context {
                            //     info!("Got {:?} tracks from <{}>", context.tracks.len(), context.uri);
                            // }
                            // self.context = r_context;
                        },
                        Err(err) => {
                            error!("ContextError: {:?}", err)
                        }
                    }
                },
                autoplay = &mut self.autoplay_fut, if !self.autoplay_fut.is_terminated() => {
                    match autoplay {
                        Ok(autoplay_station_uri) => {
                            info!("Autoplay uri resolved to <{:?}>", autoplay_station_uri);
                            self.context_fut = self.resolve_station(&autoplay_station_uri);
                        },
                        Err(err) => {
                            error!("AutoplayError: {:?}", err)
                        }
                    }
                },
                else => break
            }
        }

        if self.sender.flush().await.is_err() {
            warn!("Cannot flush spirc event sender.");
        }
    }

    fn now_ms(&mut self) -> i64 {
        let dur = match SystemTime::now().duration_since(UNIX_EPOCH) {
            Ok(dur) => dur,
            Err(err) => err.duration(),
        };

        dur.as_millis() as i64 + 1000 * self.session.time_delta()
    }

    fn ensure_mixer_started(&mut self) {
        if !self.mixer_started {
            self.mixer.start();
            self.mixer_started = true;
        }
    }

    fn ensure_mixer_stopped(&mut self) {
        if self.mixer_started {
            self.mixer.stop();
            self.mixer_started = false;
        }
    }

    fn update_state_position(&mut self, position_ms: u32) {
        let now = self.now_ms();
        self.state.set_position_measured_at(now as u64);
        self.state.set_position_ms(position_ms);
    }

    fn handle_command(&mut self, cmd: SpircCommand) {
        let active = self.device.get_is_active();
        match cmd {
            SpircCommand::Play => {
                if active {
                    self.handle_play();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypePlay).send();
                }
            }
            SpircCommand::PlayPause => {
                if active {
                    self.handle_play_pause();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypePlayPause).send();
                }
            }
            SpircCommand::Pause => {
                if active {
                    self.handle_pause();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypePause).send();
                }
            }
            SpircCommand::Prev => {
                if active {
                    self.handle_prev();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypePrev).send();
                }
            }
            SpircCommand::Next => {
                if active {
                    self.handle_next();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypeNext).send();
                }
            }
            SpircCommand::VolumeUp => {
                if active {
                    self.handle_volume_up();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypeVolumeUp).send();
                }
            }
            SpircCommand::VolumeDown => {
                if active {
                    self.handle_volume_down();
                    self.notify(None, true);
                } else {
                    CommandSender::new(self, MessageType::kMessageTypeVolumeDown).send();
                }
            }
            SpircCommand::Shutdown => {
                CommandSender::new(self, MessageType::kMessageTypeGoodbye).send();
                self.shutdown = true;
                if let Some(rx) = self.commands.as_mut() {
                    rx.close()
                }
            }
            SpircCommand::Shuffle => {
                CommandSender::new(self, MessageType::kMessageTypeShuffle).send();
            }
        }
    }

    fn handle_player_event(&mut self, event: PlayerEvent) {
        // we only process events if the play_request_id matches. If it doesn't, it is
        // an event that belongs to a previous track and only arrives now due to a race
        // condition. In this case we have updated the state already and don't want to
        // mess with it.
        if let Some(play_request_id) = event.get_play_request_id() {
            if Some(play_request_id) == self.play_request_id {
                match event {
                    PlayerEvent::EndOfTrack { .. } => self.handle_end_of_track(),
                    PlayerEvent::Loading { .. } => self.notify(None, false),
                    PlayerEvent::Playing { position_ms, .. } => {
                        let new_nominal_start_time = self.now_ms() - position_ms as i64;
                        match self.play_status {
                            SpircPlayStatus::Playing {
                                ref mut nominal_start_time,
                                ..
                            } => {
                                if (*nominal_start_time - new_nominal_start_time).abs() > 100 {
                                    *nominal_start_time = new_nominal_start_time;
                                    self.update_state_position(position_ms);
                                    self.notify(None, true);
                                }
                            }
                            SpircPlayStatus::LoadingPlay { .. }
                            | SpircPlayStatus::LoadingPause { .. } => {
                                self.state.set_status(PlayStatus::kPlayStatusPlay);
                                self.update_state_position(position_ms);
                                self.notify(None, true);
                                self.play_status = SpircPlayStatus::Playing {
                                    nominal_start_time: new_nominal_start_time,
                                    preloading_of_next_track_triggered: false,
                                };
                            }
                            _ => (),
                        };
                        trace!("==> kPlayStatusPlay");
                    }
                    PlayerEvent::Paused {
                        position_ms: new_position_ms,
                        ..
                    } => {
                        match self.play_status {
                            SpircPlayStatus::Paused {
                                ref mut position_ms,
                                ..
                            } => {
                                if *position_ms != new_position_ms {
                                    *position_ms = new_position_ms;
                                    self.update_state_position(new_position_ms);
                                    self.notify(None, true);
                                }
                            }
                            SpircPlayStatus::LoadingPlay { .. }
                            | SpircPlayStatus::LoadingPause { .. } => {
                                self.state.set_status(PlayStatus::kPlayStatusPause);
                                self.update_state_position(new_position_ms);
                                self.notify(None, true);
                                self.play_status = SpircPlayStatus::Paused {
                                    position_ms: new_position_ms,
                                    preloading_of_next_track_triggered: false,
                                };
                            }
                            _ => (),
                        }
                        trace!("==> kPlayStatusPause");
                    }
                    PlayerEvent::Stopped { .. } => match self.play_status {
                        SpircPlayStatus::Stopped => (),
                        _ => {
                            warn!("The player has stopped unexpectedly.");
                            self.state.set_status(PlayStatus::kPlayStatusStop);
                            self.ensure_mixer_stopped();
                            self.notify(None, true);
                            self.play_status = SpircPlayStatus::Stopped;
                        }
                    },
                    PlayerEvent::TimeToPreloadNextTrack { .. } => self.handle_preload_next_track(),
                    PlayerEvent::Unavailable { track_id, .. } => self.handle_unavailable(track_id),
                    _ => (),
                }
            }
        }
    }

    fn handle_frame(&mut self, frame: Frame) {
        let state_string = match frame.get_state().get_status() {
            PlayStatus::kPlayStatusLoading => "kPlayStatusLoading",
            PlayStatus::kPlayStatusPause => "kPlayStatusPause",
            PlayStatus::kPlayStatusStop => "kPlayStatusStop",
            PlayStatus::kPlayStatusPlay => "kPlayStatusPlay",
        };

        debug!(
            "{:?} {:?} {} {} {} {}",
            frame.get_typ(),
            frame.get_device_state().get_name(),
            frame.get_ident(),
            frame.get_seq_nr(),
            frame.get_state_update_id(),
            state_string,
        );

        if frame.get_ident() == self.ident
            || (!frame.get_recipient().is_empty() && !frame.get_recipient().contains(&self.ident))
        {
            return;
        }

        match frame.get_typ() {
            MessageType::kMessageTypeHello => {
                self.notify(Some(frame.get_ident()), true);
            }

            MessageType::kMessageTypeLoad => {
                if !self.device.get_is_active() {
                    let now = self.now_ms();
                    self.device.set_is_active(true);
                    self.device.set_became_active_at(now);
                }

                self.update_tracks(&frame);

                if !self.state.get_track().is_empty() {
                    let start_playing =
                        frame.get_state().get_status() == PlayStatus::kPlayStatusPlay;
                    self.load_track(start_playing, frame.get_state().get_position_ms());
                } else {
                    info!("No more tracks left in queue");
                    self.state.set_status(PlayStatus::kPlayStatusStop);
                    self.player.stop();
                    self.mixer.stop();
                    self.play_status = SpircPlayStatus::Stopped;
                }

                self.notify(None, true);
            }

            MessageType::kMessageTypePlay => {
                self.handle_play();
                self.notify(None, true);
            }

            MessageType::kMessageTypePlayPause => {
                self.handle_play_pause();
                self.notify(None, true);
            }

            MessageType::kMessageTypePause => {
                self.handle_pause();
                self.notify(None, true);
            }

            MessageType::kMessageTypeNext => {
                self.handle_next();
                self.notify(None, true);
            }

            MessageType::kMessageTypePrev => {
                self.handle_prev();
                self.notify(None, true);
            }

            MessageType::kMessageTypeVolumeUp => {
                self.handle_volume_up();
                self.notify(None, true);
            }

            MessageType::kMessageTypeVolumeDown => {
                self.handle_volume_down();
                self.notify(None, true);
            }

            MessageType::kMessageTypeRepeat => {
                self.state.set_repeat(frame.get_state().get_repeat());
                self.notify(None, true);
            }

            MessageType::kMessageTypeShuffle => {
                self.state.set_shuffle(frame.get_state().get_shuffle());
                if self.state.get_shuffle() {
                    let current_index = self.state.get_playing_track_index();
                    {
                        let tracks = self.state.mut_track();
                        tracks.swap(0, current_index as usize);
                        if let Some((_, rest)) = tracks.split_first_mut() {
                            let mut rng = rand::thread_rng();
                            rest.shuffle(&mut rng);
                        }
                    }
                    self.state.set_playing_track_index(0);
                } else {
                    let context = self.state.get_context_uri();
                    debug!("{:?}", context);
                }
                self.notify(None, true);
            }

            MessageType::kMessageTypeSeek => {
                self.handle_seek(frame.get_position());
                self.notify(None, true);
            }

            MessageType::kMessageTypeReplace => {
                self.update_tracks(&frame);
                self.notify(None, true);

                if let SpircPlayStatus::Playing {
                    preloading_of_next_track_triggered,
                    ..
                }
                | SpircPlayStatus::Paused {
                    preloading_of_next_track_triggered,
                    ..
                } = self.play_status
                {
                    if preloading_of_next_track_triggered {
                        // Get the next track_id in the playlist
                        if let Some(track_id) = self.preview_next_track() {
                            self.player.preload(track_id);
                        }
                    }
                }
            }

            MessageType::kMessageTypeVolume => {
                self.set_volume(frame.get_volume() as u16);
                self.notify(None, true);
            }

            MessageType::kMessageTypeNotify => {
                if self.device.get_is_active()
                    && frame.get_device_state().get_is_active()
                    && self.device.get_became_active_at()
                        <= frame.get_device_state().get_became_active_at()
                {
                    self.device.set_is_active(false);
                    self.state.set_status(PlayStatus::kPlayStatusStop);
                    self.player.stop();
                    self.ensure_mixer_stopped();
                    self.play_status = SpircPlayStatus::Stopped;
                }
            }

            _ => (),
        }
    }

    fn handle_play(&mut self) {
        match self.play_status {
            SpircPlayStatus::Paused {
                position_ms,
                preloading_of_next_track_triggered,
            } => {
                self.ensure_mixer_started();
                self.player.play();
                self.state.set_status(PlayStatus::kPlayStatusPlay);
                self.update_state_position(position_ms);
                self.play_status = SpircPlayStatus::Playing {
                    nominal_start_time: self.now_ms() as i64 - position_ms as i64,
                    preloading_of_next_track_triggered,
                };
            }
            SpircPlayStatus::LoadingPause { position_ms } => {
                self.ensure_mixer_started();
                self.player.play();
                self.play_status = SpircPlayStatus::LoadingPlay { position_ms };
            }
            _ => (),
        }
    }

    fn handle_play_pause(&mut self) {
        match self.play_status {
            SpircPlayStatus::Paused { .. } | SpircPlayStatus::LoadingPause { .. } => {
                self.handle_play()
            }
            SpircPlayStatus::Playing { .. } | SpircPlayStatus::LoadingPlay { .. } => {
                self.handle_pause()
            }
            _ => (),
        }
    }

    fn handle_pause(&mut self) {
        match self.play_status {
            SpircPlayStatus::Playing {
                nominal_start_time,
                preloading_of_next_track_triggered,
            } => {
                self.player.pause();
                self.state.set_status(PlayStatus::kPlayStatusPause);
                let position_ms = (self.now_ms() - nominal_start_time) as u32;
                self.update_state_position(position_ms);
                self.play_status = SpircPlayStatus::Paused {
                    position_ms,
                    preloading_of_next_track_triggered,
                };
            }
            SpircPlayStatus::LoadingPlay { position_ms } => {
                self.player.pause();
                self.play_status = SpircPlayStatus::LoadingPause { position_ms };
            }
            _ => (),
        }
    }

    fn handle_seek(&mut self, position_ms: u32) {
        self.update_state_position(position_ms);
        self.player.seek(position_ms);
        let now = self.now_ms();
        match self.play_status {
            SpircPlayStatus::Stopped => (),
            SpircPlayStatus::LoadingPause {
                position_ms: ref mut position,
            }
            | SpircPlayStatus::LoadingPlay {
                position_ms: ref mut position,
            }
            | SpircPlayStatus::Paused {
                position_ms: ref mut position,
                ..
            } => *position = position_ms,
            SpircPlayStatus::Playing {
                ref mut nominal_start_time,
                ..
            } => *nominal_start_time = now - position_ms as i64,
        };
    }

    fn consume_queued_track(&mut self) -> usize {
        // Removes current track if it is queued
        // Returns the index of the next track
        let current_index = self.state.get_playing_track_index() as usize;
        if (current_index < self.state.get_track().len())
            && self.state.get_track()[current_index].get_queued()
        {
            self.state.mut_track().remove(current_index);
            current_index
        } else {
            current_index + 1
        }
    }

    fn preview_next_track(&mut self) -> Option<SpotifyId> {
        self.get_track_id_to_play_from_playlist(self.state.get_playing_track_index() + 1)
            .map(|(track_id, _)| track_id)
    }

    fn handle_preload_next_track(&mut self) {
        // Requests the player thread to preload the next track
        match self.play_status {
            SpircPlayStatus::Paused {
                ref mut preloading_of_next_track_triggered,
                ..
            }
            | SpircPlayStatus::Playing {
                ref mut preloading_of_next_track_triggered,
                ..
            } => {
                *preloading_of_next_track_triggered = true;
                if let Some(track_id) = self.preview_next_track() {
                    self.player.preload(track_id);
                }
            }
            SpircPlayStatus::LoadingPause { .. }
            | SpircPlayStatus::LoadingPlay { .. }
            | SpircPlayStatus::Stopped => (),
        }
    }

    // Mark unavailable tracks so we can skip them later
    fn handle_unavailable(&mut self, track_id: SpotifyId) {
        let unavailables = self.get_track_index_for_spotify_id(&track_id, 0);
        for &index in unavailables.iter() {
            debug_assert_eq!(self.state.get_track()[index].get_gid(), track_id.to_raw());
            let mut unplayable_track_ref = TrackRef::new();
            unplayable_track_ref.set_gid(self.state.get_track()[index].get_gid().to_vec());
            // Misuse context field to flag the track
            unplayable_track_ref.set_context(String::from("NonPlayable"));
            std::mem::swap(
                &mut self.state.mut_track()[index],
                &mut unplayable_track_ref,
            );
            debug!(
                "Marked <{:?}> at {:?} as NonPlayable",
                self.state.get_track()[index],
                index,
            );
        }
        self.handle_preload_next_track();
    }

    fn handle_next(&mut self) {
        let mut new_index = self.consume_queued_track() as u32;
        let mut continue_playing = true;
        let tracks_len = self.state.get_track().len() as u32;
        debug!(
            "At track {:?} of {:?} <{:?}> update [{}]",
            new_index,
            self.state.get_track().len(),
            self.state.get_context_uri(),
            tracks_len - new_index < CONTEXT_FETCH_THRESHOLD
        );
        let context_uri = self.state.get_context_uri().to_owned();
        if (context_uri.starts_with("spotify:station:")
            || context_uri.starts_with("spotify:dailymix:")
            // spotify:user:xxx:collection
            || context_uri.starts_with(&format!("spotify:user:{}:collection",url_encode(&self.session.username()))))
            && ((self.state.get_track().len() as u32) - new_index) < CONTEXT_FETCH_THRESHOLD
        {
            self.context_fut = self.resolve_station(&context_uri);
            self.update_tracks_from_context();
        }
        if self.config.autoplay && new_index == tracks_len - 1 {
            // Extend the playlist
            // Note: This doesn't seem to reflect in the UI
            // the additional tracks in the frame don't show up as with station view
            debug!("Extending playlist <{}>", context_uri);
            self.update_tracks_from_context();
        }
        if new_index >= tracks_len {
            new_index = 0; // Loop around back to start
            continue_playing = self.state.get_repeat();
        }

        if tracks_len > 0 {
            self.state.set_playing_track_index(new_index);
            self.load_track(continue_playing, 0);
        } else {
            info!("Not playing next track because there are no more tracks left in queue.");
            self.state.set_playing_track_index(0);
            self.state.set_status(PlayStatus::kPlayStatusStop);
            self.player.stop();
            self.ensure_mixer_stopped();
            self.play_status = SpircPlayStatus::Stopped;
        }
    }

    fn handle_prev(&mut self) {
        // Previous behaves differently based on the position
        // Under 3s it goes to the previous song (starts playing)
        // Over 3s it seeks to zero (retains previous play status)
        if self.position() < 3000 {
            // Queued tracks always follow the currently playing track.
            // They should not be considered when calculating the previous
            // track so extract them beforehand and reinsert them after it.
            let mut queue_tracks = Vec::new();
            {
                let queue_index = self.consume_queued_track();
                let tracks = self.state.mut_track();
                while queue_index < tracks.len() && tracks[queue_index].get_queued() {
                    queue_tracks.push(tracks.remove(queue_index));
                }
            }
            let current_index = self.state.get_playing_track_index();
            let new_index = if current_index > 0 {
                current_index - 1
            } else if self.state.get_repeat() {
                self.state.get_track().len() as u32 - 1
            } else {
                0
            };
            // Reinsert queued tracks after the new playing track.
            let mut pos = (new_index + 1) as usize;
            for track in queue_tracks {
                self.state.mut_track().insert(pos, track);
                pos += 1;
            }

            self.state.set_playing_track_index(new_index);

            self.load_track(true, 0);
        } else {
            self.handle_seek(0);
        }
    }

    fn handle_volume_up(&mut self) {
        let mut volume: u32 = self.device.get_volume() as u32 + 4096;
        if volume > 0xFFFF {
            volume = 0xFFFF;
        }
        self.set_volume(volume as u16);
    }

    fn handle_volume_down(&mut self) {
        let mut volume: i32 = self.device.get_volume() as i32 - 4096;
        if volume < 0 {
            volume = 0;
        }
        self.set_volume(volume as u16);
    }

    fn handle_end_of_track(&mut self) {
        self.handle_next();
        self.notify(None, true);
    }

    fn position(&mut self) -> u32 {
        match self.play_status {
            SpircPlayStatus::Stopped => 0,
            SpircPlayStatus::LoadingPlay { position_ms }
            | SpircPlayStatus::LoadingPause { position_ms }
            | SpircPlayStatus::Paused { position_ms, .. } => position_ms,
            SpircPlayStatus::Playing {
                nominal_start_time, ..
            } => (self.now_ms() - nominal_start_time) as u32,
        }
    }

    fn resolve_station(&self, uri: &str) -> BoxedFuture<Result<serde_json::Value, MercuryError>> {
        let radio_uri = format!("hm://radio-apollo/v3/stations/{}", uri);

        self.resolve_uri(&radio_uri)
    }

    fn resolve_autoplay_uri(&self, uri: &str) -> BoxedFuture<Result<String, MercuryError>> {
        let query_uri = format!("hm://autoplay-enabled/query?uri={}", uri);
        let request = self.session.mercury().get(query_uri);
        Box::pin(
            async {
                let response = request.await?;

                if response.status_code == 200 {
                    let data = response
                        .payload
                        .first()
                        .expect("Empty autoplay uri")
                        .to_vec();
                    let autoplay_uri = String::from_utf8(data).unwrap();
                    Ok(autoplay_uri)
                } else {
                    warn!("No autoplay_uri found");
                    Err(MercuryError)
                }
            }
            .fuse(),
        )
    }

    fn resolve_uri(&self, uri: &str) -> BoxedFuture<Result<serde_json::Value, MercuryError>> {
        let request = self.session.mercury().get(uri);

        Box::pin(
            async move {
                let response = request.await?;

                let data = response
                    .payload
                    .first()
                    .expect("Empty payload on context uri");
                let response: serde_json::Value = serde_json::from_slice(&data).unwrap();

                Ok(response)
            }
            .fuse(),
        )
    }

    fn update_tracks_from_context(&mut self) {
        if let Some(ref context) = self.context {
            self.context_fut = self.resolve_uri(&context.next_page_url);

            let new_tracks = &context.tracks;
            debug!("Adding {:?} tracks from context to frame", new_tracks.len());
            let mut track_vec = self.state.take_track().into_vec();
            if let Some(head) = track_vec.len().checked_sub(CONTEXT_TRACKS_HISTORY) {
                track_vec.drain(0..head);
            }
            track_vec.extend_from_slice(&new_tracks);
            self.state
                .set_track(protobuf::RepeatedField::from_vec(track_vec));

            // Update playing index
            if let Some(new_index) = self
                .state
                .get_playing_track_index()
                .checked_sub(CONTEXT_TRACKS_HISTORY as u32)
            {
                self.state.set_playing_track_index(new_index);
            }
        } else {
            warn!("No context to update from!");
        }
    }

    fn update_tracks(&mut self, frame: &protocol::spirc::Frame) {
        debug!("State: {:?}", frame.get_state());
        let index = frame.get_state().get_playing_track_index();
        let context_uri = frame.get_state().get_context_uri().to_owned();
        let tracks = frame.get_state().get_track();
        debug!("Frame has {:?} tracks", tracks.len());
        if context_uri.starts_with("spotify:station:")
            || context_uri.starts_with("spotify:dailymix:")
        {
            self.context_fut = self.resolve_station(&context_uri);
        } else if self.config.autoplay {
            info!("Fetching autoplay context uri");
            // Get autoplay_station_uri for regular playlists
            self.autoplay_fut = self.resolve_autoplay_uri(&context_uri);
        }

        self.state.set_playing_track_index(index);
        self.state.set_track(tracks.iter().cloned().collect());
        self.state.set_context_uri(context_uri);
        // has_shuffle/repeat seem to always be true in these replace msgs,
        // but to replicate the behaviour of the Android client we have to
        // ignore false values.
        let state = frame.get_state();
        if state.get_repeat() {
            self.state.set_repeat(true);
        }
        if state.get_shuffle() {
            self.state.set_shuffle(true);
        }
    }

    // should this be a method of SpotifyId directly?
    fn get_spotify_id_for_track(&self, track_ref: &TrackRef) -> Result<SpotifyId, SpotifyIdError> {
        SpotifyId::from_raw(track_ref.get_gid()).or_else(|_| {
            let uri = track_ref.get_uri();
            debug!("Malformed or no gid, attempting to parse URI <{}>", uri);
            SpotifyId::from_uri(uri)
        })
    }

    // Helper to find corresponding index(s) for track_id
    fn get_track_index_for_spotify_id(
        &self,
        track_id: &SpotifyId,
        start_index: usize,
    ) -> Vec<usize> {
        let index: Vec<usize> = self.state.get_track()[start_index..]
            .iter()
            .enumerate()
            .filter(|&(_, track_ref)| track_ref.get_gid() == track_id.to_raw())
            .map(|(idx, _)| start_index + idx)
            .collect();
        // Sanity check
        debug_assert!(!index.is_empty());
        index
    }

    // Broken out here so we can refactor this later when we move to SpotifyObjectID or similar
    fn track_ref_is_unavailable(&self, track_ref: &TrackRef) -> bool {
        track_ref.get_context() == "NonPlayable"
    }

    fn get_track_id_to_play_from_playlist(&self, index: u32) -> Option<(SpotifyId, u32)> {
        let tracks_len = self.state.get_track().len();

        let mut new_playlist_index = index as usize;

        if new_playlist_index >= tracks_len {
            new_playlist_index = 0;
        }

        let start_index = new_playlist_index;

        // Cycle through all tracks, break if we don't find any playable tracks
        // tracks in each frame either have a gid or uri (that may or may not be a valid track)
        // E.g - context based frames sometimes contain tracks with <spotify:meta:page:>

        let mut track_ref = self.state.get_track()[new_playlist_index].clone();
        let mut track_id = self.get_spotify_id_for_track(&track_ref);
        while self.track_ref_is_unavailable(&track_ref)
            || track_id.is_err()
            || track_id.unwrap().audio_type == SpotifyAudioType::NonPlayable
        {
            warn!(
                "Skipping track <{:?}> at position [{}] of {}",
                track_ref, new_playlist_index, tracks_len
            );

            new_playlist_index += 1;
            if new_playlist_index >= tracks_len {
                new_playlist_index = 0;
            }

            if new_playlist_index == start_index {
                warn!("No playable track found in state: {:?}", self.state);
                return None;
            }
            track_ref = self.state.get_track()[new_playlist_index].clone();
            track_id = self.get_spotify_id_for_track(&track_ref);
        }

        match track_id {
            Ok(track_id) => Some((track_id, new_playlist_index as u32)),
            Err(_) => None,
        }
    }

    fn load_track(&mut self, start_playing: bool, position_ms: u32) {
        let index = self.state.get_playing_track_index();

        match self.get_track_id_to_play_from_playlist(index) {
            Some((track, index)) => {
                self.state.set_playing_track_index(index);

                self.play_request_id = Some(self.player.load(track, start_playing, position_ms));

                self.update_state_position(position_ms);
                if start_playing {
                    self.state.set_status(PlayStatus::kPlayStatusPlay);
                    self.play_status = SpircPlayStatus::LoadingPlay { position_ms };
                } else {
                    self.state.set_status(PlayStatus::kPlayStatusPause);
                    self.play_status = SpircPlayStatus::LoadingPause { position_ms };
                }
            }
            None => {
                self.state.set_status(PlayStatus::kPlayStatusStop);
                self.player.stop();
                self.ensure_mixer_stopped();
                self.play_status = SpircPlayStatus::Stopped;
            }
        }
    }

    fn hello(&mut self) {
        CommandSender::new(self, MessageType::kMessageTypeHello).send();
    }

    fn notify(&mut self, recipient: Option<&str>, suppress_loading_status: bool) {
        if suppress_loading_status && (self.state.get_status() == PlayStatus::kPlayStatusLoading) {
            return;
        };
        let status_string = match self.state.get_status() {
            PlayStatus::kPlayStatusLoading => "kPlayStatusLoading",
            PlayStatus::kPlayStatusPause => "kPlayStatusPause",
            PlayStatus::kPlayStatusStop => "kPlayStatusStop",
            PlayStatus::kPlayStatusPlay => "kPlayStatusPlay",
        };
        trace!("Sending status to server: [{}]", status_string);
        let mut cs = CommandSender::new(self, MessageType::kMessageTypeNotify);
        if let Some(s) = recipient {
            cs = cs.recipient(&s);
        }
        cs.send();
    }

    fn set_volume(&mut self, volume: u16) {
        self.device.set_volume(volume as u32);
        self.mixer
            .set_volume(volume_to_mixer(volume, &self.config.volume_ctrl));
        if let Some(cache) = self.session.cache() {
            cache.save_volume(volume)
        }
        self.player.emit_volume_set_event(volume);
    }
}

impl Drop for SpircTask {
    fn drop(&mut self) {
        debug!("drop Spirc[{}]", self.session.session_id());
    }
}

struct CommandSender<'a> {
    spirc: &'a mut SpircTask,
    frame: protocol::spirc::Frame,
}

impl<'a> CommandSender<'a> {
    fn new(spirc: &'a mut SpircTask, cmd: MessageType) -> CommandSender {
        let mut frame = protocol::spirc::Frame::new();
        frame.set_version(1);
        frame.set_protocol_version(::std::convert::Into::into("2.0.0"));
        frame.set_ident(spirc.ident.clone());
        frame.set_seq_nr(spirc.sequence.get());
        frame.set_typ(cmd);
        frame.set_device_state(spirc.device.clone());
        frame.set_state_update_id(spirc.now_ms());
        CommandSender { spirc, frame }
    }

    fn recipient(mut self, recipient: &'a str) -> CommandSender {
        self.frame.mut_recipient().push(recipient.to_owned());
        self
    }

    #[allow(dead_code)]
    fn state(mut self, state: protocol::spirc::State) -> CommandSender<'a> {
        self.frame.set_state(state);
        self
    }

    fn send(mut self) {
        if !self.frame.has_state() && self.spirc.device.get_is_active() {
            self.frame.set_state(self.spirc.state.clone());
        }

        self.spirc.sender.send(self.frame.write_to_bytes().unwrap());
    }
}