/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

use document_loader::{LoadBlocker, LoadType};
use dom::attr::Attr;
use dom::bindings::cell::DomRefCell;
use dom::bindings::codegen::Bindings::AttrBinding::AttrMethods;
use dom::bindings::codegen::Bindings::HTMLMediaElementBinding::CanPlayTypeResult;
use dom::bindings::codegen::Bindings::HTMLMediaElementBinding::HTMLMediaElementConstants;
use dom::bindings::codegen::Bindings::HTMLMediaElementBinding::HTMLMediaElementMethods;
use dom::bindings::codegen::Bindings::HTMLSourceElementBinding::HTMLSourceElementMethods;
use dom::bindings::codegen::Bindings::MediaErrorBinding::MediaErrorConstants::*;
use dom::bindings::codegen::Bindings::MediaErrorBinding::MediaErrorMethods;
use dom::bindings::codegen::InheritTypes::{ElementTypeId, HTMLElementTypeId};
use dom::bindings::codegen::InheritTypes::{HTMLMediaElementTypeId, NodeTypeId};
use dom::bindings::error::{Error, ErrorResult};
use dom::bindings::inheritance::Castable;
use dom::bindings::num::Finite;
use dom::bindings::refcounted::Trusted;
use dom::bindings::reflector::DomObject;
use dom::bindings::root::{DomRoot, LayoutDom, MutNullableDom};
use dom::bindings::str::DOMString;
use dom::blob::Blob;
use dom::document::Document;
use dom::element::{Element, AttributeMutation};
use dom::eventtarget::EventTarget;
use dom::htmlelement::HTMLElement;
use dom::htmlsourceelement::HTMLSourceElement;
use dom::htmlvideoelement::HTMLVideoElement;
use dom::mediaerror::MediaError;
use dom::node::{document_from_node, window_from_node, Node, NodeDamage, UnbindContext};
use dom::promise::Promise;
use dom::virtualmethods::VirtualMethods;
use dom_struct::dom_struct;
use fetch::FetchCanceller;
use html5ever::{LocalName, Prefix};
use hyper::header::{ByteRangeSpec, ContentLength, Headers, Range as HyperRange};
use ipc_channel::ipc;
use ipc_channel::router::ROUTER;
use microtask::{Microtask, MicrotaskRunnable};
use mime::{Mime, SubLevel, TopLevel};
use net_traits::{CoreResourceMsg, FetchChannels, FetchResponseListener, FetchMetadata, Metadata};
use net_traits::NetworkError;
use net_traits::request::{CredentialsMode, Destination, RequestInit};
use network_listener::{NetworkListener, PreInvoke};
use script_layout_interface::HTMLMediaData;
use script_thread::ScriptThread;
use servo_media::Error as ServoMediaError;
use servo_media::ServoMedia;
use servo_media::player::{PlaybackState, Player, PlayerEvent, StreamType};
use servo_media::player::frame::{Frame, FrameRenderer};
use servo_url::ServoUrl;
use std::cell::Cell;
use std::collections::VecDeque;
use std::f64;
use std::mem;
use std::rc::Rc;
use std::sync::{Arc, Mutex};
use task_source::{TaskSource, TaskSourceName};
use time::{self, Timespec, Duration};
use webrender_api::{ImageData, ImageDescriptor, ImageFormat, ImageKey, RenderApi};
use webrender_api::{RenderApiSender, Transaction};

pub struct MediaFrameRenderer {
    api: RenderApi,
    current_frame: Option<(ImageKey, i32, i32)>,
    old_frame: Option<ImageKey>,
    very_old_frame: Option<ImageKey>,
}

impl MediaFrameRenderer {
    fn new(render_api_sender: RenderApiSender) -> Self {
        Self {
            api: render_api_sender.create_api(),
            current_frame: None,
            old_frame: None,
            very_old_frame: None,
        }
    }
}

impl FrameRenderer for MediaFrameRenderer {
    fn render(&mut self, frame: Frame) {
        let descriptor = ImageDescriptor::new(
            frame.get_width() as u32,
            frame.get_height() as u32,
            ImageFormat::BGRA8,
            false,
            false,
        );

        let mut txn = Transaction::new();

        let image_data = ImageData::Raw(frame.get_data().clone());

        if let Some(old_image_key) = mem::replace(&mut self.very_old_frame, self.old_frame.take()) {
            txn.delete_image(old_image_key);
        }

        match self.current_frame {
            Some((ref image_key, ref mut width, ref mut height))
                if *width == frame.get_width() && *height == frame.get_height() =>
            {
                txn.update_image(*image_key, descriptor, image_data, None);

                if let Some(old_image_key) = self.old_frame.take() {
                    txn.delete_image(old_image_key);
                }
            }
            Some((ref mut image_key, ref mut width, ref mut height)) => {
                self.old_frame = Some(*image_key);

                let new_image_key = self.api.generate_image_key();
                txn.add_image(new_image_key, descriptor, image_data, None);
                *image_key = new_image_key;
                *width = frame.get_width();
                *height = frame.get_height();
            },
            None => {
                let image_key = self.api.generate_image_key();
                txn.add_image(image_key, descriptor, image_data, None);
                self.current_frame = Some((image_key, frame.get_width(), frame.get_height()));
            },
        }

        self.api.update_resources(txn.resource_updates);
    }
}

#[dom_struct]
// FIXME(nox): A lot of tasks queued for this element should probably be in the
// media element event task source.
pub struct HTMLMediaElement {
    htmlelement: HTMLElement,
    /// <https://html.spec.whatwg.org/multipage/#dom-media-networkstate>
    network_state: Cell<NetworkState>,
    /// <https://html.spec.whatwg.org/multipage/#dom-media-readystate>
    ready_state: Cell<ReadyState>,
    /// <https://html.spec.whatwg.org/multipage/#dom-media-srcobject>
    src_object: MutNullableDom<Blob>,
    /// <https://html.spec.whatwg.org/multipage/#dom-media-currentsrc>
    current_src: DomRefCell<String>,
    /// Incremented whenever tasks associated with this element are cancelled.
    generation_id: Cell<u32>,
    /// <https://html.spec.whatwg.org/multipage/#fire-loadeddata>
    ///
    /// Reset to false every time the load algorithm is invoked.
    fired_loadeddata_event: Cell<bool>,
    /// <https://html.spec.whatwg.org/multipage/#dom-media-error>
    error: MutNullableDom<MediaError>,
    /// <https://html.spec.whatwg.org/multipage/#dom-media-paused>
    paused: Cell<bool>,
    /// <https://html.spec.whatwg.org/multipage/#attr-media-autoplay>
    autoplaying: Cell<bool>,
    /// <https://html.spec.whatwg.org/multipage/#delaying-the-load-event-flag>
    delaying_the_load_event_flag: DomRefCell<Option<LoadBlocker>>,
    /// <https://html.spec.whatwg.org/multipage/#list-of-pending-play-promises>
    #[ignore_malloc_size_of = "promises are hard"]
    pending_play_promises: DomRefCell<Vec<Rc<Promise>>>,
    /// Play promises which are soon to be fulfilled by a queued task.
    #[ignore_malloc_size_of = "promises are hard"]
    in_flight_play_promises_queue: DomRefCell<VecDeque<(Box<[Rc<Promise>]>, ErrorResult)>>,
    #[ignore_malloc_size_of = "servo_media"]
    player: Box<Player<Error = ServoMediaError>>,
    #[ignore_malloc_size_of = "Arc"]
    frame_renderer: Arc<Mutex<MediaFrameRenderer>>,
    fetch_canceller: DomRefCell<FetchCanceller>,
    /// https://html.spec.whatwg.org/multipage/#show-poster-flag
    show_poster: Cell<bool>,
    /// https://html.spec.whatwg.org/multipage/#dom-media-duration
    duration: Cell<f64>,
    /// https://html.spec.whatwg.org/multipage/#official-playback-position
    playback_position: Cell<f64>,
    /// https://html.spec.whatwg.org/multipage/#default-playback-start-position
    default_playback_start_position: Cell<f64>,
    /// https://html.spec.whatwg.org/multipage/#dom-media-seeking
    seeking: Cell<bool>,
    /// URL of the media resource, if any.
    resource_url: DomRefCell<Option<ServoUrl>>,
}

/// <https://html.spec.whatwg.org/multipage/#dom-media-networkstate>
#[derive(Clone, Copy, JSTraceable, MallocSizeOf, PartialEq)]
#[repr(u8)]
pub enum NetworkState {
    Empty = HTMLMediaElementConstants::NETWORK_EMPTY as u8,
    Idle = HTMLMediaElementConstants::NETWORK_IDLE as u8,
    Loading = HTMLMediaElementConstants::NETWORK_LOADING as u8,
    NoSource = HTMLMediaElementConstants::NETWORK_NO_SOURCE as u8,
}

/// <https://html.spec.whatwg.org/multipage/#dom-media-readystate>
#[derive(Clone, Copy, Debug, JSTraceable, MallocSizeOf, PartialEq, PartialOrd)]
#[repr(u8)]
pub enum ReadyState {
    HaveNothing = HTMLMediaElementConstants::HAVE_NOTHING as u8,
    HaveMetadata = HTMLMediaElementConstants::HAVE_METADATA as u8,
    HaveCurrentData = HTMLMediaElementConstants::HAVE_CURRENT_DATA as u8,
    HaveFutureData = HTMLMediaElementConstants::HAVE_FUTURE_DATA as u8,
    HaveEnoughData = HTMLMediaElementConstants::HAVE_ENOUGH_DATA as u8,
}

impl HTMLMediaElement {
    pub fn new_inherited(tag_name: LocalName, prefix: Option<Prefix>, document: &Document) -> Self {
        Self {
            htmlelement: HTMLElement::new_inherited(tag_name, prefix, document),
            network_state: Cell::new(NetworkState::Empty),
            ready_state: Cell::new(ReadyState::HaveNothing),
            src_object: Default::default(),
            current_src: DomRefCell::new("".to_owned()),
            generation_id: Cell::new(0),
            fired_loadeddata_event: Cell::new(false),
            error: Default::default(),
            paused: Cell::new(true),
            // FIXME(nox): Why is this initialised to true?
            autoplaying: Cell::new(true),
            delaying_the_load_event_flag: Default::default(),
            pending_play_promises: Default::default(),
            in_flight_play_promises_queue: Default::default(),
            player: ServoMedia::get().unwrap().create_player(),
            frame_renderer: Arc::new(Mutex::new(MediaFrameRenderer::new(
                document.window().get_webrender_api_sender(),
            ))),
            fetch_canceller: DomRefCell::new(Default::default()),
            show_poster: Cell::new(true),
            duration: Cell::new(f64::NAN),
            playback_position: Cell::new(0.),
            default_playback_start_position: Cell::new(0.),
            seeking: Cell::new(false),
            resource_url: DomRefCell::new(None),
        }
    }

    pub fn get_ready_state(&self) -> ReadyState {
        self.ready_state.get()
    }

    fn media_type_id(&self) -> HTMLMediaElementTypeId {
        match self.upcast::<Node>().type_id() {
            NodeTypeId::Element(ElementTypeId::HTMLElement(
                HTMLElementTypeId::HTMLMediaElement(media_type_id),
            )) => media_type_id,
            _ => unreachable!(),
        }
    }

    /// Marks that element as delaying the load event or not.
    ///
    /// Nothing happens if the element was already delaying the load event and
    /// we pass true to that method again.
    ///
    /// <https://html.spec.whatwg.org/multipage/#delaying-the-load-event-flag>
    fn delay_load_event(&self, delay: bool) {
        let mut blocker = self.delaying_the_load_event_flag.borrow_mut();
        if delay && blocker.is_none() {
            *blocker = Some(LoadBlocker::new(&document_from_node(self), LoadType::Media));
        } else if !delay && blocker.is_some() {
            LoadBlocker::terminate(&mut *blocker);
        }
    }

    /// <https://html.spec.whatwg.org/multipage/#dom-media-play>
    // FIXME(nox): Move this back to HTMLMediaElementMethods::Play once
    // Rc<Promise> doesn't require #[allow(unrooted_must_root)] anymore.
    fn play(&self, promise: &Rc<Promise>) {
        // Step 1.
        // FIXME(nox): Reject promise if not allowed to play.

        // Step 2.
        if self
            .error
            .get()
            .map_or(false, |e| e.Code() == MEDIA_ERR_SRC_NOT_SUPPORTED)
        {
            promise.reject_error(Error::NotSupported);
            return;
        }

        // Step 3.
        self.push_pending_play_promise(promise);

        // Step 4.
        if self.network_state.get() == NetworkState::Empty {
            self.invoke_resource_selection_algorithm();
        }

        // Step 5.
        // FIXME(nox): Seek to earliest possible position if playback has ended
        // and direction of playback is forwards.

        let state = self.ready_state.get();

        let window = window_from_node(self);
        // FIXME(nox): Why are errors silenced here?
        let task_source = window.media_element_task_source();
        if self.Paused() {
            // Step 6.1.
            self.paused.set(false);

            // Step 6.2.
            if self.show_poster.get() {
                self.show_poster.set(false);
                self.time_marches_on();
            }

            // Step 6.3.
            task_source.queue_simple_event(self.upcast(), atom!("play"), &window);

            // Step 6.4.
            match state {
                ReadyState::HaveNothing |
                ReadyState::HaveMetadata |
                ReadyState::HaveCurrentData => {
                    task_source.queue_simple_event(self.upcast(), atom!("waiting"), &window);
                },
                ReadyState::HaveFutureData | ReadyState::HaveEnoughData => {
                    self.notify_about_playing();
                },
            }
        } else if state == ReadyState::HaveFutureData || state == ReadyState::HaveEnoughData {
            // Step 7.
            self.take_pending_play_promises(Ok(()));
            let this = Trusted::new(self);
            let generation_id = self.generation_id.get();
            task_source
                .queue(
                    task!(resolve_pending_play_promises: move || {
                    let this = this.root();
                    if generation_id != this.generation_id.get() {
                        return;
                    }

                    this.fulfill_in_flight_play_promises(|| {
                        if let Err(e) = this.player.play() {
                            eprintln!("Could not play media {:?}", e);
                        }
                    });
                }),
                    window.upcast(),
                )
                .unwrap();
        }

        // Step 8.
        self.autoplaying.set(false);

        // Step 9.
        // Not applicable here, the promise is returned from Play.
    }

    /// https://html.spec.whatwg.org/multipage/#time-marches-on
    fn time_marches_on(&self) {
        // TODO: implement this.
    }

    /// <https://html.spec.whatwg.org/multipage/#internal-pause-steps>
    fn internal_pause_steps(&self) {
        // Step 1.
        self.autoplaying.set(false);

        // Step 2.
        if !self.Paused() {
            // Step 2.1.
            self.paused.set(true);

            // Step 2.2.
            self.take_pending_play_promises(Err(Error::Abort));

            // Step 2.3.
            let window = window_from_node(self);
            let this = Trusted::new(self);
            let generation_id = self.generation_id.get();
            let _ = window.media_element_task_source().queue(
                task!(internal_pause_steps: move || {
                    let this = this.root();
                    if generation_id != this.generation_id.get() {
                        return;
                    }

                    this.fulfill_in_flight_play_promises(|| {
                        // Step 2.3.1.
                        this.upcast::<EventTarget>().fire_event(atom!("timeupdate"));

                        // Step 2.3.2.
                        this.upcast::<EventTarget>().fire_event(atom!("pause"));

                        if let Err(e) = this.player.pause() {
                            eprintln!("Could not pause player {:?}", e);
                        }

                        // Step 2.3.3.
                        // Done after running this closure in
                        // `fulfill_in_flight_play_promises`.
                    });
                }),
                window.upcast(),
            );

            // Step 2.4.
            // FIXME(nox): Set the official playback position to the current
            // playback position.
        }
    }

    // https://html.spec.whatwg.org/multipage/#notify-about-playing
    fn notify_about_playing(&self) {
        // Step 1.
        self.take_pending_play_promises(Ok(()));

        // Step 2.
        let window = window_from_node(self);
        let this = Trusted::new(self);
        let generation_id = self.generation_id.get();
        // FIXME(nox): Why are errors silenced here?
        let _ = window.media_element_task_source().queue(
            task!(notify_about_playing: move || {
                let this = this.root();
                if generation_id != this.generation_id.get() {
                    return;
                }

                this.fulfill_in_flight_play_promises(|| {
                    // Step 2.1.
                    this.upcast::<EventTarget>().fire_event(atom!("playing"));
                    if let Err(e) = this.player.play() {
                        eprintln!("Could not play media {:?}", e);
                    }

                    // Step 2.2.
                    // Done after running this closure in
                    // `fulfill_in_flight_play_promises`.
                });

            }),
            window.upcast(),
        );
    }

    // https://html.spec.whatwg.org/multipage/#ready-states
    fn change_ready_state(&self, ready_state: ReadyState) {
        let old_ready_state = self.ready_state.get();
        self.ready_state.set(ready_state);

        if self.network_state.get() == NetworkState::Empty {
            return;
        }

        let window = window_from_node(self);
        let task_source = window.media_element_task_source();

        // Step 1.
        match (old_ready_state, ready_state) {
            (ReadyState::HaveNothing, ReadyState::HaveMetadata) => {
                task_source.queue_simple_event(self.upcast(), atom!("loadedmetadata"), &window);

                // No other steps are applicable in this case.
                return;
            },
            (ReadyState::HaveMetadata, new) if new >= ReadyState::HaveCurrentData => {
                if !self.fired_loadeddata_event.get() {
                    self.fired_loadeddata_event.set(true);
                    let this = Trusted::new(self);
                    // FIXME(nox): Why are errors silenced here?
                    let _ = task_source.queue(
                        task!(media_reached_current_data: move || {
                            let this = this.root();
                            this.upcast::<EventTarget>().fire_event(atom!("loadeddata"));
                            this.delay_load_event(false);
                        }),
                        window.upcast(),
                    );
                }

                // Steps for the transition from HaveMetadata to HaveCurrentData
                // or HaveFutureData also apply here, as per the next match
                // expression.
            },
            (ReadyState::HaveFutureData, new) if new <= ReadyState::HaveCurrentData => {
                // FIXME(nox): Queue a task to fire timeupdate and waiting
                // events if the conditions call from the spec are met.

                // No other steps are applicable in this case.
                return;
            },

            _ => (),
        }

        if old_ready_state <= ReadyState::HaveCurrentData &&
            ready_state >= ReadyState::HaveFutureData
        {
            task_source.queue_simple_event(self.upcast(), atom!("canplay"), &window);

            if !self.Paused() {
                self.notify_about_playing();
            }
        }

        if ready_state == ReadyState::HaveEnoughData {
            // TODO: Check sandboxed automatic features browsing context flag.
            // FIXME(nox): I have no idea what this TODO is about.

            // FIXME(nox): Review this block.
            if self.autoplaying.get() && self.Paused() && self.Autoplay() {
                // Step 1
                self.paused.set(false);
                // Step 2
                if self.show_poster.get() {
                    self.show_poster.set(false);
                    self.time_marches_on();
                }
                // Step 3
                task_source.queue_simple_event(self.upcast(), atom!("play"), &window);
                // Step 4
                self.notify_about_playing();
                // Step 5
                self.autoplaying.set(false);
            }

            // FIXME(nox): According to the spec, this should come *before* the
            // "play" event.
            task_source.queue_simple_event(self.upcast(), atom!("canplaythrough"), &window);
        }
    }

    // https://html.spec.whatwg.org/multipage/#concept-media-load-algorithm
    fn invoke_resource_selection_algorithm(&self) {
        // Step 1.
        self.network_state.set(NetworkState::NoSource);

        // Step 2.
        self.show_poster.set(true);

        // Step 3.
        self.delay_load_event(true);

        // Step 4.
        // If the resource selection mode in the synchronous section is
        // "attribute", the URL of the resource to fetch is relative to the
        // media element's node document when the src attribute was last
        // changed, which is why we need to pass the base URL in the task
        // right here.
        let doc = document_from_node(self);
        let task = MediaElementMicrotask::ResourceSelectionTask {
            elem: DomRoot::from_ref(self),
            generation_id: self.generation_id.get(),
            base_url: doc.base_url(),
        };

        // FIXME(nox): This will later call the resource_selection_algorithm_sync
        // method from below, if microtasks were trait objects, we would be able
        // to put the code directly in this method, without the boilerplate
        // indirections.
        ScriptThread::await_stable_state(Microtask::MediaElement(task));
    }

    // https://html.spec.whatwg.org/multipage/#concept-media-load-algorithm
    fn resource_selection_algorithm_sync(&self, base_url: ServoUrl) {
        // Step 5.
        // FIXME(ferjm): Implement blocked_on_parser logic
        // https://html.spec.whatwg.org/multipage/#blocked-on-parser
        // FIXME(nox): Maybe populate the list of pending text tracks.

        // Step 6.
        enum Mode {
            Object,
            Attribute(String),
            Children(DomRoot<HTMLSourceElement>),
        }
        fn mode(media: &HTMLMediaElement) -> Option<Mode> {
            if media.src_object.get().is_some() {
                return Some(Mode::Object);
            }
            if let Some(attr) = media
                .upcast::<Element>()
                .get_attribute(&ns!(), &local_name!("src"))
            {
                return Some(Mode::Attribute(attr.Value().into()));
            }
            let source_child_element = media
                .upcast::<Node>()
                .children()
                .filter_map(DomRoot::downcast::<HTMLSourceElement>)
                .next();
            if let Some(element) = source_child_element {
                return Some(Mode::Children(element));
            }
            None
        }
        let mode = if let Some(mode) = mode(self) {
            mode
        } else {
            self.network_state.set(NetworkState::Empty);
            // https://github.com/whatwg/html/issues/3065
            self.delay_load_event(false);
            return;
        };

        // Step 7.
        self.network_state.set(NetworkState::Loading);

        // Step 8.
        let window = window_from_node(self);
        window.media_element_task_source().queue_simple_event(
            self.upcast(),
            atom!("loadstart"),
            &window,
        );

        // Step 9.
        match mode {
            // Step 9.obj.
            Mode::Object => {
                // Step 9.obj.1.
                *self.current_src.borrow_mut() = "".to_owned();

                // Step 9.obj.2.
                // FIXME(nox): The rest of the steps should be ran in parallel.

                // Step 9.obj.3.
                // Note that the resource fetch algorithm itself takes care
                // of the cleanup in case of failure itself.
                self.resource_fetch_algorithm(Resource::Object);
            },
            Mode::Attribute(src) => {
                // Step 9.attr.1.
                if src.is_empty() {
                    self.queue_dedicated_media_source_failure_steps();
                    return;
                }

                // Step 9.attr.2.
                let url_record = match base_url.join(&src) {
                    Ok(url) => url,
                    Err(_) => {
                        self.queue_dedicated_media_source_failure_steps();
                        return;
                    },
                };

                // Step 9.attr.3.
                *self.current_src.borrow_mut() = url_record.as_str().into();

                // Step 9.attr.4.
                // Note that the resource fetch algorithm itself takes care
                // of the cleanup in case of failure itself.
                self.resource_fetch_algorithm(Resource::Url(url_record));
            },
            // Step 9.children.
            Mode::Children(source) => {
                // This is only a partial implementation
                // FIXME: https://github.com/servo/servo/issues/21481
                let src = source.Src();
                // Step 9.attr.2.
                if src.is_empty() {
                    source.upcast::<EventTarget>().fire_event(atom!("error"));
                    self.queue_dedicated_media_source_failure_steps();
                    return;
                }
                // Step 9.attr.3.
                let url_record = match base_url.join(&src) {
                    Ok(url) => url,
                    Err(_) => {
                        source.upcast::<EventTarget>().fire_event(atom!("error"));
                        self.queue_dedicated_media_source_failure_steps();
                        return;
                    },
                };
                // Step 9.attr.8.
                self.resource_fetch_algorithm(Resource::Url(url_record));
            },
        }
    }

    fn fetch_request(&self, offset: Option<u64>) {
        if self.resource_url.borrow().is_none() {
            eprintln!("Missing request url");
            self.queue_dedicated_media_source_failure_steps();
            return;
        }

        // FIXME(nox): Handle CORS setting from crossorigin attribute.
        let document = document_from_node(self);
        let destination = match self.media_type_id() {
            HTMLMediaElementTypeId::HTMLAudioElement => Destination::Audio,
            HTMLMediaElementTypeId::HTMLVideoElement => Destination::Video,
        };
        let mut headers = Headers::new();
        headers.set(HyperRange::Bytes(vec![ByteRangeSpec::AllFrom(
            offset.unwrap_or(0),
        )]));
        let request = RequestInit {
            url: self.resource_url.borrow().as_ref().unwrap().clone(),
            headers,
            destination,
            credentials_mode: CredentialsMode::Include,
            use_url_credentials: true,
            origin: document.origin().immutable().clone(),
            pipeline_id: Some(self.global().pipeline_id()),
            referrer_url: Some(document.url()),
            referrer_policy: document.get_referrer_policy(),
            ..RequestInit::default()
        };

        let context = Arc::new(Mutex::new(HTMLMediaElementContext::new(self)));
        let (action_sender, action_receiver) = ipc::channel().unwrap();
        let window = window_from_node(self);
        let listener = NetworkListener {
            context,
            task_source: window.networking_task_source(),
            canceller: Some(window.task_canceller(TaskSourceName::Networking)),
        };
        ROUTER.add_route(
            action_receiver.to_opaque(),
            Box::new(move |message| {
                listener.notify_fetch(message.to().unwrap());
            }),
        );
        // This method may be called the first time we try to fetch the media
        // resource or after a seek is requested. In the latter case, we need to
        // cancel any previous on-going request. initialize() takes care of
        // cancelling previous fetches if any exist.
        let cancel_receiver = self.fetch_canceller.borrow_mut().initialize();
        let global = self.global();
        global
            .core_resource_thread()
            .send(CoreResourceMsg::Fetch(
                request,
                FetchChannels::ResponseMsg(action_sender, Some(cancel_receiver)),
            ))
            .unwrap();
    }

    // https://html.spec.whatwg.org/multipage/#concept-media-load-resource
    fn resource_fetch_algorithm(&self, resource: Resource) {
        if let Err(e) = self.setup_media_player() {
            eprintln!("Setup media player error {:?}", e);
            self.queue_dedicated_media_source_failure_steps();
            return;
        }

        // XXX(ferjm) Since we only support Blob for now it is fine to always set
        //            the stream type to StreamType::Seekable. Once we support MediaStream,
        //            this should be changed to also consider StreamType::Stream.
        if let Err(e) = self.player.set_stream_type(StreamType::Seekable) {
            eprintln!("Could not set stream type to Seekable. {:?}", e);
        }

        // Steps 1-2.
        // Unapplicable, the `resource` variable already conveys which mode
        // is in use.

        // Step 3.
        // FIXME(nox): Remove all media-resource-specific text tracks.

        // Step 4.
        match resource {
            Resource::Url(url) => {
                // Step 4.remote.1.
                if self.Preload() == "none" && !self.autoplaying.get() {
                    // Step 4.remote.1.1.
                    self.network_state.set(NetworkState::Idle);

                    // Step 4.remote.1.2.
                    let window = window_from_node(self);
                    window.media_element_task_source().queue_simple_event(
                        self.upcast(),
                        atom!("suspend"),
                        &window,
                    );

                    // Step 4.remote.1.3.
                    let this = Trusted::new(self);
                    window
                        .media_element_task_source()
                        .queue(
                            task!(set_media_delay_load_event_flag_to_false: move || {
                            this.root().delay_load_event(false);
                        }),
                            window.upcast(),
                        )
                        .unwrap();

                    // Steps 4.remote.1.4.
                    // FIXME(nox): Somehow we should wait for the task from previous
                    // step to be ran before continuing.

                    // Steps 4.remote.1.5-4.remote.1.7.
                    // FIXME(nox): Wait for an implementation-defined event and
                    // then continue with the normal set of steps instead of just
                    // returning.
                    return;
                }

                // Step 4.remote.2.
                *self.resource_url.borrow_mut() = Some(url);
                self.fetch_request(None);
            },
            Resource::Object => {
                // FIXME(nox): Actually do something with the object.
                self.queue_dedicated_media_source_failure_steps();
            },
        }
    }

    /// Queues a task to run the [dedicated media source failure steps][steps].
    ///
    /// [steps]: https://html.spec.whatwg.org/multipage/#dedicated-media-source-failure-steps
    fn queue_dedicated_media_source_failure_steps(&self) {
        let window = window_from_node(self);
        let this = Trusted::new(self);
        let generation_id = self.generation_id.get();
        self.take_pending_play_promises(Err(Error::NotSupported));
        // FIXME(nox): Why are errors silenced here?
        let _ = window.media_element_task_source().queue(
            task!(dedicated_media_source_failure_steps: move || {
                let this = this.root();
                if generation_id != this.generation_id.get() {
                    return;
                }

                this.fulfill_in_flight_play_promises(|| {
                    // Step 1.
                    this.error.set(Some(&*MediaError::new(
                        &window_from_node(&*this),
                        MEDIA_ERR_SRC_NOT_SUPPORTED,
                    )));

                    // Step 2.
                    // FIXME(nox): Forget the media-resource-specific tracks.

                    // Step 3.
                    this.network_state.set(NetworkState::NoSource);

                    // Step 4.
                    this.show_poster.set(true);

                    // Step 5.
                    this.upcast::<EventTarget>().fire_event(atom!("error"));

                    if let Err(e) = this.player.stop() {
                        eprintln!("Could not stop player {:?}", e);
                    }

                    // Step 6.
                    // Done after running this closure in
                    // `fulfill_in_flight_play_promises`.
                });

                // Step 7.
                this.delay_load_event(false);
            }),
            window.upcast(),
        );
    }

    // https://html.spec.whatwg.org/multipage/#media-element-load-algorithm
    fn media_element_load_algorithm(&self) {
        // Reset the flag that signals whether loadeddata was ever fired for
        // this invokation of the load algorithm.
        self.fired_loadeddata_event.set(false);

        // Step 1-2.
        self.generation_id.set(self.generation_id.get() + 1);

        // Steps 3-4.
        while !self.in_flight_play_promises_queue.borrow().is_empty() {
            self.fulfill_in_flight_play_promises(|| ());
        }

        let window = window_from_node(self);
        let task_source = window.media_element_task_source();

        // Step 5.
        let network_state = self.network_state.get();
        if network_state == NetworkState::Loading || network_state == NetworkState::Idle {
            task_source.queue_simple_event(self.upcast(), atom!("abort"), &window);
        }

        // Step 6.
        if network_state != NetworkState::Empty {
            // Step 6.1.
            task_source.queue_simple_event(self.upcast(), atom!("emptied"), &window);

            // Step 6.2.
            self.fetch_canceller.borrow_mut().cancel();

            // Step 6.3.
            // FIXME(nox): Detach MediaSource media provider object.

            // Step 6.4.
            // FIXME(nox): Forget the media-resource-specific tracks.

            // Step 6.5.
            if self.ready_state.get() != ReadyState::HaveNothing {
                self.change_ready_state(ReadyState::HaveNothing);
            }

            // Step 6.6.
            if !self.Paused() {
                // Step 6.6.1.
                self.paused.set(true);

                // Step 6.6.2.
                self.take_pending_play_promises(Err(Error::Abort));
                self.fulfill_in_flight_play_promises(|| ());
            }

            // Step 6.7.
            if !self.seeking.get() {
                self.seeking.set(false);
            }

            // Step 6.8.
            let queue_timeupdate_event = self.playback_position.get() != 0.;
            self.playback_position.set(0.);
            if queue_timeupdate_event {
                task_source.queue_simple_event(self.upcast(), atom!("timeupdate"), &window);
            }

            // Step 6.9.
            // FIXME(nox): Set timeline offset to NaN.

            // Step 6.10.
            self.duration.set(f64::NAN);
        }

        // Step 7.
        // FIXME(nox): Set playbackRate to defaultPlaybackRate.

        // Step 8.
        self.error.set(None);
        self.autoplaying.set(true);

        // Step 9.
        self.invoke_resource_selection_algorithm();

        // Step 10.
        // FIXME(nox): Stop playback of any previously running media resource.
    }

    /// Appends a promise to the list of pending play promises.
    #[allow(unrooted_must_root)]
    fn push_pending_play_promise(&self, promise: &Rc<Promise>) {
        self.pending_play_promises
            .borrow_mut()
            .push(promise.clone());
    }

    /// Takes the pending play promises.
    ///
    /// The result with which these promises will be fulfilled is passed here
    /// and this method returns nothing because we actually just move the
    /// current list of pending play promises to the
    /// `in_flight_play_promises_queue` field.
    ///
    /// Each call to this method must be followed by a call to
    /// `fulfill_in_flight_play_promises`, to actually fulfill the promises
    /// which were taken and moved to the in-flight queue.
    #[allow(unrooted_must_root)]
    fn take_pending_play_promises(&self, result: ErrorResult) {
        let pending_play_promises =
            mem::replace(&mut *self.pending_play_promises.borrow_mut(), vec![]);
        self.in_flight_play_promises_queue
            .borrow_mut()
            .push_back((pending_play_promises.into(), result));
    }

    /// Fulfills the next in-flight play promises queue after running a closure.
    ///
    /// See the comment on `take_pending_play_promises` for why this method
    /// does not take a list of promises to fulfill. Callers cannot just pop
    /// the front list off of `in_flight_play_promises_queue` and later fulfill
    /// the promises because that would mean putting
    /// `#[allow(unrooted_must_root)]` on even more functions, potentially
    /// hiding actual safety bugs.
    #[allow(unrooted_must_root)]
    fn fulfill_in_flight_play_promises<F>(&self, f: F)
    where
        F: FnOnce(),
    {
        let (promises, result) = self
            .in_flight_play_promises_queue
            .borrow_mut()
            .pop_front()
            .expect("there should be at least one list of in flight play promises");
        f();
        for promise in &*promises {
            match result {
                Ok(ref value) => promise.resolve_native(value),
                Err(ref error) => promise.reject_error(error.clone()),
            }
        }
    }

    /// Handles insertion of `source` children.
    ///
    /// <https://html.spec.whatwg.org/multipage/#the-source-element:nodes-are-inserted>
    pub fn handle_source_child_insertion(&self) {
        if self.upcast::<Element>().has_attribute(&local_name!("src")) {
            return;
        }
        if self.network_state.get() != NetworkState::Empty {
            return;
        }
        self.media_element_load_algorithm();
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-seek
    fn seek(&self, time: f64, _approximate_for_speed: bool) {
        // Step 1.
        self.show_poster.set(false);

        // Step 2.
        if self.ready_state.get() == ReadyState::HaveNothing {
            return;
        }

        // Step 3.
        if self.seeking.get() {
            // This will cancel only the sync part of the seek algorithm.
            self.generation_id.set(self.generation_id.get() + 1);
        }

        // Step 4.
        // The flag will be cleared when the media engine tells us the seek was done.
        self.seeking.set(true);

        // Step 5.
        // XXX(ferjm) The rest of the steps should be run in parallel, so seeking cancelation
        //            can be done properly. No other browser does it yet anyway.

        // Step 6.
        let time = f64::min(time, self.Duration());

        // Step 7.
        let time = f64::max(time, 0.);

        // Step 8.
        // XXX(ferjm) seekable attribute: we need to get the information about
        //            what's been decoded and buffered so far from servo-media
        //            and add the seekable attribute as a TimeRange.

        // Step 9.
        // servo-media with gstreamer does not support inaccurate seeking for now.

        // Step 10.
        let window = window_from_node(self);
        let task_source = window.media_element_task_source();
        task_source.queue_simple_event(self.upcast(), atom!("seeking"), &window);

        // Step 11.
        if let Err(e) = self.player.seek(time) {
            eprintln!("Seek error {:?}", e);
        }

        // The rest of the steps are handled when the media engine signals a
        // ready state change or otherwise satisfies seek completion and signals
        // a position change.
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-seek
    fn seek_end(&self) {
        // Step 14.
        self.seeking.set(false);

        // Step 15.
        self.time_marches_on();

        // Step 16.
        let window = window_from_node(self);
        let task_source = window.media_element_task_source();
        task_source.queue_simple_event(self.upcast(), atom!("timeupdate"), &window);

        // Step 17.
        task_source.queue_simple_event(self.upcast(), atom!("seeked"), &window);
    }

    fn setup_media_player(&self) -> Result<(), ServoMediaError> {
        let (action_sender, action_receiver) = ipc::channel().unwrap();

        self.player.register_event_handler(action_sender)?;
        self.player
            .register_frame_renderer(self.frame_renderer.clone())?;

        let trusted_node = Trusted::new(self);
        let window = window_from_node(self);
        let task_source = window.dom_manipulation_task_source();
        let task_canceller = window.task_canceller(TaskSourceName::DOMManipulation);
        ROUTER.add_route(
            action_receiver.to_opaque(),
            Box::new(move |message| {
                let event: PlayerEvent = message.to().unwrap();
                let this = trusted_node.clone();
                task_source
                    .queue_with_canceller(
                        task!(handle_player_event: move || {
                            this.root().handle_player_event(&event);
                        }),
                        &task_canceller,
                    )
                    .unwrap();
            }),
        );

        Ok(())
    }

    fn handle_player_event(&self, event: &PlayerEvent) {
        match *event {
            PlayerEvent::MetadataUpdated(ref metadata) => {
                // https://html.spec.whatwg.org/multipage/#media-data-processing-steps-list
                // => "Once enough of the media data has been fetched to determine the duration..."
                // Step 1.
                // servo-media owns the media timeline.

                // Step 2.
                // XXX(ferjm) Update the timeline offset.

                // Step 3.
                self.playback_position.set(0.);

                // Step 4.
                if let Some(duration) = metadata.duration {
                    self.duration.set(duration.as_secs() as f64);
                } else {
                    self.duration.set(f64::INFINITY);
                }
                let window = window_from_node(self);
                let task_source = window.dom_manipulation_task_source();
                task_source.queue_simple_event(self.upcast(), atom!("durationchange"), &window);

                // Step 5.
                if self.is::<HTMLVideoElement>() {
                    let video_elem = self.downcast::<HTMLVideoElement>().unwrap();
                    video_elem.set_video_width(metadata.width);
                    video_elem.set_video_height(metadata.height);
                    task_source.queue_simple_event(self.upcast(), atom!("resize"), &window);
                }

                // Step 6.
                self.change_ready_state(ReadyState::HaveMetadata);

                // Step 7.
                let mut _jumped = false;

                // Step 8.
                if self.default_playback_start_position.get() > 0. {
                    self.seek(
                        self.default_playback_start_position.get(),
                        /* approximate_for_speed*/ false,
                    );
                    _jumped = true;
                }

                // Step 9.
                self.default_playback_start_position.set(0.);

                // Steps 10 and 11.
                // XXX(ferjm) Implement parser for
                //            https://www.w3.org/TR/media-frags/#media-fragment-syntax
                //            https://github.com/servo/media/issues/156

                // XXX Steps 12 and 13 require audio and video tracks support.
            },
            PlayerEvent::PositionChanged(position) => {
                self.playback_position.set(position as f64);
            },
            PlayerEvent::StateChanged(ref state) => match *state {
                PlaybackState::Paused => {
                    if self.ready_state.get() == ReadyState::HaveMetadata {
                        self.change_ready_state(ReadyState::HaveEnoughData);
                    }
                },
                _ => {},
            },
            PlayerEvent::EndOfStream => {
                // https://html.spec.whatwg.org/multipage/#media-data-processing-steps-list
                // => "If the media data can be fetched but is found by inspection to be in
                //    an unsupported format, or can otherwise not be rendered at all"
                if self.ready_state.get() < ReadyState::HaveMetadata {
                    self.queue_dedicated_media_source_failure_steps();
                }
            },
            PlayerEvent::FrameUpdated => {
                self.upcast::<Node>().dirty(NodeDamage::OtherNodeDamage);
            },
            PlayerEvent::SeekData(p) => {
                self.fetch_request(Some(p));
            },
            PlayerEvent::SeekDone(_) => {
                // Continuation of
                // https://html.spec.whatwg.org/multipage/#dom-media-seek

                // Step 13.
                let task = MediaElementMicrotask::SeekedTask {
                    elem: DomRoot::from_ref(self),
                    generation_id: self.generation_id.get(),
                };
                ScriptThread::await_stable_state(Microtask::MediaElement(task));
            },
            PlayerEvent::Error => {
                self.error.set(Some(&*MediaError::new(
                    &*window_from_node(self),
                    MEDIA_ERR_DECODE,
                )));
                self.upcast::<EventTarget>().fire_event(atom!("error"));
            },
        }
    }
}

impl HTMLMediaElementMethods for HTMLMediaElement {
    // https://html.spec.whatwg.org/multipage/#dom-media-networkstate
    fn NetworkState(&self) -> u16 {
        self.network_state.get() as u16
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-readystate
    fn ReadyState(&self) -> u16 {
        self.ready_state.get() as u16
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-autoplay
    make_bool_getter!(Autoplay, "autoplay");
    // https://html.spec.whatwg.org/multipage/#dom-media-autoplay
    make_bool_setter!(SetAutoplay, "autoplay");

    // https://html.spec.whatwg.org/multipage/#dom-media-src
    make_url_getter!(Src, "src");

    // https://html.spec.whatwg.org/multipage/#dom-media-src
    make_setter!(SetSrc, "src");

    // https://html.spec.whatwg.org/multipage/#dom-media-srcobject
    fn GetSrcObject(&self) -> Option<DomRoot<Blob>> {
        self.src_object.get()
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-srcobject
    fn SetSrcObject(&self, value: Option<&Blob>) {
        self.src_object.set(value);
        self.media_element_load_algorithm();
    }

    // https://html.spec.whatwg.org/multipage/#attr-media-preload
    // Missing value default is user-agent defined.
    make_enumerated_getter!(Preload, "preload", "", "none" | "metadata" | "auto");
    // https://html.spec.whatwg.org/multipage/#attr-media-preload
    make_setter!(SetPreload, "preload");

    // https://html.spec.whatwg.org/multipage/#dom-media-currentsrc
    fn CurrentSrc(&self) -> DOMString {
        DOMString::from(self.current_src.borrow().clone())
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-load
    fn Load(&self) {
        self.media_element_load_algorithm();
    }

    // https://html.spec.whatwg.org/multipage/#dom-navigator-canplaytype
    fn CanPlayType(&self, type_: DOMString) -> CanPlayTypeResult {
        match type_.parse::<Mime>() {
            Ok(Mime(TopLevel::Application, SubLevel::OctetStream, _)) | Err(_) => {
                CanPlayTypeResult::_empty
            },
            _ => CanPlayTypeResult::Maybe,
        }
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-error
    fn GetError(&self) -> Option<DomRoot<MediaError>> {
        self.error.get()
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-play
    #[allow(unrooted_must_root)]
    fn Play(&self) -> Rc<Promise> {
        let promise = Promise::new(&self.global());
        self.play(&promise);
        promise
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-pause
    fn Pause(&self) {
        // Step 1
        if self.network_state.get() == NetworkState::Empty {
            self.invoke_resource_selection_algorithm();
        }

        // Step 2
        self.internal_pause_steps();
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-paused
    fn Paused(&self) -> bool {
        self.paused.get()
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-duration
    fn Duration(&self) -> f64 {
        self.duration.get()
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-currenttime
    fn CurrentTime(&self) -> Finite<f64> {
        Finite::wrap(if self.default_playback_start_position.get() != 0. {
            self.default_playback_start_position.get()
        } else {
            self.playback_position.get()
        })
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-currenttime
    fn SetCurrentTime(&self, time: Finite<f64>) {
        if self.ready_state.get() == ReadyState::HaveNothing {
            self.default_playback_start_position.set(*time);
        } else {
            self.playback_position.set(*time);
            self.seek(*time, /* approximate_for_speed */ false);
        }
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-seeking
    fn Seeking(&self) -> bool {
        self.seeking.get()
    }

    // https://html.spec.whatwg.org/multipage/#dom-media-fastseek
    fn FastSeek(&self, time: Finite<f64>) {
        self.seek(*time, /* approximat_for_speed */ true);
    }
}

impl VirtualMethods for HTMLMediaElement {
    fn super_type(&self) -> Option<&VirtualMethods> {
        Some(self.upcast::<HTMLElement>() as &VirtualMethods)
    }

    fn attribute_mutated(&self, attr: &Attr, mutation: AttributeMutation) {
        self.super_type().unwrap().attribute_mutated(attr, mutation);

        match attr.local_name() {
            &local_name!("src") => {
                if mutation.new_value(attr).is_some() {
                    self.media_element_load_algorithm();
                }
            },
            _ => (),
        };
    }

    // https://html.spec.whatwg.org/multipage/#playing-the-media-resource:remove-an-element-from-a-document
    fn unbind_from_tree(&self, context: &UnbindContext) {
        self.super_type().unwrap().unbind_from_tree(context);

        if context.tree_in_doc {
            let task = MediaElementMicrotask::PauseIfNotInDocumentTask {
                elem: DomRoot::from_ref(self),
            };
            ScriptThread::await_stable_state(Microtask::MediaElement(task));
        }
    }
}

pub trait LayoutHTMLMediaElementHelpers {
    fn data(&self) -> HTMLMediaData;
}

impl LayoutHTMLMediaElementHelpers for LayoutDom<HTMLMediaElement> {
    #[allow(unsafe_code)]
    fn data(&self) -> HTMLMediaData {
        let media = unsafe { &*self.unsafe_get() };
        HTMLMediaData {
            current_frame: media.frame_renderer.lock().unwrap().current_frame.clone(),
        }
    }
}

#[derive(JSTraceable, MallocSizeOf)]
pub enum MediaElementMicrotask {
    ResourceSelectionTask {
        elem: DomRoot<HTMLMediaElement>,
        generation_id: u32,
        base_url: ServoUrl,
    },
    PauseIfNotInDocumentTask {
        elem: DomRoot<HTMLMediaElement>,
    },
    SeekedTask {
        elem: DomRoot<HTMLMediaElement>,
        generation_id: u32,
    },
}

impl MicrotaskRunnable for MediaElementMicrotask {
    fn handler(&self) {
        match self {
            &MediaElementMicrotask::ResourceSelectionTask {
                ref elem,
                generation_id,
                ref base_url,
            } => {
                if generation_id == elem.generation_id.get() {
                    elem.resource_selection_algorithm_sync(base_url.clone());
                }
            },
            &MediaElementMicrotask::PauseIfNotInDocumentTask { ref elem } => {
                if !elem.upcast::<Node>().is_in_doc() {
                    elem.internal_pause_steps();
                }
            },
            &MediaElementMicrotask::SeekedTask {
                ref elem,
                generation_id,
            } => {
                if generation_id == elem.generation_id.get() {
                    elem.seek_end();
                }
            },
        }
    }
}

enum Resource {
    Object,
    Url(ServoUrl),
}

struct HTMLMediaElementContext {
    /// The element that initiated the request.
    elem: Trusted<HTMLMediaElement>,
    /// The response metadata received to date.
    metadata: Option<Metadata>,
    /// The generation of the media element when this fetch started.
    generation_id: u32,
    /// Time of last progress notification.
    next_progress_event: Timespec,
    /// True if this response is invalid and should be ignored.
    ignore_response: bool,
}

// https://html.spec.whatwg.org/multipage/#media-data-processing-steps-list
impl FetchResponseListener for HTMLMediaElementContext {
    fn process_request_body(&mut self) {}

    fn process_request_eof(&mut self) {}

    fn process_response(&mut self, metadata: Result<FetchMetadata, NetworkError>) {
        self.metadata = metadata.ok().map(|m| match m {
            FetchMetadata::Unfiltered(m) => m,
            FetchMetadata::Filtered { unsafe_, .. } => unsafe_,
        });

        if let Some(metadata) = self.metadata.as_ref() {
            if let Some(headers) = metadata.headers.as_ref() {
                if let Some(content_length) = headers.get::<ContentLength>() {
                    if let Err(e) = self.elem.root().player.set_input_size(**content_length) {
                        eprintln!("Could not set player input size {:?}", e);
                    }
                }
            }
        }

        let status_is_ok = self
            .metadata
            .as_ref()
            .and_then(|m| m.status.as_ref())
            .map_or(true, |s| s.0 >= 200 && s.0 < 300);

        // => "If the media data cannot be fetched at all..."
        if !status_is_ok {
            // Ensure that the element doesn't receive any further notifications
            // of the aborted fetch.
            self.ignore_response = true;
            let elem = self.elem.root();
            elem.fetch_canceller.borrow_mut().cancel();
            elem.queue_dedicated_media_source_failure_steps();
        }
    }

    fn process_response_chunk(&mut self, payload: Vec<u8>) {
        if self.ignore_response {
            // An error was received previously, skip processing the payload.
            return;
        }

        let elem = self.elem.root();

        // Push input data into the player.
        if let Err(e) = elem.player.push_data(payload) {
            eprintln!("Could not push input data to player {:?}", e);
            return;
        }

        // https://html.spec.whatwg.org/multipage/#concept-media-load-resource step 4,
        // => "If mode is remote" step 2
        if time::get_time() > self.next_progress_event {
            let window = window_from_node(&*elem);
            window.media_element_task_source().queue_simple_event(
                elem.upcast(),
                atom!("progress"),
                &window,
            );
            self.next_progress_event = time::get_time() + Duration::milliseconds(350);
        }
    }

    // https://html.spec.whatwg.org/multipage/#media-data-processing-steps-list
    fn process_response_eof(&mut self, status: Result<(), NetworkError>) {
        if self.ignore_response {
            // An error was received previously, skip processing the payload.
            return;
        }
        let elem = self.elem.root();

        // Signal the eos to player.
        if let Err(e) = elem.player.end_of_stream() {
            eprintln!("Could not signal EOS to player {:?}", e);
        }

        if status.is_ok() {
            if elem.ready_state.get() == ReadyState::HaveNothing {
                // Make sure that we don't skip the HaveMetadata and HaveCurrentData
                // states for short streams.
                elem.change_ready_state(ReadyState::HaveMetadata);
            }
            elem.change_ready_state(ReadyState::HaveEnoughData);

            elem.upcast::<EventTarget>().fire_event(atom!("progress"));

            elem.network_state.set(NetworkState::Idle);

            elem.upcast::<EventTarget>().fire_event(atom!("suspend"));

            elem.delay_load_event(false);
        }
        // => "If the connection is interrupted after some media data has been received..."
        else if elem.ready_state.get() != ReadyState::HaveNothing {
            // Step 1
            elem.fetch_canceller.borrow_mut().cancel();

            // Step 2
            elem.error.set(Some(&*MediaError::new(
                &*window_from_node(&*elem),
                MEDIA_ERR_NETWORK,
            )));

            // Step 3
            elem.network_state.set(NetworkState::Idle);

            // Step 4.
            elem.delay_load_event(false);

            // Step 5
            elem.upcast::<EventTarget>().fire_event(atom!("error"));
        } else {
            // => "If the media data cannot be fetched at all..."
            elem.queue_dedicated_media_source_failure_steps();
        }
    }
}

impl PreInvoke for HTMLMediaElementContext {
    fn should_invoke(&self) -> bool {
        //TODO: finish_load needs to run at some point if the generation changes.
        self.elem.root().generation_id.get() == self.generation_id
    }
}

impl HTMLMediaElementContext {
    fn new(elem: &HTMLMediaElement) -> HTMLMediaElementContext {
        HTMLMediaElementContext {
            elem: Trusted::new(elem),
            metadata: None,
            generation_id: elem.generation_id.get(),
            next_progress_event: time::get_time() + Duration::milliseconds(350),
            ignore_response: false,
        }
    }
}