path: root/components/net/image_cache_task.rs

/* 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 ipc_channel::ipc::{self, IpcSender};
use ipc_channel::router::ROUTER;
use net_traits::image::base::{Image, load_from_memory};
use net_traits::image_cache_task::ImageResponder;
use net_traits::image_cache_task::{ImageCacheChan, ImageCacheCommand, ImageCacheTask, ImageState};
use net_traits::image_cache_task::{ImageCacheResult, ImageResponse, UsePlaceholder};
use net_traits::load_whole_resource;
use net_traits::{AsyncResponseTarget, ControlMsg, LoadConsumer, LoadData, ResourceTask, ResponseAction};
use std::borrow::ToOwned;
use std::collections::HashMap;
use std::collections::hash_map::Entry::{Occupied, Vacant};
use std::mem;
use std::sync::Arc;
use std::sync::mpsc::{Receiver, Select, Sender, channel};
use url::Url;
use util::resource_files::resources_dir_path;
use util::task::spawn_named;
use util::taskpool::TaskPool;

///
/// TODO(gw): Remaining work on image cache:
///     * Make use of the prefetch support in various parts of the code.
///     * Experiment with changing the image 'key' from being a url to a resource id
///         This might be a decent performance win and/or memory saving in some cases (esp. data urls)
///     * Profile time in GetImageIfAvailable - might be worth caching these results per paint / layout task.
///

/// Represents an image that is either being loaded
/// by the resource task, or decoded by a worker thread.
struct PendingLoad {
    bytes: Vec<u8>,
    result: Option<Result<(), String>>,
    listeners: Vec<ImageListener>,
}

impl PendingLoad {
    fn new() -> PendingLoad {
        PendingLoad {
            bytes: vec!(),
            result: None,
            listeners: vec!(),
        }
    }

    fn add_listener(&mut self, listener: ImageListener) {
        self.listeners.push(listener);
    }
}

/// Represents an image that has completed loading.
/// Images that fail to load (due to network or decode
/// failure) are still stored here, so that they aren't
/// fetched again.
struct CompletedLoad {
    image_response: ImageResponse,
}

impl CompletedLoad {
    fn new(image_response: ImageResponse) -> CompletedLoad {
        CompletedLoad {
            image_response: image_response,
        }
    }
}

/// Stores information to notify a client when the state
/// of an image changes.
struct ImageListener {
    sender: ImageCacheChan,
    responder: Option<ImageResponder>,
}

impl ImageListener {
    fn new(sender: ImageCacheChan, responder: Option<ImageResponder>) -> ImageListener {
        ImageListener {
            sender: sender,
            responder: responder,
        }
    }

    fn notify(self, image_response: ImageResponse) {
        let ImageCacheChan(ref sender) = self.sender;
        let msg = ImageCacheResult {
            responder: self.responder,
            image_response: image_response,
        };
        sender.send(msg).ok();
    }
}

struct ResourceLoadInfo {
    action: ResponseAction,
    url: Url,
}

/// Implementation of the image cache
struct ImageCache {
    // Receive commands from clients
    cmd_receiver: Receiver<ImageCacheCommand>,

    // Receive notifications from the resource task
    progress_receiver: Receiver<ResourceLoadInfo>,
    progress_sender: Sender<ResourceLoadInfo>,

    // Receive notifications from the decoder thread pool
    decoder_receiver: Receiver<DecoderMsg>,
    decoder_sender: Sender<DecoderMsg>,

    // Worker threads for decoding images.
    task_pool: TaskPool,

    // Resource task handle
    resource_task: ResourceTask,

    // Images that are loading over network, or decoding.
    pending_loads: HashMap<Url, PendingLoad>,

    // Images that have finished loading (successful or not)
    completed_loads: HashMap<Url, CompletedLoad>,

    // The placeholder image used when an image fails to load
    placeholder_image: Option<Arc<Image>>,
}

/// Message that the decoder worker threads send to main image cache task.
struct DecoderMsg {
    url: Url,
    image: Option<Image>,
}

/// The types of messages that the main image cache task receives.
enum SelectResult {
    Command(ImageCacheCommand),
    Progress(ResourceLoadInfo),
    Decoder(DecoderMsg),
}

impl ImageCache {
    fn run(&mut self) {
        let mut exit_sender: Option<IpcSender<()>> = None;

        loop {
            let result = {
                let sel = Select::new();

                let mut cmd_handle = sel.handle(&self.cmd_receiver);
                let mut progress_handle = sel.handle(&self.progress_receiver);
                let mut decoder_handle = sel.handle(&self.decoder_receiver);

                unsafe {
                    cmd_handle.add();
                    progress_handle.add();
                    decoder_handle.add();
                }

                let ret = sel.wait();

                if ret == cmd_handle.id() {
                    SelectResult::Command(self.cmd_receiver.recv().unwrap())
                } else if ret == decoder_handle.id() {
                    SelectResult::Decoder(self.decoder_receiver.recv().unwrap())
                } else {
                    SelectResult::Progress(self.progress_receiver.recv().unwrap())
                }
            };

            match result {
                SelectResult::Command(cmd) => {
                    exit_sender = self.handle_cmd(cmd);
                }
                SelectResult::Progress(msg) => {
                    self.handle_progress(msg);
                }
                SelectResult::Decoder(msg) => {
                    self.handle_decoder(msg);
                }
            }

            // Can only exit when all pending loads are complete.
            if let Some(ref exit_sender) = exit_sender {
                if self.pending_loads.is_empty() {
                    exit_sender.send(()).unwrap();
                    break;
                }
            }
        }
    }

    // Handle a request from a client
    fn handle_cmd(&mut self, cmd: ImageCacheCommand) -> Option<IpcSender<()>> {
        match cmd {
            ImageCacheCommand::Exit(sender) => {
                return Some(sender);
            }
            ImageCacheCommand::RequestImage(url, result_chan, responder) => {
                self.request_image(url, result_chan, responder);
            }
            ImageCacheCommand::GetImageIfAvailable(url, use_placeholder, consumer) => {
                let result = match self.completed_loads.get(&url) {
                    Some(completed_load) => {
                        match (completed_load.image_response.clone(), use_placeholder) {
                            (ImageResponse::Loaded(image), _) |
                            (ImageResponse::PlaceholderLoaded(image), UsePlaceholder::Yes) => {
                                Ok(image)
                            }
                            (ImageResponse::PlaceholderLoaded(_), UsePlaceholder::No) |
                            (ImageResponse::None, _) => {
                                Err(ImageState::LoadError)
                            }
                        }
                    }
                    None => {
                        let pending_load = self.pending_loads.get(&url);
                        Err(pending_load.map_or(ImageState::NotRequested, |_| ImageState::Pending))
                    }
                };
                consumer.send(result).unwrap();
            }
        };

        None
    }

    // Handle progress messages from the resource task
    fn handle_progress(&mut self, msg: ResourceLoadInfo) {
        match msg.action {
            ResponseAction::HeadersAvailable(_) => {}
            ResponseAction::DataAvailable(data) => {
                let pending_load = self.pending_loads.get_mut(&msg.url).unwrap();
                pending_load.bytes.push_all(&data);
            }
            ResponseAction::ResponseComplete(result) => {
                match result {
                    Ok(()) => {
                        let pending_load = self.pending_loads.get_mut(&msg.url).unwrap();
                        pending_load.result = Some(result);

                        let bytes = mem::replace(&mut pending_load.bytes, vec!());
                        let url = msg.url.clone();
                        let sender = self.decoder_sender.clone();

                        self.task_pool.execute(move || {
                            let image = load_from_memory(&bytes);
                            let msg = DecoderMsg {
                                url: url,
                                image: image
                            };
                            sender.send(msg).unwrap();
                        });
                    }
                    Err(_) => {
                        match self.placeholder_image.clone() {
                            Some(placeholder_image) => {
                                self.complete_load(msg.url, ImageResponse::PlaceholderLoaded(
                                        placeholder_image))
                            }
                            None => self.complete_load(msg.url, ImageResponse::None),
                        }
                    }
                }
            }
        }
    }

    // Handle a message from one of the decoder worker threads
    fn handle_decoder(&mut self, msg: DecoderMsg) {
        let image = match msg.image {
            None => ImageResponse::None,
            Some(image) => ImageResponse::Loaded(Arc::new(image)),
        };
        self.complete_load(msg.url, image);
    }

    // Change state of a url from pending -> loaded.
    fn complete_load(&mut self, url: Url, image_response: ImageResponse) {
        let pending_load = self.pending_loads.remove(&url).unwrap();

        let completed_load = CompletedLoad::new(image_response.clone());
        self.completed_loads.insert(url, completed_load);

        for listener in pending_load.listeners {
            listener.notify(image_response.clone());
        }
    }

    // Request an image from the cache
    fn request_image(&mut self,
                     url: Url,
                     result_chan: ImageCacheChan,
                     responder: Option<ImageResponder>) {
        let image_listener = ImageListener::new(result_chan, responder);

        // Check if already completed
        match self.completed_loads.get(&url) {
            Some(completed_load) => {
                // It's already completed, return a notify straight away
                image_listener.notify(completed_load.image_response.clone());
            }
            None => {
                // Check if the load is already pending
                match self.pending_loads.entry(url.clone()) {
                    Occupied(mut e) => {
                        // It's pending, so add the listener for state changes
                        let pending_load = e.get_mut();
                        pending_load.add_listener(image_listener);
                    }
                    Vacant(e) => {
                        // A new load request! Add the pending load and request
                        // it from the resource task.
                        let mut pending_load = PendingLoad::new();
                        pending_load.add_listener(image_listener);
                        e.insert(pending_load);

                        let load_data = LoadData::new(url.clone(), None);
                        let (action_sender, action_receiver) = ipc::channel().unwrap();
                        let response_target = AsyncResponseTarget {
                            sender: action_sender,
                        };
                        let msg = ControlMsg::Load(load_data,
                                                   LoadConsumer::Listener(response_target));
                        let progress_sender = self.progress_sender.clone();
                        ROUTER.add_route(action_receiver.to_opaque(), box move |message| {
                            let action: ResponseAction = message.to().unwrap();
                            progress_sender.send(ResourceLoadInfo {
                                action: action,
                                url: url.clone(),
                            }).unwrap();
                        });
                        self.resource_task.send(msg).unwrap();
                    }
                }
            }
        }
    }
}

/// Create a new image cache.
pub fn new_image_cache_task(resource_task: ResourceTask) -> ImageCacheTask {
    let (ipc_command_sender, ipc_command_receiver) = ipc::channel().unwrap();
    let (progress_sender, progress_receiver) = channel();
    let (decoder_sender, decoder_receiver) = channel();

    spawn_named("ImageCacheThread".to_owned(), move || {

        // Preload the placeholder image, used when images fail to load.
        let mut placeholder_url = resources_dir_path();
        placeholder_url.push("rippy.jpg");
        let placeholder_image = match Url::from_file_path(&*placeholder_url) {
            Ok(url) => {
                match load_whole_resource(&resource_task, url) {
                    Err(..) => {
                        debug!("image_cache_task: failed loading the placeholder.");
                        None
                    }
                    Ok((_, image_data)) => {
                        Some(Arc::new(load_from_memory(&image_data).unwrap()))
                    }
                }
            }
            Err(..) => {
                debug!("image_cache_task: url {}", placeholder_url.display());
                None
            }
        };

        // Ask the router to proxy messages received over IPC to us.
        let cmd_receiver = ROUTER.route_ipc_receiver_to_new_mpsc_receiver(ipc_command_receiver);

        let mut cache = ImageCache {
            cmd_receiver: cmd_receiver,
            progress_sender: progress_sender,
            progress_receiver: progress_receiver,
            decoder_sender: decoder_sender,
            decoder_receiver: decoder_receiver,
            task_pool: TaskPool::new(4),
            pending_loads: HashMap::new(),
            completed_loads: HashMap::new(),
            resource_task: resource_task,
            placeholder_image: placeholder_image,
        };

        cache.run();
    });

    ImageCacheTask::new(ipc_command_sender)
}