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servo/components/net/image_cache.rs
Narfinger ca47cc2fa3
Add a basic caching mechanism for ImageKeys. (#37369) 
This creates a new method in shared/compositing/lib to generate image
keys that are send over the webview. This does not immediately return
the keys but goes over the constellation to receive the keys from the
IOCompositor. To make this more efficient, we now cache the keys in
image_cache in a simple FIFO order. The old blocking method stays intact
for now but got renamed to make the blocking clear.
The blocking calls that are left are in:
- `components/canvas/canvas_data.rs`
- `components/script/dom/htmlmediaelement.rs`

Testing: WPT tests should cover this as this doesn't change any
functionality.
Fixes: Was mentioned in
https://github.com/servo/servo/issues/37161#issuecomment-2915750051 and
part of https://github.com/servo/servo/issues/37086

---------

Signed-off-by: Narfinger <Narfinger@users.noreply.github.com>
Signed-off-by: gterzian <2792687+gterzian@users.noreply.github.com>
Co-authored-by: gterzian <2792687+gterzian@users.noreply.github.com>
2025-07-03 13:16:43 +00:00

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/* 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 https://mozilla.org/MPL/2.0/. */
use std::cmp::min;
use std::collections::hash_map::Entry::{Occupied, Vacant};
use std::collections::{HashMap, VecDeque};
use std::sync::{Arc, Mutex};
use std::{mem, thread};
use base::id::PipelineId;
use compositing_traits::{CrossProcessCompositorApi, ImageUpdate, SerializableImageData};
use imsz::imsz_from_reader;
use ipc_channel::ipc::{IpcSender, IpcSharedMemory};
use log::{debug, error, warn};
use malloc_size_of::{MallocSizeOf as MallocSizeOfTrait, MallocSizeOfOps};
use malloc_size_of_derive::MallocSizeOf;
use mime::Mime;
use net_traits::image_cache::{
Image, ImageCache, ImageCacheResponseMessage, ImageCacheResult, ImageLoadListener,
ImageOrMetadataAvailable, ImageResponse, PendingImageId, RasterizationCompleteResponse,
UsePlaceholder, VectorImage,
};
use net_traits::request::CorsSettings;
use net_traits::{FetchMetadata, FetchResponseMsg, FilteredMetadata, NetworkError};
use pixels::{CorsStatus, ImageFrame, ImageMetadata, PixelFormat, RasterImage, load_from_memory};
use profile_traits::mem::{Report, ReportKind};
use profile_traits::path;
use resvg::{tiny_skia, usvg};
use servo_config::pref;
use servo_url::{ImmutableOrigin, ServoUrl};
use webrender_api::units::DeviceIntSize;
use webrender_api::{
ImageDescriptor, ImageDescriptorFlags, ImageFormat, ImageKey as WebRenderImageKey,
};
use crate::resource_thread::CoreResourceThreadPool;
// We bake in rippy.png as a fallback, in case the embedder does not provide
// a rippy resource. this version is 253 bytes large, don't exchange it against
// something in higher resolution.
const FALLBACK_RIPPY: &[u8] = include_bytes!("../../resources/rippy.png");
//
// TODO(gw): Remaining work on image cache:
// * Make use of the prefetch support in various parts of the code.
// * Profile time in GetImageIfAvailable - might be worth caching these
// results per paint / layout.
//
// MAYBE(Yoric):
// * For faster lookups, it might be useful to store the LoadKey in the
// DOM once we have performed a first load.
// ======================================================================
// Helper functions.
// ======================================================================
fn parse_svg_document_in_memory(bytes: &[u8]) -> Result<usvg::Tree, &'static str> {
let image_string_href_resolver = Box::new(move |_: &str, _: &usvg::Options| {
// Do not try to load `href` in <image> as local file path.
None
});
let mut opt = usvg::Options {
image_href_resolver: usvg::ImageHrefResolver {
resolve_data: usvg::ImageHrefResolver::default_data_resolver(),
resolve_string: image_string_href_resolver,
},
..usvg::Options::default()
};
opt.fontdb_mut().load_system_fonts();
usvg::Tree::from_data(bytes, &opt)
.inspect_err(|error| {
warn!("Error when parsing SVG data: {error}");
})
.map_err(|_| "Not a valid SVG document")
}
fn decode_bytes_sync(
key: LoadKey,
bytes: &[u8],
cors: CorsStatus,
content_type: Option<Mime>,
) -> DecoderMsg {
let image = if content_type == Some(mime::IMAGE_SVG) {
parse_svg_document_in_memory(bytes).ok().map(|svg_tree| {
DecodedImage::Vector(VectorImageData {
svg_tree: Arc::new(svg_tree),
cors_status: cors,
})
})
} else {
load_from_memory(bytes, cors).map(DecodedImage::Raster)
};
DecoderMsg { key, image }
}
/// This will block on getting an ImageKey
/// but that is ok because it is done once upon start-up of a script-thread.
fn get_placeholder_image(
compositor_api: &CrossProcessCompositorApi,
data: &[u8],
) -> Arc<RasterImage> {
let mut image = load_from_memory(data, CorsStatus::Unsafe)
.or_else(|| load_from_memory(FALLBACK_RIPPY, CorsStatus::Unsafe))
.expect("load fallback image failed");
let image_key = compositor_api
.generate_image_key_blocking()
.expect("Could not generate image key");
set_webrender_image_key(compositor_api, &mut image, image_key);
Arc::new(image)
}
fn set_webrender_image_key(
compositor_api: &CrossProcessCompositorApi,
image: &mut RasterImage,
image_key: WebRenderImageKey,
) {
if image.id.is_some() {
return;
}
let mut bytes = Vec::new();
let frame_bytes = image.first_frame().bytes;
let is_opaque = match image.format {
PixelFormat::BGRA8 | PixelFormat::RGBA8 => {
bytes.extend_from_slice(frame_bytes);
pixels::rgba8_premultiply_inplace(bytes.as_mut_slice())
},
PixelFormat::RGB8 => {
bytes.reserve(frame_bytes.len() / 3 * 4);
for bgr in frame_bytes.chunks(3) {
bytes.extend_from_slice(&[bgr[2], bgr[1], bgr[0], 0xff]);
}
true
},
PixelFormat::K8 | PixelFormat::KA8 => {
panic!("Not support by webrender yet");
},
};
let format = if matches!(image.format, PixelFormat::RGBA8) {
ImageFormat::RGBA8
} else {
ImageFormat::BGRA8
};
let mut flags = ImageDescriptorFlags::ALLOW_MIPMAPS;
flags.set(ImageDescriptorFlags::IS_OPAQUE, is_opaque);
let size = DeviceIntSize::new(image.metadata.width as i32, image.metadata.height as i32);
let descriptor = ImageDescriptor {
size,
stride: None,
format,
offset: 0,
flags,
};
let data = SerializableImageData::Raw(IpcSharedMemory::from_bytes(&bytes));
compositor_api.add_image(image_key, descriptor, data);
image.id = Some(image_key);
}
// ======================================================================
// Aux structs and enums.
// ======================================================================
/// <https://html.spec.whatwg.org/multipage/#list-of-available-images>
type ImageKey = (ServoUrl, ImmutableOrigin, Option<CorsSettings>);
// Represents all the currently pending loads/decodings. For
// performance reasons, loads are indexed by a dedicated load key.
#[derive(MallocSizeOf)]
struct AllPendingLoads {
// The loads, indexed by a load key. Used during most operations,
// for performance reasons.
loads: HashMap<LoadKey, PendingLoad>,
// Get a load key from its url and requesting origin. Used ony when starting and
// finishing a load or when adding a new listener.
url_to_load_key: HashMap<ImageKey, LoadKey>,
// A counter used to generate instances of LoadKey
keygen: LoadKeyGenerator,
}
impl AllPendingLoads {
fn new() -> AllPendingLoads {
AllPendingLoads {
loads: HashMap::new(),
url_to_load_key: HashMap::new(),
keygen: LoadKeyGenerator::new(),
}
}
// get a PendingLoad from its LoadKey.
fn get_by_key_mut(&mut self, key: &LoadKey) -> Option<&mut PendingLoad> {
self.loads.get_mut(key)
}
fn remove(&mut self, key: &LoadKey) -> Option<PendingLoad> {
self.loads.remove(key).inspect(|pending_load| {
self.url_to_load_key
.remove(&(
pending_load.url.clone(),
pending_load.load_origin.clone(),
pending_load.cors_setting,
))
.unwrap();
})
}
fn get_cached(
&mut self,
url: ServoUrl,
origin: ImmutableOrigin,
cors_status: Option<CorsSettings>,
) -> CacheResult<'_> {
match self
.url_to_load_key
.entry((url.clone(), origin.clone(), cors_status))
{
Occupied(url_entry) => {
let load_key = url_entry.get();
CacheResult::Hit(*load_key, self.loads.get_mut(load_key).unwrap())
},
Vacant(url_entry) => {
let load_key = self.keygen.next();
url_entry.insert(load_key);
let pending_load = PendingLoad::new(url, origin, cors_status);
match self.loads.entry(load_key) {
Occupied(_) => unreachable!(),
Vacant(load_entry) => {
let mut_load = load_entry.insert(pending_load);
CacheResult::Miss(Some((load_key, mut_load)))
},
}
},
}
}
}
/// Result of accessing a cache.
enum CacheResult<'a> {
/// The value was in the cache.
Hit(LoadKey, &'a mut PendingLoad),
/// The value was not in the cache and needed to be regenerated.
Miss(Option<(LoadKey, &'a mut PendingLoad)>),
}
/// 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.
#[derive(MallocSizeOf)]
struct CompletedLoad {
image_response: ImageResponse,
id: PendingImageId,
}
impl CompletedLoad {
fn new(image_response: ImageResponse, id: PendingImageId) -> CompletedLoad {
CompletedLoad { image_response, id }
}
}
#[derive(Clone, Debug, MallocSizeOf)]
struct VectorImageData {
#[conditional_malloc_size_of]
svg_tree: Arc<usvg::Tree>,
cors_status: CorsStatus,
}
enum DecodedImage {
Raster(RasterImage),
Vector(VectorImageData),
}
/// Message that the decoder worker threads send to the image cache.
struct DecoderMsg {
key: LoadKey,
image: Option<DecodedImage>,
}
#[derive(MallocSizeOf)]
enum ImageBytes {
InProgress(Vec<u8>),
Complete(#[conditional_malloc_size_of] Arc<Vec<u8>>),
}
impl ImageBytes {
fn extend_from_slice(&mut self, data: &[u8]) {
match *self {
ImageBytes::InProgress(ref mut bytes) => bytes.extend_from_slice(data),
ImageBytes::Complete(_) => panic!("attempted modification of complete image bytes"),
}
}
fn mark_complete(&mut self) -> Arc<Vec<u8>> {
let bytes = {
let own_bytes = match *self {
ImageBytes::InProgress(ref mut bytes) => bytes,
ImageBytes::Complete(_) => panic!("attempted modification of complete image bytes"),
};
mem::take(own_bytes)
};
let bytes = Arc::new(bytes);
*self = ImageBytes::Complete(bytes.clone());
bytes
}
fn as_slice(&self) -> &[u8] {
match *self {
ImageBytes::InProgress(ref bytes) => bytes,
ImageBytes::Complete(ref bytes) => bytes,
}
}
}
// A key used to communicate during loading.
type LoadKey = PendingImageId;
#[derive(MallocSizeOf)]
struct LoadKeyGenerator {
counter: u64,
}
impl LoadKeyGenerator {
fn new() -> LoadKeyGenerator {
LoadKeyGenerator { counter: 0 }
}
fn next(&mut self) -> PendingImageId {
self.counter += 1;
PendingImageId(self.counter)
}
}
#[derive(Debug)]
enum LoadResult {
LoadedRasterImage(RasterImage),
LoadedVectorImage(VectorImageData),
PlaceholderLoaded(Arc<RasterImage>),
None,
}
/// Represents an image that is either being loaded
/// by the resource thread, or decoded by a worker thread.
#[derive(MallocSizeOf)]
struct PendingLoad {
/// The bytes loaded so far. Reset to an empty vector once loading
/// is complete and the buffer has been transmitted to the decoder.
bytes: ImageBytes,
/// Image metadata, if available.
metadata: Option<ImageMetadata>,
/// Once loading is complete, the result of the operation.
result: Option<Result<(), NetworkError>>,
/// The listeners that are waiting for this response to complete.
listeners: Vec<ImageLoadListener>,
/// The url being loaded. Do not forget that this may be several Mb
/// if we are loading a data: url.
url: ServoUrl,
/// The origin that requested this load.
load_origin: ImmutableOrigin,
/// The CORS attribute setting for the requesting
cors_setting: Option<CorsSettings>,
/// The CORS status of this image response.
cors_status: CorsStatus,
/// The URL of the final response that contains a body.
final_url: Option<ServoUrl>,
/// The MIME type from the `Content-type` header of the HTTP response, if any.
content_type: Option<Mime>,
}
impl PendingLoad {
fn new(
url: ServoUrl,
load_origin: ImmutableOrigin,
cors_setting: Option<CorsSettings>,
) -> PendingLoad {
PendingLoad {
bytes: ImageBytes::InProgress(vec![]),
metadata: None,
result: None,
listeners: vec![],
url,
load_origin,
final_url: None,
cors_setting,
cors_status: CorsStatus::Unsafe,
content_type: None,
}
}
fn add_listener(&mut self, listener: ImageLoadListener) {
self.listeners.push(listener);
}
}
#[derive(Default, MallocSizeOf)]
struct RasterizationTask {
listeners: Vec<(PipelineId, IpcSender<ImageCacheResponseMessage>)>,
result: Option<RasterImage>,
}
/// Used for storing images that do not have a `WebRenderImageKey` yet.
#[derive(Debug, MallocSizeOf)]
enum PendingKey {
RasterImage((LoadKey, RasterImage)),
Svg((LoadKey, RasterImage, DeviceIntSize)),
}
/// The state of the `WebRenderImageKey`` cache
#[derive(Debug, MallocSizeOf)]
enum KeyCacheState {
/// We already requested a batch of keys.
PendingBatch,
/// We have some keys in the cache.
Ready(Vec<WebRenderImageKey>),
}
impl KeyCacheState {
fn size(&self) -> usize {
match self {
KeyCacheState::PendingBatch => 0,
KeyCacheState::Ready(items) => items.len(),
}
}
}
/// As getting new keys takes a round trip over the constellation, we keep a small cache of them.
/// Additionally, this cache will store image resources that do not have a key yet because those
/// are needed to complete the load.
#[derive(MallocSizeOf)]
struct KeyCache {
/// A cache of `WebRenderImageKey`.
cache: KeyCacheState,
/// These images are loaded but have no key assigned to yet.
images_pending_keys: VecDeque<PendingKey>,
}
impl KeyCache {
fn new() -> Self {
KeyCache {
cache: KeyCacheState::Ready(Vec::new()),
images_pending_keys: VecDeque::new(),
}
}
}
/// ## Image cache implementation.
#[derive(MallocSizeOf)]
struct ImageCacheStore {
/// Images that are loading over network, or decoding.
pending_loads: AllPendingLoads,
/// Images that have finished loading (successful or not)
completed_loads: HashMap<ImageKey, CompletedLoad>,
/// Vector (e.g. SVG) images that have been sucessfully loaded and parsed
/// but are yet to be rasterized. Since the same SVG data can be used for
/// rasterizing at different sizes, we use this hasmap to share the data.
vector_images: HashMap<PendingImageId, VectorImageData>,
/// Vector images for which rasterization at a particular size has started
/// or completed. If completed, the `result` member of `RasterizationTask`
/// contains the rasterized image.
rasterized_vector_images: HashMap<(PendingImageId, DeviceIntSize), RasterizationTask>,
/// The placeholder image used when an image fails to load
#[conditional_malloc_size_of]
placeholder_image: Arc<RasterImage>,
/// The URL used for the placeholder image
placeholder_url: ServoUrl,
/// Cross-process compositor API instance.
#[ignore_malloc_size_of = "Channel from another crate"]
compositor_api: CrossProcessCompositorApi,
// The PipelineId will initially be None because the constructed cache is not associated
// with any pipeline yet. This will happen later by way of `create_new_image_cache`.
pipeline_id: Option<PipelineId>,
/// Main struct to handle the cache of `WebRenderImageKey` and
/// images that do not have a key yet.
key_cache: KeyCache,
}
impl ImageCacheStore {
/// Finishes loading the image by setting the WebRenderImageKey and calling `compete_load` or `complete_load_svg`.
fn set_key_and_finish_load(&mut self, pending_image: PendingKey, image_key: WebRenderImageKey) {
match pending_image {
PendingKey::RasterImage((pending_id, mut raster_image)) => {
set_webrender_image_key(&self.compositor_api, &mut raster_image, image_key);
self.complete_load(pending_id, LoadResult::LoadedRasterImage(raster_image));
},
PendingKey::Svg((pending_id, mut raster_image, requested_size)) => {
set_webrender_image_key(&self.compositor_api, &mut raster_image, image_key);
self.complete_load_svg(raster_image, pending_id, requested_size);
},
}
}
/// If a key is available the image will be immediately loaded, otherwise it will load then the next batch of
/// keys is received. Only call this if the image does not have a `LoadKey` yet.
fn load_image_with_keycache(&mut self, pending_image: PendingKey) {
if let Some(pipeline_id) = self.pipeline_id {
match self.key_cache.cache {
KeyCacheState::PendingBatch => {
self.key_cache.images_pending_keys.push_back(pending_image);
},
KeyCacheState::Ready(ref mut cache) => match cache.pop() {
Some(image_key) => {
self.set_key_and_finish_load(pending_image, image_key);
},
None => {
self.key_cache.images_pending_keys.push_back(pending_image);
self.compositor_api.generate_image_key_async(pipeline_id);
self.key_cache.cache = KeyCacheState::PendingBatch
},
},
}
} else {
error!("No pipeline id for this image key cache.");
}
}
/// Insert received keys into the cache and complete the loading of images.
fn insert_keys_and_load_images(&mut self, image_keys: Vec<WebRenderImageKey>) {
if let KeyCacheState::PendingBatch = self.key_cache.cache {
self.key_cache.cache = KeyCacheState::Ready(image_keys);
let len = min(
self.key_cache.cache.size(),
self.key_cache.images_pending_keys.len(),
);
let images = self
.key_cache
.images_pending_keys
.drain(0..len)
.collect::<Vec<PendingKey>>();
for key in images {
self.load_image_with_keycache(key);
}
if !self.key_cache.images_pending_keys.is_empty() {
self.compositor_api
.generate_image_key_async(self.pipeline_id.unwrap());
self.key_cache.cache = KeyCacheState::PendingBatch
}
} else {
unreachable!("A batch was received while we didn't request one")
}
}
/// Complete the loading the of the rasterized svg image. This needs the `RasterImage` to
/// already have a `WebRenderImageKey`.
fn complete_load_svg(
&mut self,
rasterized_image: RasterImage,
pending_image_id: PendingImageId,
requested_size: DeviceIntSize,
) {
let listeners = {
self.rasterized_vector_images
.get_mut(&(pending_image_id, requested_size))
.map(|task| {
task.result = Some(rasterized_image);
std::mem::take(&mut task.listeners)
})
.unwrap_or_default()
};
for (pipeline_id, sender) in listeners {
let _ = sender.send(ImageCacheResponseMessage::VectorImageRasterizationComplete(
RasterizationCompleteResponse {
pipeline_id,
image_id: pending_image_id,
requested_size,
},
));
}
}
/// The rest of complete load. This requires that images have a valid `WebRenderImageKey`.
fn complete_load(&mut self, key: LoadKey, load_result: LoadResult) {
debug!("Completed decoding for {:?}", load_result);
let pending_load = match self.pending_loads.remove(&key) {
Some(load) => load,
None => return,
};
let url = pending_load.final_url.clone();
let image_response = match load_result {
LoadResult::LoadedRasterImage(raster_image) => {
assert!(raster_image.id.is_some());
ImageResponse::Loaded(Image::Raster(Arc::new(raster_image)), url.unwrap())
},
LoadResult::LoadedVectorImage(vector_image) => {
self.vector_images.insert(key, vector_image.clone());
let natural_dimensions = vector_image.svg_tree.size().to_int_size();
let metadata = ImageMetadata {
width: natural_dimensions.width(),
height: natural_dimensions.height(),
};
let vector_image = VectorImage {
id: key,
metadata,
cors_status: vector_image.cors_status,
};
ImageResponse::Loaded(Image::Vector(vector_image), url.unwrap())
},
LoadResult::PlaceholderLoaded(image) => {
ImageResponse::PlaceholderLoaded(image, self.placeholder_url.clone())
},
LoadResult::None => ImageResponse::None,
};
let completed_load = CompletedLoad::new(image_response.clone(), key);
self.completed_loads.insert(
(
pending_load.url,
pending_load.load_origin,
pending_load.cors_setting,
),
completed_load,
);
for listener in pending_load.listeners {
listener.respond(image_response.clone());
}
}
/// Return a completed image if it exists, or None if there is no complete load
/// or the complete load is not fully decoded or is unavailable.
fn get_completed_image_if_available(
&self,
url: ServoUrl,
origin: ImmutableOrigin,
cors_setting: Option<CorsSettings>,
placeholder: UsePlaceholder,
) -> Option<Result<(Image, ServoUrl), ()>> {
self.completed_loads
.get(&(url, origin, cors_setting))
.map(
|completed_load| match (&completed_load.image_response, placeholder) {
(ImageResponse::Loaded(image, url), _) => Ok((image.clone(), url.clone())),
(ImageResponse::PlaceholderLoaded(image, url), UsePlaceholder::Yes) => {
Ok((Image::Raster(image.clone()), url.clone()))
},
(ImageResponse::PlaceholderLoaded(_, _), UsePlaceholder::No) |
(ImageResponse::None, _) |
(ImageResponse::MetadataLoaded(_), _) => Err(()),
},
)
}
/// Handle a message from one of the decoder worker threads or from a sync
/// decoding operation.
fn handle_decoder(&mut self, msg: DecoderMsg) {
let image = match msg.image {
None => LoadResult::None,
Some(DecodedImage::Raster(raster_image)) => {
self.load_image_with_keycache(PendingKey::RasterImage((msg.key, raster_image)));
return;
},
Some(DecodedImage::Vector(vector_image_data)) => {
LoadResult::LoadedVectorImage(vector_image_data)
},
};
self.complete_load(msg.key, image);
}
}
pub struct ImageCacheImpl {
store: Arc<Mutex<ImageCacheStore>>,
/// Thread pool for image decoding
thread_pool: Arc<CoreResourceThreadPool>,
}
impl ImageCache for ImageCacheImpl {
fn new(compositor_api: CrossProcessCompositorApi, rippy_data: Vec<u8>) -> ImageCacheImpl {
debug!("New image cache");
// Uses an estimate of the system cpus to decode images
// See https://doc.rust-lang.org/stable/std/thread/fn.available_parallelism.html
// If no information can be obtained about the system, uses 4 threads as a default
let thread_count = thread::available_parallelism()
.map(|i| i.get())
.unwrap_or(pref!(threadpools_fallback_worker_num) as usize)
.min(pref!(threadpools_image_cache_workers_max).max(1) as usize);
ImageCacheImpl {
store: Arc::new(Mutex::new(ImageCacheStore {
pending_loads: AllPendingLoads::new(),
completed_loads: HashMap::new(),
vector_images: HashMap::new(),
rasterized_vector_images: HashMap::new(),
placeholder_image: get_placeholder_image(&compositor_api, &rippy_data),
placeholder_url: ServoUrl::parse("chrome://resources/rippy.png").unwrap(),
compositor_api: compositor_api.clone(),
pipeline_id: None,
key_cache: KeyCache::new(),
})),
thread_pool: Arc::new(CoreResourceThreadPool::new(
thread_count,
"ImageCache".to_string(),
)),
}
}
fn memory_report(&self, prefix: &str, ops: &mut MallocSizeOfOps) -> Report {
let size = self.store.lock().unwrap().size_of(ops);
Report {
path: path![prefix, "image-cache"],
kind: ReportKind::ExplicitSystemHeapSize,
size,
}
}
fn get_image(
&self,
url: ServoUrl,
origin: ImmutableOrigin,
cors_setting: Option<CorsSettings>,
) -> Option<Image> {
let store = self.store.lock().unwrap();
let result =
store.get_completed_image_if_available(url, origin, cors_setting, UsePlaceholder::No);
match result {
Some(Ok((img, _))) => Some(img),
_ => None,
}
}
fn get_cached_image_status(
&self,
url: ServoUrl,
origin: ImmutableOrigin,
cors_setting: Option<CorsSettings>,
use_placeholder: UsePlaceholder,
) -> ImageCacheResult {
let mut store = self.store.lock().unwrap();
if let Some(result) = store.get_completed_image_if_available(
url.clone(),
origin.clone(),
cors_setting,
use_placeholder,
) {
match result {
Ok((image, image_url)) => {
debug!("{} is available", url);
let is_placeholder = image_url == store.placeholder_url;
return ImageCacheResult::Available(ImageOrMetadataAvailable::ImageAvailable {
image,
url: image_url,
is_placeholder,
});
},
Err(()) => {
debug!("{} is not available", url);
return ImageCacheResult::LoadError;
},
}
}
let (key, decoded) = {
let result = store
.pending_loads
.get_cached(url.clone(), origin.clone(), cors_setting);
match result {
CacheResult::Hit(key, pl) => match (&pl.result, &pl.metadata) {
(&Some(Ok(_)), _) => {
debug!("Sync decoding {} ({:?})", url, key);
(
key,
decode_bytes_sync(
key,
pl.bytes.as_slice(),
pl.cors_status,
pl.content_type.clone(),
),
)
},
(&None, Some(meta)) => {
debug!("Metadata available for {} ({:?})", url, key);
return ImageCacheResult::Available(
ImageOrMetadataAvailable::MetadataAvailable(*meta, key),
);
},
(&Some(Err(_)), _) | (&None, &None) => {
debug!("{} ({:?}) is still pending", url, key);
return ImageCacheResult::Pending(key);
},
},
CacheResult::Miss(Some((key, _pl))) => {
debug!("Should be requesting {} ({:?})", url, key);
return ImageCacheResult::ReadyForRequest(key);
},
CacheResult::Miss(None) => {
debug!("Couldn't find an entry for {}", url);
return ImageCacheResult::LoadError;
},
}
};
// In the case where a decode is ongoing (or waiting in a queue) but we
// have the full response available, we decode the bytes synchronously
// and ignore the async decode when it finishes later.
// TODO: make this behaviour configurable according to the caller's needs.
store.handle_decoder(decoded);
match store.get_completed_image_if_available(url, origin, cors_setting, use_placeholder) {
Some(Ok((image, image_url))) => {
let is_placeholder = image_url == store.placeholder_url;
ImageCacheResult::Available(ImageOrMetadataAvailable::ImageAvailable {
image,
url: image_url,
is_placeholder,
})
},
// Note: this happens if we are pending a batch of image keys.
_ => ImageCacheResult::Pending(key),
}
}
fn add_rasterization_complete_listener(
&self,
pipeline_id: PipelineId,
image_id: PendingImageId,
requested_size: DeviceIntSize,
sender: IpcSender<ImageCacheResponseMessage>,
) {
let completed = {
let mut store = self.store.lock().unwrap();
let key = (image_id, requested_size);
if !store.vector_images.contains_key(&image_id) {
warn!("Unknown image requested for rasterization for key {key:?}");
return;
};
let Some(task) = store.rasterized_vector_images.get_mut(&key) else {
warn!("Image rasterization task not found in the cache for key {key:?}");
return;
};
match task.result {
Some(_) => true,
None => {
task.listeners.push((pipeline_id, sender.clone()));
false
},
}
};
if completed {
let _ = sender.send(ImageCacheResponseMessage::VectorImageRasterizationComplete(
RasterizationCompleteResponse {
pipeline_id,
image_id,
requested_size,
},
));
}
}
fn rasterize_vector_image(
&self,
image_id: PendingImageId,
requested_size: DeviceIntSize,
) -> Option<RasterImage> {
let mut store = self.store.lock().unwrap();
let Some(vector_image) = store.vector_images.get(&image_id).cloned() else {
warn!("Unknown image id {image_id:?} requested for rasterization");
return None;
};
// This early return relies on the fact that the result of image rasterization cannot
// ever be `None`. If that were the case we would need to check whether the entry
// in the `HashMap` was `Occupied` or not.
let entry = store
.rasterized_vector_images
.entry((image_id, requested_size))
.or_default();
if let Some(result) = entry.result.as_ref() {
return Some(result.clone());
}
let store = self.store.clone();
self.thread_pool.spawn(move || {
let natural_size = vector_image.svg_tree.size().to_int_size();
let tinyskia_requested_size = {
let width = requested_size.width.try_into().unwrap_or(0);
let height = requested_size.height.try_into().unwrap_or(0);
tiny_skia::IntSize::from_wh(width, height).unwrap_or(natural_size)
};
let transform = tiny_skia::Transform::from_scale(
tinyskia_requested_size.width() as f32 / natural_size.width() as f32,
tinyskia_requested_size.height() as f32 / natural_size.height() as f32,
);
let mut pixmap = tiny_skia::Pixmap::new(
tinyskia_requested_size.width(),
tinyskia_requested_size.height(),
)
.unwrap();
resvg::render(&vector_image.svg_tree, transform, &mut pixmap.as_mut());
let bytes = pixmap.take();
let frame = ImageFrame {
delay: None,
byte_range: 0..bytes.len(),
width: tinyskia_requested_size.width(),
height: tinyskia_requested_size.height(),
};
let rasterized_image = RasterImage {
metadata: ImageMetadata {
width: tinyskia_requested_size.width(),
height: tinyskia_requested_size.height(),
},
format: PixelFormat::RGBA8,
frames: vec![frame],
bytes: IpcSharedMemory::from_bytes(&bytes),
id: None,
cors_status: vector_image.cors_status,
};
let mut store = store.lock().unwrap();
store.load_image_with_keycache(PendingKey::Svg((
image_id,
rasterized_image,
requested_size,
)));
});
None
}
/// Add a new listener for the given pending image id. If the image is already present,
/// the responder will still receive the expected response.
fn add_listener(&self, listener: ImageLoadListener) {
let mut store = self.store.lock().unwrap();
self.add_listener_with_store(&mut store, listener);
}
/// Inform the image cache about a response for a pending request.
fn notify_pending_response(&self, id: PendingImageId, action: FetchResponseMsg) {
match (action, id) {
(FetchResponseMsg::ProcessRequestBody(..), _) |
(FetchResponseMsg::ProcessRequestEOF(..), _) |
(FetchResponseMsg::ProcessCspViolations(..), _) => (),
(FetchResponseMsg::ProcessResponse(_, response), _) => {
debug!("Received {:?} for {:?}", response.as_ref().map(|_| ()), id);
let mut store = self.store.lock().unwrap();
let pending_load = store.pending_loads.get_by_key_mut(&id).unwrap();
let (cors_status, metadata) = match response {
Ok(meta) => match meta {
FetchMetadata::Unfiltered(m) => (CorsStatus::Safe, Some(m)),
FetchMetadata::Filtered { unsafe_, filtered } => (
match filtered {
FilteredMetadata::Basic(_) | FilteredMetadata::Cors(_) => {
CorsStatus::Safe
},
FilteredMetadata::Opaque | FilteredMetadata::OpaqueRedirect(_) => {
CorsStatus::Unsafe
},
},
Some(unsafe_),
),
},
Err(_) => (CorsStatus::Unsafe, None),
};
let final_url = metadata.as_ref().map(|m| m.final_url.clone());
pending_load.final_url = final_url;
pending_load.cors_status = cors_status;
pending_load.content_type = metadata
.as_ref()
.and_then(|metadata| metadata.content_type.clone())
.map(|content_type| content_type.into_inner().into());
},
(FetchResponseMsg::ProcessResponseChunk(_, data), _) => {
debug!("Got some data for {:?}", id);
let mut store = self.store.lock().unwrap();
let pending_load = store.pending_loads.get_by_key_mut(&id).unwrap();
pending_load.bytes.extend_from_slice(&data);
//jmr0 TODO: possibly move to another task?
if pending_load.metadata.is_none() {
let mut reader = std::io::Cursor::new(pending_load.bytes.as_slice());
if let Ok(info) = imsz_from_reader(&mut reader) {
let img_metadata = ImageMetadata {
width: info.width as u32,
height: info.height as u32,
};
for listener in &pending_load.listeners {
listener.respond(ImageResponse::MetadataLoaded(img_metadata));
}
pending_load.metadata = Some(img_metadata);
}
}
},
(FetchResponseMsg::ProcessResponseEOF(_, result), key) => {
debug!("Received EOF for {:?}", key);
match result {
Ok(_) => {
let (bytes, cors_status, content_type) = {
let mut store = self.store.lock().unwrap();
let pending_load = store.pending_loads.get_by_key_mut(&id).unwrap();
pending_load.result = Some(Ok(()));
debug!("Async decoding {} ({:?})", pending_load.url, key);
(
pending_load.bytes.mark_complete(),
pending_load.cors_status,
pending_load.content_type.clone(),
)
};
let local_store = self.store.clone();
self.thread_pool.spawn(move || {
let msg = decode_bytes_sync(key, &bytes, cors_status, content_type);
debug!("Image decoded");
local_store.lock().unwrap().handle_decoder(msg);
});
},
Err(_) => {
debug!("Processing error for {:?}", key);
let mut store = self.store.lock().unwrap();
let placeholder_image = store.placeholder_image.clone();
store.complete_load(id, LoadResult::PlaceholderLoaded(placeholder_image))
},
}
},
}
}
fn create_new_image_cache(
&self,
pipeline_id: Option<PipelineId>,
compositor_api: CrossProcessCompositorApi,
) -> Arc<dyn ImageCache> {
let store = self.store.lock().unwrap();
let placeholder_image = store.placeholder_image.clone();
let placeholder_url = store.placeholder_url.clone();
Arc::new(ImageCacheImpl {
store: Arc::new(Mutex::new(ImageCacheStore {
pending_loads: AllPendingLoads::new(),
completed_loads: HashMap::new(),
placeholder_image,
placeholder_url,
compositor_api,
vector_images: HashMap::new(),
rasterized_vector_images: HashMap::new(),
key_cache: KeyCache::new(),
pipeline_id,
})),
thread_pool: self.thread_pool.clone(),
})
}
fn fill_key_cache_with_batch_of_keys(&self, image_keys: Vec<WebRenderImageKey>) {
let mut store = self.store.lock().unwrap();
store.insert_keys_and_load_images(image_keys);
}
}
impl Drop for ImageCacheStore {
fn drop(&mut self) {
let image_updates = self
.completed_loads
.values()
.filter_map(|load| match &load.image_response {
ImageResponse::Loaded(Image::Raster(image), _) => {
image.id.map(ImageUpdate::DeleteImage)
},
_ => None,
})
.chain(
self.rasterized_vector_images
.values()
.filter_map(|task| task.result.as_ref()?.id.map(ImageUpdate::DeleteImage)),
)
.collect();
self.compositor_api.update_images(image_updates);
}
}
impl ImageCacheImpl {
/// Require self.store.lock() before calling.
fn add_listener_with_store(&self, store: &mut ImageCacheStore, listener: ImageLoadListener) {
let id = listener.id;
if let Some(load) = store.pending_loads.get_by_key_mut(&id) {
if let Some(ref metadata) = load.metadata {
listener.respond(ImageResponse::MetadataLoaded(*metadata));
}
load.add_listener(listener);
return;
}
if let Some(load) = store.completed_loads.values().find(|l| l.id == id) {
listener.respond(load.image_response.clone());
return;
}
warn!("Couldn't find cached entry for listener {:?}", id);
}
}
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