/* 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::borrow::ToOwned; use std::cell::{Cell, RefCell, RefMut}; use std::cmp; use std::collections::hash_map::Entry; use std::collections::{HashMap, HashSet}; use std::default::Default; use std::ffi::c_void; use std::io::{Write, stderr, stdout}; use std::rc::{Rc, Weak}; use std::sync::Arc; use std::time::{Duration, Instant}; use app_units::Au; use base64::Engine; use content_security_policy::Violation; use content_security_policy::sandboxing_directive::SandboxingFlagSet; use crossbeam_channel::{Sender, unbounded}; use cssparser::SourceLocation; use devtools_traits::{ScriptToDevtoolsControlMsg, TimelineMarker, TimelineMarkerType}; use dom_struct::dom_struct; use embedder_traits::user_contents::UserScript; use embedder_traits::{ AlertResponse, ConfirmResponse, EmbedderMsg, JavaScriptEvaluationError, PromptResponse, ScriptToEmbedderChan, SimpleDialogRequest, Theme, UntrustedNodeAddress, ViewportDetails, WebDriverJSResult, WebDriverLoadStatus, }; use euclid::default::Rect as UntypedRect; use euclid::{Point2D, Rect, Scale, Size2D, Vector2D}; use fonts::{CspViolationHandler, FontContext, NetworkTimingHandler, WebFontDocumentContext}; use js::context::JSContext; use js::glue::DumpJSStack; use js::jsapi::{ GCReason, Heap, JS_GC, JSAutoRealm, JSContext as RawJSContext, JSObject, JSPROP_ENUMERATE, }; use js::jsval::{NullValue, UndefinedValue}; use js::realm::CurrentRealm; use js::rust::wrappers::JS_DefineProperty; use js::rust::{ CustomAutoRooter, CustomAutoRooterGuard, HandleObject, HandleValue, MutableHandleObject, MutableHandleValue, }; use layout_api::{ AxesOverflow, BoxAreaType, CSSPixelRectIterator, ElementsFromPointFlags, ElementsFromPointResult, FragmentType, Layout, LayoutImageDestination, PendingImage, PendingImageState, PendingRasterizationImage, PhysicalSides, QueryMsg, ReflowGoal, ReflowPhasesRun, ReflowRequest, ReflowRequestRestyle, ReflowStatistics, RestyleReason, ScrollContainerQueryFlags, ScrollContainerResponse, TrustedNodeAddress, combine_id_with_fragment_type, }; use malloc_size_of::MallocSizeOf; use media::WindowGLContext; use net_traits::image_cache::{ ImageCache, ImageCacheResponseCallback, ImageCacheResponseMessage, ImageLoadListener, ImageResponse, PendingImageId, PendingImageResponse, RasterizationCompleteResponse, }; use net_traits::request::Referrer; use net_traits::{ResourceFetchTiming, ResourceThreads}; use num_traits::ToPrimitive; use paint_api::{CrossProcessPaintApi, PinchZoomInfos}; use profile_traits::generic_channel as ProfiledGenericChannel; use profile_traits::mem::ProfilerChan as MemProfilerChan; use profile_traits::time::ProfilerChan as TimeProfilerChan; use rustc_hash::{FxBuildHasher, FxHashMap}; use script_bindings::codegen::GenericBindings::WindowBinding::ScrollToOptions; use script_bindings::conversions::SafeToJSValConvertible; use script_bindings::interfaces::WindowHelpers; use script_bindings::root::Root; use script_traits::{ConstellationInputEvent, ScriptThreadMessage}; use selectors::attr::CaseSensitivity; use servo_arc::Arc as ServoArc; use servo_base::cross_process_instant::CrossProcessInstant; use servo_base::generic_channel::{self, GenericCallback, GenericSender}; use servo_base::id::{BrowsingContextId, PipelineId, WebViewId}; #[cfg(feature = "bluetooth")] use servo_bluetooth_traits::BluetoothRequest; use servo_canvas_traits::webgl::WebGLChan; use servo_config::pref; use servo_constellation_traits::{ LoadData, LoadOrigin, ScreenshotReadinessResponse, ScriptToConstellationChan, ScriptToConstellationMessage, StructuredSerializedData, WindowSizeType, }; use servo_geometry::DeviceIndependentIntRect; use servo_url::{ImmutableOrigin, MutableOrigin, ServoUrl}; use storage_traits::StorageThreads; use storage_traits::webstorage_thread::WebStorageType; use style::error_reporting::{ContextualParseError, ParseErrorReporter}; use style::properties::PropertyId; use style::properties::style_structs::Font; use style::selector_parser::PseudoElement; use style::str::HTML_SPACE_CHARACTERS; use style::stylesheets::UrlExtraData; use style_traits::CSSPixel; use stylo_atoms::Atom; use time::Duration as TimeDuration; use webrender_api::ExternalScrollId; use webrender_api::units::{DeviceIntSize, DevicePixel, LayoutPixel, LayoutPoint}; use super::bindings::codegen::Bindings::MessagePortBinding::StructuredSerializeOptions; use super::bindings::trace::HashMapTracedValues; use super::performanceresourcetiming::InitiatorType; use super::types::SVGSVGElement; use crate::dom::bindings::cell::{DomRefCell, Ref}; use crate::dom::bindings::codegen::Bindings::DocumentBinding::{ DocumentMethods, DocumentReadyState, NamedPropertyValue, }; use crate::dom::bindings::codegen::Bindings::HTMLIFrameElementBinding::HTMLIFrameElementMethods; use crate::dom::bindings::codegen::Bindings::HistoryBinding::History_Binding::HistoryMethods; use crate::dom::bindings::codegen::Bindings::ImageBitmapBinding::{ ImageBitmapOptions, ImageBitmapSource, }; use crate::dom::bindings::codegen::Bindings::MediaQueryListBinding::MediaQueryList_Binding::MediaQueryListMethods; use crate::dom::bindings::codegen::Bindings::ReportingObserverBinding::Report; use crate::dom::bindings::codegen::Bindings::RequestBinding::{RequestInfo, RequestInit}; use crate::dom::bindings::codegen::Bindings::VoidFunctionBinding::VoidFunction; use crate::dom::bindings::codegen::Bindings::WindowBinding::{ self, DeferredRequestInit, FrameRequestCallback, ScrollBehavior, WindowMethods, WindowPostMessageOptions, }; use crate::dom::bindings::codegen::UnionTypes::{ RequestOrUSVString, TrustedScriptOrString, TrustedScriptOrStringOrFunction, }; use crate::dom::bindings::error::{ Error, ErrorInfo, ErrorResult, Fallible, javascript_error_info_from_error_info, }; use crate::dom::bindings::inheritance::{Castable, ElementTypeId, HTMLElementTypeId, NodeTypeId}; use crate::dom::bindings::num::Finite; use crate::dom::bindings::refcounted::Trusted; use crate::dom::bindings::reflector::{DomGlobal, DomObject}; use crate::dom::bindings::root::{Dom, DomRoot, MutNullableDom}; use crate::dom::bindings::str::{DOMString, USVString}; use crate::dom::bindings::structuredclone; use crate::dom::bindings::trace::{CustomTraceable, JSTraceable, RootedTraceableBox}; use crate::dom::bindings::utils::GlobalStaticData; use crate::dom::bindings::weakref::DOMTracker; #[cfg(feature = "bluetooth")] use crate::dom::bluetooth::BluetoothExtraPermissionData; use crate::dom::cookiestore::CookieStore; use crate::dom::crypto::Crypto; use crate::dom::csp::GlobalCspReporting; use crate::dom::css::cssstyledeclaration::{ CSSModificationAccess, CSSStyleDeclaration, CSSStyleOwner, }; use crate::dom::customelementregistry::CustomElementRegistry; use crate::dom::document::focus::FocusableArea; use crate::dom::document::{ AnimationFrameCallback, Document, SameOriginDescendantNavigablesIterator, }; use crate::dom::element::Element; use crate::dom::event::{Event, EventBubbles, EventCancelable}; use crate::dom::eventtarget::EventTarget; use crate::dom::fetchlaterresult::FetchLaterResult; use crate::dom::globalscope::GlobalScope; use crate::dom::history::History; use crate::dom::html::htmlcollection::{CollectionFilter, HTMLCollection}; use crate::dom::html::htmliframeelement::HTMLIFrameElement; use crate::dom::idbfactory::IDBFactory; use crate::dom::inputevent::HitTestResult; use crate::dom::location::Location; use crate::dom::medialist::MediaList; use crate::dom::mediaquerylist::{MediaQueryList, MediaQueryListMatchState}; use crate::dom::mediaquerylistevent::MediaQueryListEvent; use crate::dom::messageevent::MessageEvent; use crate::dom::navigator::Navigator; use crate::dom::node::{Node, NodeDamage, NodeTraits, from_untrusted_node_address}; use crate::dom::performance::performance::Performance; use crate::dom::promise::Promise; use crate::dom::reporting::reportingendpoint::{ReportingEndpoint, SendReportsToEndpoints}; use crate::dom::reporting::reportingobserver::ReportingObserver; use crate::dom::screen::Screen; use crate::dom::scrolling_box::{ScrollingBox, ScrollingBoxSource}; use crate::dom::selection::Selection; use crate::dom::shadowroot::ShadowRoot; use crate::dom::storage::Storage; #[cfg(feature = "bluetooth")] use crate::dom::testrunner::TestRunner; use crate::dom::trustedtypes::trustedtypepolicyfactory::TrustedTypePolicyFactory; use crate::dom::types::{ImageBitmap, MouseEvent, UIEvent}; use crate::dom::useractivation::UserActivationTimestamp; use crate::dom::visualviewport::{VisualViewport, VisualViewportChanges}; #[cfg(feature = "webgpu")] use crate::dom::webgpu::identityhub::IdentityHub; use crate::dom::windowproxy::{WindowProxy, WindowProxyHandler}; use crate::dom::worklet::Worklet; use crate::dom::workletglobalscope::WorkletGlobalScopeType; use crate::layout_image::fetch_image_for_layout; use crate::messaging::{MainThreadScriptMsg, ScriptEventLoopReceiver, ScriptEventLoopSender}; use crate::microtask::{Microtask, UserMicrotask}; use crate::network_listener::{ResourceTimingListener, submit_timing}; use crate::realms::enter_realm; use crate::script_runtime::{CanGc, JSContext as SafeJSContext, Runtime}; use crate::script_thread::ScriptThread; use crate::script_window_proxies::ScriptWindowProxies; use crate::task_source::SendableTaskSource; use crate::timers::{IsInterval, TimerCallback}; use crate::unminify::unminified_path; use crate::webdriver_handlers::{find_node_by_unique_id_in_document, jsval_to_webdriver}; use crate::{fetch, window_named_properties}; /// A callback to call when a response comes back from the `ImageCache`. /// /// This is wrapped in a struct so that we can implement `MallocSizeOf` /// for this type. #[derive(MallocSizeOf)] pub struct PendingImageCallback( #[ignore_malloc_size_of = "dyn Fn is currently impossible to measure"] #[expect(clippy::type_complexity)] Box, ); /// Current state of the window object #[derive(Clone, Copy, Debug, JSTraceable, MallocSizeOf, PartialEq)] enum WindowState { Alive, Zombie, // Pipeline is closed, but the window hasn't been GCed yet. } /// How long we should wait before performing the initial reflow after `` is parsed, /// assuming that `` take this long to parse. const INITIAL_REFLOW_DELAY: Duration = Duration::from_millis(200); /// During loading and parsing, layouts are suppressed to avoid flashing incomplete page /// contents. /// /// Exceptions: /// - Parsing the body takes so long, that layouts are no longer suppressed in order /// to show the user that the page is loading. /// - Script triggers a layout query or scroll event in which case, we want to layout /// but not display the contents. /// /// For more information see: . #[derive(Clone, Copy, MallocSizeOf)] enum LayoutBlocker { /// The first load event hasn't been fired and we have not started to parse the `` yet. WaitingForParse, /// The body is being parsed the `` starting at the `Instant` specified. Parsing(Instant), /// The body finished parsing and the `load` event has been fired or parsing took so /// long, that we are going to do layout anyway. Note that subsequent changes to the body /// can trigger parsing again, but the `Window` stays in this state. FiredLoadEventOrParsingTimerExpired, } impl LayoutBlocker { fn layout_blocked(&self) -> bool { !matches!(self, Self::FiredLoadEventOrParsingTimerExpired) } } /// An id used to cancel navigations; for now only used for planned form navigations. /// Loosely based on . #[derive(Clone, Copy, Debug, Default, JSTraceable, MallocSizeOf, PartialEq)] pub(crate) struct OngoingNavigation(u32); type PendingImageRasterizationKey = (PendingImageId, DeviceIntSize); /// Ancillary data of pending image request that was initiated by layout during a reflow. /// This data is used to faciliate invalidating layout when the image data becomes available /// at some point in the future. #[cfg_attr(crown, crown::unrooted_must_root_lint::must_root)] #[derive(JSTraceable, MallocSizeOf)] struct PendingLayoutImageAncillaryData { node: Dom, #[no_trace] destination: LayoutImageDestination, } #[dom_struct] pub(crate) struct Window { globalscope: GlobalScope, /// A `Weak` reference to this [`ScriptThread`] used to give to child [`Window`]s so /// they can more easily call methods on the [`ScriptThread`] without constantly having /// to pass it everywhere. #[ignore_malloc_size_of = "Weak does not need to be accounted"] #[no_trace] weak_script_thread: Weak, /// The webview that contains this [`Window`]. /// /// This may not be the top-level [`Window`], in the case of frames. #[no_trace] webview_id: WebViewId, script_chan: Sender, #[no_trace] #[ignore_malloc_size_of = "TODO: Add MallocSizeOf support to layout"] layout: RefCell>, navigator: MutNullableDom, crypto: MutNullableDom, #[ignore_malloc_size_of = "ImageCache"] #[no_trace] image_cache: Arc, #[no_trace] image_cache_sender: Sender, window_proxy: MutNullableDom, document: MutNullableDom, location: MutNullableDom, history: MutNullableDom, custom_element_registry: MutNullableDom, performance: MutNullableDom, #[no_trace] navigation_start: Cell, screen: MutNullableDom, session_storage: MutNullableDom, local_storage: MutNullableDom, /// cookie_store: MutNullableDom, status: DomRefCell, trusted_types: MutNullableDom, /// The start of something resembling /// ongoing_navigation: Cell, /// For sending timeline markers. Will be ignored if /// no devtools server #[no_trace] devtools_markers: DomRefCell>, #[no_trace] devtools_marker_sender: DomRefCell>>>, /// Most recent unhandled resize event, if any. #[no_trace] unhandled_resize_event: DomRefCell>, /// Platform theme. #[no_trace] theme: Cell, /// Parent id associated with this page, if any. #[no_trace] parent_info: Option, /// Global static data related to the DOM. dom_static: GlobalStaticData, /// The JavaScript runtime. #[conditional_malloc_size_of] js_runtime: DomRefCell>>, /// The [`ViewportDetails`] of this [`Window`]'s frame. #[no_trace] viewport_details: Cell, /// A handle for communicating messages to the bluetooth thread. #[no_trace] #[cfg(feature = "bluetooth")] bluetooth_thread: GenericSender, #[cfg(feature = "bluetooth")] bluetooth_extra_permission_data: BluetoothExtraPermissionData, /// See the documentation for [`LayoutBlocker`]. Essentially, this flag prevents /// layouts from happening before the first load event, apart from a few exceptional /// cases. #[no_trace] layout_blocker: Cell, /// A channel for communicating results of async scripts back to the webdriver server #[no_trace] webdriver_script_chan: DomRefCell>>, /// A channel to notify webdriver if there is a navigation #[no_trace] webdriver_load_status_sender: RefCell>>, /// The current state of the window object current_state: Cell, error_reporter: CSSErrorReporter, /// All the MediaQueryLists we need to update media_query_lists: DOMTracker, #[cfg(feature = "bluetooth")] test_runner: MutNullableDom, /// A handle for communicating messages to the WebGL thread, if available. #[no_trace] webgl_chan: Option, #[ignore_malloc_size_of = "defined in webxr"] #[no_trace] #[cfg(feature = "webxr")] webxr_registry: Option, /// When an element triggers an image load or starts watching an image load from the /// `ImageCache` it adds an entry to this list. When those loads are triggered from /// layout, they also add an etry to [`Self::pending_layout_images`]. #[no_trace] pending_image_callbacks: DomRefCell>>, /// All of the elements that have an outstanding image request that was /// initiated by layout during a reflow. They are stored in the [`ScriptThread`] /// to ensure that the element can be marked dirty when the image data becomes /// available at some point in the future. pending_layout_images: DomRefCell< HashMapTracedValues, FxBuildHasher>, >, /// Vector images for which layout has intiated rasterization at a specific size /// and whose results are not yet available. They are stored in the [`ScriptThread`] /// so that the element can be marked dirty once the rasterization is completed. pending_images_for_rasterization: DomRefCell< HashMapTracedValues>, FxBuildHasher>, >, /// Directory to store unminified css for this window if unminify-css /// opt is enabled. unminified_css_dir: DomRefCell>, /// Directory with stored unminified scripts local_script_source: Option, /// Worklets test_worklet: MutNullableDom, /// paint_worklet: MutNullableDom, /// Flag to identify whether mutation observers are present(true)/absent(false) exists_mut_observer: Cell, /// Cross-process access to `Paint`. #[no_trace] paint_api: CrossProcessPaintApi, /// The [`UserScript`]s added via `UserContentManager`. These are potentially shared with other /// `WebView`s in this `ScriptThread`. #[no_trace] #[conditional_malloc_size_of] user_scripts: Rc>, /// Window's GL context from application #[ignore_malloc_size_of = "defined in script_thread"] #[no_trace] player_context: WindowGLContext, throttled: Cell, /// A shared marker for the validity of any cached layout values. A value of true /// indicates that any such values remain valid; any new layout that invalidates /// those values will cause the marker to be set to false. #[conditional_malloc_size_of] layout_marker: DomRefCell>>, /// current_event: DomRefCell>>, /// reporting_observer_list: DomRefCell>>, /// report_list: DomRefCell>, /// #[no_trace] endpoints_list: DomRefCell>, /// The window proxies the script thread knows. #[conditional_malloc_size_of] script_window_proxies: Rc, /// Whether or not this [`Window`] has a pending screenshot readiness request. has_pending_screenshot_readiness_request: Cell, /// Visual viewport interface that is associated to this [`Window`]. /// visual_viewport: MutNullableDom, /// [`VisualViewport`] dimension changed and we need to process it on the next tick. has_changed_visual_viewport_dimension: Cell, /// #[no_trace] last_activation_timestamp: Cell, /// A flag to indicate whether the developer tools has requested /// live updates from the window. devtools_wants_updates: Cell, } impl Window { pub(crate) fn script_thread(&self) -> Rc { Weak::upgrade(&self.weak_script_thread) .expect("Weak reference should always be upgradable when a ScriptThread is running") } pub(crate) fn webview_id(&self) -> WebViewId { self.webview_id } pub(crate) fn as_global_scope(&self) -> &GlobalScope { self.upcast::() } pub(crate) fn layout(&self) -> Ref<'_, Box> { self.layout.borrow() } pub(crate) fn layout_mut(&self) -> RefMut<'_, Box> { self.layout.borrow_mut() } pub(crate) fn get_exists_mut_observer(&self) -> bool { self.exists_mut_observer.get() } pub(crate) fn set_exists_mut_observer(&self) { self.exists_mut_observer.set(true); } #[expect(unsafe_code)] pub(crate) fn clear_js_runtime_for_script_deallocation(&self) { self.as_global_scope() .remove_web_messaging_and_dedicated_workers_infra(); unsafe { *self.js_runtime.borrow_for_script_deallocation() = None; self.window_proxy.set(None); self.current_state.set(WindowState::Zombie); self.as_global_scope() .task_manager() .cancel_all_tasks_and_ignore_future_tasks(); } } /// A convenience method for /// pub(crate) fn discard_browsing_context(&self) { let proxy = match self.window_proxy.get() { Some(proxy) => proxy, None => panic!("Discarding a BC from a window that has none"), }; proxy.discard_browsing_context(); // Step 4 of https://html.spec.whatwg.org/multipage/#discard-a-document // Other steps performed when the `PipelineExit` message // is handled by the ScriptThread. self.as_global_scope() .task_manager() .cancel_all_tasks_and_ignore_future_tasks(); } /// Get a sender to the time profiler thread. pub(crate) fn time_profiler_chan(&self) -> &TimeProfilerChan { self.globalscope.time_profiler_chan() } pub(crate) fn origin(&self) -> &MutableOrigin { self.globalscope.origin() } #[expect(unsafe_code)] pub(crate) fn get_cx(&self) -> SafeJSContext { unsafe { SafeJSContext::from_ptr(js::rust::Runtime::get().unwrap().as_ptr()) } } pub(crate) fn get_js_runtime(&self) -> Ref<'_, Option>> { self.js_runtime.borrow() } pub(crate) fn main_thread_script_chan(&self) -> &Sender { &self.script_chan } pub(crate) fn parent_info(&self) -> Option { self.parent_info } pub(crate) fn new_script_pair(&self) -> (ScriptEventLoopSender, ScriptEventLoopReceiver) { let (sender, receiver) = unbounded(); ( ScriptEventLoopSender::MainThread(sender), ScriptEventLoopReceiver::MainThread(receiver), ) } pub(crate) fn event_loop_sender(&self) -> ScriptEventLoopSender { ScriptEventLoopSender::MainThread(self.script_chan.clone()) } pub(crate) fn image_cache(&self) -> Arc { self.image_cache.clone() } /// This can panic if it is called after the browsing context has been discarded pub(crate) fn window_proxy(&self) -> DomRoot { self.window_proxy.get().unwrap() } pub(crate) fn append_reporting_observer(&self, reporting_observer: DomRoot) { self.reporting_observer_list .borrow_mut() .push(reporting_observer); } pub(crate) fn remove_reporting_observer(&self, reporting_observer: &ReportingObserver) { let index = { let list = self.reporting_observer_list.borrow(); list.iter() .position(|observer| &**observer == reporting_observer) }; if let Some(index) = index { self.reporting_observer_list.borrow_mut().remove(index); } } pub(crate) fn registered_reporting_observers(&self) -> Vec> { self.reporting_observer_list.borrow().clone() } pub(crate) fn append_report(&self, report: Report) { self.report_list.borrow_mut().push(report); let trusted_window = Trusted::new(self); self.upcast::() .task_manager() .dom_manipulation_task_source() .queue(task!(send_to_reporting_endpoints: move || { let window = trusted_window.root(); let reports = std::mem::take(&mut *window.report_list.borrow_mut()); window.upcast::().send_reports_to_endpoints( reports, window.endpoints_list.borrow().clone(), ); })); } pub(crate) fn buffered_reports(&self) -> Vec { self.report_list.borrow().clone() } pub(crate) fn set_endpoints_list(&self, endpoints: Vec) { *self.endpoints_list.borrow_mut() = endpoints; } /// Returns the window proxy if it has not been discarded. /// pub(crate) fn undiscarded_window_proxy(&self) -> Option> { self.window_proxy.get().and_then(|window_proxy| { if window_proxy.is_browsing_context_discarded() { None } else { Some(window_proxy) } }) } /// Get the active [`Document`] of top-level browsing context, or return [`Window`]'s [`Document`] /// if it's browing context is the top-level browsing context. Returning none if the [`WindowProxy`] /// is discarded or the [`Document`] is in another `ScriptThread`. /// pub(crate) fn top_level_document_if_local(&self) -> Option> { if self.is_top_level() { return Some(self.Document()); } let window_proxy = self.undiscarded_window_proxy()?; self.script_window_proxies .find_window_proxy(window_proxy.webview_id().into())? .document() } #[cfg(feature = "bluetooth")] pub(crate) fn bluetooth_thread(&self) -> GenericSender { self.bluetooth_thread.clone() } #[cfg(feature = "bluetooth")] pub(crate) fn bluetooth_extra_permission_data(&self) -> &BluetoothExtraPermissionData { &self.bluetooth_extra_permission_data } pub(crate) fn css_error_reporter(&self) -> &CSSErrorReporter { &self.error_reporter } pub(crate) fn webgl_chan(&self) -> Option { self.webgl_chan.clone() } // TODO: rename the function to webgl_chan after the existing `webgl_chan` function is removed. pub(crate) fn webgl_chan_value(&self) -> Option { self.webgl_chan.clone() } #[cfg(feature = "webxr")] pub(crate) fn webxr_registry(&self) -> Option { self.webxr_registry.clone() } fn new_paint_worklet(&self, cx: &mut JSContext) -> DomRoot { debug!("Creating new paint worklet."); Worklet::new(cx, self, WorkletGlobalScopeType::Paint) } pub(crate) fn register_image_cache_listener( &self, id: PendingImageId, callback: impl Fn(PendingImageResponse, &mut js::context::JSContext) + 'static, ) -> ImageCacheResponseCallback { self.pending_image_callbacks .borrow_mut() .entry(id) .or_default() .push(PendingImageCallback(Box::new(callback))); let image_cache_sender = self.image_cache_sender.clone(); Box::new(move |message| { let _ = image_cache_sender.send(message); }) } fn pending_layout_image_notification(&self, response: PendingImageResponse) { let mut images = self.pending_layout_images.borrow_mut(); let nodes = images.entry(response.id); let nodes = match nodes { Entry::Occupied(nodes) => nodes, Entry::Vacant(_) => return, }; if matches!( response.response, ImageResponse::Loaded(_, _) | ImageResponse::FailedToLoadOrDecode ) { for ancillary_data in nodes.get() { match ancillary_data.destination { LayoutImageDestination::BoxTreeConstruction => { ancillary_data.node.dirty(NodeDamage::Other); }, LayoutImageDestination::DisplayListBuilding => { self.layout().set_needs_new_display_list(); }, } } } match response.response { ImageResponse::MetadataLoaded(_) => {}, ImageResponse::Loaded(_, _) | ImageResponse::FailedToLoadOrDecode => { nodes.remove(); }, } } pub(crate) fn handle_image_rasterization_complete_notification( &self, response: RasterizationCompleteResponse, ) { let mut images = self.pending_images_for_rasterization.borrow_mut(); let nodes = images.entry((response.image_id, response.requested_size)); let nodes = match nodes { Entry::Occupied(nodes) => nodes, Entry::Vacant(_) => return, }; for node in nodes.get() { node.dirty(NodeDamage::Other); } nodes.remove(); } pub(crate) fn pending_image_notification( &self, response: PendingImageResponse, cx: &mut js::context::JSContext, ) { // We take the images here, in order to prevent maintaining a mutable borrow when // image callbacks are called. These, in turn, can trigger garbage collection. // Normally this shouldn't trigger more pending image notifications, but just in // case we do not want to cause a double borrow here. let mut images = std::mem::take(&mut *self.pending_image_callbacks.borrow_mut()); let Entry::Occupied(callbacks) = images.entry(response.id) else { let _ = std::mem::replace(&mut *self.pending_image_callbacks.borrow_mut(), images); return; }; for callback in callbacks.get() { callback.0(response.clone(), cx); } match response.response { ImageResponse::MetadataLoaded(_) => {}, ImageResponse::Loaded(_, _) | ImageResponse::FailedToLoadOrDecode => { callbacks.remove(); }, } let _ = std::mem::replace(&mut *self.pending_image_callbacks.borrow_mut(), images); } pub(crate) fn paint_api(&self) -> &CrossProcessPaintApi { &self.paint_api } pub(crate) fn userscripts(&self) -> &[UserScript] { &self.user_scripts } pub(crate) fn get_player_context(&self) -> WindowGLContext { self.player_context.clone() } // see note at https://dom.spec.whatwg.org/#concept-event-dispatch step 2 pub(crate) fn dispatch_event_with_target_override(&self, event: &Event, can_gc: CanGc) { event.dispatch(self.upcast(), true, can_gc); } pub(crate) fn font_context(&self) -> &Arc { self.as_global_scope() .font_context() .expect("A `Window` should always have a `FontContext`") } pub(crate) fn ongoing_navigation(&self) -> OngoingNavigation { self.ongoing_navigation.get() } /// pub(crate) fn set_ongoing_navigation(&self) -> OngoingNavigation { // Note: since this value, for now, is only used in a single `ScriptThread`, // we just increment it (it is not a uuid), which implies not // using a `newValue` variable. let new_value = self.ongoing_navigation.get().0.wrapping_add(1); // 1. If navigable's ongoing navigation is equal to newValue, then return. // Note: cannot happen in the way it is currently used. // TODO: 2. Inform the navigation API about aborting navigation given navigable. // 3. Set navigable's ongoing navigation to newValue. self.ongoing_navigation.set(OngoingNavigation(new_value)); // Note: Return the ongoing navigation for the caller to use. OngoingNavigation(new_value) } /// fn stop_loading(&self, cx: &mut js::context::JSContext) { // 1. Let document be navigable's active document. let doc = self.Document(); // 2. If document's unload counter is 0, // and navigable's ongoing navigation is a navigation ID, // then set the ongoing navigation for navigable to null. // // Note: since the concept of `navigable` is nascent in Servo, // for now we do two things: // - increment the `ongoing_navigation`(preventing planned form navigations). // - Send a `AbortLoadUrl` message(in case the navigation // already started at the constellation). self.set_ongoing_navigation(); // 3. Abort a document and its descendants given document. doc.abort(cx); } /// fn destroy_top_level_traversable(&self, cx: &mut js::context::JSContext) { // Step 1. Let browsingContext be traversable's active browsing context. // TODO // Step 2. For each historyEntry in traversable's session history entries: // TODO // Step 2.1. Let document be historyEntry's document. let document = self.Document(); // Step 2.2. If document is not null, then destroy a document and its descendants given document. document.destroy_document_and_its_descendants(cx); // Step 3-6. self.send_to_constellation(ScriptToConstellationMessage::DiscardTopLevelBrowsingContext); } /// fn definitely_close(&self, cx: &mut js::context::JSContext) { let document = self.Document(); // Step 1. Let toUnload be traversable's active document's inclusive descendant navigables. // // Implemented by passing `false` into the method below // Step 2. If the result of checking if unloading is canceled for toUnload is not "continue", then return. if !document.check_if_unloading_is_cancelled(false, CanGc::from_cx(cx)) { return; } // Step 3. Append the following session history traversal steps to traversable: // TODO // Step 3.2. Unload a document and its descendants given traversable's active document, null, and afterAllUnloads. document.unload(false, CanGc::from_cx(cx)); // Step 3.1. Let afterAllUnloads be an algorithm step which destroys traversable. self.destroy_top_level_traversable(cx); } /// fn cannot_show_simple_dialogs(&self) -> bool { // Step 1: If the active sandboxing flag set of window's associated Document has // the sandboxed modals flag set, then return true. if self .Document() .has_active_sandboxing_flag(SandboxingFlagSet::SANDBOXED_MODALS_FLAG) { return true; } // Step 2: If window's relevant settings object's origin and window's relevant settings // object's top-level origin are not same origin-domain, then return true. // // TODO: This check doesn't work currently because it seems that comparing two // opaque domains doesn't work between GlobalScope::top_level_creation_url and // Document::origin(). // Step 3: If window's relevant agent's event loop's termination nesting level is nonzero, // then optionally return true. // TODO: This is unsupported currently. // Step 4: Optionally, return true. (For example, the user agent might give the // user the option to ignore all modal dialogs, and would thus abort at this step // whenever the method was invoked.) // TODO: The embedder currently cannot block an alert before it is sent to the embedder. This // requires changes to the API. // Step 5: Return false. false } pub(crate) fn perform_a_microtask_checkpoint(&self, cx: &mut js::context::JSContext) { self.script_thread().perform_a_microtask_checkpoint(cx); } pub(crate) fn web_font_context(&self) -> WebFontDocumentContext { let global = self.as_global_scope(); WebFontDocumentContext { policy_container: global.policy_container(), request_client: global.request_client(), document_url: global.api_base_url(), has_trustworthy_ancestor_origin: global.has_trustworthy_ancestor_origin(), insecure_requests_policy: global.insecure_requests_policy(), csp_handler: Box::new(FontCspHandler { global: Trusted::new(global), task_source: global .task_manager() .dom_manipulation_task_source() .to_sendable(), }), network_timing_handler: Box::new(FontNetworkTimingHandler { global: Trusted::new(global), task_source: global .task_manager() .dom_manipulation_task_source() .to_sendable(), }), } } #[expect(unsafe_code)] pub(crate) fn gc(&self) { unsafe { JS_GC(*self.get_cx(), GCReason::API); } } } #[derive(Debug)] struct FontCspHandler { global: Trusted, task_source: SendableTaskSource, } impl CspViolationHandler for FontCspHandler { fn process_violations(&self, violations: Vec) { let global = self.global.clone(); self.task_source.queue(task!(csp_violation: move || { global.root().report_csp_violations(violations, None, None); })); } fn clone(&self) -> Box { Box::new(Self { global: self.global.clone(), task_source: self.task_source.clone(), }) } } #[derive(Debug)] struct FontNetworkTimingHandler { global: Trusted, task_source: SendableTaskSource, } impl NetworkTimingHandler for FontNetworkTimingHandler { fn submit_timing(&self, url: ServoUrl, response: ResourceFetchTiming) { let global = self.global.clone(); self.task_source.queue(task!(network_timing: move |cx| { submit_timing( cx, &FontFetchListener { url, global }, &Ok(()), &response, ); })); } fn clone(&self) -> Box { Box::new(Self { global: self.global.clone(), task_source: self.task_source.clone(), }) } } #[derive(Debug)] struct FontFetchListener { global: Trusted, url: ServoUrl, } impl ResourceTimingListener for FontFetchListener { fn resource_timing_information(&self) -> (InitiatorType, ServoUrl) { (InitiatorType::Css, self.url.clone()) } fn resource_timing_global(&self) -> DomRoot { self.global.root() } } // https://html.spec.whatwg.org/multipage/#atob pub(crate) fn base64_btoa(input: DOMString) -> Fallible { // "The btoa() method must throw an InvalidCharacterError exception if // the method's first argument contains any character whose code point // is greater than U+00FF." if input.str().chars().any(|c: char| c > '\u{FF}') { Err(Error::InvalidCharacter(None)) } else { // "Otherwise, the user agent must convert that argument to a // sequence of octets whose nth octet is the eight-bit // representation of the code point of the nth character of // the argument," let octets = input .str() .chars() .map(|c: char| c as u8) .collect::>(); // "and then must apply the base64 algorithm to that sequence of // octets, and return the result. [RFC4648]" let config = base64::engine::general_purpose::GeneralPurposeConfig::new().with_encode_padding(true); let engine = base64::engine::GeneralPurpose::new(&base64::alphabet::STANDARD, config); Ok(DOMString::from(engine.encode(octets))) } } // https://html.spec.whatwg.org/multipage/#atob pub(crate) fn base64_atob(input: DOMString) -> Fallible { // "Remove all space characters from input." fn is_html_space(c: char) -> bool { HTML_SPACE_CHARACTERS.contains(&c) } let without_spaces = input .str() .chars() .filter(|&c| !is_html_space(c)) .collect::(); let mut input = &*without_spaces; // "If the length of input divides by 4 leaving no remainder, then: // if input ends with one or two U+003D EQUALS SIGN (=) characters, // remove them from input." if input.len() % 4 == 0 { if input.ends_with("==") { input = &input[..input.len() - 2] } else if input.ends_with('=') { input = &input[..input.len() - 1] } } // "If the length of input divides by 4 leaving a remainder of 1, // throw an InvalidCharacterError exception and abort these steps." if input.len() % 4 == 1 { return Err(Error::InvalidCharacter(None)); } // "If input contains a character that is not in the following list of // characters and character ranges, throw an InvalidCharacterError // exception and abort these steps: // // U+002B PLUS SIGN (+) // U+002F SOLIDUS (/) // Alphanumeric ASCII characters" if input .chars() .any(|c| c != '+' && c != '/' && !c.is_alphanumeric()) { return Err(Error::InvalidCharacter(None)); } let config = base64::engine::general_purpose::GeneralPurposeConfig::new() .with_decode_padding_mode(base64::engine::DecodePaddingMode::RequireNone) .with_decode_allow_trailing_bits(true); let engine = base64::engine::GeneralPurpose::new(&base64::alphabet::STANDARD, config); let data = engine .decode(input) .map_err(|_| Error::InvalidCharacter(None))?; Ok(data.iter().map(|&b| b as char).collect::().into()) } impl WindowMethods for Window { /// fn Alert_(&self) { // Step 2: If the method was invoked with no arguments, then let message be the // empty string; otherwise, let message be the method's first argument. self.Alert(DOMString::new()); } /// fn Alert(&self, mut message: DOMString) { // Step 1: If we cannot show simple dialogs for this, then return. if self.cannot_show_simple_dialogs() { return; } // Step 2 is handled in the other variant of this method. // // Step 3: Set message to the result of normalizing newlines given message. message.normalize_newlines(); // Step 4. Set message to the result of optionally truncating message. // This is up to the embedder. // Step 5: Let userPromptHandler be WebDriver BiDi user prompt opened with this, // "alert", and message. // TODO: Add support for WebDriver BiDi. // Step 6: If userPromptHandler is "none", then: // 1. Show message to the user, treating U+000A LF as a line break. // 2. Optionally, pause while waiting for the user to acknowledge the message. { // Print to the console. // Ensure that stderr doesn't trample through the alert() we use to // communicate test results (see executorservo.py in wptrunner). let stderr = stderr(); let mut stderr = stderr.lock(); let stdout = stdout(); let mut stdout = stdout.lock(); writeln!(&mut stdout, "\nALERT: {message}").unwrap(); stdout.flush().unwrap(); stderr.flush().unwrap(); } let (sender, receiver) = ProfiledGenericChannel::channel(self.global().time_profiler_chan().clone()).unwrap(); let dialog = SimpleDialogRequest::Alert { id: self.Document().embedder_controls().next_control_id(), message: message.to_string(), response_sender: sender, }; self.send_to_embedder(EmbedderMsg::ShowSimpleDialog(self.webview_id(), dialog)); receiver.recv().unwrap_or_else(|_| { // If the receiver is closed, we assume the dialog was cancelled. debug!("Alert dialog was cancelled or failed to show."); AlertResponse::Ok }); // Step 7: Invoke WebDriver BiDi user prompt closed with this, "alert", and true. // TODO: Implement support for WebDriver BiDi. } /// fn Confirm(&self, mut message: DOMString) -> bool { // Step 1: If we cannot show simple dialogs for this, then return false. if self.cannot_show_simple_dialogs() { return false; } // Step 2: Set message to the result of normalizing newlines given message. message.normalize_newlines(); // Step 3: Set message to the result of optionally truncating message. // We let the embedder handle this. // Step 4: Show message to the user, treating U+000A LF as a line break, and ask // the user to respond with a positive or negative response. let (sender, receiver) = ProfiledGenericChannel::channel(self.global().time_profiler_chan().clone()).unwrap(); let dialog = SimpleDialogRequest::Confirm { id: self.Document().embedder_controls().next_control_id(), message: message.to_string(), response_sender: sender, }; self.send_to_embedder(EmbedderMsg::ShowSimpleDialog(self.webview_id(), dialog)); // Step 5: Let userPromptHandler be WebDriver BiDi user prompt opened with this, // "confirm", and message. // // Step 6: Let accepted be false. // // Step 7: If userPromptHandler is "none", then: // 1. Pause until the user responds either positively or negatively. // 2. If the user responded positively, then set accepted to true. // // Step 8: If userPromptHandler is "accept", then set accepted to true. // // Step 9: Invoke WebDriver BiDi user prompt closed with this, "confirm", and accepted. // TODO: Implement WebDriver BiDi and handle these steps. // // Step 10: Return accepted. match receiver.recv() { Ok(ConfirmResponse::Ok) => true, Ok(ConfirmResponse::Cancel) => false, Err(_) => { warn!("Confirm dialog was cancelled or failed to show."); false }, } } /// fn Prompt(&self, mut message: DOMString, default: DOMString) -> Option { // Step 1: If we cannot show simple dialogs for this, then return null. if self.cannot_show_simple_dialogs() { return None; } // Step 2: Set message to the result of normalizing newlines given message. message.normalize_newlines(); // Step 3. Set message to the result of optionally truncating message. // Step 4: Set default to the result of optionally truncating default. // We let the embedder handle these steps. // Step 5: Show message to the user, treating U+000A LF as a line break, and ask // the user to either respond with a string value or abort. The response must be // defaulted to the value given by default. let (sender, receiver) = ProfiledGenericChannel::channel(self.global().time_profiler_chan().clone()).unwrap(); let dialog = SimpleDialogRequest::Prompt { id: self.Document().embedder_controls().next_control_id(), message: message.to_string(), default: default.to_string(), response_sender: sender, }; self.send_to_embedder(EmbedderMsg::ShowSimpleDialog(self.webview_id(), dialog)); // Step 6: Let userPromptHandler be WebDriver BiDi user prompt opened with this, // "prompt", and message. // TODO: Add support for WebDriver BiDi. // // Step 7: Let result be null. // // Step 8: If userPromptHandler is "none", then: // 1. Pause while waiting for the user's response. // 2. If the user did not abort, then set result to the string that the user responded with. // // Step 9: Otherwise, if userPromptHandler is "accept", then set result to the empty string. // TODO: Implement this. // // Step 10: Invoke WebDriver BiDi user prompt closed with this, "prompt", false if // result is null or true otherwise, and result. // TODO: Add support for WebDriver BiDi. // // Step 11: Return result. match receiver.recv() { Ok(PromptResponse::Ok(input)) => Some(input.into()), Ok(PromptResponse::Cancel) => None, Err(_) => { warn!("Prompt dialog was cancelled or failed to show."); None }, } } /// fn Stop(&self, cx: &mut js::context::JSContext) { // 1. If this's navigable is null, then return. // Note: Servo doesn't have a concept of navigable yet. // 2. Stop loading this's navigable. self.stop_loading(cx); } /// fn Focus(&self, cx: &mut js::context::JSContext) { // Step 1. Let current be this's navigable. // Note: We don't necessarily have access to the navigable, because it might // be in another process. // Step 2. If current is null, then return. // // Note: This is equivalent to there being an active `Document` and the WindowProxy // not being discarded due to the parent