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servo/components/script/script_thread.rs

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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 http://mozilla.org/MPL/2.0/. */
//! The script thread is the thread that owns the DOM in memory, runs JavaScript, and spawns parsing
//! and layout threads. It's in charge of processing events for all same-origin pages in a frame
//! tree, and manages the entire lifetime of pages in the frame tree from initial request to
//! teardown.
//!
//! Page loads follow a two-step process. When a request for a new page load is received, the
//! network request is initiated and the relevant data pertaining to the new page is stashed.
//! While the non-blocking request is ongoing, the script thread is free to process further events,
//! noting when they pertain to ongoing loads (such as resizes/viewport adjustments). When the
//! initial response is received for an ongoing load, the second phase starts - the frame tree
//! entry is created, along with the Window and Document objects, and the appropriate parser
//! takes over the response body. Once parsing is complete, the document lifecycle for loading
//! a page runs its course and the script thread returns to processing events in the main event
//! loop.
use bluetooth_traits::BluetoothRequest;
use devtools;
use devtools_traits::{DevtoolScriptControlMsg, DevtoolsPageInfo};
use devtools_traits::{ScriptToDevtoolsControlMsg, WorkerId};
use devtools_traits::CSSError;
use document_loader::DocumentLoader;
use dom::bindings::cell::DOMRefCell;
use dom::bindings::codegen::Bindings::CSSStyleDeclarationBinding::CSSStyleDeclarationMethods;
use dom::bindings::codegen::Bindings::DocumentBinding::{DocumentMethods, DocumentReadyState};
use dom::bindings::codegen::Bindings::EventBinding::EventInit;
use dom::bindings::codegen::Bindings::LocationBinding::LocationMethods;
use dom::bindings::codegen::Bindings::TransitionEventBinding::TransitionEventInit;
use dom::bindings::codegen::Bindings::WindowBinding::WindowMethods;
use dom::bindings::conversions::{ConversionResult, FromJSValConvertible, StringificationBehavior};
use dom::bindings::inheritance::Castable;
use dom::bindings::js::{JS, MutNullableHeap, Root, RootCollection};
use dom::bindings::js::{RootCollectionPtr, RootedReference};
use dom::bindings::num::Finite;
use dom::bindings::refcounted::Trusted;
use dom::bindings::reflector::Reflectable;
use dom::bindings::str::DOMString;
use dom::bindings::trace::JSTraceable;
use dom::bindings::utils::WRAP_CALLBACKS;
use dom::browsingcontext::BrowsingContext;
use dom::document::{Document, DocumentProgressHandler, DocumentSource, FocusType, IsHTMLDocument, TouchEventResult};
use dom::element::Element;
use dom::event::{Event, EventBubbles, EventCancelable};
use dom::globalscope::GlobalScope;
use dom::htmlanchorelement::HTMLAnchorElement;
use dom::htmliframeelement::HTMLIFrameElement;
use dom::node::{Node, NodeDamage, window_from_node};
use dom::serviceworker::TrustedServiceWorkerAddress;
use dom::serviceworkerregistration::ServiceWorkerRegistration;
use dom::servoparser::{ParserContext, ServoParser};
use dom::transitionevent::TransitionEvent;
use dom::uievent::UIEvent;
use dom::window::{ReflowReason, Window};
use dom::worker::TrustedWorkerAddress;
use euclid::Rect;
use euclid::point::Point2D;
use hyper::header::{ContentType, HttpDate, LastModified};
use hyper::header::ReferrerPolicy as ReferrerPolicyHeader;
use hyper::mime::{Mime, SubLevel, TopLevel};
use hyper_serde::Serde;
use ipc_channel::ipc::{self, IpcSender};
use ipc_channel::router::ROUTER;
use js::glue::GetWindowProxyClass;
use js::jsapi::{JSAutoCompartment, JSContext, JS_SetWrapObjectCallbacks};
use js::jsapi::{JSTracer, SetWindowProxyClass};
use js::jsval::UndefinedValue;
use js::rust::Runtime;
use layout_wrapper::ServoLayoutNode;
use mem::heap_size_of_self_and_children;
use msg::constellation_msg::{FrameId, FrameType, PipelineId, PipelineNamespace};
use net_traits::{CoreResourceMsg, IpcSend, Metadata, ReferrerPolicy, ResourceThreads};
use net_traits::image_cache_thread::{ImageCacheChan, ImageCacheResult, ImageCacheThread};
use net_traits::request::{CredentialsMode, Destination, RequestInit};
use net_traits::storage_thread::StorageType;
use network_listener::NetworkListener;
use profile_traits::mem::{self, OpaqueSender, Report, ReportKind, ReportsChan};
use profile_traits::time::{self, ProfilerCategory, profile};
use script_layout_interface::message::{self, NewLayoutThreadInfo, ReflowQueryType};
use script_runtime::{CommonScriptMsg, ScriptChan, ScriptThreadEventCategory, EnqueuedPromiseCallback};
use script_runtime::{ScriptPort, StackRootTLS, get_reports, new_rt_and_cx, PromiseJobQueue};
use script_traits::{CompositorEvent, ConstellationControlMsg, EventResult};
use script_traits::{InitialScriptState, LoadData, MouseButton, MouseEventType, MozBrowserEvent};
use script_traits::{NewLayoutInfo, ScriptMsg as ConstellationMsg};
use script_traits::{ScriptThreadFactory, TimerEvent, TimerEventRequest, TimerSource};
use script_traits::{TouchEventType, TouchId, UntrustedNodeAddress, WindowSizeData, WindowSizeType};
use script_traits::CompositorEvent::{KeyEvent, MouseButtonEvent, MouseMoveEvent, ResizeEvent};
use script_traits::CompositorEvent::{TouchEvent, TouchpadPressureEvent};
use script_traits::webdriver_msg::WebDriverScriptCommand;
use serviceworkerjob::{Job, JobQueue, AsyncJobHandler, FinishJobHandler, InvokeType, SettleType};
use servo_url::ServoUrl;
use std::cell::Cell;
use std::collections::{hash_map, HashMap, HashSet};
use std::option::Option;
use std::ptr;
use std::rc::Rc;
use std::result::Result;
use std::sync::{Arc, Mutex};
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::mpsc::{Receiver, Select, Sender, channel};
use style::context::ReflowGoal;
use style::dom::{TNode, UnsafeNode};
use style::thread_state;
use task_source::TaskSource;
use task_source::dom_manipulation::{DOMManipulationTask, DOMManipulationTaskSource};
use task_source::file_reading::FileReadingTaskSource;
use task_source::history_traversal::HistoryTraversalTaskSource;
use task_source::networking::NetworkingTaskSource;
use task_source::user_interaction::{UserInteractionTask, UserInteractionTaskSource};
use time::Tm;
use url::Position;
use util::opts;
use util::thread;
use webdriver_handlers;
thread_local!(pub static STACK_ROOTS: Cell<Option<RootCollectionPtr>> = Cell::new(None));
thread_local!(static SCRIPT_THREAD_ROOT: Cell<Option<*const ScriptThread>> = Cell::new(None));
pub unsafe fn trace_thread(tr: *mut JSTracer) {
SCRIPT_THREAD_ROOT.with(|root| {
if let Some(script_thread) = root.get() {
debug!("tracing fields of ScriptThread");
(*script_thread).trace(tr);
}
});
}
/// A document load that is in the process of fetching the requested resource. Contains
/// data that will need to be present when the document and frame tree entry are created,
/// but is only easily available at initiation of the load and on a push basis (so some
/// data will be updated according to future resize events, viewport changes, etc.)
#[derive(JSTraceable)]
struct InProgressLoad {
/// The pipeline which requested this load.
pipeline_id: PipelineId,
/// The frame being loaded into.
frame_id: FrameId,
/// The parent pipeline and frame type associated with this load, if any.
parent_info: Option<(PipelineId, FrameType)>,
/// The current window size associated with this pipeline.
window_size: Option<WindowSizeData>,
/// Channel to the layout thread associated with this pipeline.
layout_chan: Sender<message::Msg>,
/// The current viewport clipping rectangle applying to this pipeline, if any.
clip_rect: Option<Rect<f32>>,
/// Window is frozen (navigated away while loading for example).
is_frozen: bool,
/// Window is visible.
is_visible: bool,
/// The requested URL of the load.
url: ServoUrl,
}
impl InProgressLoad {
/// Create a new InProgressLoad object.
fn new(id: PipelineId,
frame_id: FrameId,
parent_info: Option<(PipelineId, FrameType)>,
layout_chan: Sender<message::Msg>,
window_size: Option<WindowSizeData>,
url: ServoUrl) -> InProgressLoad {
InProgressLoad {
pipeline_id: id,
frame_id: frame_id,
parent_info: parent_info,
layout_chan: layout_chan,
window_size: window_size,
clip_rect: None,
is_frozen: false,
is_visible: true,
url: url,
}
}
}
/// Encapsulated state required to create cancellable runnables from non-script threads.
pub struct RunnableWrapper {
pub cancelled: Option<Arc<AtomicBool>>,
}
impl RunnableWrapper {
pub fn wrap_runnable<T: Runnable + Send + 'static>(&self, runnable: Box<T>) -> Box<Runnable + Send> {
box CancellableRunnable {
cancelled: self.cancelled.clone(),
inner: runnable,
}
}
}
/// A runnable that can be discarded by toggling a shared flag.
pub struct CancellableRunnable<T: Runnable + Send> {
cancelled: Option<Arc<AtomicBool>>,
inner: Box<T>,
}
impl<T: Runnable + Send> Runnable for CancellableRunnable<T> {
fn name(&self) -> &'static str { self.inner.name() }
fn is_cancelled(&self) -> bool {
self.cancelled.as_ref()
.map(|cancelled| cancelled.load(Ordering::SeqCst))
.unwrap_or(false)
}
fn main_thread_handler(self: Box<CancellableRunnable<T>>, script_thread: &ScriptThread) {
self.inner.main_thread_handler(script_thread);
}
fn handler(self: Box<CancellableRunnable<T>>) {
self.inner.handler()
}
}
pub trait Runnable {
fn is_cancelled(&self) -> bool { false }
fn name(&self) -> &'static str { "generic runnable" }
fn handler(self: Box<Self>) {}
fn main_thread_handler(self: Box<Self>, _script_thread: &ScriptThread) { self.handler(); }
}
enum MixedMessage {
FromConstellation(ConstellationControlMsg),
FromScript(MainThreadScriptMsg),
FromDevtools(DevtoolScriptControlMsg),
FromImageCache(ImageCacheResult),
FromScheduler(TimerEvent)
}
/// Messages used to control the script event loop
pub enum MainThreadScriptMsg {
/// Common variants associated with the script messages
Common(CommonScriptMsg),
/// Notify a document that all pending loads are complete.
DocumentLoadsComplete(PipelineId),
/// Notifies the script that a window associated with a particular pipeline
/// should be closed (only dispatched to ScriptThread).
ExitWindow(PipelineId),
/// Begins a content-initiated load on the specified pipeline (only
/// dispatched to ScriptThread). Allows for a replace bool to be passed. If true,
/// the current entry will be replaced instead of a new entry being added.
Navigate(PipelineId, LoadData, bool),
/// Tasks that originate from the DOM manipulation task source
DOMManipulation(DOMManipulationTask),
/// Tasks that originate from the user interaction task source
UserInteraction(UserInteractionTask),
}
impl OpaqueSender<CommonScriptMsg> for Box<ScriptChan + Send> {
fn send(&self, msg: CommonScriptMsg) {
ScriptChan::send(&**self, msg).unwrap();
}
}
impl ScriptPort for Receiver<CommonScriptMsg> {
fn recv(&self) -> Result<CommonScriptMsg, ()> {
self.recv().map_err(|_| ())
}
}
impl ScriptPort for Receiver<MainThreadScriptMsg> {
fn recv(&self) -> Result<CommonScriptMsg, ()> {
match self.recv() {
Ok(MainThreadScriptMsg::Common(script_msg)) => Ok(script_msg),
Ok(_) => panic!("unexpected main thread event message!"),
_ => Err(()),
}
}
}
impl ScriptPort for Receiver<(TrustedWorkerAddress, CommonScriptMsg)> {
fn recv(&self) -> Result<CommonScriptMsg, ()> {
self.recv().map(|(_, msg)| msg).map_err(|_| ())
}
}
impl ScriptPort for Receiver<(TrustedWorkerAddress, MainThreadScriptMsg)> {
fn recv(&self) -> Result<CommonScriptMsg, ()> {
match self.recv().map(|(_, msg)| msg) {
Ok(MainThreadScriptMsg::Common(script_msg)) => Ok(script_msg),
Ok(_) => panic!("unexpected main thread event message!"),
_ => Err(()),
}
}
}
impl ScriptPort for Receiver<(TrustedServiceWorkerAddress, CommonScriptMsg)> {
fn recv(&self) -> Result<CommonScriptMsg, ()> {
self.recv().map(|(_, msg)| msg).map_err(|_| ())
}
}
/// Encapsulates internal communication of shared messages within the script thread.
#[derive(JSTraceable)]
pub struct SendableMainThreadScriptChan(pub Sender<CommonScriptMsg>);
impl ScriptChan for SendableMainThreadScriptChan {
fn send(&self, msg: CommonScriptMsg) -> Result<(), ()> {
self.0.send(msg).map_err(|_| ())
}
fn clone(&self) -> Box<ScriptChan + Send> {
box SendableMainThreadScriptChan((&self.0).clone())
}
}
/// Encapsulates internal communication of main thread messages within the script thread.
#[derive(JSTraceable)]
pub struct MainThreadScriptChan(pub Sender<MainThreadScriptMsg>);
impl ScriptChan for MainThreadScriptChan {
fn send(&self, msg: CommonScriptMsg) -> Result<(), ()> {
self.0.send(MainThreadScriptMsg::Common(msg)).map_err(|_| ())
}
fn clone(&self) -> Box<ScriptChan + Send> {
box MainThreadScriptChan((&self.0).clone())
}
}
impl OpaqueSender<CommonScriptMsg> for Sender<MainThreadScriptMsg> {
fn send(&self, msg: CommonScriptMsg) {
self.send(MainThreadScriptMsg::Common(msg)).unwrap()
}
}
/// The set of all documents managed by this script thread.
#[derive(JSTraceable)]
#[must_root]
pub struct Documents {
map: HashMap<PipelineId, JS<Document>>,
}
impl Documents {
pub fn new() -> Documents {
Documents {
map: HashMap::new(),
}
}
pub fn insert(&mut self, pipeline_id: PipelineId, doc: &Document) {
self.map.insert(pipeline_id, JS::from_ref(doc));
}
pub fn remove(&mut self, pipeline_id: PipelineId) -> Option<Root<Document>> {
self.map.remove(&pipeline_id).map(|ref doc| Root::from_ref(&**doc))
}
pub fn is_empty(&self) -> bool {
self.map.is_empty()
}
pub fn find_document(&self, pipeline_id: PipelineId) -> Option<Root<Document>> {
self.map.get(&pipeline_id).map(|doc| Root::from_ref(&**doc))
}
pub fn find_window(&self, pipeline_id: PipelineId) -> Option<Root<Window>> {
self.find_document(pipeline_id).map(|doc| Root::from_ref(doc.window()))
}
pub fn find_global(&self, pipeline_id: PipelineId) -> Option<Root<GlobalScope>> {
self.find_window(pipeline_id).map(|window| Root::from_ref(window.upcast()))
}
pub fn find_iframe(&self, pipeline_id: PipelineId, frame_id: FrameId) -> Option<Root<HTMLIFrameElement>> {
self.find_document(pipeline_id).and_then(|doc| doc.find_iframe(frame_id))
}
pub fn iter<'a>(&'a self) -> DocumentsIter<'a> {
DocumentsIter {
iter: self.map.iter(),
}
}
}
#[allow(unrooted_must_root)]
pub struct DocumentsIter<'a> {
iter: hash_map::Iter<'a, PipelineId, JS<Document>>,
}
impl<'a> Iterator for DocumentsIter<'a> {
type Item = (PipelineId, Root<Document>);
fn next(&mut self) -> Option<(PipelineId, Root<Document>)> {
self.iter.next().map(|(id, doc)| (*id, Root::from_ref(&**doc)))
}
}
#[derive(JSTraceable)]
// ScriptThread instances are rooted on creation, so this is okay
#[allow(unrooted_must_root)]
pub struct ScriptThread {
/// The documents for pipelines managed by this thread
documents: DOMRefCell<Documents>,
/// A list of data pertaining to loads that have not yet received a network response
incomplete_loads: DOMRefCell<Vec<InProgressLoad>>,
/// A map to store service worker registrations for a given origin
registration_map: DOMRefCell<HashMap<ServoUrl, JS<ServiceWorkerRegistration>>>,
/// A job queue for Service Workers keyed by their scope url
job_queue_map: Rc<JobQueue>,
/// A handle to the image cache thread.
image_cache_thread: ImageCacheThread,
/// A handle to the resource thread. This is an `Arc` to avoid running out of file descriptors if
/// there are many iframes.
resource_threads: ResourceThreads,
/// A handle to the bluetooth thread.
bluetooth_thread: IpcSender<BluetoothRequest>,
/// The port on which the script thread receives messages (load URL, exit, etc.)
port: Receiver<MainThreadScriptMsg>,
/// A channel to hand out to script thread-based entities that need to be able to enqueue
/// events in the event queue.
chan: MainThreadScriptChan,
dom_manipulation_task_source: DOMManipulationTaskSource,
user_interaction_task_source: UserInteractionTaskSource,
networking_task_source: NetworkingTaskSource,
history_traversal_task_source: HistoryTraversalTaskSource,
file_reading_task_source: FileReadingTaskSource,
/// A channel to hand out to threads that need to respond to a message from the script thread.
control_chan: IpcSender<ConstellationControlMsg>,
/// The port on which the constellation and layout threads can communicate with the
/// script thread.
control_port: Receiver<ConstellationControlMsg>,
/// For communicating load url messages to the constellation
constellation_chan: IpcSender<ConstellationMsg>,
/// The port on which we receive messages from the image cache
image_cache_port: Receiver<ImageCacheResult>,
/// The channel on which the image cache can send messages to ourself.
image_cache_channel: ImageCacheChan,
/// For providing contact with the time profiler.
time_profiler_chan: time::ProfilerChan,
/// For providing contact with the memory profiler.
mem_profiler_chan: mem::ProfilerChan,
/// For providing instructions to an optional devtools server.
devtools_chan: Option<IpcSender<ScriptToDevtoolsControlMsg>>,
/// For receiving commands from an optional devtools server. Will be ignored if
/// no such server exists.
devtools_port: Receiver<DevtoolScriptControlMsg>,
devtools_sender: IpcSender<DevtoolScriptControlMsg>,
/// The JavaScript runtime.
js_runtime: Rc<Runtime>,
/// The topmost element over the mouse.
topmost_mouse_over_target: MutNullableHeap<JS<Element>>,
/// List of pipelines that have been owned and closed by this script thread.
closed_pipelines: DOMRefCell<HashSet<PipelineId>>,
scheduler_chan: IpcSender<TimerEventRequest>,
timer_event_chan: Sender<TimerEvent>,
timer_event_port: Receiver<TimerEvent>,
content_process_shutdown_chan: IpcSender<()>,
promise_job_queue: PromiseJobQueue,
}
/// In the event of thread panic, all data on the stack runs its destructor. However, there
/// are no reachable, owning pointers to the DOM memory, so it never gets freed by default
/// when the script thread fails. The ScriptMemoryFailsafe uses the destructor bomb pattern
/// to forcibly tear down the JS compartments for pages associated with the failing ScriptThread.
struct ScriptMemoryFailsafe<'a> {
owner: Option<&'a ScriptThread>,
}
impl<'a> ScriptMemoryFailsafe<'a> {
fn neuter(&mut self) {
self.owner = None;
}
fn new(owner: &'a ScriptThread) -> ScriptMemoryFailsafe<'a> {
ScriptMemoryFailsafe {
owner: Some(owner),
}
}
}
impl<'a> Drop for ScriptMemoryFailsafe<'a> {
#[allow(unrooted_must_root)]
fn drop(&mut self) {
match self.owner {
Some(owner) => {
for (_, document) in owner.documents.borrow().iter() {
document.window().clear_js_runtime_for_script_deallocation();
}
}
None => (),
}
}
}
impl ScriptThreadFactory for ScriptThread {
type Message = message::Msg;
fn create(state: InitialScriptState,
load_data: LoadData)
-> (Sender<message::Msg>, Receiver<message::Msg>) {
let (script_chan, script_port) = channel();
let (sender, receiver) = channel();
let layout_chan = sender.clone();
thread::spawn_named(format!("ScriptThread {:?}", state.id),
move || {
thread_state::initialize(thread_state::SCRIPT);
PipelineNamespace::install(state.pipeline_namespace_id);
FrameId::install(state.top_level_frame_id);
let roots = RootCollection::new();
let _stack_roots_tls = StackRootTLS::new(&roots);
let id = state.id;
let frame_id = state.frame_id;
let parent_info = state.parent_info;
let mem_profiler_chan = state.mem_profiler_chan.clone();
let window_size = state.window_size;
let script_thread = ScriptThread::new(state,
script_port,
script_chan.clone());
SCRIPT_THREAD_ROOT.with(|root| {
root.set(Some(&script_thread as *const _));
});
let mut failsafe = ScriptMemoryFailsafe::new(&script_thread);
let new_load = InProgressLoad::new(id, frame_id, parent_info, layout_chan, window_size,
load_data.url.clone());
script_thread.start_page_load(new_load, load_data);
let reporter_name = format!("script-reporter-{}", id);
mem_profiler_chan.run_with_memory_reporting(|| {
script_thread.start();
let _ = script_thread.content_process_shutdown_chan.send(());
}, reporter_name, script_chan, CommonScriptMsg::CollectReports);
// This must always be the very last operation performed before the thread completes
failsafe.neuter();
});
(sender, receiver)
}
}
impl ScriptThread {
pub fn page_headers_available(id: &PipelineId, metadata: Option<Metadata>)
-> Option<Root<ServoParser>> {
SCRIPT_THREAD_ROOT.with(|root| {
let script_thread = unsafe { &*root.get().unwrap() };
script_thread.handle_page_headers_available(id, metadata)
})
}
#[allow(unrooted_must_root)]
pub fn schedule_job(job: Job, global: &GlobalScope) {
SCRIPT_THREAD_ROOT.with(|root| {
let script_thread = unsafe { &*root.get().unwrap() };
let job_queue = &*script_thread.job_queue_map;
job_queue.schedule_job(job, global, &script_thread);
});
}
pub fn parsing_complete(id: PipelineId) {
SCRIPT_THREAD_ROOT.with(|root| {
let script_thread = unsafe { &*root.get().unwrap() };
script_thread.handle_parsing_complete(id);
});
}
pub fn process_event(msg: CommonScriptMsg) {
SCRIPT_THREAD_ROOT.with(|root| {
if let Some(script_thread) = root.get() {
let script_thread = unsafe { &*script_thread };
script_thread.handle_msg_from_script(MainThreadScriptMsg::Common(msg));
}
});
}
// https://html.spec.whatwg.org/multipage/#await-a-stable-state
pub fn await_stable_state<T: Runnable + Send + 'static>(task: T) {
//TODO use microtasks when they exist
SCRIPT_THREAD_ROOT.with(|root| {
if let Some(script_thread) = root.get() {
let script_thread = unsafe { &*script_thread };
let _ = script_thread.chan.send(CommonScriptMsg::RunnableMsg(
ScriptThreadEventCategory::DomEvent,
box task));
}
});
}
pub fn find_document(id: PipelineId) -> Option<Root<Document>> {
SCRIPT_THREAD_ROOT.with(|root| root.get().and_then(|script_thread| {
let script_thread = unsafe { &*script_thread };
script_thread.documents.borrow().find_document(id)
}))
}
/// Creates a new script thread.
pub fn new(state: InitialScriptState,
port: Receiver<MainThreadScriptMsg>,
chan: Sender<MainThreadScriptMsg>)
-> ScriptThread {
let runtime = unsafe { new_rt_and_cx() };
unsafe {
JS_SetWrapObjectCallbacks(runtime.rt(),
&WRAP_CALLBACKS);
SetWindowProxyClass(runtime.rt(), GetWindowProxyClass());
}
// Ask the router to proxy IPC messages from the devtools to us.
let (ipc_devtools_sender, ipc_devtools_receiver) = ipc::channel().unwrap();
let devtools_port = ROUTER.route_ipc_receiver_to_new_mpsc_receiver(ipc_devtools_receiver);
// Ask the router to proxy IPC messages from the image cache thread to us.
let (ipc_image_cache_channel, ipc_image_cache_port) = ipc::channel().unwrap();
let image_cache_port =
ROUTER.route_ipc_receiver_to_new_mpsc_receiver(ipc_image_cache_port);
let (timer_event_chan, timer_event_port) = channel();
// Ask the router to proxy IPC messages from the control port to us.
let control_port = ROUTER.route_ipc_receiver_to_new_mpsc_receiver(state.control_port);
let boxed_script_sender = MainThreadScriptChan(chan.clone()).clone();
ScriptThread {
documents: DOMRefCell::new(Documents::new()),
incomplete_loads: DOMRefCell::new(vec!()),
registration_map: DOMRefCell::new(HashMap::new()),
job_queue_map: Rc::new(JobQueue::new()),
image_cache_thread: state.image_cache_thread,
image_cache_channel: ImageCacheChan(ipc_image_cache_channel),
image_cache_port: image_cache_port,
resource_threads: state.resource_threads,
bluetooth_thread: state.bluetooth_thread,
port: port,
chan: MainThreadScriptChan(chan.clone()),
dom_manipulation_task_source: DOMManipulationTaskSource(chan.clone()),
user_interaction_task_source: UserInteractionTaskSource(chan.clone()),
networking_task_source: NetworkingTaskSource(boxed_script_sender.clone()),
history_traversal_task_source: HistoryTraversalTaskSource(chan),
file_reading_task_source: FileReadingTaskSource(boxed_script_sender),
control_chan: state.control_chan,
control_port: control_port,
constellation_chan: state.constellation_chan,
time_profiler_chan: state.time_profiler_chan,
mem_profiler_chan: state.mem_profiler_chan,
devtools_chan: state.devtools_chan,
devtools_port: devtools_port,
devtools_sender: ipc_devtools_sender,
js_runtime: Rc::new(runtime),
topmost_mouse_over_target: MutNullableHeap::new(Default::default()),
closed_pipelines: DOMRefCell::new(HashSet::new()),
scheduler_chan: state.scheduler_chan,
timer_event_chan: timer_event_chan,
timer_event_port: timer_event_port,
content_process_shutdown_chan: state.content_process_shutdown_chan,
promise_job_queue: PromiseJobQueue::new(),
}
}
pub fn get_cx(&self) -> *mut JSContext {
self.js_runtime.cx()
}
/// Starts the script thread. After calling this method, the script thread will loop receiving
/// messages on its port.
pub fn start(&self) {
debug!("Starting script thread.");
while self.handle_msgs() {
// Go on...
}
debug!("Stopped script thread.");
}
/// Handle incoming control messages.
fn handle_msgs(&self) -> bool {
use self::MixedMessage::{FromConstellation, FromDevtools, FromImageCache};
use self::MixedMessage::{FromScheduler, FromScript};
// Handle pending resize events.
// Gather them first to avoid a double mut borrow on self.
let mut resizes = vec!();
for (id, document) in self.documents.borrow().iter() {
// Only process a resize if layout is idle.
let resize_event = document.window().steal_resize_event();
match resize_event {
Some((size, size_type)) => resizes.push((id, size, size_type)),
None => ()
}
}
for (id, size, size_type) in resizes {
self.handle_event(id, ResizeEvent(size, size_type));
}
// Store new resizes, and gather all other events.
let mut sequential = vec![];
// Receive at least one message so we don't spinloop.
let mut event = {
let sel = Select::new();
let mut script_port = sel.handle(&self.port);
let mut control_port = sel.handle(&self.control_port);
let mut timer_event_port = sel.handle(&self.timer_event_port);
let mut devtools_port = sel.handle(&self.devtools_port);
let mut image_cache_port = sel.handle(&self.image_cache_port);
unsafe {
script_port.add();
control_port.add();
timer_event_port.add();
if self.devtools_chan.is_some() {
devtools_port.add();
}
image_cache_port.add();
}
let ret = sel.wait();
if ret == script_port.id() {
FromScript(self.port.recv().unwrap())
} else if ret == control_port.id() {
FromConstellation(self.control_port.recv().unwrap())
} else if ret == timer_event_port.id() {
FromScheduler(self.timer_event_port.recv().unwrap())
} else if ret == devtools_port.id() {
FromDevtools(self.devtools_port.recv().unwrap())
} else if ret == image_cache_port.id() {
FromImageCache(self.image_cache_port.recv().unwrap())
} else {
panic!("unexpected select result")
}
};
// Squash any pending resize, reflow, animation tick, and mouse-move events in the queue.
let mut mouse_move_event_index = None;
let mut animation_ticks = HashSet::new();
loop {
match event {
// This has to be handled before the ResizeMsg below,
// otherwise the page may not have been added to the
// child list yet, causing the find() to fail.
FromConstellation(ConstellationControlMsg::AttachLayout(
new_layout_info)) => {
self.profile_event(ScriptThreadEventCategory::AttachLayout, || {
self.handle_new_layout(new_layout_info);
})
}
FromConstellation(ConstellationControlMsg::Resize(id, size, size_type)) => {
self.profile_event(ScriptThreadEventCategory::Resize, || {
self.handle_resize(id, size, size_type);
})
}
FromConstellation(ConstellationControlMsg::Viewport(id, rect)) => {
self.profile_event(ScriptThreadEventCategory::SetViewport, || {
self.handle_viewport(id, rect);
})
}
FromConstellation(ConstellationControlMsg::SetScrollState(id, scroll_state)) => {
self.profile_event(ScriptThreadEventCategory::SetScrollState, || {
self.handle_set_scroll_state(id, &scroll_state);
})
}
FromConstellation(ConstellationControlMsg::TickAllAnimations(
pipeline_id)) => {
if !animation_ticks.contains(&pipeline_id) {
animation_ticks.insert(pipeline_id);
sequential.push(event);
}
}
FromConstellation(ConstellationControlMsg::SendEvent(
_,
MouseMoveEvent(_))) => {
match mouse_move_event_index {
None => {
mouse_move_event_index = Some(sequential.len());
sequential.push(event);
}
Some(index) => {
sequential[index] = event
}
}
}
_ => {
sequential.push(event);
}
}
// If any of our input sources has an event pending, we'll perform another iteration
// and check for more resize events. If there are no events pending, we'll move
// on and execute the sequential non-resize events we've seen.
match self.control_port.try_recv() {
Err(_) => match self.port.try_recv() {
Err(_) => match self.timer_event_port.try_recv() {
Err(_) => match self.devtools_port.try_recv() {
Err(_) => match self.image_cache_port.try_recv() {
Err(_) => break,
Ok(ev) => event = FromImageCache(ev),
},
Ok(ev) => event = FromDevtools(ev),
},
Ok(ev) => event = FromScheduler(ev),
},
Ok(ev) => event = FromScript(ev),
},
Ok(ev) => event = FromConstellation(ev),
}
}
// Process the gathered events.
for msg in sequential {
let category = self.categorize_msg(&msg);
let result = self.profile_event(category, move || {
match msg {
FromConstellation(ConstellationControlMsg::ExitScriptThread) => {
self.handle_exit_script_thread_msg();
return Some(false);
},
FromConstellation(inner_msg) => self.handle_msg_from_constellation(inner_msg),
FromScript(inner_msg) => self.handle_msg_from_script(inner_msg),
FromScheduler(inner_msg) => self.handle_timer_event(inner_msg),
FromDevtools(inner_msg) => self.handle_msg_from_devtools(inner_msg),
FromImageCache(inner_msg) => self.handle_msg_from_image_cache(inner_msg),
}
None
});
if let Some(retval) = result {
return retval
}
}
// Issue batched reflows on any pages that require it (e.g. if images loaded)
// TODO(gw): In the future we could probably batch other types of reflows
// into this loop too, but for now it's only images.
for (_, document) in self.documents.borrow().iter() {
let window = document.window();
let pending_reflows = window.get_pending_reflow_count();
if pending_reflows > 0 {
window.reflow(ReflowGoal::ForDisplay,
ReflowQueryType::NoQuery,
ReflowReason::ImageLoaded);
} else {
// Reflow currently happens when explicitly invoked by code that
// knows the document could have been modified. This should really
// be driven by the compositor on an as-needed basis instead, to
// minimize unnecessary work.
window.reflow(ReflowGoal::ForDisplay,
ReflowQueryType::NoQuery,
ReflowReason::MissingExplicitReflow);
}
}
true
}
fn categorize_msg(&self, msg: &MixedMessage) -> ScriptThreadEventCategory {
match *msg {
MixedMessage::FromConstellation(ref inner_msg) => {
match *inner_msg {
ConstellationControlMsg::SendEvent(_, _) =>
ScriptThreadEventCategory::DomEvent,
_ => ScriptThreadEventCategory::ConstellationMsg
}
},
MixedMessage::FromDevtools(_) => ScriptThreadEventCategory::DevtoolsMsg,
MixedMessage::FromImageCache(_) => ScriptThreadEventCategory::ImageCacheMsg,
MixedMessage::FromScript(ref inner_msg) => {
match *inner_msg {
MainThreadScriptMsg::Common(CommonScriptMsg::RunnableMsg(ref category, _)) =>
*category,
_ => ScriptThreadEventCategory::ScriptEvent
}
},
MixedMessage::FromScheduler(_) => ScriptThreadEventCategory::TimerEvent
}
}
fn profile_event<F, R>(&self, category: ScriptThreadEventCategory, f: F) -> R
where F: FnOnce() -> R {
if opts::get().profile_script_events {
let profiler_cat = match category {
ScriptThreadEventCategory::AttachLayout => ProfilerCategory::ScriptAttachLayout,
ScriptThreadEventCategory::ConstellationMsg => ProfilerCategory::ScriptConstellationMsg,
ScriptThreadEventCategory::DevtoolsMsg => ProfilerCategory::ScriptDevtoolsMsg,
ScriptThreadEventCategory::DocumentEvent => ProfilerCategory::ScriptDocumentEvent,
ScriptThreadEventCategory::DomEvent => ProfilerCategory::ScriptDomEvent,
ScriptThreadEventCategory::FileRead => ProfilerCategory::ScriptFileRead,
ScriptThreadEventCategory::FormPlannedNavigation => ProfilerCategory::ScriptPlannedNavigation,
ScriptThreadEventCategory::ImageCacheMsg => ProfilerCategory::ScriptImageCacheMsg,
ScriptThreadEventCategory::InputEvent => ProfilerCategory::ScriptInputEvent,
ScriptThreadEventCategory::NetworkEvent => ProfilerCategory::ScriptNetworkEvent,
ScriptThreadEventCategory::Resize => ProfilerCategory::ScriptResize,
ScriptThreadEventCategory::ScriptEvent => ProfilerCategory::ScriptEvent,
ScriptThreadEventCategory::SetScrollState => {
ProfilerCategory::ScriptSetScrollState
}
ScriptThreadEventCategory::UpdateReplacedElement => {
ProfilerCategory::ScriptUpdateReplacedElement
}
ScriptThreadEventCategory::StylesheetLoad => ProfilerCategory::ScriptStylesheetLoad,
ScriptThreadEventCategory::SetViewport => ProfilerCategory::ScriptSetViewport,
ScriptThreadEventCategory::TimerEvent => ProfilerCategory::ScriptTimerEvent,
ScriptThreadEventCategory::WebSocketEvent => ProfilerCategory::ScriptWebSocketEvent,
ScriptThreadEventCategory::WorkerEvent => ProfilerCategory::ScriptWorkerEvent,
ScriptThreadEventCategory::ServiceWorkerEvent => ProfilerCategory::ScriptServiceWorkerEvent
};
profile(profiler_cat, None, self.time_profiler_chan.clone(), f)
} else {
f()
}
}
fn handle_msg_from_constellation(&self, msg: ConstellationControlMsg) {
match msg {
ConstellationControlMsg::Navigate(parent_pipeline_id, frame_id, load_data, replace) =>
self.handle_navigate(parent_pipeline_id, Some(frame_id), load_data, replace),
ConstellationControlMsg::SendEvent(id, event) =>
self.handle_event(id, event),
ConstellationControlMsg::ResizeInactive(id, new_size) =>
self.handle_resize_inactive_msg(id, new_size),
ConstellationControlMsg::GetTitle(pipeline_id) =>
self.handle_get_title_msg(pipeline_id),
ConstellationControlMsg::Freeze(pipeline_id) =>
self.handle_freeze_msg(pipeline_id),
ConstellationControlMsg::Thaw(pipeline_id) =>
self.handle_thaw_msg(pipeline_id),
ConstellationControlMsg::ChangeFrameVisibilityStatus(pipeline_id, visible) =>
self.handle_visibility_change_msg(pipeline_id, visible),
ConstellationControlMsg::NotifyVisibilityChange(parent_pipeline_id, frame_id, visible) =>
self.handle_visibility_change_complete_msg(parent_pipeline_id, frame_id, visible),
ConstellationControlMsg::MozBrowserEvent(parent_pipeline_id,
frame_id,
event) =>
self.handle_mozbrowser_event_msg(parent_pipeline_id,
frame_id,
event),
ConstellationControlMsg::UpdatePipelineId(parent_pipeline_id,
frame_id,
new_pipeline_id) =>
self.handle_update_pipeline_id(parent_pipeline_id,
frame_id,
new_pipeline_id),
ConstellationControlMsg::FocusIFrame(parent_pipeline_id, frame_id) =>
self.handle_focus_iframe_msg(parent_pipeline_id, frame_id),
ConstellationControlMsg::WebDriverScriptCommand(pipeline_id, msg) =>
self.handle_webdriver_msg(pipeline_id, msg),
ConstellationControlMsg::TickAllAnimations(pipeline_id) =>
self.handle_tick_all_animations(pipeline_id),
ConstellationControlMsg::TransitionEnd(unsafe_node, name, duration) =>
self.handle_transition_event(unsafe_node, name, duration),
ConstellationControlMsg::WebFontLoaded(pipeline_id) =>
self.handle_web_font_loaded(pipeline_id),
ConstellationControlMsg::DispatchFrameLoadEvent {
target: frame_id, parent: parent_id, child: child_id } =>
self.handle_frame_load_event(parent_id, frame_id, child_id),
ConstellationControlMsg::DispatchStorageEvent(pipeline_id, storage, url, key, old_value, new_value) =>
self.handle_storage_event(pipeline_id, storage, url, key, old_value, new_value),
ConstellationControlMsg::FramedContentChanged(parent_pipeline_id, frame_id) =>
self.handle_framed_content_changed(parent_pipeline_id, frame_id),
ConstellationControlMsg::ReportCSSError(pipeline_id, filename, line, column, msg) =>
self.handle_css_error_reporting(pipeline_id, filename, line, column, msg),
ConstellationControlMsg::Reload(pipeline_id) =>
self.handle_reload(pipeline_id),
ConstellationControlMsg::ExitPipeline(pipeline_id) =>
self.handle_exit_pipeline_msg(pipeline_id),
msg @ ConstellationControlMsg::AttachLayout(..) |
msg @ ConstellationControlMsg::Viewport(..) |
msg @ ConstellationControlMsg::SetScrollState(..) |
msg @ ConstellationControlMsg::Resize(..) |
msg @ ConstellationControlMsg::ExitScriptThread =>
panic!("should have handled {:?} already", msg),
}
}
fn handle_msg_from_script(&self, msg: MainThreadScriptMsg) {
match msg {
MainThreadScriptMsg::Navigate(parent_pipeline_id, load_data, replace) =>
self.handle_navigate(parent_pipeline_id, None, load_data, replace),
MainThreadScriptMsg::ExitWindow(id) =>
self.handle_exit_window_msg(id),
MainThreadScriptMsg::DocumentLoadsComplete(id) =>
self.handle_loads_complete(id),
MainThreadScriptMsg::Common(CommonScriptMsg::RunnableMsg(_, runnable)) => {
// The category of the runnable is ignored by the pattern, however
// it is still respected by profiling (see categorize_msg).
if !runnable.is_cancelled() {
runnable.handler()
}
}
MainThreadScriptMsg::Common(CommonScriptMsg::CollectReports(reports_chan)) =>
self.collect_reports(reports_chan),
MainThreadScriptMsg::DOMManipulation(task) =>
task.handle_task(self),
MainThreadScriptMsg::UserInteraction(task) =>
task.handle_task(self),
}
}
fn handle_timer_event(&self, timer_event: TimerEvent) {
let TimerEvent(source, id) = timer_event;
let pipeline_id = match source {
TimerSource::FromWindow(pipeline_id) => pipeline_id,
TimerSource::FromWorker => panic!("Worker timeouts must not be sent to script thread"),
};
let window = self.documents.borrow().find_window(pipeline_id)
.expect("ScriptThread: received fire timer msg for a pipeline not in this script thread. This is a bug.");
window.handle_fire_timer(id);
}
fn handle_msg_from_devtools(&self, msg: DevtoolScriptControlMsg) {
let documents = self.documents.borrow();
match msg {
DevtoolScriptControlMsg::EvaluateJS(id, s, reply) => {
match documents.find_window(id) {
Some(window) => devtools::handle_evaluate_js(window.upcast(), s, reply),
None => return warn!("Message sent to closed pipeline {}.", id),
}
},
DevtoolScriptControlMsg::GetRootNode(id, reply) =>
devtools::handle_get_root_node(&*documents, id, reply),
DevtoolScriptControlMsg::GetDocumentElement(id, reply) =>
devtools::handle_get_document_element(&*documents, id, reply),
DevtoolScriptControlMsg::GetChildren(id, node_id, reply) =>
devtools::handle_get_children(&*documents, id, node_id, reply),
DevtoolScriptControlMsg::GetLayout(id, node_id, reply) =>
devtools::handle_get_layout(&*documents, id, node_id, reply),
DevtoolScriptControlMsg::GetCachedMessages(id, message_types, reply) =>
devtools::handle_get_cached_messages(id, message_types, reply),
DevtoolScriptControlMsg::ModifyAttribute(id, node_id, modifications) =>
devtools::handle_modify_attribute(&*documents, id, node_id, modifications),
DevtoolScriptControlMsg::WantsLiveNotifications(id, to_send) => {
match documents.find_window(id) {
Some(window) => devtools::handle_wants_live_notifications(window.upcast(), to_send),
None => return warn!("Message sent to closed pipeline {}.", id),
}
},
DevtoolScriptControlMsg::SetTimelineMarkers(id, marker_types, reply) =>
devtools::handle_set_timeline_markers(&*documents, id, marker_types, reply),
DevtoolScriptControlMsg::DropTimelineMarkers(id, marker_types) =>
devtools::handle_drop_timeline_markers(&*documents, id, marker_types),
DevtoolScriptControlMsg::RequestAnimationFrame(id, name) =>
devtools::handle_request_animation_frame(&*documents, id, name),
DevtoolScriptControlMsg::Reload(id) =>
devtools::handle_reload(&*documents, id),
}
}
fn handle_msg_from_image_cache(&self, msg: ImageCacheResult) {
msg.responder.unwrap().respond(msg.image_response);
}
fn handle_webdriver_msg(&self, pipeline_id: PipelineId, msg: WebDriverScriptCommand) {
let documents = self.documents.borrow();
match msg {
WebDriverScriptCommand::AddCookie(params, reply) =>
webdriver_handlers::handle_add_cookie(&*documents, pipeline_id, params, reply),
WebDriverScriptCommand::ExecuteScript(script, reply) =>
webdriver_handlers::handle_execute_script(&*documents, pipeline_id, script, reply),
WebDriverScriptCommand::FindElementCSS(selector, reply) =>
webdriver_handlers::handle_find_element_css(&*documents, pipeline_id, selector, reply),
WebDriverScriptCommand::FindElementsCSS(selector, reply) =>
webdriver_handlers::handle_find_elements_css(&*documents, pipeline_id, selector, reply),
WebDriverScriptCommand::FocusElement(element_id, reply) =>
webdriver_handlers::handle_focus_element(&*documents, pipeline_id, element_id, reply),
WebDriverScriptCommand::GetActiveElement(reply) =>
webdriver_handlers::handle_get_active_element(&*documents, pipeline_id, reply),
WebDriverScriptCommand::GetCookies(reply) =>
webdriver_handlers::handle_get_cookies(&*documents, pipeline_id, reply),
WebDriverScriptCommand::GetCookie(name, reply) =>
webdriver_handlers::handle_get_cookie(&*documents, pipeline_id, name, reply),
WebDriverScriptCommand::GetElementTagName(node_id, reply) =>
webdriver_handlers::handle_get_name(&*documents, pipeline_id, node_id, reply),
WebDriverScriptCommand::GetElementAttribute(node_id, name, reply) =>
webdriver_handlers::handle_get_attribute(&*documents, pipeline_id, node_id, name, reply),
WebDriverScriptCommand::GetElementCSS(node_id, name, reply) =>
webdriver_handlers::handle_get_css(&*documents, pipeline_id, node_id, name, reply),
WebDriverScriptCommand::GetElementRect(node_id, reply) =>
webdriver_handlers::handle_get_rect(&*documents, pipeline_id, node_id, reply),
WebDriverScriptCommand::GetElementText(node_id, reply) =>
webdriver_handlers::handle_get_text(&*documents, pipeline_id, node_id, reply),
WebDriverScriptCommand::GetFrameId(frame_id, reply) =>
webdriver_handlers::handle_get_frame_id(&*documents, pipeline_id, frame_id, reply),
WebDriverScriptCommand::GetUrl(reply) =>
webdriver_handlers::handle_get_url(&*documents, pipeline_id, reply),
WebDriverScriptCommand::IsEnabled(element_id, reply) =>
webdriver_handlers::handle_is_enabled(&*documents, pipeline_id, element_id, reply),
WebDriverScriptCommand::IsSelected(element_id, reply) =>
webdriver_handlers::handle_is_selected(&*documents, pipeline_id, element_id, reply),
WebDriverScriptCommand::GetTitle(reply) =>
webdriver_handlers::handle_get_title(&*documents, pipeline_id, reply),
WebDriverScriptCommand::ExecuteAsyncScript(script, reply) =>
webdriver_handlers::handle_execute_async_script(&*documents, pipeline_id, script, reply),
}
}
fn handle_resize(&self, id: PipelineId, size: WindowSizeData, size_type: WindowSizeType) {
if let Some(ref window) = self.documents.borrow().find_window(id) {
window.set_resize_event(size, size_type);
return;
}
let mut loads = self.incomplete_loads.borrow_mut();
if let Some(ref mut load) = loads.iter_mut().find(|load| load.pipeline_id == id) {
load.window_size = Some(size);
return;
}
warn!("resize sent to nonexistent pipeline");
}
fn handle_viewport(&self, id: PipelineId, rect: Rect<f32>) {
if let Some(document) = self.documents.borrow().find_document(id) {
if document.window().set_page_clip_rect_with_new_viewport(rect) {
self.rebuild_and_force_reflow(&document, ReflowReason::Viewport);
}
return;
}
let mut loads = self.incomplete_loads.borrow_mut();
if let Some(ref mut load) = loads.iter_mut().find(|load| load.pipeline_id == id) {
load.clip_rect = Some(rect);
return;
}
warn!("Page rect message sent to nonexistent pipeline");
}
fn handle_set_scroll_state(&self,
id: PipelineId,
scroll_states: &[(UntrustedNodeAddress, Point2D<f32>)]) {
let window = match self.documents.borrow().find_window(id) {
Some(window) => window,
None => return warn!("Set scroll state message sent to nonexistent pipeline: {:?}", id),
};
let mut scroll_offsets = HashMap::new();
for &(node_address, ref scroll_offset) in scroll_states {
if node_address == UntrustedNodeAddress(ptr::null()) {
window.update_viewport_for_scroll(-scroll_offset.x, -scroll_offset.y);
} else {
scroll_offsets.insert(node_address,
Point2D::new(-scroll_offset.x, -scroll_offset.y));
}
}
window.set_scroll_offsets(scroll_offsets)
}
fn handle_new_layout(&self, new_layout_info: NewLayoutInfo) {
let NewLayoutInfo {
parent_info,
new_pipeline_id,
frame_id,
load_data,
window_size,
pipeline_port,
layout_to_constellation_chan,
content_process_shutdown_chan,
layout_threads,
} = new_layout_info;
let layout_pair = channel();
let layout_chan = layout_pair.0.clone();
let msg = message::Msg::CreateLayoutThread(NewLayoutThreadInfo {
id: new_pipeline_id,
url: load_data.url.clone(),
is_parent: false,
layout_pair: layout_pair,
pipeline_port: pipeline_port,
constellation_chan: layout_to_constellation_chan,
script_chan: self.control_chan.clone(),
image_cache_thread: self.image_cache_thread.clone(),
content_process_shutdown_chan: content_process_shutdown_chan,
layout_threads: layout_threads,
});
// Pick a layout thread, any layout thread
let current_layout_chan = self.documents.borrow().iter().next()
.map(|(_, document)| document.window().layout_chan().clone())
.or_else(|| self.incomplete_loads.borrow().first().map(|load| load.layout_chan.clone()));
match current_layout_chan {
None => panic!("Layout attached to empty script thread."),
// Tell the layout thread factory to actually spawn the thread.
Some(layout_chan) => layout_chan.send(msg).unwrap(),
};
// Kick off the fetch for the new resource.
let new_load = InProgressLoad::new(new_pipeline_id, frame_id, parent_info,
layout_chan, window_size,
load_data.url.clone());
self.start_page_load(new_load, load_data);
}
fn handle_loads_complete(&self, pipeline: PipelineId) {
let doc = match self.documents.borrow().find_document(pipeline) {
Some(doc) => doc,
None => return warn!("Message sent to closed pipeline {}.", pipeline),
};
if doc.loader().is_blocked() {
debug!("Script thread got loads complete while loader is blocked.");
return;
}
doc.mut_loader().inhibit_events();
// https://html.spec.whatwg.org/multipage/#the-end step 7
// Schedule a task to fire a "load" event (if no blocking loads have arrived in the mean time)
// NOTE: we can end up executing this code more than once, in case more blocking loads arrive.
let handler = box DocumentProgressHandler::new(Trusted::new(&doc));
self.dom_manipulation_task_source.queue(handler, doc.window().upcast()).unwrap();
if let Some(fragment) = doc.url().fragment() {
doc.check_and_scroll_fragment(fragment);
};
}
fn collect_reports(&self, reports_chan: ReportsChan) {
let mut path_seg = String::from("url(");
let mut dom_tree_size = 0;
let mut reports = vec![];
for (_, document) in self.documents.borrow().iter() {
let current_url = document.url();
for child in document.upcast::<Node>().traverse_preorder() {
dom_tree_size += heap_size_of_self_and_children(&*child);
}
dom_tree_size += heap_size_of_self_and_children(document.window());
if reports.len() > 0 {
path_seg.push_str(", ");
}
path_seg.push_str(current_url.as_str());
reports.push(Report {
path: path![format!("url({})", current_url.as_str()), "dom-tree"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: dom_tree_size,
});
}
path_seg.push_str(")");
reports.extend(get_reports(self.get_cx(), path_seg));
reports_chan.send(reports);
}
/// To slow/speed up timers and manage any other script thread resource based on visibility.
/// Returns true if successful.
fn alter_resource_utilization(&self, id: PipelineId, visible: bool) -> bool {
if let Some(window) = self.documents.borrow().find_window(id) {
if visible {
window.upcast::<GlobalScope>().speed_up_timers();
} else {
window.upcast::<GlobalScope>().slow_down_timers();
}
return true;
}
false
}
/// Updates iframe element after a change in visibility
fn handle_visibility_change_complete_msg(&self, parent_pipeline_id: PipelineId, id: FrameId, visible: bool) {
if let Some(iframe) = self.documents.borrow().find_iframe(parent_pipeline_id, id) {
iframe.change_visibility_status(visible);
}
}
/// Handle visibility change message
fn handle_visibility_change_msg(&self, id: PipelineId, visible: bool) {
let resources_altered = self.alter_resource_utilization(id, visible);
// Separate message sent since parent script thread could be different (Iframe of different
// domain)
self.constellation_chan.send(ConstellationMsg::VisibilityChangeComplete(id, visible)).unwrap();
if !resources_altered {
let mut loads = self.incomplete_loads.borrow_mut();
if let Some(ref mut load) = loads.iter_mut().find(|load| load.pipeline_id == id) {
load.is_visible = visible;
return;
}
} else {
return;
}
warn!("change visibility message sent to nonexistent pipeline");
}
/// Handles freeze message
fn handle_freeze_msg(&self, id: PipelineId) {
if let Some(window) = self.documents.borrow().find_window(id) {
window.upcast::<GlobalScope>().suspend();
return;
}
let mut loads = self.incomplete_loads.borrow_mut();
if let Some(ref mut load) = loads.iter_mut().find(|load| load.pipeline_id == id) {
load.is_frozen = true;
return;
}
warn!("freeze sent to nonexistent pipeline");
}
/// Handles thaw message
fn handle_thaw_msg(&self, id: PipelineId) {
if let Some(document) = self.documents.borrow().find_document(id) {
if let Some(context) = document.browsing_context() {
let needed_reflow = context.set_reflow_status(false);
if needed_reflow {
self.rebuild_and_force_reflow(&document, ReflowReason::CachedPageNeededReflow);
}
}
document.window().thaw();
return;
}
let mut loads = self.incomplete_loads.borrow_mut();
if let Some(ref mut load) = loads.iter_mut().find(|load| load.pipeline_id == id) {
load.is_frozen = false;
return;
}
warn!("thaw sent to nonexistent pipeline");
}
fn handle_focus_iframe_msg(&self,
parent_pipeline_id: PipelineId,
frame_id: FrameId) {
let doc = self.documents.borrow().find_document(parent_pipeline_id).unwrap();
let frame_element = doc.find_iframe(frame_id);
if let Some(ref frame_element) = frame_element {
doc.begin_focus_transaction();
doc.request_focus(frame_element.upcast());
doc.commit_focus_transaction(FocusType::Parent);
}
}
fn handle_framed_content_changed(&self,
parent_pipeline_id: PipelineId,
frame_id: FrameId) {
let doc = self.documents.borrow().find_document(parent_pipeline_id).unwrap();
let frame_element = doc.find_iframe(frame_id);
if let Some(ref frame_element) = frame_element {
frame_element.upcast::<Node>().dirty(NodeDamage::OtherNodeDamage);
let window = doc.window();
window.reflow(ReflowGoal::ForDisplay,
ReflowQueryType::NoQuery,
ReflowReason::FramedContentChanged);
}
}
/// Handles a mozbrowser event, for example see:
/// https://developer.mozilla.org/en-US/docs/Web/Events/mozbrowserloadstart
fn handle_mozbrowser_event_msg(&self,
parent_pipeline_id: PipelineId,
frame_id: Option<FrameId>,
event: MozBrowserEvent) {
match self.documents.borrow().find_document(parent_pipeline_id) {
None => warn!("Mozbrowser event after pipeline {:?} closed.", parent_pipeline_id),
Some(doc) => match frame_id {
None => doc.window().dispatch_mozbrowser_event(event),
Some(frame_id) => match doc.find_iframe(frame_id) {
None => warn!("Mozbrowser event after iframe {:?}/{:?} closed.", parent_pipeline_id, frame_id),
Some(frame_element) => frame_element.dispatch_mozbrowser_event(event),
},
},
}
}
fn handle_update_pipeline_id(&self,
parent_pipeline_id: PipelineId,
frame_id: FrameId,
new_pipeline_id: PipelineId) {
if let Some(frame_element) = self.documents.borrow().find_iframe(parent_pipeline_id, frame_id) {
frame_element.update_pipeline_id(new_pipeline_id);
}
}
/// Window was resized, but this script was not active, so don't reflow yet
fn handle_resize_inactive_msg(&self, id: PipelineId, new_size: WindowSizeData) {
let window = self.documents.borrow().find_window(id)
.expect("ScriptThread: received a resize msg for a pipeline not in this script thread. This is a bug.");
window.set_window_size(new_size);
window.browsing_context().set_reflow_status(true);
}
/// We have gotten a window.close from script, which we pass on to the compositor.
/// We do not shut down the script thread now, because the compositor will ask the
/// constellation to shut down the pipeline, which will clean everything up
/// normally. If we do exit, we will tear down the DOM nodes, possibly at a point
/// where layout is still accessing them.
fn handle_exit_window_msg(&self, _: PipelineId) {
debug!("script thread handling exit window msg");
// TODO(tkuehn): currently there is only one window,
// so this can afford to be naive and just shut down the
// constellation. In the future it'll need to be smarter.
self.constellation_chan.send(ConstellationMsg::Exit).unwrap();
}
/// We have received notification that the response associated with a load has completed.
/// Kick off the document and frame tree creation process using the result.
fn handle_page_headers_available(&self, id: &PipelineId,
metadata: Option<Metadata>) -> Option<Root<ServoParser>> {
let idx = self.incomplete_loads.borrow().iter().position(|load| { load.pipeline_id == *id });
// The matching in progress load structure may not exist if
// the pipeline exited before the page load completed.
match idx {
Some(idx) => {
let load = self.incomplete_loads.borrow_mut().remove(idx);
metadata.map(|meta| self.load(meta, load))
}
None => {
assert!(self.closed_pipelines.borrow().contains(id));
None
}
}
}
pub fn handle_get_registration(&self, scope_url: &ServoUrl) -> Option<Root<ServiceWorkerRegistration>> {
let maybe_registration_ref = self.registration_map.borrow();
maybe_registration_ref.get(scope_url).map(|x| Root::from_ref(&**x))
}
pub fn handle_serviceworker_registration(&self,
scope: &ServoUrl,
registration: &ServiceWorkerRegistration,
pipeline_id: PipelineId) {
{
let ref mut reg_ref = *self.registration_map.borrow_mut();
// according to spec we should replace if an older registration exists for
// same scope otherwise just insert the new one
let _ = reg_ref.remove(scope);
reg_ref.insert(scope.clone(), JS::from_ref(registration));
}
// send ScopeThings to sw-manager
let ref maybe_registration_ref = *self.registration_map.borrow();
let maybe_registration = match maybe_registration_ref.get(scope) {
Some(r) => r,
None => return
};
if let Some(window) = self.documents.borrow().find_window(pipeline_id) {
let script_url = maybe_registration.get_installed().get_script_url();
let scope_things = ServiceWorkerRegistration::create_scope_things(window.upcast(), script_url);
let _ = self.constellation_chan.send(ConstellationMsg::RegisterServiceWorker(scope_things, scope.clone()));
} else {
warn!("Registration failed for {}", scope);
}
}
pub fn dispatch_job_queue(&self, job_handler: Box<AsyncJobHandler>) {
let scope_url = job_handler.scope_url.clone();
let queue_ref = self.job_queue_map.0.borrow();
let front_job = {
let job_vec = queue_ref.get(&scope_url);
job_vec.unwrap().first().unwrap()
};
match job_handler.invoke_type {
InvokeType::Run => (&*self.job_queue_map).run_job(job_handler, self),
InvokeType::Register => self.job_queue_map.run_register(front_job, job_handler, self),
InvokeType::Update => self.job_queue_map.update(front_job, &*front_job.client.global(), self),
InvokeType::Settle(settle_type) => {
let promise = &front_job.promise;
let global = &*front_job.client.global();
let trusted_global = Trusted::new(global);
let _ac = JSAutoCompartment::new(global.get_cx(), promise.reflector().get_jsobject().get());
match settle_type {
SettleType::Resolve(reg) => promise.resolve_native(global.get_cx(), &*reg.root()),
SettleType::Reject(err) => promise.reject_error(global.get_cx(), err)
}
let finish_job_handler = box FinishJobHandler::new(scope_url, trusted_global);
self.queue_finish_job(finish_job_handler, global);
}
}
}
pub fn queue_serviceworker_job(&self, async_job_handler: Box<AsyncJobHandler>, global: &GlobalScope) {
let _ = self.dom_manipulation_task_source.queue(async_job_handler, &*global);
}
pub fn queue_finish_job(&self, finish_job_handler: Box<FinishJobHandler>, global: &GlobalScope) {
let _ = self.dom_manipulation_task_source.queue(finish_job_handler, global);
}
pub fn invoke_finish_job(&self, finish_job_handler: Box<FinishJobHandler>) {
let job_queue = &*self.job_queue_map;
let global = &*finish_job_handler.global.root();
let scope_url = (*finish_job_handler).scope_url;
job_queue.finish_job(scope_url, global, self);
}
pub fn invoke_job_update(&self, job: &Job, global: &GlobalScope) {
let job_queue = &*self.job_queue_map;
job_queue.update(job, global, self);
}
/// Handles a request for the window title.
fn handle_get_title_msg(&self, pipeline_id: PipelineId) {
let document = match self.documents.borrow().find_document(pipeline_id) {
Some(document) => document,
None => return warn!("Message sent to closed pipeline {}.", pipeline_id),
};
document.send_title_to_compositor();
}
/// Handles a request to exit a pipeline and shut down layout.
fn handle_exit_pipeline_msg(&self, id: PipelineId) {
debug!("Exiting pipeline {}.", id);
self.closed_pipelines.borrow_mut().insert(id);
// Check if the exit message is for an in progress load.
let idx = self.incomplete_loads.borrow().iter().position(|load| {
load.pipeline_id == id
});
if let Some(idx) = idx {
let load = self.incomplete_loads.borrow_mut().remove(idx);
// Tell the layout thread to begin shutting down, and wait until it
// processed this message.
let (response_chan, response_port) = channel();
let chan = &load.layout_chan;
if chan.send(message::Msg::PrepareToExit(response_chan)).is_ok() {
debug!("shutting down layout for page {}", id);
response_port.recv().unwrap();
chan.send(message::Msg::ExitNow).ok();
}
}
if let Some(document) = self.documents.borrow_mut().remove(id) {
shut_down_layout(document.window());
let _ = self.constellation_chan.send(ConstellationMsg::PipelineExited(id));
}
debug!("Exited pipeline {}.", id);
}
/// Handles a request to exit the script thread and shut down layout.
fn handle_exit_script_thread_msg(&self) {
debug!("Exiting script thread.");
let mut pipeline_ids = Vec::new();
pipeline_ids.extend(self.incomplete_loads.borrow().iter().next().map(|load| load.pipeline_id));
pipeline_ids.extend(self.documents.borrow().iter().next().map(|(pipeline_id, _)| pipeline_id));
for pipeline_id in pipeline_ids {
self.handle_exit_pipeline_msg(pipeline_id);
}
debug!("Exited script thread.");
}
/// Handles when layout thread finishes all animation in one tick
fn handle_tick_all_animations(&self, id: PipelineId) {
let document = match self.documents.borrow().find_document(id) {
Some(document) => document,
None => return warn!("Message sent to closed pipeline {}.", id),
};
document.run_the_animation_frame_callbacks();
}
/// Handles firing of transition events.
#[allow(unsafe_code)]
fn handle_transition_event(&self, unsafe_node: UnsafeNode, name: String, duration: f64) {
let node = unsafe { ServoLayoutNode::from_unsafe(&unsafe_node) };
let node = unsafe { node.get_jsmanaged().get_for_script() };
let window = window_from_node(node);
// Not quite the right thing - see #13865.
node.dirty(NodeDamage::NodeStyleDamaged);
if let Some(el) = node.downcast::<Element>() {
if &*window.GetComputedStyle(el, None).Display() == "none" {
return;
}
}
let init = TransitionEventInit {
parent: EventInit {
bubbles: true,
cancelable: false,
},
propertyName: DOMString::from(name),
elapsedTime: Finite::new(duration as f32).unwrap(),
// FIXME: Handle pseudo-elements properly
pseudoElement: DOMString::new()
};
let transition_event = TransitionEvent::new(window.upcast(),
atom!("transitionend"),
&init);
transition_event.upcast::<Event>().fire(node.upcast());
}
/// Handles a Web font being loaded. Does nothing if the page no longer exists.
fn handle_web_font_loaded(&self, pipeline_id: PipelineId) {
if let Some(document) = self.documents.borrow().find_document(pipeline_id) {
self.rebuild_and_force_reflow(&document, ReflowReason::WebFontLoaded);
}
}
/// Notify a window of a storage event
fn handle_storage_event(&self, pipeline_id: PipelineId, storage_type: StorageType, url: ServoUrl,
key: Option<String>, old_value: Option<String>, new_value: Option<String>) {
let storage = match self.documents.borrow().find_window(pipeline_id) {
None => return warn!("Storage event sent to closed pipeline {}.", pipeline_id),
Some(window) => match storage_type {
StorageType::Local => window.LocalStorage(),
StorageType::Session => window.SessionStorage(),
},
};
storage.queue_storage_event(url, key, old_value, new_value);
}
/// Notify the containing document of a child frame that has completed loading.
fn handle_frame_load_event(&self, parent_id: PipelineId, frame_id: FrameId, child_id: PipelineId) {
match self.documents.borrow().find_iframe(parent_id, frame_id) {
Some(iframe) => iframe.iframe_load_event_steps(child_id),
None => warn!("Message sent to closed pipeline {}.", parent_id),
}
}
/// The entry point to document loading. Defines bindings, sets up the window and document
/// objects, parses HTML and CSS, and kicks off initial layout.
fn load(&self, metadata: Metadata, incomplete: InProgressLoad) -> Root<ServoParser> {
let final_url = metadata.final_url.clone();
{
// send the final url to the layout thread.
incomplete.layout_chan
.send(message::Msg::SetFinalUrl(final_url.clone()))
.unwrap();
// update the pipeline url
self.constellation_chan
.send(ConstellationMsg::SetFinalUrl(incomplete.pipeline_id, final_url.clone()))
.unwrap();
}
debug!("ScriptThread: loading {} on pipeline {:?}", incomplete.url, incomplete.pipeline_id);
let frame_element = incomplete.parent_info.and_then(|(parent_id, _)|
// In the case a parent id exists but the matching context
// cannot be found, this means the context exists in a different
// script thread (due to origin) so it shouldn't be returned.
// TODO: window.parent will continue to return self in that
// case, which is wrong. We should be returning an object that
// denies access to most properties (per
// https://github.com/servo/servo/issues/3939#issuecomment-62287025).
self.documents.borrow().find_iframe(parent_id, incomplete.frame_id)
);
let MainThreadScriptChan(ref sender) = self.chan;
let DOMManipulationTaskSource(ref dom_sender) = self.dom_manipulation_task_source;
let UserInteractionTaskSource(ref user_sender) = self.user_interaction_task_source;
let HistoryTraversalTaskSource(ref history_sender) = self.history_traversal_task_source;
let (ipc_timer_event_chan, ipc_timer_event_port) = ipc::channel().unwrap();
ROUTER.route_ipc_receiver_to_mpsc_sender(ipc_timer_event_port,
self.timer_event_chan.clone());
// Create the window and document objects.
let window = Window::new(self.js_runtime.clone(),
MainThreadScriptChan(sender.clone()),
DOMManipulationTaskSource(dom_sender.clone()),
UserInteractionTaskSource(user_sender.clone()),
self.networking_task_source.clone(),
HistoryTraversalTaskSource(history_sender.clone()),
self.file_reading_task_source.clone(),
self.image_cache_channel.clone(),
self.image_cache_thread.clone(),
self.resource_threads.clone(),
self.bluetooth_thread.clone(),
self.mem_profiler_chan.clone(),
self.time_profiler_chan.clone(),
self.devtools_chan.clone(),
self.constellation_chan.clone(),
self.control_chan.clone(),
self.scheduler_chan.clone(),
ipc_timer_event_chan,
incomplete.layout_chan,
incomplete.pipeline_id,
incomplete.parent_info,
incomplete.window_size);
let frame_element = frame_element.r().map(Castable::upcast);
let browsing_context = BrowsingContext::new(&window, frame_element);
window.init_browsing_context(&browsing_context);
let last_modified = metadata.headers.as_ref().and_then(|headers| {
headers.get().map(|&LastModified(HttpDate(ref tm))| dom_last_modified(tm))
});
let content_type = metadata.content_type.as_ref().and_then(|&Serde(ContentType(ref mimetype))| {
match *mimetype {
Mime(TopLevel::Application, SubLevel::Xml, _) |
Mime(TopLevel::Application, SubLevel::Ext(_), _) |
Mime(TopLevel::Text, SubLevel::Xml, _) |
Mime(TopLevel::Text, SubLevel::Plain, _) => Some(DOMString::from(mimetype.to_string())),
_ => None,
}
});
let loader = DocumentLoader::new_with_threads(self.resource_threads.clone(),
Some(incomplete.url.clone()));
let is_html_document = match metadata.content_type {
Some(Serde(ContentType(Mime(TopLevel::Application, SubLevel::Xml, _)))) |
Some(Serde(ContentType(Mime(TopLevel::Text, SubLevel::Xml, _)))) =>
IsHTMLDocument::NonHTMLDocument,
_ => IsHTMLDocument::HTMLDocument,
};
let referrer = match metadata.referrer {
Some(ref referrer) => Some(referrer.clone().into_string()),
None => None,
};
let referrer_policy = if let Some(headers) = metadata.headers {
headers.get::<ReferrerPolicyHeader>().map(|h| match *h {
ReferrerPolicyHeader::NoReferrer =>
ReferrerPolicy::NoReferrer,
ReferrerPolicyHeader::NoReferrerWhenDowngrade =>
ReferrerPolicy::NoReferrerWhenDowngrade,
ReferrerPolicyHeader::SameOrigin =>
ReferrerPolicy::SameOrigin,
ReferrerPolicyHeader::Origin =>
ReferrerPolicy::Origin,
ReferrerPolicyHeader::OriginWhenCrossOrigin =>
ReferrerPolicy::OriginWhenCrossOrigin,
ReferrerPolicyHeader::UnsafeUrl =>
ReferrerPolicy::UnsafeUrl,
ReferrerPolicyHeader::StrictOrigin =>
ReferrerPolicy::StrictOrigin,
ReferrerPolicyHeader::StrictOriginWhenCrossOrigin =>
ReferrerPolicy::StrictOriginWhenCrossOrigin,
})
} else {
None
};
let document = Document::new(&window,
Some(&browsing_context),
Some(final_url.clone()),
is_html_document,
content_type,
last_modified,
DocumentSource::FromParser,
loader,
referrer,
referrer_policy);
document.set_ready_state(DocumentReadyState::Loading);
self.documents.borrow_mut().insert(incomplete.pipeline_id, &*document);
browsing_context.set_active_document(&document);
self.constellation_chan
.send(ConstellationMsg::ActivateDocument(incomplete.pipeline_id))
.unwrap();
// Notify devtools that a new script global exists.
self.notify_devtools(document.Title(), final_url.clone(), (incomplete.pipeline_id, None));
let is_javascript = incomplete.url.scheme() == "javascript";
let parse_input = if is_javascript {
use url::percent_encoding::percent_decode;
// Turn javascript: URL into JS code to eval, according to the steps in
// https://html.spec.whatwg.org/multipage/#javascript-protocol
// This slice of the URLs serialization is equivalent to (5.) to (7.):
// Start with the scheme data of the parsed URL;
// append question mark and query component, if any;
// append number sign and fragment component if any.
let encoded = &incomplete.url[Position::BeforePath..];
// Percent-decode (8.) and UTF-8 decode (9.)
let script_source = percent_decode(encoded.as_bytes()).decode_utf8_lossy();
// Script source is ready to be evaluated (11.)
unsafe {
let _ac = JSAutoCompartment::new(self.get_cx(), window.reflector().get_jsobject().get());
rooted!(in(self.get_cx()) let mut jsval = UndefinedValue());
window.upcast::<GlobalScope>().evaluate_js_on_global_with_result(
&script_source, jsval.handle_mut());
let strval = DOMString::from_jsval(self.get_cx(),
jsval.handle(),
StringificationBehavior::Empty);
match strval {
Ok(ConversionResult::Success(s)) => s,
_ => DOMString::new(),
}
}
} else {
DOMString::new()
};
document.set_https_state(metadata.https_state);
let is_xml = match metadata.content_type {
Some(Serde(ContentType(Mime(TopLevel::Application, SubLevel::Ext(ref sub_level), _))))
if sub_level.ends_with("+xml") => true,
Some(Serde(ContentType(Mime(TopLevel::Application, SubLevel::Xml, _)))) |
Some(Serde(ContentType(Mime(TopLevel::Text, SubLevel::Xml, _)))) => true,
_ => false,
};
if is_xml {
ServoParser::parse_xml_document(
&document,
parse_input,
final_url,
Some(incomplete.pipeline_id));
} else {
ServoParser::parse_html_document(
&document,
parse_input,
final_url,
Some(incomplete.pipeline_id));
}
if incomplete.is_frozen {
window.upcast::<GlobalScope>().suspend();
}
if !incomplete.is_visible {
self.alter_resource_utilization(incomplete.pipeline_id, false);
}
document.get_current_parser().unwrap()
}
fn notify_devtools(&self, title: DOMString, url: ServoUrl, ids: (PipelineId, Option<WorkerId>)) {
if let Some(ref chan) = self.devtools_chan {
let page_info = DevtoolsPageInfo {
title: String::from(title),
url: url,
};
chan.send(ScriptToDevtoolsControlMsg::NewGlobal(
ids,
self.devtools_sender.clone(),
page_info)).unwrap();
}
}
/// Reflows non-incrementally, rebuilding the entire layout tree in the process.
fn rebuild_and_force_reflow(&self, document: &Document, reason: ReflowReason) {
let window = window_from_node(&*document);
document.dirty_all_nodes();
window.reflow(ReflowGoal::ForDisplay, ReflowQueryType::NoQuery, reason);
}
/// This is the main entry point for receiving and dispatching DOM events.
///
/// TODO: Actually perform DOM event dispatch.
fn handle_event(&self, pipeline_id: PipelineId, event: CompositorEvent) {
match event {
ResizeEvent(new_size, size_type) => {
self.handle_resize_event(pipeline_id, new_size, size_type);
}
MouseButtonEvent(event_type, button, point) => {
self.handle_mouse_event(pipeline_id, event_type, button, point);
}
MouseMoveEvent(point) => {
let document = match self.documents.borrow().find_document(pipeline_id) {
Some(document) => document,
None => return warn!("Message sent to closed pipeline {}.", pipeline_id),
};
// Get the previous target temporarily
let prev_mouse_over_target = self.topmost_mouse_over_target.get();
document.handle_mouse_move_event(self.js_runtime.rt(), point,
&self.topmost_mouse_over_target);
// Short-circuit if nothing changed
if self.topmost_mouse_over_target.get() == prev_mouse_over_target {
return;
}
let mut state_already_changed = false;
// Notify Constellation about the topmost anchor mouse over target.
if let Some(target) = self.topmost_mouse_over_target.get() {
if let Some(anchor) = target.upcast::<Node>()
.inclusive_ancestors()
.filter_map(Root::downcast::<HTMLAnchorElement>)
.next() {
let status = anchor.upcast::<Element>()
.get_attribute(&ns!(), &local_name!("href"))
.and_then(|href| {
let value = href.value();
let url = document.url();
url.join(&value).map(|url| url.to_string()).ok()
});
let event = ConstellationMsg::NodeStatus(status);
self.constellation_chan.send(event).unwrap();
state_already_changed = true;
}
}
// We might have to reset the anchor state
if !state_already_changed {
if let Some(target) = prev_mouse_over_target {
if let Some(_) = target.upcast::<Node>()
.inclusive_ancestors()
.filter_map(Root::downcast::<HTMLAnchorElement>)
.next() {
let event = ConstellationMsg::NodeStatus(None);
self.constellation_chan.send(event).unwrap();
}
}
}
}
TouchEvent(event_type, identifier, point) => {
let touch_result = self.handle_touch_event(pipeline_id, event_type, identifier, point);
match (event_type, touch_result) {
(TouchEventType::Down, TouchEventResult::Processed(handled)) => {
let result = if handled {
// TODO: Wait to see if preventDefault is called on the first touchmove event.
EventResult::DefaultAllowed
} else {
EventResult::DefaultPrevented
};
let message = ConstellationMsg::TouchEventProcessed(result);
self.constellation_chan.send(message).unwrap();
}
_ => {
// TODO: Calling preventDefault on a touchup event should prevent clicks.
}
}
}
TouchpadPressureEvent(point, pressure, phase) => {
match self.documents.borrow().find_document(pipeline_id) {
Some(doc) => doc.handle_touchpad_pressure_event(self.js_runtime.rt(), point, pressure, phase),
None => warn!("Message sent to closed pipeline {}.", pipeline_id),
}
}
KeyEvent(ch, key, state, modifiers) => {
match self.documents.borrow().find_document(pipeline_id) {
Some(document) => document.dispatch_key_event(ch, key, state, modifiers, &self.constellation_chan),
None => warn!("Message sent to closed pipeline {}.", pipeline_id),
}
}
}
}
fn handle_mouse_event(&self,
pipeline_id: PipelineId,
mouse_event_type: MouseEventType,
button: MouseButton,
point: Point2D<f32>) {
match self.documents.borrow().find_document(pipeline_id) {
Some(document) => document.handle_mouse_event(self.js_runtime.rt(), button, point, mouse_event_type),
None => warn!("Message sent to closed pipeline {}.", pipeline_id),
}
}
fn handle_touch_event(&self,
pipeline_id: PipelineId,
event_type: TouchEventType,
identifier: TouchId,
point: Point2D<f32>)
-> TouchEventResult {
match self.documents.borrow().find_document(pipeline_id) {
Some(document) => document.handle_touch_event(self.js_runtime.rt(), event_type, identifier, point),
None => {
warn!("Message sent to closed pipeline {}.", pipeline_id);
TouchEventResult::Processed(true)
},
}
}
/// https://html.spec.whatwg.org/multipage/#navigating-across-documents
/// The entry point for content to notify that a new load has been requested
/// for the given pipeline (specifically the "navigate" algorithm).
fn handle_navigate(&self, parent_pipeline_id: PipelineId,
frame_id: Option<FrameId>,
load_data: LoadData,
replace: bool) {
match frame_id {
Some(frame_id) => {
if let Some(iframe) = self.documents.borrow().find_iframe(parent_pipeline_id, frame_id) {
iframe.navigate_or_reload_child_browsing_context(Some(load_data), replace);
}
}
None => {
self.constellation_chan
.send(ConstellationMsg::LoadUrl(parent_pipeline_id, load_data, replace))
.unwrap();
}
}
}
fn handle_resize_event(&self, pipeline_id: PipelineId, new_size: WindowSizeData, size_type: WindowSizeType) {
let document = match self.documents.borrow().find_document(pipeline_id) {
Some(document) => document,
None => return warn!("Message sent to closed pipeline {}.", pipeline_id),
};
let window = document.window();
window.set_window_size(new_size);
window.force_reflow(ReflowGoal::ForDisplay,
ReflowQueryType::NoQuery,
ReflowReason::WindowResize);
// http://dev.w3.org/csswg/cssom-view/#resizing-viewports
if size_type == WindowSizeType::Resize {
let uievent = UIEvent::new(&window,
DOMString::from("resize"), EventBubbles::DoesNotBubble,
EventCancelable::NotCancelable, Some(&window),
0i32);
uievent.upcast::<Event>().fire(window.upcast());
}
// https://html.spec.whatwg.org/multipage/#event-loop-processing-model
// Step 7.7 - evaluate media queries and report changes
// Since we have resized, we need to re-evaluate MQLs
window.evaluate_media_queries_and_report_changes();
}
/// Initiate a non-blocking fetch for a specified resource. Stores the InProgressLoad
/// argument until a notification is received that the fetch is complete.
fn start_page_load(&self, incomplete: InProgressLoad, mut load_data: LoadData) {
let id = incomplete.pipeline_id.clone();
let context = Arc::new(Mutex::new(ParserContext::new(id, load_data.url.clone())));
let (action_sender, action_receiver) = ipc::channel().unwrap();
let listener = NetworkListener {
context: context,
task_source: self.networking_task_source.clone(),
wrapper: None,
};
ROUTER.add_route(action_receiver.to_opaque(), box move |message| {
listener.notify_fetch(message.to().unwrap());
});
if load_data.url.scheme() == "javascript" {
load_data.url = ServoUrl::parse("about:blank").unwrap();
}
let request = RequestInit {
url: load_data.url.clone(),
method: load_data.method,
destination: Destination::Document,
credentials_mode: CredentialsMode::Include,
use_url_credentials: true,
origin: load_data.url,
pipeline_id: Some(id),
referrer_url: load_data.referrer_url,
referrer_policy: load_data.referrer_policy,
headers: load_data.headers,
body: load_data.data,
.. RequestInit::default()
};
self.resource_threads.send(CoreResourceMsg::Fetch(request, action_sender)).unwrap();
self.incomplete_loads.borrow_mut().push(incomplete);
}
fn handle_parsing_complete(&self, id: PipelineId) {
let document = match self.documents.borrow().find_document(id) {
Some(document) => document,
None => return,
};
let final_url = document.url();
// https://html.spec.whatwg.org/multipage/#the-end step 1
document.set_ready_state(DocumentReadyState::Interactive);
// TODO: Execute step 2 here.
// Kick off the initial reflow of the page.
debug!("kicking off initial reflow of {:?}", final_url);
document.disarm_reflow_timeout();
document.upcast::<Node>().dirty(NodeDamage::OtherNodeDamage);
let window = window_from_node(&*document);
window.reflow(ReflowGoal::ForDisplay, ReflowQueryType::NoQuery, ReflowReason::FirstLoad);
// No more reflow required
window.browsing_context().set_reflow_status(false);
// https://html.spec.whatwg.org/multipage/#the-end steps 3-4.
document.process_deferred_scripts();
}
fn handle_css_error_reporting(&self, pipeline_id: PipelineId, filename: String,
line: usize, column: usize, msg: String) {
let sender = match self.devtools_chan {
Some(ref sender) => sender,
None => return,
};
if let Some(global) = self.documents.borrow().find_global(pipeline_id) {
if global.live_devtools_updates() {
let css_error = CSSError {
filename: filename,
line: line,
column: column,
msg: msg
};
let message = ScriptToDevtoolsControlMsg::ReportCSSError(pipeline_id, css_error);
sender.send(message).unwrap();
}
}
}
fn handle_reload(&self, pipeline_id: PipelineId) {
if let Some(window) = self.documents.borrow().find_window(pipeline_id) {
window.Location().Reload();
}
}
pub fn enqueue_promise_job(job: EnqueuedPromiseCallback, global: &GlobalScope) {
SCRIPT_THREAD_ROOT.with(|root| {
let script_thread = unsafe { &*root.get().unwrap() };
script_thread.promise_job_queue.enqueue(job, global);
});
}
pub fn flush_promise_jobs(global: &GlobalScope) {
SCRIPT_THREAD_ROOT.with(|root| {
let script_thread = unsafe { &*root.get().unwrap() };
let _ = script_thread.dom_manipulation_task_source.queue(
box FlushPromiseJobs, global);
})
}
fn do_flush_promise_jobs(&self) {
self.promise_job_queue.flush_promise_jobs(|id| self.documents.borrow().find_global(id))
}
}
struct FlushPromiseJobs;
impl Runnable for FlushPromiseJobs {
fn main_thread_handler(self: Box<FlushPromiseJobs>, script_thread: &ScriptThread) {
script_thread.do_flush_promise_jobs();
}
}
impl Drop for ScriptThread {
fn drop(&mut self) {
SCRIPT_THREAD_ROOT.with(|root| {
root.set(None);
});
}
}
/// Shuts down layout for the given window.
fn shut_down_layout(window: &Window) {
// Tell the layout thread to begin shutting down, and wait until it
// processed this message.
let (response_chan, response_port) = channel();
let chan = window.layout_chan().clone();
if chan.send(message::Msg::PrepareToExit(response_chan)).is_ok() {
let _ = response_port.recv();
}
// The browsing context is cleared by window.clear_js_runtime(), so we need to save a copy
let browsing_context = window.browsing_context();
// Drop our references to the JSContext and DOM objects.
window.clear_js_runtime();
// Sever the connection between the global and the DOM tree
browsing_context.unset_active_document();
// Destroy the layout thread. If there were node leaks, layout will now crash safely.
chan.send(message::Msg::ExitNow).ok();
}
fn dom_last_modified(tm: &Tm) -> String {
tm.to_local().strftime("%m/%d/%Y %H:%M:%S").unwrap().to_string()
}
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