/* 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 task is the task that owns the DOM in memory, runs JavaScript, and spawns parsing //! and layout tasks. use dom::bindings::codegen::InheritTypes::{EventTargetCast, NodeCast, EventCast}; use dom::bindings::global::Window; use dom::bindings::js::{JS, JSRef, RootCollection, Temporary, OptionalSettable}; use dom::bindings::js::OptionalRootable; use dom::bindings::utils::Reflectable; use dom::bindings::utils::{wrap_for_same_compartment, pre_wrap}; use dom::document::{Document, HTMLDocument, DocumentHelpers}; use dom::element::{Element, HTMLButtonElementTypeId, HTMLInputElementTypeId}; use dom::element::{HTMLSelectElementTypeId, HTMLTextAreaElementTypeId, HTMLOptionElementTypeId}; use dom::event::Event; use dom::uievent::UIEvent; use dom::eventtarget::{EventTarget, EventTargetHelpers}; use dom::node; use dom::node::{ElementNodeTypeId, Node, NodeHelpers}; use dom::window::{TimerId, Window, WindowHelpers}; use dom::worker::{Worker, TrustedWorkerAddress}; use dom::xmlhttprequest::{TrustedXHRAddress, XMLHttpRequest, XHRProgress}; use html::hubbub_html_parser::HtmlParserResult; use html::hubbub_html_parser::{HtmlDiscoveredStyle, HtmlDiscoveredScript}; use html::hubbub_html_parser; use layout_interface::AddStylesheetMsg; use layout_interface::{ScriptLayoutChan, LayoutChan, MatchSelectorsDocumentDamage}; use layout_interface::{ReflowDocumentDamage, ReflowForDisplay}; use layout_interface::ContentChangedDocumentDamage; use layout_interface; use page::{Page, IterablePage, Frame}; use script_traits::{CompositorEvent, ResizeEvent, ReflowEvent, ClickEvent, MouseDownEvent}; use script_traits::{MouseMoveEvent, MouseUpEvent, ConstellationControlMsg, ScriptTaskFactory}; use script_traits::{ResizeMsg, AttachLayoutMsg, LoadMsg, SendEventMsg, ResizeInactiveMsg}; use script_traits::{ExitPipelineMsg, NewLayoutInfo, OpaqueScriptLayoutChannel, ScriptControlChan}; use script_traits::ReflowCompleteMsg; use servo_msg::compositor_msg::{FinishedLoading, LayerId, Loading}; use servo_msg::compositor_msg::{ScriptListener}; use servo_msg::constellation_msg::{ConstellationChan, LoadCompleteMsg, LoadUrlMsg, NavigationDirection}; use servo_msg::constellation_msg::{PipelineId, Failure, FailureMsg, WindowSizeData}; use servo_msg::constellation_msg; use servo_net::image_cache_task::ImageCacheTask; use servo_net::resource_task::ResourceTask; use servo_util::geometry::to_frac_px; use servo_util::task::spawn_named_with_send_on_failure; use geom::point::Point2D; use js::jsapi::{JS_SetWrapObjectCallbacks, JS_SetGCZeal, JS_DEFAULT_ZEAL_FREQ, JS_GC}; use js::jsapi::{JSContext, JSRuntime}; use js::jsapi::{JS_SetGCParameter, JSGC_MAX_BYTES}; use js::rust::{Cx, RtUtils}; use js::rust::with_compartment; use js; use url::Url; use libc::size_t; use serialize::{Encoder, Encodable}; use std::any::{Any, AnyRefExt}; use std::cell::RefCell; use std::comm::{channel, Sender, Receiver, Select}; use std::mem::replace; use std::rc::Rc; use std::u32; local_data_key!(pub StackRoots: *const RootCollection) /// Messages used to control script event loops, such as ScriptTask and /// DedicatedWorkerGlobalScope. pub enum ScriptMsg { /// Acts on a fragment URL load on the specified pipeline (only dispatched /// to ScriptTask). TriggerFragmentMsg(PipelineId, Url), /// Begins a content-initiated load on the specified pipeline (only /// dispatched to ScriptTask). TriggerLoadMsg(PipelineId, Url), /// Instructs the script task to send a navigate message to /// the constellation (only dispatched to ScriptTask). NavigateMsg(NavigationDirection), /// Fires a JavaScript timeout (only dispatched to ScriptTask). FireTimerMsg(PipelineId, TimerId), /// Notifies the script that a window associated with a particular pipeline /// should be closed (only dispatched to ScriptTask). ExitWindowMsg(PipelineId), /// Notifies the script of progress on a fetch (dispatched to all tasks). XHRProgressMsg(TrustedXHRAddress, XHRProgress), /// Message sent through Worker.postMessage (only dispatched to /// DedicatedWorkerGlobalScope). DOMMessage(*mut u64, size_t), /// Posts a message to the Worker object (dispatched to all tasks). WorkerPostMessage(TrustedWorkerAddress, *mut u64, size_t), /// Releases one reference to the Worker object (dispatched to all tasks). WorkerRelease(TrustedWorkerAddress), } /// Encapsulates internal communication within the script task. #[deriving(Clone)] pub struct ScriptChan(pub Sender); impl, E> Encodable for ScriptChan { fn encode(&self, _s: &mut S) -> Result<(), E> { Ok(()) } } impl ScriptChan { /// Creates a new script chan. pub fn new() -> (Receiver, ScriptChan) { let (chan, port) = channel(); (port, ScriptChan(chan)) } } pub struct StackRootTLS; impl StackRootTLS { pub fn new(roots: &RootCollection) -> StackRootTLS { StackRoots.replace(Some(roots as *const RootCollection)); StackRootTLS } } impl Drop for StackRootTLS { fn drop(&mut self) { let _ = StackRoots.replace(None); } } /// Information for an entire page. Pages are top-level browsing contexts and can contain multiple /// frames. /// /// FIXME: Rename to `Page`, following WebKit? pub struct ScriptTask { /// A handle to the information pertaining to page layout page: RefCell>, /// A handle to the image cache task. image_cache_task: ImageCacheTask, /// A handle to the resource task. resource_task: ResourceTask, /// The port on which the script task receives messages (load URL, exit, etc.) port: Receiver, /// A channel to hand out to script task-based entities that need to be able to enqueue /// events in the event queue. chan: ScriptChan, /// A channel to hand out to tasks that need to respond to a message from the script task. control_chan: ScriptControlChan, /// The port on which the constellation and layout tasks can communicate with the /// script task. control_port: Receiver, /// For communicating load url messages to the constellation constellation_chan: ConstellationChan, /// A handle to the compositor for communicating ready state messages. compositor: Box, /// The JavaScript runtime. js_runtime: js::rust::rt, /// The JSContext. js_context: RefCell>>, mouse_over_targets: RefCell>>> } /// In the event of task failure, 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 task fails. The ScriptMemoryFailsafe uses the destructor bomb pattern /// to forcibly tear down the JS compartments for pages associated with the failing ScriptTask. struct ScriptMemoryFailsafe<'a> { owner: Option<&'a ScriptTask>, } impl<'a> ScriptMemoryFailsafe<'a> { fn neuter(&mut self) { self.owner = None; } fn new(owner: &'a ScriptTask) -> ScriptMemoryFailsafe<'a> { ScriptMemoryFailsafe { owner: Some(owner), } } } #[unsafe_destructor] impl<'a> Drop for ScriptMemoryFailsafe<'a> { fn drop(&mut self) { match self.owner { Some(owner) => { let mut page = owner.page.borrow_mut(); for page in page.iter() { *page.mut_js_info() = None; } *owner.js_context.borrow_mut() = None; } None => (), } } } trait PrivateScriptTaskHelpers { fn click_event_filter_by_disabled_state(&self) -> bool; } impl<'a> PrivateScriptTaskHelpers for JSRef<'a, Node> { fn click_event_filter_by_disabled_state(&self) -> bool { match self.type_id() { ElementNodeTypeId(HTMLButtonElementTypeId) | ElementNodeTypeId(HTMLInputElementTypeId) | // ElementNodeTypeId(HTMLKeygenElementTypeId) | ElementNodeTypeId(HTMLOptionElementTypeId) | ElementNodeTypeId(HTMLSelectElementTypeId) | ElementNodeTypeId(HTMLTextAreaElementTypeId) if self.get_disabled_state() => true, _ => false } } } impl ScriptTaskFactory for ScriptTask { fn create_layout_channel(_phantom: Option<&mut ScriptTask>) -> OpaqueScriptLayoutChannel { let (chan, port) = channel(); ScriptLayoutChan::new(chan, port) } fn clone_layout_channel(_phantom: Option<&mut ScriptTask>, pair: &OpaqueScriptLayoutChannel) -> Box { box pair.sender() as Box } fn create( _phantom: Option<&mut ScriptTask>, id: PipelineId, compositor: Box, layout_chan: &OpaqueScriptLayoutChannel, control_chan: ScriptControlChan, control_port: Receiver, constellation_chan: ConstellationChan, failure_msg: Failure, resource_task: ResourceTask, image_cache_task: ImageCacheTask, window_size: WindowSizeData) { let ConstellationChan(const_chan) = constellation_chan.clone(); let (script_chan, script_port) = channel(); let layout_chan = LayoutChan(layout_chan.sender()); spawn_named_with_send_on_failure("ScriptTask", proc() { let script_task = ScriptTask::new(id, compositor as Box, layout_chan, script_port, ScriptChan(script_chan), control_chan, control_port, constellation_chan, resource_task, image_cache_task, window_size); let mut failsafe = ScriptMemoryFailsafe::new(&*script_task); script_task.start(); // This must always be the very last operation performed before the task completes failsafe.neuter(); }, FailureMsg(failure_msg), const_chan, false); } } impl ScriptTask { /// Creates a new script task. pub fn new(id: PipelineId, compositor: Box, layout_chan: LayoutChan, port: Receiver, chan: ScriptChan, control_chan: ScriptControlChan, control_port: Receiver, constellation_chan: ConstellationChan, resource_task: ResourceTask, img_cache_task: ImageCacheTask, window_size: WindowSizeData) -> Rc { let (js_runtime, js_context) = ScriptTask::new_rt_and_cx(); unsafe { // JS_SetWrapObjectCallbacks clobbers the existing wrap callback, // and JSCompartment::wrap crashes if that happens. The only way // to retrieve the default callback is as the result of // JS_SetWrapObjectCallbacks, which is why we call it twice. let callback = JS_SetWrapObjectCallbacks((*js_runtime).ptr, None, Some(wrap_for_same_compartment), None); JS_SetWrapObjectCallbacks((*js_runtime).ptr, callback, Some(wrap_for_same_compartment), Some(pre_wrap)); } let page = Page::new(id, None, layout_chan, window_size, resource_task.clone(), constellation_chan.clone(), js_context.clone()); Rc::new(ScriptTask { page: RefCell::new(Rc::new(page)), image_cache_task: img_cache_task, resource_task: resource_task, port: port, chan: chan, control_chan: control_chan, control_port: control_port, constellation_chan: constellation_chan, compositor: compositor, js_runtime: js_runtime, js_context: RefCell::new(Some(js_context)), mouse_over_targets: RefCell::new(None) }) } pub fn new_rt_and_cx() -> (js::rust::rt, Rc) { let js_runtime = js::rust::rt(); assert!({ let ptr: *mut JSRuntime = (*js_runtime).ptr; ptr.is_not_null() }); // Unconstrain the runtime's threshold on nominal heap size, to avoid // triggering GC too often if operating continuously near an arbitrary // finite threshold. This leaves the maximum-JS_malloc-bytes threshold // still in effect to cause periodical, and we hope hygienic, // last-ditch GCs from within the GC's allocator. unsafe { JS_SetGCParameter(js_runtime.ptr, JSGC_MAX_BYTES, u32::MAX); } let js_context = js_runtime.cx(); assert!({ let ptr: *mut JSContext = (*js_context).ptr; ptr.is_not_null() }); js_context.set_default_options_and_version(); js_context.set_logging_error_reporter(); unsafe { JS_SetGCZeal((*js_context).ptr, 0, JS_DEFAULT_ZEAL_FREQ); } (js_runtime, js_context) } pub fn get_cx(&self) -> *mut JSContext { (**self.js_context.borrow().get_ref()).ptr } /// Starts the script task. After calling this method, the script task will loop receiving /// messages on its port. pub fn start(&self) { while self.handle_msgs() { // Go on... } } /// Handle incoming control messages. fn handle_msgs(&self) -> bool { let roots = RootCollection::new(); let _stack_roots_tls = StackRootTLS::new(&roots); // Handle pending resize events. // Gather them first to avoid a double mut borrow on self. let mut resizes = vec!(); { let mut page = self.page.borrow_mut(); for page in page.iter() { // Only process a resize if layout is idle. let layout_join_port = page.layout_join_port.deref().borrow(); if layout_join_port.is_none() { let mut resize_event = page.resize_event.deref().get(); match resize_event.take() { Some(size) => resizes.push((page.id, size)), None => () } page.resize_event.deref().set(None); } } } for (id, size) in resizes.move_iter() { self.handle_event(id, ResizeEvent(size)); } enum MixedMessage { FromConstellation(ConstellationControlMsg), FromScript(ScriptMsg), } // 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 port1 = sel.handle(&self.port); let mut port2 = sel.handle(&self.control_port); unsafe { port1.add(); port2.add(); } let ret = sel.wait(); if ret == port1.id() { FromScript(self.port.recv()) } else if ret == port2.id() { FromConstellation(self.control_port.recv()) } else { fail!("unexpected select result") } }; loop { match event { FromConstellation(ResizeMsg(id, size)) => { let mut page = self.page.borrow_mut(); let page = page.find(id).expect("resize sent to nonexistent pipeline"); page.resize_event.deref().set(Some(size)); } _ => { sequential.push(event); } } match self.control_port.try_recv() { Err(_) => match self.port.try_recv() { Err(_) => break, Ok(ev) => event = FromScript(ev), }, Ok(ev) => event = FromConstellation(ev), } } // Process the gathered events. for msg in sequential.move_iter() { match msg { // TODO(tkuehn) need to handle auxiliary layouts for iframes FromConstellation(AttachLayoutMsg(new_layout_info)) => self.handle_new_layout(new_layout_info), FromConstellation(LoadMsg(id, url)) => self.load(id, url), FromScript(TriggerLoadMsg(id, url)) => self.trigger_load(id, url), FromScript(TriggerFragmentMsg(id, url)) => self.trigger_fragment(id, url), FromConstellation(SendEventMsg(id, event)) => self.handle_event(id, event), FromScript(FireTimerMsg(id, timer_id)) => self.handle_fire_timer_msg(id, timer_id), FromScript(NavigateMsg(direction)) => self.handle_navigate_msg(direction), FromConstellation(ReflowCompleteMsg(id, reflow_id)) => self.handle_reflow_complete_msg(id, reflow_id), FromConstellation(ResizeInactiveMsg(id, new_size)) => self.handle_resize_inactive_msg(id, new_size), FromConstellation(ExitPipelineMsg(id)) => if self.handle_exit_pipeline_msg(id) { return false }, FromScript(ExitWindowMsg(id)) => self.handle_exit_window_msg(id), FromConstellation(ResizeMsg(..)) => fail!("should have handled ResizeMsg already"), FromScript(XHRProgressMsg(addr, progress)) => XMLHttpRequest::handle_xhr_progress(addr, progress), FromScript(DOMMessage(..)) => fail!("unexpected message"), FromScript(WorkerPostMessage(addr, data, nbytes)) => Worker::handle_message(addr, data, nbytes), FromScript(WorkerRelease(addr)) => Worker::handle_release(addr), } } true } fn handle_new_layout(&self, new_layout_info: NewLayoutInfo) { debug!("Script: new layout: {:?}", new_layout_info); let NewLayoutInfo { old_pipeline_id, new_pipeline_id, subpage_id, layout_chan } = new_layout_info; let mut page = self.page.borrow_mut(); let parent_page = page.find(old_pipeline_id).expect("ScriptTask: received a layout whose parent has a PipelineId which does not correspond to a pipeline in the script task's page tree. This is a bug."); let new_page = { let window_size = parent_page.window_size.deref().get(); Page::new(new_pipeline_id, Some(subpage_id), LayoutChan(layout_chan.downcast_ref::>().unwrap().clone()), window_size, parent_page.resource_task.deref().clone(), self.constellation_chan.clone(), self.js_context.borrow().get_ref().clone()) }; parent_page.children.deref().borrow_mut().push(Rc::new(new_page)); } /// Handles a timer that fired. fn handle_fire_timer_msg(&self, id: PipelineId, timer_id: TimerId) { let mut page = self.page.borrow_mut(); let page = page.find(id).expect("ScriptTask: received fire timer msg for a pipeline ID not associated with this script task. This is a bug."); let frame = page.frame(); let window = frame.get_ref().window.root(); window.handle_fire_timer(timer_id, self.get_cx()); } /// Handles a notification that reflow completed. fn handle_reflow_complete_msg(&self, pipeline_id: PipelineId, reflow_id: uint) { debug!("Script: Reflow {:?} complete for {:?}", reflow_id, pipeline_id); let mut page = self.page.borrow_mut(); let page = page.find(pipeline_id).expect( "ScriptTask: received a load message for a layout channel that is not associated \ with this script task. This is a bug."); let last_reflow_id = page.last_reflow_id.deref().get(); if last_reflow_id == reflow_id { let mut layout_join_port = page.layout_join_port.deref().borrow_mut(); *layout_join_port = None; } self.compositor.set_ready_state(FinishedLoading); } /// Handles a navigate forward or backward message. /// TODO(tkuehn): is it ever possible to navigate only on a subframe? fn handle_navigate_msg(&self, direction: NavigationDirection) { let ConstellationChan(ref chan) = self.constellation_chan; chan.send(constellation_msg::NavigateMsg(direction)); } /// 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 mut page = self.page.borrow_mut(); let page = page.find(id).expect("Received resize message for PipelineId not associated with a page in the page tree. This is a bug."); page.window_size.deref().set(new_size); let mut page_url = page.mut_url(); let last_loaded_url = replace(&mut *page_url, None); for url in last_loaded_url.iter() { *page_url = Some((url.ref0().clone(), true)); } } /// We have gotten a window.close from script, which we pass on to the compositor. /// We do not shut down the script task 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 task handling exit window msg"); // TODO(tkuehn): currently there is only one window, // so this can afford to be naive and just shut down the // compositor. In the future it'll need to be smarter. self.compositor.close(); } /// Handles a request to exit the script task and shut down layout. /// Returns true if the script task should shut down and false otherwise. fn handle_exit_pipeline_msg(&self, id: PipelineId) -> bool { // If root is being exited, shut down all pages let mut page = self.page.borrow_mut(); if page.id == id { debug!("shutting down layout for root page {:?}", id); *self.js_context.borrow_mut() = None; shut_down_layout(&*page, (*self.js_runtime).ptr); return true } // otherwise find just the matching page and exit all sub-pages match page.remove(id) { Some(ref mut page) => { shut_down_layout(&*page, (*self.js_runtime).ptr); false } // TODO(tkuehn): pipeline closing is currently duplicated across // script and constellation, which can cause this to happen. Constellation // needs to be smarter about exiting pipelines. None => false, } } /// 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, pipeline_id: PipelineId, url: Url) { debug!("ScriptTask: loading {:?} on page {:?}", url, pipeline_id); let mut page = self.page.borrow_mut(); let page = page.find(pipeline_id).expect("ScriptTask: received a load message for a layout channel that is not associated with this script task. This is a bug."); let last_loaded_url = replace(&mut *page.mut_url(), None); match last_loaded_url { Some((ref loaded, needs_reflow)) if *loaded == url => { *page.mut_url() = Some((loaded.clone(), false)); if needs_reflow { page.damage(ContentChangedDocumentDamage); page.reflow(ReflowForDisplay, self.control_chan.clone(), self.compositor); } return; }, _ => (), } let cx = self.js_context.borrow(); let cx = cx.get_ref(); // Create the window and document objects. let window = Window::new(cx.deref().ptr, page.clone(), self.chan.clone(), self.control_chan.clone(), self.compositor.dup(), self.image_cache_task.clone()).root(); let document = Document::new(&*window, Some(url.clone()), HTMLDocument, None).root(); window.deref().init_browser_context(&*document); self.compositor.set_ready_state(Loading); // Parse HTML. // // Note: We can parse the next document in parallel with any previous documents. let html_parsing_result = hubbub_html_parser::parse_html(&*page, &*document, url.clone(), self.resource_task.clone()); let HtmlParserResult { discovery_port } = html_parsing_result; { // Create the root frame. let mut frame = page.mut_frame(); *frame = Some(Frame { document: JS::from_rooted(document.deref()), window: JS::from_rooted(window.deref()), }); } // Send style sheets over to layout. // // FIXME: These should be streamed to layout as they're parsed. We don't need to stop here // in the script task. let mut js_scripts = None; loop { match discovery_port.recv_opt() { Ok(HtmlDiscoveredScript(scripts)) => { assert!(js_scripts.is_none()); js_scripts = Some(scripts); } Ok(HtmlDiscoveredStyle(sheet)) => { let LayoutChan(ref chan) = *page.layout_chan; chan.send(AddStylesheetMsg(sheet)); } Err(()) => break } } // Kick off the initial reflow of the page. document.deref().content_changed(); let fragment = url.fragment.as_ref().map(|ref fragment| fragment.to_string()); { // No more reflow required let mut page_url = page.mut_url(); *page_url = Some((url.clone(), false)); } // Receive the JavaScript scripts. assert!(js_scripts.is_some()); let js_scripts = js_scripts.take_unwrap(); debug!("js_scripts: {:?}", js_scripts); with_compartment((**cx).ptr, window.reflector().get_jsobject(), || { // Evaluate every script in the document. for file in js_scripts.iter() { let global_obj = window.reflector().get_jsobject(); //FIXME: this should have some kind of error handling, or explicitly // drop an exception on the floor. match cx.evaluate_script(global_obj, file.data.clone(), file.url.serialize(), 1) { Ok(_) => (), Err(_) => println!("evaluate_script failed") } } }); // We have no concept of a document loader right now, so just dispatch the // "load" event as soon as we've finished executing all scripts parsed during // the initial load. let event = Event::new(&Window(*window), "load".to_string(), false, false).root(); let doctarget: &JSRef = EventTargetCast::from_ref(&*document); let wintarget: &JSRef = EventTargetCast::from_ref(&*window); let _ = wintarget.dispatch_event_with_target(Some((*doctarget).clone()), &*event); page.fragment_node.assign(fragment.map_or(None, |fragid| page.find_fragment_node(fragid))); let ConstellationChan(ref chan) = self.constellation_chan; chan.send(LoadCompleteMsg(page.id, url)); } fn scroll_fragment_point(&self, pipeline_id: PipelineId, node: &JSRef) { let node: &JSRef = NodeCast::from_ref(node); let rect = node.get_bounding_content_box(); let point = Point2D(to_frac_px(rect.origin.x).to_f32().unwrap(), to_frac_px(rect.origin.y).to_f32().unwrap()); // FIXME(#2003, pcwalton): This is pretty bogus when multiple layers are involved. // Really what needs to happen is that this needs to go through layout to ask which // layer the element belongs to, and have it send the scroll message to the // compositor. self.compositor.scroll_fragment_point(pipeline_id, LayerId::null(), point); } /// 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) => { debug!("script got resize event: {:?}", new_size); let window = { let page = get_page(&*self.page.borrow(), pipeline_id); page.window_size.deref().set(new_size); let frame = page.frame(); if frame.is_some() { page.damage(ReflowDocumentDamage); page.reflow(ReflowForDisplay, self.control_chan.clone(), self.compositor) } let mut fragment_node = page.fragment_node.get(); match fragment_node.take().map(|node| node.root()) { Some(node) => self.scroll_fragment_point(pipeline_id, &*node), None => {} } frame.as_ref().map(|frame| Temporary::new(frame.window.clone())) }; match window.root() { Some(window) => { // http://dev.w3.org/csswg/cssom-view/#resizing-viewports // https://dvcs.w3.org/hg/dom3events/raw-file/tip/html/DOM3-Events.html#event-type-resize let uievent = UIEvent::new(&window.clone(), "resize".to_string(), false, false, Some(window.clone()), 0i32).root(); let event: &JSRef = EventCast::from_ref(&*uievent); let wintarget: &JSRef = EventTargetCast::from_ref(&*window); let _ = wintarget.dispatch_event_with_target(None, event); } None => () } } // FIXME(pcwalton): This reflows the entire document and is not incremental-y. ReflowEvent => { debug!("script got reflow event"); let page = get_page(&*self.page.borrow(), pipeline_id); let frame = page.frame(); if frame.is_some() { page.damage(MatchSelectorsDocumentDamage); page.reflow(ReflowForDisplay, self.control_chan.clone(), self.compositor) } } ClickEvent(_button, point) => { debug!("ClickEvent: clicked at {:?}", point); let page = get_page(&*self.page.borrow(), pipeline_id); match page.hit_test(&point) { Some(node_address) => { debug!("node address is {:?}", node_address); let temp_node = node::from_untrusted_node_address( self.js_runtime.deref().ptr, node_address); let maybe_node = temp_node.root().ancestors().find(|node| node.is_element()); match maybe_node { Some(node) => { debug!("clicked on {:s}", node.debug_str()); // Prevent click event if form control element is disabled. if node.click_event_filter_by_disabled_state() { return; } match *page.frame() { Some(ref frame) => { let window = frame.window.root(); let event = Event::new(&Window(*window), "click".to_string(), true, true).root(); let eventtarget: &JSRef = EventTargetCast::from_ref(&node); let _ = eventtarget.dispatch_event_with_target(None, &*event); } None => {} } } None => {} } } None => {} } } MouseDownEvent(..) => {} MouseUpEvent(..) => {} MouseMoveEvent(point) => { let page = get_page(&*self.page.borrow(), pipeline_id); match page.get_nodes_under_mouse(&point) { Some(node_address) => { let mut target_list = vec!(); let mut target_compare = false; let mouse_over_targets = &mut *self.mouse_over_targets.borrow_mut(); match *mouse_over_targets { Some(ref mut mouse_over_targets) => { for node in mouse_over_targets.mut_iter() { let node = node.root(); node.deref().set_hover_state(false); } } None => {} } for node_address in node_address.iter() { let temp_node = node::from_untrusted_node_address( self.js_runtime.deref().ptr, *node_address); let maybe_node = temp_node.root().ancestors().find(|node| node.is_element()); match maybe_node { Some(node) => { node.set_hover_state(true); match *mouse_over_targets { Some(ref mouse_over_targets) => { if !target_compare { target_compare = !mouse_over_targets.contains(&JS::from_rooted(&node)); } } None => {} } target_list.push(JS::from_rooted(&node)); } None => {} } } match *mouse_over_targets { Some(ref mouse_over_targets) => { if mouse_over_targets.len() != target_list.len() { target_compare = true; } } None => { target_compare = true; } } if target_compare { if mouse_over_targets.is_some() { page.damage(MatchSelectorsDocumentDamage); page.reflow(ReflowForDisplay, self.control_chan.clone(), self.compositor); } *mouse_over_targets = Some(target_list); } } None => {} } } } } /// The entry point for content to notify that a new load has been requested /// for the given pipeline. fn trigger_load(&self, pipeline_id: PipelineId, url: Url) { let ConstellationChan(ref const_chan) = self.constellation_chan; const_chan.send(LoadUrlMsg(pipeline_id, url)); } /// The entry point for content to notify that a fragment url has been requested /// for the given pipeline. fn trigger_fragment(&self, pipeline_id: PipelineId, url: Url) { let page = get_page(&*self.page.borrow(), pipeline_id); match page.find_fragment_node(url.fragment.unwrap()).root() { Some(node) => { self.scroll_fragment_point(pipeline_id, &*node); } None => {} } } } /// Shuts down layout for the given page tree. fn shut_down_layout(page_tree: &Rc, rt: *mut JSRuntime) { for page in page_tree.iter() { page.join_layout(); // Tell the layout task to begin shutting down, and wait until it // processed this message. let (response_chan, response_port) = channel(); let LayoutChan(ref chan) = *page.layout_chan; chan.send(layout_interface::PrepareToExitMsg(response_chan)); response_port.recv(); } // Remove our references to the DOM objects in this page tree. for page in page_tree.iter() { *page.mut_frame() = None; } // Drop our references to the JSContext, potentially triggering a GC. for page in page_tree.iter() { *page.mut_js_info() = None; } // Force a GC to make sure that our DOM reflectors are released before we tell // layout to exit. unsafe { JS_GC(rt); } // Destroy the layout task. If there were node leaks, layout will now crash safely. for page in page_tree.iter() { let LayoutChan(ref chan) = *page.layout_chan; chan.send(layout_interface::ExitNowMsg); } } fn get_page(page: &Rc, pipeline_id: PipelineId) -> Rc { page.find(pipeline_id).expect("ScriptTask: received an event \ message for a layout channel that is not associated with this script task.\ This is a bug.") }