| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/C/Firefox/devtools/server/actors/targets/ (Browser von der Mozilla Stiftung Version 136.0.1©) Datei vom 10.2.2025 mit Größe 64 kB |
|
Quelle window-global.js Sprache: JAVA |
|||||||||||||||
|
/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ "use strict"; // protocol.js uses objects as exceptions in order to define // error packets. /* eslint-disable no-throw-literal */ /* * WindowGlobalTargetActor is an abstract class used by target actors that hold * documents, such as frames, chrome windows, etc. * * This class is extended by ParentProcessTargetActor. * * See devtools/docs/contributor/backend/actor-hierarchy.md for more details about all th * * For performance matters, this file should only be loaded in the targeted context's * process. For example, it shouldn't be evaluated in the parent process until we try to * debug a document living in the parent process. */ var { ActorRegistry, } = require("resource://devtools/server/actors/utils/actor-registry.js"); var DevToolsUtils = require("resource://devtools/shared/DevToolsUtils.js"); var { assert } = DevToolsUtils; var { SourcesManager, } = require("resource://devtools/server/actors/utils/sources-manager.js"); var makeDebugger = require("resource://devtools/server/actors/utils/make-debugger.j const Targets = require("resource://devtools/server/actors/targets/index.js"); const lazy = {}; // Modules loaded in the same module loader as this module. // (may spawn distinct module instances with other devtools and firefox frontend) ChromeUtils.defineESModuleGetters( lazy, { PrivateBrowsingUtils: "resource://gre/modules/PrivateBrowsingUtils.sys.mjs", WEBEXTENSION_FALLBACK_DOC_URL: "resource://devtools/server/actors/watcher/browsing-context-helpers.sys.mjs", }, { global: "contextual" } ); // Modules loaded from the shared module loader. // Won't be as debuggable from the Browser Toolbox and may trigger breakpoints. ChromeUtils.defineESModuleGetters( lazy, { TargetActorRegistry: "resource://devtools/server/actors/targets/target-actor-registry.sys.mjs", }, { global: "shared" } ); const { Pool } = require("resource://devtools/shared/protocol.js"); const { LazyPool, createExtraActors, } = require("resource://devtools/shared/protocol/lazy-pool.js"); const { windowGlobalTargetSpec, } = require("resource://devtools/shared/specs/targets/window-global.js"); const Resources = require("resource://devtools/server/actors/resources/index.js"); const { BaseTargetActor, } = require("resource://devtools/server/actors/targets/base-target-actor.js"); loader.lazyRequireGetter( this, ["ThreadActor"], "resource://devtools/server/actors/thread.js", true ); loader.lazyRequireGetter( this, "WorkerDescriptorActorList", "resource://devtools/server/actors/worker/worker-descriptor-actor-list.js", true ); loader.lazyRequireGetter( this, "StyleSheetsManager", "resource://devtools/server/actors/utils/stylesheets-manager.js", true ); loader.lazyRequireGetter( this, "TouchSimulator", "resource://devtools/server/actors/emulation/touch-simulator.js", true ); function getWindowID(window) { return window.windowGlobalChild.innerWindowId; } function getDocShellChromeEventHandler(docShell) { let handler = docShell.chromeEventHandler; if (!handler) { try { // Toplevel xul window's docshell doesn't have chromeEventHandler // attribute. The chrome event handler is just the global window object. handler = docShell.domWindow; } catch (e) { // ignore } } return handler; } /** * Helper to retrieve all children docshells of a given docshell. * * Given that docshell interfaces can only be used within the same process, * this only returns docshells for children documents that runs in the same process * as the given docshell. */ function getChildDocShells(parentDocShell) { return parentDocShell.browsingContext .getAllBrowsingContextsInSubtree() .filter(browsingContext => { // Filter out browsingContext which don't expose any docshell (e.g. remote frame) return browsingContext.docShell; }) .map(browsingContext => { // Map BrowsingContext to DocShell return browsingContext.docShell; }); } exports.getChildDocShells = getChildDocShells; /** * Browser-specific actors. */ function getInnerId(window) { return window.windowGlobalChild.innerWindowId; } class WindowGlobalTargetActor extends BaseTargetActor { /** * WindowGlobalTargetActor is the target actor to debug (HTML) documents. * * WindowGlobal's are the Gecko representation for a given document's window object. * It relates to a given nsGlobalWindowInner instance. * * The main goal of this class is to expose the target-scoped actors being registered * via `ActorRegistry.registerModule` and manage their lifetimes. In addition, this * class also tracks the lifetime of the targeted window global. * * ### Main requests: * * `detach`: * Stop document watching and cleanup everything that the target and its children actors create * It ultimately lead to destroy the target actor. * `switchToFrame`: * Change the targeted document of the whole actor, and its child target-scoped actors * to an iframe or back to its original document. * * Most properties (like `chromeEventHandler` or `docShells`) are meant to be * used by the various child target actors. * * ### RDP events: * * - `tabNavigated`: * Sent when the window global is about to navigate or has just navigated * to a different document. * This event contains the following attributes: * * url (string) * The new URI being loaded. * * state (string) * `start` if we just start requesting the new URL * `stop` if the new URL is done loading * * isFrameSwitching (boolean) * Indicates the event is dispatched when switching the actor context to a * different frame. When we switch to an iframe, there is no document * load. The targeted document is most likely going to be already done * loading. * * title (string) * The document title being loaded. (sent only on state=stop) * * - `frameUpdate`: * Sent when there was a change in the child frames contained in the document * or when the actor's context was switched to another frame. * This event can have four different forms depending on the type of change: * * One or many frames are updated: * { frames: [{ id, url, title, parentID }, ...] } * * One frame got destroyed: * { frames: [{ id, destroy: true }]} * * All frames got destroyed: * { destroyAll: true } * * We switched the context of the actor to a specific frame: * { selected: #id } * * ### Internal, non-rdp events: * * Various events are also dispatched on the actor itself without being sent to * the client. They all relate to the documents tracked by this target actor * (its main targeted document, but also any of its iframes): * - will-navigate * This event fires once navigation starts. All pending user prompts are * dealt with, but it is fired before the first request starts. * - navigate * This event is fired once the document's readyState is "complete". * - window-ready * This event is fired in various distinct scenarios: * * When a new Window object is crafted, equivalent of `DOMWindowCreated`. * It is dispatched before any page script is executed. * * We will have already received a window-ready event for this window * when it was created, but we received a window-destroyed event when * it was frozen into the bfcache, and now the user navigated back to * this page, so it's now live again and we should resume handling it. * * For each existing document, when an `attach` request is received. * At this point scripts in the page will be already loaded. * * When `swapFrameLoaders` is used, such as with moving window globals * between windows or toggling Responsive Design Mode. * - window-destroyed * This event is fired in two cases: * * When the window object is destroyed, i.e. when the related document * is garbage collected. This can happen when the window global is * closed or the iframe is removed from the DOM. * It is equivalent of `inner-window-destroyed` event. * * When the page goes into the bfcache and gets frozen. * The equivalent of `pagehide`. * - changed-toplevel-document * This event fires when we switch the actor's targeted document * to one of its iframes, or back to its original top document. * It is dispatched between window-destroyed and window-ready. * * Note that *all* these events are dispatched in the following order * when we switch the context of the actor to a given iframe: * - will-navigate * - window-destroyed * - changed-toplevel-document * - window-ready * - navigate * * This class is subclassed by ParentProcessTargetActor and others. * Subclasses are expected to implement a getter for the docShell property. * * @param conn DevToolsServerConnection * The conection to the client. * @param options Object * Object with following attributes: * - docShell nsIDocShell * The |docShell| for the debugged frame. * - followWindowGlobalLifeCycle Boolean * If true, the target actor will only inspect the current WindowGlobal (and its children window * But won't inspect next document loaded in the same BrowsingContext. * The actor will behave more like a WindowGlobalTarget rather than a BrowsingContextTarget. * This is always true for Tab debugging, but not yet for parent process/web extension. * - isTopLevelTarget Boolean * Should be set to true for all top-level targets. A top level target * is the topmost target of a DevTools "session". For instance for a local * tab toolbox, the WindowGlobalTargetActor for the content page is the top level target. * For the Multiprocess Browser Toolbox, the parent process target is the top level * target. * At the moment this only impacts the WindowGlobalTarget `reconfigure` * implementation. But for server-side target switching this flag will be exposed * to the client and should be available for all target actor classes. It will be * used to detect target switching. (Bug 1644397) * - ignoreSubFrames Boolean * If true, the actor will only focus on the passed docShell and not on the whole * docShell tree. This should be enabled when we have targets for all documents. * - sessionContext Object * The Session Context to help know what is debugged. * See devtools/server/actors/watcher/session-context.js */ constructor( conn, { docShell, followWindowGlobalLifeCycle, isTopLevelTarget, ignoreSubFrames, sessionContext, customSpec = windowGlobalTargetSpec, } ) { super(conn, Targets.TYPES.FRAME, customSpec); this.followWindowGlobalLifeCycle = followWindowGlobalLifeCycle; this.isTopLevelTarget = !!isTopLevelTarget; this.ignoreSubFrames = ignoreSubFrames; this.sessionContext = sessionContext; // A map of actor names to actor instances provided by extensions. this._extraActors = {}; this._sourcesManager = null; this._shouldAddNewGlobalAsDebuggee = this._shouldAddNewGlobalAsDebuggee.bind(this); this.makeDebugger = makeDebugger.bind(null, { findDebuggees: () => { const result = []; const inspectUAWidgets = Services.prefs.getBoolPref( "devtools.inspector.showAllAnonymousContent", false ); for (const win of this.windows) { result.push(win); // Only expose User Agent internal (like <video controls>) when the // related pref is set. if (inspectUAWidgets) { const principal = win.document.nodePrincipal; // We don't use UA widgets for the system principal. if (!principal.isSystemPrincipal) { result.push(Cu.getUAWidgetScope(principal)); } } } return result; }, shouldAddNewGlobalAsDebuggee: this._shouldAddNewGlobalAsDebuggee, }); // Flag eventually overloaded by sub classes in order to watch new docshells // Used by the ParentProcessTargetActor to list all frames in the Browser Toolbox this.watchNewDocShells = false; this._workerDescriptorActorList = null; this._workerDescriptorActorPool = null; this._onWorkerDescriptorActorListChanged = this._onWorkerDescriptorActorListChanged.bind(this); this._onConsoleApiProfilerEvent = this._onConsoleApiProfilerEvent.bind(this); Services.obs.addObserver( this._onConsoleApiProfilerEvent, "console-api-profiler" ); // Start observing navigations as well as sub documents. // (This is probably meant to disappear once EFT is the only supported codepath) this._progressListener = new DebuggerProgressListener(this); lazy.TargetActorRegistry.registerTargetActor(this); if (docShell) { this.setDocShell(docShell); } } // Attribute only set when debugging web extensions, in order to distinguish: // - "fallback-document" created by DevTools for the top level target // - "background" for the background page // - "popup" for any popup document #isFallbackExtensionDocument = false; /** * Define the initial docshell. * * This is called from the constructor for WindowGlobalTargetActor, * or from sub class constructor of ParentProcessTargetActor. * * This is to circumvent the fact that sub classes need to call inner method * to compute the initial docshell and we can't call inner methods before calling * the base class constructor... */ setDocShell(docShell) { Object.defineProperty(this, "docShell", { value: docShell, configurable: true, writable: true, }); // Save references to the original document we attached to this._originalWindow = this.window; // Update isPrivate as window is based on docShell this.isPrivate = lazy.PrivateBrowsingUtils.isContentWindowPrivate( this.window ); // Instantiate the Thread Actor immediately. // This is the only one actor instantiated right away by the target actor. // All the others are instantiated lazily on first request made the client, // via LazyPool API. this._createThreadActor(); // Ensure notifying about the target actor first // before notifying about new docshells. // Otherwise we would miss these RDP event as the client hasn't // yet received the target actor's form. // (This is also probably meant to disappear once EFT is the only supported codepath) this._docShellsObserved = false; DevToolsUtils.executeSoon(() => this._watchDocshells()); // The `watchedByDevTools` enables gecko behavior tied to this flag, such as: // - reporting the contents of HTML loaded in the docshells, // - or capturing stacks for the network monitor. // // This flag can only be set on top level BrowsingContexts. if (!this.browsingContext.parent) { this.browsingContext.watchedByDevTools = true; } if (this.sessionContext.type == "webextension") { if ( this.window.location.href.startsWith(lazy.WEBEXTENSION_FALLBACK_DOC_URL) ) { this.#isFallbackExtensionDocument = true; } } } get docShell() { throw new Error( "A docShell should be provided as constructor argument of WindowGlobalTargetActo ); } /* * Return a Debugger instance or create one if there is none yet */ get dbg() { if (!this._dbg) { this._dbg = this.makeDebugger(); } return this._dbg; } /** * Try to locate the console actor if it exists. */ get _consoleActor() { if (this.isDestroyed()) { return null; } const form = this.form(); return this.conn._getOrCreateActor(form.consoleActor); } get _memoryActor() { if (this.isDestroyed()) { return null; } const form = this.form(); return this.conn._getOrCreateActor(form.memoryActor); } _targetScopedActorPool = null; /** * An object on which listen for DOMWindowCreated and pageshow events. */ get chromeEventHandler() { return getDocShellChromeEventHandler(this.docShell); } /** * Getter for the nsIMessageManager associated to the window global. */ get messageManager() { try { return this.docShell.messageManager; } catch (e) { // In some cases we can't get a docshell. We just have no message manager // then, return null; } } /** * Getter for the list of all `docShell`s in the window global. * @return {Array} */ get docShells() { if (this.ignoreSubFrames) { return [this.docShell]; } return getChildDocShells(this.docShell); } /** * Getter for the window global's current DOM window. */ get window() { return this.docShell && !this.docShell.isBeingDestroyed() ? this.docShell.domWindow : null; } get targetGlobal() { return this.window; } get outerWindowID() { if (this.docShell) { return this.docShell.outerWindowID; } return null; } get browsingContext() { return this.docShell?.browsingContext; } get browsingContextID() { return this.browsingContext?.id; } get innerWindowId() { return this.window?.windowGlobalChild.innerWindowId; } get browserId() { return this.browsingContext?.browserId; } get openerBrowserId() { return this.browsingContext?.opener?.browserId; } /** * Getter for the list of all content DOM windows in the window global. * @return {Array} */ get windows() { const windows = []; for (const docShell of this.docShells) { try { windows.push(docShell.domWindow); } catch (e) { // Ignore destroying docshells which may throw when accessing domWindow property. } } return windows; } /** * Getter for the original docShell this actor got attached to in the first * place. * Note that your actor should normally *not* rely on this top level docShell * if you want it to show information relative to the iframe that's currently * being inspected in the toolbox. */ get originalDocShell() { if (!this._originalWindow) { return this.docShell; } return this._originalWindow.docShell; } /** * Getter for the original window this actor got attached to in the first * place. * Note that your actor should normally *not* rely on this top level window if * you want it to show information relative to the iframe that's currently * being inspected in the toolbox. */ get originalWindow() { return this._originalWindow || this.window; } /** * Getter for the nsIWebProgress for watching this window. */ get webProgress() { return this.docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); } /** * Getter for the nsIWebNavigation for the target. */ get webNavigation() { return this.docShell.QueryInterface(Ci.nsIWebNavigation); } /** * Getter for the window global's document. */ get contentDocument() { return this.webNavigation.document; } /** * Getter for the window global's title. */ get title() { return this.contentDocument.title; } /** * Getter for the window global's URL. */ get url() { if (this.webNavigation.currentURI) { return this.webNavigation.currentURI.spec; } // Abrupt closing of the browser window may leave callbacks without a // currentURI. return null; } get sourcesManager() { if (!this._sourcesManager) { this._sourcesManager = new SourcesManager(this.threadActor); } return this._sourcesManager; } getStyleSheetsManager() { if (!this._styleSheetsManager) { this._styleSheetsManager = new StyleSheetsManager(this); } return this._styleSheetsManager; } _createExtraActors() { // Always use the same Pool, so existing actor instances // (created in createExtraActors) are not lost. if (!this._targetScopedActorPool) { this._targetScopedActorPool = new LazyPool(this.conn); } // Walk over target-scoped actor factories and make sure they are all // instantiated and added into the Pool. return createExtraActors( ActorRegistry.targetScopedActorFactories, this._targetScopedActorPool, this ); } form() { assert( !this.isDestroyed(), "form() shouldn't be called on destroyed browser actor." ); assert(this.actorID, "Actor should have an actorID."); // Note that we don't want the iframe dropdown to change our BrowsingContext.id/innerWindowI // We only want to refer to the topmost original window we attached to // as that's the one top document this target actor really represent. // The iframe dropdown is just a hack that temporarily focus the scope // of the target actor to a children iframe document. // // Also, for WebExtension, we want the target to represent the <browser> element // created by DevTools, which always exists and help better connect resources to the target // in the frontend. Otherwise all other <browser> element of webext may be reloaded or go away // and then we would have troubles matching targets for resources. const originalBrowsingContext = this .devtoolsSpawnedBrowsingContextForWebExtension ? this.devtoolsSpawnedBrowsingContextForWebExtension : this.originalDocShell.browsingContext; // When toggling the toolbox on/off many times in a row, // we may try to destroy the actor while the related document is already destroyed. // In such scenario, return the minimum viable form if (!originalBrowsingContext.currentWindowContext) { return { actor: this.actorID }; } const browsingContextID = originalBrowsingContext.id; const innerWindowId = originalBrowsingContext.currentWindowContext.innerWindowId; const parentInnerWindowId = originalBrowsingContext.parent?.currentWindowContext.innerWindowId; // Doesn't only check `!!opener` as some iframe might have an opener // if their location was loaded via `window.open(url, "iframe-name")`. // So also ensure that the document is opened in a distinct tab. const isPopup = !!originalBrowsingContext.opener && originalBrowsingContext.browserId != originalBrowsingContext.opener.browserId; const response = { actor: this.actorID, browsingContextID, processID: Services.appinfo.processID, // True for targets created by JSWindowActors, see constructor JSDoc. followWindowGlobalLifeCycle: this.followWindowGlobalLifeCycle, innerWindowId, parentInnerWindowId, topInnerWindowId: this.browsingContext.topWindowContext.innerWindowId, isTopLevelTarget: this.isTopLevelTarget, ignoreSubFrames: this.ignoreSubFrames, isPopup, isPrivate: this.isPrivate, // Specific to Web Extension documents isFallbackExtensionDocument: this.#isFallbackExtensionDocument, traits: { // @backward-compat { version 64 } Exposes a new trait to help identify // BrowsingContextActor's inherited actors from the client side. isBrowsingContext: true, // Browsing context targets can compute the isTopLevelTarget flag on the // server. But other target actors don't support this yet. See Bug 1709314. supportsTopLevelTargetFlag: true, // Supports frame listing via `listFrames` request and `frameUpdate` events // as well as frame switching via `switchToFrame` request frames: true, // Supports the logInPage request. logInPage: true, // Supports watchpoints in the server. We need to keep this trait because target // actors that don't extend WindowGlobalTargetActor (Worker, ContentProcess, …) // might not support watchpoints. watchpoints: true, // Supports back and forward navigation navigation: true, }, }; // We may try to access window while the document is closing, then accessing window // throws. if (!this.docShell.isBeingDestroyed()) { response.title = this.title; response.url = this.url; response.outerWindowID = this.outerWindowID; } // If the actor is already being destroyed, avoid re-registering the target scoped actors if (this.destroying) { return response; } const actors = this._createExtraActors(); Object.assign(response, actors); // The thread actor is the only actor manually created by the target actor. // It is not registered in targetScopedActorFactories and therefore needs // to be added here manually. if (this.threadActor) { Object.assign(response, { threadActor: this.threadActor.actorID, }); } return response; } /** * Called when the actor is removed from the connection. * * @params {Object} options * @params {Boolean} options.isTargetSwitching: Set to true when this is called during * a target switch. * @params {Boolean} options.isModeSwitching: Set to true true when this is called as the * result of a change to the devtools.browsertoolbox.scope pref. */ destroy({ isTargetSwitching = false, isModeSwitching = false } = {}) { // Avoid reentrancy. We will destroy the Transport when emitting "destroyed", // which will force destroying all actors. if (this.destroying) { return; } this.destroying = true; // Force flushing pending resources if the actor isn't already destroyed. // This helps notify the client about pending resources on navigation. if (!this.isDestroyed()) { this.emitResources(); } // Tell the thread actor that the window global is closed, so that it may terminate // instead of resuming the debuggee script. // TODO: Bug 997119: Remove this coupling with thread actor if (this.threadActor) { this.threadActor._parentClosed = true; } if (this._touchSimulator) { this._touchSimulator.stop(); this._touchSimulator = null; } // The watchedByDevTools flag is only set on top level BrowsingContext // (as it then cascades to all its children), // and when destroying the target, we should tell the platform we no longer // observe this BrowsingContext and set this attribute to false. if ( this.browsingContext?.watchedByDevTools && !this.browsingContext.parent ) { this.browsingContext.watchedByDevTools = false; } // Check for `docShell` availability, as it can be already gone during // Firefox shutdown. if (this.docShell) { this._unwatchDocShell(this.docShell); // If this target is being destroyed as part of a target switch or a mode switch, // we don't need to restore the configuration (this might cause the content page to // be focused again, causing issues in tests and disturbing the user when switching modes). if (!isTargetSwitching && !isModeSwitching) { this._restoreTargetConfiguration(); } } this._unwatchDocshells(); this._destroyThreadActor(); if (this._styleSheetsManager) { this._styleSheetsManager.destroy(); this._styleSheetsManager = null; } // Shut down actors that belong to this target's pool. if (this._targetScopedActorPool) { this._targetScopedActorPool.destroy(); this._targetScopedActorPool = null; } // Make sure that no more workerListChanged notifications are sent. if (this._workerDescriptorActorList !== null) { this._workerDescriptorActorList.destroy(); this._workerDescriptorActorList = null; } if (this._workerDescriptorActorPool !== null) { this._workerDescriptorActorPool.destroy(); this._workerDescriptorActorPool = null; } if (this._dbg) { this._dbg.disable(); this._dbg = null; } // Emit a last event before calling Actor.destroy // which will destroy the EventEmitter API this.emit("destroyed", { isTargetSwitching, isModeSwitching }); // Destroy BaseTargetActor before nullifying docShell in case any child actor queries the win super.destroy(); this.docShell = null; this._extraActors = null; Services.obs.removeObserver( this._onConsoleApiProfilerEvent, "console-api-profiler" ); lazy.TargetActorRegistry.unregisterTargetActor(this); Resources.unwatchAllResources(this); } /** * This is only used by WebExtensionTargetActor, which overrides this method. */ _shouldAddNewGlobalAsDebuggee() { return false; } _watchDocshells() { // If for some unexpected reason, the actor is immediately destroyed, // avoid registering leaking observer listener. if (this.isDestroyed()) { return; } // This method is called asynchronously and the document may have been destroyed in the meantim // In such case, automatically destroy the target actor. if (this.docShell.isBeingDestroyed()) { this.destroy(); return; } // In child processes, we watch all docshells living in the process. Services.obs.addObserver(this, "webnavigation-create"); Services.obs.addObserver(this, "webnavigation-destroy"); this._docShellsObserved = true; // We watch for all child docshells under the current document, this._progressListener.watch(this.docShell); // And list all already existing ones. this._updateChildDocShells(); } _unwatchDocshells() { if (this._progressListener) { this._progressListener.destroy(); this._progressListener = null; this._originalWindow = null; } // Removes the observers being set in _watchDocshells, but only // if _watchDocshells has been called. The target actor may be immediately destroyed // and doesn't have time to register them. // (Calling removeObserver without having called addObserver throws) if (this._docShellsObserved) { Services.obs.removeObserver(this, "webnavigation-create"); Services.obs.removeObserver(this, "webnavigation-destroy"); this._docShellsObserved = false; } } _unwatchDocShell(docShell) { if (this._progressListener) { this._progressListener.unwatch(docShell); } } switchToFrame(request) { const windowId = request.windowId; let win; try { win = Services.wm.getOuterWindowWithId(windowId); } catch (e) { // ignore } if (!win) { throw { error: "noWindow", message: "The related docshell is destroyed or not found", }; } else if (win == this.window) { return {}; } // Reply first before changing the document DevToolsUtils.executeSoon(() => this._changeTopLevelDocument(win)); return {}; } listFrames() { const windows = this._docShellsToWindows(this.docShells); return { frames: windows }; } ensureWorkerDescriptorActorList() { if (this._workerDescriptorActorList === null) { this._workerDescriptorActorList = new WorkerDescriptorActorList( this.conn, { type: Ci.nsIWorkerDebugger.TYPE_DEDICATED, window: this.window, } ); } return this._workerDescriptorActorList; } pauseWorkersUntilAttach(shouldPause) { this.ensureWorkerDescriptorActorList().workerPauser.setPauseMatching( shouldPause ); } listWorkers() { return this.ensureWorkerDescriptorActorList() .getList() .then(actors => { const pool = new Pool(this.conn, "worker-targets"); for (const actor of actors) { pool.manage(actor); } // Do not destroy the pool before transfering ownership to the newly created // pool, so that we do not accidently destroy actors that are still in use. if (this._workerDescriptorActorPool) { this._workerDescriptorActorPool.destroy(); } this._workerDescriptorActorPool = pool; this._workerDescriptorActorList.onListChanged = this._onWorkerDescriptorActorListChanged; return { workers: actors, }; }); } logInPage(request) { const { text, category, flags } = request; const scriptErrorClass = Cc["@mozilla.org/scripterror;1"]; const scriptError = scriptErrorClass.createInstance(Ci.nsIScriptError); scriptError.initWithWindowID( text, null, 0, 0, flags, category, getInnerId(this.window) ); Services.console.logMessage(scriptError); return {}; } _onWorkerDescriptorActorListChanged() { this._workerDescriptorActorList.onListChanged = null; this.emit("workerListChanged"); } _onConsoleApiProfilerEvent() { // TODO: We will receive console-api-profiler events for any browser running // in the same process as this target. We should filter irrelevant events, // but console-api-profiler currently doesn't emit any information to identify // the origin of the event. See Bug 1731033. // The new performance panel is not compatible with console.profile(). const warningFlag = 1; this.logInPage({ text: "console.profile is not compatible with the new Performance recorder. " + "See https://bugzilla.mozilla.org/show_bug.cgi?id=1730896", category: "console.profile unavailable", flags: warningFlag, }); } observe(subject, topic) { // Ignore any event that comes before/after the actor is attached. // That typically happens during Firefox shutdown. if (this.isDestroyed()) { return; } subject.QueryInterface(Ci.nsIDocShell); if (topic == "webnavigation-create") { this._onDocShellCreated(subject); } else if (topic == "webnavigation-destroy") { this._onDocShellDestroy(subject); } } _onDocShellCreated(docShell) { // (chrome-)webnavigation-create is fired very early during docshell // construction. In new root docshells within child processes, involving // BrowserChild, this event is from within this call: // https://hg.mozilla.org/mozilla-central/annotate/74d7fb43bb44/dom/ipc/TabChild. // whereas the chromeEventHandler (and most likely other stuff) is set // later: // https://hg.mozilla.org/mozilla-central/annotate/74d7fb43bb44/dom/ipc/TabChild. // So wait a tick before watching it: DevToolsUtils.executeSoon(() => { // Bug 1142752: sometimes, the docshell appears to be immediately // destroyed, bailout early to prevent random exceptions. if (docShell.isBeingDestroyed()) { return; } // In child processes, we have new root docshells, // let's watch them and all their child docshells. if (this._isRootDocShell(docShell) && this.watchNewDocShells) { this._progressListener.watch(docShell); } this._notifyDocShellsUpdate([docShell]); }); } _onDocShellDestroy(docShell) { // Stop watching this docshell (the unwatch() method will check if we // started watching it before). this._unwatchDocShell(docShell); const webProgress = docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); this._notifyDocShellDestroy(webProgress); if (webProgress.DOMWindow == this._originalWindow) { // If the original top level document we connected to is removed, // we try to switch to any other top level document const rootDocShells = this.docShells.filter(d => { // Ignore docshells without a working DOM Window. // When we close firefox we have a chrome://extensions/content/dummy.xhtml // which is in process of being destroyed and we might try to fallback to it. // Unfortunately docshell.isBeingDestroyed() doesn't return true... return d != this.docShell && this._isRootDocShell(d) && d.DOMWindow; }); if (rootDocShells.length) { const newRoot = rootDocShells[0]; this._originalWindow = newRoot.DOMWindow; this._changeTopLevelDocument(this._originalWindow); } else { // If for some reason (typically during Firefox shutdown), the original // document is destroyed, and there is no other top level docshell, // we detach the actor to unregister all listeners and prevent any // exception. this.destroy(); } return; } // If the currently targeted window global is destroyed, and we aren't on // the top-level document, we have to switch to the top-level one. if ( webProgress.DOMWindow == this.window && this.window != this._originalWindow ) { this._changeTopLevelDocument(this._originalWindow); } } _isRootDocShell(docShell) { // Should report as root docshell: // - New top level window's docshells, when using ParentProcessTargetActor against a // process. It allows tracking iframes of the newly opened windows // like Browser console or new browser windows. // - MozActivities or window.open frames on B2G, where a new root docshell // is spawn in the child process of the app. return !docShell.parent; } _docShellToWindow(docShell) { const webProgress = docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); const window = webProgress.DOMWindow; const id = docShell.outerWindowID; let parentID = undefined; // Ignore the parent of the original document on non-e10s firefox, // as we get the xul window as parent and don't care about it. // Furthermore, ignore setting parentID when parent window is same as // current window in order to deal with front end. e.g. toolbox will be fall // into infinite loop due to recursive search with by using parent id. if ( window.parent && window.parent != window && window != this._originalWindow ) { parentID = window.parent.docShell.outerWindowID; } return { id, parentID, isTopLevel: window == this.originalWindow && this.isTopLevelTarget, url: window.location.href, title: window.document.title, }; } // Convert docShell list to windows objects list being sent to the client _docShellsToWindows(docshells) { return docshells .filter(docShell => { // Ensure docShell.document is available. docShell.QueryInterface(Ci.nsIWebNavigation); // don't include transient about:blank documents if (docShell.document.isInitialDocument) { return false; } return true; }) .map(docShell => this._docShellToWindow(docShell)); } _notifyDocShellsUpdate(docshells) { // Only top level target uses frameUpdate in order to update the iframe dropdown. // This may eventually be replaced by Target listening and target switching. if (!this.isTopLevelTarget) { return; } const windows = this._docShellsToWindows(docshells); // Do not send the `frameUpdate` event if the windows array is empty. if (!windows.length) { return; } this.emit("frameUpdate", { frames: windows, }); } _updateChildDocShells() { this._notifyDocShellsUpdate(this.docShells); } _notifyDocShellDestroy(webProgress) { // Only top level target uses frameUpdate in order to update the iframe dropdown. // This may eventually be replaced by Target listening and target switching. if (!this.isTopLevelTarget) { return; } webProgress = webProgress.QueryInterface(Ci.nsIWebProgress); const id = webProgress.DOMWindow.docShell.outerWindowID; this.emit("frameUpdate", { frames: [ { id, destroy: true, }, ], }); } /** * Creates and manages the thread actor as part of the Browsing Context Target pool. * This sets up the content window for being debugged */ _createThreadActor() { this.threadActor = new ThreadActor(this); this.manage(this.threadActor); } /** * Exits the current thread actor and removes it from the Browsing Context Target pool. * The content window is no longer being debugged after this call. */ _destroyThreadActor() { if (this.threadActor) { this.threadActor.destroy(); this.threadActor = null; } if (this._sourcesManager) { this._sourcesManager.destroy(); this._sourcesManager = null; } } // Protocol Request Handlers detach() { // Destroy the actor in the next event loop in order // to ensure responding to the `detach` request. DevToolsUtils.executeSoon(() => { this.destroy(); }); return {}; } /** * Bring the window global's window to front. */ focus() { if (this.window) { this.window.focus(); } return {}; } goForward() { // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. Services.tm.dispatchToMainThread( DevToolsUtils.makeInfallible(() => { // This won't work while the browser is shutting down and we don't really // care. if (Services.startup.shuttingDown) { return; } this.webNavigation.goForward(); }, "WindowGlobalTargetActor.prototype.goForward's delayed body") ); return {}; } goBack() { // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. Services.tm.dispatchToMainThread( DevToolsUtils.makeInfallible(() => { // This won't work while the browser is shutting down and we don't really // care. if (Services.startup.shuttingDown) { return; } this.webNavigation.goBack(); }, "WindowGlobalTargetActor.prototype.goBack's delayed body") ); return {}; } /** * Reload the page in this window global. * * @backward-compat { legacy } * reload is preserved for third party tools. See Bug 1717837. * DevTools should use Descriptor::reloadDescriptor instead. */ reload(request) { const force = request?.options?.force; // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. Services.tm.dispatchToMainThread( DevToolsUtils.makeInfallible(() => { // This won't work while the browser is shutting down and we don't really // care. if (Services.startup.shuttingDown) { return; } this.webNavigation.reload( force ? Ci.nsIWebNavigation.LOAD_FLAGS_BYPASS_CACHE : Ci.nsIWebNavigation.LOAD_FLAGS_NONE ); }, "WindowGlobalTargetActor.prototype.reload's delayed body") ); return {}; } /** * Navigate this window global to a new location */ navigateTo(request) { // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. Services.tm.dispatchToMainThread( DevToolsUtils.makeInfallible(() => { this.window.location = request.url; }, "WindowGlobalTargetActor.prototype.navigateTo's delayed body:" + request.url) ); return {}; } /** * For browsing-context targets which can't use the watcher configuration * actor (eg webextension targets), the client directly calls `reconfigure`. * Once all targets support the watcher, this method can be removed. */ reconfigure(request) { const options = request.options || {}; return this.updateTargetConfiguration(options); } /** * Apply target-specific options. * * This will be called by the watcher when the DevTools target-configuration * is updated, or when a target is created via JSWindowActors. */ updateTargetConfiguration(options = {}, calledFromDocumentCreation = false) { if (!this.docShell) { // The window global is already closed. return; } // Also update configurations which applies to all target types super.updateTargetConfiguration(options, calledFromDocumentCreation); let reload = false; if (typeof options.touchEventsOverride !== "undefined") { const enableTouchSimulator = options.touchEventsOverride === "enabled"; // We want to reload the document if it's an "existing" top level target on which // the touch simulator will be toggled and the user has turned the // "reload on touch simulation" setting on. if ( enableTouchSimulator !== this.touchSimulator.enabled && options.reloadOnTouchSimulationToggle === true && this.isTopLevelTarget && !calledFromDocumentCreation ) { reload = true; } if (enableTouchSimulator) { this.touchSimulator.start(); } else { this.touchSimulator.stop(); } } if (typeof options.customFormatters !== "undefined") { this.customFormatters = options.customFormatters; } if (typeof options.useSimpleHighlightersForReducedMotion == "boolean") { this._useSimpleHighlightersForReducedMotion = options.useSimpleHighlightersForReducedMotion; this.emit("use-simple-highlighters-updated"); } if (!this.isTopLevelTarget) { // Following DevTools target options should only apply to the top target and be // propagated through the window global tree via the platform. return; } if (typeof options.restoreFocus == "boolean") { this._restoreFocus = options.restoreFocus; } if (typeof options.recordAllocations == "object") { const actor = this._memoryActor; if (options.recordAllocations == null) { actor.stopRecordingAllocations(); } else { actor.attach(); actor.startRecordingAllocations(options.recordAllocations); } } if (reload) { this.webNavigation.reload(Ci.nsIWebNavigation.LOAD_FLAGS_NONE); } } get touchSimulator() { if (!this._touchSimulator) { this._touchSimulator = new TouchSimulator(this.chromeEventHandler); } return this._touchSimulator; } /** * Opposite of the updateTargetConfiguration method, that resets document * state when closing the toolbox. */ _restoreTargetConfiguration() { if (this._restoreFocus && this.browsingContext?.isActive) { try { this.window.focus(); } catch (e) { // When closing devtools while navigating, focus() may throw NS_ERROR_XPC_SECURITY_MANAGE if (e.result != Cr.NS_ERROR_XPC_SECURITY_MANAGER_VETO) { throw e; } } } } _changeTopLevelDocument(window) { // In case of WebExtension, still using one WindowGlobalTarget instance for many document, // when reloading the add-on we might not destroy the previous target and wait for the next // one to come and destroy it. if (this.window) { // Fake a will-navigate on the previous document // to let a chance to unregister it this._willNavigate({ window: this.window, newURI: window.location.href, request: null, isFrameSwitching: true, navigationStart: Date.now(), }); this._windowDestroyed(this.window, { isFrozen: true, isFrameSwitching: true, }); } // Immediately change the window as this window, if in process of unload // may already be non working on the next cycle and start throwing this._setWindow(window); DevToolsUtils.executeSoon(() => { // No need to do anything more if the actor is destroyed. // e.g. the client has been closed and the actors destroyed in the meantime. if (this.isDestroyed()) { return; } // Then fake window-ready and navigate on the given document this._windowReady(window, { isFrameSwitching: true }); DevToolsUtils.executeSoon(() => { this._navigate(window, true); }); }); } _setWindow(window) { // Here is the very important call where we switch the currently targeted // window global (it will indirectly update this.window and many other // attributes defined from docShell). this.docShell = window.docShell; this.emit("changed-toplevel-document"); this.emit("frameUpdate", { selected: this.outerWindowID, }); } /** * Handle location changes, by clearing the previous debuggees and enabling * debugging, which may have been disabled temporarily by the * DebuggerProgressListener. */ _windowReady(window, { isFrameSwitching, isBFCache } = {}) { if (this.ignoreSubFrames) { return; } const isTopLevel = window == this.window; // We just reset iframe list on WillNavigate, so we now list all existing // frames when we load a new document in the original window if (window == this._originalWindow && !isFrameSwitching) { this._updateChildDocShells(); } // If this follows WindowGlobal lifecycle, a new Target actor will be spawn for the top level // target document. Only notify about in-process iframes. // Note that OOP iframes won't emit window-ready and will also have their dedicated target. // Also, we allow window-ready to be fired for iframe switching of top level documents, // otherwise the iframe dropdown no longer works with server side targets. if (this.followWindowGlobalLifeCycle && isTopLevel && !isFrameSwitching) { return; } this.emit("window-ready", { window, isTopLevel, isBFCache, id: getWindowID(window), isFrameSwitching, }); } _windowDestroyed( window, { id = null, isFrozen = false, isFrameSwitching = false } ) { if (this.ignoreSubFrames) { return; } const isTopLevel = window == this.window; // If this follows WindowGlobal lifecycle, this target will be destroyed, alongside its top le // Only notify about in-process iframes. // Note that OOP iframes won't emit window-ready and will also have their dedicated target. // Also, we allow window-destroyed to be fired for iframe switching of top level documents, // otherwise the iframe dropdown no longer works with server side targets. if (this.followWindowGlobalLifeCycle && isTopLevel && !isFrameSwitching) { return; } this.emit("window-destroyed", { window, isTopLevel, id: id || getWindowID(window), isFrozen, }); } /** * Start notifying server and client about a new document being loaded in the * currently targeted window global. */ _willNavigate({ window, newURI, request, isFrameSwitching = false, navigationStart, }) { if (this.ignoreSubFrames) { return; } let isTopLevel = window == this.window; let reset = false; if (window == this._originalWindow && !isFrameSwitching) { // If the top level document changes and we are targeting an iframe, we // need to reset to the upcoming new top level document. But for this // will-navigate event, we will dispatch on the old window. (The inspector // codebase expect to receive will-navigate for the currently displayed // document in order to cleanup the markup view) if (this.window != this._originalWindow) { reset = true; window = this.window; isTopLevel = true; } } // will-navigate event needs to be dispatched synchronously, by calling the // listeners in the order or registration. This event fires once navigation // starts, (all pending user prompts are dealt with), but before the first // request starts. this.emit("will-navigate", { window, isTopLevel, newURI, request, navigationStart, isFrameSwitching, }); // We don't do anything for inner frames here. // (we will only update thread actor on window-ready) if (!isTopLevel) { return; } // When the actor acts as a WindowGlobalTarget, will-navigate won't fired. // Instead we will receive a new top level target with isTargetSwitching=true. if (!this.followWindowGlobalLifeCycle) { this.emit("tabNavigated", { url: newURI, state: "start", isFrameSwitching, }); } if (reset) { this._setWindow(this._originalWindow); } } /** * Notify server and client about a new document done loading in the current * targeted window global. */ _navigate(window, isFrameSwitching = false) { if (this.ignoreSubFrames) { return; } const isTopLevel = window == this.window; // navigate event needs to be dispatched synchronously, // by calling the listeners in the order or registration. // This event is fired once the document is loaded, // after the load event, it's document ready-state is 'complete'. this.emit("navigate", { window, isTopLevel, }); // We don't do anything for inner frames here. // (we will only update thread actor on window-ready) if (!isTopLevel) { return; } // We may still significate when the document is done loading, via navigate. // But as we no longer fire the "will-navigate", may be it is better to find // other ways to get to our means. // Listening to "navigate" is misleading as the document may already be loaded // if we just opened the DevTools. So it is better to use "watch" pattern // and instead have the actor either emit immediately resources as they are // already available, or later on as the load progresses. if (this.followWindowGlobalLifeCycle) { return; } this.emit("tabNavigated", { url: this.url, title: this.title, state: "stop", isFrameSwitching, }); } removeActorByName(name) { if (name in this._extraActors) { const actor = this._extraActors[name]; if (this._targetScopedActorPool.has(actor)) { this._targetScopedActorPool.removeActor(actor); } delete this._extraActors[name]; } } } exports.WindowGlobalTargetActor = WindowGlobalTargetActor; class DebuggerProgressListener { /** * The DebuggerProgressListener class is an nsIWebProgressListener which * handles onStateChange events for the targeted window global. If the user * tries to navigate away from a paused page, the listener makes sure that the * debuggee is resumed before the navigation begins. * * @param WindowGlobalTargetActor targetActor * The window global target actor associated with this listener. */ constructor(targetActor) { this._targetActor = targetActor; this._onWindowCreated = this.onWindowCreated.bind(this); this._onWindowHidden = this.onWindowHidden.bind(this); // Watch for windows destroyed (global observer that will need filtering) Services.obs.addObserver(this, "inner-window-destroyed"); // XXX: for now we maintain the list of windows we know about in this instance // so that we can discriminate windows we care about when observing // inner-window-destroyed events. Bug 1016952 would remove the need for this. this._knownWindowIDs = new Map(); this._watchedDocShells = new WeakSet(); } QueryInterface = ChromeUtils.generateQI([ "nsIWebProgressListener", "nsISupportsWeakReference", ]); destroy() { Services.obs.removeObserver(this, "inner-window-destroyed"); this._knownWindowIDs.clear(); this._knownWindowIDs = null; } watch(docShell) { // Add the docshell to the watched set. We're actually adding the window, // because docShell objects are not wrappercached and would be rejected // by the WeakSet. const docShellWindow = docShell.domWindow; this._watchedDocShells.add(docShellWindow); const webProgress = docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); webProgress.addProgressListener( this, Ci.nsIWebProgress.NOTIFY_STATE_WINDOW | Ci.nsIWebProgress.NOTIFY_STATE_DOCUMENT ); const handler = getDocShellChromeEventHandler(docShell); handler.addEventListener("DOMWindowCreated", this._onWindowCreated, true); handler.addEventListener("pageshow", this._onWindowCreated, true); handler.addEventListener("pagehide", this._onWindowHidden, true); // Dispatch the _windowReady event on the targetActor for pre-existing windows const windows = this._targetActor.ignoreSubFrames ? [docShellWindow] : this._getWindowsInDocShell(docShell); for (const win of windows) { this._targetActor._windowReady(win); this._knownWindowIDs.set(getWindowID(win), win); } // Immediately enable CSS error reports on new top level docshells, if this was already enabled // This is specific to MBT and WebExtension targets (so the isRootActor check). if ( this._targetActor.isRootActor && this._targetActor.docShell.cssErrorReportingEnabled ) { docShell.cssErrorReportingEnabled = true; } } unwatch(docShell) { // If the docshell is being destroyed, we won't be able to retrieve its related window object, // which is the key ingredient for all cleanup operations done in this method. if (docShell.isBeingDestroyed()) { return; } const docShellWindow = docShell.domWindow; if (!this._watchedDocShells.has(docShellWindow)) { return; } this._watchedDocShells.delete(docShellWindow); const webProgress = docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); // During process shutdown, the docshell may already be cleaned up and throw try { webProgress.removeProgressListener(this); } catch (e) { // ignore } const handler = getDocShellChromeEventHandler(docShell); handler.removeEventListener( "DOMWindowCreated", this._onWindowCreated, true ); handler.removeEventListener("pageshow", this._onWindowCreated, true); handler.removeEventListener("pagehide", this._onWindowHidden, true); const windows = this._targetActor.ignoreSubFrames ? [docShellWindow] : this._getWindowsInDocShell(docShell); for (const win of windows) { this._knownWindowIDs.delete(getWindowID(win)); } } _getWindowsInDocShell(docShell) { return getChildDocShells(docShell).map(d => { return d.domWindow; }); } onWindowCreated = DevToolsUtils.makeInfallible(function (evt) { if (this._targetActor.isDestroyed()) { return; } // If we're in a frame swap (which occurs when toggling RDM, for example), then we can // ignore this event, as the window never really went anywhere for our purposes. if (evt.inFrameSwap) { return; } const window = evt.target.defaultView; if (!window) { // Some old UIs might emit unrelated events called pageshow/pagehide on // elements which are not documents. Bail in this case. See Bug 1669666. return; } const innerID = getWindowID(window); // This handler is called for two events: "DOMWindowCreated" and "pageshow". // Bail out if we already processed this window. if (this._knownWindowIDs.has(innerID)) { return; } this._knownWindowIDs.set(innerID, window); // For a regular page navigation, "DOMWindowCreated" is fired before // "pageshow". If the current event is "pageshow" but we have not processed // the window yet, it means this is a BF cache navigation. In theory, // `event.persisted` should be set for BF cache navigation events, but it is // not always available, so we fallback on checking if "pageshow" is the // first event received for a given window (see Bug 1378133). const isBFCache = evt.type == "pageshow"; this._targetActor._windowReady(window, { isBFCache }); }, "DebuggerProgressListener.prototype.onWindowCreated"); onWindowHidden = DevToolsUtils.makeInfallible(function (evt) { if (this._targetActor.isDestroyed()) { return; } // If we're in a frame swap (which occurs when toggling RDM, for example), then we can // ignore this event, as the window isn't really going anywhere for our purposes. if (evt.inFrameSwap) { return; } // Only act as if the window has been destroyed if the 'pagehide' event // was sent for a persisted window (persisted is set when the page is put // and frozen in the bfcache). If the page isn't persisted, the observer's // inner-window-destroyed event will handle it. if (!evt.persisted) { return; } const window = evt.target.defaultView; if (!window) { // Some old UIs might emit unrelated events called pageshow/pagehide on // elements which are not documents. Bail in this case. See Bug 1669666. return; } this._targetActor._windowDestroyed(window, { isFrozen: true }); this._knownWindowIDs.delete(getWindowID(window)); }, "DebuggerProgressListener.prototype.onWindowHidden"); observe = DevToolsUtils.makeInfallible(function (subject) { if (this._targetActor.isDestroyed()) { return; } // Because this observer will be called for all inner-window-destroyed in // the application, we need to filter out events for windows we are not // watching const innerID = subject.QueryInterface(Ci.nsISupportsPRUint64).data; const window = this._knownWindowIDs.get(innerID); if (window) { this._knownWindowIDs.delete(innerID); this._targetActor._windowDestroyed(window, { id: innerID }); } // Bug 1598364: when debugging browser.xhtml from the Browser Toolbox // the DOMWindowCreated/pageshow/pagehide event listeners have to be // re-registered against the next document when we reload browser.html // (or navigate to another doc). // That's because we registered the listener on docShell.domWindow as // top level windows don't have a chromeEventHandler. if ( this._watchedDocShells.has(window) && !window.docShell.chromeEventHandler ) { // First cleanup all the existing listeners this.unwatch(window.docShell); // Re-register new ones. The docShell is already referencing the new document. this.watch(window.docShell); } }, "DebuggerProgressListener.prototype.observe"); onStateChange = DevToolsUtils.makeInfallible(function ( progress, request, flag ) { if (this._targetActor.isDestroyed()) { return; } progress.QueryInterface(Ci.nsIDocShell); if (progress.isBeingDestroyed()) { return; } const isStart = flag & Ci.nsIWebProgressListener.STATE_START; const isStop = flag & Ci.nsIWebProgressListener.STATE_STOP; const isDocument = flag & Ci.nsIWebProgressListener.STATE_IS_DOCUMENT; const isWindow = flag & Ci.nsIWebProgressListener.STATE_IS_WINDOW; // Ideally, we would fetch navigationStart from window.performance.timing.navigationSta // but as WindowGlobal isn't instantiated yet we don't have access to it. // This is ultimately handed over to DocumentEventListener, which uses this. // See its comment about WILL_NAVIGATE_TIME_SHIFT for more details about the related workaro const navigationStart = Date.now(); // Catch any iframe location change if (isDocument && isStop) { // Watch document stop to ensure having the new iframe url. this._targetActor._notifyDocShellsUpdate([progress]); } const window = progress.DOMWindow; if (isDocument && isStart) { // One of the earliest events that tells us a new URI // is being loaded in this window. const newURI = request instanceof Ci.nsIChannel ? request.URI.spec : null; this._targetActor._willNavigate({ window, newURI, request, isFrameSwitching: false, navigationStart, }); } if (isWindow && isStop) { // Don't dispatch "navigate" event just yet when there is a redirect to // about:neterror page. // Navigating to about:neterror will make `status` be something else than NS_OK. // But for some error like NS_BINDING_ABORTED we don't want to emit any `navigate` // event as the page load has been cancelled and the related page document is going // to be a dead wrapper. if ( request.status != Cr.NS_OK && --> -------------------- --> maximum size reached --> --------------------
¤ Dauer der Verarbeitung: 0.27 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
|
||||||||||||||
2026-04-02