/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */ /* vim: set ft=javascript ts=2 et sw=2 tw=80: */ /* 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"; /* global XPCNativeWrapper */ var { Ci, Cu, Cr } = require("chrome"); var Services = require("Services"); var { XPCOMUtils } = require("resource://gre/modules/XPCOMUtils.jsm"); var promise = require("promise"); var { ActorPool, createExtraActors, appendExtraActors, GeneratedLocation } = require("devtools/server/actors/common"); var { DebuggerServer } = require("devtools/server/main"); var DevToolsUtils = require("devtools/shared/DevToolsUtils"); var { assert } = DevToolsUtils; var { TabSources } = require("./utils/TabSources"); var makeDebugger = require("./utils/make-debugger"); loader.lazyRequireGetter(this, "RootActor", "devtools/server/actors/root", true); loader.lazyRequireGetter(this, "ThreadActor", "devtools/server/actors/script", true); loader.lazyRequireGetter(this, "unwrapDebuggerObjectGlobal", "devtools/server/actors/script", true); loader.lazyRequireGetter(this, "BrowserAddonActor", "devtools/server/actors/addon", true); loader.lazyRequireGetter(this, "WebExtensionActor", "devtools/server/actors/webextension", true); loader.lazyRequireGetter(this, "WorkerActorList", "devtools/server/actors/worker", true); loader.lazyRequireGetter(this, "ServiceWorkerRegistrationActorList", "devtools/server/actors/worker", true); loader.lazyRequireGetter(this, "ProcessActorList", "devtools/server/actors/process", true); loader.lazyImporter(this, "AddonManager", "resource://gre/modules/AddonManager.jsm"); loader.lazyImporter(this, "ExtensionContent", "resource://gre/modules/ExtensionContent.jsm"); // Assumptions on events module: // events needs to be dispatched synchronously, // by calling the listeners in the order or registration. loader.lazyRequireGetter(this, "events", "sdk/event/core"); loader.lazyRequireGetter(this, "StyleSheetActor", "devtools/server/actors/stylesheets", true); function getWindowID(window) { return window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .currentInnerWindowID; } 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.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindow); } catch (e) { // ignore } } return handler; } function getChildDocShells(parentDocShell) { let docShellsEnum = parentDocShell.getDocShellEnumerator( Ci.nsIDocShellTreeItem.typeAll, Ci.nsIDocShell.ENUMERATE_FORWARDS ); let docShells = []; while (docShellsEnum.hasMoreElements()) { let docShell = docShellsEnum.getNext(); docShell.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); docShells.push(docShell); } return docShells; } exports.getChildDocShells = getChildDocShells; /** * Browser-specific actors. */ function getInnerId(window) { return window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils).currentInnerWindowID; } /** * Yield all windows of type |windowType|, from the oldest window to the * youngest, using nsIWindowMediator::getEnumerator. We're usually * interested in "navigator:browser" windows. */ function* allAppShellDOMWindows(windowType) { let e = Services.wm.getEnumerator(windowType); while (e.hasMoreElements()) { yield e.getNext(); } } exports.allAppShellDOMWindows = allAppShellDOMWindows; /** * Retrieve the window type of the top-level window |window|. */ function appShellDOMWindowType(window) { /* This is what nsIWindowMediator's enumerator checks. */ return window.document.documentElement.getAttribute("windowtype"); } /** * Send Debugger:Shutdown events to all "navigator:browser" windows. */ function sendShutdownEvent() { for (let win of allAppShellDOMWindows(DebuggerServer.chromeWindowType)) { let evt = win.document.createEvent("Event"); evt.initEvent("Debugger:Shutdown", true, false); win.document.documentElement.dispatchEvent(evt); } } exports.sendShutdownEvent = sendShutdownEvent; /** * Construct a root actor appropriate for use in a server running in a * browser. The returned root actor: * - respects the factories registered with DebuggerServer.addGlobalActor, * - uses a BrowserTabList to supply tab actors, * - sends all navigator:browser window documents a Debugger:Shutdown event * when it exits. * * * @param connection DebuggerServerConnection * The conection to the client. */ function createRootActor(connection) { return new RootActor(connection, { tabList: new BrowserTabList(connection), addonList: new BrowserAddonList(connection), workerList: new WorkerActorList(connection, {}), serviceWorkerRegistrationList: new ServiceWorkerRegistrationActorList(connection), processList: new ProcessActorList(), globalActorFactories: DebuggerServer.globalActorFactories, onShutdown: sendShutdownEvent }); } /** * A live list of BrowserTabActors representing the current browser tabs, * to be provided to the root actor to answer 'listTabs' requests. * * This object also takes care of listening for TabClose events and * onCloseWindow notifications, and exiting the BrowserTabActors concerned. * * (See the documentation for RootActor for the definition of the "live * list" interface.) * * @param connection DebuggerServerConnection * The connection in which this list's tab actors may participate. * * Some notes: * * This constructor is specific to the desktop browser environment; it * maintains the tab list by tracking XUL windows and their XUL documents' * "tabbrowser", "tab", and "browser" elements. What's entailed in maintaining * an accurate list of open tabs in this context? * * - Opening and closing XUL windows: * * An nsIWindowMediatorListener is notified when new XUL windows (i.e., desktop * windows) are opened and closed. It is not notified of individual content * browser tabs coming and going within such a XUL window. That seems * reasonable enough; it's concerned with XUL windows, not tab elements in the * window's XUL document. * * However, even if we attach TabOpen and TabClose event listeners to each XUL * window as soon as it is created: * * - we do not receive a TabOpen event for the initial empty tab of a new XUL * window; and * * - we do not receive TabClose events for the tabs of a XUL window that has * been closed. * * This means that TabOpen and TabClose events alone are not sufficient to * maintain an accurate list of live tabs and mark tab actors as closed * promptly. Our nsIWindowMediatorListener onCloseWindow handler must find and * exit all actors for tabs that were in the closing window. * * Since this is a bit hairy, we don't make each individual attached tab actor * responsible for noticing when it has been closed; we watch for that, and * promise to call each actor's 'exit' method when it's closed, regardless of * how we learn the news. * * - nsIWindowMediator locks * * nsIWindowMediator holds a lock protecting its list of top-level windows * while it calls nsIWindowMediatorListener methods. nsIWindowMediator's * GetEnumerator method also tries to acquire that lock. Thus, enumerating * windows from within a listener method deadlocks (bug 873589). Rah. One * can sometimes work around this by leaving the enumeration for a later * tick. * * - Dragging tabs between windows: * * When a tab is dragged from one desktop window to another, we receive a * TabOpen event for the new tab, and a TabClose event for the old tab; tab XUL * elements do not really move from one document to the other (although their * linked browser's content window objects do). * * However, while we could thus assume that each tab stays with the XUL window * it belonged to when it was created, I'm not sure this is behavior one should * rely upon. When a XUL window is closed, we take the less efficient, more * conservative approach of simply searching the entire table for actors that * belong to the closing XUL window, rather than trying to somehow track which * XUL window each tab belongs to. * * - Title changes: * * For tabs living in the child process, we listen for DOMTitleChange message * via the top-level window's message manager. Doing this also allows listening * for title changes on Fennec. * But as these messages aren't sent for tabs loaded in the parent process, * we also listen for TabAttrModified event, which is fired only on Firefox * desktop. */ function BrowserTabList(connection) { this._connection = connection; /* * The XUL document of a tabbed browser window has "tab" elements, whose * 'linkedBrowser' JavaScript properties are "browser" elements; those * browsers' 'contentWindow' properties are wrappers on the tabs' content * window objects. * * This map's keys are "browser" XUL elements; it maps each browser element * to the tab actor we've created for its content window, if we've created * one. This map serves several roles: * * - During iteration, we use it to find actors we've created previously. * * - On a TabClose event, we use it to find the tab's actor and exit it. * * - When the onCloseWindow handler is called, we iterate over it to find all * tabs belonging to the closing XUL window, and exit them. * * - When it's empty, and the onListChanged hook is null, we know we can * stop listening for events and notifications. * * We listen for TabClose events and onCloseWindow notifications in order to * send onListChanged notifications, but also to tell actors when their * referent has gone away and remove entries for dead browsers from this map. * If that code is working properly, neither this map nor the actors in it * should ever hold dead tabs alive. */ this._actorByBrowser = new Map(); /* The current onListChanged handler, or null. */ this._onListChanged = null; /* * True if we've been iterated over since we last called our onListChanged * hook. */ this._mustNotify = false; /* True if we're testing, and should throw if consistency checks fail. */ this._testing = false; } BrowserTabList.prototype.constructor = BrowserTabList; /** * Get the selected browser for the given navigator:browser window. * @private * @param window nsIChromeWindow * The navigator:browser window for which you want the selected browser. * @return nsIDOMElement|null * The currently selected xul:browser element, if any. Note that the * browser window might not be loaded yet - the function will return * |null| in such cases. */ BrowserTabList.prototype._getSelectedBrowser = function (window) { return window.gBrowser ? window.gBrowser.selectedBrowser : null; }; /** * Produces an iterable (in this case a generator) to enumerate all available * browser tabs. */ BrowserTabList.prototype._getBrowsers = function* () { // Iterate over all navigator:browser XUL windows. for (let win of allAppShellDOMWindows(DebuggerServer.chromeWindowType)) { // For each tab in this XUL window, ensure that we have an actor for // it, reusing existing actors where possible. We actually iterate // over 'browser' XUL elements, and BrowserTabActor uses // browser.contentWindow as the debuggee global. for (let browser of this._getChildren(win)) { yield browser; } } }; BrowserTabList.prototype._getChildren = function (window) { if (!window.gBrowser) { return []; } let { gBrowser } = window; if (!gBrowser.browsers) { return []; } return gBrowser.browsers.filter(browser => { // Filter tabs that are closing. listTabs calls made right after TabClose // events still list tabs in process of being closed. let tab = gBrowser.getTabForBrowser(browser); return !tab.closing; }); }; BrowserTabList.prototype.getList = function () { let topXULWindow = Services.wm.getMostRecentWindow( DebuggerServer.chromeWindowType); let selectedBrowser = null; if (topXULWindow) { selectedBrowser = this._getSelectedBrowser(topXULWindow); } // As a sanity check, make sure all the actors presently in our map get // picked up when we iterate over all windows' tabs. let initialMapSize = this._actorByBrowser.size; this._foundCount = 0; // To avoid mysterious behavior if tabs are closed or opened mid-iteration, // we update the map first, and then make a second pass over it to yield // the actors. Thus, the sequence yielded is always a snapshot of the // actors that were live when we began the iteration. let actorPromises = []; for (let browser of this._getBrowsers()) { let selected = browser === selectedBrowser; actorPromises.push( this._getActorForBrowser(browser) .then(actor => { // Set the 'selected' properties on all actors correctly. actor.selected = selected; return actor; }) ); } if (this._testing && initialMapSize !== this._foundCount) { throw new Error("_actorByBrowser map contained actors for dead tabs"); } this._mustNotify = true; this._checkListening(); return promise.all(actorPromises); }; BrowserTabList.prototype._getActorForBrowser = function (browser) { // Do we have an existing actor for this browser? If not, create one. let actor = this._actorByBrowser.get(browser); if (actor) { this._foundCount++; return actor.update(); } actor = new BrowserTabActor(this._connection, browser); this._actorByBrowser.set(browser, actor); this._checkListening(); return actor.connect(); }; BrowserTabList.prototype.getTab = function ({ outerWindowID, tabId }) { if (typeof outerWindowID == "number") { // First look for in-process frames with this ID let window = Services.wm.getOuterWindowWithId(outerWindowID); // Safety check to prevent debugging top level window via getTab if (window instanceof Ci.nsIDOMChromeWindow) { return promise.reject({ error: "forbidden", message: "Window with outerWindowID '" + outerWindowID + "' is chrome" }); } if (window) { let iframe = window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .containerElement; if (iframe) { return this._getActorForBrowser(iframe); } } // Then also look on registered when using outerWindowID for // OOP tabs for (let browser of this._getBrowsers()) { if (browser.outerWindowID == outerWindowID) { return this._getActorForBrowser(browser); } } return promise.reject({ error: "noTab", message: "Unable to find tab with outerWindowID '" + outerWindowID + "'" }); } else if (typeof tabId == "number") { // Tabs OOP for (let browser of this._getBrowsers()) { if (browser.frameLoader.tabParent && browser.frameLoader.tabParent.tabId === tabId) { return this._getActorForBrowser(browser); } } return promise.reject({ error: "noTab", message: "Unable to find tab with tabId '" + tabId + "'" }); } let topXULWindow = Services.wm.getMostRecentWindow( DebuggerServer.chromeWindowType); if (topXULWindow) { let selectedBrowser = this._getSelectedBrowser(topXULWindow); return this._getActorForBrowser(selectedBrowser); } return promise.reject({ error: "noTab", message: "Unable to find any selected browser" }); }; Object.defineProperty(BrowserTabList.prototype, "onListChanged", { enumerable: true, configurable: true, get() { return this._onListChanged; }, set(v) { if (v !== null && typeof v !== "function") { throw new Error( "onListChanged property may only be set to 'null' or a function"); } this._onListChanged = v; this._checkListening(); } }); /** * The set of tabs has changed somehow. Call our onListChanged handler, if * one is set, and if we haven't already called it since the last iteration. */ BrowserTabList.prototype._notifyListChanged = function () { if (!this._onListChanged) { return; } if (this._mustNotify) { this._onListChanged(); this._mustNotify = false; } }; /** * Exit |actor|, belonging to |browser|, and notify the onListChanged * handle if needed. */ BrowserTabList.prototype._handleActorClose = function (actor, browser) { if (this._testing) { if (this._actorByBrowser.get(browser) !== actor) { throw new Error("BrowserTabActor not stored in map under given browser"); } if (actor.browser !== browser) { throw new Error("actor's browser and map key don't match"); } } this._actorByBrowser.delete(browser); actor.exit(); this._notifyListChanged(); this._checkListening(); }; /** * Make sure we are listening or not listening for activity elsewhere in * the browser, as appropriate. Other than setting up newly created XUL * windows, all listener / observer connection and disconnection should * happen here. */ BrowserTabList.prototype._checkListening = function () { /* * If we have an onListChanged handler that we haven't sent an announcement * to since the last iteration, we need to watch for tab creation as well as * change of the currently selected tab and tab title changes of tabs in * parent process via TabAttrModified (tabs oop uses DOMTitleChanges). * * Oddly, we don't need to watch for 'close' events here. If our actor list * is empty, then either it was empty the last time we iterated, and no * close events are possible, or it was not empty the last time we * iterated, but all the actors have since been closed, and we must have * sent a notification already when they closed. */ this._listenForEventsIf(this._onListChanged && this._mustNotify, "_listeningForTabOpen", ["TabOpen", "TabSelect", "TabAttrModified"]); /* If we have live actors, we need to be ready to mark them dead. */ this._listenForEventsIf(this._actorByBrowser.size > 0, "_listeningForTabClose", ["TabClose", "TabRemotenessChange"]); /* * We must listen to the window mediator in either case, since that's the * only way to find out about tabs that come and go when top-level windows * are opened and closed. */ this._listenToMediatorIf((this._onListChanged && this._mustNotify) || (this._actorByBrowser.size > 0)); /* * We also listen for title changed from the child process. * This allows listening for title changes from Fennec and OOP tabs in Fx. */ this._listenForMessagesIf(this._onListChanged && this._mustNotify, "_listeningForTitleChange", ["DOMTitleChanged"]); }; /* * Add or remove event listeners for all XUL windows. * * @param shouldListen boolean * True if we should add event handlers; false if we should remove them. * @param guard string * The name of a guard property of 'this', indicating whether we're * already listening for those events. * @param eventNames array of strings * An array of event names. */ BrowserTabList.prototype._listenForEventsIf = function (shouldListen, guard, eventNames) { if (!shouldListen !== !this[guard]) { let op = shouldListen ? "addEventListener" : "removeEventListener"; for (let win of allAppShellDOMWindows(DebuggerServer.chromeWindowType)) { for (let name of eventNames) { win[op](name, this, false); } } this[guard] = shouldListen; } }; /* * Add or remove message listeners for all XUL windows. * * @param aShouldListen boolean * True if we should add message listeners; false if we should remove them. * @param aGuard string * The name of a guard property of 'this', indicating whether we're * already listening for those messages. * @param aMessageNames array of strings * An array of message names. */ BrowserTabList.prototype._listenForMessagesIf = function (shouldListen, guard, messageNames) { if (!shouldListen !== !this[guard]) { let op = shouldListen ? "addMessageListener" : "removeMessageListener"; for (let win of allAppShellDOMWindows(DebuggerServer.chromeWindowType)) { for (let name of messageNames) { win.messageManager[op](name, this); } } this[guard] = shouldListen; } }; /** * Implement nsIMessageListener. */ BrowserTabList.prototype.receiveMessage = DevToolsUtils.makeInfallible( function (message) { let browser = message.target; switch (message.name) { case "DOMTitleChanged": { let actor = this._actorByBrowser.get(browser); if (actor) { this._notifyListChanged(); this._checkListening(); } break; } } }); /** * Implement nsIDOMEventListener. */ BrowserTabList.prototype.handleEvent = DevToolsUtils.makeInfallible(function (event) { let browser = event.target.linkedBrowser; switch (event.type) { case "TabOpen": case "TabSelect": { /* Don't create a new actor; iterate will take care of that. Just notify. */ this._notifyListChanged(); this._checkListening(); break; } case "TabClose": { let actor = this._actorByBrowser.get(browser); if (actor) { this._handleActorClose(actor, browser); } break; } case "TabRemotenessChange": { // We have to remove the cached actor as we have to create a new instance. let actor = this._actorByBrowser.get(browser); if (actor) { this._actorByBrowser.delete(browser); // Don't create a new actor; iterate will take care of that. Just notify. this._notifyListChanged(); this._checkListening(); } break; } case "TabAttrModified": { // Remote title changes are handled via DOMTitleChange message // TabAttrModified is only here for browsers in parent process which // don't send this message. if (browser.isRemoteBrowser) { break; } let actor = this._actorByBrowser.get(browser); if (actor) { // TabAttrModified is fired in various cases, here only care about title // changes if (event.detail.changed.includes("label")) { this._notifyListChanged(); this._checkListening(); } } break; } } }, "BrowserTabList.prototype.handleEvent"); /* * If |shouldListen| is true, ensure we've registered a listener with the * window mediator. Otherwise, ensure we haven't registered a listener. */ BrowserTabList.prototype._listenToMediatorIf = function (shouldListen) { if (!shouldListen !== !this._listeningToMediator) { let op = shouldListen ? "addListener" : "removeListener"; Services.wm[op](this); this._listeningToMediator = shouldListen; } }; /** * nsIWindowMediatorListener implementation. * * See _onTabClosed for explanation of why we needn't actually tweak any * actors or tables here. * * An nsIWindowMediatorListener's methods get passed all sorts of windows; we * only care about the tab containers. Those have 'getBrowser' methods. */ BrowserTabList.prototype.onWindowTitleChange = () => { }; BrowserTabList.prototype.onOpenWindow = DevToolsUtils.makeInfallible(function (window) { let handleLoad = DevToolsUtils.makeInfallible(() => { /* We don't want any further load events from this window. */ window.removeEventListener("load", handleLoad, false); if (appShellDOMWindowType(window) !== DebuggerServer.chromeWindowType) { return; } // Listen for future tab activity. if (this._listeningForTabOpen) { window.addEventListener("TabOpen", this, false); window.addEventListener("TabSelect", this, false); window.addEventListener("TabAttrModified", this, false); } if (this._listeningForTabClose) { window.addEventListener("TabClose", this, false); window.addEventListener("TabRemotenessChange", this, false); } if (this._listeningForTitleChange) { window.messageManager.addMessageListener("DOMTitleChanged", this); } // As explained above, we will not receive a TabOpen event for this // document's initial tab, so we must notify our client of the new tab // this will have. this._notifyListChanged(); }); /* * You can hardly do anything at all with a XUL window at this point; it * doesn't even have its document yet. Wait until its document has * loaded, and then see what we've got. This also avoids * nsIWindowMediator enumeration from within listeners (bug 873589). */ window = window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindow); window.addEventListener("load", handleLoad, false); }, "BrowserTabList.prototype.onOpenWindow"); BrowserTabList.prototype.onCloseWindow = DevToolsUtils.makeInfallible(function (window) { window = window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindow); if (appShellDOMWindowType(window) !== DebuggerServer.chromeWindowType) { return; } /* * nsIWindowMediator deadlocks if you call its GetEnumerator method from * a nsIWindowMediatorListener's onCloseWindow hook (bug 873589), so * handle the close in a different tick. */ Services.tm.currentThread.dispatch(DevToolsUtils.makeInfallible(() => { /* * Scan the entire map for actors representing tabs that were in this * top-level window, and exit them. */ for (let [browser, actor] of this._actorByBrowser) { /* The browser document of a closed window has no default view. */ if (!browser.ownerDocument.defaultView) { this._handleActorClose(actor, browser); } } }, "BrowserTabList.prototype.onCloseWindow's delayed body"), 0); }, "BrowserTabList.prototype.onCloseWindow"); exports.BrowserTabList = BrowserTabList; /** * Creates a TabActor whose main goal is to manage lifetime and * expose the tab actors being registered via DebuggerServer.registerModule. * But also track the lifetime of the document being tracked. * * ### Main requests: * * `attach`/`detach` requests: * - start/stop document watching: * Starts watching for new documents and emits `tabNavigated` and * `frameUpdate` over RDP. * - retrieve the thread actor: * Instantiates a ThreadActor that can be later attached to in order to * debug JS sources in the document. * `switchToFrame`: * Change the targeted document of the whole TabActor, and its child tab actors * to an iframe or back to its original document. * * Most of the TabActor properties (like `chromeEventHandler` or `docShells`) * are meant to be used by the various child tab actors. * * ### RDP events: * * - `tabNavigated`: * Sent when the tab 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. * * nativeConsoleAPI (boolean) `false` if the console API of the page has * been overridden (e.g. by Firebug), * `true` if the Gecko implementation is used. * * 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 TabActor 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 tab'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 TabActor to a specific frame: * { selected: #id } * * ### Internal, non-rdp events: * Various events are also dispatched on the TabActor itself that are not * related to RDP, so, not sent to the client. They all relate to the documents * tracked by the TabActor (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 on three 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. * - 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 tab 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 TabActor targeted document * to one of its iframes, or back to its original top document. * It is dispatched between window-destroyed and window-ready. * - stylesheet-added * This event is fired when a StyleSheetActor is created. * It contains the following attribute : * * actor (StyleSheetActor) The created actor. * * Note that *all* these events are dispatched in the following order * when we switch the context of the TabActor to a given iframe: * - will-navigate * - window-destroyed * - changed-toplevel-document * - window-ready * - navigate * * This class is subclassed by ContentActor and others. * Subclasses are expected to implement a getter for the docShell property. * * @param connection DebuggerServerConnection * The conection to the client. */ function TabActor(connection) { this.conn = connection; this._tabActorPool = null; // A map of actor names to actor instances provided by extensions. this._extraActors = {}; this._exited = false; this._sources = null; // Map of DOM stylesheets to StyleSheetActors this._styleSheetActors = new Map(); this._shouldAddNewGlobalAsDebuggee = this._shouldAddNewGlobalAsDebuggee.bind(this); this.makeDebugger = makeDebugger.bind(null, { findDebuggees: () => { return this.windows.concat(this.webextensionsContentScriptGlobals); }, shouldAddNewGlobalAsDebuggee: this._shouldAddNewGlobalAsDebuggee }); // Flag eventually overloaded by sub classes in order to watch new docshells // Used by the ChromeActor to list all frames in the Browser Toolbox this.listenForNewDocShells = false; this.traits = { reconfigure: true, // Supports frame listing via `listFrames` request and `frameUpdate` events // as well as frame switching via `switchToFrame` request frames: true, // Do not require to send reconfigure request to reset the document state // to what it was before using the TabActor noTabReconfigureOnClose: true }; this._workerActorList = null; this._workerActorPool = null; this._onWorkerActorListChanged = this._onWorkerActorListChanged.bind(this); } // XXX (bug 710213): TabActor attach/detach/exit/disconnect is a // *complete* mess, needs to be rethought asap. TabActor.prototype = { traits: null, // Optional console API listener options (e.g. used by the WebExtensionActor to // filter console messages by addonID), set to an empty (no options) object by default. consoleAPIListenerOptions: {}, // Optional TabSources filter function (e.g. used by the WebExtensionActor to filter // sources by addonID), allow all sources by default. _allowSource() { return true; }, get exited() { return this._exited; }, get attached() { return !!this._attached; }, _tabPool: null, get tabActorPool() { return this._tabPool; }, _contextPool: null, get contextActorPool() { return this._contextPool; }, // A constant prefix that will be used to form the actor ID by the server. actorPrefix: "tab", /** * An object on which listen for DOMWindowCreated and pageshow events. */ get chromeEventHandler() { return getDocShellChromeEventHandler(this.docShell); }, /** * Getter for the nsIMessageManager associated to the tab. */ get messageManager() { try { return this.docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIContentFrameMessageManager); } catch (e) { return null; } }, /** * Getter for the tab's doc shell. */ get docShell() { throw new Error( "The docShell getter should be implemented by a subclass of TabActor"); }, /** * Getter for the list of all docshell in this tabActor * @return {Array} */ get docShells() { return getChildDocShells(this.docShell); }, /** * Getter for the tab content's DOM window. */ get window() { // On xpcshell, there is no document if (this.docShell) { return this.docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindow); } return null; }, get outerWindowID() { if (this.window) { return this.window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .outerWindowID; } return null; }, /** * Getter for the WebExtensions ContentScript globals related to the * current tab content's DOM window. */ get webextensionsContentScriptGlobals() { // Ignore xpcshell runtime which spawn TabActors without a window. if (this.window) { return ExtensionContent.getContentScriptGlobalsForWindow(this.window); } return []; }, /** * Getter for the list of all content DOM windows in this tabActor * @return {Array} */ get windows() { return this.docShells.map(docShell => { return docShell.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindow); }); }, /** * Getter for the original docShell the tabActor 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.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocShell); }, /** * Getter for the original window the tabActor 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 tab. */ get webNavigation() { return this.docShell .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation); }, /** * Getter for the tab's document. */ get contentDocument() { return this.webNavigation.document; }, /** * Getter for the tab title. * @return string * Tab title. */ get title() { return this.contentDocument.contentTitle; }, /** * Getter for the tab URL. * @return string * Tab 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 sources() { if (!this._sources) { this._sources = new TabSources(this.threadActor, this._allowSource); } return this._sources; }, /** * This is called by BrowserTabList.getList for existing tab actors prior to * calling |form| below. It can be used to do any async work that may be * needed to assemble the form. */ update() { return promise.resolve(this); }, form() { assert(!this.exited, "form() shouldn't be called on exited browser actor."); assert(this.actorID, "tab should have an actorID."); let response = { actor: this.actorID }; // We may try to access window while the document is closing, then // accessing window throws. Also on xpcshell we are using tabactor even if // there is no valid document. if (this.docShell && !this.docShell.isBeingDestroyed()) { response.title = this.title; response.url = this.url; response.outerWindowID = this.outerWindowID; } // Always use the same ActorPool, so existing actor instances // (created in createExtraActors) are not lost. if (!this._tabActorPool) { this._tabActorPool = new ActorPool(this.conn); this.conn.addActorPool(this._tabActorPool); } // Walk over tab actor factories and make sure they are all // instantiated and added into the ActorPool. Note that some // factories can be added dynamically by extensions. this._createExtraActors(DebuggerServer.tabActorFactories, this._tabActorPool); this._appendExtraActors(response); return response; }, /** * Called when the actor is removed from the connection. */ disconnect() { this.exit(); }, /** * Called by the root actor when the underlying tab is closed. */ exit() { if (this.exited) { return; } // Tell the thread actor that the tab is closed, so that it may terminate // instead of resuming the debuggee script. if (this._attached) { this.threadActor._tabClosed = true; } this._detach(); Object.defineProperty(this, "docShell", { value: null, configurable: true }); this._extraActors = null; this._exited = true; }, /** * Return true if the given global is associated with this tab and should be * added as a debuggee, false otherwise. */ _shouldAddNewGlobalAsDebuggee(wrappedGlobal) { if (wrappedGlobal.hostAnnotations && wrappedGlobal.hostAnnotations.type == "document" && wrappedGlobal.hostAnnotations.element === this.window) { return true; } let global = unwrapDebuggerObjectGlobal(wrappedGlobal); if (!global) { return false; } // Check if the global is a sdk page-mod sandbox. let metadata = {}; let id = ""; try { id = getInnerId(this.window); metadata = Cu.getSandboxMetadata(global); } catch (e) { // ignore } if (metadata && metadata["inner-window-id"] && metadata["inner-window-id"] == id) { return true; } return false; }, /* Support for DebuggerServer.addTabActor. */ _createExtraActors: createExtraActors, _appendExtraActors: appendExtraActors, /** * Does the actual work of attaching to a tab. */ _attach() { if (this._attached) { return; } // Create a pool for tab-lifetime actors. assert(!this._tabPool, "Shouldn't have a tab pool if we weren't attached."); this._tabPool = new ActorPool(this.conn); this.conn.addActorPool(this._tabPool); // ... and a pool for context-lifetime actors. this._pushContext(); // on xpcshell, there is no document if (this.window) { this._progressListener = new DebuggerProgressListener(this); // Save references to the original document we attached to this._originalWindow = this.window; // Ensure replying to attach() request first // before notifying about new docshells. DevToolsUtils.executeSoon(() => this._watchDocshells()); } this._attached = true; }, _watchDocshells() { // In child processes, we watch all docshells living in the process. if (this.listenForNewDocShells) { Services.obs.addObserver(this, "webnavigation-create", false); } Services.obs.addObserver(this, "webnavigation-destroy", false); // We watch for all child docshells under the current document, this._progressListener.watch(this.docShell); // And list all already existing ones. this._updateChildDocShells(); }, onSwitchToFrame(request) { let windowId = request.windowId; let win; try { win = Services.wm.getOuterWindowWithId(windowId); } catch (e) { // ignore } if (!win) { return { 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 {}; }, onListFrames(request) { let windows = this._docShellsToWindows(this.docShells); return { frames: windows }; }, onListWorkers(request) { if (!this.attached) { return { error: "wrongState" }; } if (this._workerActorList === null) { this._workerActorList = new WorkerActorList(this.conn, { type: Ci.nsIWorkerDebugger.TYPE_DEDICATED, window: this.window }); } return this._workerActorList.getList().then((actors) => { let pool = new ActorPool(this.conn); for (let actor of actors) { pool.addActor(actor); } this.conn.removeActorPool(this._workerActorPool); this._workerActorPool = pool; this.conn.addActorPool(this._workerActorPool); this._workerActorList.onListChanged = this._onWorkerActorListChanged; return { "from": this.actorID, "workers": actors.map((actor) => actor.form()) }; }); }, _onWorkerActorListChanged() { this._workerActorList.onListChanged = null; this.conn.sendActorEvent(this.actorID, "workerListChanged"); }, observe(subject, topic, data) { // Ignore any event that comes before/after the tab actor is attached // That typically happens during firefox shutdown. if (!this.attached) { return; } if (topic == "webnavigation-create") { subject.QueryInterface(Ci.nsIDocShell); 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 // TabChild, this event is from within this call: // http://hg.mozilla.org/mozilla-central/annotate/74d7fb43bb44/dom/ipc/TabChild.cpp#l912 // whereas the chromeEventHandler (and most likely other stuff) is set // later: // http://hg.mozilla.org/mozilla-central/annotate/74d7fb43bb44/dom/ipc/TabChild.cpp#l944 // 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._progressListener.watch(docShell); } this._notifyDocShellsUpdate([docShell]); }); }, _onDocShellDestroy(docShell) { let webProgress = docShell.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); this._notifyDocShellDestroy(webProgress); }, _isRootDocShell(docShell) { // Should report as root docshell: // - New top level window's docshells, when using ChromeActor 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; }, // Convert docShell list to windows objects list being sent to the client _docShellsToWindows(docshells) { return docshells.map(docShell => { let webProgress = docShell.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebProgress); let window = webProgress.DOMWindow; let id = window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .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. if (window.parent && window != this._originalWindow) { parentID = window.parent .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .outerWindowID; } // Collect the addonID from the document origin attributes. let addonID = window.document.nodePrincipal.originAttributes.addonId; return { id, parentID, addonID, url: window.location.href, title: window.document.title, }; }); }, _notifyDocShellsUpdate(docshells) { let windows = this._docShellsToWindows(docshells); // Do not send the `frameUpdate` event if the windows array is empty. if (windows.length == 0) { return; } this.conn.send({ from: this.actorID, type: "frameUpdate", frames: windows }); }, _updateChildDocShells() { this._notifyDocShellsUpdate(this.docShells); }, _notifyDocShellDestroy(webProgress) { webProgress = webProgress.QueryInterface(Ci.nsIWebProgress); let id = webProgress.DOMWindow .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .outerWindowID; this.conn.send({ from: this.actorID, type: "frameUpdate", frames: [{ id, destroy: true }] }); // Stop watching this docshell (the unwatch() method will check if we // started watching it before). webProgress.QueryInterface(Ci.nsIDocShell); this._progressListener.unwatch(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 let rootDocShells = this.docShells .filter(d => { return d != this.docShell && this._isRootDocShell(d); }); if (rootDocShells.length > 0) { let 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 tab actor to unregister all listeners and prevent any // exception this.exit(); } return; } // If the currently targeted context 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); } }, _notifyDocShellDestroyAll() { this.conn.send({ from: this.actorID, type: "frameUpdate", destroyAll: true }); }, /** * Creates a thread actor and a pool for context-lifetime actors. It then sets * up the content window for debugging. */ _pushContext() { assert(!this._contextPool, "Can't push multiple contexts"); this._contextPool = new ActorPool(this.conn); this.conn.addActorPool(this._contextPool); this.threadActor = new ThreadActor(this, this.window); this._contextPool.addActor(this.threadActor); }, /** * Exits the current thread actor and removes the context-lifetime actor pool. * The content window is no longer being debugged after this call. */ _popContext() { assert(!!this._contextPool, "No context to pop."); this.conn.removeActorPool(this._contextPool); this._contextPool = null; this.threadActor.exit(); this.threadActor = null; this._sources = null; }, /** * Does the actual work of detaching from a tab. * * @returns false if the tab wasn't attached or true of detaching succeeds. */ _detach() { if (!this.attached) { return false; } // Check for docShell availability, as it can be already gone // during Firefox shutdown. if (this.docShell) { this._progressListener.unwatch(this.docShell); this._restoreDocumentSettings(); } if (this._progressListener) { this._progressListener.destroy(); this._progressListener = null; this._originalWindow = null; // Removes the observers being set in _watchDocShells if (this.listenForNewDocShells) { Services.obs.removeObserver(this, "webnavigation-create"); } Services.obs.removeObserver(this, "webnavigation-destroy"); } this._popContext(); // Shut down actors that belong to this tab's pool. for (let sheetActor of this._styleSheetActors.values()) { this._tabPool.removeActor(sheetActor); } this._styleSheetActors.clear(); this.conn.removeActorPool(this._tabPool); this._tabPool = null; if (this._tabActorPool) { this.conn.removeActorPool(this._tabActorPool); this._tabActorPool = null; } // Make sure that no more workerListChanged notifications are sent. if (this._workerActorList !== null) { this._workerActorList.onListChanged = null; this._workerActorList = null; } if (this._workerActorPool !== null) { this.conn.removeActorPool(this._workerActorPool); this._workerActorPool = null; } this._attached = false; this.conn.send({ from: this.actorID, type: "tabDetached" }); return true; }, // Protocol Request Handlers onAttach(request) { if (this.exited) { return { type: "exited" }; } this._attach(); return { type: "tabAttached", threadActor: this.threadActor.actorID, cacheDisabled: this._getCacheDisabled(), javascriptEnabled: this._getJavascriptEnabled(), traits: this.traits, }; }, onDetach(request) { if (!this._detach()) { return { error: "wrongState" }; } return { type: "detached" }; }, /** * Bring the tab's window to front. */ onFocus() { if (this.window) { this.window.focus(); } return {}; }, /** * Reload the page in this tab. */ onReload(request) { let force = request && request.options && request.options.force; // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. Services.tm.currentThread.dispatch(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); }, "TabActor.prototype.onReload's delayed body"), 0); return {}; }, /** * Navigate this tab to a new location */ onNavigateTo(request) { // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. Services.tm.currentThread.dispatch(DevToolsUtils.makeInfallible(() => { this.window.location = request.url; }, "TabActor.prototype.onNavigateTo's delayed body"), 0); return {}; }, /** * Reconfigure options. */ onReconfigure(request) { let options = request.options || {}; if (!this.docShell) { // The tab is already closed. return {}; } this._toggleDevToolsSettings(options); return {}; }, /** * Handle logic to enable/disable JS/cache/Service Worker testing. */ _toggleDevToolsSettings(options) { // Wait a tick so that the response packet can be dispatched before the // subsequent navigation event packet. let reload = false; if (typeof options.javascriptEnabled !== "undefined" && options.javascriptEnabled !== this._getJavascriptEnabled()) { this._setJavascriptEnabled(options.javascriptEnabled); reload = true; } if (typeof options.cacheDisabled !== "undefined" && options.cacheDisabled !== this._getCacheDisabled()) { this._setCacheDisabled(options.cacheDisabled); } if ((typeof options.serviceWorkersTestingEnabled !== "undefined") && (options.serviceWorkersTestingEnabled !== this._getServiceWorkersTestingEnabled())) { this._setServiceWorkersTestingEnabled( options.serviceWorkersTestingEnabled ); } // Reload if: // - there's an explicit `performReload` flag and it's true // - there's no `performReload` flag, but it makes sense to do so let hasExplicitReloadFlag = "performReload" in options; if ((hasExplicitReloadFlag && options.performReload) || (!hasExplicitReloadFlag && reload)) { this.onReload(); } }, /** * Opposite of the _toggleDevToolsSettings method, that reset document state * when closing the toolbox. */ _restoreDocumentSettings() { this._restoreJavascript(); this._setCacheDisabled(false); this._setServiceWorkersTestingEnabled(false); }, /** * Disable or enable the cache via docShell. */ _setCacheDisabled(disabled) { let enable = Ci.nsIRequest.LOAD_NORMAL; let disable = Ci.nsIRequest.LOAD_BYPASS_CACHE | Ci.nsIRequest.INHIBIT_CACHING; this.docShell.defaultLoadFlags = disabled ? disable : enable; }, /** * Disable or enable JS via docShell. */ _wasJavascriptEnabled: null, _setJavascriptEnabled(allow) { if (this._wasJavascriptEnabled === null) { this._wasJavascriptEnabled = this.docShell.allowJavascript; } this.docShell.allowJavascript = allow; }, /** * Restore JS state, before the actor modified it. */ _restoreJavascript() { if (this._wasJavascriptEnabled !== null) { this._setJavascriptEnabled(this._wasJavascriptEnabled); this._wasJavascriptEnabled = null; } }, /** * Return JS allowed status. */ _getJavascriptEnabled() { if (!this.docShell) { // The tab is already closed. return null; } return this.docShell.allowJavascript; }, /** * Disable or enable the service workers testing features. */ _setServiceWorkersTestingEnabled(enabled) { let windowUtils = this.window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils); windowUtils.serviceWorkersTestingEnabled = enabled; }, /** * Return cache allowed status. */ _getCacheDisabled() { if (!this.docShell) { // The tab is already closed. return null; } let disable = Ci.nsIRequest.LOAD_BYPASS_CACHE | Ci.nsIRequest.INHIBIT_CACHING; return this.docShell.defaultLoadFlags === disable; }, /** * Return service workers testing allowed status. */ _getServiceWorkersTestingEnabled() { if (!this.docShell) { // The tab is already closed. return null; } let windowUtils = this.window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils); return windowUtils.serviceWorkersTestingEnabled; }, /** * Prepare to enter a nested event loop by disabling debuggee events. */ preNest() { if (!this.window) { // The tab is already closed. return; } let windowUtils = this.window .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils); windowUtils.suppressEventHandling(true); windowUtils.suspendTimeouts(); }, /** * Prepare to exit a nested event loop by enabling debuggee events. */ postNest(nestData) { if (!this.window) { // The tab is already closed. return; } let windowUtils = this.window .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils); windowUtils.resumeTimeouts(); windowUtils.suppressEventHandling(false); }, _changeTopLevelDocument(window) { // Fake a will-navigate on the previous document // to let a chance to unregister it this._willNavigate(this.window, window.location.href, null, true); this._windowDestroyed(this.window, null, 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(() => { // Then fake window-ready and navigate on the given document this._windowReady(window, true); DevToolsUtils.executeSoon(() => { this._navigate(window, true); }); }); }, _setWindow(window) { let docShell = window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocShell); // Here is the very important call where we switch the currently // targeted context (it will indirectly update this.window and // many other attributes defined from docShell). Object.defineProperty(this, "docShell", { value: docShell, enumerable: true, configurable: true }); events.emit(this, "changed-toplevel-document"); this.conn.send({ from: this.actorID, type: "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 = false) { let 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(); } events.emit(this, "window-ready", { window: window, isTopLevel: isTopLevel, id: getWindowID(window) }); // TODO bug 997119: move that code to ThreadActor by listening to // window-ready let threadActor = this.threadActor; if (isTopLevel && threadActor.state != "detached") { this.sources.reset({ sourceMaps: true }); threadActor.clearDebuggees(); threadActor.dbg.enabled = true; threadActor.maybePauseOnExceptions(); // Update the global no matter if the debugger is on or off, // otherwise the global will be wrong when enabled later. threadActor.global = window; } // Refresh the debuggee list when a new window object appears (top window or // iframe). if (threadActor.attached) { threadActor.dbg.addDebuggees(); } }, _windowDestroyed(window, id = null, isFrozen = false) { events.emit(this, "window-destroyed", { window: window, isTopLevel: window == this.window, id: id || getWindowID(window), isFrozen: isFrozen }); }, /** * Start notifying server and client about a new document * being loaded in the currently targeted context. */ _willNavigate(window, newURI, request, isFrameSwitching = false) { let isTopLevel = window == this.window; let reset = false; if (window == this._originalWindow && !isFrameSwitching) { // Clear the iframe list if the original top-level document changes. this._notifyDocShellDestroyAll(); // 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. events.emit(this, "will-navigate", { window: window, isTopLevel: isTopLevel, newURI: newURI, request: request }); // We don't do anything for inner frames in TabActor. // (we will only update thread actor on window-ready) if (!isTopLevel) { return; } // Proceed normally only if the debuggee is not paused. // TODO bug 997119: move that code to ThreadActor by listening to // will-navigate let threadActor = this.threadActor; if (threadActor.state == "paused") { this.conn.send( threadActor.unsafeSynchronize(Promise.resolve(threadActor.onResume()))); threadActor.dbg.enabled = false; } threadActor.disableAllBreakpoints(); this.conn.send({ from: this.actorID, type: "tabNavigated", url: newURI, nativeConsoleAPI: true, state: "start", isFrameSwitching: isFrameSwitching }); if (reset) { this._setWindow(this._originalWindow); } }, /** * Notify server and client about a new document done loading in the current * targeted context. */ _navigate(window, isFrameSwitching = false) { let 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'. events.emit(this, "navigate", { window: window, isTopLevel: isTopLevel }); // We don't do anything for inner frames in TabActor. // (we will only update thread actor on window-ready) if (!isTopLevel) { return; } // TODO bug 997119: move that code to ThreadActor by listening to navigate let threadActor = this.threadActor; if (threadActor.state == "running") { threadActor.dbg.enabled = true; } this.conn.send({ from: this.actorID, type: "tabNavigated", url: this.url, title: this.title, nativeConsoleAPI: this.hasNativeConsoleAPI(this.window), state: "stop", isFrameSwitching: isFrameSwitching }); }, /** * Tells if the window.console object is native or overwritten by script in * the page. * * @param nsIDOMWindow window * The window object you want to check. * @return boolean * True if the window.console object is native, or false otherwise. */ hasNativeConsoleAPI(window) { let isNative = false; try { // We are very explicitly examining the "console" property of // the non-Xrayed object here. let console = window.wrappedJSObject.console; isNative = new XPCNativeWrapper(console).IS_NATIVE_CONSOLE; } catch (ex) { // ignore } return isNative; }, /** * Create or return the StyleSheetActor for a style sheet. This method * is here because the Style Editor and Inspector share style sheet actors. * * @param DOMStyleSheet styleSheet * The style sheet to create an actor for. * @return StyleSheetActor actor * The actor for this style sheet. * */ createStyleSheetActor(styleSheet) { if (this._styleSheetActors.has(styleSheet)) { return this._styleSheetActors.get(styleSheet); } let actor = new StyleSheetActor(styleSheet, this); this._styleSheetActors.set(styleSheet, actor); this._tabPool.addActor(actor); events.emit(this, "stylesheet-added", actor); return actor; }, removeActorByName(name) { if (name in this._extraActors) { const actor = this._extraActors[name]; if (this._tabActorPool.has(actor)) { this._tabActorPool.removeActor(actor); } delete this._extraActors[name]; } }, /** * Takes a packet containing a url, line and column and returns * the updated url, line and column based on the current source mapping * (source mapped files, pretty prints). * * @param {String} request.url * @param {Number} request.line * @param {Number?} request.column * @return {Promise} */ onResolveLocation(request) { let { url, line } = request; let column = request.column || 0; const scripts = this.threadActor.dbg.findScripts({ url }); if (!scripts[0] || !scripts[0].source) { return promise.resolve({ from: this.actorID, type: "resolveLocation", error: "SOURCE_NOT_FOUND" }); } const source = scripts[0].source; const generatedActor = this.sources.createNonSourceMappedActor(source); let generatedLocation = new GeneratedLocation( generatedActor, line, column); return this.sources.getOriginalLocation(generatedLocation).then(loc => { // If no map found, return this packet if (loc.originalLine == null) { return { type: "resolveLocation", error: "MAP_NOT_FOUND" }; } loc = loc.toJSON(); return { from: this.actorID, url: loc.source.url, column: loc.column, line: loc.line }; }); }, }; /** * The request types this actor can handle. */ TabActor.prototype.requestTypes = { "attach": TabActor.prototype.onAttach, "detach": TabActor.prototype.onDetach, "focus": TabActor.prototype.onFocus, "reload": TabActor.prototype.onReload, "navigateTo": TabActor.prototype.onNavigateTo, "reconfigure": TabActor.prototype.onReconfigure, "switchToFrame": TabActor.prototype.onSwitchToFrame, "listFrames": TabActor.prototype.onListFrames, "listWorkers": TabActor.prototype.onListWorkers, "resolveLocation": TabActor.prototype.onResolveLocation }; exports.TabActor = TabActor; /** * Creates a tab actor for handling requests to a single browser frame. * Both and