/* 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"; const SOURCE_MAP_WORKER = "resource://devtools/client/shared/source-map/worker.js"; const MAX_ORDINAL = 99; const SPLITCONSOLE_ENABLED_PREF = "devtools.toolbox.splitconsoleEnabled"; const SPLITCONSOLE_HEIGHT_PREF = "devtools.toolbox.splitconsoleHeight"; const DISABLE_AUTOHIDE_PREF = "ui.popup.disable_autohide"; const HOST_HISTOGRAM = "DEVTOOLS_TOOLBOX_HOST"; const SCREENSIZE_HISTOGRAM = "DEVTOOLS_SCREEN_RESOLUTION_ENUMERATED_PER_USER"; const HTML_NS = "http://www.w3.org/1999/xhtml"; var {Ci, Cu, Cc} = require("chrome"); var promise = require("promise"); var defer = require("devtools/shared/defer"); var Services = require("Services"); var {Task} = require("devtools/shared/task"); var {gDevTools} = require("devtools/client/framework/devtools"); var EventEmitter = require("devtools/shared/event-emitter"); var Telemetry = require("devtools/client/shared/telemetry"); var { attachThread, detachThread } = require("./attach-thread"); var Menu = require("devtools/client/framework/menu"); var MenuItem = require("devtools/client/framework/menu-item"); var { DOMHelpers } = require("resource://devtools/client/shared/DOMHelpers.jsm"); const { KeyCodes } = require("devtools/client/shared/keycodes"); var Startup = Cc["@mozilla.org/devtools/startup-clh;1"].getService(Ci.nsISupports) .wrappedJSObject; const { BrowserLoader } = Cu.import("resource://devtools/client/shared/browser-loader.js", {}); const {LocalizationHelper} = require("devtools/shared/l10n"); const L10N = new LocalizationHelper("devtools/client/locales/toolbox.properties"); loader.lazyRequireGetter(this, "getHighlighterUtils", "devtools/client/framework/toolbox-highlighter-utils", true); loader.lazyRequireGetter(this, "Selection", "devtools/client/framework/selection", true); loader.lazyRequireGetter(this, "InspectorFront", "devtools/shared/fronts/inspector", true); loader.lazyRequireGetter(this, "flags", "devtools/shared/flags"); loader.lazyRequireGetter(this, "showDoorhanger", "devtools/client/shared/doorhanger", true); loader.lazyRequireGetter(this, "createPerformanceFront", "devtools/shared/fronts/performance", true); loader.lazyRequireGetter(this, "system", "devtools/shared/system"); loader.lazyRequireGetter(this, "getPreferenceFront", "devtools/shared/fronts/preference", true); loader.lazyRequireGetter(this, "KeyShortcuts", "devtools/client/shared/key-shortcuts"); loader.lazyRequireGetter(this, "ZoomKeys", "devtools/client/shared/zoom-keys"); loader.lazyRequireGetter(this, "settleAll", "devtools/shared/ThreadSafeDevToolsUtils", true); loader.lazyRequireGetter(this, "ToolboxButtons", "devtools/client/definitions", true); loader.lazyRequireGetter(this, "SourceMapURLService", "devtools/client/framework/source-map-url-service", true); loader.lazyRequireGetter(this, "HUDService", "devtools/client/webconsole/hudservice"); loader.lazyRequireGetter(this, "viewSource", "devtools/client/shared/view-source"); loader.lazyGetter(this, "domNodeConstants", () => { return require("devtools/shared/dom-node-constants"); }); loader.lazyGetter(this, "registerHarOverlay", () => { return require("devtools/client/netmonitor/src/har/toolbox-overlay").register; }); /** * A "Toolbox" is the component that holds all the tools for one specific * target. Visually, it's a document that includes the tools tabs and all * the iframes where the tool panels will be living in. * * @param {object} target * The object the toolbox is debugging. * @param {string} selectedTool * Tool to select initially * @param {Toolbox.HostType} hostType * Type of host that will host the toolbox (e.g. sidebar, window) * @param {DOMWindow} contentWindow * The window object of the toolbox document * @param {string} frameId * A unique identifier to differentiate toolbox documents from the * chrome codebase when passing DOM messages */ function Toolbox(target, selectedTool, hostType, contentWindow, frameId) { this._target = target; this._win = contentWindow; this.frameId = frameId; this._toolPanels = new Map(); this._telemetry = new Telemetry(); this._initInspector = null; this._inspector = null; // Map of frames (id => frame-info) and currently selected frame id. this.frameMap = new Map(); this.selectedFrameId = null; this._toolRegistered = this._toolRegistered.bind(this); this._toolUnregistered = this._toolUnregistered.bind(this); this._refreshHostTitle = this._refreshHostTitle.bind(this); this._toggleNoAutohide = this._toggleNoAutohide.bind(this); this.showFramesMenu = this.showFramesMenu.bind(this); this._updateFrames = this._updateFrames.bind(this); this._splitConsoleOnKeypress = this._splitConsoleOnKeypress.bind(this); this.destroy = this.destroy.bind(this); this.highlighterUtils = getHighlighterUtils(this); this._highlighterReady = this._highlighterReady.bind(this); this._highlighterHidden = this._highlighterHidden.bind(this); this._applyCacheSettings = this._applyCacheSettings.bind(this); this._applyServiceWorkersTestingSettings = this._applyServiceWorkersTestingSettings.bind(this); this._saveSplitConsoleHeight = this._saveSplitConsoleHeight.bind(this); this._onFocus = this._onFocus.bind(this); this._onBrowserMessage = this._onBrowserMessage.bind(this); this._showDevEditionPromo = this._showDevEditionPromo.bind(this); this._updateTextBoxMenuItems = this._updateTextBoxMenuItems.bind(this); this._onBottomHostMinimized = this._onBottomHostMinimized.bind(this); this._onBottomHostMaximized = this._onBottomHostMaximized.bind(this); this._onToolSelectWhileMinimized = this._onToolSelectWhileMinimized.bind(this); this._onPerformanceFrontEvent = this._onPerformanceFrontEvent.bind(this); this._onBottomHostWillChange = this._onBottomHostWillChange.bind(this); this._toggleMinimizeMode = this._toggleMinimizeMode.bind(this); this._onToolbarFocus = this._onToolbarFocus.bind(this); this._onToolbarArrowKeypress = this._onToolbarArrowKeypress.bind(this); this._onPickerClick = this._onPickerClick.bind(this); this._onPickerKeypress = this._onPickerKeypress.bind(this); this._onPickerStarted = this._onPickerStarted.bind(this); this._onPickerStopped = this._onPickerStopped.bind(this); this._onInspectObject = this._onInspectObject.bind(this); this._onNewSelectedNodeFront = this._onNewSelectedNodeFront.bind(this); this.selectTool = this.selectTool.bind(this); this._target.on("close", this.destroy); if (!selectedTool) { selectedTool = Services.prefs.getCharPref(this._prefs.LAST_TOOL); } this._defaultToolId = selectedTool; this._hostType = hostType; this._isOpenDeferred = defer(); this.isOpen = this._isOpenDeferred.promise; EventEmitter.decorate(this); this._target.on("navigate", this._refreshHostTitle); this._target.on("frame-update", this._updateFrames); this._target.on("inspect-object", this._onInspectObject); this.on("host-changed", this._refreshHostTitle); this.on("select", this._refreshHostTitle); this.on("ready", this._showDevEditionPromo); gDevTools.on("tool-registered", this._toolRegistered); gDevTools.on("tool-unregistered", this._toolUnregistered); this.on("picker-started", this._onPickerStarted); this.on("picker-stopped", this._onPickerStopped); } exports.Toolbox = Toolbox; /** * The toolbox can be 'hosted' either embedded in a browser window * or in a separate window. */ Toolbox.HostType = { BOTTOM: "bottom", SIDE: "side", WINDOW: "window", CUSTOM: "custom" }; Toolbox.prototype = { _URL: "about:devtools-toolbox", _prefs: { LAST_TOOL: "devtools.toolbox.selectedTool", SIDE_ENABLED: "devtools.toolbox.sideEnabled", }, get currentToolId() { return this._currentToolId; }, set currentToolId(id) { this._currentToolId = id; this.component.setCurrentToolId(id); }, get panelDefinitions() { return this._panelDefinitions; }, set panelDefinitions(definitions) { this._panelDefinitions = definitions; this._combineAndSortPanelDefinitions(); }, get visibleAdditionalTools() { if (!this._visibleAdditionalTools) { this._visibleAdditionalTools = []; } return this._visibleAdditionalTools; }, set visibleAdditionalTools(tools) { this._visibleAdditionalTools = tools; if (this.isReady) { this._combineAndSortPanelDefinitions(); } }, /** * Combines the built-in panel definitions and the additional tool definitions that * can be set by add-ons. */ _combineAndSortPanelDefinitions() { const definitions = [...this._panelDefinitions, ...this.getVisibleAdditionalTools()]; definitions.sort(definition => { return -1 * (definition.ordinal == undefined || definition.ordinal < 0 ? MAX_ORDINAL : definition.ordinal ); }); this.component.setPanelDefinitions(definitions); }, lastUsedToolId: null, /** * Returns a *copy* of the _toolPanels collection. * * @return {Map} panels * All the running panels in the toolbox */ getToolPanels: function () { return new Map(this._toolPanels); }, /** * Access the panel for a given tool */ getPanel: function (id) { return this._toolPanels.get(id); }, /** * Get the panel instance for a given tool once it is ready. * If the tool is already opened, the promise will resolve immediately, * otherwise it will wait until the tool has been opened before resolving. * * Note that this does not open the tool, use selectTool if you'd * like to select the tool right away. * * @param {String} id * The id of the panel, for example "jsdebugger". * @returns Promise * A promise that resolves once the panel is ready. */ getPanelWhenReady: function (id) { let deferred = defer(); let panel = this.getPanel(id); if (panel) { deferred.resolve(panel); } else { this.on(id + "-ready", (e, initializedPanel) => { deferred.resolve(initializedPanel); }); } return deferred.promise; }, /** * This is a shortcut for getPanel(currentToolId) because it is much more * likely that we're going to want to get the panel that we've just made * visible */ getCurrentPanel: function () { return this._toolPanels.get(this.currentToolId); }, /** * Get/alter the target of a Toolbox so we're debugging something different. * See Target.jsm for more details. * TODO: Do we allow |toolbox.target = null;| ? */ get target() { return this._target; }, get threadClient() { return this._threadClient; }, /** * Get/alter the host of a Toolbox, i.e. is it in browser or in a separate * tab. See HostType for more details. */ get hostType() { return this._hostType; }, /** * Shortcut to the window containing the toolbox UI */ get win() { return this._win; }, /** * Shortcut to the document containing the toolbox UI */ get doc() { return this.win.document; }, /** * Get the toolbox highlighter front. Note that it may not always have been * initialized first. Use `initInspector()` if needed. * Consider using highlighterUtils instead, it exposes the highlighter API in * a useful way for the toolbox panels */ get highlighter() { return this._highlighter; }, /** * Get the toolbox's performance front. Note that it may not always have been * initialized first. Use `initPerformance()` if needed. */ get performance() { return this._performance; }, /** * Get the toolbox's inspector front. Note that it may not always have been * initialized first. Use `initInspector()` if needed. */ get inspector() { return this._inspector; }, /** * Get the toolbox's walker front. Note that it may not always have been * initialized first. Use `initInspector()` if needed. */ get walker() { return this._walker; }, /** * Get the toolbox's node selection. Note that it may not always have been * initialized first. Use `initInspector()` if needed. */ get selection() { return this._selection; }, /** * Get the toggled state of the split console */ get splitConsole() { return this._splitConsole; }, /** * Get the focused state of the split console */ isSplitConsoleFocused: function () { if (!this._splitConsole) { return false; } let focusedWin = Services.focus.focusedWindow; return focusedWin && focusedWin === this.doc.querySelector("#toolbox-panel-iframe-webconsole").contentWindow; }, /** * Open the toolbox */ open: function () { return Task.spawn(function* () { this.browserRequire = BrowserLoader({ window: this.doc.defaultView, useOnlyShared: true }).require; if (this.win.location.href.startsWith(this._URL)) { // Update the URL so that onceDOMReady watch for the right url. this._URL = this.win.location.href; } let domReady = defer(); let domHelper = new DOMHelpers(this.win); domHelper.onceDOMReady(() => { domReady.resolve(); }, this._URL); // Optimization: fire up a few other things before waiting on // the iframe being ready (makes startup faster) // Load the toolbox-level actor fronts and utilities now yield this._target.makeRemote(); // Start tracking network activity on toolbox open for targets such as tabs. // (Workers and potentially others don't manage the console client in the target.) if (this._target.activeConsole) { yield this._target.activeConsole.startListeners([ "NetworkActivity", ]); } // Attach the thread this._threadClient = yield attachThread(this); yield domReady.promise; this.isReady = true; let framesPromise = this._listFrames(); Services.prefs.addObserver("devtools.cache.disabled", this._applyCacheSettings); Services.prefs.addObserver("devtools.serviceWorkers.testing.enabled", this._applyServiceWorkersTestingSettings); this.textBoxContextMenuPopup = this.doc.getElementById("toolbox-textbox-context-popup"); this.textBoxContextMenuPopup.addEventListener("popupshowing", this._updateTextBoxMenuItems, true); this.shortcuts = new KeyShortcuts({ window: this.doc.defaultView }); // Get the DOM element to mount the ToolboxController to. this._componentMount = this.doc.getElementById("toolbox-toolbar-mount"); this._mountReactComponent(); this._buildDockButtons(); this._buildOptions(); this._buildTabs(); this._applyCacheSettings(); this._applyServiceWorkersTestingSettings(); this._addKeysToWindow(); this._addReloadKeys(); this._addHostListeners(); this._registerOverlays(); if (!this._hostOptions || this._hostOptions.zoom === true) { ZoomKeys.register(this.win); } this._componentMount.addEventListener("keypress", this._onToolbarArrowKeypress); this.webconsolePanel = this.doc.querySelector("#toolbox-panel-webconsole"); this.webconsolePanel.height = Services.prefs.getIntPref(SPLITCONSOLE_HEIGHT_PREF); this.webconsolePanel.addEventListener("resize", this._saveSplitConsoleHeight); let buttonsPromise = this._buildButtons(); this._pingTelemetry(); // The isTargetSupported check needs to happen after the target is // remoted, otherwise we could have done it in the toolbox constructor // (bug 1072764). let toolDef = gDevTools.getToolDefinition(this._defaultToolId); if (!toolDef || !toolDef.isTargetSupported(this._target)) { this._defaultToolId = "webconsole"; } // Start rendering the toolbox toolbar before selecting the tool, as the tools // can take a few hundred milliseconds seconds to start up. this.component.setCanRender(); yield this.selectTool(this._defaultToolId); // Wait until the original tool is selected so that the split // console input will receive focus. let splitConsolePromise = promise.resolve(); if (Services.prefs.getBoolPref(SPLITCONSOLE_ENABLED_PREF)) { splitConsolePromise = this.openSplitConsole(); } yield promise.all([ splitConsolePromise, buttonsPromise, framesPromise ]); // Lazily connect to the profiler here and don't wait for it to complete, // used to intercept console.profile calls before the performance tools are open. let performanceFrontConnection = this.initPerformance(); // If in testing environment, wait for performance connection to finish, // so we don't have to explicitly wait for this in tests; ideally, all tests // will handle this on their own, but each have their own tear down function. if (flags.testing) { yield performanceFrontConnection; } this.emit("ready"); this._isOpenDeferred.resolve(); }.bind(this)).catch(console.error.bind(console)); }, /** * loading React modules when needed (to avoid performance penalties * during Firefox start up time). */ get React() { return this.browserRequire("devtools/client/shared/vendor/react"); }, get ReactDOM() { return this.browserRequire("devtools/client/shared/vendor/react-dom"); }, get ReactRedux() { return this.browserRequire("devtools/client/shared/vendor/react-redux"); }, get ToolboxController() { return this.browserRequire("devtools/client/framework/components/toolbox-controller"); }, /** * Unconditionally create and get the source map service. */ _createSourceMapService: function () { if (this._sourceMapService) { return this._sourceMapService; } // Uses browser loader to access the `Worker` global. let service = this.browserRequire("devtools/client/shared/source-map/index"); // Provide a wrapper for the service that reports errors more nicely. this._sourceMapService = new Proxy(service, { get: (target, name) => { switch (name) { case "getOriginalURLs": return (urlInfo) => { return target.getOriginalURLs(urlInfo) .catch(text => { let message = L10N.getFormatStr("toolbox.sourceMapFailure", text, urlInfo.url, urlInfo.sourceMapURL); this.target.logErrorInPage(message, "source map"); // It's ok to swallow errors here, because a null // result just means that no source map was found. return null; }); }; case "getOriginalSourceText": return (originalSource) => { return target.getOriginalSourceText(originalSource) .catch(text => { let message = L10N.getFormatStr("toolbox.sourceMapSourceFailure", text, originalSource.url); this.target.logErrorInPage(message, "source map"); // Also replace the result with the error text. // Note that this result has to have the same form // as whatever the upstream getOriginalSourceText // returns. return { text: message, contentType: "text/plain", }; }); }; default: return target[name]; } }, }); this._sourceMapService.startSourceMapWorker(SOURCE_MAP_WORKER); return this._sourceMapService; }, /** * A common access point for the client-side mapping service for source maps that * any panel can use. This is a "low-level" API that connects to * the source map worker. */ get sourceMapService() { if (!Services.prefs.getBoolPref("devtools.source-map.client-service.enabled")) { return null; } return this._createSourceMapService(); }, /** * Clients wishing to use source maps but that want the toolbox to * track the source actor mapping can use this source map service. * This is a higher-level service than the one returned by * |sourceMapService|, in that it automatically tracks source actor * IDs. */ get sourceMapURLService() { if (this._sourceMapURLService) { return this._sourceMapURLService; } let sourceMaps = this._createSourceMapService(); this._sourceMapURLService = new SourceMapURLService(this._target, this.threadClient, sourceMaps); return this._sourceMapURLService; }, // Return HostType id for telemetry _getTelemetryHostId: function () { switch (this.hostType) { case Toolbox.HostType.BOTTOM: return 0; case Toolbox.HostType.SIDE: return 1; case Toolbox.HostType.WINDOW: return 2; case Toolbox.HostType.CUSTOM: return 3; default: return 9; } }, _pingTelemetry: function () { this._telemetry.toolOpened("toolbox"); this._telemetry.logOncePerBrowserVersion(SCREENSIZE_HISTOGRAM, system.getScreenDimensions()); this._telemetry.log(HOST_HISTOGRAM, this._getTelemetryHostId()); }, /** * Create a simple object to store the state of a toolbox button. The checked state of * a button can be updated arbitrarily outside of the scope of the toolbar and its * controllers. In order to simplify this interaction this object emits an * "updatechecked" event any time the isChecked value is updated, allowing any consuming * components to listen and respond to updates. * * @param {Object} options: * * @property {String} id - The id of the button or command. * @property {String} className - An optional additional className for the button. * @property {String} description - The value that will display as a tooltip and in * the options panel for enabling/disabling. * @property {Function} onClick - The function to run when the button is activated by * click or keyboard shortcut. First argument will be the 'click' * event, and second argument is the toolbox instance. * @property {Boolean} isInStartContainer - Buttons can either be placed at the start * of the toolbar, or at the end. * @property {Function} setup - Function run immediately to listen for events changing * whenever the button is checked or unchecked. The toolbox object * is passed as first argument and a callback is passed as second * argument, to be called whenever the checked state changes. * @property {Function} teardown - Function run on toolbox close to let a chance to * unregister listeners set when `setup` was called and avoid * memory leaks. The same arguments than `setup` function are * passed to `teardown`. * @property {Function} isTargetSupported - Function to automatically enable/disable * the button based on the target. If the target don't support * the button feature, this method should return false. * @property {Function} isChecked - Optional function called to known if the button * is toggled or not. The function should return true when * the button should be displayed as toggled on. */ _createButtonState: function (options) { let isCheckedValue = false; const { id, className, description, onClick, isInStartContainer, setup, teardown, isTargetSupported, isChecked } = options; const toolbox = this; const button = { id, className, description, onClick(event) { if (typeof onClick == "function") { onClick(event, toolbox); } }, isTargetSupported, get isChecked() { if (typeof isChecked == "function") { return isChecked(toolbox); } return isCheckedValue; }, set isChecked(value) { // Note that if options.isChecked is given, this is ignored isCheckedValue = value; this.emit("updatechecked"); }, // The preference for having this button visible. visibilityswitch: `devtools.${id}.enabled`, // The toolbar has a container at the start and end of the toolbar for // holding buttons. By default the buttons are placed in the end container. isInStartContainer: !!isInStartContainer }; if (typeof setup == "function") { let onChange = () => { button.emit("updatechecked"); }; setup(this, onChange); // Save a reference to the cleanup method that will unregister the onChange // callback. Immediately bind the function argument so that we don't have to // also save a reference to them. button.teardown = teardown.bind(options, this, onChange); } button.isVisible = this._commandIsVisible(button); EventEmitter.decorate(button); return button; }, _buildOptions: function () { let selectOptions = (name, event) => { // Flip back to the last used panel if we are already // on the options panel. if (this.currentToolId === "options" && gDevTools.getToolDefinition(this.lastUsedToolId)) { this.selectTool(this.lastUsedToolId); } else { this.selectTool("options"); } // Prevent the opening of bookmarks window on toolbox.options.key event.preventDefault(); }; this.shortcuts.on(L10N.getStr("toolbox.options.key"), selectOptions); this.shortcuts.on(L10N.getStr("toolbox.help.key"), selectOptions); }, _splitConsoleOnKeypress: function (e) { if (e.keyCode === KeyCodes.DOM_VK_ESCAPE) { this.toggleSplitConsole(); // If the debugger is paused, don't let the ESC key stop any pending // navigation. if (this._threadClient.state == "paused") { e.preventDefault(); } } }, /** * Add a shortcut key that should work when a split console * has focus to the toolbox. * * @param {String} key * The electron key shortcut. * @param {Function} handler * The callback that should be called when the provided key shortcut is pressed. * @param {String} whichTool * The tool the key belongs to. The corresponding handler will only be triggered * if this tool is active. */ useKeyWithSplitConsole: function (key, handler, whichTool) { this.shortcuts.on(key, (name, event) => { if (this.currentToolId === whichTool && this.isSplitConsoleFocused()) { handler(); event.preventDefault(); } }); }, _addReloadKeys: function () { [ ["reload", false], ["reload2", false], ["forceReload", true], ["forceReload2", true] ].forEach(([id, force]) => { let key = L10N.getStr("toolbox." + id + ".key"); this.shortcuts.on(key, (name, event) => { this.reloadTarget(force); // Prevent Firefox shortcuts from reloading the page event.preventDefault(); }); }); }, _addHostListeners: function () { this.shortcuts.on(L10N.getStr("toolbox.nextTool.key"), (name, event) => { this.selectNextTool(); event.preventDefault(); }); this.shortcuts.on(L10N.getStr("toolbox.previousTool.key"), (name, event) => { this.selectPreviousTool(); event.preventDefault(); }); this.shortcuts.on(L10N.getStr("toolbox.minimize.key"), (name, event) => { this._toggleMinimizeMode(); event.preventDefault(); }); this.shortcuts.on(L10N.getStr("toolbox.toggleHost.key"), (name, event) => { this.switchToPreviousHost(); event.preventDefault(); }); this.doc.addEventListener("keypress", this._splitConsoleOnKeypress); this.doc.addEventListener("focus", this._onFocus, true); this.win.addEventListener("unload", this.destroy); this.win.addEventListener("message", this._onBrowserMessage, true); }, _removeHostListeners: function () { // The host iframe's contentDocument may already be gone. if (this.doc) { this.doc.removeEventListener("keypress", this._splitConsoleOnKeypress); this.doc.removeEventListener("focus", this._onFocus, true); this.win.removeEventListener("unload", this.destroy); this.win.removeEventListener("message", this._onBrowserMessage, true); } }, // Called whenever the chrome send a message _onBrowserMessage: function (event) { if (!event.data) { return; } switch (event.data.name) { case "switched-host": this._onSwitchedHost(event.data); break; case "host-minimized": if (this.hostType == Toolbox.HostType.BOTTOM) { this._onBottomHostMinimized(); } break; case "host-maximized": if (this.hostType == Toolbox.HostType.BOTTOM) { this._onBottomHostMaximized(); } break; } }, _registerOverlays: function () { registerHarOverlay(this); }, _saveSplitConsoleHeight: function () { Services.prefs.setIntPref(SPLITCONSOLE_HEIGHT_PREF, this.webconsolePanel.height); }, /** * Make sure that the console is showing up properly based on all the * possible conditions. * 1) If the console tab is selected, then regardless of split state * it should take up the full height of the deck, and we should * hide the deck and splitter. * 2) If the console tab is not selected and it is split, then we should * show the splitter, deck, and console. * 3) If the console tab is not selected and it is *not* split, * then we should hide the console and splitter, and show the deck * at full height. */ _refreshConsoleDisplay: function () { let deck = this.doc.getElementById("toolbox-deck"); let webconsolePanel = this.webconsolePanel; let splitter = this.doc.getElementById("toolbox-console-splitter"); let openedConsolePanel = this.currentToolId === "webconsole"; if (openedConsolePanel) { deck.setAttribute("collapsed", "true"); splitter.setAttribute("hidden", "true"); webconsolePanel.removeAttribute("collapsed"); } else { deck.removeAttribute("collapsed"); if (this.splitConsole) { webconsolePanel.removeAttribute("collapsed"); splitter.removeAttribute("hidden"); } else { webconsolePanel.setAttribute("collapsed", "true"); splitter.setAttribute("hidden", "true"); } } }, /** * Adds the keys and commands to the Toolbox Window in window mode. */ _addKeysToWindow: function () { if (this.hostType != Toolbox.HostType.WINDOW) { return; } let doc = this.win.parent.document; for (let item of Startup.KeyShortcuts) { // KeyShortcuts contain tool-specific and global key shortcuts, // here we only need to copy shortcut specific to each tool. if (!item.toolId) { continue; } let { toolId, shortcut, modifiers } = item; let key = doc.createElement("key"); key.id = "key_" + toolId; if (shortcut.startsWith("VK_")) { key.setAttribute("keycode", shortcut); } else { key.setAttribute("key", shortcut); } key.setAttribute("modifiers", modifiers); // needed. See bug 371900 key.setAttribute("oncommand", "void(0);"); key.addEventListener("command", () => { this.selectTool(toolId).then(() => this.fireCustomKey(toolId)); }, true); doc.getElementById("toolbox-keyset").appendChild(key); } // Add key for toggling the browser console from the detached window if (!doc.getElementById("key_browserconsole")) { let key = doc.createElement("key"); key.id = "key_browserconsole"; key.setAttribute("key", L10N.getStr("browserConsoleCmd.commandkey")); key.setAttribute("modifiers", "accel,shift"); // needed. See bug 371900 key.setAttribute("oncommand", "void(0)"); key.addEventListener("command", () => { HUDService.toggleBrowserConsole(); }, true); doc.getElementById("toolbox-keyset").appendChild(key); } }, /** * Handle any custom key events. Returns true if there was a custom key * binding run. * @param {string} toolId Which tool to run the command on (skip if not * current) */ fireCustomKey: function (toolId) { let toolDefinition = gDevTools.getToolDefinition(toolId); if (toolDefinition.onkey && ((this.currentToolId === toolId) || (toolId == "webconsole" && this.splitConsole))) { toolDefinition.onkey(this.getCurrentPanel(), this); } }, /** * Build the notification box as soon as needed. */ get notificationBox() { if (!this._notificationBox) { let { NotificationBox, PriorityLevels } = this.browserRequire( "devtools/client/shared/components/notification-box"); NotificationBox = this.React.createFactory(NotificationBox); // Render NotificationBox and assign priority levels to it. let box = this.doc.getElementById("toolbox-notificationbox"); this._notificationBox = Object.assign( this.ReactDOM.render(NotificationBox({}), box), PriorityLevels); } return this._notificationBox; }, /** * Build the buttons for changing hosts. Called every time * the host changes. */ _buildDockButtons: function () { if (!this._target.isLocalTab) { this.component.setDockButtonsEnabled(false); return; } // Bottom-type host can be minimized, add a button for this. if (this.hostType == Toolbox.HostType.BOTTOM) { this.component.setCanMinimize(true); // Maximize again when a tool gets selected. this.on("before-select", this._onToolSelectWhileMinimized); // Maximize and stop listening before the host type changes. this.once("host-will-change", this._onBottomHostWillChange); } this.component.setDockButtonsEnabled(true); this.component.setCanCloseToolbox(this.hostType !== Toolbox.HostType.WINDOW); let sideEnabled = Services.prefs.getBoolPref(this._prefs.SIDE_ENABLED); let hostTypes = []; for (let type in Toolbox.HostType) { let position = Toolbox.HostType[type]; if (position == this.hostType || position == Toolbox.HostType.CUSTOM || (!sideEnabled && position == Toolbox.HostType.SIDE)) { continue; } hostTypes.push({ position, switchHost: this.switchHost.bind(this, position) }); } this.component.setHostTypes(hostTypes); }, _onBottomHostMinimized: function () { this.component.setMinimizeState("minimized"); }, _onBottomHostMaximized: function () { this.component.setMinimizeState("maximized"); }, _onToolSelectWhileMinimized: function () { this.postMessage({ name: "maximize-host" }); }, postMessage: function (msg) { // We sometime try to send messages in middle of destroy(), where the // toolbox iframe may already be detached and no longer have a parent. if (this.win.parent) { // Toolbox document is still chrome and disallow identifying message // origin via event.source as it is null. So use a custom id. msg.frameId = this.frameId; this.win.parent.postMessage(msg, "*"); } }, _onBottomHostWillChange: function () { this.postMessage({ name: "maximize-host" }); this.off("before-select", this._onToolSelectWhileMinimized); }, _toggleMinimizeMode: function () { if (this.hostType !== Toolbox.HostType.BOTTOM) { return; } // Calculate the height to which the host should be minimized so the // tabbar is still visible. let toolbarHeight = this._componentMount.getBoxQuads({box: "content"})[0].bounds .height; this.postMessage({ name: "toggle-minimize-mode", toolbarHeight }); }, /** * Initiate ToolboxTabs React component and all it's properties. Do the initial render. */ _buildTabs: function () { // Get the initial list of tab definitions. This list can be amended at a later time // by tools registering themselves. const definitions = gDevTools.getToolDefinitionArray(); definitions.forEach(definition => this._buildPanelForTool(definition)); // Get the definitions that will only affect the main tab area. this.panelDefinitions = definitions.filter(definition => definition.isTargetSupported(this._target) && definition.id !== "options"); this.optionsDefinition = definitions.find(({id}) => id === "options"); // The options tool is treated slightly differently, and is in a different area. this.component.setOptionsPanel(definitions.find(({id}) => id === "options")); }, _mountReactComponent: function () { // Ensure the toolbar doesn't try to render until the tool is ready. const element = this.React.createElement(this.ToolboxController, { L10N, currentToolId: this.currentToolId, selectTool: this.selectTool, closeToolbox: this.destroy, focusButton: this._onToolbarFocus, toggleMinimizeMode: this._toggleMinimizeMode, toolbox: this }); this.component = this.ReactDOM.render(element, this._componentMount); }, /** * Reset tabindex attributes across all focusable elements inside the toolbar. * Only have one element with tabindex=0 at a time to make sure that tabbing * results in navigating away from the toolbar container. * @param {FocusEvent} event */ _onToolbarFocus: function (id) { this.component.setFocusedButton(id); }, /** * On left/right arrow press, attempt to move the focus inside the toolbar to * the previous/next focusable element. This is not in the React component * as it is difficult to coordinate between different component elements. * The components are responsible for setting the correct tabindex value * for if they are the focused element. * @param {KeyboardEvent} event */ _onToolbarArrowKeypress: function (event) { let { key, target, ctrlKey, shiftKey, altKey, metaKey } = event; // If any of the modifier keys are pressed do not attempt navigation as it // might conflict with global shortcuts (Bug 1327972). if (ctrlKey || shiftKey || altKey || metaKey) { return; } let buttons = [...this._componentMount.querySelectorAll("button")]; let curIndex = buttons.indexOf(target); if (curIndex === -1) { console.warn(target + " is not found among Developer Tools tab bar " + "focusable elements."); return; } let newTarget; if (key === "ArrowLeft") { // Do nothing if already at the beginning. if (curIndex === 0) { return; } newTarget = buttons[curIndex - 1]; } else if (key === "ArrowRight") { // Do nothing if already at the end. if (curIndex === buttons.length - 1) { return; } newTarget = buttons[curIndex + 1]; } else { return; } newTarget.focus(); event.preventDefault(); event.stopPropagation(); }, /** * Add buttons to the UI as specified in devtools/client/definitions.js */ _buildButtons: Task.async(function* () { // Beyond the normal preference filtering this.toolbarButtons = [ this._buildPickerButton(), this._buildFrameButton(), yield this._buildNoAutoHideButton() ]; ToolboxButtons.forEach(definition => { let button = this._createButtonState(definition); this.toolbarButtons.push(button); }); this.component.setToolboxButtons(this.toolbarButtons); }), /** * Button to select a frame for the inspector to target. */ _buildFrameButton() { this.frameButton = this._createButtonState({ id: "command-button-frames", description: L10N.getStr("toolbox.frames.tooltip"), onClick: this.showFramesMenu, isTargetSupported: target => { return target.activeTab && target.activeTab.traits.frames; } }); return this.frameButton; }, /** * Button that disables/enables auto-hiding XUL pop-ups. When enabled, XUL * pop-ups will not automatically close when they lose focus. */ _buildNoAutoHideButton: Task.async(function* () { this.autohideButton = this._createButtonState({ id: "command-button-noautohide", description: L10N.getStr("toolbox.noautohide.tooltip"), onClick: this._toggleNoAutohide, isTargetSupported: target => target.chrome }); this._isDisableAutohideEnabled().then(enabled => { this.autohideButton.isChecked = enabled; }); return this.autohideButton; }), /** * Toggle the picker, but also decide whether or not the highlighter should * focus the window. This is only desirable when the toolbox is mounted to the * window. When devtools is free floating, then the target window should not * pop in front of the viewer when the picker is clicked. */ _onPickerClick: function () { let focus = this.hostType === Toolbox.HostType.BOTTOM || this.hostType === Toolbox.HostType.SIDE; this.highlighterUtils.togglePicker(focus); }, /** * If the picker is activated, then allow the Escape key to deactivate the * functionality instead of the default behavior of toggling the console. */ _onPickerKeypress: function (event) { if (event.keyCode === KeyCodes.DOM_VK_ESCAPE) { this.highlighterUtils.cancelPicker(); // Stop the console from toggling. event.stopImmediatePropagation(); } }, _onPickerStarted: function () { this.doc.addEventListener("keypress", this._onPickerKeypress, true); }, _onPickerStopped: function () { this.doc.removeEventListener("keypress", this._onPickerKeypress, true); }, /** * The element picker button enables the ability to select a DOM node by clicking * it on the page. */ _buildPickerButton() { this.pickerButton = this._createButtonState({ id: "command-button-pick", description: L10N.getStr("pickButton.tooltip"), onClick: this._onPickerClick, isInStartContainer: true, isTargetSupported: target => { return target.activeTab && target.activeTab.traits.frames; } }); return this.pickerButton; }, /** * Apply the current cache setting from devtools.cache.disabled to this * toolbox's tab. */ _applyCacheSettings: function () { let pref = "devtools.cache.disabled"; let cacheDisabled = Services.prefs.getBoolPref(pref); if (this.target.activeTab) { this.target.activeTab.reconfigure({"cacheDisabled": cacheDisabled}); } }, /** * Apply the current service workers testing setting from * devtools.serviceWorkers.testing.enabled to this toolbox's tab. */ _applyServiceWorkersTestingSettings: function () { let pref = "devtools.serviceWorkers.testing.enabled"; let serviceWorkersTestingEnabled = Services.prefs.getBoolPref(pref) || false; if (this.target.activeTab) { this.target.activeTab.reconfigure({ "serviceWorkersTestingEnabled": serviceWorkersTestingEnabled }); } }, /** * Return all toolbox buttons (command buttons, plus any others that were * added manually). /** * Update the visibility of the buttons. */ updateToolboxButtonsVisibility() { this.toolbarButtons.forEach(button => { button.isVisible = this._commandIsVisible(button); }); this.component.setToolboxButtons(this.toolbarButtons); }, /** * Ensure the visibility of each toolbox button matches the preference value. */ _commandIsVisible: function (button) { const { isTargetSupported, visibilityswitch } = button; let visible = Services.prefs.getBoolPref(visibilityswitch, true); if (isTargetSupported) { return visible && isTargetSupported(this.target); } return visible; }, /** * Build a panel for a tool definition. * * @param {string} toolDefinition * Tool definition of the tool to build a tab for. */ _buildPanelForTool: function (toolDefinition) { if (!toolDefinition.isTargetSupported(this._target)) { return; } let deck = this.doc.getElementById("toolbox-deck"); let id = toolDefinition.id; if (toolDefinition.ordinal == undefined || toolDefinition.ordinal < 0) { toolDefinition.ordinal = MAX_ORDINAL; } if (!toolDefinition.bgTheme) { toolDefinition.bgTheme = "theme-toolbar"; } let panel = this.doc.createElement("vbox"); panel.className = "toolbox-panel " + toolDefinition.bgTheme; // There is already a container for the webconsole frame. if (!this.doc.getElementById("toolbox-panel-" + id)) { panel.id = "toolbox-panel-" + id; } deck.appendChild(panel); this._addKeysToWindow(); }, /** * Lazily created map of the additional tools registered to this toolbox. * * @returns {Map} * a map of the tools definitions registered to this * particular toolbox (the key is the toolId string, the value * is the tool definition plain javascript object). */ get additionalToolDefinitions() { if (!this._additionalToolDefinitions) { this._additionalToolDefinitions = new Map(); } return this._additionalToolDefinitions; }, /** * Retrieve the array of the additional tools registered to this toolbox. * * @return {Array} * the array of additional tool definitions registered on this toolbox. */ getAdditionalTools() { if (this._additionalToolDefinitions) { return Array.from(this.additionalToolDefinitions.values()); } return []; }, /** * Get the additional tools that have been registered and are visible. * * @return {Array} * the array of additional tool definitions registered on this toolbox. */ getVisibleAdditionalTools() { return this.visibleAdditionalTools .map(toolId => this.additionalToolDefinitions.get(toolId)); }, /** * Test the existence of a additional tools registered to this toolbox by tool id. * * @param {string} toolId * the id of the tool to test for existence. * * @return {boolean} * */ hasAdditionalTool(toolId) { return this.additionalToolDefinitions.has(toolId); }, /** * Register and load an additional tool on this particular toolbox. * * @param {object} definition * the additional tool definition to register and add to this toolbox. */ addAdditionalTool(definition) { if (!definition.id) { throw new Error("Tool definition id is missing"); } if (this.isToolRegistered(definition.id)) { throw new Error("Tool definition already registered: " + definition.id); } this.additionalToolDefinitions.set(definition.id, definition); this.visibleAdditionalTools = [...this.visibleAdditionalTools, definition.id]; const buildPanel = () => this._buildPanelForTool(definition); if (this.isReady) { buildPanel(); } else { this.once("ready", buildPanel); } }, /** * Unregister and unload an additional tool from this particular toolbox. * * @param {string} toolId * the id of the additional tool to unregister and remove. */ removeAdditionalTool(toolId) { if (!this.hasAdditionalTool(toolId)) { throw new Error("Tool definition not registered to this toolbox: " + toolId); } this.additionalToolDefinitions.delete(toolId); this.visibleAdditionalTools = this.visibleAdditionalTools .filter(id => id !== toolId); this.unloadTool(toolId); }, /** * Ensure the tool with the given id is loaded. * * @param {string} id * The id of the tool to load. */ loadTool: function (id) { if (id === "inspector" && !this._inspector) { return this.initInspector().then(() => { return this.loadTool(id); }); } let deferred = defer(); let iframe = this.doc.getElementById("toolbox-panel-iframe-" + id); if (iframe) { let panel = this._toolPanels.get(id); if (panel) { deferred.resolve(panel); } else { this.once(id + "-ready", initializedPanel => { deferred.resolve(initializedPanel); }); } return deferred.promise; } // Retrieve the tool definition (from the global or the per-toolbox tool maps) let definition = this.getToolDefinition(id); if (!definition) { deferred.reject(new Error("no such tool id " + id)); return deferred.promise; } iframe = this.doc.createElement("iframe"); iframe.className = "toolbox-panel-iframe"; iframe.id = "toolbox-panel-iframe-" + id; iframe.setAttribute("flex", 1); iframe.setAttribute("forceOwnRefreshDriver", ""); iframe.tooltip = "aHTMLTooltip"; iframe.style.visibility = "hidden"; gDevTools.emit(id + "-init", this, iframe); this.emit(id + "-init", iframe); // If no parent yet, append the frame into default location. if (!iframe.parentNode) { let vbox = this.doc.getElementById("toolbox-panel-" + id); vbox.appendChild(iframe); vbox.visibility = "visible"; } let onLoad = () => { // Prevent flicker while loading by waiting to make visible until now. iframe.style.visibility = "visible"; // Try to set the dir attribute as early as possible. this.setIframeDocumentDir(iframe); // The build method should return a panel instance, so events can // be fired with the panel as an argument. However, in order to keep // backward compatibility with existing extensions do a check // for a promise return value. let built = definition.build(iframe.contentWindow, this); if (!(typeof built.then == "function")) { let panel = built; iframe.panel = panel; // The panel instance is expected to fire (and listen to) various // framework events, so make sure it's properly decorated with // appropriate API (on, off, once, emit). // In this case we decorate panel instances directly returned by // the tool definition 'build' method. if (typeof panel.emit == "undefined") { EventEmitter.decorate(panel); } gDevTools.emit(id + "-build", this, panel); this.emit(id + "-build", panel); // The panel can implement an 'open' method for asynchronous // initialization sequence. if (typeof panel.open == "function") { built = panel.open(); } else { let buildDeferred = defer(); buildDeferred.resolve(panel); built = buildDeferred.promise; } } // Wait till the panel is fully ready and fire 'ready' events. promise.resolve(built).then((panel) => { this._toolPanels.set(id, panel); // Make sure to decorate panel object with event API also in case // where the tool definition 'build' method returns only a promise // and the actual panel instance is available as soon as the // promise is resolved. if (typeof panel.emit == "undefined") { EventEmitter.decorate(panel); } gDevTools.emit(id + "-ready", this, panel); this.emit(id + "-ready", panel); deferred.resolve(panel); }, console.error); }; iframe.setAttribute("src", definition.url); if (definition.panelLabel) { iframe.setAttribute("aria-label", definition.panelLabel); } // Depending on the host, iframe.contentWindow is not always // defined at this moment. If it is not defined, we use an // event listener on the iframe DOM node. If it's defined, // we use the chromeEventHandler. We can't use a listener // on the DOM node every time because this won't work // if the (xul chrome) iframe is loaded in a content docshell. if (iframe.contentWindow) { let domHelper = new DOMHelpers(iframe.contentWindow); domHelper.onceDOMReady(onLoad); } else { let callback = () => { iframe.removeEventListener("DOMContentLoaded", callback); onLoad(); }; iframe.addEventListener("DOMContentLoaded", callback); } return deferred.promise; }, /** * Set the dir attribute on the content document element of the provided iframe. * * @param {IFrameElement} iframe */ setIframeDocumentDir: function (iframe) { let docEl = iframe.contentWindow && iframe.contentWindow.document.documentElement; if (!docEl || docEl.namespaceURI !== HTML_NS) { // Bail out if the content window or document is not ready or if the document is not // HTML. return; } if (docEl.hasAttribute("dir")) { // Set the dir attribute value only if dir is already present on the document. let top = this.win.top; let topDocEl = top.document.documentElement; let isRtl = top.getComputedStyle(topDocEl).direction === "rtl"; docEl.setAttribute("dir", isRtl ? "rtl" : "ltr"); } }, /** * Mark all in collection as unselected; and id as selected * @param {string} collection * DOM collection of items * @param {string} id * The Id of the item within the collection to select */ selectSingleNode: function (collection, id) { [...collection].forEach(node => { if (node.id === id) { node.setAttribute("selected", "true"); node.setAttribute("aria-selected", "true"); } else { node.removeAttribute("selected"); node.removeAttribute("aria-selected"); } }); }, /** * Switch to the tool with the given id * * @param {string} id * The id of the tool to switch to */ selectTool: function (id) { this.emit("before-select", id); if (this.currentToolId == id) { let panel = this._toolPanels.get(id); if (panel) { // We have a panel instance, so the tool is already fully loaded. // re-focus tool to get key events again this.focusTool(id); // Return the existing panel in order to have a consistent return value. return promise.resolve(panel); } // Otherwise, if there is no panel instance, it is still loading, // so we are racing another call to selectTool with the same id. return this.once("select").then(() => promise.resolve(this._toolPanels.get(id))); } if (!this.isReady) { throw new Error("Can't select tool, wait for toolbox 'ready' event"); } // Check if the tool exists. if (this.panelDefinitions.find((definition) => definition.id === id) || id === "options" || this.additionalToolDefinitions.get(id)) { if (this.currentToolId) { this._telemetry.toolClosed(this.currentToolId); } this._telemetry.toolOpened(id); } else { throw new Error("No tool found"); } // and select the right iframe let toolboxPanels = this.doc.querySelectorAll(".toolbox-panel"); this.selectSingleNode(toolboxPanels, "toolbox-panel-" + id); this.lastUsedToolId = this.currentToolId; this.currentToolId = id; this._refreshConsoleDisplay(); if (id != "options") { Services.prefs.setCharPref(this._prefs.LAST_TOOL, id); } return this.loadTool(id).then(panel => { // focus the tool's frame to start receiving key events this.focusTool(id); this.emit("select", id); this.emit(id + "-selected", panel); return panel; }); }, /** * Focus a tool's panel by id * @param {string} id * The id of tool to focus */ focusTool: function (id, state = true) { let iframe = this.doc.getElementById("toolbox-panel-iframe-" + id); if (state) { iframe.focus(); } else { iframe.blur(); } }, /** * Focus split console's input line */ focusConsoleInput: function () { let consolePanel = this.getPanel("webconsole"); if (consolePanel) { consolePanel.focusInput(); } }, /** * If the console is split and we are focusing an element outside * of the console, then store the newly focused element, so that * it can be restored once the split console closes. */ _onFocus: function ({originalTarget}) { // Ignore any non element nodes, or any elements contained // within the webconsole frame. let webconsoleURL = gDevTools.getToolDefinition("webconsole").url; if (originalTarget.nodeType !== 1 || originalTarget.baseURI === webconsoleURL) { return; } this._lastFocusedElement = originalTarget; }, /** * Opens the split console. * * @returns {Promise} a promise that resolves once the tool has been * loaded and focused. */ openSplitConsole: function () { this._splitConsole = true; Services.prefs.setBoolPref(SPLITCONSOLE_ENABLED_PREF, true); this._refreshConsoleDisplay(); return this.loadTool("webconsole").then(() => { this.emit("split-console"); this.focusConsoleInput(); }); }, /** * Closes the split console. * * @returns {Promise} a promise that resolves once the tool has been * closed. */ closeSplitConsole: function () { this._splitConsole = false; Services.prefs.setBoolPref(SPLITCONSOLE_ENABLED_PREF, false); this._refreshConsoleDisplay(); this.emit("split-console"); if (this._lastFocusedElement) { this._lastFocusedElement.focus(); } return promise.resolve(); }, /** * Toggles the split state of the webconsole. If the webconsole panel * is already selected then this command is ignored. * * @returns {Promise} a promise that resolves once the tool has been * opened or closed. */ toggleSplitConsole: function () { if (this.currentToolId !== "webconsole") { return this.splitConsole ? this.closeSplitConsole() : this.openSplitConsole(); } return promise.resolve(); }, /** * Tells the target tab to reload. */ reloadTarget: function (force) { this.target.activeTab.reload({ force: force }); }, /** * Loads the tool next to the currently selected tool. */ selectNextTool: function () { const index = this.panelDefinitions.findIndex(({id}) => id === this.currentToolId); let definition = this.panelDefinitions[index + 1]; if (!definition) { definition = index === -1 ? this.panelDefinitions[0] : this.optionsDefinition; } return this.selectTool(definition.id); }, /** * Loads the tool just left to the currently selected tool. */ selectPreviousTool: function () { const index = this.panelDefinitions.findIndex(({id}) => id === this.currentToolId); let definition = this.panelDefinitions[index - 1]; if (!definition) { definition = index === -1 ? this.panelDefinitions[this.panelDefinitions.length - 1] : this.optionsDefinition; } return this.selectTool(definition.id); }, /** * Highlights the tool's tab if it is not the currently selected tool. * * @param {string} id * The id of the tool to highlight */ highlightTool: Task.async(function* (id) { if (!this.component) { yield this.isOpen; } this.component.highlightTool(id); }), /** * De-highlights the tool's tab. * * @param {string} id * The id of the tool to unhighlight */ unhighlightTool: Task.async(function* (id) { if (!this.component) { yield this.isOpen; } this.component.unhighlightTool(id); }), /** * Raise the toolbox host. */ raise: function () { this.postMessage({ name: "raise-host" }); }, /** * Refresh the host's title. */ _refreshHostTitle: function () { let title; if (this.target.name && this.target.name != this.target.url) { const url = this.target.isWebExtension ? this.target.getExtensionPathName(this.target.url) : this.target.url; title = L10N.getFormatStr("toolbox.titleTemplate2", this.target.name, url); } else { title = L10N.getFormatStr("toolbox.titleTemplate1", this.target.url); } this.postMessage({ name: "set-host-title", title }); }, // Returns an instance of the preference actor get preferenceFront() { if (this._preferenceFront) { return Promise.resolve(this._preferenceFront); } return this.isOpen.then(() => { return this.target.root.then(rootForm => { let front = getPreferenceFront(this.target.client, rootForm); this._preferenceFront = front; return front; }); }); }, _toggleNoAutohide: Task.async(function* () { let front = yield this.preferenceFront; let toggledValue = !(yield this._isDisableAutohideEnabled()); front.setBoolPref(DISABLE_AUTOHIDE_PREF, toggledValue); this.autohideButton.isChecked = toggledValue; }), _isDisableAutohideEnabled: Task.async(function* () { // Ensure that the tools are open, and the button is visible. yield this.isOpen; if (!this.autohideButton.isVisible) { return false; } let prefFront = yield this.preferenceFront; return yield prefFront.getBoolPref(DISABLE_AUTOHIDE_PREF); }), _listFrames: function (event) { if (!this._target.activeTab || !this._target.activeTab.traits.frames) { // We are not targetting a regular TabActor // it can be either an addon or browser toolbox actor return promise.resolve(); } let packet = { to: this._target.form.actor, type: "listFrames" }; return this._target.client.request(packet, resp => { this._updateFrames(null, { frames: resp.frames }); }); }, /** * Show a drop down menu that allows the user to switch frames. */ showFramesMenu: function (event) { let menu = new Menu(); let target = event.target; // Generate list of menu items from the list of frames. this.frameMap.forEach(frame => { // A frame is checked if it's the selected one. let checked = frame.id == this.selectedFrameId; let label = frame.url; if (this.target.isWebExtension) { // Show a shorter url for extensions page. label = this.target.getExtensionPathName(frame.url); } // Create menu item. menu.append(new MenuItem({ label, type: "radio", checked, click: () => { this.onSelectFrame(frame.id); } })); }); menu.once("open").then(() => { this.frameButton.isChecked = true; }); menu.once("close").then(() => { this.frameButton.isChecked = false; }); // Show a drop down menu with frames. // XXX Missing menu API for specifying target (anchor) // and relative position to it. See also: // https://developer.mozilla.org/en-US/docs/Mozilla/Tech/XUL/Method/openPopup // https://bugzilla.mozilla.org/show_bug.cgi?id=1274551 let rect = target.getBoundingClientRect(); let screenX = target.ownerDocument.defaultView.mozInnerScreenX; let screenY = target.ownerDocument.defaultView.mozInnerScreenY; menu.popup(rect.left + screenX, rect.bottom + screenY, this); return menu; }, /** * Select a frame by sending 'switchToFrame' packet to the backend. */ onSelectFrame: function (frameId) { // Send packet to the backend to select specified frame and // wait for 'frameUpdate' event packet to update the UI. let packet = { to: this._target.form.actor, type: "switchToFrame", windowId: frameId }; this._target.client.request(packet); }, /** * A handler for 'frameUpdate' packets received from the backend. * Following properties might be set on the packet: * * destroyAll {Boolean}: All frames have been destroyed. * selected {Number}: A frame has been selected * frames {Array}: list of frames. Every frame can have: * id {Number}: frame ID * url {String}: frame URL * title {String}: frame title * destroy {Boolean}: Set to true if destroyed * parentID {Number}: ID of the parent frame (not set * for top level window) */ _updateFrames: function (event, data) { if (!Services.prefs.getBoolPref("devtools.command-button-frames.enabled")) { return; } // We may receive this event before the toolbox is ready. if (!this.isReady) { return; } // Store (synchronize) data about all existing frames on the backend if (data.destroyAll) { this.frameMap.clear(); this.selectedFrameId = null; } else if (data.selected) { this.selectedFrameId = data.selected; } else if (data.frames) { data.frames.forEach(frame => { if (frame.destroy) { this.frameMap.delete(frame.id); // Reset the currently selected frame if it's destroyed. if (this.selectedFrameId == frame.id) { this.selectedFrameId = null; } } else { this.frameMap.set(frame.id, frame); } }); } // If there is no selected frame select the first top level // frame by default. Note that there might be more top level // frames in case of the BrowserToolbox. if (!this.selectedFrameId) { let frames = [...this.frameMap.values()]; let topFrames = frames.filter(frame => !frame.parentID); this.selectedFrameId = topFrames.length ? topFrames[0].id : null; } // Check out whether top frame is currently selected. // Note that only child frame has parentID. let frame = this.frameMap.get(this.selectedFrameId); let topFrameSelected = frame ? !frame.parentID : false; this._framesButtonChecked = false; // If non-top level frame is selected the toolbar button is // marked as 'checked' indicating that a child frame is active. if (!topFrameSelected && this.selectedFrameId) { this._framesButtonChecked = false; } }, /** * Switch to the last used host for the toolbox UI. */ switchToPreviousHost: function () { return this.switchHost("previous"); }, /** * Switch to a new host for the toolbox UI. E.g. bottom, sidebar, window, * and focus the window when done. * * @param {string} hostType * The host type of the new host object */ switchHost: function (hostType) { if (hostType == this.hostType || !this._target.isLocalTab) { return null; } this.emit("host-will-change", hostType); // ToolboxHostManager is going to call swapFrameLoaders which mess up with // focus. We have to blur before calling it in order to be able to restore // the focus after, in _onSwitchedHost. this.focusTool(this.currentToolId, false); // Host code on the chrome side will send back a message once the host // switched this.postMessage({ name: "switch-host", hostType }); return this.once("host-changed"); }, _onSwitchedHost: function ({ hostType }) { this._hostType = hostType; this._buildDockButtons(); this._addKeysToWindow(); // We blurred the tools at start of switchHost, but also when clicking on // host switching button. We now have to restore the focus. this.focusTool(this.currentToolId, true); this.emit("host-changed"); this._telemetry.log(HOST_HISTOGRAM, this._getTelemetryHostId()); }, /** * Test the availability of a tool (both globally registered tools and * additional tools registered to this toolbox) by tool id. * * @param {string} toolId * Id of the tool definition to search in the per-toolbox or globally * registered tools. * * @returns {bool} * Returns true if the tool is registered globally or on this toolbox. */ isToolRegistered: function (toolId) { return !!this.getToolDefinition(toolId); }, /** * Return the tool definition registered globally or additional tools registered * to this toolbox. * * @param {string} toolId * Id of the tool definition to retrieve for the per-toolbox and globally * registered tools. * * @returns {object} * The plain javascript object that represents the requested tool definition. */ getToolDefinition: function (toolId) { return gDevTools.getToolDefinition(toolId) || this.additionalToolDefinitions.get(toolId); }, /** * Internal helper that removes a loaded tool from the toolbox, * it removes a loaded tool panel and tab from the toolbox without removing * its definition, so that it can still be listed in options and re-added later. * * @param {string} toolId * Id of the tool to be removed. */ unloadTool: function (toolId) { if (typeof toolId != "string") { throw new Error("Unexpected non-string toolId received."); } if (this._toolPanels.has(toolId)) { let instance = this._toolPanels.get(toolId); instance.destroy(); this._toolPanels.delete(toolId); } let panel = this.doc.getElementById("toolbox-panel-" + toolId); // Select another tool. if (this.currentToolId == toolId) { let index = this.panelDefinitions.findIndex(({id}) => id === toolId); let nextTool = this.panelDefinitions[index + 1]; let previousTool = this.panelDefinitions[index - 1]; let toolNameToSelect; if (nextTool) { toolNameToSelect = nextTool.id; } if (previousTool) { toolNameToSelect = previousTool.id; } if (toolNameToSelect) { this.selectTool(toolNameToSelect); } } // Remove this tool from the current panel definitions. this.panelDefinitions = this.panelDefinitions.filter(({id}) => id !== toolId); this.visibleAdditionalTools = this.visibleAdditionalTools .filter(id => id !== toolId); this._combineAndSortPanelDefinitions(); if (panel) { panel.remove(); } if (this.hostType == Toolbox.HostType.WINDOW) { let doc = this.win.parent.document; let key = doc.getElementById("key_" + toolId); if (key) { key.remove(); } } }, /** * Handler for the tool-registered event. * @param {string} event * Name of the event ("tool-registered") * @param {string} toolId * Id of the tool that was registered */ _toolRegistered: function (event, toolId) { // Tools can either be in the global devtools, or added to this specific toolbox // as an additional tool. let definition = gDevTools.getToolDefinition(toolId); let isAdditionalTool = false; if (!definition) { definition = this.additionalToolDefinitions.get(toolId); isAdditionalTool = true; } if (definition.isTargetSupported(this._target)) { if (isAdditionalTool) { this.visibleAdditionalTools = [...this.visibleAdditionalTools, toolId]; this._combineAndSortPanelDefinitions(); } else { this.panelDefinitions = this.panelDefinitions.concat(definition); } this._buildPanelForTool(definition); // Emit the event so tools can listen to it from the toolbox level // instead of gDevTools. this.emit("tool-registered", toolId); } }, /** * Handler for the tool-unregistered event. * @param {string} event * Name of the event ("tool-unregistered") * @param {string} toolId * id of the tool that was unregistered */ _toolUnregistered: function (event, toolId) { this.unloadTool(toolId); // Emit the event so tools can listen to it from the toolbox level // instead of gDevTools this.emit("tool-unregistered", toolId); }, /** * Initialize the inspector/walker/selection/highlighter fronts. * Returns a promise that resolves when the fronts are initialized */ initInspector: function () { if (!this._initInspector) { this._initInspector = Task.spawn(function* () { this._inspector = InspectorFront(this._target.client, this._target.form); let pref = "devtools.inspector.showAllAnonymousContent"; let showAllAnonymousContent = Services.prefs.getBoolPref(pref); this._walker = yield this._inspector.getWalker({ showAllAnonymousContent }); this._selection = new Selection(this._walker); this._selection.on("new-node-front", this._onNewSelectedNodeFront); if (this.highlighterUtils.isRemoteHighlightable()) { this.walker.on("highlighter-ready", this._highlighterReady); this.walker.on("highlighter-hide", this._highlighterHidden); let autohide = !flags.testing; this._highlighter = yield this._inspector.getHighlighter(autohide); } }.bind(this)); } return this._initInspector; }, _onNewSelectedNodeFront: function (evt) { // Emit a "selection-changed" event when the toolbox.selection has been set // to a new node (or cleared). Currently used in the WebExtensions APIs (to // provide the `devtools.panels.elements.onSelectionChanged` event). this.emit("selection-changed"); }, _onInspectObject: function (evt, packet) { this.inspectObjectActor(packet.objectActor, packet.inspectFromAnnotation); }, inspectObjectActor: async function (objectActor, inspectFromAnnotation) { if (objectActor.preview && objectActor.preview.nodeType === domNodeConstants.ELEMENT_NODE) { // Open the inspector and select the DOM Element. await this.loadTool("inspector"); const inspector = await this.getPanel("inspector"); const nodeFound = await inspector.inspectNodeActor(objectActor.actor, inspectFromAnnotation); if (nodeFound) { await this.selectTool("inspector"); } } else if (objectActor.type !== "null" && objectActor.type !== "undefined") { // Open then split console and inspect the object in the variables view, // when the objectActor doesn't represent an undefined or null value. await this.openSplitConsole(); const panel = this.getPanel("webconsole"); const jsterm = panel.hud.jsterm; jsterm.inspectObjectActor(objectActor); } }, /** * Destroy the inspector/walker/selection fronts * Returns a promise that resolves when the fronts are destroyed */ destroyInspector: function () { if (this._destroyingInspector) { return this._destroyingInspector; } this._destroyingInspector = Task.spawn(function* () { if (!this._inspector) { return; } // Ensure that the inspector isn't still being initiated, otherwise race conditions // in the initialization process can throw errors. yield this._initInspector; // Releasing the walker (if it has been created) // This can fail, but in any case, we want to continue destroying the // inspector/highlighter/selection // FF42+: Inspector actor starts managing Walker actor and auto destroy it. if (this._walker && !this.walker.traits.autoReleased) { try { yield this._walker.release(); } catch (e) { // Do nothing; } } yield this.highlighterUtils.stopPicker(); yield this._inspector.destroy(); if (this._highlighter) { // Note that if the toolbox is closed, this will work fine, but will fail // in case the browser is closed and will trigger a noSuchActor message. // We ignore the promise that |_hideBoxModel| returns, since we should still // proceed with the rest of destruction if it fails. // FF42+ now does the cleanup from the actor. if (!this.highlighter.traits.autoHideOnDestroy) { this.highlighterUtils.unhighlight(); } yield this._highlighter.destroy(); } if (this._selection) { this._selection.off("new-node-front", this._onNewSelectedNodeFront); this._selection.destroy(); } if (this.walker) { this.walker.off("highlighter-ready", this._highlighterReady); this.walker.off("highlighter-hide", this._highlighterHidden); } this._inspector = null; this._highlighter = null; this._selection = null; this._walker = null; }.bind(this)); return this._destroyingInspector; }, /** * Get the toolbox's notification component * * @return The notification box component. */ getNotificationBox: function () { return this.notificationBox; }, /** * Remove all UI elements, detach from target and clear up */ destroy: function () { // If several things call destroy then we give them all the same // destruction promise so we're sure to destroy only once if (this._destroyer) { return this._destroyer; } let deferred = defer(); this._destroyer = deferred.promise; this.emit("destroy"); this._target.off("inspect-object", this._onInspectObject); this._target.off("navigate", this._refreshHostTitle); this._target.off("frame-update", this._updateFrames); this.off("select", this._refreshHostTitle); this.off("host-changed", this._refreshHostTitle); this.off("ready", this._showDevEditionPromo); gDevTools.off("tool-registered", this._toolRegistered); gDevTools.off("tool-unregistered", this._toolUnregistered); Services.prefs.removeObserver("devtools.cache.disabled", this._applyCacheSettings); Services.prefs.removeObserver("devtools.serviceWorkers.testing.enabled", this._applyServiceWorkersTestingSettings); this._lastFocusedElement = null; if (this._sourceMapURLService) { this._sourceMapURLService.destroy(); this._sourceMapURLService = null; } if (this._sourceMapService) { this._sourceMapService.stopSourceMapWorker(); this._sourceMapService = null; } if (this.webconsolePanel) { this._saveSplitConsoleHeight(); this.webconsolePanel.removeEventListener("resize", this._saveSplitConsoleHeight); this.webconsolePanel = null; } if (this.textBoxContextMenuPopup) { this.textBoxContextMenuPopup.removeEventListener("popupshowing", this._updateTextBoxMenuItems, true); this.textBoxContextMenuPopup = null; } if (this._componentMount) { this._componentMount.removeEventListener("keypress", this._onToolbarArrowKeypress); this.ReactDOM.unmountComponentAtNode(this._componentMount); this._componentMount = null; } let outstanding = []; for (let [id, panel] of this._toolPanels) { try { gDevTools.emit(id + "-destroy", this, panel); this.emit(id + "-destroy", panel); outstanding.push(panel.destroy()); } catch (e) { // We don't want to stop here if any panel fail to close. console.error("Panel " + id + ":", e); } } this.browserRequire = null; // Now that we are closing the toolbox we can re-enable the cache settings // and disable the service workers testing settings for the current tab. // FF41+ automatically cleans up state in actor on disconnect. if (this.target.activeTab && !this.target.activeTab.traits.noTabReconfigureOnClose) { this.target.activeTab.reconfigure({ "cacheDisabled": false, "serviceWorkersTestingEnabled": false }); } // Destroying the walker and inspector fronts outstanding.push(this.destroyInspector()); // Destroy the profiler connection outstanding.push(this.destroyPerformance()); // Destroy the preference front outstanding.push(this.destroyPreference()); // Detach the thread detachThread(this._threadClient); this._threadClient = null; // Unregister buttons listeners this.toolbarButtons.forEach(button => { if (typeof button.teardown == "function") { // teardown arguments have already been bound in _createButtonState button.teardown(); } }); // We need to grab a reference to win before this._host is destroyed. let win = this.win; this._telemetry.toolClosed("toolbox"); this._telemetry.destroy(); // Finish all outstanding tasks (which means finish destroying panels and // then destroying the host, successfully or not) before destroying the // target. deferred.resolve(settleAll(outstanding) .catch(console.error) .then(() => { this._removeHostListeners(); // `location` may already be 'invalid' if the toolbox document is // already in process of destruction. Otherwise if it is still // around, ensure releasing toolbox document and triggering cleanup // thanks to unload event. We do that precisely here, before // nullifying the target as various cleanup code depends on the // target attribute to be still // defined. try { win.location.replace("about:blank"); } catch (e) { // Do nothing; } // Targets need to be notified that the toolbox is being torn down. // This is done after other destruction tasks since it may tear down // fronts and the debugger transport which earlier destroy methods may // require to complete. if (!this._target) { return null; } let target = this._target; this._target = null; this.highlighterUtils.release(); target.off("close", this.destroy); return target.destroy(); }, console.error).then(() => { this.emit("destroyed"); // Free _host after the call to destroyed in order to let a chance // to destroyed listeners to still query toolbox attributes this._host = null; this._win = null; this._toolPanels.clear(); // Force GC to prevent long GC pauses when running tests and to free up // memory in general when the toolbox is closed. if (flags.testing) { win.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils) .garbageCollect(); } }).catch(console.error)); let leakCheckObserver = ({wrappedJSObject: barrier}) => { // Make the leak detector wait until this toolbox is properly destroyed. barrier.client.addBlocker("DevTools: Wait until toolbox is destroyed", this._destroyer); }; let topic = "shutdown-leaks-before-check"; Services.obs.addObserver(leakCheckObserver, topic); this._destroyer.then(() => { Services.obs.removeObserver(leakCheckObserver, topic); }); return this._destroyer; }, _highlighterReady: function () { this.emit("highlighter-ready"); }, _highlighterHidden: function () { this.emit("highlighter-hide"); }, /** * For displaying the promotional Doorhanger on first opening of * the developer tools, promoting the Developer Edition. */ _showDevEditionPromo: function () { // Do not display in browser toolbox if (this.target.chrome) { return; } showDoorhanger({ window: this.win, type: "deveditionpromo" }); }, /** * Enable / disable necessary textbox menu items using globalOverlay.js. */ _updateTextBoxMenuItems: function () { let window = this.win; ["cmd_undo", "cmd_delete", "cmd_cut", "cmd_copy", "cmd_paste", "cmd_selectAll"].forEach(window.goUpdateCommand); }, /** * Open the textbox context menu at given coordinates. * Panels in the toolbox can call this on contextmenu events with event.screenX/Y * instead of having to implement their own copy/paste/selectAll menu. * @param {Number} x * @param {Number} y */ openTextBoxContextMenu: function (x, y) { this.textBoxContextMenuPopup.openPopupAtScreen(x, y, true); }, /** * Connects to the Gecko Profiler when the developer tools are open. This is * necessary because of the WebConsole's `profile` and `profileEnd` methods. */ initPerformance: Task.async(function* () { // If target does not have profiler actor (addons), do not // even register the shared performance connection. if (!this.target.hasActor("profiler")) { return promise.resolve(); } if (this._performanceFrontConnection) { return this._performanceFrontConnection.promise; } this._performanceFrontConnection = defer(); this._performance = createPerformanceFront(this._target); yield this.performance.connect(); // Emit an event when connected, but don't wait on startup for this. this.emit("profiler-connected"); this.performance.on("*", this._onPerformanceFrontEvent); this._performanceFrontConnection.resolve(this.performance); return this._performanceFrontConnection.promise; }), /** * Disconnects the underlying Performance actor. If the connection * has not finished initializing, as opening a toolbox does not wait, * the performance connection destroy method will wait for it on its own. */ destroyPerformance: Task.async(function* () { if (!this.performance) { return; } // If still connecting to performance actor, allow the // actor to resolve its connection before attempting to destroy. if (this._performanceFrontConnection) { yield this._performanceFrontConnection.promise; } this.performance.off("*", this._onPerformanceFrontEvent); yield this.performance.destroy(); this._performance = null; }), /** * Destroy the preferences actor when the toolbox is unloaded. */ destroyPreference: Task.async(function* () { if (!this._preferenceFront) { return; } this._preferenceFront.destroy(); this._preferenceFront = null; }), /** * Called when any event comes from the PerformanceFront. If the performance tool is * already loaded when the first event comes in, immediately unbind this handler, as * this is only used to queue up observed recordings before the performance tool can * handle them, which will only occur when `console.profile()` recordings are started * before the tool loads. */ _onPerformanceFrontEvent: Task.async(function* (eventName, recording) { if (this.getPanel("performance")) { this.performance.off("*", this._onPerformanceFrontEvent); return; } this._performanceQueuedRecordings = this._performanceQueuedRecordings || []; let recordings = this._performanceQueuedRecordings; // Before any console recordings, we'll get a `console-profile-start` event // warning us that a recording will come later (via `recording-started`), so // start to boot up the tool and populate the tool with any other recordings // observed during that time. if (eventName === "console-profile-start" && !this._performanceToolOpenedViaConsole) { this._performanceToolOpenedViaConsole = this.loadTool("performance"); let panel = yield this._performanceToolOpenedViaConsole; yield panel.open(); panel.panelWin.PerformanceController.populateWithRecordings(recordings); this.performance.off("*", this._onPerformanceFrontEvent); } // Otherwise, if it's a recording-started event, we've already started loading // the tool, so just store this recording in our array to be later populated // once the tool loads. if (eventName === "recording-started") { recordings.push(recording); } }), /** * Returns gViewSourceUtils for viewing source. */ get gViewSourceUtils() { return this.win.gViewSourceUtils; }, /** * Opens source in style editor. Falls back to plain "view-source:". * @see devtools/client/shared/source-utils.js */ viewSourceInStyleEditor: function (sourceURL, sourceLine) { return viewSource.viewSourceInStyleEditor(this, sourceURL, sourceLine); }, /** * Opens source in debugger. Falls back to plain "view-source:". * @see devtools/client/shared/source-utils.js */ viewSourceInDebugger: function (sourceURL, sourceLine) { return viewSource.viewSourceInDebugger(this, sourceURL, sourceLine); }, /** * Opens source in scratchpad. Falls back to plain "view-source:". * TODO The `sourceURL` for scratchpad instances are like `Scratchpad/1`. * If instances are scoped one-per-browser-window, then we should be able * to infer the URL from this toolbox, or use the built in scratchpad IN * the toolbox. * * @see devtools/client/shared/source-utils.js */ viewSourceInScratchpad: function (sourceURL, sourceLine) { return viewSource.viewSourceInScratchpad(sourceURL, sourceLine); }, /** * Opens source in plain "view-source:". * @see devtools/client/shared/source-utils.js */ viewSource: function (sourceURL, sourceLine) { return viewSource.viewSource(this, sourceURL, sourceLine); }, };