/* Any copyright is dedicated to the Public Domain. * http://creativecommons.org/publicdomain/zero/1.0/ */ /* eslint no-unused-vars: [2, {"vars": "local"}] */ /* import-globals-from ../../inspector/test/shared-head.js */ "use strict"; // This shared-head.js file is used by most mochitests // and we start using it in xpcshell tests as well. // It contains various common helper functions. const isMochitest = "gTestPath" in this; const isXpcshell = !isMochitest; if (isXpcshell) { // gTestPath isn't exposed to xpcshell tests // _TEST_FILE is an array for a unique string /* global _TEST_FILE */ this.gTestPath = _TEST_FILE[0]; } const { Constructor: CC } = Components; // Print allocation count if DEBUG_DEVTOOLS_ALLOCATIONS is set to "normal", // and allocation sites if DEBUG_DEVTOOLS_ALLOCATIONS is set to "verbose". const DEBUG_ALLOCATIONS = Services.env.get("DEBUG_DEVTOOLS_ALLOCATIONS"); if (DEBUG_ALLOCATIONS) { // Use a custom loader with `invisibleToDebugger` flag for the allocation tracker // as it instantiates custom Debugger API instances and has to be running in a distinct // compartments from DevTools and system scopes (JSMs, XPCOM,...) const { useDistinctSystemPrincipalLoader, releaseDistinctSystemPrincipalLoader, } = ChromeUtils.importESModule( "resource://devtools/shared/loader/DistinctSystemPrincipalLoader.sys.mjs" ); const requester = {}; const loader = useDistinctSystemPrincipalLoader(requester); registerCleanupFunction(() => releaseDistinctSystemPrincipalLoader(requester) ); const { allocationTracker } = loader.require( "resource://devtools/shared/test-helpers/allocation-tracker.js" ); const tracker = allocationTracker({ watchAllGlobals: true }); registerCleanupFunction(() => { if (DEBUG_ALLOCATIONS == "normal") { tracker.logCount(); } else if (DEBUG_ALLOCATIONS == "verbose") { tracker.logAllocationSites(); } tracker.stop(); }); } const { loader, require } = ChromeUtils.importESModule( "resource://devtools/shared/loader/Loader.sys.mjs" ); const { sinon } = ChromeUtils.importESModule( "resource://testing-common/Sinon.sys.mjs" ); // When loaded from xpcshell test, this file is loaded via xpcshell.ini's head property // and so it loaded first before anything else and isn't having access to Services global. // Whereas many head.js files from mochitest import this file via loadSubScript // and already expose Services as a global. const { gDevTools, } = require("resource://devtools/client/framework/devtools.js"); const { CommandsFactory, } = require("resource://devtools/shared/commands/commands-factory.js"); const DevToolsUtils = require("resource://devtools/shared/DevToolsUtils.js"); const KeyShortcuts = require("resource://devtools/client/shared/key-shortcuts.js"); const { LocalizationHelper } = require("resource://devtools/shared/l10n.js"); loader.lazyRequireGetter( this, "ResponsiveUIManager", "resource://devtools/client/responsive/manager.js" ); loader.lazyRequireGetter( this, "localTypes", "resource://devtools/client/responsive/types.js" ); loader.lazyRequireGetter( this, "ResponsiveMessageHelper", "resource://devtools/client/responsive/utils/message.js" ); loader.lazyRequireGetter( this, "FluentReact", "resource://devtools/client/shared/vendor/fluent-react.js" ); const TEST_DIR = gTestPath.substr(0, gTestPath.lastIndexOf("/")); const CHROME_URL_ROOT = TEST_DIR + "/"; const URL_ROOT = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "http://example.com/" ); const URL_ROOT_SSL = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "https://example.com/" ); // Add aliases which make it more explicit that URL_ROOT uses a com TLD. const URL_ROOT_COM = URL_ROOT; const URL_ROOT_COM_SSL = URL_ROOT_SSL; // Also expose http://example.org, http://example.net, https://example.org to // test Fission scenarios easily. // Note: example.net is not available for https. const URL_ROOT_ORG = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "http://example.org/" ); const URL_ROOT_ORG_SSL = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "https://example.org/" ); const URL_ROOT_NET = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "http://example.net/" ); const URL_ROOT_NET_SSL = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "https://example.net/" ); // mochi.test:8888 is the actual primary location where files are served. const URL_ROOT_MOCHI_8888 = CHROME_URL_ROOT.replace( "chrome://mochitests/content/", "http://mochi.test:8888/" ); try { if (isMochitest) { Services.scriptloader.loadSubScript( "chrome://mochitests/content/browser/devtools/client/shared/test/telemetry-test-helpers.js", this ); } } catch (e) { ok( false, "MISSING DEPENDENCY ON telemetry-test-helpers.js\n" + "Please add the following line in browser.ini:\n" + " !/devtools/client/shared/test/telemetry-test-helpers.js\n" ); throw e; } // Force devtools to be initialized so menu items and keyboard shortcuts get installed require("resource://devtools/client/framework/devtools-browser.js"); // All tests are asynchronous if (isMochitest) { waitForExplicitFinish(); } var EXPECTED_DTU_ASSERT_FAILURE_COUNT = 0; registerCleanupFunction(function () { if ( DevToolsUtils.assertionFailureCount !== EXPECTED_DTU_ASSERT_FAILURE_COUNT ) { ok( false, "Should have had the expected number of DevToolsUtils.assert() failures." + " Expected " + EXPECTED_DTU_ASSERT_FAILURE_COUNT + ", got " + DevToolsUtils.assertionFailureCount ); } }); // Uncomment this pref to dump all devtools emitted events to the console. // Services.prefs.setBoolPref("devtools.dump.emit", true); /** * Watch console messages for failed propType definitions in React components. */ function onConsoleMessage(subject) { const message = subject.wrappedJSObject.arguments[0]; if (message && /Failed propType/.test(message.toString())) { ok(false, message); } } const ConsoleAPIStorage = Cc["@mozilla.org/consoleAPI-storage;1"].getService( Ci.nsIConsoleAPIStorage ); ConsoleAPIStorage.addLogEventListener( onConsoleMessage, Cc["@mozilla.org/systemprincipal;1"].createInstance(Ci.nsIPrincipal) ); registerCleanupFunction(() => { ConsoleAPIStorage.removeLogEventListener(onConsoleMessage); }); Services.prefs.setBoolPref("devtools.inspector.three-pane-enabled", true); // Disable this preference to reduce exceptions related to pending `listWorkers` // requests occuring after a process is created/destroyed. See Bug 1620983. Services.prefs.setBoolPref("dom.ipc.processPrelaunch.enabled", false); // Disable this preference to capture async stacks across all locations during // DevTools mochitests. Async stacks provide very valuable information to debug // intermittents, but come with a performance overhead, which is why they are // only captured in Debuggees by default. Services.prefs.setBoolPref( "javascript.options.asyncstack_capture_debuggee_only", false ); // On some Linux platforms, prefers-reduced-motion is enabled, which would // trigger the notification to be displayed in the toolbox. Dismiss the message // by default. Services.prefs.setBoolPref( "devtools.inspector.simple-highlighters.message-dismissed", true ); registerCleanupFunction(() => { Services.prefs.clearUserPref("devtools.dump.emit"); Services.prefs.clearUserPref("devtools.inspector.three-pane-enabled"); Services.prefs.clearUserPref("dom.ipc.processPrelaunch.enabled"); Services.prefs.clearUserPref("devtools.toolbox.host"); Services.prefs.clearUserPref("devtools.toolbox.previousHost"); Services.prefs.clearUserPref("devtools.toolbox.splitconsoleEnabled"); Services.prefs.clearUserPref("devtools.toolbox.splitconsoleHeight"); Services.prefs.clearUserPref( "javascript.options.asyncstack_capture_debuggee_only" ); Services.prefs.clearUserPref( "devtools.inspector.simple-highlighters.message-dismissed" ); }); var { BrowserConsoleManager, } = require("resource://devtools/client/webconsole/browser-console-manager.js"); registerCleanupFunction(async function cleanup() { // Closing the browser console if there's one const browserConsole = BrowserConsoleManager.getBrowserConsole(); if (browserConsole) { await safeCloseBrowserConsole({ clearOutput: true }); } // Close any tab opened by the test. // There should be only one tab opened by default when firefox starts the test. while (isMochitest && gBrowser.tabs.length > 1) { await closeTabAndToolbox(gBrowser.selectedTab); } // Note that this will run before cleanup functions registered by tests or other head.js files. // So all connections must be cleaned up by the test when the test ends, // before the harness starts invoking the cleanup functions await waitForTick(); // All connections must be cleaned up by the test when the test ends. const { DevToolsServer, } = require("resource://devtools/server/devtools-server.js"); ok( !DevToolsServer.hasConnection(), "The main process DevToolsServer has no pending connection when the test ends" ); // If there is still open connection, close all of them so that following tests // could pass. if (DevToolsServer.hasConnection()) { for (const conn of Object.values(DevToolsServer._connections)) { conn.close(); } } }); async function safeCloseBrowserConsole({ clearOutput = false } = {}) { const hud = BrowserConsoleManager.getBrowserConsole(); if (!hud) { return; } if (clearOutput) { info("Clear the browser console output"); const { ui } = hud; const promises = [ui.once("messages-cleared")]; // If there's an object inspector, we need to wait for the actors to be released. if (ui.outputNode.querySelector(".object-inspector")) { promises.push(ui.once("fronts-released")); } await ui.clearOutput(true); await Promise.all(promises); info("Browser console cleared"); } info("Wait for all Browser Console targets to be attached"); // It might happen that waitForAllTargetsToBeAttached does not resolve, so we set a // timeout of 1s before closing await Promise.race([ waitForAllTargetsToBeAttached(hud.commands.targetCommand), wait(1000), ]); info("Close the Browser Console"); await BrowserConsoleManager.closeBrowserConsole(); info("Browser Console closed"); } /** * Observer code to register the test actor in every DevTools server which * starts registering its own actors. * * We require immediately the highlighter test actor file, because it will force to load and * register the front and the spec for HighlighterTestActor. Normally specs and fronts are * in separate files registered in specs/index.js. But here to simplify the * setup everything is in the same file and we force to load it here. * * DevToolsServer will emit "devtools-server-initialized" after finishing its * initialization. We watch this observable to add our custom actor. * * As a single test may create several DevTools servers, we keep the observer * alive until the test ends. * * To avoid leaks, the observer needs to be removed at the end of each test. * The test cleanup will send the async message "remove-devtools-highlightertestactor-observer", * we listen to this message to cleanup the observer. */ function highlighterTestActorBootstrap() { /* eslint-env mozilla/process-script */ const HIGHLIGHTER_TEST_ACTOR_URL = "chrome://mochitests/content/browser/devtools/client/shared/test/highlighter-test-actor.js"; const { require: _require } = ChromeUtils.importESModule( "resource://devtools/shared/loader/Loader.sys.mjs" ); _require(HIGHLIGHTER_TEST_ACTOR_URL); const actorRegistryObserver = subject => { const actorRegistry = subject.wrappedJSObject; actorRegistry.registerModule(HIGHLIGHTER_TEST_ACTOR_URL, { prefix: "highlighterTest", constructor: "HighlighterTestActor", type: { target: true }, }); }; Services.obs.addObserver( actorRegistryObserver, "devtools-server-initialized" ); const unloadListener = () => { Services.cpmm.removeMessageListener( "remove-devtools-testactor-observer", unloadListener ); Services.obs.removeObserver( actorRegistryObserver, "devtools-server-initialized" ); }; Services.cpmm.addMessageListener( "remove-devtools-testactor-observer", unloadListener ); } if (isMochitest) { const highlighterTestActorBootstrapScript = "data:,(" + highlighterTestActorBootstrap + ")()"; Services.ppmm.loadProcessScript( highlighterTestActorBootstrapScript, // Load this script in all processes (created or to be created) true ); registerCleanupFunction(() => { Services.ppmm.broadcastAsyncMessage("remove-devtools-testactor-observer"); Services.ppmm.removeDelayedProcessScript( highlighterTestActorBootstrapScript ); }); } /** * Spawn an instance of the highlighter test actor for the given toolbox * * @param {Toolbox} toolbox * @param {Object} options * @param {Function} options.target: Optional target to get the highlighterTestFront for. * If not provided, the top level target will be used. * @returns {HighlighterTestFront} */ async function getHighlighterTestFront(toolbox, { target } = {}) { // Loading the Inspector panel in order to overwrite the TestActor getter for the // highlighter instance with a method that points to the currently visible // Box Model Highlighter managed by the Inspector panel. const inspector = await toolbox.loadTool("inspector"); const highlighterTestFront = await (target || toolbox.target).getFront( "highlighterTest" ); // Override the highligher getter with a method to return the active box model // highlighter. Adaptation for multi-process scenarios where there can be multiple // highlighters, one per process. highlighterTestFront.highlighter = () => { return inspector.highlighters.getActiveHighlighter( inspector.highlighters.TYPES.BOXMODEL ); }; return highlighterTestFront; } /** * Spawn an instance of the highlighter test actor for the given tab, when we need the * highlighter test front before opening or without a toolbox. * * @param {Tab} tab * @returns {HighlighterTestFront} */ async function getHighlighterTestFrontWithoutToolbox(tab) { const commands = await CommandsFactory.forTab(tab); // Initialize the TargetCommands which require some async stuff to be done // before being fully ready. This will define the `targetCommand.targetFront` attribute. await commands.targetCommand.startListening(); const targetFront = commands.targetCommand.targetFront; return targetFront.getFront("highlighterTest"); } /** * Returns a Promise that resolves when all the targets are fully attached. * * @param {TargetCommand} targetCommand */ function waitForAllTargetsToBeAttached(targetCommand) { return Promise.allSettled( targetCommand .getAllTargets(targetCommand.ALL_TYPES) .map(target => target.initialized) ); } /** * Add a new test tab in the browser and load the given url. * @param {String} url The url to be loaded in the new tab * @param {Object} options Object with various optional fields: * - {Boolean} background If true, open the tab in background * - {ChromeWindow} window Firefox top level window we should use to open the tab * - {Number} userContextId The userContextId of the tab. * - {String} preferredRemoteType * - {Boolean} waitForLoad Wait for the page in the new tab to load. (Defaults to true.) * @return a promise that resolves to the tab object when the url is loaded */ async function addTab(url, options = {}) { info("Adding a new tab with URL: " + url); const { background = false, userContextId, preferredRemoteType, waitForLoad = true, } = options; const { gBrowser } = options.window ? options.window : window; const tab = BrowserTestUtils.addTab(gBrowser, url, { userContextId, preferredRemoteType, }); if (!background) { gBrowser.selectedTab = tab; } if (waitForLoad) { await BrowserTestUtils.browserLoaded(tab.linkedBrowser); // Waiting for presShell helps with test timeouts in webrender platforms. await waitForPresShell(tab.linkedBrowser); info("Tab added and finished loading"); } else { info("Tab added"); } return tab; } /** * Remove the given tab. * @param {Object} tab The tab to be removed. * @return Promise resolved when the tab is successfully removed. */ async function removeTab(tab) { info("Removing tab."); const { gBrowser } = tab.ownerDocument.defaultView; const onClose = once(gBrowser.tabContainer, "TabClose"); gBrowser.removeTab(tab); await onClose; info("Tab removed and finished closing"); } /** * Alias for navigateTo which will reuse the current URI of the provided browser * to trigger a navigation. */ async function reloadBrowser({ browser = gBrowser.selectedBrowser, isErrorPage = false, waitForLoad = true, } = {}) { return navigateTo(browser.currentURI.spec, { browser, isErrorPage, waitForLoad, }); } /** * Navigate the currently selected tab to a new URL and wait for it to load. * Also wait for the toolbox to attach to the new target, if we navigated * to a new process. * * @param {String} url The url to be loaded in the current tab. * @param {JSON} options Optional dictionary object with the following keys: * - {XULBrowser} browser * The browser element which should navigate. Defaults to the selected * browser. * - {Boolean} isErrorPage * You may pass `true` if the URL is an error page. Otherwise * BrowserTestUtils.browserLoaded will wait for 'load' event, which * never fires for error pages. * - {Boolean} waitForLoad * You may pass `false` if the page load is expected to be blocked by * a script or a breakpoint. * * @return a promise that resolves when the page has fully loaded. */ async function navigateTo( uri, { browser = gBrowser.selectedBrowser, isErrorPage = false, waitForLoad = true, } = {} ) { const waitForDevToolsReload = await watchForDevToolsReload(browser, { isErrorPage, waitForLoad, }); uri = uri.replaceAll("\n", ""); info(`Navigating to "${uri}"`); const onBrowserLoaded = BrowserTestUtils.browserLoaded( browser, // includeSubFrames false, // resolve on this specific page to load (if null, it would be any page load) loadedUrl => { // loadedUrl is encoded, while uri might not be. return loadedUrl === uri || decodeURI(loadedUrl) === uri; }, isErrorPage ); // if we're navigating to the same page we're already on, use reloadTab instead as the // behavior slightly differs from loadURI (e.g. scroll position isn't keps with the latter). if (uri === browser.currentURI.spec) { gBrowser.reloadTab(gBrowser.getTabForBrowser(browser)); } else { BrowserTestUtils.startLoadingURIString(browser, uri); } if (waitForLoad) { info(`Waiting for page to be loaded…`); await onBrowserLoaded; info(`→ page loaded`); } await waitForDevToolsReload(); } /** * This method should be used to watch for completion of any browser navigation * performed with a DevTools UI. * * It should watch for: * - Toolbox reload * - Toolbox commands reload * - RDM reload * - RDM commands reload * * And it should work both for target switching or old-style navigations. * * This method, similarly to all the other watch* navigation methods in this file, * is async but returns another method which should be called after the navigation * is done. Browser navigation might be monitored differently depending on the * situation, so it's up to the caller to handle it as needed. * * Typically, this would be used as follows: * ``` * async function someNavigationHelper(browser) { * const waitForDevToolsFn = await watchForDevToolsReload(browser); * * // This step should wait for the load to be completed from the browser's * // point of view, so that waitForDevToolsFn can compare pIds, browsing * // contexts etc... and check if we should expect a target switch * await performBrowserNavigation(browser); * * await waitForDevToolsFn(); * } * ``` */ async function watchForDevToolsReload( browser, { isErrorPage = false, waitForLoad = true } = {} ) { const waitForToolboxReload = await _watchForToolboxReload(browser, { isErrorPage, waitForLoad, }); const waitForResponsiveReload = await _watchForResponsiveReload(browser, { isErrorPage, waitForLoad, }); return async function () { info("Wait for the toolbox to reload"); await waitForToolboxReload(); info("Wait for Responsive UI to reload"); await waitForResponsiveReload(); }; } /** * Start watching for the toolbox reload to be completed: * - watch for the toolbox's commands to be fully reloaded * - watch for the toolbox's current panel to be reloaded */ async function _watchForToolboxReload( browser, { isErrorPage, waitForLoad } = {} ) { const tab = gBrowser.getTabForBrowser(browser); const toolbox = gDevTools.getToolboxForTab(tab); if (!toolbox) { // No toolbox to wait for return function () {}; } const waitForCurrentPanelReload = watchForCurrentPanelReload(toolbox); const waitForToolboxCommandsReload = await watchForCommandsReload( toolbox.commands, { isErrorPage, waitForLoad } ); const checkTargetSwitching = await watchForTargetSwitching( toolbox.commands, browser ); return async function () { const isTargetSwitching = checkTargetSwitching(); info(`Waiting for toolbox commands to be reloaded…`); await waitForToolboxCommandsReload(isTargetSwitching); // TODO: We should wait for all loaded panels to reload here, because some // of them might still perform background updates. if (waitForCurrentPanelReload) { info(`Waiting for ${toolbox.currentToolId} to be reloaded…`); await waitForCurrentPanelReload(); info(`→ panel reloaded`); } }; } /** * Start watching for Responsive UI (RDM) reload to be completed: * - watch for the Responsive UI's commands to be fully reloaded * - watch for the Responsive UI's target switch to be done */ async function _watchForResponsiveReload( browser, { isErrorPage, waitForLoad } = {} ) { const tab = gBrowser.getTabForBrowser(browser); const ui = ResponsiveUIManager.getResponsiveUIForTab(tab); if (!ui) { // No responsive UI to wait for return function () {}; } const onResponsiveTargetSwitch = ui.once("responsive-ui-target-switch-done"); const waitForResponsiveCommandsReload = await watchForCommandsReload( ui.commands, { isErrorPage, waitForLoad } ); const checkTargetSwitching = await watchForTargetSwitching( ui.commands, browser ); return async function () { const isTargetSwitching = checkTargetSwitching(); info(`Waiting for responsive ui commands to be reloaded…`); await waitForResponsiveCommandsReload(isTargetSwitching); if (isTargetSwitching) { await onResponsiveTargetSwitch; } }; } /** * Watch for the current panel selected in the provided toolbox to be reloaded. * Some panels implement custom events that should be expected for every reload. * * Note about returning a method instead of a promise: * In general this pattern is useful so that we can check if a target switch * occurred or not, and decide which events to listen for. So far no panel is * behaving differently whether there was a target switch or not. But to remain * consistent with other watch* methods we still return a function here. * * @param {Toolbox} * The Toolbox instance which is going to experience a reload * @return {function} An async method to be called and awaited after the reload * started. Will return `null` for panels which don't implement any * specific reload event. */ function watchForCurrentPanelReload(toolbox) { return _watchForPanelReload(toolbox, toolbox.currentToolId); } /** * Watch for all the panels loaded in the provided toolbox to be reloaded. * Some panels implement custom events that should be expected for every reload. * * Note about returning a method instead of a promise: * See comment for watchForCurrentPanelReload * * @param {Toolbox} * The Toolbox instance which is going to experience a reload * @return {function} An async method to be called and awaited after the reload * started. */ function watchForLoadedPanelsReload(toolbox) { const waitForPanels = []; for (const [id] of toolbox.getToolPanels()) { // Store a watcher method for each panel already loaded. waitForPanels.push(_watchForPanelReload(toolbox, id)); } return function () { return Promise.all( waitForPanels.map(async watchPanel => { // Wait for all panels to be reloaded. if (watchPanel) { await watchPanel(); } }) ); }; } function _watchForPanelReload(toolbox, toolId) { const panel = toolbox.getPanel(toolId); if (toolId == "inspector") { const markuploaded = panel.once("markuploaded"); const onNewRoot = panel.once("new-root"); const onUpdated = panel.once("inspector-updated"); const onReloaded = panel.once("reloaded"); return async function () { info("Waiting for markup view to load after navigation."); await markuploaded; info("Waiting for new root."); await onNewRoot; info("Waiting for inspector to update after new-root event."); await onUpdated; info("Waiting for inspector updates after page reload"); await onReloaded; }; } else if ( ["netmonitor", "accessibility", "webconsole", "jsdebugger"].includes(toolId) ) { const onReloaded = panel.once("reloaded"); return async function () { info(`Waiting for ${toolId} updates after page reload`); await onReloaded; }; } return null; } /** * Watch for a Commands instance to be reloaded after a navigation. * * As for other navigation watch* methods, this should be called before the * navigation starts, and the function it returns should be called after the * navigation is done from a Browser point of view. * * !!! The wait function expects a `isTargetSwitching` argument to be provided, * which needs to be monitored using watchForTargetSwitching !!! */ async function watchForCommandsReload( commands, { isErrorPage = false, waitForLoad = true } = {} ) { // If we're switching origins, we need to wait for the 'switched-target' // event to make sure everything is ready. // Navigating from/to pages loaded in the parent process, like about:robots, // also spawn new targets. // (If target switching is disabled, the toolbox will reboot) const onTargetSwitched = commands.targetCommand.once("switched-target"); // Wait until we received a page load resource: // - dom-complete if we can wait for a full page load // - dom-loading otherwise // This allows to wait for page load for consumers calling directly // waitForDevTools instead of navigateTo/reloadBrowser. // This is also useful as an alternative to target switching, when no target // switch is supposed to happen. const waitForCompleteLoad = waitForLoad && !isErrorPage; const documentEventName = waitForCompleteLoad ? "dom-complete" : "dom-loading"; const { onResource: onTopLevelDomEvent } = await commands.resourceCommand.waitForNextResource( commands.resourceCommand.TYPES.DOCUMENT_EVENT, { ignoreExistingResources: true, predicate: resource => resource.targetFront.isTopLevel && resource.name === documentEventName, } ); return async function (isTargetSwitching) { if (typeof isTargetSwitching === "undefined") { throw new Error("isTargetSwitching was not provided to the wait method"); } if (isTargetSwitching) { info(`Waiting for target switch…`); await onTargetSwitched; info(`→ switched-target emitted`); } info(`Waiting for '${documentEventName}' resource…`); await onTopLevelDomEvent; info(`→ '${documentEventName}' resource emitted`); return isTargetSwitching; }; } /** * Watch if an upcoming navigation will trigger a target switching, for the * provided Commands instance and the provided Browser. * * As for other navigation watch* methods, this should be called before the * navigation starts, and the function it returns should be called after the * navigation is done from a Browser point of view. */ async function watchForTargetSwitching(commands, browser) { browser = browser || gBrowser.selectedBrowser; const currentPID = browser.browsingContext.currentWindowGlobal.osPid; const currentBrowsingContextID = browser.browsingContext.id; // If the current top-level target follows the window global lifecycle, a // target switch will occur regardless of process changes. const targetFollowsWindowLifecycle = commands.targetCommand.targetFront.targetForm.followWindowGlobalLifeCycle; return function () { // Compare the PIDs (and not the toolbox's targets) as PIDs are updated also immediately, // while target may be updated slightly later. const switchedProcess = currentPID !== browser.browsingContext.currentWindowGlobal.osPid; const switchedBrowsingContext = currentBrowsingContextID !== browser.browsingContext.id; return ( targetFollowsWindowLifecycle || switchedProcess || switchedBrowsingContext ); }; } /** * Create a Target for the provided tab and attach to it before resolving. * This should only be used for tests which don't involve the frontend or a * toolbox. Typically, retrieving the target and attaching to it should be * handled at framework level when a Toolbox is used. * * @param {XULTab} tab * The tab for which a target should be created. * @return {WindowGlobalTargetFront} The attached target front. */ async function createAndAttachTargetForTab(tab) { info("Creating and attaching to a local tab target"); const commands = await CommandsFactory.forTab(tab); // Initialize the TargetCommands which require some async stuff to be done // before being fully ready. This will define the `targetCommand.targetFront` attribute. await commands.targetCommand.startListening(); const target = commands.targetCommand.targetFront; return target; } function isFissionEnabled() { return SpecialPowers.useRemoteSubframes; } function isEveryFrameTargetEnabled() { return Services.prefs.getBoolPref( "devtools.every-frame-target.enabled", false ); } /** * Open the inspector in a tab with given URL. * @param {string} url The URL to open. * @param {String} hostType Optional hostType, as defined in Toolbox.HostType * @return A promise that is resolved once the tab and inspector have loaded * with an object: { tab, toolbox, inspector, highlighterTestFront }. */ async function openInspectorForURL(url, hostType) { const tab = await addTab(url); const { inspector, toolbox, highlighterTestFront } = await openInspector( hostType ); return { tab, inspector, toolbox, highlighterTestFront }; } function getActiveInspector() { const toolbox = gDevTools.getToolboxForTab(gBrowser.selectedTab); return toolbox.getPanel("inspector"); } /** * Simulate a key event from an electron key shortcut string: * https://github.com/electron/electron/blob/master/docs/api/accelerator.md * * @param {String} key * @param {DOMWindow} target * Optional window where to fire the key event */ function synthesizeKeyShortcut(key, target) { // parseElectronKey requires any window, just to access `KeyboardEvent` const window = Services.appShell.hiddenDOMWindow; const shortcut = KeyShortcuts.parseElectronKey(window, key); const keyEvent = { altKey: shortcut.alt, ctrlKey: shortcut.ctrl, metaKey: shortcut.meta, shiftKey: shortcut.shift, }; if (shortcut.keyCode) { keyEvent.keyCode = shortcut.keyCode; } info("Synthesizing key shortcut: " + key); EventUtils.synthesizeKey(shortcut.key || "", keyEvent, target); } var waitForTime = DevToolsUtils.waitForTime; /** * Wait for a tick. * @return {Promise} */ function waitForTick() { return new Promise(resolve => DevToolsUtils.executeSoon(resolve)); } /** * This shouldn't be used in the tests, but is useful when writing new tests or * debugging existing tests in order to introduce delays in the test steps * * @param {Number} ms * The time to wait * @return A promise that resolves when the time is passed */ function wait(ms) { return new Promise(resolve => { setTimeout(resolve, ms); info("Waiting " + ms / 1000 + " seconds."); }); } /** * Wait for a predicate to return a result. * * @param function condition * Invoked once in a while until it returns a truthy value. This should be an * idempotent function, since we have to run it a second time after it returns * true in order to return the value. * @param string message [optional] * A message to output if the condition fails. * @param number interval [optional] * How often the predicate is invoked, in milliseconds. * Can be set globally for a test via `waitFor.overrideIntervalForTestFile = someNumber;`. * @param number maxTries [optional] * How many times the predicate is invoked before timing out. * Can be set globally for a test via `waitFor.overrideMaxTriesForTestFile = someNumber;`. * @return object * A promise that is resolved with the result of the condition. */ async function waitFor(condition, message = "", interval = 10, maxTries = 500) { // Update interval & maxTries if overrides are defined on the waitFor object. interval = typeof waitFor.overrideIntervalForTestFile !== "undefined" ? waitFor.overrideIntervalForTestFile : interval; maxTries = typeof waitFor.overrideMaxTriesForTestFile !== "undefined" ? waitFor.overrideMaxTriesForTestFile : maxTries; try { const value = await BrowserTestUtils.waitForCondition( condition, message, interval, maxTries ); return value; } catch (e) { const errorMessage = `Failed waitFor(): ${message} \nFailed condition: ${condition} \nException Message: ${e}`; throw new Error(errorMessage); } } /** * Wait for eventName on target to be delivered a number of times. * * @param {Object} target * An observable object that either supports on/off or * addEventListener/removeEventListener * @param {String} eventName * @param {Number} numTimes * Number of deliveries to wait for. * @param {Boolean} useCapture * Optional, for addEventListener/removeEventListener * @return A promise that resolves when the event has been handled */ function waitForNEvents(target, eventName, numTimes, useCapture = false) { info("Waiting for event: '" + eventName + "' on " + target + "."); let count = 0; return new Promise(resolve => { for (const [add, remove] of [ ["on", "off"], ["addEventListener", "removeEventListener"], ["addListener", "removeListener"], ["addMessageListener", "removeMessageListener"], ]) { if (add in target && remove in target) { target[add]( eventName, function onEvent(...args) { if (typeof info === "function") { info("Got event: '" + eventName + "' on " + target + "."); } if (++count == numTimes) { target[remove](eventName, onEvent, useCapture); resolve(...args); } }, useCapture ); break; } } }); } /** * Wait for DOM change on target. * * @param {Object} target * The Node on which to observe DOM mutations. * @param {String} selector * Given a selector to watch whether the expected element is changed * on target. * @param {Number} expectedLength * Optional, default set to 1 * There may be more than one element match an array match the selector, * give an expected length to wait for more elements. * @return A promise that resolves when the event has been handled */ function waitForDOM(target, selector, expectedLength = 1) { return new Promise(resolve => { const observer = new MutationObserver(mutations => { mutations.forEach(mutation => { const elements = mutation.target.querySelectorAll(selector); if (elements.length === expectedLength) { observer.disconnect(); resolve(elements); } }); }); observer.observe(target, { attributes: true, childList: true, subtree: true, }); }); } /** * Wait for eventName on target. * * @param {Object} target * An observable object that either supports on/off or * addEventListener/removeEventListener * @param {String} eventName * @param {Boolean} useCapture * Optional, for addEventListener/removeEventListener * @return A promise that resolves when the event has been handled */ function once(target, eventName, useCapture = false) { return waitForNEvents(target, eventName, 1, useCapture); } /** * Some tests may need to import one or more of the test helper scripts. * A test helper script is simply a js file that contains common test code that * is either not common-enough to be in head.js, or that is located in a * separate directory. * The script will be loaded synchronously and in the test's scope. * @param {String} filePath The file path, relative to the current directory. * Examples: * - "helper_attributes_test_runner.js" */ function loadHelperScript(filePath) { const testDir = gTestPath.substr(0, gTestPath.lastIndexOf("/")); Services.scriptloader.loadSubScript(testDir + "/" + filePath, this); } /** * Open the toolbox in a given tab. * @param {XULNode} tab The tab the toolbox should be opened in. * @param {String} toolId Optional. The ID of the tool to be selected. * @param {String} hostType Optional. The type of toolbox host to be used. * @return {Promise} Resolves with the toolbox, when it has been opened. */ async function openToolboxForTab(tab, toolId, hostType) { info("Opening the toolbox"); // Check if the toolbox is already loaded. let toolbox = gDevTools.getToolboxForTab(tab); if (toolbox) { if (!toolId || (toolId && toolbox.getPanel(toolId))) { info("Toolbox is already opened"); return toolbox; } } // If not, load it now. toolbox = await gDevTools.showToolboxForTab(tab, { toolId, hostType }); // Make sure that the toolbox frame is focused. await new Promise(resolve => waitForFocus(resolve, toolbox.win)); info("Toolbox opened and focused"); return toolbox; } /** * Add a new tab and open the toolbox in it. * @param {String} url The URL for the tab to be opened. * @param {String} toolId Optional. The ID of the tool to be selected. * @param {String} hostType Optional. The type of toolbox host to be used. * @return {Promise} Resolves when the tab has been added, loaded and the * toolbox has been opened. Resolves to the toolbox. */ async function openNewTabAndToolbox(url, toolId, hostType) { const tab = await addTab(url); return openToolboxForTab(tab, toolId, hostType); } /** * Close a tab and if necessary, the toolbox that belongs to it * @param {Tab} tab The tab to close. * @return {Promise} Resolves when the toolbox and tab have been destroyed and * closed. */ async function closeTabAndToolbox(tab = gBrowser.selectedTab) { if (gDevTools.hasToolboxForTab(tab)) { await gDevTools.closeToolboxForTab(tab); } await removeTab(tab); await new Promise(resolve => setTimeout(resolve, 0)); } /** * Close a toolbox and the current tab. * @param {Toolbox} toolbox The toolbox to close. * @return {Promise} Resolves when the toolbox and tab have been destroyed and * closed. */ async function closeToolboxAndTab(toolbox) { await toolbox.destroy(); await removeTab(gBrowser.selectedTab); } /** * Waits until a predicate returns true. * * @param function predicate * Invoked once in a while until it returns true. * @param number interval [optional] * How often the predicate is invoked, in milliseconds. */ function waitUntil(predicate, interval = 10) { if (predicate()) { return Promise.resolve(true); } return new Promise(resolve => { setTimeout(function () { waitUntil(predicate, interval).then(() => resolve(true)); }, interval); }); } /** * Variant of waitUntil that accepts a predicate returning a promise. */ async function asyncWaitUntil(predicate, interval = 10) { let success = await predicate(); while (!success) { // Wait for X milliseconds. await new Promise(resolve => setTimeout(resolve, interval)); // Test the predicate again. success = await predicate(); } } /** * Wait for a context menu popup to open. * * @param Element popup * The XUL popup you expect to open. * @param Element button * The button/element that receives the contextmenu event. This is * expected to open the popup. * @param function onShown * Function to invoke on popupshown event. * @param function onHidden * Function to invoke on popuphidden event. * @return object * A Promise object that is resolved after the popuphidden event * callback is invoked. */ function waitForContextMenu(popup, button, onShown, onHidden) { return new Promise(resolve => { function onPopupShown() { info("onPopupShown"); popup.removeEventListener("popupshown", onPopupShown); onShown && onShown(); // Use executeSoon() to get out of the popupshown event. popup.addEventListener("popuphidden", onPopupHidden); DevToolsUtils.executeSoon(() => popup.hidePopup()); } function onPopupHidden() { info("onPopupHidden"); popup.removeEventListener("popuphidden", onPopupHidden); onHidden && onHidden(); resolve(popup); } popup.addEventListener("popupshown", onPopupShown); info("wait for the context menu to open"); synthesizeContextMenuEvent(button); }); } function synthesizeContextMenuEvent(el) { el.scrollIntoView(); const eventDetails = { type: "contextmenu", button: 2 }; EventUtils.synthesizeMouse( el, 5, 2, eventDetails, el.ownerDocument.defaultView ); } /** * Promise wrapper around SimpleTest.waitForClipboard */ function waitForClipboardPromise(setup, expected) { return new Promise((resolve, reject) => { SimpleTest.waitForClipboard(expected, setup, resolve, reject); }); } /** * Simple helper to push a temporary preference. Wrapper on SpecialPowers * pushPrefEnv that returns a promise resolving when the preferences have been * updated. * * @param {String} preferenceName * The name of the preference to updated * @param {} value * The preference value, type can vary * @return {Promise} resolves when the preferences have been updated */ function pushPref(preferenceName, value) { const options = { set: [[preferenceName, value]] }; return SpecialPowers.pushPrefEnv(options); } async function closeToolbox() { await gDevTools.closeToolboxForTab(gBrowser.selectedTab); } /** * Clean the logical clipboard content. This method only clears the OS clipboard on * Windows (see Bug 666254). */ function emptyClipboard() { const clipboard = Services.clipboard; clipboard.emptyClipboard(clipboard.kGlobalClipboard); } /** * Check if the current operating system is Windows. */ function isWindows() { return Services.appinfo.OS === "WINNT"; } /** * Create an HTTP server that can be used to simulate custom requests within * a test. It is automatically cleaned up when the test ends, so no need to * call `destroy`. * * See https://developer.mozilla.org/en-US/docs/Httpd.js/HTTP_server_for_unit_tests * for more information about how to register handlers. * * The server can be accessed like: * * const server = createTestHTTPServer(); * let url = "http://localhost: " + server.identity.primaryPort + "/path"; * @returns {HttpServer} */ function createTestHTTPServer() { const { HttpServer } = ChromeUtils.importESModule( "resource://testing-common/httpd.sys.mjs" ); const server = new HttpServer(); registerCleanupFunction(async function cleanup() { await new Promise(resolve => server.stop(resolve)); }); server.start(-1); return server; } /* * Register an actor in the content process of the current tab. * * Calling ActorRegistry.registerModule only registers the actor in the current process. * As all test scripts are ran in the parent process, it is only registered here. * This function helps register them in the content process used for the current tab. * * @param {string} url * Actor module URL or absolute require path * @param {json} options * Arguments to be passed to DevToolsServer.registerModule */ async function registerActorInContentProcess(url, options) { function convertChromeToFile(uri) { return Cc["@mozilla.org/chrome/chrome-registry;1"] .getService(Ci.nsIChromeRegistry) .convertChromeURL(Services.io.newURI(uri)).spec; } // chrome://mochitests URI is registered only in the parent process, so convert these // URLs to file:// one in order to work in the content processes url = url.startsWith("chrome://mochitests") ? convertChromeToFile(url) : url; return SpecialPowers.spawn( gBrowser.selectedBrowser, [{ url, options }], args => { // eslint-disable-next-line no-shadow const { require } = ChromeUtils.importESModule( "resource://devtools/shared/loader/Loader.sys.mjs" ); const { ActorRegistry, } = require("resource://devtools/server/actors/utils/actor-registry.js"); ActorRegistry.registerModule(args.url, args.options); } ); } /** * Move the provided Window to the provided left, top coordinates and wait for * the window position to be updated. */ async function moveWindowTo(win, left, top) { // Check that the expected coordinates are within the window available area. left = Math.max(win.screen.availLeft, left); left = Math.min(win.screen.width, left); top = Math.max(win.screen.availTop, top); top = Math.min(win.screen.height, top); info(`Moving window to {${left}, ${top}}`); win.moveTo(left, top); // Bug 1600809: window move/resize can be async on Linux sometimes. // Wait so that the anchor's position is correctly measured. return waitUntil(() => { info( `Wait for window screenLeft and screenTop to be updated: (${win.screenLeft}, ${win.screenTop})` ); return win.screenLeft === left && win.screenTop === top; }); } function getCurrentTestFilePath() { return gTestPath.replace("chrome://mochitests/content/browser/", ""); } /** * Unregister all registered service workers. * * @param {DevToolsClient} client */ async function unregisterAllServiceWorkers(client) { info("Wait until all workers have a valid registrationFront"); let workers; await asyncWaitUntil(async function () { workers = await client.mainRoot.listAllWorkers(); const allWorkersRegistered = workers.service.every( worker => !!worker.registrationFront ); return allWorkersRegistered; }); info("Unregister all service workers"); const promises = []; for (const worker of workers.service) { promises.push(worker.registrationFront.unregister()); } await Promise.all(promises); } /********************** * Screenshot helpers * **********************/ /** * Returns an object containing the r,g and b colors of the provided image at * the passed position * * @param {Image} image * @param {Int} x * @param {Int} y * @returns Object with the following properties: * - {Int} r: The red component of the pixel * - {Int} g: The green component of the pixel * - {Int} b: The blue component of the pixel */ function colorAt(image, x, y) { // Create a test canvas element. const HTML_NS = "http://www.w3.org/1999/xhtml"; const canvas = document.createElementNS(HTML_NS, "canvas"); canvas.width = image.width; canvas.height = image.height; // Draw the image in the canvas const context = canvas.getContext("2d"); context.drawImage(image, 0, 0, image.width, image.height); // Return the color found at the provided x,y coordinates as a "r, g, b" string. const [r, g, b] = context.getImageData(x, y, 1, 1).data; return { r, g, b }; } let allDownloads = []; /** * Returns a Promise that resolves when a new screenshot is available in the download folder. * * @param {Object} [options] * @param {Boolean} options.isWindowPrivate: Set to true if the window from which the screenshot * is taken is a private window. This will ensure that we check that the * screenshot appears in the private window, not the non-private one (See Bug 1783373) */ async function waitUntilScreenshot({ isWindowPrivate = false } = {}) { const { Downloads } = ChromeUtils.importESModule( "resource://gre/modules/Downloads.sys.mjs" ); const list = await Downloads.getList(Downloads.ALL); return new Promise(function (resolve) { const view = { onDownloadAdded: async download => { await download.whenSucceeded(); if (allDownloads.includes(download)) { return; } is( !!download.source.isPrivate, isWindowPrivate, `The download occured in the expected${ isWindowPrivate ? " private" : "" } window` ); allDownloads.push(download); resolve(download.target.path); list.removeView(view); }, }; list.addView(view); }); } /** * Clear all the download references. */ async function resetDownloads() { info("Reset downloads"); const { Downloads } = ChromeUtils.importESModule( "resource://gre/modules/Downloads.sys.mjs" ); const downloadList = await Downloads.getList(Downloads.ALL); const downloads = await downloadList.getAll(); for (const download of downloads) { downloadList.remove(download); await download.finalize(true); } allDownloads = []; } /** * Return a screenshot of the currently selected node in the inspector (using the internal * Inspector#screenshotNode method). * * @param {Inspector} inspector * @returns {Image} */ async function takeNodeScreenshot(inspector) { // Cleanup all downloads at the end of the test. registerCleanupFunction(resetDownloads); info( "Call screenshotNode() and wait until the screenshot is found in the Downloads" ); const whenScreenshotSucceeded = waitUntilScreenshot(); inspector.screenshotNode(); const filePath = await whenScreenshotSucceeded; info("Create an image using the downloaded fileas source"); const image = new Image(); const onImageLoad = once(image, "load"); image.src = PathUtils.toFileURI(filePath); await onImageLoad; info("Remove the downloaded screenshot file"); await IOUtils.remove(filePath); // See intermittent Bug 1508435. Even after removing the file, tests still manage to // reuse files from the previous test if they have the same name. Since our file name // is based on a timestamp that has "second" precision, wait for one second to make sure // screenshots will have different names. info( "Wait for one second to make sure future screenshots will use a different name" ); await new Promise(r => setTimeout(r, 1000)); return image; } /** * Check that the provided image has the expected width, height, and color. * NOTE: This test assumes that the image is only made of a single color and will only * check one pixel. */ async function assertSingleColorScreenshotImage( image, width, height, { r, g, b } ) { info(`Assert ${image.src} content`); const ratio = await SpecialPowers.spawn( gBrowser.selectedBrowser, [], () => content.wrappedJSObject.devicePixelRatio ); is( image.width, ratio * width, `node screenshot has the expected width (dpr = ${ratio})` ); is( image.height, height * ratio, `node screenshot has the expected height (dpr = ${ratio})` ); const color = colorAt(image, 0, 0); is(color.r, r, "node screenshot has the expected red component"); is(color.g, g, "node screenshot has the expected green component"); is(color.b, b, "node screenshot has the expected blue component"); } /** * Check that the provided image has the expected color at a given position */ function checkImageColorAt({ image, x = 0, y, expectedColor, label }) { const color = colorAt(image, x, y); is(`rgb(${Object.values(color).join(", ")})`, expectedColor, label); } /** * Wait until the store has reached a state that matches the predicate. * @param Store store * The Redux store being used. * @param function predicate * A function that returns true when the store has reached the expected * state. * @return Promise * Resolved once the store reaches the expected state. */ function waitUntilState(store, predicate) { return new Promise(resolve => { const unsubscribe = store.subscribe(check); info(`Waiting for state predicate "${predicate}"`); function check() { if (predicate(store.getState())) { info(`Found state predicate "${predicate}"`); unsubscribe(); resolve(); } } // Fire the check immediately in case the action has already occurred check(); }); } /** * Wait for a specific action type to be dispatched. * * If the action is async and defines a `status` property, this helper will wait * for the status to reach either "error" or "done". * * @param {Object} store * Redux store where the action should be dispatched. * @param {String} actionType * The actionType to wait for. * @param {Number} repeat * Optional, number of time the action is expected to be dispatched. * Defaults to 1 * @return {Promise} */ function waitForDispatch(store, actionType, repeat = 1) { let count = 0; return new Promise(resolve => { store.dispatch({ type: "@@service/waitUntil", predicate: action => { const isDone = !action.status || action.status === "done" || action.status === "error"; if (action.type === actionType && isDone && ++count == repeat) { return true; } return false; }, run: (dispatch, getState, action) => { resolve(action); }, }); }); } /** * Retrieve a browsing context in nested frames. * * @param {BrowsingContext|XULBrowser} browsingContext * The topmost browsing context under which we should search for the * browsing context. * @param {Array} selectors * Array of CSS selectors that form a path to a specific nested frame. * @return {BrowsingContext} The nested browsing context. */ async function getBrowsingContextInFrames(browsingContext, selectors) { let context = browsingContext; if (!Array.isArray(selectors)) { throw new Error( "getBrowsingContextInFrames called with an invalid selectors argument" ); } if (selectors.length === 0) { throw new Error( "getBrowsingContextInFrames called with an empty selectors array" ); } const clonedSelectors = [...selectors]; while (clonedSelectors.length) { const selector = clonedSelectors.shift(); context = await SpecialPowers.spawn(context, [selector], _selector => { return content.document.querySelector(_selector).browsingContext; }); } return context; } /** * Synthesize a mouse event on an element, after ensuring that it is visible * in the viewport. * * @param {String|Array} selector: The node selector to get the node target for the event. * To target an element in a specific iframe, pass an array of CSS selectors * (e.g. ["iframe", ".el-in-iframe"]) * @param {number} x * @param {number} y * @param {object} options: Options that will be passed to BrowserTestUtils.synthesizeMouse */ async function safeSynthesizeMouseEventInContentPage( selector, x, y, options = {} ) { let context = gBrowser.selectedBrowser.browsingContext; // If an array of selector is passed, we need to retrieve the context in which the node // lives in. if (Array.isArray(selector)) { if (selector.length === 1) { selector = selector[0]; } else { context = await getBrowsingContextInFrames( context, // only pass the iframe path selector.slice(0, -1) ); // retrieve the last item of the selector, which should be the one for the node we want. selector = selector.at(-1); } } await scrollContentPageNodeIntoView(context, selector); BrowserTestUtils.synthesizeMouse(selector, x, y, options, context); } /** * Synthesize a mouse event at the center of an element, after ensuring that it is visible * in the viewport. * * @param {String|Array} selector: The node selector to get the node target for the event. * To target an element in a specific iframe, pass an array of CSS selectors * (e.g. ["iframe", ".el-in-iframe"]) * @param {object} options: Options that will be passed to BrowserTestUtils.synthesizeMouse */ async function safeSynthesizeMouseEventAtCenterInContentPage( selector, options = {} ) { let context = gBrowser.selectedBrowser.browsingContext; // If an array of selector is passed, we need to retrieve the context in which the node // lives in. if (Array.isArray(selector)) { if (selector.length === 1) { selector = selector[0]; } else { context = await getBrowsingContextInFrames( context, // only pass the iframe path selector.slice(0, -1) ); // retrieve the last item of the selector, which should be the one for the node we want. selector = selector.at(-1); } } await scrollContentPageNodeIntoView(context, selector); BrowserTestUtils.synthesizeMouseAtCenter(selector, options, context); } /** * Scroll into view an element in the content page matching the passed selector * * @param {BrowsingContext} browsingContext: The browsing context the element lives in. * @param {String} selector: The node selector to get the node to scroll into view * @returns {Promise} */ function scrollContentPageNodeIntoView(browsingContext, selector) { return SpecialPowers.spawn( browsingContext, [selector], function (innerSelector) { const node = content.wrappedJSObject.document.querySelector(innerSelector); node.scrollIntoView(); } ); } /** * Change the zoom level of the selected page. * * @param {Number} zoomLevel */ function setContentPageZoomLevel(zoomLevel) { gBrowser.selectedBrowser.fullZoom = zoomLevel; } /** * Wait for the next DOCUMENT_EVENT dom-complete resource on a top-level target * * @param {Object} commands * @return {Promise} * Return a promise which resolves once we fully settle the resource listener. * You should await for its resolution before doing the action which may fire * your resource. * This promise will resolve with an object containing a `onDomCompleteResource` property, * which is also a promise, that will resolve once a "top-level" DOCUMENT_EVENT dom-complete * is received. */ async function waitForNextTopLevelDomCompleteResource(commands) { const { onResource: onDomCompleteResource } = await commands.resourceCommand.waitForNextResource( commands.resourceCommand.TYPES.DOCUMENT_EVENT, { ignoreExistingResources: true, predicate: resource => resource.name === "dom-complete" && resource.targetFront.isTopLevel, } ); return { onDomCompleteResource }; } /** * Wait for the provided context to have a valid presShell. This can be useful * for tests which try to create popup panels or interact with the document very * early. * * @param {BrowsingContext} context **/ function waitForPresShell(context) { return SpecialPowers.spawn(context, [], async () => { const winUtils = SpecialPowers.getDOMWindowUtils(content); await ContentTaskUtils.waitForCondition(() => { try { return !!winUtils.getPresShellId(); } catch (e) { return false; } }, "Waiting for a valid presShell"); }); } /** * In tests using Fluent localization, it is preferable to match DOM elements using * a message ID rather than the raw string as: * * 1. It allows testing infrastructure to be multilingual if needed. * 2. It isolates the tests from localization changes. * * @param {Array} resourceIds A list of .ftl files to load. * @returns {(id: string, args?: Record) => string} */ async function getFluentStringHelper(resourceIds) { const locales = Services.locale.appLocalesAsBCP47; const generator = L10nRegistry.getInstance().generateBundles( locales, resourceIds ); const bundles = []; for await (const bundle of generator) { bundles.push(bundle); } const reactLocalization = new FluentReact.ReactLocalization(bundles); /** * Get the string from a message id. It throws when the message is not found. * * @param {string} id * @param {string} attributeName: attribute name if you need to access a specific attribute * defined in the fluent string, e.g. setting "title" for this param * will retrieve the `title` string in * compatibility-issue-browsers-list = * .title = This is the title * @param {Record} [args] optional * @returns {string} */ return (id, attributeName, args) => { let string; if (!attributeName) { string = reactLocalization.getString(id, args); } else { for (const bundle of reactLocalization.bundles) { const msg = bundle.getMessage(id); if (msg?.attributes[attributeName]) { string = bundle.formatPattern( msg.attributes[attributeName], args, [] ); break; } } } if (!string) { throw new Error( `Could not find a string for "${id}"${ attributeName ? ` and attribute "${attributeName}")` : "" }. Was the correct resource bundle loaded?` ); } return string; }; } /** * Open responsive design mode for the given tab. */ async function openRDM(tab, { waitForDeviceList = true } = {}) { info("Opening responsive design mode"); const manager = ResponsiveUIManager; const ui = await manager.openIfNeeded(tab.ownerGlobal, tab, { trigger: "test", }); info("Responsive design mode opened"); await ResponsiveMessageHelper.wait(ui.toolWindow, "post-init"); info("Responsive design initialized"); await waitForRDMLoaded(ui, { waitForDeviceList }); return { ui, manager }; } async function waitForRDMLoaded(ui, { waitForDeviceList = true } = {}) { // Always wait for the viewport to be added. const { store } = ui.toolWindow; await waitUntilState(store, state => state.viewports.length == 1); if (waitForDeviceList) { // Wait until the device list has been loaded. await waitUntilState( store, state => state.devices.listState == localTypes.loadableState.LOADED ); } } /** * Close responsive design mode for the given tab. */ async function closeRDM(tab, options) { info("Closing responsive design mode"); const manager = ResponsiveUIManager; await manager.closeIfNeeded(tab.ownerGlobal, tab, options); info("Responsive design mode closed"); } function getInputStream(data) { const BufferStream = Components.Constructor( "@mozilla.org/io/arraybuffer-input-stream;1", "nsIArrayBufferInputStream", "setData" ); const buffer = new TextEncoder().encode(data).buffer; return new BufferStream(buffer, 0, buffer.byteLength); } /** * Wait for a specific target to have been fully processed by targetCommand. * * @param {Commands} commands * The commands instance * @param {Function} isExpectedTargetFn * Predicate which will be called with a target front argument. Should * return true if the target front is the expected one, false otherwise. * @return {Promise} * Promise which resolves when a target matching `isExpectedTargetFn` * has been processed by targetCommand. */ function waitForTargetProcessed(commands, isExpectedTargetFn) { return new Promise(resolve => { const onProcessed = targetFront => { try { if (isExpectedTargetFn(targetFront)) { commands.targetCommand.off("processed-available-target", onProcessed); resolve(); } } catch { // Ignore errors from isExpectedTargetFn. } }; commands.targetCommand.on("processed-available-target", onProcessed); }); } /** * Instantiate a HTTP Server that serves files from a given test folder. * The test folder should be made of multiple sub folder named: v1, v2, v3,... * We will serve the content from one of these sub folder * and switch to the next one, each time `httpServer.switchToNextVersion()` * is called. * * @return Object Test server with two functions: * - urlFor(path) * Returns the absolute url for a given file. * - switchToNextVersion() * Start serving files from the next available sub folder. * - backToFirstVersion() * When running more than one test, helps restart from the first folder. */ function createVersionizedHttpTestServer(testFolderName) { const httpServer = createTestHTTPServer(); let currentVersion = 1; httpServer.registerPrefixHandler("/", async (request, response) => { response.processAsync(); response.setStatusLine(request.httpVersion, 200, "OK"); if (request.path.endsWith(".js")) { response.setHeader("Content-Type", "application/javascript"); } else if (request.path.endsWith(".js.map")) { response.setHeader("Content-Type", "application/json"); } if (request.path == "/" || request.path.endsWith(".html")) { response.setHeader("Content-Type", "text/html"); } // If a query string is passed, lookup with a matching file, if available // The '?' is replaced by '.' let fetchResponse; if (request.queryString) { const url = `${URL_ROOT_SSL}${testFolderName}/v${currentVersion}${request.path}.${request.queryString}`; try { fetchResponse = await fetch(url); // Log this only if the request succeed info(`[test-http-server] serving: ${url}`); } catch (e) { // Ignore any error and proceed without the query string fetchResponse = null; } } if (!fetchResponse) { const url = `${URL_ROOT_SSL}${testFolderName}/v${currentVersion}${request.path}`; info(`[test-http-server] serving: ${url}`); fetchResponse = await fetch(url); } // Ensure forwarding the response headers generated by the other http server // (this can be especially useful when query .sjs files) for (const [name, value] of fetchResponse.headers.entries()) { response.setHeader(name, value); } // Override cache settings so that versionized requests are never cached // and we get brand new content for any request. response.setHeader("Cache-Control", "no-store"); const text = await fetchResponse.text(); response.write(text); response.finish(); }); return { switchToNextVersion() { currentVersion++; }, backToFirstVersion() { currentVersion = 1; }, urlFor(path) { const port = httpServer.identity.primaryPort; return `http://localhost:${port}/${path}`; }, }; } /** * Fake clicking a link and return the URL we would have navigated to. * This function should be used to check external links since we can't access * network in tests. * This can also be used to test that a click will not be fired. * * @param ElementNode element * The element we want to simulate click on. * @returns Promise * A Promise that is resolved when the link click simulation occured or * when the click is not dispatched. * The promise resolves with an object that holds the following properties * - link: url of the link or null(if event not fired) * - where: "tab" if tab is active or "tabshifted" if tab is inactive * or null(if event not fired) */ function simulateLinkClick(element) { const browserWindow = Services.wm.getMostRecentWindow( gDevTools.chromeWindowType ); const onOpenLink = new Promise(resolve => { const openLinkIn = (link, where) => resolve({ link, where }); sinon.replace(browserWindow, "openTrustedLinkIn", openLinkIn); sinon.replace(browserWindow, "openWebLinkIn", openLinkIn); }); element.click(); // Declare a timeout Promise that we can use to make sure spied methods were not called. const onTimeout = new Promise(function (resolve) { setTimeout(() => { resolve({ link: null, where: null }); }, 1000); }); const raceResult = Promise.race([onOpenLink, onTimeout]); sinon.restore(); return raceResult; } /** * Since the MDN data is updated frequently, it might happen that the properties used in * this test are not in the dataset anymore/now have URLs. * This function will return properties in the dataset that don't have MDN url so you * can easily find a replacement. */ function logCssCompatDataPropertiesWithoutMDNUrl() { const cssPropertiesCompatData = require("resource://devtools/shared/compatibility/dataset/css-properties.json"); function walk(node) { for (const propertyName in node) { const property = node[propertyName]; if (property.__compat) { if (!property.__compat.mdn_url) { dump( `"${propertyName}" - MDN URL: ${ property.__compat.mdn_url || "❌" } - Spec URL: ${property.__compat.spec_url || "❌"}\n` ); } } else if (typeof property == "object") { walk(property); } } } walk(cssPropertiesCompatData); } /** * Craft a CssProperties instance without involving RDP for tests * manually spawning OutputParser, CssCompleter, Editor... * * Otherwise this should instead be fetched from CssPropertiesFront. * * @return {CssProperties} */ function getClientCssProperties() { const { generateCssProperties, } = require("resource://devtools/server/actors/css-properties.js"); const { CssProperties, normalizeCssData, } = require("resource://devtools/client/fronts/css-properties.js"); return new CssProperties( normalizeCssData({ properties: generateCssProperties(document) }) ); } /** * Helper method to stop a Service Worker promptly. * * @param {String} workerUrl * Absolute Worker URL to stop. */ async function stopServiceWorker(workerUrl) { info(`Stop Service Worker: ${workerUrl}\n`); // Help the SW to be immediately destroyed after unregistering it. Services.prefs.setIntPref("dom.serviceWorkers.idle_timeout", 0); const swm = Cc["@mozilla.org/serviceworkers/manager;1"].getService( Ci.nsIServiceWorkerManager ); // Unfortunately we can't use swm.getRegistrationByPrincipal, as it requires a "scope", which doesn't seem to be the worker URL. // So let's use getAllRegistrations to find the nsIServiceWorkerInfo in order to: // - retrieve its active worker, // - call attach+detachDebugger, // - reset the idle timeout. // This way, the unregister instruction is immediate, thanks to the 0 dom.serviceWorkers.idle_timeout we set at the beginning of the function const registrations = swm.getAllRegistrations(); let matchedInfo; for (let i = 0; i < registrations.length; i++) { const info = registrations.queryElementAt( i, Ci.nsIServiceWorkerRegistrationInfo ); // Lookup for an exact URL match. if (info.scriptSpec === workerUrl) { matchedInfo = info; break; } } ok(!!matchedInfo, "Found the service worker info"); info("Wait for the worker to be active"); await waitFor(() => matchedInfo.activeWorker, "Wait for the SW to be active"); // We need to attach+detach the debugger in order to reset the idle timeout. // Otherwise the worker would still be waiting for a previously registered timeout // which would be the 0ms one we set by tweaking the preference. function resetWorkerTimeout(worker) { worker.attachDebugger(); worker.detachDebugger(); } resetWorkerTimeout(matchedInfo.activeWorker); // Also reset all the other possible worker instances if (matchedInfo.evaluatingWorker) { resetWorkerTimeout(matchedInfo.evaluatingWorker); } if (matchedInfo.installingWorker) { resetWorkerTimeout(matchedInfo.installingWorker); } if (matchedInfo.waitingWorker) { resetWorkerTimeout(matchedInfo.waitingWorker); } // Reset this preference in order to ensure other SW are not immediately destroyed. Services.prefs.clearUserPref("dom.serviceWorkers.idle_timeout"); // Spin the event loop to ensure the worker had time to really be shut down. await wait(0); return matchedInfo; } /** * Helper method to stop and unregister a Service Worker promptly. * * @param {String} workerUrl * Absolute Worker URL to unregister. */ async function unregisterServiceWorker(workerUrl) { const swInfo = await stopServiceWorker(workerUrl); info(`Unregister Service Worker: ${workerUrl}\n`); // Now call unregister on that worker so that it can be destroyed immediately const swm = Cc["@mozilla.org/serviceworkers/manager;1"].getService( Ci.nsIServiceWorkerManager ); const unregisterSuccess = await new Promise(resolve => { swm.unregister( swInfo.principal, { unregisterSucceeded(success) { resolve(success); }, }, swInfo.scope ); }); ok(unregisterSuccess, "Service worker successfully unregistered"); }