/* Any copyright is dedicated to the Public Domain. * http://creativecommons.org/publicdomain/zero/1.0/ */ "use strict"; const { OS } = ChromeUtils.import("resource://gre/modules/osfile.jsm"); const { RemoteAgent } = ChromeUtils.importESModule( "chrome://remote/content/components/RemoteAgent.sys.mjs" ); const { RemoteAgentError } = ChromeUtils.importESModule( "chrome://remote/content/cdp/Error.sys.mjs" ); const { TabManager } = ChromeUtils.importESModule( "chrome://remote/content/shared/TabManager.sys.mjs" ); const TIMEOUT_MULTIPLIER = SpecialPowers.isDebugBuild ? 4 : 1; const TIMEOUT_EVENTS = 1000 * TIMEOUT_MULTIPLIER; /* add_task() is overriden to setup and teardown a test environment making it easier to write browser-chrome tests for the remote debugger. Before the task is run, the nsIRemoteAgent listener is started and a CDP client is connected to it. A new tab is also added. These three things are exposed to the provided task like this: add_task(async function testName(client, CDP, tab) { // client is an instance of the CDP class // CDP is ./chrome-remote-interface.js // tab is a fresh tab, destroyed after the test }); Also target discovery is getting enabled, which means that targetCreated, targetDestroyed, and targetInfoChanged events will be received by the client. add_plain_task() may be used to write test tasks without the implicit setup and teardown described above. */ const add_plain_task = add_task.bind(this); this.add_task = function(taskFn, opts = {}) { const { createTab = true, // By default run each test in its own tab } = opts; const fn = async function() { let client, tab, target; try { const CDP = await getCDP(); if (createTab) { tab = await BrowserTestUtils.openNewForegroundTab(gBrowser); const tabId = TabManager.getIdForBrowser(tab.linkedBrowser); const targets = await CDP.List(); target = targets.find(target => target.id === tabId); } client = await CDP({ target }); info("CDP client instantiated"); // Bug 1605722 - Workaround to not hang when waiting for Target events await getDiscoveredTargets(client.Target); await taskFn({ client, CDP, tab }); if (createTab) { // taskFn may resolve within a tick after opening a new tab. // We shouldn't remove the newly opened tab in the same tick. // Wait for the next tick here. await TestUtils.waitForTick(); BrowserTestUtils.removeTab(tab); } } catch (e) { // Display better error message with the server side stacktrace // if an error happened on the server side: if (e.response) { throw RemoteAgentError.fromJSON(e.response); } else { throw e; } } finally { if (client) { await client.close(); info("CDP client closed"); } // Close any additional tabs, so that only a single tab remains open while (gBrowser.tabs.length > 1) { gBrowser.removeCurrentTab(); } } }; Object.defineProperty(fn, "name", { value: taskFn.name, writable: false }); add_plain_task(fn); }; /** * Create a test document in an invisible window. * This window will be automatically closed on test teardown. */ function createTestDocument() { const browser = Services.appShell.createWindowlessBrowser(true); registerCleanupFunction(() => browser.close()); // Create a system principal content viewer to ensure there is a valid // empty document using system principal and avoid any wrapper issues // when using document's JS Objects. const webNavigation = browser.docShell.QueryInterface(Ci.nsIWebNavigation); const system = Services.scriptSecurityManager.getSystemPrincipal(); webNavigation.createAboutBlankContentViewer(system, system); return webNavigation.document; } /** * Retrieve an intance of CDP object from chrome-remote-interface library */ async function getCDP() { // Instantiate a background test document in order to load the library // as in a web page const document = createTestDocument(); const window = document.defaultView.wrappedJSObject; Services.scriptloader.loadSubScript( "chrome://mochitests/content/browser/remote/cdp/test/browser/chrome-remote-interface.js", window ); // Implements `criRequest` to be called by chrome-remote-interface // library in order to do the cross-domain http request, which, // in a regular Web page, is impossible. window.criRequest = (options, callback) => { const { path } = options; const url = `http://${RemoteAgent.host}:${RemoteAgent.port}${path}`; const xhr = new XMLHttpRequest(); xhr.open("GET", url, true); // Prevent "XML Parsing Error: syntax error" error messages xhr.overrideMimeType("text/plain"); xhr.send(null); xhr.onload = () => callback(null, xhr.responseText); xhr.onerror = e => callback(e, null); }; return window.CDP; } async function getScrollbarSize() { return SpecialPowers.spawn(gBrowser.selectedBrowser, [], () => { const scrollbarHeight = {}; const scrollbarWidth = {}; content.windowUtils.getScrollbarSize( false, scrollbarWidth, scrollbarHeight ); return { width: scrollbarWidth.value, height: scrollbarHeight.value, }; }); } function getTargets(CDP) { return new Promise((resolve, reject) => { CDP.List(null, (err, targets) => { if (err) { reject(err); return; } resolve(targets); }); }); } // Wait for all Target.targetCreated events. One for each tab, plus the one // for the main process target. async function getDiscoveredTargets(Target) { return new Promise(resolve => { const targets = []; const unsubscribe = Target.targetCreated(target => { targets.push(target); if (targets.length >= gBrowser.tabs.length + 1) { unsubscribe(); resolve(targets); } }); Target.setDiscoverTargets({ discover: true }); }); } async function openTab(Target, options = {}) { const { activate = false } = options; info("Create a new tab and wait for the target to be created"); const targetCreated = Target.targetCreated(); const newTab = await BrowserTestUtils.openNewForegroundTab(gBrowser); const { targetInfo } = await targetCreated; is(targetInfo.type, "page"); if (activate) { await Target.activateTarget({ targetId: targetInfo.targetId, }); info(`New tab with target id ${targetInfo.targetId} created and activated`); } else { info(`New tab with target id ${targetInfo.targetId} created`); } return { targetInfo, newTab }; } async function openWindow(Target, options = {}) { const { activate = false } = options; info("Create a new window and wait for the target to be created"); const targetCreated = Target.targetCreated(); const newWindow = await BrowserTestUtils.openNewBrowserWindow(); const newTab = newWindow.gBrowser.selectedTab; const { targetInfo } = await targetCreated; is(targetInfo.type, "page"); if (activate) { await Target.activateTarget({ targetId: targetInfo.targetId, }); info( `New window with target id ${targetInfo.targetId} created and activated` ); } else { info(`New window with target id ${targetInfo.targetId} created`); } return { targetInfo, newWindow, newTab }; } /** Creates a data URL for the given source document. */ function toDataURL(src, doctype = "html") { let doc, mime; switch (doctype) { case "html": mime = "text/html;charset=utf-8"; doc = `\n\n${src}`; break; default: throw new Error("Unexpected doctype: " + doctype); } return `data:${mime},${encodeURIComponent(doc)}`; } function convertArgument(arg) { if (typeof arg === "bigint") { return { unserializableValue: `${arg.toString()}n` }; } if (Object.is(arg, -0)) { return { unserializableValue: "-0" }; } if (Object.is(arg, Infinity)) { return { unserializableValue: "Infinity" }; } if (Object.is(arg, -Infinity)) { return { unserializableValue: "-Infinity" }; } if (Object.is(arg, NaN)) { return { unserializableValue: "NaN" }; } return { value: arg }; } async function evaluate(client, contextId, pageFunction, ...args) { const { Runtime } = client; if (typeof pageFunction === "string") { return Runtime.evaluate({ expression: pageFunction, contextId, returnByValue: true, awaitPromise: true, }); } else if (typeof pageFunction === "function") { return Runtime.callFunctionOn({ functionDeclaration: pageFunction.toString(), executionContextId: contextId, arguments: args.map(convertArgument), returnByValue: true, awaitPromise: true, }); } throw new Error("pageFunction: expected 'string' or 'function'"); } /** * Load a given URL in the currently selected tab */ async function loadURL(url, expectedURL = undefined) { expectedURL = expectedURL || url; const browser = gBrowser.selectedTab.linkedBrowser; const loaded = BrowserTestUtils.browserLoaded(browser, true, expectedURL); BrowserTestUtils.loadURI(browser, url); await loaded; } /** * Enable the Runtime domain */ async function enableRuntime(client) { const { Runtime } = client; // Enable watching for new execution context await Runtime.enable(); info("Runtime domain has been enabled"); // Calling Runtime.enable will emit executionContextCreated for the existing contexts const { context } = await Runtime.executionContextCreated(); ok(!!context.id, "The execution context has an id"); ok(context.auxData.isDefault, "The execution context is the default one"); ok(!!context.auxData.frameId, "The execution context has a frame id set"); return context; } /** * Retrieve the value of a property on the content window. */ function getContentProperty(prop) { info(`Retrieve ${prop} on the content window`); return SpecialPowers.spawn( gBrowser.selectedBrowser, [prop], _prop => content[_prop] ); } /** * Retrieve all frames for the current tab as flattened list. * * @return {Map} * Flattened list of frames as Map */ async function getFlattenedFrameTree(client) { const { Page } = client; function flatten(frames) { return frames.reduce((result, current) => { result.set(current.frame.id, current.frame); if (current.childFrames) { const frames = flatten(current.childFrames); result = new Map([...result, ...frames]); } return result; }, new Map()); } const { frameTree } = await Page.getFrameTree(); return flatten(Array(frameTree)); } /** * Return a new promise, which resolves after ms have been elapsed */ function timeoutPromise(ms) { return new Promise(resolve => { window.setTimeout(resolve, ms); }); } /** Fail a test. */ function fail(message) { ok(false, message); } /** * Create a file with the specified contents. * * @param {string} contents * Contents of the file. * @param {Object} options * @param {string=} options.path * Path of the file. Defaults to the temporary directory. * @param {boolean=} options.remove * If true, automatically remove the file after the test. Defaults to true. * * @return {Promise} * @resolves {string} * Returns the final path of the created file. */ async function createFile(contents, options = {}) { let { path = null, remove = true } = options; if (!path) { const basePath = OS.Path.join(OS.Constants.Path.tmpDir, "remote-agent.txt"); const { file, path: tmpPath } = await OS.File.openUnique(basePath, { humanReadable: true, }); await file.close(); path = tmpPath; } let encoder = new TextEncoder(); let array = encoder.encode(contents); const count = await OS.File.writeAtomic(path, array, { encoding: "utf-8", tmpPath: path + ".tmp", }); is(count, contents.length, "All data has been written to file"); const file = await OS.File.open(path); // Automatically remove the file once the test has finished if (remove) { registerCleanupFunction(async () => { await file.close(); await OS.File.remove(path, { ignoreAbsent: true }); }); } return { file, path }; } async function throwScriptError(options = {}) { const { inContent = true } = options; const addScriptErrorInternal = ({ options }) => { const { flag = Ci.nsIScriptError.errorFlag, innerWindowId = content.windowGlobalChild.innerWindowId, } = options; const scriptError = Cc["@mozilla.org/scripterror;1"].createInstance( Ci.nsIScriptError ); scriptError.initWithWindowID( options.text, options.sourceName || "sourceName", null, options.lineNumber || 0, options.columnNumber || 0, flag, options.category || "javascript", innerWindowId ); Services.console.logMessage(scriptError); }; if (inContent) { ContentTask.spawn( gBrowser.selectedBrowser, { options }, addScriptErrorInternal ); } else { options.innerWindowId = window.windowGlobalChild.innerWindowId; addScriptErrorInternal({ options }); } } class RecordEvents { /** * A timeline of events chosen by calls to `addRecorder`. * Call `configure`` for each client event you want to record. * Then `await record(someTimeout)` to record a timeline that you * can make assertions about. * * const history = new RecordEvents(expectedNumberOfEvents); * * history.addRecorder({ * event: Runtime.executionContextDestroyed, * eventName: "Runtime.executionContextDestroyed", * messageFn: payload => { * return `Received Runtime.executionContextDestroyed for id ${payload.executionContextId}`; * }, * }); * * * @param {number} total * Number of expected events. Stop recording when this number is exceeded. * */ constructor(total) { this.events = []; this.promises = new Set(); this.subscriptions = new Set(); this.total = total; } /** * Configure an event to be recorded and logged. * The recording stops once we accumulate more than the expected * total of all configured events. * * @param {Object} options * @param {CDPEvent} options.event * https://github.com/cyrus-and/chrome-remote-interface#clientdomaineventcallback * @param {string} options.eventName * Name to use for reporting. * @param {Function=} options.callback * ({ eventName, payload }) => {} to be called when each event is received * @param {function(payload):string=} options.messageFn */ addRecorder(options = {}) { const { event, eventName, messageFn = () => `Recorded ${eventName}`, callback, } = options; const promise = new Promise(resolve => { const unsubscribe = event(payload => { info(messageFn(payload)); this.events.push({ eventName, payload, index: this.events.length }); callback?.({ eventName, payload, index: this.events.length - 1 }); if (this.events.length > this.total) { this.subscriptions.delete(unsubscribe); unsubscribe(); resolve(this.events); } }); this.subscriptions.add(unsubscribe); }); this.promises.add(promise); } /** * Register a promise to await while recording the timeline. The returned * callback resolves the registered promise and adds `step` * to the timeline, along with an associated payload, if provided. * * @param {string} step * @return {Function} callback */ addPromise(step) { let callback; const promise = new Promise(resolve => { callback = value => { resolve(); info(`Recorded ${step}`); this.events.push({ eventName: step, payload: value, index: this.events.length, }); return value; }; }); this.promises.add(promise); return callback; } /** * Record events until we hit the timeout or the expected total is exceeded. * * @param {number=} timeout * Timeout in milliseconds. Defaults to 1000. * * @return {Array<{ eventName, payload, index }>} Recorded events */ async record(timeout = TIMEOUT_EVENTS) { await Promise.race([Promise.all(this.promises), timeoutPromise(timeout)]); for (const unsubscribe of this.subscriptions) { unsubscribe(); } return this.events; } /** * Filter events based on predicate * * @param {Function} predicate * * @return {Array<{ eventName, payload, index }>} * The list of events matching the filter. */ filter(predicate) { return this.events.filter(predicate); } /** * Find first occurrence of the given event. * * @param {string} eventName * * @return {{ eventName, payload, index }} The event, if any. */ findEvent(eventName) { const event = this.events.find(el => el.eventName == eventName); if (event) { return event; } return {}; } /** * Find given events. * * @param {string} eventName * * @return {Array<{ eventName, payload, index }>} * The events, if any. */ findEvents(eventName) { return this.events.filter(event => event.eventName == eventName); } /** * Find index of first occurrence of the given event. * * @param {string} eventName * * @return {number} The event index, -1 if not found. */ indexOf(eventName) { const event = this.events.find(el => el.eventName == eventName); if (event) { return event.index; } return -1; } }