gecko-dev/testing/mochitest/browser-test.js

1513 строки
52 KiB
JavaScript

/* -*- js-indent-level: 2; tab-width: 2; indent-tabs-mode: nil -*- */
/* eslint-env mozilla/browser-window */
/* import-globals-from chrome-harness.js */
/* import-globals-from mochitest-e10s-utils.js */
// Test timeout (seconds)
var gTimeoutSeconds = 45;
var gConfig;
var gSaveInstrumentationData = null;
ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm");
ChromeUtils.import("resource://gre/modules/AppConstants.jsm");
ChromeUtils.import("resource://gre/modules/Services.jsm");
ChromeUtils.defineModuleGetter(this, "ContentSearch",
"resource:///modules/ContentSearch.jsm");
const SIMPLETEST_OVERRIDES =
["ok", "is", "isnot", "todo", "todo_is", "todo_isnot", "info", "expectAssertions", "requestCompleteLog"];
// non-android is bootstrapped by marionette
if (Services.appinfo.OS == "Android") {
window.addEventListener("load", function() {
window.addEventListener("MozAfterPaint", function() {
setTimeout(testInit, 0);
}, {once: true});
}, {once: true});
} else {
setTimeout(testInit, 0);
}
var TabDestroyObserver = {
outstanding: new Set(),
promiseResolver: null,
init() {
Services.obs.addObserver(this, "message-manager-close");
Services.obs.addObserver(this, "message-manager-disconnect");
},
destroy() {
Services.obs.removeObserver(this, "message-manager-close");
Services.obs.removeObserver(this, "message-manager-disconnect");
},
observe(subject, topic, data) {
if (topic == "message-manager-close") {
this.outstanding.add(subject);
} else if (topic == "message-manager-disconnect") {
this.outstanding.delete(subject);
if (!this.outstanding.size && this.promiseResolver) {
this.promiseResolver();
}
}
},
wait() {
if (!this.outstanding.size) {
return Promise.resolve();
}
return new Promise((resolve) => {
this.promiseResolver = resolve;
});
},
};
function testInit() {
gConfig = readConfig();
if (gConfig.testRoot == "browser") {
// Make sure to launch the test harness for the first opened window only
var prefs = Services.prefs;
if (prefs.prefHasUserValue("testing.browserTestHarness.running"))
return;
prefs.setBoolPref("testing.browserTestHarness.running", true);
if (prefs.prefHasUserValue("testing.browserTestHarness.timeout"))
gTimeoutSeconds = prefs.getIntPref("testing.browserTestHarness.timeout");
var sstring = Cc["@mozilla.org/supports-string;1"].
createInstance(Ci.nsISupportsString);
sstring.data = location.search;
Services.ww.openWindow(window, "chrome://mochikit/content/browser-harness.xul", "browserTest",
"chrome,centerscreen,dialog=no,resizable,titlebar,toolbar=no,width=800,height=600", sstring);
} else {
// This code allows us to redirect without requiring specialpowers for chrome and a11y tests.
let messageHandler = function(m) {
// eslint-disable-next-line no-undef
messageManager.removeMessageListener("chromeEvent", messageHandler);
var url = m.json.data;
// Window is the [ChromeWindow] for messageManager, so we need content.window
// Currently chrome tests are run in a content window instead of a ChromeWindow
// eslint-disable-next-line no-undef
var webNav = content.window.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIWebNavigation);
webNav.loadURI(url, null, null, null, null);
};
var listener = 'data:,function doLoad(e) { var data=e.detail&&e.detail.data;removeEventListener("contentEvent", function (e) { doLoad(e); }, false, true);sendAsyncMessage("chromeEvent", {"data":data}); };addEventListener("contentEvent", function (e) { doLoad(e); }, false, true);';
// eslint-disable-next-line no-undef
messageManager.addMessageListener("chromeEvent", messageHandler);
// eslint-disable-next-line no-undef
messageManager.loadFrameScript(listener, true);
}
if (gConfig.e10s) {
e10s_init();
let processCount = prefs.getIntPref("dom.ipc.processCount", 1);
if (processCount > 1) {
// Currently starting a content process is slow, to aviod timeouts, let's
// keep alive content processes.
prefs.setIntPref("dom.ipc.keepProcessesAlive.web", processCount);
}
Services.mm.loadFrameScript("chrome://mochikit/content/shutdown-leaks-collector.js", true);
} else {
// In non-e10s, only run the ShutdownLeaksCollector in the parent process.
ChromeUtils.import("chrome://mochikit/content/ShutdownLeaksCollector.jsm");
}
Services.mm.loadFrameScript("chrome://mochikit/content/tests/SimpleTest/AsyncUtilsContent.js", true);
var testSuite = Cc["@mozilla.org/process/environment;1"].
getService(Ci.nsIEnvironment).
get("TEST_SUITE");
if (testSuite == "browser-chrome-instrumentation") {
takeInstrumentation();
}
}
function takeInstrumentation() {
let instrumentData = {
elements: {}
};
function pad(str, length) {
if (str.length >= length)
return str;
return str + " ".repeat(length - str.length);
}
function byCount(a, b) {
return b[1] - a[1];
}
function getSummaryText() {
let summary = [];
let allData = {};
for (let selector of Object.keys(instrumentData.elements)) {
allData[selector] = instrumentData.elements[selector];
}
let selectors = Object.keys(allData);
let elements = selectors.map(s => allData[s]);
let namespaceMap = new Map();
let bindingMap = new Map();
for (let element of elements) {
if (!bindingMap.has(element.binding)) {
bindingMap.set(element.binding, 1);
} else {
bindingMap.set(element.binding, bindingMap.get(element.binding) + 1);
}
if (!namespaceMap.has(element.namespaceURI)) {
namespaceMap.set(element.namespaceURI, new Map());
}
let localNameMap = namespaceMap.get(element.namespaceURI);
if (!localNameMap.has(element.localName)) {
localNameMap.set(element.localName, 1);
} else {
localNameMap.set(element.localName, localNameMap.get(element.localName) + 1);
}
}
for (let [namespace, localNameMap] of namespaceMap) {
summary.push(`Elements in namespace ${namespace}`);
let entries = Array.from(localNameMap);
entries.sort(byCount);
for (let entry of entries) {
summary.push(` ${pad(entry[1] + "", 5)} ${entry[0]}`);
}
}
summary.push("XBL bindings");
let bindings = Array.from(bindingMap);
bindings.sort(byCount);
let bindingsJSON = {};
for (let binding of bindings) {
summary.push(` ${pad(binding[1] + "", 5)} ${binding[0]}`);
if (binding[0]) {
bindingsJSON[binding[0].split("#")[1].split('"')[0]] = binding[1];
}
}
summary.push("XBL bindings as JSON");
summary.push(JSON.stringify(bindingsJSON, null, 2));
return summary.join("\n");
}
// Saves instrumantation data
function saveData() {
let path = Cc["@mozilla.org/process/environment;1"].
getService(Ci.nsIEnvironment).
get("MOZ_UPLOAD_DIR");
let encoder = new TextEncoder();
let instrumentPath = OS.Path.join(path, "xulinstrument.txt");
OS.File.writeAtomic(instrumentPath, encoder.encode(JSON.stringify(instrumentData, null, 2)));
let summaryPath = OS.Path.join(path, "xulsummary.txt");
OS.File.writeAtomic(summaryPath, encoder.encode(getSummaryText()));
}
// An iterator over an element and its ancestors
function* elementPath(element) {
yield element;
while ((element = element.parentNode) && (element instanceof Element)) {
yield element;
}
}
// Returns the information we care about for an element
function getElementInfo(element) {
let style = element.ownerGlobal.getComputedStyle(element);
let binding = style && style.getPropertyValue("-moz-binding");
return {
namespaceURI: element.namespaceURI,
localName: element.localName,
binding: (binding && binding != "none") ? binding : null,
};
}
// The selector for just this element
function immediateSelector(element) {
if (element.localName == "notificationbox" && element.parentNode &&
element.parentNode.classList.contains("tabbrowser-tabpanels")) {
// Don't do a full selector for a tabpanel's notificationbox
return element.localName;
}
if (element.localName == "tab" && element.classList.contains("tabbrowser-tab")) {
// Don't do a full selector for a tab
return element.localName;
}
if (element.id) {
return `#${element.id}`;
}
let selector = element.localName;
if (element.classList.length) {
selector += `.${Array.from(element.classList).join(".")}`;
}
for (let attr of ["src", "label"]) {
if (element.hasAttribute(attr)) {
selector += `[${attr}=${JSON.stringify(element.getAttribute(attr))}]`;
}
}
return selector;
}
// The selector chain for the element
function elementSelector(element) {
return Array.from(elementPath(element)).reverse().map(immediateSelector).join(" > ");
}
// An iterator over all elements in the window
function* windowElements(win) {
yield* elementDescendants(win.document.documentElement);
}
// An iterator over an element and all of its descendants
function* elementDescendants(element) {
let walker = Cc["@mozilla.org/inspector/deep-tree-walker;1"].
createInstance(Ci.inIDeepTreeWalker);
walker.showAnonymousContent = true;
walker.showSubDocuments = false;
walker.showDocumentsAsNodes = false;
walker.init(element, NodeFilter.SHOW_ELEMENT);
yield element;
while (walker.nextNode()) {
if (walker.currentNode instanceof Element) {
yield walker.currentNode;
}
}
}
// Checks if we've seen an element and if not adds it to the instrumentation data
function instrumentElement(element) {
if (element.__instrumentSeen) {
return;
}
let selector = elementSelector(element);
element.__instrumentSeen = true;
if (selector in instrumentData.elements) {
return;
}
instrumentData.elements[selector] = getElementInfo(element);
}
// Instruments every element in a window
function scanWindow(win) {
Array.from(windowElements(win)).forEach(instrumentElement);
}
// Instruments every element in an element's descendants
function scanElement(element) {
Array.from(elementDescendants(element)).forEach(instrumentElement);
}
function handleMutation(mutation) {
if (mutation.type != "childList") {
return;
}
for (let node of mutation.addedNodes) {
if (node instanceof Element) {
scanElement(node);
}
}
}
// Watches a window for new elements to instrument
function observeWindow(win) {
let observer = new MutationObserver((mutations) => {
mutations.forEach(handleMutation);
});
observer.observe(win.document, {
childList: true,
subtree: true,
});
win.addEventListener("unload", () => {
observer.takeRecords().forEach(handleMutation);
}, { once: true });
}
scanWindow(window);
observeWindow(window);
gSaveInstrumentationData = saveData;
Services.ww.registerNotification((win, topic, data) => {
if (topic != "domwindowopened") {
return;
}
win.addEventListener("load", () => {
if (win.location.href != "chrome://browser/content/browser.xul") {
return;
}
scanWindow(win);
observeWindow(win);
}, { once: true });
});
}
function isGenerator(value) {
return value && typeof value === "object" && typeof value.next === "function";
}
function Tester(aTests, structuredLogger, aCallback) {
this.structuredLogger = structuredLogger;
this.tests = aTests;
this.callback = aCallback;
this._scriptLoader = Services.scriptloader;
this.EventUtils = {};
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/EventUtils.js", this.EventUtils);
// In order to allow existing tests to continue using unsafe CPOWs
// with EventUtils, we need to load a separate copy into a sandbox
// which has unsafe CPOW usage whitelisted.
this.cpowSandbox = Cu.Sandbox(window, {sandboxPrototype: window});
Cu.permitCPOWsInScope(this.cpowSandbox);
this.cpowEventUtils = new this.cpowSandbox.Object();
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/EventUtils.js", this.cpowEventUtils);
var simpleTestScope = {};
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/specialpowersAPI.js", simpleTestScope);
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/SpecialPowersObserverAPI.js", simpleTestScope);
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/ChromePowers.js", simpleTestScope);
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/SimpleTest.js", simpleTestScope);
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/MemoryStats.js", simpleTestScope);
this._scriptLoader.loadSubScript("chrome://mochikit/content/chrome-harness.js", simpleTestScope);
this.SimpleTest = simpleTestScope.SimpleTest;
var extensionUtilsScope = {
registerCleanupFunction: (fn) => {
this.currentTest.scope.registerCleanupFunction(fn);
},
};
extensionUtilsScope.SimpleTest = this.SimpleTest;
this._scriptLoader.loadSubScript("chrome://mochikit/content/tests/SimpleTest/ExtensionTestUtils.js", extensionUtilsScope);
this.ExtensionTestUtils = extensionUtilsScope.ExtensionTestUtils;
this.SimpleTest.harnessParameters = gConfig;
this.MemoryStats = simpleTestScope.MemoryStats;
this.ContentTask = ChromeUtils.import("resource://testing-common/ContentTask.jsm", null).ContentTask;
this.BrowserTestUtils = ChromeUtils.import("resource://testing-common/BrowserTestUtils.jsm", null).BrowserTestUtils;
this.TestUtils = ChromeUtils.import("resource://testing-common/TestUtils.jsm", null).TestUtils;
this.Promise = ChromeUtils.import("resource://gre/modules/Promise.jsm", null).Promise;
this.PromiseTestUtils = ChromeUtils.import("resource://testing-common/PromiseTestUtils.jsm", null).PromiseTestUtils;
this.Assert = ChromeUtils.import("resource://testing-common/Assert.jsm", null).Assert;
this.PromiseTestUtils.init();
this.SimpleTestOriginal = {};
SIMPLETEST_OVERRIDES.forEach(m => {
this.SimpleTestOriginal[m] = this.SimpleTest[m];
});
this._coverageCollector = null;
const XPCOMUtilsMod = ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm", {});
// Avoid failing tests when XPCOMUtils.defineLazyScriptGetter is used.
XPCOMUtilsMod.Services = Object.create(Services, {
scriptloader: {
configurable: true,
writable: true,
value: {
loadSubScript: (url, obj, charset) => {
let before = Object.keys(window);
try {
return this._scriptLoader.loadSubScript(url, obj, charset);
} finally {
for (let property of Object.keys(window)) {
if (!before.includes(property) && !this._globalProperties.includes(property)) {
this._globalProperties.push(property);
this.SimpleTest.info("Global property added while loading " + url + ": " + property);
}
}
}
},
loadSubScriptWithOptions: this._scriptLoader.loadSubScriptWithOptions.bind(this._scriptLoader),
},
},
});
}
Tester.prototype = {
EventUtils: {},
SimpleTest: {},
ContentTask: null,
ExtensionTestUtils: null,
Assert: null,
repeat: 0,
runUntilFailure: false,
checker: null,
currentTestIndex: -1,
lastStartTime: null,
lastAssertionCount: 0,
failuresFromInitialWindowState: 0,
get currentTest() {
return this.tests[this.currentTestIndex];
},
get done() {
return (this.currentTestIndex == this.tests.length - 1) && (this.repeat <= 0);
},
start: function Tester_start() {
TabDestroyObserver.init();
// if testOnLoad was not called, then gConfig is not defined
if (!gConfig)
gConfig = readConfig();
if (gConfig.runUntilFailure)
this.runUntilFailure = true;
if (gConfig.repeat)
this.repeat = gConfig.repeat;
if (gConfig.jscovDirPrefix) {
let coveragePath = gConfig.jscovDirPrefix;
let {CoverageCollector} = ChromeUtils.import("resource://testing-common/CoverageUtils.jsm",
{});
this._coverageCollector = new CoverageCollector(coveragePath);
}
this.structuredLogger.info("*** Start BrowserChrome Test Results ***");
Services.console.registerListener(this);
this._globalProperties = Object.keys(window);
this._globalPropertyWhitelist = [
"navigator", "constructor", "top",
"Application",
"__SS_tabsToRestore", "__SSi",
"webConsoleCommandController",
];
if (this.tests.length) {
this.waitForWindowsReady().then(() => {
this.nextTest();
});
} else {
this.finish();
}
},
async waitForWindowsReady() {
await new Promise(resolve => this.waitForGraphicsTestWindowToBeGone(resolve));
await this.promiseMainWindowReady();
},
async promiseMainWindowReady() {
if (!gBrowserInit.idleTasksFinished) {
await this.TestUtils.topicObserved("browser-idle-startup-tasks-finished",
subject => subject === window);
}
},
waitForGraphicsTestWindowToBeGone(aCallback) {
let windowsEnum = Services.wm.getEnumerator(null);
while (windowsEnum.hasMoreElements()) {
let win = windowsEnum.getNext();
if (win != window && !win.closed &&
win.document.documentURI == "chrome://gfxsanity/content/sanityparent.html") {
this.BrowserTestUtils.domWindowClosed(win).then(aCallback);
return;
}
}
// graphics test window is already gone, just call callback immediately
aCallback();
},
waitForWindowsState: function Tester_waitForWindowsState(aCallback) {
let timedOut = this.currentTest && this.currentTest.timedOut;
// eslint-disable-next-line no-nested-ternary
let baseMsg = timedOut ? "Found a {elt} after previous test timed out"
: this.currentTest ? "Found an unexpected {elt} at the end of test run"
: "Found an unexpected {elt}";
// Remove stale tabs
if (this.currentTest && window.gBrowser && gBrowser.tabs.length > 1) {
while (gBrowser.tabs.length > 1) {
let lastTab = gBrowser.tabContainer.lastChild;
if (!lastTab.closing) {
// Report the stale tab as an error only when they're not closing.
// Tests can finish without waiting for the closing tabs.
this.currentTest.addResult(new testResult({
name: baseMsg.replace("{elt}", "tab") + ": " +
lastTab.linkedBrowser.currentURI.spec,
allowFailure: this.currentTest.allowFailure,
}));
}
gBrowser.removeTab(lastTab);
}
}
// Replace the last tab with a fresh one
if (window.gBrowser) {
gBrowser.addTab("about:blank", { skipAnimation: true });
gBrowser.removeTab(gBrowser.selectedTab, { skipPermitUnload: true });
gBrowser.stop();
}
// Remove stale windows
this.structuredLogger.info("checking window state");
let windowsEnum = Services.wm.getEnumerator(null);
while (windowsEnum.hasMoreElements()) {
let win = windowsEnum.getNext();
if (win != window && !win.closed &&
win.document.documentElement.getAttribute("id") != "browserTestHarness") {
let type = win.document.documentElement.getAttribute("windowtype");
switch (type) {
case "navigator:browser":
type = "browser window";
break;
case null:
type = "unknown window with document URI: " + win.document.documentURI +
" and title: " + win.document.title;
break;
}
let msg = baseMsg.replace("{elt}", type);
if (this.currentTest) {
this.currentTest.addResult(new testResult({
name: msg,
allowFailure: this.currentTest.allowFailure,
}));
} else {
this.failuresFromInitialWindowState++;
this.structuredLogger.error("browser-test.js | " + msg);
}
win.close();
}
}
// Make sure the window is raised before each test.
this.SimpleTest.waitForFocus(aCallback);
},
finish: function Tester_finish(aSkipSummary) {
var passCount = this.tests.reduce((a, f) => a + f.passCount, 0);
var failCount = this.tests.reduce((a, f) => a + f.failCount, 0);
var todoCount = this.tests.reduce((a, f) => a + f.todoCount, 0);
// Include failures from window state checking prior to running the first test
failCount += this.failuresFromInitialWindowState;
TabDestroyObserver.destroy();
Services.console.unregisterListener(this);
// It's important to terminate the module to avoid crashes on shutdown.
this.PromiseTestUtils.uninit();
// In the main process, we print the ShutdownLeaksCollector message here.
let pid = Services.appinfo.processID;
dump("Completed ShutdownLeaks collections in process " + pid + "\n");
this.structuredLogger.info("TEST-START | Shutdown");
if (this.tests.length) {
let e10sMode = gMultiProcessBrowser ? "e10s" : "non-e10s";
this.structuredLogger.info("Browser Chrome Test Summary");
this.structuredLogger.info("Passed: " + passCount);
this.structuredLogger.info("Failed: " + failCount);
this.structuredLogger.info("Todo: " + todoCount);
this.structuredLogger.info("Mode: " + e10sMode);
} else {
this.structuredLogger.error("browser-test.js | No tests to run. Did you pass invalid test_paths?");
}
this.structuredLogger.info("*** End BrowserChrome Test Results ***");
// Tests complete, notify the callback and return
this.callback(this.tests);
this.callback = null;
this.tests = null;
if (gSaveInstrumentationData) {
gSaveInstrumentationData();
}
},
haltTests: function Tester_haltTests() {
// Do not run any further tests
this.currentTestIndex = this.tests.length - 1;
this.repeat = 0;
},
observe: function Tester_observe(aSubject, aTopic, aData) {
if (!aTopic) {
this.onConsoleMessage(aSubject);
}
},
onConsoleMessage: function Tester_onConsoleMessage(aConsoleMessage) {
// Ignore empty messages.
if (!aConsoleMessage.message)
return;
try {
var msg = "Console message: " + aConsoleMessage.message;
if (this.currentTest)
this.currentTest.addResult(new testMessage(msg));
else
this.structuredLogger.info("TEST-INFO | (browser-test.js) | " + msg.replace(/\n$/, "") + "\n");
} catch (ex) {
// Swallow exception so we don't lead to another error being reported,
// throwing us into an infinite loop
}
},
async nextTest() {
if (this.currentTest) {
if (this._coverageCollector) {
this._coverageCollector.recordTestCoverage(this.currentTest.path);
}
// Run cleanup functions for the current test before moving on to the
// next one.
let testScope = this.currentTest.scope;
while (testScope.__cleanupFunctions.length > 0) {
let func = testScope.__cleanupFunctions.shift();
try {
let result = await func.apply(testScope);
if (isGenerator(result)) {
this.SimpleTest.ok(false, "Cleanup function returned a generator");
}
} catch (ex) {
this.currentTest.addResult(new testResult({
name: "Cleanup function threw an exception",
ex,
allowFailure: this.currentTest.allowFailure,
}));
}
}
if (this.currentTest.passCount === 0 &&
this.currentTest.failCount === 0 &&
this.currentTest.todoCount === 0) {
this.currentTest.addResult(new testResult({
name: "This test contains no passes, no fails and no todos. Maybe" +
" it threw a silent exception? Make sure you use" +
" waitForExplicitFinish() if you need it.",
}));
}
let winUtils = window.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils);
if (winUtils.isTestControllingRefreshes) {
this.currentTest.addResult(new testResult({
name: "test left refresh driver under test control",
}));
winUtils.restoreNormalRefresh();
}
if (this.SimpleTest.isExpectingUncaughtException()) {
this.currentTest.addResult(new testResult({
name: "expectUncaughtException was called but no uncaught" +
" exception was detected!",
allowFailure: this.currentTest.allowFailure,
}));
}
this.PromiseTestUtils.ensureDOMPromiseRejectionsProcessed();
this.PromiseTestUtils.assertNoUncaughtRejections();
this.PromiseTestUtils.assertNoMoreExpectedRejections();
Object.keys(window).forEach(function(prop) {
if (parseInt(prop) == prop) {
// This is a string which when parsed as an integer and then
// stringified gives the original string. As in, this is in fact a
// string representation of an integer, so an index into
// window.frames. Skip those.
return;
}
if (!this._globalProperties.includes(prop)) {
this._globalProperties.push(prop);
if (!this._globalPropertyWhitelist.includes(prop)) {
this.currentTest.addResult(new testResult({
name: "test left unexpected property on window: " + prop,
allowFailure: this.currentTest.allowFailure,
}));
}
}
}, this);
// Clear document.popupNode. The test could have set it to a custom value
// for its own purposes, nulling it out it will go back to the default
// behavior of returning the last opened popup.
document.popupNode = null;
// eslint-disable-next-line no-undef
await new Promise(resolve => SpecialPowers.flushPrefEnv(resolve));
if (gConfig.cleanupCrashes) {
let gdir = Services.dirsvc.get("UAppData", Ci.nsIFile);
gdir.append("Crash Reports");
gdir.append("pending");
if (gdir.exists()) {
let entries = gdir.directoryEntries;
while (entries.hasMoreElements()) {
let entry = entries.nextFile;
if (entry.isFile()) {
let msg = "this test left a pending crash report; ";
try {
entry.remove(false);
msg += "deleted " + entry.path;
} catch (e) {
msg += "could not delete " + entry.path;
}
this.structuredLogger.info(msg);
}
}
}
}
// Notify a long running test problem if it didn't end up in a timeout.
if (this.currentTest.unexpectedTimeouts && !this.currentTest.timedOut) {
this.currentTest.addResult(new testResult({
name: "This test exceeded the timeout threshold. It should be" +
" rewritten or split up. If that's not possible, use" +
" requestLongerTimeout(N), but only as a last resort.",
}));
}
// If we're in a debug build, check assertion counts. This code
// is similar to the code in TestRunner.testUnloaded in
// TestRunner.js used for all other types of mochitests.
let debugsvc = Cc["@mozilla.org/xpcom/debug;1"].getService(Ci.nsIDebug2);
if (debugsvc.isDebugBuild) {
let newAssertionCount = debugsvc.assertionCount;
let numAsserts = newAssertionCount - this.lastAssertionCount;
this.lastAssertionCount = newAssertionCount;
let max = testScope.__expectedMaxAsserts;
let min = testScope.__expectedMinAsserts;
if (numAsserts > max) {
// TEST-UNEXPECTED-FAIL
this.currentTest.addResult(new testResult({
name: "Assertion count " + numAsserts +
" is greater than expected range " +
min + "-" + max + " assertions.",
pass: true, // TEMPORARILY TEST-KNOWN-FAIL
todo: true,
allowFailure: this.currentTest.allowFailure,
}));
} else if (numAsserts < min) {
// TEST-UNEXPECTED-PASS
this.currentTest.addResult(new testResult({
name: "Assertion count " + numAsserts +
" is less than expected range " +
min + "-" + max + " assertions.",
todo: true,
allowFailure: this.currentTest.allowFailure,
}));
} else if (numAsserts > 0) {
// TEST-KNOWN-FAIL
this.currentTest.addResult(new testResult({
name: "Assertion count " + numAsserts +
" is within expected range " +
min + "-" + max + " assertions.",
pass: true,
todo: true,
allowFailure: this.currentTest.allowFailure,
}));
}
}
if (this.currentTest.allowFailure) {
if (this.currentTest.expectedAllowedFailureCount) {
this.currentTest.addResult(new testResult({
name: "Expected " +
this.currentTest.expectedAllowedFailureCount +
" failures in this file, got " +
this.currentTest.allowedFailureCount + ".",
pass: this.currentTest.expectedAllowedFailureCount ==
this.currentTest.allowedFailureCount,
}));
} else if (this.currentTest.allowedFailureCount == 0) {
this.currentTest.addResult(new testResult({
name: "We expect at least one assertion to fail because this" +
" test file is marked as fail-if in the manifest.",
todo: true,
}));
}
}
// Dump memory stats for main thread.
if (Services.appinfo.processType == Ci.nsIXULRuntime.PROCESS_TYPE_DEFAULT) {
this.MemoryStats.dump(this.currentTestIndex,
this.currentTest.path,
gConfig.dumpOutputDirectory,
gConfig.dumpAboutMemoryAfterTest,
gConfig.dumpDMDAfterTest);
}
// Note the test run time
let time = Date.now() - this.lastStartTime;
this.structuredLogger.testEnd(this.currentTest.path,
"OK",
undefined,
"finished in " + time + "ms");
this.currentTest.setDuration(time);
if (this.runUntilFailure && this.currentTest.failCount > 0) {
this.haltTests();
}
// Restore original SimpleTest methods to avoid leaks.
SIMPLETEST_OVERRIDES.forEach(m => {
this.SimpleTest[m] = this.SimpleTestOriginal[m];
});
this.ContentTask.setTestScope(null);
testScope.destroy();
this.currentTest.scope = null;
}
// Check the window state for the current test before moving to the next one.
// This also causes us to check before starting any tests, since nextTest()
// is invoked to start the tests.
this.waitForWindowsState(() => {
if (this.done) {
if (this._coverageCollector) {
this._coverageCollector.finalize();
}
// Uninitialize a few things explicitly so that they can clean up
// frames and browser intentionally kept alive until shutdown to
// eliminate false positives.
if (gConfig.testRoot == "browser") {
// Skip if SeaMonkey
if (AppConstants.MOZ_APP_NAME != "seamonkey") {
// Replace the document currently loaded in the browser's sidebar.
// This will prevent false positives for tests that were the last
// to touch the sidebar. They will thus not be blamed for leaking
// a document.
let sidebar = document.getElementById("sidebar");
sidebar.setAttribute("src", "data:text/html;charset=utf-8,");
sidebar.docShell.createAboutBlankContentViewer(null);
sidebar.setAttribute("src", "about:blank");
}
// Destroy BackgroundPageThumbs resources.
let {BackgroundPageThumbs} =
ChromeUtils.import("resource://gre/modules/BackgroundPageThumbs.jsm", {});
BackgroundPageThumbs._destroy();
// Destroy preloaded browsers.
if (gBrowser._preloadedBrowser) {
let browser = gBrowser._preloadedBrowser;
gBrowser._preloadedBrowser = null;
gBrowser.getNotificationBox(browser).remove();
}
}
// Schedule GC and CC runs before finishing in order to detect
// DOM windows leaked by our tests or the tested code. Note that we
// use a shrinking GC so that the JS engine will discard JIT code and
// JIT caches more aggressively.
let shutdownCleanup = aCallback => {
Cu.schedulePreciseShrinkingGC(() => {
// Run the GC and CC a few times to make sure that as much
// as possible is freed.
let numCycles = 3;
for (let i = 0; i < numCycles; i++) {
Cu.forceGC();
Cu.forceCC();
}
aCallback();
});
};
let {AsyncShutdown} =
ChromeUtils.import("resource://gre/modules/AsyncShutdown.jsm", {});
let barrier = new AsyncShutdown.Barrier(
"ShutdownLeaks: Wait for cleanup to be finished before checking for leaks");
Services.obs.notifyObservers({wrappedJSObject: barrier},
"shutdown-leaks-before-check");
barrier.client.addBlocker("ShutdownLeaks: Wait for tabs to finish closing",
TabDestroyObserver.wait());
barrier.wait().then(() => {
// Simulate memory pressure so that we're forced to free more resources
// and thus get rid of more false leaks like already terminated workers.
Services.obs.notifyObservers(null, "memory-pressure", "heap-minimize");
Services.ppmm.broadcastAsyncMessage("browser-test:collect-request");
shutdownCleanup(() => {
setTimeout(() => {
shutdownCleanup(() => {
this.finish();
});
}, 1000);
});
});
return;
}
if (this.repeat > 0) {
--this.repeat;
if (this.currentTestIndex < 0) {
this.currentTestIndex = 0;
}
this.execTest();
} else {
this.currentTestIndex++;
if (gConfig.repeat)
this.repeat = gConfig.repeat;
this.execTest();
}
});
},
execTest: function Tester_execTest() {
this.structuredLogger.testStart(this.currentTest.path);
this.SimpleTest.reset();
// Load the tests into a testscope
let currentScope = this.currentTest.scope = new testScope(this, this.currentTest, this.currentTest.expected);
let currentTest = this.currentTest;
// Import utils in the test scope.
let {scope} = this.currentTest;
scope.EventUtils = this.currentTest.usesUnsafeCPOWs ? this.cpowEventUtils : this.EventUtils;
scope.SimpleTest = this.SimpleTest;
scope.gTestPath = this.currentTest.path;
scope.ContentTask = this.ContentTask;
scope.BrowserTestUtils = this.BrowserTestUtils;
scope.TestUtils = this.TestUtils;
scope.ExtensionTestUtils = this.ExtensionTestUtils;
// Pass a custom report function for mochitest style reporting.
scope.Assert = new this.Assert(function(err, message, stack) {
currentTest.addResult(new testResult(err ? {
name: err.message,
ex: err.stack,
stack: err.stack,
allowFailure: currentTest.allowFailure,
} : {
name: message,
pass: true,
stack,
allowFailure: currentTest.allowFailure,
}));
}, true);
this.ContentTask.setTestScope(currentScope);
// Allow Assert.jsm methods to be tacked to the current scope.
scope.export_assertions = function() {
for (let func in this.Assert) {
this[func] = this.Assert[func].bind(this.Assert);
}
};
// Override SimpleTest methods with ours.
SIMPLETEST_OVERRIDES.forEach(function(m) {
this.SimpleTest[m] = this[m];
}, scope);
// load the tools to work with chrome .jar and remote
try {
this._scriptLoader.loadSubScript("chrome://mochikit/content/chrome-harness.js", scope);
} catch (ex) { /* no chrome-harness tools */ }
// Import head.js script if it exists.
var currentTestDirPath =
this.currentTest.path.substr(0, this.currentTest.path.lastIndexOf("/"));
var headPath = currentTestDirPath + "/head.js";
try {
this._scriptLoader.loadSubScript(headPath, scope);
} catch (ex) {
// Ignore if no head.js exists, but report all other errors. Note this
// will also ignore an existing head.js attempting to import a missing
// module - see bug 755558 for why this strategy is preferred anyway.
if (!/^Error opening input stream/.test(ex.toString())) {
this.currentTest.addResult(new testResult({
name: "head.js import threw an exception",
ex,
}));
}
}
// Import the test script.
try {
this._scriptLoader.loadSubScript(this.currentTest.path, scope);
// Run the test
this.lastStartTime = Date.now();
if (this.currentTest.scope.__tasks) {
// This test consists of tasks, added via the `add_task()` API.
if ("test" in this.currentTest.scope) {
throw "Cannot run both a add_task test and a normal test at the same time.";
}
let PromiseTestUtils = this.PromiseTestUtils;
// Allow for a task to be skipped; we need only use the structured logger
// for this, whilst deactivating log buffering to ensure that messages
// are always printed to stdout.
let skipTask = (task) => {
let logger = this.structuredLogger;
logger.deactivateBuffering();
logger.testStatus(this.currentTest.path, task.name, "SKIP");
logger.warning("Skipping test " + task.name);
logger.activateBuffering();
};
(async function() {
let task;
while ((task = this.__tasks.shift())) {
if (task.__skipMe || (this.__runOnlyThisTask && task != this.__runOnlyThisTask)) {
skipTask(task);
continue;
}
this.SimpleTest.info("Entering test " + task.name);
try {
let result = await task();
if (isGenerator(result)) {
this.SimpleTest.ok(false, "Task returned a generator");
}
} catch (ex) {
if (currentTest.timedOut) {
currentTest.addResult(new testResult({
name: "Uncaught exception received from previously timed out test",
pass: false,
ex,
stack: (typeof ex == "object" && "stack" in ex) ? ex.stack : null,
allowFailure: currentTest.allowFailure,
}));
// We timed out, so we've already cleaned up for this test, just get outta here.
return;
}
currentTest.addResult(new testResult({
name: "Uncaught exception",
pass: this.SimpleTest.isExpectingUncaughtException(),
ex,
stack: (typeof ex == "object" && "stack" in ex) ? ex.stack : null,
allowFailure: currentTest.allowFailure,
}));
}
PromiseTestUtils.assertNoUncaughtRejections();
this.SimpleTest.info("Leaving test " + task.name);
}
this.finish();
}).call(currentScope);
} else if (typeof scope.test == "function") {
scope.test();
} else {
throw "This test didn't call add_task, nor did it define a generatorTest() function, nor did it define a test() function, so we don't know how to run it.";
}
} catch (ex) {
if (!this.SimpleTest.isIgnoringAllUncaughtExceptions()) {
this.currentTest.addResult(new testResult({
name: "Exception thrown",
pass: this.SimpleTest.isExpectingUncaughtException(),
ex,
allowFailure: this.currentTest.allowFailure,
}));
this.SimpleTest.expectUncaughtException(false);
} else {
this.currentTest.addResult(new testMessage("Exception thrown: " + ex));
}
this.currentTest.scope.finish();
}
// If the test ran synchronously, move to the next test, otherwise the test
// will trigger the next test when it is done.
if (this.currentTest.scope.__done) {
this.nextTest();
} else {
var self = this;
var timeoutExpires = Date.now() + gTimeoutSeconds * 1000;
var waitUntilAtLeast = timeoutExpires - 1000;
this.currentTest.scope.__waitTimer =
this.SimpleTest._originalSetTimeout.apply(window, [function timeoutFn() {
// We sometimes get woken up long before the gTimeoutSeconds
// have elapsed (when running in chaos mode for example). This
// code ensures that we don't wrongly time out in that case.
if (Date.now() < waitUntilAtLeast) {
self.currentTest.scope.__waitTimer =
setTimeout(timeoutFn, timeoutExpires - Date.now());
return;
}
if (--self.currentTest.scope.__timeoutFactor > 0) {
// We were asked to wait a bit longer.
self.currentTest.scope.info(
"Longer timeout required, waiting longer... Remaining timeouts: " +
self.currentTest.scope.__timeoutFactor);
self.currentTest.scope.__waitTimer =
setTimeout(timeoutFn, gTimeoutSeconds * 1000);
return;
}
// If the test is taking longer than expected, but it's not hanging,
// mark the fact, but let the test continue. At the end of the test,
// if it didn't timeout, we will notify the problem through an error.
// To figure whether it's an actual hang, compare the time of the last
// result or message to half of the timeout time.
// Though, to protect against infinite loops, limit the number of times
// we allow the test to proceed.
const MAX_UNEXPECTED_TIMEOUTS = 10;
if (Date.now() - self.currentTest.lastOutputTime < (gTimeoutSeconds / 2) * 1000 &&
++self.currentTest.unexpectedTimeouts <= MAX_UNEXPECTED_TIMEOUTS) {
self.currentTest.scope.__waitTimer =
setTimeout(timeoutFn, gTimeoutSeconds * 1000);
return;
}
self.currentTest.addResult(new testResult({ name: "Test timed out" }));
self.currentTest.timedOut = true;
self.currentTest.scope.__waitTimer = null;
self.nextTest();
}, gTimeoutSeconds * 1000]);
}
},
QueryInterface: ChromeUtils.generateQI(["nsIConsoleListener"])
};
/**
* Represents the result of one test assertion. This is described with a string
* in traditional logging, and has a "status" and "expected" property used in
* structured logging. Normally, results are mapped as follows:
*
* pass: todo: Added to: Described as: Status: Expected:
* true false passCount TEST-PASS PASS PASS
* true true todoCount TEST-KNOWN-FAIL FAIL FAIL
* false false failCount TEST-UNEXPECTED-FAIL FAIL PASS
* false true failCount TEST-UNEXPECTED-PASS PASS FAIL
*
* The "allowFailure" argument indicates that this is one of the assertions that
* should be allowed to fail, for example because "fail-if" is true for the
* current test file in the manifest. In this case, results are mapped this way:
*
* pass: todo: Added to: Described as: Status: Expected:
* true false passCount TEST-PASS PASS PASS
* true true todoCount TEST-KNOWN-FAIL FAIL FAIL
* false false todoCount TEST-KNOWN-FAIL FAIL FAIL
* false true todoCount TEST-KNOWN-FAIL FAIL FAIL
*/
function testResult({ name, pass, todo, ex, stack, allowFailure }) {
this.info = false;
this.name = name;
this.msg = "";
if (allowFailure && !pass) {
this.allowedFailure = true;
this.pass = true;
this.todo = true;
} else {
this.pass = !!pass;
this.todo = todo;
}
this.expected = this.todo ? "FAIL" : "PASS";
if (this.pass) {
this.status = this.expected;
return;
}
this.status = this.todo ? "PASS" : "FAIL";
if (ex) {
if (typeof ex == "object" && "fileName" in ex) {
// we have an exception - print filename and linenumber information
this.msg += "at " + ex.fileName + ":" + ex.lineNumber + " - ";
}
this.msg += String(ex);
}
if (stack) {
this.msg += "\nStack trace:\n";
let normalized;
if (stack instanceof Ci.nsIStackFrame) {
let frames = [];
for (let frame = stack; frame; frame = frame.asyncCaller || frame.caller) {
let msg = `${frame.filename}:${frame.name}:${frame.lineNumber}`;
frames.push(frame.asyncCause ? `${frame.asyncCause}*${msg}` : msg);
}
normalized = frames.join("\n");
} else {
normalized = "" + stack;
}
this.msg += normalized;
}
if (gConfig.debugOnFailure) {
// You've hit this line because you requested to break into the
// debugger upon a testcase failure on your test run.
// eslint-disable-next-line no-debugger
debugger;
}
}
function testMessage(msg) {
this.msg = msg || "";
this.info = true;
}
// Need to be careful adding properties to this object, since its properties
// cannot conflict with global variables used in tests.
function testScope(aTester, aTest, expected) {
this.__tester = aTester;
aTest.allowFailure = expected == "fail";
var self = this;
this.ok = function test_ok(condition, name, ex, stack) {
aTest.addResult(new testResult({
name, pass: condition, ex,
stack: stack || Components.stack.caller,
allowFailure: aTest.allowFailure,
}));
};
this.is = function test_is(a, b, name) {
self.ok(a == b, name, "Got " + a + ", expected " + b, false,
Components.stack.caller);
};
this.isnot = function test_isnot(a, b, name) {
self.ok(a != b, name, "Didn't expect " + a + ", but got it", false,
Components.stack.caller);
};
this.todo = function test_todo(condition, name, ex, stack) {
aTest.addResult(new testResult({
name, pass: !condition, todo: true, ex,
stack: stack || Components.stack.caller,
allowFailure: aTest.allowFailure,
}));
};
this.todo_is = function test_todo_is(a, b, name) {
self.todo(a == b, name, "Got " + a + ", expected " + b,
Components.stack.caller);
};
this.todo_isnot = function test_todo_isnot(a, b, name) {
self.todo(a != b, name, "Didn't expect " + a + ", but got it",
Components.stack.caller);
};
this.info = function test_info(name) {
aTest.addResult(new testMessage(name));
};
this.executeSoon = function test_executeSoon(func) {
Services.tm.dispatchToMainThread({
run() {
func();
}
});
};
this.waitForExplicitFinish = function test_waitForExplicitFinish() {
self.__done = false;
};
this.waitForFocus = function test_waitForFocus(callback, targetWindow, expectBlankPage) {
self.SimpleTest.waitForFocus(callback, targetWindow, expectBlankPage);
};
this.waitForClipboard = function test_waitForClipboard(expected, setup, success, failure, flavor) {
self.SimpleTest.waitForClipboard(expected, setup, success, failure, flavor);
};
this.registerCleanupFunction = function test_registerCleanupFunction(aFunction) {
self.__cleanupFunctions.push(aFunction);
};
this.requestLongerTimeout = function test_requestLongerTimeout(aFactor) {
self.__timeoutFactor = aFactor;
};
this.copyToProfile = function test_copyToProfile(filename) {
self.SimpleTest.copyToProfile(filename);
};
this.expectUncaughtException = function test_expectUncaughtException(aExpecting) {
self.SimpleTest.expectUncaughtException(aExpecting);
};
this.ignoreAllUncaughtExceptions = function test_ignoreAllUncaughtExceptions(aIgnoring) {
self.SimpleTest.ignoreAllUncaughtExceptions(aIgnoring);
};
this.expectAssertions = function test_expectAssertions(aMin, aMax) {
let min = aMin;
let max = aMax;
if (typeof(max) == "undefined") {
max = min;
}
if (typeof(min) != "number" || typeof(max) != "number" ||
min < 0 || max < min) {
throw "bad parameter to expectAssertions";
}
self.__expectedMinAsserts = min;
self.__expectedMaxAsserts = max;
};
this.setExpectedFailuresForSelfTest = function test_setExpectedFailuresForSelfTest(expectedAllowedFailureCount) {
aTest.allowFailure = true;
aTest.expectedAllowedFailureCount = expectedAllowedFailureCount;
};
this.finish = function test_finish() {
self.__done = true;
if (self.__waitTimer) {
self.executeSoon(function() {
if (self.__done && self.__waitTimer) {
clearTimeout(self.__waitTimer);
self.__waitTimer = null;
self.__tester.nextTest();
}
});
}
};
this.requestCompleteLog = function test_requestCompleteLog() {
self.__tester.structuredLogger.deactivateBuffering();
self.registerCleanupFunction(function() {
self.__tester.structuredLogger.activateBuffering();
});
};
// If we're running a test that requires unsafe CPOWs, create a
// separate sandbox scope, with CPOWS whitelisted, for that test, and
// mirror all of our properties onto it. Test files will be loaded
// into this sandbox.
//
// Otherwise, load test files directly into the testScope instance.
if (aTest.usesUnsafeCPOWs) {
let sandbox = this._createSandbox();
Cu.permitCPOWsInScope(sandbox);
return sandbox;
}
return this;
}
function decorateTaskFn(fn) {
fn = fn.bind(this);
fn.skip = () => fn.__skipMe = true;
fn.only = () => this.__runOnlyThisTask = fn;
return fn;
}
testScope.prototype = {
__done: true,
__tasks: null,
__runOnlyThisTask: null,
__waitTimer: null,
__cleanupFunctions: [],
__timeoutFactor: 1,
__expectedMinAsserts: 0,
__expectedMaxAsserts: 0,
EventUtils: {},
SimpleTest: {},
ContentTask: null,
BrowserTestUtils: null,
TestUtils: null,
ExtensionTestUtils: null,
Assert: null,
_createSandbox() {
let sandbox = Cu.Sandbox(window, {sandboxPrototype: window});
for (let prop in this) {
if (typeof this[prop] == "function") {
sandbox[prop] = this[prop].bind(this);
} else {
Object.defineProperty(sandbox, prop, {
configurable: true,
enumerable: true,
get: () => {
return this[prop];
},
set: (value) => {
this[prop] = value;
}
});
}
}
return sandbox;
},
/**
* Add a function which returns a promise (usually an async function)
* as a test task.
*
* The task ends when the promise returned by the function resolves or
* rejects. If the test function throws, or the promise it returns
* rejects, the test is reported as a failure. Execution continues
* with the next test function.
*
* Example usage:
*
* add_task(async function test() {
* let result = yield Promise.resolve(true);
*
* ok(result);
*
* let secondary = await someFunctionThatReturnsAPromise(result);
* is(secondary, "expected value");
* });
*
* add_task(async function test_early_return() {
* let result = await somethingThatReturnsAPromise();
*
* if (!result) {
* // Test is ended immediately, with success.
* return;
* }
*
* is(result, "foo");
* });
*/
add_task(aFunction) {
if (!this.__tasks) {
this.waitForExplicitFinish();
this.__tasks = [];
}
let bound = decorateTaskFn.call(this, aFunction);
this.__tasks.push(bound);
return bound;
},
destroy: function test_destroy() {
for (let prop in this)
delete this[prop];
}
};