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c633e65783b9d3f26e15fa6286eabcd04bd43cdf
tubestation/browser/devtools/webconsole/test/head.js
Ryan VanderMeulen c633e65783 Backed out 6 changesets (bug 663778) for browser_dbg_listtabs-02.js leaks on a CLOSED TREE. 
Backed out changeset cbd200206f9b (bug 663778)
Backed out changeset b0b74401e614 (bug 663778)
Backed out changeset df5255cffbfa (bug 663778)
Backed out changeset e6d0dd124356 (bug 663778)
Backed out changeset 134f77474941 (bug 663778)
Backed out changeset 456609873c5f (bug 663778)
2014-03-13 13:56:22 -04:00

1472 lines
42 KiB
JavaScript
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/* vim:set ts=2 sw=2 sts=2 et: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
let {gDevTools} = Cu.import("resource:///modules/devtools/gDevTools.jsm", {});
let {console} = Cu.import("resource://gre/modules/devtools/Console.jsm", {});
let {Promise: promise} = Cu.import("resource://gre/modules/Promise.jsm", {});
let {Task} = Cu.import("resource://gre/modules/Task.jsm", {});
let {devtools} = Cu.import("resource://gre/modules/devtools/Loader.jsm", {});
let {require, TargetFactory} = devtools;
let {Utils: WebConsoleUtils} = require("devtools/toolkit/webconsole/utils");
let {Messages} = require("devtools/webconsole/console-output");
// promise._reportErrors = true; // please never leave me.
let gPendingOutputTest = 0;
// The various categories of messages.
const CATEGORY_NETWORK = 0;
const CATEGORY_CSS = 1;
const CATEGORY_JS = 2;
const CATEGORY_WEBDEV = 3;
const CATEGORY_INPUT = 4;
const CATEGORY_OUTPUT = 5;
const CATEGORY_SECURITY = 6;
// The possible message severities.
const SEVERITY_ERROR = 0;
const SEVERITY_WARNING = 1;
const SEVERITY_INFO = 2;
const SEVERITY_LOG = 3;
// The indent of a console group in pixels.
const GROUP_INDENT = 12;
// The default indent in pixels, applied even without any groups.
const GROUP_INDENT_DEFAULT = 6;
const WEBCONSOLE_STRINGS_URI = "chrome://browser/locale/devtools/webconsole.properties";
let WCU_l10n = new WebConsoleUtils.l10n(WEBCONSOLE_STRINGS_URI);
function log(aMsg)
{
dump("*** WebConsoleTest: " + aMsg + "\n");
}
function pprint(aObj)
{
for (let prop in aObj) {
if (typeof aObj[prop] == "function") {
log("function " + prop);
}
else {
log(prop + ": " + aObj[prop]);
}
}
}
let tab, browser, hudId, hud, hudBox, filterBox, outputNode, cs;
function addTab(aURL)
{
gBrowser.selectedTab = gBrowser.addTab(aURL);
tab = gBrowser.selectedTab;
browser = gBrowser.getBrowserForTab(tab);
}
function loadTab(url) {
let deferred = promise.defer();
let tab = gBrowser.selectedTab = gBrowser.addTab(url);
let browser = gBrowser.getBrowserForTab(tab);
browser.addEventListener("load", function onLoad() {
browser.removeEventListener("load", onLoad, true);
deferred.resolve({tab: tab, browser: browser});
}, true);
return deferred.promise;
}
function afterAllTabsLoaded(callback, win) {
win = win || window;
let stillToLoad = 0;
function onLoad() {
this.removeEventListener("load", onLoad, true);
stillToLoad--;
if (!stillToLoad)
callback();
}
for (let a = 0; a < win.gBrowser.tabs.length; a++) {
let browser = win.gBrowser.tabs[a].linkedBrowser;
if (browser.contentDocument.readyState != "complete") {
stillToLoad++;
browser.addEventListener("load", onLoad, true);
}
}
if (!stillToLoad)
callback();
}
/**
* Check if a log entry exists in the HUD output node.
*
* @param {Element} aOutputNode
* the HUD output node.
* @param {string} aMatchString
* the string you want to check if it exists in the output node.
* @param {string} aMsg
* the message describing the test
* @param {boolean} [aOnlyVisible=false]
* find only messages that are visible, not hidden by the filter.
* @param {boolean} [aFailIfFound=false]
* fail the test if the string is found in the output node.
* @param {string} aClass [optional]
* find only messages with the given CSS class.
*/
function testLogEntry(aOutputNode, aMatchString, aMsg, aOnlyVisible,
aFailIfFound, aClass)
{
let selector = ".message";
// Skip entries that are hidden by the filter.
if (aOnlyVisible) {
selector += ":not(.filtered-by-type):not(.filtered-by-string)";
}
if (aClass) {
selector += "." + aClass;
}
let msgs = aOutputNode.querySelectorAll(selector);
let found = false;
for (let i = 0, n = msgs.length; i < n; i++) {
let message = msgs[i].textContent.indexOf(aMatchString);
if (message > -1) {
found = true;
break;
}
}
is(found, !aFailIfFound, aMsg);
}
/**
* A convenience method to call testLogEntry().
*
* @param string aString
* The string to find.
*/
function findLogEntry(aString)
{
testLogEntry(outputNode, aString, "found " + aString);
}
/**
* Open the Web Console for the given tab.
*
* @param nsIDOMElement [aTab]
* Optional tab element for which you want open the Web Console. The
* default tab is taken from the global variable |tab|.
* @param function [aCallback]
* Optional function to invoke after the Web Console completes
* initialization (web-console-created).
* @return object
* A promise that is resolved once the web console is open.
*/
function openConsole(aTab, aCallback = function() { })
{
let deferred = promise.defer();
let target = TargetFactory.forTab(aTab || tab);
gDevTools.showToolbox(target, "webconsole").then(function(toolbox) {
let hud = toolbox.getCurrentPanel().hud;
hud.jsterm._lazyVariablesView = false;
aCallback(hud);
deferred.resolve(hud);
});
return deferred.promise;
}
/**
* Close the Web Console for the given tab.
*
* @param nsIDOMElement [aTab]
* Optional tab element for which you want close the Web Console. The
* default tab is taken from the global variable |tab|.
* @param function [aCallback]
* Optional function to invoke after the Web Console completes
* closing (web-console-destroyed).
* @return object
* A promise that is resolved once the web console is closed.
*/
function closeConsole(aTab, aCallback = function() { })
{
let target = TargetFactory.forTab(aTab || tab);
let toolbox = gDevTools.getToolbox(target);
if (toolbox) {
let panel = toolbox.getPanel("webconsole");
if (panel) {
let hudId = panel.hud.hudId;
return toolbox.destroy().then(aCallback.bind(null, hudId)).then(null, console.debug);
}
return toolbox.destroy().then(aCallback.bind(null));
}
aCallback();
return promise.resolve(null);
}
/**
* Wait for a context menu popup to open.
*
* @param nsIDOMElement aPopup
* The XUL popup you expect to open.
* @param nsIDOMElement aButton
* The button/element that receives the contextmenu event. This is
* expected to open the popup.
* @param function aOnShown
* Function to invoke on popupshown event.
* @param function aOnHidden
* Function to invoke on popuphidden event.
*/
function waitForContextMenu(aPopup, aButton, aOnShown, aOnHidden)
{
function onPopupShown() {
info("onPopupShown");
aPopup.removeEventListener("popupshown", onPopupShown);
aOnShown();
// Use executeSoon() to get out of the popupshown event.
aPopup.addEventListener("popuphidden", onPopupHidden);
executeSoon(() => aPopup.hidePopup());
}
function onPopupHidden() {
info("onPopupHidden");
aPopup.removeEventListener("popuphidden", onPopupHidden);
aOnHidden();
}
aPopup.addEventListener("popupshown", onPopupShown);
info("wait for the context menu to open");
let eventDetails = { type: "contextmenu", button: 2};
EventUtils.synthesizeMouse(aButton, 2, 2, eventDetails,
aButton.ownerDocument.defaultView);
}
/**
* Dump the output of all open Web Consoles - used only for debugging purposes.
*/
function dumpConsoles()
{
if (gPendingOutputTest) {
console.log("dumpConsoles start");
for (let [, hud] of HUDService.consoles) {
if (!hud.outputNode) {
console.debug("no output content for", hud.hudId);
continue;
}
console.debug("output content for", hud.hudId);
for (let elem of hud.outputNode.childNodes) {
dumpMessageElement(elem);
}
}
console.log("dumpConsoles end");
gPendingOutputTest = 0;
}
}
/**
* Dump to output debug information for the given webconsole message.
*
* @param nsIDOMNode aMessage
* The message element you want to display.
*/
function dumpMessageElement(aMessage)
{
let text = aMessage.textContent;
let repeats = aMessage.querySelector(".message-repeats");
if (repeats) {
repeats = repeats.getAttribute("value");
}
console.debug("id", aMessage.getAttribute("id"),
"date", aMessage.timestamp,
"class", aMessage.className,
"category", aMessage.category,
"severity", aMessage.severity,
"repeats", repeats,
"clipboardText", aMessage.clipboardText,
"text", text);
}
function finishTest()
{
browser = hudId = hud = filterBox = outputNode = cs = null;
dumpConsoles();
let browserConsole = HUDService.getBrowserConsole();
if (browserConsole) {
if (browserConsole.jsterm) {
browserConsole.jsterm.clearOutput(true);
}
HUDService.toggleBrowserConsole().then(finishTest);
return;
}
let hud = HUDService.getHudByWindow(content);
if (!hud) {
finish();
return;
}
if (hud.jsterm) {
hud.jsterm.clearOutput(true);
}
closeConsole(hud.target.tab, finish);
hud = null;
}
function tearDown()
{
dumpConsoles();
if (HUDService.getBrowserConsole()) {
HUDService.toggleBrowserConsole();
}
let target = TargetFactory.forTab(gBrowser.selectedTab);
gDevTools.closeToolbox(target);
while (gBrowser.tabs.length > 1) {
gBrowser.removeCurrentTab();
}
WCU_l10n = tab = browser = hudId = hud = filterBox = outputNode = cs = null;
}
registerCleanupFunction(tearDown);
waitForExplicitFinish();
/**
* Polls a given function waiting for it to become true.
*
* @param object aOptions
* Options object with the following properties:
* - validatorFn
* A validator function that returns a boolean. This is called every few
* milliseconds to check if the result is true. When it is true, succesFn
* is called and polling stops. If validatorFn never returns true, then
* polling timeouts after several tries and a failure is recorded.
* - successFn
* A function called when the validator function returns true.
* - failureFn
* A function called if the validator function timeouts - fails to return
* true in the given time.
* - name
* Name of test. This is used to generate the success and failure
* messages.
* - timeout
* Timeout for validator function, in milliseconds. Default is 5000.
*/
function waitForSuccess(aOptions)
{
let start = Date.now();
let timeout = aOptions.timeout || 5000;
function wait(validatorFn, successFn, failureFn)
{
if ((Date.now() - start) > timeout) {
// Log the failure.
ok(false, "Timed out while waiting for: " + aOptions.name);
failureFn(aOptions);
return;
}
if (validatorFn(aOptions)) {
ok(true, aOptions.name);
successFn();
}
else {
setTimeout(function() wait(validatorFn, successFn, failureFn), 100);
}
}
wait(aOptions.validatorFn, aOptions.successFn, aOptions.failureFn);
}
function openInspector(aCallback, aTab = gBrowser.selectedTab)
{
let target = TargetFactory.forTab(aTab);
gDevTools.showToolbox(target, "inspector").then(function(toolbox) {
aCallback(toolbox.getCurrentPanel());
});
}
/**
* Find variables or properties in a VariablesView instance.
*
* @param object aView
* The VariablesView instance.
* @param array aRules
* The array of rules you want to match. Each rule is an object with:
* - name (string|regexp): property name to match.
* - value (string|regexp): property value to match.
* - isIterator (boolean): check if the property is an iterator.
* - isGetter (boolean): check if the property is a getter.
* - isGenerator (boolean): check if the property is a generator.
* - dontMatch (boolean): make sure the rule doesn't match any property.
* @param object aOptions
* Options for matching:
* - webconsole: the WebConsole instance we work with.
* @return object
* A promise object that is resolved when all the rules complete
* matching. The resolved callback is given an array of all the rules
* you wanted to check. Each rule has a new property: |matchedProp|
* which holds a reference to the Property object instance from the
* VariablesView. If the rule did not match, then |matchedProp| is
* undefined.
*/
function findVariableViewProperties(aView, aRules, aOptions)
{
// Initialize the search.
function init()
{
// Separate out the rules that require expanding properties throughout the
// view.
let expandRules = [];
let rules = aRules.filter((aRule) => {
if (typeof aRule.name == "string" && aRule.name.indexOf(".") > -1) {
expandRules.push(aRule);
return false;
}
return true;
});
// Search through the view those rules that do not require any properties to
// be expanded. Build the array of matchers, outstanding promises to be
// resolved.
let outstanding = [];
finder(rules, aView, outstanding);
// Process the rules that need to expand properties.
let lastStep = processExpandRules.bind(null, expandRules);
// Return the results - a promise resolved to hold the updated aRules array.
let returnResults = onAllRulesMatched.bind(null, aRules);
return promise.all(outstanding).then(lastStep).then(returnResults);
}
function onMatch(aProp, aRule, aMatched)
{
if (aMatched && !aRule.matchedProp) {
aRule.matchedProp = aProp;
}
}
function finder(aRules, aVar, aPromises)
{
for (let [id, prop] of aVar) {
for (let rule of aRules) {
let matcher = matchVariablesViewProperty(prop, rule, aOptions);
aPromises.push(matcher.then(onMatch.bind(null, prop, rule)));
}
}
}
function processExpandRules(aRules)
{
let rule = aRules.shift();
if (!rule) {
return promise.resolve(null);
}
let deferred = promise.defer();
let expandOptions = {
rootVariable: aView,
expandTo: rule.name,
webconsole: aOptions.webconsole,
};
variablesViewExpandTo(expandOptions).then(function onSuccess(aProp) {
let name = rule.name;
let lastName = name.split(".").pop();
rule.name = lastName;
let matched = matchVariablesViewProperty(aProp, rule, aOptions);
return matched.then(onMatch.bind(null, aProp, rule)).then(function() {
rule.name = name;
});
}, function onFailure() {
return promise.resolve(null);
}).then(processExpandRules.bind(null, aRules)).then(function() {
deferred.resolve(null);
});
return deferred.promise;
}
function onAllRulesMatched(aRules)
{
for (let rule of aRules) {
let matched = rule.matchedProp;
if (matched && !rule.dontMatch) {
ok(true, "rule " + rule.name + " matched for property " + matched.name);
}
else if (matched && rule.dontMatch) {
ok(false, "rule " + rule.name + " should not match property " +
matched.name);
}
else {
ok(rule.dontMatch, "rule " + rule.name + " did not match any property");
}
}
return aRules;
}
return init();
}
/**
* Check if a given Property object from the variables view matches the given
* rule.
*
* @param object aProp
* The variable's view Property instance.
* @param object aRule
* Rules for matching the property. See findVariableViewProperties() for
* details.
* @param object aOptions
* Options for matching. See findVariableViewProperties().
* @return object
* A promise that is resolved when all the checks complete. Resolution
* result is a boolean that tells your promise callback the match
* result: true or false.
*/
function matchVariablesViewProperty(aProp, aRule, aOptions)
{
function resolve(aResult) {
return promise.resolve(aResult);
}
if (aRule.name) {
let match = aRule.name instanceof RegExp ?
aRule.name.test(aProp.name) :
aProp.name == aRule.name;
if (!match) {
return resolve(false);
}
}
if (aRule.value) {
let displayValue = aProp.displayValue;
if (aProp.displayValueClassName == "token-string") {
displayValue = displayValue.substring(1, displayValue.length - 1);
}
let match = aRule.value instanceof RegExp ?
aRule.value.test(displayValue) :
displayValue == aRule.value;
if (!match) {
info("rule " + aRule.name + " did not match value, expected '" +
aRule.value + "', found '" + displayValue + "'");
return resolve(false);
}
}
if ("isGetter" in aRule) {
let isGetter = !!(aProp.getter && aProp.get("get"));
if (aRule.isGetter != isGetter) {
info("rule " + aRule.name + " getter test failed");
return resolve(false);
}
}
if ("isGenerator" in aRule) {
let isGenerator = aProp.displayValue == "Generator";
if (aRule.isGenerator != isGenerator) {
info("rule " + aRule.name + " generator test failed");
return resolve(false);
}
}
let outstanding = [];
if ("isIterator" in aRule) {
let isIterator = isVariableViewPropertyIterator(aProp, aOptions.webconsole);
outstanding.push(isIterator.then((aResult) => {
if (aResult != aRule.isIterator) {
info("rule " + aRule.name + " iterator test failed");
}
return aResult == aRule.isIterator;
}));
}
outstanding.push(promise.resolve(true));
return promise.all(outstanding).then(function _onMatchDone(aResults) {
let ruleMatched = aResults.indexOf(false) == -1;
return resolve(ruleMatched);
});
}
/**
* Check if the given variables view property is an iterator.
*
* @param object aProp
* The Property instance you want to check.
* @param object aWebConsole
* The WebConsole instance to work with.
* @return object
* A promise that is resolved when the check completes. The resolved
* callback is given a boolean: true if the property is an iterator, or
* false otherwise.
*/
function isVariableViewPropertyIterator(aProp, aWebConsole)
{
if (aProp.displayValue == "Iterator") {
return promise.resolve(true);
}
let deferred = promise.defer();
variablesViewExpandTo({
rootVariable: aProp,
expandTo: "__proto__.__iterator__",
webconsole: aWebConsole,
}).then(function onSuccess(aProp) {
deferred.resolve(true);
}, function onFailure() {
deferred.resolve(false);
});
return deferred.promise;
}
/**
* Recursively expand the variables view up to a given property.
*
* @param aOptions
* Options for view expansion:
* - rootVariable: start from the given scope/variable/property.
* - expandTo: string made up of property names you want to expand.
* For example: "body.firstChild.nextSibling" given |rootVariable:
* document|.
* - webconsole: a WebConsole instance. If this is not provided all
* property expand() calls will be considered sync. Things may fail!
* @return object
* A promise that is resolved only when the last property in |expandTo|
* is found, and rejected otherwise. Resolution reason is always the
* last property - |nextSibling| in the example above. Rejection is
* always the last property that was found.
*/
function variablesViewExpandTo(aOptions)
{
let root = aOptions.rootVariable;
let expandTo = aOptions.expandTo.split(".");
let jsterm = (aOptions.webconsole || {}).jsterm;
let lastDeferred = promise.defer();
function fetch(aProp)
{
if (!aProp.onexpand) {
ok(false, "property " + aProp.name + " cannot be expanded: !onexpand");
return promise.reject(aProp);
}
let deferred = promise.defer();
if (aProp._fetched || !jsterm) {
executeSoon(function() {
deferred.resolve(aProp);
});
}
else {
jsterm.once("variablesview-fetched", function _onFetchProp() {
executeSoon(() => deferred.resolve(aProp));
});
}
aProp.expand();
return deferred.promise;
}
function getNext(aProp)
{
let name = expandTo.shift();
let newProp = aProp.get(name);
if (expandTo.length > 0) {
ok(newProp, "found property " + name);
if (newProp) {
fetch(newProp).then(getNext, fetchError);
}
else {
lastDeferred.reject(aProp);
}
}
else {
if (newProp) {
lastDeferred.resolve(newProp);
}
else {
lastDeferred.reject(aProp);
}
}
}
function fetchError(aProp)
{
lastDeferred.reject(aProp);
}
if (!root._fetched) {
fetch(root).then(getNext, fetchError);
}
else {
getNext(root);
}
return lastDeferred.promise;
}
/**
* Update the content of a property in the variables view.
*
* @param object aOptions
* Options for the property update:
* - property: the property you want to change.
* - field: string that tells what you want to change:
* - use "name" to change the property name,
* - or "value" to change the property value.
* - string: the new string to write into the field.
* - webconsole: reference to the Web Console instance we work with.
* - callback: function to invoke after the property is updated.
*/
function updateVariablesViewProperty(aOptions)
{
let view = aOptions.property._variablesView;
view.window.focus();
aOptions.property.focus();
switch (aOptions.field) {
case "name":
EventUtils.synthesizeKey("VK_RETURN", { shiftKey: true }, view.window);
break;
case "value":
EventUtils.synthesizeKey("VK_RETURN", {}, view.window);
break;
default:
throw new Error("options.field is incorrect");
return;
}
executeSoon(() => {
EventUtils.synthesizeKey("A", { accelKey: true }, view.window);
for (let c of aOptions.string) {
EventUtils.synthesizeKey(c, {}, gVariablesView.window);
}
if (aOptions.webconsole) {
aOptions.webconsole.jsterm.once("variablesview-fetched", aOptions.callback);
}
EventUtils.synthesizeKey("VK_RETURN", {}, view.window);
if (!aOptions.webconsole) {
executeSoon(aOptions.callback);
}
});
}
/**
* Open the JavaScript debugger.
*
* @param object aOptions
* Options for opening the debugger:
* - tab: the tab you want to open the debugger for.
* @return object
* A promise that is resolved once the debugger opens, or rejected if
* the open fails. The resolution callback is given one argument, an
* object that holds the following properties:
* - target: the Target object for the Tab.
* - toolbox: the Toolbox instance.
* - panel: the jsdebugger panel instance.
* - panelWin: the window object of the panel iframe.
*/
function openDebugger(aOptions = {})
{
if (!aOptions.tab) {
aOptions.tab = gBrowser.selectedTab;
}
let deferred = promise.defer();
let target = TargetFactory.forTab(aOptions.tab);
let toolbox = gDevTools.getToolbox(target);
let dbgPanelAlreadyOpen = toolbox.getPanel("jsdebugger");
gDevTools.showToolbox(target, "jsdebugger").then(function onSuccess(aToolbox) {
let panel = aToolbox.getCurrentPanel();
let panelWin = panel.panelWin;
panel._view.Variables.lazyEmpty = false;
let resolveObject = {
target: target,
toolbox: aToolbox,
panel: panel,
panelWin: panelWin,
};
if (dbgPanelAlreadyOpen) {
deferred.resolve(resolveObject);
}
else {
panelWin.once(panelWin.EVENTS.SOURCES_ADDED, () => {
deferred.resolve(resolveObject);
});
}
}, function onFailure(aReason) {
console.debug("failed to open the toolbox for 'jsdebugger'", aReason);
deferred.reject(aReason);
});
return deferred.promise;
}
/**
* Wait for messages in the Web Console output.
*
* @param object aOptions
* Options for what you want to wait for:
* - webconsole: the webconsole instance you work with.
* - matchCondition: "any" or "all". Default: "all". The promise
* returned by this function resolves when all of the messages are
* matched, if the |matchCondition| is "all". If you set the condition to
* "any" then the promise is resolved by any message rule that matches,
* irrespective of order - waiting for messages stops whenever any rule
* matches.
* - messages: an array of objects that tells which messages to wait for.
* Properties:
* - text: string or RegExp to match the textContent of each new
* message.
* - noText: string or RegExp that must not match in the message
* textContent.
* - repeats: the number of message repeats, as displayed by the Web
* Console.
* - category: match message category. See CATEGORY_* constants at
* the top of this file.
* - severity: match message severity. See SEVERITY_* constants at
* the top of this file.
* - count: how many unique web console messages should be matched by
* this rule.
* - consoleTrace: boolean, set to |true| to match a console.trace()
* message. Optionally this can be an object of the form
* { file, fn, line } that can match the specified file, function
* and/or line number in the trace message.
* - consoleTime: string that matches a console.time() timer name.
* Provide this if you want to match a console.time() message.
* - consoleTimeEnd: same as above, but for console.timeEnd().
* - consoleDir: boolean, set to |true| to match a console.dir()
* message.
* - consoleGroup: boolean, set to |true| to match a console.group()
* message.
* - longString: boolean, set to |true} to match long strings in the
* message.
* - type: match messages that are instances of the given object. For
* example, you can point to Messages.NavigationMarker to match any
* such message.
* - objects: boolean, set to |true| if you expect inspectable
* objects in the message.
* - source: object of the shape { url, line }. This is used to
* match the source URL and line number of the error message or
* console API call.
* - groupDepth: number used to check the depth of the message in
* a group.
* - url: URL to match for network requests.
* @return object
* A promise object is returned once the messages you want are found.
* The promise is resolved with the array of rule objects you give in
* the |messages| property. Each objects is the same as provided, with
* additional properties:
* - matched: a Set of web console messages that matched the rule.
* - clickableElements: a list of inspectable objects. This is available
* if any of the following properties are present in the rule:
* |consoleTrace| or |objects|.
* - longStrings: a list of long string ellipsis elements you can click
* in the message element, to expand a long string. This is available
* only if |longString| is present in the matching rule.
*/
function waitForMessages(aOptions)
{
gPendingOutputTest++;
let webconsole = aOptions.webconsole;
let rules = WebConsoleUtils.cloneObject(aOptions.messages, true);
let rulesMatched = 0;
let listenerAdded = false;
let deferred = promise.defer();
aOptions.matchCondition = aOptions.matchCondition || "all";
function checkText(aRule, aText)
{
let result;
if (Array.isArray(aRule)) {
result = aRule.every((s) => checkText(s, aText));
}
else if (typeof aRule == "string") {
result = aText.indexOf(aRule) > -1;
}
else if (aRule instanceof RegExp) {
result = aRule.test(aText);
}
return result;
}
function checkConsoleTrace(aRule, aElement)
{
let elemText = aElement.textContent;
let trace = aRule.consoleTrace;
if (!checkText("console.trace():", elemText)) {
return false;
}
let frame = aElement.querySelector(".stacktrace li:first-child");
if (trace.file) {
let file = frame.querySelector(".message-location").title;
if (!checkText(trace.file, file)) {
ok(false, "console.trace() message is missing the file name: " +
trace.file);
displayErrorContext(aRule, aElement);
return false;
}
}
if (trace.fn) {
let fn = frame.querySelector(".function").textContent;
if (!checkText(trace.fn, fn)) {
ok(false, "console.trace() message is missing the function name: " +
trace.fn);
displayErrorContext(aRule, aElement);
return false;
}
}
if (trace.line) {
let line = frame.querySelector(".message-location").sourceLine;
if (!checkText(trace.line, line)) {
ok(false, "console.trace() message is missing the line number: " +
trace.line);
displayErrorContext(aRule, aElement);
return false;
}
}
aRule.category = CATEGORY_WEBDEV;
aRule.severity = SEVERITY_LOG;
aRule.type = Messages.ConsoleTrace;
return true;
}
function checkConsoleTime(aRule, aElement)
{
let elemText = aElement.textContent;
let time = aRule.consoleTime;
if (!checkText(time + ": timer started", elemText)) {
return false;
}
aRule.category = CATEGORY_WEBDEV;
aRule.severity = SEVERITY_LOG;
return true;
}
function checkConsoleTimeEnd(aRule, aElement)
{
let elemText = aElement.textContent;
let time = aRule.consoleTimeEnd;
let regex = new RegExp(time + ": -?\\d+([,.]\\d+)?ms");
if (!checkText(regex, elemText)) {
return false;
}
aRule.category = CATEGORY_WEBDEV;
aRule.severity = SEVERITY_LOG;
return true;
}
function checkConsoleDir(aRule, aElement)
{
if (!aElement.classList.contains("inlined-variables-view")) {
return false;
}
let elemText = aElement.textContent;
if (!checkText(aRule.consoleDir, elemText)) {
return false;
}
let iframe = aElement.querySelector("iframe");
if (!iframe) {
ok(false, "console.dir message has no iframe");
return false;
}
return true;
}
function checkConsoleGroup(aRule, aElement)
{
if (!isNaN(parseInt(aRule.consoleGroup))) {
aRule.groupDepth = aRule.consoleGroup;
}
aRule.category = CATEGORY_WEBDEV;
aRule.severity = SEVERITY_LOG;
return true;
}
function checkSource(aRule, aElement)
{
let location = aElement.querySelector(".message-location");
if (!location) {
return false;
}
if (!checkText(aRule.source.url, location.getAttribute("title"))) {
return false;
}
if ("line" in aRule.source && location.sourceLine != aRule.source.line) {
return false;
}
return true;
}
function checkMessage(aRule, aElement)
{
let elemText = aElement.textContent;
if (aRule.text && !checkText(aRule.text, elemText)) {
return false;
}
if (aRule.noText && checkText(aRule.noText, elemText)) {
return false;
}
if (aRule.consoleTrace && !checkConsoleTrace(aRule, aElement)) {
return false;
}
if (aRule.consoleTime && !checkConsoleTime(aRule, aElement)) {
return false;
}
if (aRule.consoleTimeEnd && !checkConsoleTimeEnd(aRule, aElement)) {
return false;
}
if (aRule.consoleDir && !checkConsoleDir(aRule, aElement)) {
return false;
}
if (aRule.consoleGroup && !checkConsoleGroup(aRule, aElement)) {
return false;
}
if (aRule.source && !checkSource(aRule, aElement)) {
return false;
}
let partialMatch = !!(aRule.consoleTrace || aRule.consoleTime ||
aRule.consoleTimeEnd);
// The rule tries to match the newer types of messages, based on their
// object constructor.
if (aRule.type) {
if (!aElement._messageObject ||
!(aElement._messageObject instanceof aRule.type)) {
if (partialMatch) {
ok(false, "message type for rule: " + displayRule(aRule));
displayErrorContext(aRule, aElement);
}
return false;
}
partialMatch = true;
}
if ("category" in aRule && aElement.category != aRule.category) {
if (partialMatch) {
is(aElement.category, aRule.category,
"message category for rule: " + displayRule(aRule));
displayErrorContext(aRule, aElement);
}
return false;
}
if ("severity" in aRule && aElement.severity != aRule.severity) {
if (partialMatch) {
is(aElement.severity, aRule.severity,
"message severity for rule: " + displayRule(aRule));
displayErrorContext(aRule, aElement);
}
return false;
}
if (aRule.category == CATEGORY_NETWORK && "url" in aRule &&
!checkText(aRule.url, aElement.url)) {
return false;
}
if ("repeats" in aRule) {
let repeats = aElement.querySelector(".message-repeats");
if (!repeats || repeats.getAttribute("value") != aRule.repeats) {
return false;
}
}
if ("groupDepth" in aRule) {
let icon = aElement.querySelector(".icon");
let indent = (GROUP_INDENT * aRule.groupDepth + GROUP_INDENT_DEFAULT) + "px";
if (!icon || icon.style.marginLeft != indent) {
is(icon.style.marginLeft, indent,
"group depth check failed for message rule: " + displayRule(aRule));
return false;
}
}
if ("longString" in aRule) {
let longStrings = aElement.querySelectorAll(".longStringEllipsis");
if (aRule.longString != !!longStrings[0]) {
if (partialMatch) {
is(!!longStrings[0], aRule.longString,
"long string existence check failed for message rule: " +
displayRule(aRule));
displayErrorContext(aRule, aElement);
}
return false;
}
aRule.longStrings = longStrings;
}
if ("objects" in aRule) {
let clickables = aElement.querySelectorAll(".body a");
if (aRule.objects != !!clickables[0]) {
if (partialMatch) {
is(!!clickables[0], aRule.objects,
"objects existence check failed for message rule: " +
displayRule(aRule));
displayErrorContext(aRule, aElement);
}
return false;
}
aRule.clickableElements = clickables;
}
let count = aRule.count || 1;
if (!aRule.matched) {
aRule.matched = new Set();
}
aRule.matched.add(aElement);
return aRule.matched.size == count;
}
function onMessagesAdded(aEvent, aNewElements)
{
for (let elem of aNewElements) {
let location = elem.querySelector(".message-location");
if (location) {
let url = location.title;
// Prevent recursion with the browser console and any potential
// messages coming from head.js.
if (url.indexOf("browser/devtools/webconsole/test/head.js") != -1) {
continue;
}
}
for (let rule of rules) {
if (rule._ruleMatched) {
continue;
}
let matched = checkMessage(rule, elem);
if (matched) {
rule._ruleMatched = true;
rulesMatched++;
ok(1, "matched rule: " + displayRule(rule));
if (maybeDone()) {
return;
}
}
}
}
}
function allRulesMatched()
{
return aOptions.matchCondition == "all" && rulesMatched == rules.length ||
aOptions.matchCondition == "any" && rulesMatched > 0;
}
function maybeDone()
{
if (allRulesMatched()) {
if (listenerAdded) {
webconsole.ui.off("messages-added", onMessagesAdded);
webconsole.ui.off("messages-updated", onMessagesAdded);
}
gPendingOutputTest--;
deferred.resolve(rules);
return true;
}
return false;
}
function testCleanup() {
if (allRulesMatched()) {
return;
}
if (webconsole.ui) {
webconsole.ui.off("messages-added", onMessagesAdded);
}
for (let rule of rules) {
if (!rule._ruleMatched) {
ok(false, "failed to match rule: " + displayRule(rule));
}
}
}
function displayRule(aRule)
{
return aRule.name || aRule.text;
}
function displayErrorContext(aRule, aElement)
{
console.log("error occured during rule " + displayRule(aRule));
console.log("while checking the following message");
dumpMessageElement(aElement);
}
executeSoon(() => {
onMessagesAdded("messages-added", webconsole.outputNode.childNodes);
if (!allRulesMatched()) {
listenerAdded = true;
registerCleanupFunction(testCleanup);
webconsole.ui.on("messages-added", onMessagesAdded);
webconsole.ui.on("messages-updated", onMessagesAdded);
}
});
return deferred.promise;
}
function whenDelayedStartupFinished(aWindow, aCallback)
{
Services.obs.addObserver(function observer(aSubject, aTopic) {
if (aWindow == aSubject) {
Services.obs.removeObserver(observer, aTopic);
executeSoon(aCallback);
}
}, "browser-delayed-startup-finished", false);
}
/**
* Check the web console output for the given inputs. Each input is checked for
* the expected JS eval result, the result of calling print(), the result of
* console.log(). The JS eval result is also checked if it opens the variables
* view on click.
*
* @param object hud
* The web console instance to work with.
* @param array inputTests
* An array of input tests. An input test element is an object. Each
* object has the following properties:
* - input: string, JS input value to execute.
*
* - output: string|RegExp, expected JS eval result.
*
* - inspectable: boolean, when true, the test runner expects the JS eval
* result is an object that can be clicked for inspection.
*
* - noClick: boolean, when true, the test runner does not click the JS
* eval result. Some objects, like |window|, have a lot of properties and
* opening vview for them is very slow (they can cause timeouts in debug
* builds).
*
* - printOutput: string|RegExp, optional, expected output for
* |print(input)|. If this is not provided, printOutput = output.
*
* - variablesViewLabel: string|RegExp, optional, the expected variables
* view label when the object is inspected. If this is not provided, then
* |output| is used.
*
* - inspectorIcon: boolean, when true, the test runner expects the
* result widget to contain an inspectorIcon element (className
* open-inspector).
*/
function checkOutputForInputs(hud, inputTests)
{
let eventHandlers = new Set();
function* runner()
{
for (let [i, entry] of inputTests.entries()) {
info("checkInput(" + i + "): " + entry.input);
yield checkInput(entry);
}
for (let fn of eventHandlers) {
hud.jsterm.off("variablesview-open", fn);
}
}
function* checkInput(entry)
{
yield checkConsoleLog(entry);
yield checkPrintOutput(entry);
yield checkJSEval(entry);
}
function* checkConsoleLog(entry)
{
hud.jsterm.clearOutput();
hud.jsterm.execute("console.log(" + entry.input + ")");
let [result] = yield waitForMessages({
webconsole: hud,
messages: [{
name: "console.log() output: " + entry.output,
text: entry.output,
category: CATEGORY_WEBDEV,
severity: SEVERITY_LOG,
}],
});
if (typeof entry.inspectorIcon == "boolean") {
let msg = [...result.matched][0];
yield checkLinkToInspector(entry, msg);
}
}
function checkPrintOutput(entry)
{
hud.jsterm.clearOutput();
hud.jsterm.execute("print(" + entry.input + ")");
let printOutput = entry.printOutput || entry.output;
return waitForMessages({
webconsole: hud,
messages: [{
name: "print() output: " + printOutput,
text: printOutput,
category: CATEGORY_OUTPUT,
}],
});
}
function* checkJSEval(entry)
{
hud.jsterm.clearOutput();
hud.jsterm.execute(entry.input);
let [result] = yield waitForMessages({
webconsole: hud,
messages: [{
name: "JS eval output: " + entry.output,
text: entry.output,
category: CATEGORY_OUTPUT,
}],
});
let msg = [...result.matched][0];
if (!entry.noClick) {
yield checkObjectClick(entry, msg);
}
if (typeof entry.inspectorIcon == "boolean") {
yield checkLinkToInspector(entry, msg);
}
}
function checkObjectClick(entry, msg)
{
let body = msg.querySelector(".body a") || msg.querySelector(".body");
ok(body, "the message body");
let deferred = promise.defer();
entry._onVariablesViewOpen = onVariablesViewOpen.bind(null, entry, deferred);
hud.jsterm.on("variablesview-open", entry._onVariablesViewOpen);
eventHandlers.add(entry._onVariablesViewOpen);
body.scrollIntoView();
EventUtils.synthesizeMouse(body, 2, 2, {}, hud.iframeWindow);
if (entry.inspectable) {
info("message body tagName '" + body.tagName + "' className '" + body.className + "'");
return deferred.promise; // wait for the panel to open if we need to.
}
return promise.resolve(null);
}
function checkLinkToInspector(entry, msg)
{
let elementNodeWidget = [...msg._messageObject.widgets][0];
if (!elementNodeWidget) {
ok(!entry.inspectorIcon, "The message has no ElementNode widget");
return;
}
return elementNodeWidget.linkToInspector().then(() => {
// linkToInspector resolved, check for the .open-inspector element
if (entry.inspectorIcon) {
ok(msg.querySelectorAll(".open-inspector").length,
"The ElementNode widget is linked to the inspector");
} else {
ok(!msg.querySelectorAll(".open-inspector").length,
"The ElementNode widget isn't linked to the inspector");
}
}, () => {
// linkToInspector promise rejected, node not linked to inspector
ok(!entry.inspectorIcon, "The ElementNode widget isn't linked to the inspector");
});
}
function onVariablesViewOpen(entry, deferred, event, view, options)
{
let label = entry.variablesViewLabel || entry.output;
if (typeof label == "string" && options.label != label) {
return;
}
if (label instanceof RegExp && !label.test(options.label)) {
return;
}
hud.jsterm.off("variablesview-open", entry._onVariablesViewOpen);
eventHandlers.delete(entry._onVariablesViewOpen);
entry._onVariablesViewOpen = null;
ok(entry.inspectable, "variables view was shown");
deferred.resolve(null);
}
return Task.spawn(runner);
}
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