gecko-dev/devtools/client/webconsole/test/head.js

/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set ft=javascript ts=2 et sw=2 tw=80: */
/* Any copyright is dedicated to the Public Domain.
 * http://creativecommons.org/publicdomain/zero/1.0/ */

/* import-globals-from ../../framework/test/shared-head.js */
"use strict";

// shared-head.js handles imports, constants, and utility functions
Services.scriptloader.loadSubScript("chrome://mochitests/content/browser/devtools/client/framework/test/shared-head.js", this);

var {Utils: WebConsoleUtils} = require("devtools/client/webconsole/utils");
var {Messages} = require("devtools/client/webconsole/console-output");
const asyncStorage = require("devtools/shared/async-storage");
const {HUDService} = require("devtools/client/webconsole/hudservice");

// Services.prefs.setBoolPref("devtools.debugger.log", true);

var 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;
const CATEGORY_SERVER = 7;

// 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;

var WCUL10n = require("devtools/client/webconsole/webconsole-l10n");

const DOCS_GA_PARAMS = "?utm_source=mozilla" +
                       "&utm_medium=firefox-console-errors" +
                       "&utm_campaign=default";

flags.testing = true;

function loadTab(url, preferredRemoteType) {
  return addTab(url, { preferredRemoteType }).then( tab => {
    return { tab, browser: tab.linkedBrowser };
  });
}

function loadBrowser(browser) {
  return BrowserTestUtils.browserLoaded(browser);
}

function closeTab(tab) {
  return removeTab(tab);
}

/**
 * Load the page and return the associated HUD.
 *
 * @param string uri
 *   The URI of the page to load.
 * @param string consoleType [optional]
 *   The console type, either "browserConsole" or "webConsole". Defaults to
 *   "webConsole".
 * @return object
 *   The HUD associated with the console
 */
function* loadPageAndGetHud(uri, consoleType) {
  let { browser } = yield loadTab("data:text/html;charset=utf-8,Loading tab for tests");

  let hud;
  if (consoleType === "browserConsole") {
    hud = yield HUDService.openBrowserConsoleOrFocus();
  } else {
    hud = yield openConsole();
  }

  ok(hud, "Console was opened");

  let loaded = loadBrowser(browser);
  yield BrowserTestUtils.loadURI(gBrowser.selectedBrowser, uri);
  yield loaded;

  yield waitForMessages({
    webconsole: hud,
    messages: [{
      text: uri,
      category: CATEGORY_NETWORK,
      severity: SEVERITY_LOG,
    }],
  });

  return hud;
}

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.webProgress.isLoadingDocument) {
      stillToLoad++;
      browser.addEventListener("load", onLoad, true);
    }
  }

  if (!stillToLoad) {
    callback();
  }
}

/**
 * Check if a log entry exists in the HUD output node.
 *
 * @param {Element} outputNode
 *        the HUD output node.
 * @param {string} matchString
 *        the string you want to check if it exists in the output node.
 * @param {string} msg
 *        the message describing the test
 * @param {boolean} [onlyVisible=false]
 *        find only messages that are visible, not hidden by the filter.
 * @param {boolean} [failIfFound=false]
 *        fail the test if the string is found in the output node.
 * @param {string} cssClass [optional]
 *        find only messages with the given CSS class.
 */
function testLogEntry(outputNode, matchString, msg, onlyVisible,
                      failIfFound, cssClass) {
  let selector = ".message";
  // Skip entries that are hidden by the filter.
  if (onlyVisible) {
    selector += ":not(.filtered-by-type):not(.filtered-by-string)";
  }
  if (cssClass) {
    selector += "." + aClass;
  }

  let msgs = outputNode.querySelectorAll(selector);
  let found = false;
  for (let i = 0, n = msgs.length; i < n; i++) {
    let message = msgs[i].textContent.indexOf(matchString);
    if (message > -1) {
      found = true;
      break;
    }
  }

  is(found, !failIfFound, msg);
}

/**
 * A convenience method to call testLogEntry().
 *
 * @param str string
 *        The string to find.
 */
function findLogEntry(str) {
  testLogEntry(outputNode, str, "found " + str);
}

/**
 * Open the Web Console for the given tab.
 *
 * @param nsIDOMElement [tab]
 *        Optional tab element for which you want open the Web Console. The
 *        default tab is taken from the global variable |tab|.
 * @param function [callback]
 *        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.
 */
var openConsole = function (tab) {
  let webconsoleOpened = defer();
  let target = TargetFactory.forTab(tab || gBrowser.selectedTab);
  gDevTools.showToolbox(target, "webconsole").then(toolbox => {
    let hud = toolbox.getCurrentPanel().hud;
    hud.jsterm._lazyVariablesView = false;
    webconsoleOpened.resolve(hud);
  });
  return webconsoleOpened.promise;
};

/**
 * Close the Web Console for the given tab.
 *
 * @param nsIDOMElement [tab]
 *        Optional tab element for which you want close the Web Console. The
 *        default tab is taken from the global variable |tab|.
 * @param function [callback]
 *        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.
 */
var closeConsole = Task.async(function* (tab) {
  let target = TargetFactory.forTab(tab || gBrowser.selectedTab);
  let toolbox = gDevTools.getToolbox(target);
  if (toolbox) {
    yield toolbox.destroy();
  }
});

/**
 * Listen for a new tab to open and return a promise that resolves when one
 * does and completes the load event.
 * @return a promise that resolves to the tab object
 */
var waitForTab = Task.async(function* () {
  info("Waiting for a tab to open");
  yield once(gBrowser.tabContainer, "TabOpen");
  let tab = gBrowser.selectedTab;
  let browser = tab.linkedBrowser;
  yield once(browser, "load", true);
  info("The tab load completed");
  return tab;
});

/**
 * 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 message
 *        The message element you want to display.
 */
function dumpMessageElement(message) {
  let text = message.textContent;
  let repeats = message.querySelector(".message-repeats");
  if (repeats) {
    repeats = repeats.getAttribute("value");
  }
  console.debug("id", message.getAttribute("id"),
                "date", message.timestamp,
                "class", message.className,
                "category", message.category,
                "severity", message.severity,
                "repeats", repeats,
                "clipboardText", message.clipboardText,
                "text", text);
}

var finishTest = Task.async(function* () {
  dumpConsoles();

  let browserConsole = HUDService.getBrowserConsole();
  if (browserConsole) {
    if (browserConsole.jsterm) {
      browserConsole.jsterm.clearOutput(true);
    }
    yield HUDService.toggleBrowserConsole();
  }

  let target = TargetFactory.forTab(gBrowser.selectedTab);
  yield gDevTools.closeToolbox(target);

  finish();
});

// Always use the 'old' frontend for tests that rely on it
Services.prefs.setBoolPref("devtools.webconsole.new-frontend-enabled", false);
registerCleanupFunction(function* () {
  Services.prefs.clearUserPref("devtools.webconsole.new-frontend-enabled");
});

registerCleanupFunction(function* () {
  flags.testing = false;

  // Remove stored console commands in between tests
  yield asyncStorage.removeItem("webConsoleHistory");

  dumpConsoles();

  let browserConsole = HUDService.getBrowserConsole();
  if (browserConsole) {
    if (browserConsole.jsterm) {
      browserConsole.jsterm.clearOutput(true);
    }
    yield HUDService.toggleBrowserConsole();
  }

  let target = TargetFactory.forTab(gBrowser.selectedTab);
  yield gDevTools.closeToolbox(target);

  while (gBrowser.tabs.length > 1) {
    gBrowser.removeCurrentTab();
  }
});

waitForExplicitFinish();

/**
 * Polls a given function waiting for it to become true.
 *
 * @param object options
 *        Options object with the following properties:
 *        - validator
 *        A validator function that returns a boolean. This is called every few
 *        milliseconds to check if the result is true. When it is true, the
 *        promise is resolved and polling stops. If validator never returns
 *        true, then polling timeouts after several tries and the promise is
 *        rejected.
 *        - name
 *        Name of test. This is used to generate the success and failure
 *        messages.
 *        - timeout
 *        Timeout for validator function, in milliseconds. Default is 5000.
 * @return object
 *         A Promise object that is resolved based on the validator function.
 */
function waitForSuccess(options) {
  let deferred = defer();
  let start = Date.now();
  let timeout = options.timeout || 5000;
  let {validator} = options;

  function wait() {
    if ((Date.now() - start) > timeout) {
      // Log the failure.
      ok(false, "Timed out while waiting for: " + options.name);
      deferred.reject(null);
      return;
    }

    if (validator(options)) {
      ok(true, options.name);
      deferred.resolve(null);
    } else {
      setTimeout(wait, 100);
    }
  }

  setTimeout(wait, 100);

  return deferred.promise;
}

var openInspector = Task.async(function* (tab = gBrowser.selectedTab) {
  let target = TargetFactory.forTab(tab);
  let toolbox = yield gDevTools.showToolbox(target, "inspector");
  return toolbox.getCurrentPanel();
});

/**
 * Find variables or properties in a VariablesView instance.
 *
 * @param object view
 *        The VariablesView instance.
 * @param array rules
 *        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 options
 *        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(view, rules, options) {
  // Initialize the search.
  function init() {
    // Separate out the rules that require expanding properties throughout the
    // view.
    let expandRules = [];
    let filterRules = rules.filter((rule) => {
      if (typeof rule.name == "string" && rule.name.indexOf(".") > -1) {
        expandRules.push(rule);
        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(filterRules, view, 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 rules array.
    let returnResults = onAllRulesMatched.bind(null, rules);

    return promise.all(outstanding).then(lastStep).then(returnResults);
  }

  function onMatch(prop, rule, matched) {
    if (matched && !rule.matchedProp) {
      rule.matchedProp = prop;
    }
  }

  function finder(rules, vars, promises) {
    for (let [, prop] of vars) {
      for (let rule of rules) {
        let matcher = matchVariablesViewProperty(prop, rule, options);
        promises.push(matcher.then(onMatch.bind(null, prop, rule)));
      }
    }
  }

  function processExpandRules(rules) {
    let rule = rules.shift();
    if (!rule) {
      return promise.resolve(null);
    }

    let deferred = defer();
    let expandOptions = {
      rootVariable: view,
      expandTo: rule.name,
      webconsole: options.webconsole,
    };

    variablesViewExpandTo(expandOptions).then(function onSuccess(prop) {
      let name = rule.name;
      let lastName = name.split(".").pop();
      rule.name = lastName;

      let matched = matchVariablesViewProperty(prop, rule, options);
      return matched.then(onMatch.bind(null, prop, rule)).then(function () {
        rule.name = name;
      });
    }, function onFailure() {
      return promise.resolve(null);
    }).then(processExpandRules.bind(null, rules)).then(function () {
      deferred.resolve(null);
    });

    return deferred.promise;
  }

  function onAllRulesMatched(rules) {
    for (let rule of rules) {
      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 rules;
  }

  return init();
}

/**
 * Check if a given Property object from the variables view matches the given
 * rule.
 *
 * @param object prop
 *        The variable's view Property instance.
 * @param object rule
 *        Rules for matching the property. See findVariableViewProperties() for
 *        details.
 * @param object options
 *        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(prop, rule, options) {
  function resolve(result) {
    return promise.resolve(result);
  }

  if (rule.name) {
    let match = rule.name instanceof RegExp ?
                rule.name.test(prop.name) :
                prop.name == rule.name;
    if (!match) {
      return resolve(false);
    }
  }

  if (rule.value) {
    let displayValue = prop.displayValue;
    if (prop.displayValueClassName == "token-string") {
      displayValue = displayValue.substring(1, displayValue.length - 1);
    }

    let match = rule.value instanceof RegExp ?
                rule.value.test(displayValue) :
                displayValue == rule.value;
    if (!match) {
      info("rule " + rule.name + " did not match value, expected '" +
           rule.value + "', found '" + displayValue + "'");
      return resolve(false);
    }
  }

  if ("isGetter" in rule) {
    let isGetter = !!(prop.getter && prop.get("get"));
    if (rule.isGetter != isGetter) {
      info("rule " + rule.name + " getter test failed");
      return resolve(false);
    }
  }

  if ("isGenerator" in rule) {
    let isGenerator = prop.displayValue == "Generator";
    if (rule.isGenerator != isGenerator) {
      info("rule " + rule.name + " generator test failed");
      return resolve(false);
    }
  }

  let outstanding = [];

  if ("isIterator" in rule) {
    let isIterator = isVariableViewPropertyIterator(prop, options.webconsole);
    outstanding.push(isIterator.then((result) => {
      if (result != rule.isIterator) {
        info("rule " + rule.name + " iterator test failed");
      }
      return result == rule.isIterator;
    }));
  }

  outstanding.push(promise.resolve(true));

  return promise.all(outstanding).then(function _onMatchDone(results) {
    let ruleMatched = results.indexOf(false) == -1;
    return resolve(ruleMatched);
  });
}

/**
 * Check if the given variables view property is an iterator.
 *
 * @param object prop
 *        The Property instance you want to check.
 * @param object webConsole
 *        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(prop, webConsole) {
  if (prop.displayValue == "Iterator") {
    return promise.resolve(true);
  }

  let deferred = defer();

  variablesViewExpandTo({
    rootVariable: prop,
    expandTo: "__proto__.__iterator__",
    webconsole: webConsole,
  }).then(function onSuccess() {
    deferred.resolve(true);
  }, function onFailure() {
    deferred.resolve(false);
  });

  return deferred.promise;
}

/**
 * Recursively expand the variables view up to a given property.
 *
 * @param options
 *        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(options) {
  let root = options.rootVariable;
  let expandTo = options.expandTo.split(".");
  let jsterm = (options.webconsole || {}).jsterm;
  let lastDeferred = defer();

  function fetch(prop) {
    if (!prop.onexpand) {
      ok(false, "property " + prop.name + " cannot be expanded: !onexpand");
      return promise.reject(prop);
    }

    let deferred = defer();

    if (prop._fetched || !jsterm) {
      executeSoon(function () {
        deferred.resolve(prop);
      });
    } else {
      jsterm.once("variablesview-fetched", function _onFetchProp() {
        executeSoon(() => deferred.resolve(prop));
      });
    }

    prop.expand();

    return deferred.promise;
  }

  function getNext(prop) {
    let name = expandTo.shift();
    let newProp = prop.get(name);

    if (expandTo.length > 0) {
      ok(newProp, "found property " + name);
      if (newProp) {
        fetch(newProp).then(getNext, fetchError);
      } else {
        lastDeferred.reject(prop);
      }
    } else if (newProp) {
      lastDeferred.resolve(newProp);
    } else {
      lastDeferred.reject(prop);
    }
  }

  function fetchError(prop) {
    lastDeferred.reject(prop);
  }

  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 options
 *        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.
 * @return object
 *         A Promise object that is resolved once the property is updated.
 */
var updateVariablesViewProperty = Task.async(function* (options) {
  let view = options.property._variablesView;
  view.window.focus();
  options.property.focus();

  switch (options.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");
  }

  let deferred = defer();

  executeSoon(() => {
    EventUtils.synthesizeKey("A", { accelKey: true }, view.window);

    for (let c of options.string) {
      EventUtils.synthesizeKey(c, {}, view.window);
    }

    if (options.webconsole) {
      options.webconsole.jsterm.once("variablesview-fetched")
        .then((varView) => deferred.resolve(varView));
    }

    EventUtils.synthesizeKey("VK_RETURN", {}, view.window);

    if (!options.webconsole) {
      executeSoon(() => {
        deferred.resolve(null);
      });
    }
  });

  return deferred.promise;
});

/**
 * Open the JavaScript debugger.
 *
 * @param object options
 *        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(options = {}) {
  if (!options.tab) {
    options.tab = gBrowser.selectedTab;
  }

  let deferred = defer();

  let target = TargetFactory.forTab(options.tab);
  let toolbox = gDevTools.getToolbox(target);
  let dbgPanelAlreadyOpen = toolbox && toolbox.getPanel("jsdebugger");

  gDevTools.showToolbox(target, "jsdebugger").then(function onSuccess(tool) {
    let panel = tool.getCurrentPanel();
    let panelWin = panel.panelWin;

    panel._view.Variables.lazyEmpty = false;

    let resolveObject = {
      target: target,
      toolbox: tool,
      panel: panel,
      panelWin: panelWin,
    };

    if (dbgPanelAlreadyOpen) {
      deferred.resolve(resolveObject);
    } else {
      panelWin.DebuggerController.waitForSourcesLoaded().then(() => {
        deferred.resolve(resolveObject);
      });
    }
  }, function onFailure(reason) {
    console.debug("failed to open the toolbox for 'jsdebugger'", reason);
    deferred.reject(reason);
  });

  return deferred.promise;
}

/**
 * Returns true if the caret in the debugger editor is placed at the specified
 * position.
 * @param  panel The debugger panel.
 * @param {number} line The line number.
 * @param {number} [col] The column number.
 * @returns {boolean}
 */
function isDebuggerCaretPos(panel, line, col = 1) {
  let editor = panel.panelWin.DebuggerView.editor;
  let cursor = editor.getCursor();

  // Source editor starts counting line and column numbers from 0.
  info("Current editor caret position: " + (cursor.line + 1) + ", " +
    (cursor.ch + 1));
  return cursor.line == (line - 1) && cursor.ch == (col - 1);
}

/**
 * Wait for messages in the Web Console output.
 *
 * @param object options
 *        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.
 *            - consoleTable: boolean, set to |true| to match a console.table()
 *            message.
 *            - longString: boolean, set to |true} to match long strings in the
 *            message.
 *            - collapsible: boolean, set to |true| to match messages that can
 *            be collapsed/expanded.
 *            - 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.
 *            - prefix: prefix text to check for in the prefix element.
 *            - stacktrace: array of objects of the form { file, fn, line } that
 *            can match frames in the stacktrace associated with the message.
 *            - 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(options) {
  info("Waiting for messages...");

  gPendingOutputTest++;
  let webconsole = options.webconsole;
  let rules = WebConsoleUtils.cloneObject(options.messages, true);
  let rulesMatched = 0;
  let listenerAdded = false;
  let deferred = defer();
  options.matchCondition = options.matchCondition || "all";

  function checkText(rule, text) {
    let result = false;
    if (Array.isArray(rule)) {
      result = rule.every((s) => checkText(s, text));
    } else if (typeof rule == "string") {
      result = text.indexOf(rule) > -1;
    } else if (rule instanceof RegExp) {
      result = rule.test(text);
    } else {
      result = rule == text;
    }
    return result;
  }

  function checkConsoleTable(rule, element) {
    let elemText = element.textContent;

    if (!checkText("console.table():", elemText)) {
      return false;
    }

    rule.category = CATEGORY_WEBDEV;
    rule.severity = SEVERITY_LOG;
    rule.type = Messages.ConsoleTable;

    return true;
  }

  function checkConsoleTrace(rule, element) {
    let elemText = element.textContent;
    let trace = rule.consoleTrace;

    if (!checkText("console.trace():", elemText)) {
      return false;
    }

    rule.category = CATEGORY_WEBDEV;
    rule.severity = SEVERITY_LOG;
    rule.type = Messages.ConsoleTrace;

    if (!rule.stacktrace && typeof trace == "object" && trace !== true) {
      if (Array.isArray(trace)) {
        rule.stacktrace = trace;
      } else {
        rule.stacktrace = [trace];
      }
    }

    return true;
  }

  function checkConsoleTime(rule, element) {
    let elemText = element.textContent;
    let time = rule.consoleTime;

    if (!checkText(time + ": timer started", elemText)) {
      return false;
    }

    rule.category = CATEGORY_WEBDEV;
    rule.severity = SEVERITY_LOG;

    return true;
  }

  function checkConsoleTimeEnd(rule, element) {
    let elemText = element.textContent;
    let time = rule.consoleTimeEnd;
    let regex = new RegExp(time + ": -?\\d+([,.]\\d+)?ms");

    if (!checkText(regex, elemText)) {
      return false;
    }

    rule.category = CATEGORY_WEBDEV;
    rule.severity = SEVERITY_LOG;

    return true;
  }

  function checkConsoleDir(rule, element) {
    if (!element.classList.contains("inlined-variables-view")) {
      return false;
    }

    let elemText = element.textContent;
    if (!checkText(rule.consoleDir, elemText)) {
      return false;
    }

    let iframe = element.querySelector("iframe");
    if (!iframe) {
      ok(false, "console.dir message has no iframe");
      return false;
    }

    return true;
  }

  function checkConsoleGroup(rule) {
    if (!isNaN(parseInt(rule.consoleGroup, 10))) {
      rule.groupDepth = rule.consoleGroup;
    }
    rule.category = CATEGORY_WEBDEV;
    rule.severity = SEVERITY_LOG;

    return true;
  }

  function checkSource(rule, element) {
    let location = getRenderedSource(element);
    if (!location) {
      return false;
    }

    if (!checkText(rule.source.url, location.url)) {
      return false;
    }

    if ("line" in rule.source && location.line != rule.source.line) {
      return false;
    }

    return true;
  }

  function checkCollapsible(rule, element) {
    let msg = element._messageObject;
    if (!msg || !!msg.collapsible != rule.collapsible) {
      return false;
    }

    return true;
  }

  function checkStacktrace(rule, element) {
    let stack = rule.stacktrace;
    let frames = element.querySelectorAll(".stacktrace > .stack-trace > .frame-link");
    if (!frames.length) {
      return false;
    }

    for (let i = 0; i < stack.length; i++) {
      let frame = frames[i];
      let expected = stack[i];
      if (!frame) {
        ok(false, "expected frame #" + i + " but didnt find it");
        return false;
      }

      if (expected.file) {
        let url = frame.getAttribute("data-url");
        if (!checkText(expected.file, url)) {
          ok(false, "frame #" + i + " does not match file name: " +
                    expected.file + " != " + url);
          displayErrorContext(rule, element);
          return false;
        }
      }

      if (expected.fn) {
        let fn = frame.querySelector(".frame-link-function-display-name").textContent;
        if (!checkText(expected.fn, fn)) {
          ok(false, "frame #" + i + " does not match the function name: " +
                    expected.fn + " != " + fn);
          displayErrorContext(rule, element);
          return false;
        }
      }

      if (expected.line) {
        let line = frame.getAttribute("data-line");
        if (!checkText(expected.line, line)) {
          ok(false, "frame #" + i + " does not match the line number: " +
                    expected.line + " != " + line);
          displayErrorContext(rule, element);
          return false;
        }
      }
    }

    return true;
  }

  function hasXhrLabel(element) {
    let xhr = element.querySelector(".xhr");
    if (!xhr) {
      return false;
    }
    return true;
  }

  function checkMessage(rule, element) {
    let elemText = element.textContent;

    if (rule.text && !checkText(rule.text, elemText)) {
      return false;
    }

    if (rule.noText && checkText(rule.noText, elemText)) {
      return false;
    }

    if (rule.consoleTable && !checkConsoleTable(rule, element)) {
      return false;
    }

    if (rule.consoleTrace && !checkConsoleTrace(rule, element)) {
      return false;
    }

    if (rule.consoleTime && !checkConsoleTime(rule, element)) {
      return false;
    }

    if (rule.consoleTimeEnd && !checkConsoleTimeEnd(rule, element)) {
      return false;
    }

    if (rule.consoleDir && !checkConsoleDir(rule, element)) {
      return false;
    }

    if (rule.consoleGroup && !checkConsoleGroup(rule, element)) {
      return false;
    }

    if (rule.source && !checkSource(rule, element)) {
      return false;
    }

    if ("collapsible" in rule && !checkCollapsible(rule, element)) {
      return false;
    }

    if (rule.isXhr && !hasXhrLabel(element)) {
      return false;
    }

    if (!rule.isXhr && hasXhrLabel(element)) {
      return false;
    }

    let partialMatch = !!(rule.consoleTrace || rule.consoleTime ||
                          rule.consoleTimeEnd);

    // The rule tries to match the newer types of messages, based on their
    // object constructor.
    if (rule.type) {
      if (!element._messageObject ||
          !(element._messageObject instanceof rule.type)) {
        if (partialMatch) {
          ok(false, "message type for rule: " + displayRule(rule));
          displayErrorContext(rule, element);
        }
        return false;
      }
      partialMatch = true;
    }

    if ("category" in rule && element.category != rule.category) {
      if (partialMatch) {
        is(element.category, rule.category,
           "message category for rule: " + displayRule(rule));
        displayErrorContext(rule, element);
      }
      return false;
    }

    if ("severity" in rule && element.severity != rule.severity) {
      if (partialMatch) {
        is(element.severity, rule.severity,
           "message severity for rule: " + displayRule(rule));
        displayErrorContext(rule, element);
      }
      return false;
    }

    if (rule.text) {
      partialMatch = true;
    }

    if (rule.stacktrace && !checkStacktrace(rule, element)) {
      if (partialMatch) {
        ok(false, "failed to match stacktrace for rule: " + displayRule(rule));
        displayErrorContext(rule, element);
      }
      return false;
    }

    if (rule.category == CATEGORY_NETWORK && "url" in rule &&
        !checkText(rule.url, element.url)) {
      return false;
    }

    if ("repeats" in rule) {
      let repeats = element.querySelector(".message-repeats");
      if (!repeats || repeats.getAttribute("value") != rule.repeats) {
        return false;
      }
    }

    if ("groupDepth" in rule) {
      let indentNode = element.querySelector(".indent");
      let indent = (GROUP_INDENT * rule.groupDepth) + "px";
      if (!indentNode || indentNode.style.width != indent) {
        is(indentNode.style.width, indent,
           "group depth check failed for message rule: " + displayRule(rule));
        return false;
      }
    }

    if ("longString" in rule) {
      let longStrings = element.querySelectorAll(".longStringEllipsis");
      if (rule.longString != !!longStrings[0]) {
        if (partialMatch) {
          is(!!longStrings[0], rule.longString,
             "long string existence check failed for message rule: " +
             displayRule(rule));
          displayErrorContext(rule, element);
        }
        return false;
      }
      rule.longStrings = longStrings;
    }

    if ("objects" in rule) {
      let clickables = element.querySelectorAll(".message-body a");
      if (rule.objects != !!clickables[0]) {
        if (partialMatch) {
          is(!!clickables[0], rule.objects,
             "objects existence check failed for message rule: " +
             displayRule(rule));
          displayErrorContext(rule, element);
        }
        return false;
      }
      rule.clickableElements = clickables;
    }

    if ("prefix" in rule) {
      let prefixNode = element.querySelector(".prefix");
      is(prefixNode && prefixNode.textContent, rule.prefix, "Check prefix");
    }

    let count = rule.count || 1;
    if (!rule.matched) {
      rule.matched = new Set();
    }
    rule.matched.add(element);

    return rule.matched.size == count;
  }

  function onMessagesAdded(event, newMessages) {
    for (let msg of newMessages) {
      let elem = msg.node;
      let location = getRenderedSource(elem);
      if (location && location.url) {
        let url = location.url;
        // Prevent recursion with the browser console and any potential
        // messages coming from head.js.
        if (url.indexOf("devtools/client/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 options.matchCondition == "all" && rulesMatched == rules.length ||
           options.matchCondition == "any" && rulesMatched > 0;
  }

  function maybeDone() {
    if (allRulesMatched()) {
      if (listenerAdded) {
        webconsole.ui.off("new-messages", onMessagesAdded);
      }
      gPendingOutputTest--;
      deferred.resolve(rules);
      return true;
    }
    return false;
  }

  function testCleanup() {
    if (allRulesMatched()) {
      return;
    }

    if (webconsole.ui) {
      webconsole.ui.off("new-messages", onMessagesAdded);
    }

    for (let rule of rules) {
      if (!rule._ruleMatched) {
        ok(false, "failed to match rule: " + displayRule(rule));
      }
    }
  }

  function displayRule(rule) {
    return rule.name || rule.text;
  }

  function displayErrorContext(rule, element) {
    console.log("error occured during rule " + displayRule(rule));
    console.log("while checking the following message");
    dumpMessageElement(element);
  }

  executeSoon(() => {
    let messages = [];
    for (let elem of webconsole.outputNode.childNodes) {
      messages.push({
        node: elem,
        update: false,
      });
    }

    onMessagesAdded("new-messages", messages);

    if (!allRulesMatched()) {
      listenerAdded = true;
      registerCleanupFunction(testCleanup);
      webconsole.ui.on("new-messages", onMessagesAdded);
    }
  });

  return deferred.promise;
}

function whenDelayedStartupFinished(win, callback) {
  Services.obs.addObserver(function observer(subject, topic) {
    if (win == subject) {
      Services.obs.removeObserver(observer, topic);
      executeSoon(callback);
    }
  }, "browser-delayed-startup-finished");
}

/**
 * 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).
 *
 *        - consoleOutput: string|RegExp, optional, expected consoleOutput
 *        If not provided consoleOuput = output;
 *
 *        - 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).
 *
 *        - expectedTab: string, optional, the full URL of the new tab which
 *        must open. If this is not provided, any new tabs that open will cause
 *        a test failure.
 */
function checkOutputForInputs(hud, inputTests) {
  let container = gBrowser.tabContainer;

  function* runner() {
    for (let [i, entry] of inputTests.entries()) {
      info("checkInput(" + i + "): " + entry.input);
      yield checkInput(entry);
    }
    container = null;
  }

  function* checkInput(entry) {
    yield checkConsoleLog(entry);
    yield checkPrintOutput(entry);
    yield checkJSEval(entry);
  }

  function* checkConsoleLog(entry) {
    info("Logging");
    hud.jsterm.clearOutput();
    hud.jsterm.execute("console.log(" + entry.input + ")");

    let consoleOutput = "consoleOutput" in entry ?
                        entry.consoleOutput : entry.output;

    let [result] = yield waitForMessages({
      webconsole: hud,
      messages: [{
        name: "console.log() output: " + consoleOutput,
        text: consoleOutput,
        category: CATEGORY_WEBDEV,
        severity: SEVERITY_LOG,
      }],
    });

    let msg = [...result.matched][0];

    if (entry.consoleLogClick) {
      yield checkObjectClick(entry, msg);
    }

    if (typeof entry.inspectorIcon == "boolean") {
      info("Checking Inspector Link");
      yield checkLinkToInspector(entry.inspectorIcon, msg);
    }
  }

  function checkPrintOutput(entry) {
    info("Printing");
    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) {
    info("Evaluating");
    hud.jsterm.clearOutput();
    hud.jsterm.execute(entry.input);

    let evalOutput = entry.evalOutput || entry.output;

    let [result] = yield waitForMessages({
      webconsole: hud,
      messages: [{
        name: "JS eval output: " + entry.evalOutput,
        text: entry.evalOutput,
        category: CATEGORY_OUTPUT,
      }],
    });

    let msg = [...result.matched][0];
    if (!entry.noClick) {
      yield checkObjectClick(entry, msg);
    }
    if (typeof entry.inspectorIcon == "boolean") {
      info("Checking Inspector Link: " + entry.input);
      yield checkLinkToInspector(entry.inspectorIcon, msg);
    }
  }

  function* checkObjectClick(entry, msg) {
    info("Clicking");
    let body;
    if (entry.getClickableNode) {
      body = entry.getClickableNode(msg);
    } else {
      body = msg.querySelector(".message-body a") ||
             msg.querySelector(".message-body");
    }
    ok(body, "the message body");

    let deferredVariablesView = defer();
    entry._onVariablesViewOpen = onVariablesViewOpen.bind(null, entry,
                                                          deferredVariablesView);
    hud.jsterm.on("variablesview-open", entry._onVariablesViewOpen);

    let deferredTab = defer();
    entry._onTabOpen = onTabOpen.bind(null, entry, deferredTab);
    container.addEventListener("TabOpen", entry._onTabOpen, true);

    body.scrollIntoView();

    if (!entry.suppressClick) {
      EventUtils.synthesizeMouse(body, 2, 2, {}, hud.iframeWindow);
    }

    if (entry.inspectable) {
      info("message body tagName '" + body.tagName + "' className '" +
           body.className + "'");
      yield deferredVariablesView.promise;
    } else {
      hud.jsterm.off("variablesview-open", entry._onVariablesView);
      entry._onVariablesView = null;
    }

    if (entry.expectedTab) {
      yield deferredTab.promise;
    } else {
      container.removeEventListener("TabOpen", entry._onTabOpen, true);
      entry._onTabOpen = null;
    }

    yield promise.resolve(null);
  }

  function onVariablesViewOpen(entry, {resolve, reject}, event, view, options) {
    info("Variables view opened");
    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);
    entry._onVariablesViewOpen = null;
    ok(entry.inspectable, "variables view was shown");

    resolve(null);
  }

  function onTabOpen(entry, {resolve, reject}, event) {
    container.removeEventListener("TabOpen", entry._onTabOpen, true);
    entry._onTabOpen = null;
    let tab = event.target;
    let browser = gBrowser.getBrowserForTab(tab);

    Task.spawn(function* () {
      yield loadBrowser(browser);
      let uri = yield ContentTask.spawn(browser, {}, function* () {
        return content.location.href;
      });
      ok(entry.expectedTab && entry.expectedTab == uri,
         "opened tab '" + uri + "', expected tab '" + entry.expectedTab + "'");
      yield closeTab(tab);
    }).then(resolve, reject);
  }

  return Task.spawn(runner);
}

/**
 * Check the web console DOM element output for the given inputs.
 * Each input is checked for the expected JS eval result. The JS eval result is
 * also checked if it opens the inspector with the correct node selected on
 * inspector icon 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, expected JS eval result.
 *
 *        - displayName: string, expected NodeFront's displayName.
 *
 *        - attr: Array, expected NodeFront's attributes
 */
function checkDomElementHighlightingForInputs(hud, inputs) {
  function* runner() {
    let toolbox = gDevTools.getToolbox(hud.target);

    // Loading the inspector panel at first, to make it possible to listen for
    // new node selections
    yield toolbox.selectTool("inspector");
    let inspector = toolbox.getCurrentPanel();
    yield toolbox.selectTool("webconsole");

    info("Iterating over the test data");
    for (let data of inputs) {
      let [result] = yield jsEval(data.input, {text: data.output});
      let {msg} = yield checkWidgetAndMessage(result);
      yield checkNodeHighlight(toolbox, inspector, msg, data);
    }
  }

  function jsEval(input, message) {
    info("Executing '" + input + "' in the web console");

    hud.jsterm.clearOutput();
    hud.jsterm.execute(input);

    return waitForMessages({
      webconsole: hud,
      messages: [message]
    });
  }

  function* checkWidgetAndMessage(result) {
    info("Getting the output ElementNode widget");

    let msg = [...result.matched][0];
    let widget = [...msg._messageObject.widgets][0];
    ok(widget, "ElementNode widget found in the output");

    info("Waiting for the ElementNode widget to be linked to the inspector");
    yield widget.linkToInspector();

    return {widget, msg};
  }

  function* checkNodeHighlight(toolbox, inspector, msg, testData) {
    let inspectorIcon = msg.querySelector(".open-inspector");
    ok(inspectorIcon, "Inspector icon found in the ElementNode widget");

    info("Clicking on the inspector icon and waiting for the " +
         "inspector to be selected");
    let onInspectorSelected = toolbox.once("inspector-selected");
    let onInspectorUpdated = inspector.once("inspector-updated");
    let onNewNode = toolbox.selection.once("new-node-front");
    let onNodeHighlight = toolbox.once("node-highlight");

    EventUtils.synthesizeMouseAtCenter(inspectorIcon, {},
      inspectorIcon.ownerDocument.defaultView);
    yield onInspectorSelected;
    yield onInspectorUpdated;
    yield onNodeHighlight;
    let nodeFront = yield onNewNode;

    ok(true, "Inspector selected and new node got selected");

    is(nodeFront.displayName, testData.displayName,
      "The correct node was highlighted");

    if (testData.attrs) {
      let attrs = nodeFront.attributes;
      for (let i in testData.attrs) {
        is(attrs[i].name, testData.attrs[i].name,
           "Expected attribute's name is present");
        is(attrs[i].value, testData.attrs[i].value,
           "Expected attribute's value is present");
      }
    }

    info("Unhighlight the node by moving away from the markup view");
    let onNodeUnhighlight = toolbox.once("node-unhighlight");
    let btn = inspector.toolbox.doc.querySelector(".toolbox-dock-button");
    EventUtils.synthesizeMouseAtCenter(btn, {type: "mousemove"},
      inspector.toolbox.win);
    yield onNodeUnhighlight;

    info("Switching back to the console");
    yield toolbox.selectTool("webconsole");
  }

  return Task.spawn(runner);
}

/**
 * Finish the request and resolve with the request object.
 *
 * @param {Function} predicate A predicate function that takes the request
 * object as an argument and returns true if the request was the expected one,
 * false otherwise. The returned promise is resolved ONLY if the predicate
 * matches a request. Defaults to accepting any request.
 * @return promise
 * @resolves The request object.
 */
function waitForFinishedRequest(predicate = () => true) {
  registerCleanupFunction(function () {
    HUDService.lastFinishedRequest.callback = null;
  });

  return new Promise(resolve => {
    HUDService.lastFinishedRequest.callback = request => {
      // Check if this is the expected request
      if (predicate(request)) {
        // Match found. Clear the listener.
        HUDService.lastFinishedRequest.callback = null;

        resolve(request);
      } else {
        info(`Ignoring unexpected request ${JSON.stringify(request, null, 2)}`);
      }
    };
  });
}

/**
 * Wait for eventName on target.
 * @param {Object} target An observable object that either supports on/off or
 * addEventListener/removeEventListener
 * @param {String} eventName
 * @param {Boolean} useCapture Optional for addEventListener/removeEventListener
 * @return A promise that resolves when the event has been handled
 */
function once(target, eventName, useCapture = false) {
  info("Waiting for event: '" + eventName + "' on " + target + ".");

  let deferred = defer();

  for (let [add, remove] of [
    ["addEventListener", "removeEventListener"],
    ["addListener", "removeListener"],
    ["on", "off"]
  ]) {
    if ((add in target) && (remove in target)) {
      target[add](eventName, function onEvent(...aArgs) {
        target[remove](eventName, onEvent, useCapture);
        deferred.resolve.apply(deferred, aArgs);
      }, useCapture);
      break;
    }
  }

  return deferred.promise;
}

/**
 * Checks a link to the inspector
 *
 * @param {boolean} hasLinkToInspector Set to true if the message should
 *  link to the inspector panel.
 * @param {element} msg The message to test.
 */
function checkLinkToInspector(hasLinkToInspector, msg) {
  let elementNodeWidget = [...msg._messageObject.widgets][0];
  if (!elementNodeWidget) {
    ok(!hasLinkToInspector, "The message has no ElementNode widget");
    return true;
  }

  return elementNodeWidget.linkToInspector().then(() => {
    // linkToInspector resolved, check for the .open-inspector element
    if (hasLinkToInspector) {
      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(!hasLinkToInspector,
       "The ElementNode widget isn't linked to the inspector");
  });
}

function getSourceActor(sources, URL) {
  let item = sources.getItemForAttachment(a => a.source.url === URL);
  return item && item.value;
}

/**
 * Verify that clicking on a link from a popup notification message tries to
 * open the expected URL.
 */
function simulateMessageLinkClick(element, expectedLink) {
  let deferred = defer();

  // Invoke the click event and check if a new tab would
  // open to the correct page.
  let oldOpenUILinkIn = window.openUILinkIn;
  window.openUILinkIn = function (link) {
    if (link == expectedLink) {
      ok(true, "Clicking the message link opens the desired page");
      window.openUILinkIn = oldOpenUILinkIn;
      deferred.resolve();
    }
  };

  let event = new MouseEvent("click", {
    detail: 1,
    button: 0,
    bubbles: true,
    cancelable: true
  });
  element.dispatchEvent(event);

  return deferred.promise;
}

function getRenderedSource(root) {
  let location = root.querySelector(".message-location .frame-link");
  return location ? {
    url: location.getAttribute("data-url"),
    line: location.getAttribute("data-line"),
    column: location.getAttribute("data-column"),
  } : null;
}

function waitForBrowserConsole() {
  return new Promise(resolve => {
    Services.obs.addObserver(function observer(subject) {
      Services.obs.removeObserver(observer, "web-console-created");
      subject.QueryInterface(Ci.nsISupportsString);

      let hud = HUDService.getBrowserConsole();
      ok(hud, "browser console is open");
      is(subject.data, hud.hudId, "notification hudId is correct");

      executeSoon(() => resolve(hud));
    }, "web-console-created");
  });
}