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gecko/browser/devtools/webconsole/webconsole.js

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/* -*- Mode: js2; js2-basic-offset: 2; indent-tabs-mode: nil; -*- */
/* vim: set ts=2 et sw=2 tw=80: */
/* 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/. */
"use strict";
const Cc = Components.classes;
const Ci = Components.interfaces;
const Cu = Components.utils;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "Services",
"resource://gre/modules/Services.jsm");
XPCOMUtils.defineLazyServiceGetter(this, "clipboardHelper",
"@mozilla.org/widget/clipboardhelper;1",
"nsIClipboardHelper");
XPCOMUtils.defineLazyModuleGetter(this, "PropertyPanel",
"resource:///modules/PropertyPanel.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "PropertyTreeView",
"resource:///modules/PropertyPanel.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "NetworkPanel",
"resource:///modules/NetworkPanel.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "AutocompletePopup",
"resource:///modules/AutocompletePopup.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "WebConsoleUtils",
"resource://gre/modules/devtools/WebConsoleUtils.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "Promise",
"resource://gre/modules/commonjs/sdk/core/promise.js");
const STRINGS_URI = "chrome://browser/locale/devtools/webconsole.properties";
let l10n = new WebConsoleUtils.l10n(STRINGS_URI);
// The XUL namespace.
const XUL_NS = "http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul";
const MIXED_CONTENT_LEARN_MORE = "https://developer.mozilla.org/en/Security/MixedContent";
const HELP_URL = "https://developer.mozilla.org/docs/Tools/Web_Console/Helpers";
// The amount of time in milliseconds that must pass between messages to
// trigger the display of a new group.
const NEW_GROUP_DELAY = 5000;
// The amount of time in milliseconds that we wait before performing a live
// search.
const SEARCH_DELAY = 200;
// The number of lines that are displayed in the console output by default, for
// each category. The user can change this number by adjusting the hidden
// "devtools.hud.loglimit.{network,cssparser,exception,console}" preferences.
const DEFAULT_LOG_LIMIT = 200;
// The various categories of messages. We start numbering at zero so we can
// use these as indexes into the MESSAGE_PREFERENCE_KEYS matrix below.
const CATEGORY_NETWORK = 0;
const CATEGORY_CSS = 1;
const CATEGORY_JS = 2;
const CATEGORY_WEBDEV = 3;
const CATEGORY_INPUT = 4; // always on
const CATEGORY_OUTPUT = 5; // always on
// The possible message severities. As before, we start at zero so we can use
// these as indexes into MESSAGE_PREFERENCE_KEYS.
const SEVERITY_ERROR = 0;
const SEVERITY_WARNING = 1;
const SEVERITY_INFO = 2;
const SEVERITY_LOG = 3;
// The fragment of a CSS class name that identifies each category.
const CATEGORY_CLASS_FRAGMENTS = [
"network",
"cssparser",
"exception",
"console",
"input",
"output",
];
// The fragment of a CSS class name that identifies each severity.
const SEVERITY_CLASS_FRAGMENTS = [
"error",
"warn",
"info",
"log",
];
// The preference keys to use for each category/severity combination, indexed
// first by category (rows) and then by severity (columns).
//
// Most of these rather idiosyncratic names are historical and predate the
// division of message type into "category" and "severity".
const MESSAGE_PREFERENCE_KEYS = [
// Error Warning Info Log
[ "network", null, null, "networkinfo", ], // Network
[ "csserror", "cssparser", null, null, ], // CSS
[ "exception", "jswarn", null, null, ], // JS
[ "error", "warn", "info", "log", ], // Web Developer
[ null, null, null, null, ], // Input
[ null, null, null, null, ], // Output
];
// A mapping from the console API log event levels to the Web Console
// severities.
const LEVELS = {
error: SEVERITY_ERROR,
warn: SEVERITY_WARNING,
info: SEVERITY_INFO,
log: SEVERITY_LOG,
trace: SEVERITY_LOG,
debug: SEVERITY_LOG,
dir: SEVERITY_LOG,
group: SEVERITY_LOG,
groupCollapsed: SEVERITY_LOG,
groupEnd: SEVERITY_LOG,
time: SEVERITY_LOG,
timeEnd: SEVERITY_LOG
};
// The lowest HTTP response code (inclusive) that is considered an error.
const MIN_HTTP_ERROR_CODE = 400;
// The highest HTTP response code (inclusive) that is considered an error.
const MAX_HTTP_ERROR_CODE = 599;
// Constants used for defining the direction of JSTerm input history navigation.
const HISTORY_BACK = -1;
const HISTORY_FORWARD = 1;
// The indent of a console group in pixels.
const GROUP_INDENT = 12;
// The number of messages to display in a single display update. If we display
// too many messages at once we slow the Firefox UI too much.
const MESSAGES_IN_INTERVAL = DEFAULT_LOG_LIMIT;
// The delay between display updates - tells how often we should *try* to push
// new messages to screen. This value is optimistic, updates won't always
// happen. Keep this low so the Web Console output feels live.
const OUTPUT_INTERVAL = 50; // milliseconds
// When the output queue has more than MESSAGES_IN_INTERVAL items we throttle
// output updates to this number of milliseconds. So during a lot of output we
// update every N milliseconds given here.
const THROTTLE_UPDATES = 1000; // milliseconds
// The preference prefix for all of the Web Console filters.
const FILTER_PREFS_PREFIX = "devtools.webconsole.filter.";
// The minimum font size.
const MIN_FONT_SIZE = 10;
const PREF_CONNECTION_TIMEOUT = "devtools.debugger.remote-timeout";
/**
* A WebConsoleFrame instance is an interactive console initialized *per target*
* that displays console log data as well as provides an interactive terminal to
* manipulate the target's document content.
*
* The WebConsoleFrame is responsible for the actual Web Console UI
* implementation.
*
* @param object aWebConsoleOwner
* The WebConsole owner object.
*/
function WebConsoleFrame(aWebConsoleOwner)
{
this.owner = aWebConsoleOwner;
this.hudId = this.owner.hudId;
this._cssNodes = {};
this._outputQueue = [];
this._pruneCategoriesQueue = {};
this._networkRequests = {};
this._toggleFilter = this._toggleFilter.bind(this);
this._flushMessageQueue = this._flushMessageQueue.bind(this);
this._outputTimer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
this._outputTimerInitialized = false;
}
WebConsoleFrame.prototype = {
/**
* The WebConsole instance that owns this frame.
* @see HUDService.jsm::WebConsole
* @type object
*/
owner: null,
/**
* Proxy between the Web Console and the remote Web Console instance. This
* object holds methods used for connecting, listening and disconnecting from
* the remote server, using the remote debugging protocol.
*
* @see WebConsoleConnectionProxy
* @type object
*/
proxy: null,
/**
* Getter for the xul:popupset that holds any popups we open.
* @type nsIDOMElement
*/
get popupset() this.owner.mainPopupSet,
/**
* Holds the network requests currently displayed by the Web Console. Each key
* represents the connection ID and the value is network request information.
* @private
* @type object
*/
_networkRequests: null,
/**
* Last time when we displayed any message in the output.
*
* @private
* @type number
* Timestamp in milliseconds since the Unix epoch.
*/
_lastOutputFlush: 0,
/**
* Message nodes are stored here in a queue for later display.
*
* @private
* @type array
*/
_outputQueue: null,
/**
* Keep track of the categories we need to prune from time to time.
*
* @private
* @type array
*/
_pruneCategoriesQueue: null,
/**
* Function invoked whenever the output queue is emptied. This is used by some
* tests.
*
* @private
* @type function
*/
_flushCallback: null,
/**
* Timer used for flushing the messages output queue.
*
* @private
* @type nsITimer
*/
_outputTimer: null,
_outputTimerInitialized: null,
/**
* Store for tracking repeated CSS nodes.
* @private
* @type object
*/
_cssNodes: null,
/**
* Preferences for filtering messages by type.
* @see this._initDefaultFilterPrefs()
* @type object
*/
filterPrefs: null,
/**
* The nesting depth of the currently active console group.
*/
groupDepth: 0,
/**
* The current target location.
* @type string
*/
contentLocation: "",
/**
* The JSTerm object that manage the console's input.
* @see JSTerm
* @type object
*/
jsterm: null,
/**
* The element that holds all of the messages we display.
* @type nsIDOMElement
*/
outputNode: null,
/**
* The input element that allows the user to filter messages by string.
* @type nsIDOMElement
*/
filterBox: null,
/**
* Getter for the debugger WebConsoleClient.
* @type object
*/
get webConsoleClient() this.proxy ? this.proxy.webConsoleClient : null,
_destroyer: null,
_saveRequestAndResponseBodies: false,
/**
* Tells whether to save the bodies of network requests and responses.
* Disabled by default to save memory.
* @type boolean
*/
get saveRequestAndResponseBodies() this._saveRequestAndResponseBodies,
/**
* Setter for saving of network request and response bodies.
*
* @param boolean aValue
* The new value you want to set.
*/
set saveRequestAndResponseBodies(aValue) {
let newValue = !!aValue;
let preferences = {
"NetworkMonitor.saveRequestAndResponseBodies": newValue,
};
this.webConsoleClient.setPreferences(preferences, function(aResponse) {
if (!aResponse.error) {
this._saveRequestAndResponseBodies = newValue;
}
}.bind(this));
},
/**
* Initialize the WebConsoleFrame instance.
* @return object
* A Promise object for the initialization.
*/
init: function WCF_init()
{
this._initUI();
return this._initConnection();
},
/**
* Connect to the server using the remote debugging protocol.
*
* @private
* @return object
* A Promise object that is resolved/reject based on the connection
* result.
*/
_initConnection: function WCF__initConnection()
{
let deferred = Promise.defer();
this.proxy = new WebConsoleConnectionProxy(this, this.owner.target);
let onSuccess = function() {
this.saveRequestAndResponseBodies = this._saveRequestAndResponseBodies;
deferred.resolve(this);
}.bind(this);
let onFailure = function(aReason) {
let node = this.createMessageNode(CATEGORY_JS, SEVERITY_ERROR,
aReason.error + ": " + aReason.message);
this.outputMessage(CATEGORY_JS, node);
deferred.reject(aReason);
}.bind(this);
let sendNotification = function() {
let id = WebConsoleUtils.supportsString(this.hudId);
Services.obs.notifyObservers(id, "web-console-created", null);
}.bind(this);
this.proxy.connect().then(onSuccess, onFailure).then(sendNotification);
return deferred.promise;
},
/**
* Find the Web Console UI elements and setup event listeners as needed.
* @private
*/
_initUI: function WCF__initUI()
{
// Remember that this script is loaded in the webconsole.xul context:
// |window| is the iframe global.
this.window = window;
this.document = this.window.document;
this.rootElement = this.document.documentElement;
this._initDefaultFilterPrefs();
// Register the controller to handle "select all" properly.
this._commandController = new CommandController(this);
this.window.controllers.insertControllerAt(0, this._commandController);
let doc = this.document;
this.filterBox = doc.querySelector(".hud-filter-box");
this.outputNode = doc.querySelector(".hud-output-node");
this.completeNode = doc.querySelector(".jsterm-complete-node");
this.inputNode = doc.querySelector(".jsterm-input-node");
this._setFilterTextBoxEvents();
this._initFilterButtons();
let fontSize = Services.prefs.getIntPref("devtools.webconsole.fontSize");
if (fontSize != 0) {
fontSize = Math.max(MIN_FONT_SIZE, fontSize);
this.outputNode.style.fontSize = fontSize + "px";
this.completeNode.style.fontSize = fontSize + "px";
this.inputNode.style.fontSize = fontSize + "px";
}
let saveBodies = doc.getElementById("saveBodies");
saveBodies.addEventListener("command", function() {
this.saveRequestAndResponseBodies = !this.saveRequestAndResponseBodies;
}.bind(this));
saveBodies.setAttribute("checked", this.saveRequestAndResponseBodies);
saveBodies.disabled = !this.getFilterState("networkinfo") &&
!this.getFilterState("network");
saveBodies.parentNode.addEventListener("popupshowing", function() {
saveBodies.setAttribute("checked", this.saveRequestAndResponseBodies);
saveBodies.disabled = !this.getFilterState("networkinfo") &&
!this.getFilterState("network");
}.bind(this));
// Remove this part when context menu entry is removed.
let saveBodiesContextMenu = doc.getElementById("saveBodiesContextMenu");
saveBodiesContextMenu.addEventListener("command", function() {
this.saveRequestAndResponseBodies = !this.saveRequestAndResponseBodies;
}.bind(this));
saveBodiesContextMenu.setAttribute("checked",
this.saveRequestAndResponseBodies);
saveBodiesContextMenu.disabled = !this.getFilterState("networkinfo") &&
!this.getFilterState("network");
saveBodiesContextMenu.parentNode.addEventListener("popupshowing", function() {
saveBodiesContextMenu.setAttribute("checked",
this.saveRequestAndResponseBodies);
saveBodiesContextMenu.disabled = !this.getFilterState("networkinfo") &&
!this.getFilterState("network");
}.bind(this));
let clearButton = doc.getElementsByClassName("webconsole-clear-console-button")[0];
clearButton.addEventListener("command", function WCF__onClearButton() {
this.owner._onClearButton();
this.jsterm.clearOutput(true);
}.bind(this));
this.jsterm = new JSTerm(this);
this.jsterm.init();
this.jsterm.inputNode.focus();
},
/**
* Initialize the default filter preferences.
* @private
*/
_initDefaultFilterPrefs: function WCF__initDefaultFilterPrefs()
{
this.filterPrefs = {
network: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "network"),
networkinfo: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "networkinfo"),
csserror: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "csserror"),
cssparser: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "cssparser"),
exception: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "exception"),
jswarn: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "jswarn"),
error: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "error"),
info: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "info"),
warn: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "warn"),
log: Services.prefs.getBoolPref(FILTER_PREFS_PREFIX + "log"),
};
},
/**
* Sets the click events for all binary toggle filter buttons.
* @private
*/
_setFilterTextBoxEvents: function WCF__setFilterTextBoxEvents()
{
let timer = null;
let timerEvent = this.adjustVisibilityOnSearchStringChange.bind(this);
let onChange = function _onChange() {
let timer;
// To improve responsiveness, we let the user finish typing before we
// perform the search.
if (timer == null) {
let timerClass = Cc["@mozilla.org/timer;1"];
timer = timerClass.createInstance(Ci.nsITimer);
}
else {
timer.cancel();
}
timer.initWithCallback(timerEvent, SEARCH_DELAY,
Ci.nsITimer.TYPE_ONE_SHOT);
}.bind(this);
this.filterBox.addEventListener("command", onChange, false);
this.filterBox.addEventListener("input", onChange, false);
},
/**
* Creates one of the filter buttons on the toolbar.
*
* @private
* @param nsIDOMNode aParent
* The node to which the filter button should be appended.
* @param object aDescriptor
* A descriptor that contains info about the button. Contains "name",
* "category", and "prefKey" properties, and optionally a "severities"
* property.
*/
_initFilterButtons: function WCF__initFilterButtons()
{
let categories = this.document
.querySelectorAll(".webconsole-filter-button[category]");
Array.forEach(categories, function(aButton) {
aButton.addEventListener("click", this._toggleFilter, false);
let someChecked = false;
let severities = aButton.querySelectorAll("menuitem[prefKey]");
Array.forEach(severities, function(aMenuItem) {
aMenuItem.addEventListener("command", this._toggleFilter, false);
let prefKey = aMenuItem.getAttribute("prefKey");
let checked = this.filterPrefs[prefKey];
aMenuItem.setAttribute("checked", checked);
someChecked = someChecked || checked;
}, this);
aButton.setAttribute("checked", someChecked);
}, this);
},
/**
* Increase, decrease or reset the font size.
*
* @param string size
* The size of the font change. Accepted values are "+" and "-".
* An unmatched size assumes a font reset.
*/
changeFontSize: function WCF_changeFontSize(aSize)
{
let fontSize = this.window
.getComputedStyle(this.outputNode, null)
.getPropertyValue("font-size").replace("px", "");
if (this.outputNode.style.fontSize) {
fontSize = this.outputNode.style.fontSize.replace("px", "");
}
if (aSize == "+" || aSize == "-") {
fontSize = parseInt(fontSize, 10);
if (aSize == "+") {
fontSize += 1;
}
else {
fontSize -= 1;
}
if (fontSize < MIN_FONT_SIZE) {
fontSize = MIN_FONT_SIZE;
}
Services.prefs.setIntPref("devtools.webconsole.fontSize", fontSize);
fontSize = fontSize + "px";
this.completeNode.style.fontSize = fontSize;
this.inputNode.style.fontSize = fontSize;
this.outputNode.style.fontSize = fontSize;
}
else {
this.completeNode.style.fontSize = "";
this.inputNode.style.fontSize = "";
this.outputNode.style.fontSize = "";
Services.prefs.clearUserPref("devtools.webconsole.fontSize");
}
},
/**
* The event handler that is called whenever a user switches a filter on or
* off.
*
* @private
* @param nsIDOMEvent aEvent
* The event that triggered the filter change.
*/
_toggleFilter: function WCF__toggleFilter(aEvent)
{
let target = aEvent.target;
let tagName = target.tagName;
if (tagName != aEvent.currentTarget.tagName) {
return;
}
switch (tagName) {
case "toolbarbutton": {
let originalTarget = aEvent.originalTarget;
let classes = originalTarget.classList;
if (originalTarget.localName !== "toolbarbutton") {
// Oddly enough, the click event is sent to the menu button when
// selecting a menu item with the mouse. Detect this case and bail
// out.
break;
}
if (!classes.contains("toolbarbutton-menubutton-button") &&
originalTarget.getAttribute("type") === "menu-button") {
// This is a filter button with a drop-down. The user clicked the
// drop-down, so do nothing. (The menu will automatically appear
// without our intervention.)
break;
}
let state = target.getAttribute("checked") !== "true";
target.setAttribute("checked", state);
// This is a filter button with a drop-down, and the user clicked the
// main part of the button. Go through all the severities and toggle
// their associated filters.
let menuItems = target.querySelectorAll("menuitem");
for (let i = 0; i < menuItems.length; i++) {
menuItems[i].setAttribute("checked", state);
let prefKey = menuItems[i].getAttribute("prefKey");
this.setFilterState(prefKey, state);
}
break;
}
case "menuitem": {
let state = target.getAttribute("checked") !== "true";
target.setAttribute("checked", state);
let prefKey = target.getAttribute("prefKey");
this.setFilterState(prefKey, state);
// Disable the log response and request body if network logging is off.
if (prefKey == "networkinfo" || prefKey == "network") {
let checkState = !this.getFilterState("networkinfo") &&
!this.getFilterState("network");
this.document.getElementById("saveBodies").disabled = checkState;
this.document.getElementById("saveBodiesContextMenu").disabled = checkState;
}
// Adjust the state of the button appropriately.
let menuPopup = target.parentNode;
let someChecked = false;
let menuItem = menuPopup.firstChild;
while (menuItem) {
if (menuItem.hasAttribute("prefKey") &&
menuItem.getAttribute("checked") === "true") {
someChecked = true;
break;
}
menuItem = menuItem.nextSibling;
}
let toolbarButton = menuPopup.parentNode;
toolbarButton.setAttribute("checked", someChecked);
break;
}
}
},
/**
* Set the filter state for a specific toggle button.
*
* @param string aToggleType
* @param boolean aState
* @returns void
*/
setFilterState: function WCF_setFilterState(aToggleType, aState)
{
this.filterPrefs[aToggleType] = aState;
this.adjustVisibilityForMessageType(aToggleType, aState);
Services.prefs.setBoolPref(FILTER_PREFS_PREFIX + aToggleType, aState);
},
/**
* Get the filter state for a specific toggle button.
*
* @param string aToggleType
* @returns boolean
*/
getFilterState: function WCF_getFilterState(aToggleType)
{
return this.filterPrefs[aToggleType];
},
/**
* Check that the passed string matches the filter arguments.
*
* @param String aString
* to search for filter words in.
* @param String aFilter
* is a string containing all of the words to filter on.
* @returns boolean
*/
stringMatchesFilters: function WCF_stringMatchesFilters(aString, aFilter)
{
if (!aFilter || !aString) {
return true;
}
let searchStr = aString.toLowerCase();
let filterStrings = aFilter.toLowerCase().split(/\s+/);
return !filterStrings.some(function (f) {
return searchStr.indexOf(f) == -1;
});
},
/**
* Turns the display of log nodes on and off appropriately to reflect the
* adjustment of the message type filter named by @aPrefKey.
*
* @param string aPrefKey
* The preference key for the message type being filtered: one of the
* values in the MESSAGE_PREFERENCE_KEYS table.
* @param boolean aState
* True if the filter named by @aMessageType is being turned on; false
* otherwise.
* @returns void
*/
adjustVisibilityForMessageType:
function WCF_adjustVisibilityForMessageType(aPrefKey, aState)
{
let outputNode = this.outputNode;
let doc = this.document;
// Look for message nodes ("hud-msg-node") with the given preference key
// ("hud-msg-error", "hud-msg-cssparser", etc.) and add or remove the
// "hud-filtered-by-type" class, which turns on or off the display.
let xpath = ".//*[contains(@class, 'hud-msg-node') and " +
"contains(concat(@class, ' '), 'hud-" + aPrefKey + " ')]";
let result = doc.evaluate(xpath, outputNode, null,
Ci.nsIDOMXPathResult.UNORDERED_NODE_SNAPSHOT_TYPE, null);
for (let i = 0; i < result.snapshotLength; i++) {
let node = result.snapshotItem(i);
if (aState) {
node.classList.remove("hud-filtered-by-type");
}
else {
node.classList.add("hud-filtered-by-type");
}
}
this.regroupOutput();
},
/**
* Turns the display of log nodes on and off appropriately to reflect the
* adjustment of the search string.
*/
adjustVisibilityOnSearchStringChange:
function WCF_adjustVisibilityOnSearchStringChange()
{
let nodes = this.outputNode.getElementsByClassName("hud-msg-node");
let searchString = this.filterBox.value;
for (let i = 0, n = nodes.length; i < n; ++i) {
let node = nodes[i];
// hide nodes that match the strings
let text = node.clipboardText;
// if the text matches the words in aSearchString...
if (this.stringMatchesFilters(text, searchString)) {
node.classList.remove("hud-filtered-by-string");
}
else {
node.classList.add("hud-filtered-by-string");
}
}
this.regroupOutput();
},
/**
* Applies the user's filters to a newly-created message node via CSS
* classes.
*
* @param nsIDOMNode aNode
* The newly-created message node.
* @return boolean
* True if the message was filtered or false otherwise.
*/
filterMessageNode: function WCF_filterMessageNode(aNode)
{
let isFiltered = false;
// Filter by the message type.
let prefKey = MESSAGE_PREFERENCE_KEYS[aNode.category][aNode.severity];
if (prefKey && !this.getFilterState(prefKey)) {
// The node is filtered by type.
aNode.classList.add("hud-filtered-by-type");
isFiltered = true;
}
// Filter on the search string.
let search = this.filterBox.value;
let text = aNode.clipboardText;
// if string matches the filter text
if (!this.stringMatchesFilters(text, search)) {
aNode.classList.add("hud-filtered-by-string");
isFiltered = true;
}
return isFiltered;
},
/**
* Merge the attributes of the two nodes that are about to be filtered.
* Increment the number of repeats of aOriginal.
*
* @param nsIDOMNode aOriginal
* The Original Node. The one being merged into.
* @param nsIDOMNode aFiltered
* The node being filtered out because it is repeated.
*/
mergeFilteredMessageNode:
function WCF_mergeFilteredMessageNode(aOriginal, aFiltered)
{
// childNodes[3].firstChild is the node containing the number of repetitions
// of a node.
let repeatNode = aOriginal.childNodes[3].firstChild;
if (!repeatNode) {
return; // no repeat node, return early.
}
let occurrences = parseInt(repeatNode.getAttribute("value")) + 1;
repeatNode.setAttribute("value", occurrences);
},
/**
* Filter the message node from the output if it is a repeat.
*
* @private
* @param nsIDOMNode aNode
* The message node to be filtered or not.
* @returns boolean
* True if the message is filtered, false otherwise.
*/
_filterRepeatedMessage: function WCF__filterRepeatedMessage(aNode)
{
let repeatNode = aNode.getElementsByClassName("webconsole-msg-repeat")[0];
if (!repeatNode) {
return false;
}
let uid = repeatNode._uid;
let dupeNode = null;
if (aNode.classList.contains("webconsole-msg-cssparser")) {
dupeNode = this._cssNodes[uid];
if (!dupeNode) {
this._cssNodes[uid] = aNode;
}
}
else if (!aNode.classList.contains("webconsole-msg-network") &&
!aNode.classList.contains("webconsole-msg-inspector") &&
(aNode.classList.contains("webconsole-msg-console") ||
aNode.classList.contains("webconsole-msg-exception") ||
aNode.classList.contains("webconsole-msg-error"))) {
let lastMessage = this.outputNode.lastChild;
if (!lastMessage) {
return false;
}
let lastRepeatNode = lastMessage
.getElementsByClassName("webconsole-msg-repeat")[0];
if (lastRepeatNode && lastRepeatNode._uid == uid) {
dupeNode = lastMessage;
}
}
if (dupeNode) {
this.mergeFilteredMessageNode(dupeNode, aNode);
return true;
}
return false;
},
/**
* Display cached messages that may have been collected before the UI is
* displayed.
*
* @param array aRemoteMessages
* Array of cached messages coming from the remote Web Console
* content instance.
*/
displayCachedMessages: function WCF_displayCachedMessages(aRemoteMessages)
{
if (!aRemoteMessages.length) {
return;
}
aRemoteMessages.forEach(function(aMessage) {
switch (aMessage._type) {
case "PageError": {
let category = Utils.categoryForScriptError(aMessage);
this.outputMessage(category, this.reportPageError,
[category, aMessage]);
break;
}
case "ConsoleAPI":
this.outputMessage(CATEGORY_WEBDEV, this.logConsoleAPIMessage,
[aMessage]);
break;
}
}, this);
},
/**
* Logs a message to the Web Console that originates from the Web Console
* server.
*
* @param object aMessage
* The message received from the server.
* @return nsIDOMElement|undefined
* The message element to display in the Web Console output.
*/
logConsoleAPIMessage: function WCF_logConsoleAPIMessage(aMessage)
{
let body = null;
let clipboardText = null;
let sourceURL = aMessage.filename;
let sourceLine = aMessage.lineNumber;
let level = aMessage.level;
let args = aMessage.arguments;
let objectActors = [];
// Gather the actor IDs.
args.forEach(function(aValue) {
if (aValue && typeof aValue == "object" && aValue.actor) {
objectActors.push(aValue.actor);
let displayStringIsLong = typeof aValue.displayString == "object" &&
aValue.displayString.type == "longString";
if (displayStringIsLong) {
objectActors.push(aValue.displayString.actor);
}
}
}, this);
switch (level) {
case "log":
case "info":
case "warn":
case "error":
case "debug":
case "dir":
case "groupEnd": {
body = { arguments: args };
let clipboardArray = [];
args.forEach(function(aValue) {
clipboardArray.push(WebConsoleUtils.objectActorGripToString(aValue));
if (aValue && typeof aValue == "object" && aValue.actor) {
let displayStringIsLong = typeof aValue.displayString == "object" &&
aValue.displayString.type == "longString";
if (aValue.type == "longString" || displayStringIsLong) {
clipboardArray.push(l10n.getStr("longStringEllipsis"));
}
}
}, this);
clipboardText = clipboardArray.join(" ");
if (level == "dir") {
body.objectProperties = aMessage.objectProperties;
}
break;
}
case "trace": {
let filename = WebConsoleUtils.abbreviateSourceURL(aMessage.filename);
let functionName = aMessage.functionName ||
l10n.getStr("stacktrace.anonymousFunction");
body = l10n.getFormatStr("stacktrace.outputMessage",
[filename, functionName, sourceLine]);
clipboardText = "";
aMessage.stacktrace.forEach(function(aFrame) {
clipboardText += aFrame.filename + " :: " +
aFrame.functionName + " :: " +
aFrame.lineNumber + "\n";
});
clipboardText = clipboardText.trimRight();
break;
}
case "group":
case "groupCollapsed":
clipboardText = body = aMessage.groupName;
this.groupDepth++;
break;
case "time": {
let timer = aMessage.timer;
if (!timer) {
return;
}
if (timer.error) {
Cu.reportError(l10n.getStr(timer.error));
return;
}
body = l10n.getFormatStr("timerStarted", [timer.name]);
clipboardText = body;
break;
}
case "timeEnd": {
let timer = aMessage.timer;
if (!timer) {
return;
}
body = l10n.getFormatStr("timeEnd", [timer.name, timer.duration]);
clipboardText = body;
break;
}
default:
Cu.reportError("Unknown Console API log level: " + level);
return;
}
// Release object actors for arguments coming from console API methods that
// we ignore their arguments.
switch (level) {
case "group":
case "groupCollapsed":
case "groupEnd":
case "trace":
case "time":
case "timeEnd":
objectActors.forEach(this._releaseObject, this);
objectActors = [];
}
if (level == "groupEnd") {
if (this.groupDepth > 0) {
this.groupDepth--;
}
return; // no need to continue
}
let node = this.createMessageNode(CATEGORY_WEBDEV, LEVELS[level], body,
sourceURL, sourceLine, clipboardText,
level, aMessage.timeStamp);
if (objectActors.length) {
node._objectActors = objectActors;
}
// Make the node bring up the property panel, to allow the user to inspect
// the stack trace.
if (level == "trace") {
node._stacktrace = aMessage.stacktrace;
this.makeOutputMessageLink(node, function _traceNodeClickCallback() {
if (node._panelOpen) {
return;
}
let options = {
anchor: node,
data: { object: node._stacktrace },
};
let propPanel = this.jsterm.openPropertyPanel(options);
propPanel.panel.setAttribute("hudId", this.hudId);
}.bind(this));
}
if (level == "dir") {
// Initialize the inspector message node, by setting the PropertyTreeView
// object on the tree view. This has to be done *after* the node is
// shown, because the tree binding must be attached first.
node._onOutput = function _onMessageOutput() {
node.querySelector("tree").view = node.propertyTreeView;
};
}
return node;
},
/**
* Handle ConsoleAPICall objects received from the server. This method outputs
* the window.console API call.
*
* @param object aMessage
* The console API message received from the server.
*/
handleConsoleAPICall: function WCF_handleConsoleAPICall(aMessage)
{
this.outputMessage(CATEGORY_WEBDEV, this.logConsoleAPIMessage, [aMessage]);
},
/**
* The click event handler for objects shown inline coming from the
* window.console API.
*
* @private
* @param nsIDOMNode aMessage
* The message element this handler corresponds to.
* @param nsIDOMNode aAnchor
* The object inspector anchor element. This is the clickable element
* in the console.log message we display.
* @param object aObjectActor
* The object actor grip.
*/
_consoleLogClick:
function WCF__consoleLogClick(aMessage, aAnchor, aObjectActor)
{
if (aAnchor._panelOpen) {
return;
}
let options = {
title: aAnchor.textContent,
anchor: aAnchor,
// Data to inspect.
data: {
objectPropertiesProvider: this.objectPropertiesProvider.bind(this),
releaseObject: this._releaseObject.bind(this),
},
};
let propPanel;
let onPopupHide = function _onPopupHide() {
propPanel.panel.removeEventListener("popuphiding", onPopupHide, false);
if (!aMessage.parentNode && aMessage._objectActors) {
aMessage._objectActors.forEach(this._releaseObject, this);
aMessage._objectActors = null;
}
}.bind(this);
this.objectPropertiesProvider(aObjectActor.actor,
function _onObjectProperties(aProperties) {
options.data.objectProperties = aProperties;
propPanel = this.jsterm.openPropertyPanel(options);
propPanel.panel.setAttribute("hudId", this.hudId);
propPanel.panel.addEventListener("popuphiding", onPopupHide, false);
}.bind(this));
},
/**
* Reports an error in the page source, either JavaScript or CSS.
*
* @param nsIScriptError aScriptError
* The error message to report.
* @return nsIDOMElement|undefined
* The message element to display in the Web Console output.
*/
reportPageError: function WCF_reportPageError(aCategory, aScriptError)
{
// Warnings and legacy strict errors become warnings; other types become
// errors.
let severity = SEVERITY_ERROR;
if (aScriptError.warning || aScriptError.strict) {
severity = SEVERITY_WARNING;
}
let node = this.createMessageNode(aCategory, severity,
aScriptError.errorMessage,
aScriptError.sourceName,
aScriptError.lineNumber, null, null,
aScriptError.timeStamp);
return node;
},
/**
* Handle PageError objects received from the server. This method outputs the
* given error.
*
* @param nsIScriptError aPageError
* The error received from the server.
*/
handlePageError: function WCF_handlePageError(aPageError)
{
let category = Utils.categoryForScriptError(aPageError);
this.outputMessage(category, this.reportPageError, [category, aPageError]);
},
/**
* Log network event.
*
* @param object aActorId
* The network event actor ID to log.
* @return nsIDOMElement|undefined
* The message element to display in the Web Console output.
*/
logNetEvent: function WCF_logNetEvent(aActorId)
{
let networkInfo = this._networkRequests[aActorId];
if (!networkInfo) {
return;
}
let request = networkInfo.request;
let msgNode = this.document.createElementNS(XUL_NS, "hbox");
let methodNode = this.document.createElementNS(XUL_NS, "label");
methodNode.setAttribute("value", request.method);
methodNode.classList.add("webconsole-msg-body-piece");
msgNode.appendChild(methodNode);
let linkNode = this.document.createElementNS(XUL_NS, "hbox");
linkNode.flex = 1;
linkNode.classList.add("webconsole-msg-body-piece");
linkNode.classList.add("webconsole-msg-link");
msgNode.appendChild(linkNode);
let urlNode = this.document.createElementNS(XUL_NS, "label");
urlNode.flex = 1;
urlNode.setAttribute("crop", "center");
urlNode.setAttribute("title", request.url);
urlNode.setAttribute("tooltiptext", request.url);
urlNode.setAttribute("value", request.url);
urlNode.classList.add("hud-clickable");
urlNode.classList.add("webconsole-msg-body-piece");
urlNode.classList.add("webconsole-msg-url");
linkNode.appendChild(urlNode);
let severity = SEVERITY_LOG;
let mixedRequest =
WebConsoleUtils.isMixedHTTPSRequest(request.url, this.contentLocation);
if (mixedRequest) {
urlNode.classList.add("webconsole-mixed-content");
this.makeMixedContentNode(linkNode);
// If we define a SEVERITY_SECURITY in the future, switch this to
// SEVERITY_SECURITY.
severity = SEVERITY_WARNING;
}
let statusNode = this.document.createElementNS(XUL_NS, "label");
statusNode.setAttribute("value", "");
statusNode.classList.add("hud-clickable");
statusNode.classList.add("webconsole-msg-body-piece");
statusNode.classList.add("webconsole-msg-status");
linkNode.appendChild(statusNode);
let clipboardText = request.method + " " + request.url;
let messageNode = this.createMessageNode(CATEGORY_NETWORK, severity,
msgNode, null, null, clipboardText);
messageNode._connectionId = aActorId;
messageNode.url = request.url;
this.makeOutputMessageLink(messageNode, function WCF_net_message_link() {
if (!messageNode._panelOpen) {
this.openNetworkPanel(messageNode, networkInfo);
}
}.bind(this));
networkInfo.node = messageNode;
this._updateNetMessage(aActorId);
return messageNode;
},
/**
* Create a mixed content warning Node.
*
* @param aLinkNode
* Parent to the requested urlNode.
*/
makeMixedContentNode: function WCF_makeMixedContentNode(aLinkNode)
{
let mixedContentWarning = "[" + l10n.getStr("webConsoleMixedContentWarning") + "]";
// Mixed content warning message links to a Learn More page
let mixedContentWarningNode = this.document.createElement("label");
mixedContentWarningNode.setAttribute("value", mixedContentWarning);
mixedContentWarningNode.setAttribute("title", mixedContentWarning);
mixedContentWarningNode.classList.add("hud-clickable");
mixedContentWarningNode.classList.add("webconsole-mixed-content-link");
aLinkNode.appendChild(mixedContentWarningNode);
mixedContentWarningNode.addEventListener("click", function(aEvent) {
this.owner.openLink(MIXED_CONTENT_LEARN_MORE);
aEvent.preventDefault();
aEvent.stopPropagation();
}.bind(this));
},
/**
* Log file activity.
*
* @param string aFileURI
* The file URI that was loaded.
* @return nsIDOMElement|undefined
* The message element to display in the Web Console output.
*/
logFileActivity: function WCF_logFileActivity(aFileURI)
{
let urlNode = this.document.createElementNS(XUL_NS, "label");
urlNode.flex = 1;
urlNode.setAttribute("crop", "center");
urlNode.setAttribute("title", aFileURI);
urlNode.setAttribute("tooltiptext", aFileURI);
urlNode.setAttribute("value", aFileURI);
urlNode.classList.add("hud-clickable");
urlNode.classList.add("webconsole-msg-url");
let outputNode = this.createMessageNode(CATEGORY_NETWORK, SEVERITY_LOG,
urlNode, null, null, aFileURI);
this.makeOutputMessageLink(outputNode, function WCF__onFileClick() {
this.owner.viewSource(aFileURI);
}.bind(this));
return outputNode;
},
/**
* Handle the file activity messages coming from the remote Web Console.
*
* @param string aFileURI
* The file URI that was requested.
*/
handleFileActivity: function WCF_handleFileActivity(aFileURI)
{
this.outputMessage(CATEGORY_NETWORK, this.logFileActivity, [aFileURI]);
},
/**
* Inform user that the Web Console API has been replaced by a script
* in a content page.
*/
logWarningAboutReplacedAPI: function WCF_logWarningAboutReplacedAPI()
{
let node = this.createMessageNode(CATEGORY_JS, SEVERITY_WARNING,
l10n.getStr("ConsoleAPIDisabled"));
this.outputMessage(CATEGORY_JS, node);
},
/**
* Handle the network events coming from the remote Web Console.
*
* @param object aActor
* The NetworkEventActor grip.
*/
handleNetworkEvent: function WCF_handleNetworkEvent(aActor)
{
let networkInfo = {
node: null,
actor: aActor.actor,
discardRequestBody: true,
discardResponseBody: true,
startedDateTime: aActor.startedDateTime,
request: {
url: aActor.url,
method: aActor.method,
},
response: {},
timings: {},
updates: [], // track the list of network event updates
};
this._networkRequests[aActor.actor] = networkInfo;
this.outputMessage(CATEGORY_NETWORK, this.logNetEvent, [aActor.actor]);
},
/**
* Handle network event updates coming from the server.
*
* @param string aActorId
* The network event actor ID.
* @param string aType
* Update type.
* @param object aPacket
* Update details.
*/
handleNetworkEventUpdate:
function WCF_handleNetworkEventUpdate(aActorId, aType, aPacket)
{
let networkInfo = this._networkRequests[aActorId];
if (!networkInfo) {
return;
}
networkInfo.updates.push(aType);
switch (aType) {
case "requestHeaders":
networkInfo.request.headersSize = aPacket.headersSize;
break;
case "requestPostData":
networkInfo.discardRequestBody = aPacket.discardRequestBody;
networkInfo.request.bodySize = aPacket.dataSize;
break;
case "responseStart":
networkInfo.response.httpVersion = aPacket.response.httpVersion;
networkInfo.response.status = aPacket.response.status;
networkInfo.response.statusText = aPacket.response.statusText;
networkInfo.response.headersSize = aPacket.response.headersSize;
networkInfo.discardResponseBody = aPacket.response.discardResponseBody;
break;
case "responseContent":
networkInfo.response.content = {
mimeType: aPacket.mimeType,
};
networkInfo.response.bodySize = aPacket.contentSize;
networkInfo.discardResponseBody = aPacket.discardResponseBody;
break;
case "eventTimings":
networkInfo.totalTime = aPacket.totalTime;
break;
}
if (networkInfo.node) {
this._updateNetMessage(aActorId);
}
// For unit tests we pass the HTTP activity object to the test callback,
// once requests complete.
if (this.owner.lastFinishedRequestCallback &&
networkInfo.updates.indexOf("responseContent") > -1 &&
networkInfo.updates.indexOf("eventTimings") > -1) {
this.owner.lastFinishedRequestCallback(networkInfo, this);
}
},
/**
* Update an output message to reflect the latest state of a network request,
* given a network event actor ID.
*
* @private
* @param string aActorId
* The network event actor ID for which you want to update the message.
*/
_updateNetMessage: function WCF__updateNetMessage(aActorId)
{
let networkInfo = this._networkRequests[aActorId];
if (!networkInfo || !networkInfo.node) {
return;
}
let messageNode = networkInfo.node;
let updates = networkInfo.updates;
let hasEventTimings = updates.indexOf("eventTimings") > -1;
let hasResponseStart = updates.indexOf("responseStart") > -1;
let request = networkInfo.request;
let response = networkInfo.response;
if (hasEventTimings || hasResponseStart) {
let status = [];
if (response.httpVersion && response.status) {
status = [response.httpVersion, response.status, response.statusText];
}
if (hasEventTimings) {
status.push(l10n.getFormatStr("NetworkPanel.durationMS",
[networkInfo.totalTime]));
}
let statusText = "[" + status.join(" ") + "]";
let linkNode = messageNode.querySelector(".webconsole-msg-link");
let statusNode = linkNode.querySelector(".webconsole-msg-status");
statusNode.setAttribute("value", statusText);
messageNode.clipboardText = [request.method, request.url, statusText]
.join(" ");
if (hasResponseStart && response.status >= MIN_HTTP_ERROR_CODE &&
response.status <= MAX_HTTP_ERROR_CODE) {
this.setMessageType(messageNode, CATEGORY_NETWORK, SEVERITY_ERROR);
}
}
if (messageNode._netPanel) {
messageNode._netPanel.update();
}
},
/**
* Opens a NetworkPanel.
*
* @param nsIDOMNode aNode
* The message node you want the panel to be anchored to.
* @param object aHttpActivity
* The HTTP activity object that holds network request and response
* information. This object is given to the NetworkPanel constructor.
* @return object
* The new NetworkPanel instance.
*/
openNetworkPanel: function WCF_openNetworkPanel(aNode, aHttpActivity)
{
let actor = aHttpActivity.actor;
if (actor) {
this.webConsoleClient.getRequestHeaders(actor, function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getRequestHeaders:" +
aResponse.error);
return;
}
aHttpActivity.request.headers = aResponse.headers;
this.webConsoleClient.getRequestCookies(actor, onRequestCookies);
}.bind(this));
}
let onRequestCookies = function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getRequestCookies:" +
aResponse.error);
return;
}
aHttpActivity.request.cookies = aResponse.cookies;
this.webConsoleClient.getResponseHeaders(actor, onResponseHeaders);
}.bind(this);
let onResponseHeaders = function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getResponseHeaders:" +
aResponse.error);
return;
}
aHttpActivity.response.headers = aResponse.headers;
this.webConsoleClient.getResponseCookies(actor, onResponseCookies);
}.bind(this);
let onResponseCookies = function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getResponseCookies:" +
aResponse.error);
return;
}
aHttpActivity.response.cookies = aResponse.cookies;
this.webConsoleClient.getRequestPostData(actor, onRequestPostData);
}.bind(this);
let onRequestPostData = function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getRequestPostData:" +
aResponse.error);
return;
}
aHttpActivity.request.postData = aResponse.postData;
aHttpActivity.discardRequestBody = aResponse.postDataDiscarded;
this.webConsoleClient.getResponseContent(actor, onResponseContent);
}.bind(this);
let onResponseContent = function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getResponseContent:" +
aResponse.error);
return;
}
aHttpActivity.response.content = aResponse.content;
aHttpActivity.discardResponseBody = aResponse.contentDiscarded;
this.webConsoleClient.getEventTimings(actor, onEventTimings);
}.bind(this);
let onEventTimings = function(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF_openNetworkPanel getEventTimings:" +
aResponse.error);
return;
}
aHttpActivity.timings = aResponse.timings;
openPanel();
}.bind(this);
let openPanel = function() {
aNode._netPanel = netPanel;
let panel = netPanel.panel;
panel.openPopup(aNode, "after_pointer", 0, 0, false, false);
panel.sizeTo(450, 500);
panel.setAttribute("hudId", this.hudId);
panel.addEventListener("popuphiding", function WCF_netPanel_onHide() {
panel.removeEventListener("popuphiding", WCF_netPanel_onHide);
aNode._panelOpen = false;
aNode._netPanel = null;
});
aNode._panelOpen = true;
}.bind(this);
let netPanel = new NetworkPanel(this.popupset, aHttpActivity, this);
netPanel.linkNode = aNode;
if (!actor) {
openPanel();
}
return netPanel;
},
/**
* Handler for page location changes.
*
* @param string aURI
* New page location.
* @param string aTitle
* New page title.
*/
onLocationChange: function WCF_onLocationChange(aURI, aTitle)
{
this.contentLocation = aURI;
if (this.owner.onLocationChange) {
this.owner.onLocationChange(aURI, aTitle);
}
},
/**
* Output a message node. This filters a node appropriately, then sends it to
* the output, regrouping and pruning output as necessary.
*
* Note: this call is async - the given message node may not be displayed when
* you call this method.
*
* @param integer aCategory
* The category of the message you want to output. See the CATEGORY_*
* constants.
* @param function|nsIDOMElement aMethodOrNode
* The method that creates the message element to send to the output or
* the actual element. If a method is given it will be bound to the HUD
* object and the arguments will be |aArguments|.
* @param array [aArguments]
* If a method is given to output the message element then the method
* will be invoked with the list of arguments given here.
*/
outputMessage: function WCF_outputMessage(aCategory, aMethodOrNode, aArguments)
{
if (!this._outputQueue.length) {
// If the queue is empty we consider that now was the last output flush.
// This avoid an immediate output flush when the timer executes.
this._lastOutputFlush = Date.now();
}
this._outputQueue.push([aCategory, aMethodOrNode, aArguments]);
if (!this._outputTimerInitialized) {
this._initOutputTimer();
}
},
/**
* Try to flush the output message queue. This takes the messages in the
* output queue and displays them. Outputting stops at MESSAGES_IN_INTERVAL.
* Further output is queued to happen later - see OUTPUT_INTERVAL.
*
* @private
*/
_flushMessageQueue: function WCF__flushMessageQueue()
{
if (!this._outputTimer) {
return;
}
let timeSinceFlush = Date.now() - this._lastOutputFlush;
if (this._outputQueue.length > MESSAGES_IN_INTERVAL &&
timeSinceFlush < THROTTLE_UPDATES) {
this._initOutputTimer();
return;
}
// Determine how many messages we can display now.
let toDisplay = Math.min(this._outputQueue.length, MESSAGES_IN_INTERVAL);
if (toDisplay < 1) {
this._outputTimerInitialized = false;
return;
}
// Try to prune the message queue.
let shouldPrune = false;
if (this._outputQueue.length > toDisplay && this._pruneOutputQueue()) {
toDisplay = Math.min(this._outputQueue.length, toDisplay);
shouldPrune = true;
}
let batch = this._outputQueue.splice(0, toDisplay);
if (!batch.length) {
this._outputTimerInitialized = false;
return;
}
let outputNode = this.outputNode;
let lastVisibleNode = null;
let scrolledToBottom = Utils.isOutputScrolledToBottom(outputNode);
let scrollBox = outputNode.scrollBoxObject.element;
let hudIdSupportsString = WebConsoleUtils.supportsString(this.hudId);
// Output the current batch of messages.
for (let item of batch) {
let node = this._outputMessageFromQueue(hudIdSupportsString, item);
if (node) {
lastVisibleNode = node;
}
}
let oldScrollHeight = 0;
// Prune messages if needed. We do not do this for every flush call to
// improve performance.
let removedNodes = 0;
if (shouldPrune || !this._outputQueue.length) {
oldScrollHeight = scrollBox.scrollHeight;
let categories = Object.keys(this._pruneCategoriesQueue);
categories.forEach(function _pruneOutput(aCategory) {
removedNodes += this.pruneOutputIfNecessary(aCategory);
}, this);
this._pruneCategoriesQueue = {};
}
// Regroup messages at the end of the queue.
if (!this._outputQueue.length) {
this.regroupOutput();
}
let isInputOutput = lastVisibleNode &&
(lastVisibleNode.classList.contains("webconsole-msg-input") ||
lastVisibleNode.classList.contains("webconsole-msg-output"));
// Scroll to the new node if it is not filtered, and if the output node is
// scrolled at the bottom or if the new node is a jsterm input/output
// message.
if (lastVisibleNode && (scrolledToBottom || isInputOutput)) {
Utils.scrollToVisible(lastVisibleNode);
}
else if (!scrolledToBottom && removedNodes > 0 &&
oldScrollHeight != scrollBox.scrollHeight) {
// If there were pruned messages and if scroll is not at the bottom, then
// we need to adjust the scroll location.
scrollBox.scrollTop -= oldScrollHeight - scrollBox.scrollHeight;
}
// If the queue is not empty, schedule another flush.
if (this._outputQueue.length > 0) {
this._initOutputTimer();
}
else {
this._outputTimerInitialized = false;
this._flushCallback && this._flushCallback();
}
this._lastOutputFlush = Date.now();
},
/**
* Initialize the output timer.
* @private
*/
_initOutputTimer: function WCF__initOutputTimer()
{
if (!this._outputTimer) {
return;
}
this._outputTimerInitialized = true;
this._outputTimer.initWithCallback(this._flushMessageQueue,
OUTPUT_INTERVAL,
Ci.nsITimer.TYPE_ONE_SHOT);
},
/**
* Output a message from the queue.
*
* @private
* @param nsISupportsString aHudIdSupportsString
* The HUD ID as an nsISupportsString.
* @param array aItem
* An item from the output queue - this item represents a message.
* @return nsIDOMElement|undefined
* The DOM element of the message if the message is visible, undefined
* otherwise.
*/
_outputMessageFromQueue:
function WCF__outputMessageFromQueue(aHudIdSupportsString, aItem)
{
let [category, methodOrNode, args] = aItem;
let node = typeof methodOrNode == "function" ?
methodOrNode.apply(this, args || []) :
methodOrNode;
if (!node) {
return;
}
let afterNode = node._outputAfterNode;
if (afterNode) {
delete node._outputAfterNode;
}
let isFiltered = this.filterMessageNode(node);
let isRepeated = this._filterRepeatedMessage(node);
let lastVisible = !isRepeated && !isFiltered;
if (!isRepeated) {
this.outputNode.insertBefore(node,
afterNode ? afterNode.nextSibling : null);
this._pruneCategoriesQueue[node.category] = true;
if (afterNode) {
lastVisible = this.outputNode.lastChild == node;
}
}
if (node._onOutput) {
node._onOutput();
delete node._onOutput;
}
let nodeID = node.getAttribute("id");
Services.obs.notifyObservers(aHudIdSupportsString,
"web-console-message-created", nodeID);
return lastVisible ? node : null;
},
/**
* Prune the queue of messages to display. This avoids displaying messages
* that will be removed at the end of the queue anyway.
* @private
*/
_pruneOutputQueue: function WCF__pruneOutputQueue()
{
let nodes = {};
// Group the messages per category.
this._outputQueue.forEach(function(aItem, aIndex) {
let [category] = aItem;
if (!(category in nodes)) {
nodes[category] = [];
}
nodes[category].push(aIndex);
}, this);
let pruned = 0;
// Loop through the categories we found and prune if needed.
for (let category in nodes) {
let limit = Utils.logLimitForCategory(category);
let indexes = nodes[category];
if (indexes.length > limit) {
let n = Math.max(0, indexes.length - limit);
pruned += n;
for (let i = n - 1; i >= 0; i--) {
this._pruneItemFromQueue(this._outputQueue[indexes[i]]);
this._outputQueue.splice(indexes[i], 1);
}
}
}
return pruned;
},
/**
* Prune an item from the output queue.
*
* @private
* @param array aItem
* The item you want to remove from the output queue.
*/
_pruneItemFromQueue: function WCF__pruneItemFromQueue(aItem)
{
let [category, methodOrNode, args] = aItem;
if (typeof methodOrNode != "function" &&
methodOrNode._objectActors && !methodOrNode._panelOpen) {
methodOrNode._objectActors.forEach(this._releaseObject, this);
}
if (category == CATEGORY_NETWORK) {
let connectionId = null;
if (methodOrNode == this.logNetEvent) {
connectionId = args[0];
}
else if (typeof methodOrNode != "function") {
connectionId = methodOrNode._connectionId;
}
if (connectionId && connectionId in this._networkRequests) {
delete this._networkRequests[connectionId];
this._releaseObject(connectionId);
}
}
else if (category == CATEGORY_WEBDEV &&
methodOrNode == this.logConsoleAPIMessage) {
let level = args[0].level;
let releaseObject = function _releaseObject(aValue) {
if (aValue && typeof aValue == "object" && aValue.actor) {
this._releaseObject(aValue.actor);
}
}.bind(this);
switch (level) {
case "log":
case "info":
case "warn":
case "error":
case "debug":
case "dir":
case "groupEnd": {
args[0].arguments.forEach(releaseObject);
if (level == "dir") {
args[0].objectProperties.forEach(function(aObject) {
["value", "get", "set"].forEach(function(aProp) {
releaseObject(aObject[aProp]);
});
});
}
}
}
}
},
/**
* Ensures that the number of message nodes of type aCategory don't exceed that
* category's line limit by removing old messages as needed.
*
* @param integer aCategory
* The category of message nodes to prune if needed.
* @return number
* The number of removed nodes.
*/
pruneOutputIfNecessary: function WCF_pruneOutputIfNecessary(aCategory)
{
let outputNode = this.outputNode;
let logLimit = Utils.logLimitForCategory(aCategory);
let messageNodes = outputNode.getElementsByClassName("webconsole-msg-" +
CATEGORY_CLASS_FRAGMENTS[aCategory]);
let n = Math.max(0, messageNodes.length - logLimit);
let toRemove = Array.prototype.slice.call(messageNodes, 0, n);
toRemove.forEach(this.removeOutputMessage, this);
return n;
},
/**
* Destroy the property inspector message node. This performs the necessary
* cleanup for the tree widget and removes it from the DOM.
*
* @param nsIDOMNode aMessageNode
* The message node that contains the property inspector from a
* console.dir call.
*/
pruneConsoleDirNode: function WCF_pruneConsoleDirNode(aMessageNode)
{
if (aMessageNode.parentNode) {
aMessageNode.parentNode.removeChild(aMessageNode);
}
let tree = aMessageNode.querySelector("tree");
tree.parentNode.removeChild(tree);
aMessageNode.propertyTreeView.data = null;
aMessageNode.propertyTreeView = null;
tree.view = null;
},
/**
* Remove a given message from the output.
*
* @param nsIDOMNode aNode
* The message node you want to remove.
*/
removeOutputMessage: function WCF_removeOutputMessage(aNode)
{
if (aNode._objectActors && !aNode._panelOpen) {
aNode._objectActors.forEach(this._releaseObject, this);
}
if (aNode.classList.contains("webconsole-msg-cssparser")) {
let repeatNode = aNode.getElementsByClassName("webconsole-msg-repeat")[0];
if (repeatNode && repeatNode._uid) {
delete this._cssNodes[repeatNode._uid];
}
}
else if (aNode._connectionId &&
aNode.classList.contains("webconsole-msg-network")) {
delete this._networkRequests[aNode._connectionId];
this._releaseObject(aNode._connectionId);
}
else if (aNode.classList.contains("webconsole-msg-inspector")) {
this.pruneConsoleDirNode(aNode);
return;
}
if (aNode.parentNode) {
aNode.parentNode.removeChild(aNode);
}
},
/**
* Splits the given console messages into groups based on their timestamps.
*/
regroupOutput: function WCF_regroupOutput()
{
// Go through the nodes and adjust the placement of "webconsole-new-group"
// classes.
let nodes = this.outputNode.querySelectorAll(".hud-msg-node" +
":not(.hud-filtered-by-string):not(.hud-filtered-by-type)");
let lastTimestamp;
for (let i = 0, n = nodes.length; i < n; i++) {
let thisTimestamp = nodes[i].timestamp;
if (lastTimestamp != null &&
thisTimestamp >= lastTimestamp + NEW_GROUP_DELAY) {
nodes[i].classList.add("webconsole-new-group");
}
else {
nodes[i].classList.remove("webconsole-new-group");
}
lastTimestamp = thisTimestamp;
}
},
/**
* Given a category and message body, creates a DOM node to represent an
* incoming message. The timestamp is automatically added.
*
* @param number aCategory
* The category of the message: one of the CATEGORY_* constants.
* @param number aSeverity
* The severity of the message: one of the SEVERITY_* constants;
* @param string|nsIDOMNode aBody
* The body of the message, either a simple string or a DOM node.
* @param string aSourceURL [optional]
* The URL of the source file that emitted the error.
* @param number aSourceLine [optional]
* The line number on which the error occurred. If zero or omitted,
* there is no line number associated with this message.
* @param string aClipboardText [optional]
* The text that should be copied to the clipboard when this node is
* copied. If omitted, defaults to the body text. If `aBody` is not
* a string, then the clipboard text must be supplied.
* @param number aLevel [optional]
* The level of the console API message.
* @param number aTimeStamp [optional]
* The timestamp to use for this message node. If omitted, the current
* date and time is used.
* @return nsIDOMNode
* The message node: a XUL richlistitem ready to be inserted into
* the Web Console output node.
*/
createMessageNode:
function WCF_createMessageNode(aCategory, aSeverity, aBody, aSourceURL,
aSourceLine, aClipboardText, aLevel, aTimeStamp)
{
if (typeof aBody != "string" && aClipboardText == null && aBody.innerText) {
aClipboardText = aBody.innerText;
}
// Make the icon container, which is a vertical box. Its purpose is to
// ensure that the icon stays anchored at the top of the message even for
// long multi-line messages.
let iconContainer = this.document.createElementNS(XUL_NS, "vbox");
iconContainer.classList.add("webconsole-msg-icon-container");
// Apply the curent group by indenting appropriately.
iconContainer.style.marginLeft = this.groupDepth * GROUP_INDENT + "px";
// Make the icon node. It's sprited and the actual region of the image is
// determined by CSS rules.
let iconNode = this.document.createElementNS(XUL_NS, "image");
iconNode.classList.add("webconsole-msg-icon");
iconContainer.appendChild(iconNode);
// Make the spacer that positions the icon.
let spacer = this.document.createElementNS(XUL_NS, "spacer");
spacer.flex = 1;
iconContainer.appendChild(spacer);
// Create the message body, which contains the actual text of the message.
let bodyNode = this.document.createElementNS(XUL_NS, "description");
bodyNode.flex = 1;
bodyNode.classList.add("webconsole-msg-body");
// Store the body text, since it is needed later for the property tree
// case.
let body = aBody;
// If a string was supplied for the body, turn it into a DOM node and an
// associated clipboard string now.
aClipboardText = aClipboardText ||
(aBody + (aSourceURL ? " @ " + aSourceURL : "") +
(aSourceLine ? ":" + aSourceLine : ""));
// Create the containing node and append all its elements to it.
let node = this.document.createElementNS(XUL_NS, "richlistitem");
if (aBody instanceof Ci.nsIDOMNode) {
bodyNode.appendChild(aBody);
}
else {
let str = undefined;
if (aLevel == "dir") {
str = WebConsoleUtils.objectActorGripToString(aBody.arguments[0]);
}
else if (["log", "info", "warn", "error", "debug"].indexOf(aLevel) > -1 &&
typeof aBody == "object") {
this._makeConsoleLogMessageBody(node, bodyNode, aBody);
}
else {
str = aBody;
}
if (str !== undefined) {
aBody = this.document.createTextNode(str);
bodyNode.appendChild(aBody);
}
}
let repeatContainer = this.document.createElementNS(XUL_NS, "hbox");
repeatContainer.setAttribute("align", "start");
let repeatNode = this.document.createElementNS(XUL_NS, "label");
repeatNode.setAttribute("value", "1");
repeatNode.classList.add("webconsole-msg-repeat");
repeatNode._uid = [bodyNode.textContent, aCategory, aSeverity, aLevel,
aSourceURL, aSourceLine].join(":");
repeatContainer.appendChild(repeatNode);
// Create the timestamp.
let timestampNode = this.document.createElementNS(XUL_NS, "label");
timestampNode.classList.add("webconsole-timestamp");
let timestamp = aTimeStamp || Date.now();
let timestampString = l10n.timestampString(timestamp);
timestampNode.setAttribute("value", timestampString);
// Create the source location (e.g. www.example.com:6) that sits on the
// right side of the message, if applicable.
let locationNode;
if (aSourceURL) {
locationNode = this.createLocationNode(aSourceURL, aSourceLine);
}
node.clipboardText = aClipboardText;
node.classList.add("hud-msg-node");
node.timestamp = timestamp;
this.setMessageType(node, aCategory, aSeverity);
node.appendChild(timestampNode);
node.appendChild(iconContainer);
// Display the object tree after the message node.
if (aLevel == "dir") {
// Make the body container, which is a vertical box, for grouping the text
// and tree widgets.
let bodyContainer = this.document.createElement("vbox");
bodyContainer.flex = 1;
bodyContainer.appendChild(bodyNode);
// Create the tree.
let tree = this.document.createElement("tree");
tree.setAttribute("hidecolumnpicker", "true");
tree.flex = 1;
let treecols = this.document.createElement("treecols");
let treecol = this.document.createElement("treecol");
treecol.setAttribute("primary", "true");
treecol.setAttribute("hideheader", "true");
treecol.setAttribute("ignoreincolumnpicker", "true");
treecol.flex = 1;
treecols.appendChild(treecol);
tree.appendChild(treecols);
tree.appendChild(this.document.createElement("treechildren"));
bodyContainer.appendChild(tree);
node.appendChild(bodyContainer);
node.classList.add("webconsole-msg-inspector");
// Create the treeView object.
let treeView = node.propertyTreeView = new PropertyTreeView();
treeView.data = {
objectPropertiesProvider: this.objectPropertiesProvider.bind(this),
releaseObject: this._releaseObject.bind(this),
objectProperties: body.objectProperties,
};
tree.setAttribute("rows", treeView.rowCount);
}
else {
node.appendChild(bodyNode);
}
node.appendChild(repeatContainer);
if (locationNode) {
node.appendChild(locationNode);
}
node.setAttribute("id", "console-msg-" + gSequenceId());
return node;
},
/**
* Make the message body for console.log() calls.
*
* @private
* @param nsIDOMElement aMessage
* The message element that holds the output for the given call.
* @param nsIDOMElement aContainer
* The specific element that will hold each part of the console.log
* output.
* @param object aBody
* The object given by this.logConsoleAPIMessage(). This object holds
* the call information that we need to display - mainly the arguments
* array of the given API call.
*/
_makeConsoleLogMessageBody:
function WCF__makeConsoleLogMessageBody(aMessage, aContainer, aBody)
{
Object.defineProperty(aMessage, "_panelOpen", {
get: function() {
let nodes = aContainer.querySelectorAll(".hud-clickable");
return Array.prototype.some.call(nodes, function(aNode) {
return aNode._panelOpen;
});
},
enumerable: true,
configurable: false
});
aBody.arguments.forEach(function(aItem) {
if (aContainer.firstChild) {
aContainer.appendChild(this.document.createTextNode(" "));
}
let text = WebConsoleUtils.objectActorGripToString(aItem);
if (aItem && typeof aItem != "object" || !aItem.inspectable) {
aContainer.appendChild(this.document.createTextNode(text));
let longString = null;
if (aItem.type == "longString") {
longString = aItem;
}
else if (!aItem.inspectable &&
typeof aItem.displayString == "object" &&
aItem.displayString.type == "longString") {
longString = aItem.displayString;
}
if (longString) {
let ellipsis = this.document.createElement("description");
ellipsis.classList.add("hud-clickable");
ellipsis.classList.add("longStringEllipsis");
ellipsis.textContent = l10n.getStr("longStringEllipsis");
this._addMessageLinkCallback(ellipsis,
this._longStringClick.bind(this, aMessage, longString, null));
aContainer.appendChild(ellipsis);
}
return;
}
// For inspectable objects.
let elem = this.document.createElement("description");
elem.classList.add("hud-clickable");
elem.setAttribute("aria-haspopup", "true");
elem.appendChild(this.document.createTextNode(text));
this._addMessageLinkCallback(elem,
this._consoleLogClick.bind(this, aMessage, elem, aItem));
aContainer.appendChild(elem);
}, this);
},
/**
* Click event handler for the ellipsis shown immediately after a long string.
* This method retrieves the full string and updates the console output to
* show it.
*
* @private
* @param nsIDOMElement aMessage
* The message element.
* @param object aActor
* The LongStringActor instance we work with.
* @param [function] aFormatter
* Optional function you can use to format the string received from the
* server, before being displayed in the console.
* @param nsIDOMElement aEllipsis
* The DOM element the user can click on to expand the string.
* @param nsIDOMEvent aEvent
* The DOM click event triggered by the user.
*/
_longStringClick:
function WCF__longStringClick(aMessage, aActor, aFormatter, aEllipsis, aEvent)
{
aEvent.preventDefault();
if (!aFormatter) {
aFormatter = function(s) s;
}
let longString = this.webConsoleClient.longString(aActor);
longString.substring(longString.initial.length, longString.length,
function WCF__onSubstring(aResponse) {
if (aResponse.error) {
Cu.reportError("WCF__longStringClick substring failure: " +
aResponse.error);
return;
}
let node = aEllipsis.previousSibling;
node.textContent = aFormatter(longString.initial + aResponse.substring);
aEllipsis.parentNode.removeChild(aEllipsis);
if (aMessage.category == CATEGORY_WEBDEV ||
aMessage.category == CATEGORY_OUTPUT) {
aMessage.clipboardText = aMessage.textContent;
}
});
},
/**
* Creates the XUL label that displays the textual location of an incoming
* message.
*
* @param string aSourceURL
* The URL of the source file responsible for the error.
* @param number aSourceLine [optional]
* The line number on which the error occurred. If zero or omitted,
* there is no line number associated with this message.
* @return nsIDOMNode
* The new XUL label node, ready to be added to the message node.
*/
createLocationNode: function WCF_createLocationNode(aSourceURL, aSourceLine)
{
let locationNode = this.document.createElementNS(XUL_NS, "label");
// Create the text, which consists of an abbreviated version of the URL
// plus an optional line number. Scratchpad URLs should not be abbreviated.
let text;
if (/^Scratchpad\/\d+$/.test(aSourceURL)) {
text = aSourceURL;
}
else {
text = WebConsoleUtils.abbreviateSourceURL(aSourceURL);
}
if (aSourceLine) {
text += ":" + aSourceLine;
locationNode.sourceLine = aSourceLine;
}
locationNode.setAttribute("value", text);
// Style appropriately.
locationNode.setAttribute("crop", "center");
locationNode.setAttribute("title", aSourceURL);
locationNode.setAttribute("tooltiptext", aSourceURL);
locationNode.classList.add("webconsole-location");
locationNode.classList.add("text-link");
// Make the location clickable.
locationNode.addEventListener("click", function() {
if (/^Scratchpad\/\d+$/.test(aSourceURL)) {
let wins = Services.wm.getEnumerator("devtools:scratchpad");
while (wins.hasMoreElements()) {
let win = wins.getNext();
if (win.Scratchpad.uniqueName === aSourceURL) {
win.focus();
return;
}
}
}
else if (locationNode.parentNode.category == CATEGORY_CSS) {
this.owner.viewSourceInStyleEditor(aSourceURL, aSourceLine);
}
else if (locationNode.parentNode.category == CATEGORY_JS ||
locationNode.parentNode.category == CATEGORY_WEBDEV) {
this.owner.viewSourceInDebugger(aSourceURL, aSourceLine);
}
else {
this.owner.viewSource(aSourceURL, aSourceLine);
}
}.bind(this), true);
return locationNode;
},
/**
* Adjusts the category and severity of the given message, clearing the old
* category and severity if present.
*
* @param nsIDOMNode aMessageNode
* The message node to alter.
* @param number aNewCategory
* The new category for the message; one of the CATEGORY_ constants.
* @param number aNewSeverity
* The new severity for the message; one of the SEVERITY_ constants.
* @return void
*/
setMessageType:
function WCF_setMessageType(aMessageNode, aNewCategory, aNewSeverity)
{
// Remove the old CSS classes, if applicable.
if ("category" in aMessageNode) {
let oldCategory = aMessageNode.category;
let oldSeverity = aMessageNode.severity;
aMessageNode.classList.remove("webconsole-msg-" +
CATEGORY_CLASS_FRAGMENTS[oldCategory]);
aMessageNode.classList.remove("webconsole-msg-" +
SEVERITY_CLASS_FRAGMENTS[oldSeverity]);
let key = "hud-" + MESSAGE_PREFERENCE_KEYS[oldCategory][oldSeverity];
aMessageNode.classList.remove(key);
}
// Add in the new CSS classes.
aMessageNode.category = aNewCategory;
aMessageNode.severity = aNewSeverity;
aMessageNode.classList.add("webconsole-msg-" +
CATEGORY_CLASS_FRAGMENTS[aNewCategory]);
aMessageNode.classList.add("webconsole-msg-" +
SEVERITY_CLASS_FRAGMENTS[aNewSeverity]);
let key = "hud-" + MESSAGE_PREFERENCE_KEYS[aNewCategory][aNewSeverity];
aMessageNode.classList.add(key);
},
/**
* Make a link given an output element.
*
* @param nsIDOMNode aNode
* The message element you want to make a link for.
* @param function aCallback
* The function you want invoked when the user clicks on the message
* element.
*/
makeOutputMessageLink: function WCF_makeOutputMessageLink(aNode, aCallback)
{
let linkNode;
if (aNode.category === CATEGORY_NETWORK) {
linkNode = aNode.querySelector(".webconsole-msg-link, .webconsole-msg-url");
}
else {
linkNode = aNode.querySelector(".webconsole-msg-body");
linkNode.classList.add("hud-clickable");
}
linkNode.setAttribute("aria-haspopup", "true");
this._addMessageLinkCallback(aNode, aCallback);
},
/**
* Add the mouse event handlers needed to make a link.
*
* @private
* @param nsIDOMNode aNode
* The node for which you want to add the event handlers.
* @param function aCallback
* The function you want to invoke on click.
*/
_addMessageLinkCallback: function WCF__addMessageLinkCallback(aNode, aCallback)
{
aNode.addEventListener("mousedown", function(aEvent) {
this._startX = aEvent.clientX;
this._startY = aEvent.clientY;
}, false);
aNode.addEventListener("click", function(aEvent) {
if (aEvent.detail != 1 || aEvent.button != 0 ||
(this._startX != aEvent.clientX &&
this._startY != aEvent.clientY)) {
return;
}
aCallback(this, aEvent);
}, false);
},
/**
* Copies the selected items to the system clipboard.
*
* @param object aOptions
* - linkOnly:
* An optional flag to copy only URL without timestamp and
* other meta-information. Default is false.
*/
copySelectedItems: function WCF_copySelectedItems(aOptions)
{
aOptions = aOptions || { linkOnly: false };
// Gather up the selected items and concatenate their clipboard text.
let strings = [];
let newGroup = false;
let children = this.outputNode.children;
for (let i = 0; i < children.length; i++) {
let item = children[i];
if (!item.selected) {
continue;
}
// Add dashes between groups so that group boundaries show up in the
// copied output.
if (i > 0 && item.classList.contains("webconsole-new-group")) {
newGroup = true;
}
// Ensure the selected item hasn't been filtered by type or string.
if (!item.classList.contains("hud-filtered-by-type") &&
!item.classList.contains("hud-filtered-by-string")) {
let timestampString = l10n.timestampString(item.timestamp);
if (newGroup) {
strings.push("--");
newGroup = false;
}
if (aOptions.linkOnly) {
strings.push(item.url);
}
else {
strings.push("[" + timestampString + "] " + item.clipboardText);
}
}
}
clipboardHelper.copyString(strings.join("\n"), this.document);
},
/**
* Object properties provider. This function gives you the properties of the
* remote object you want.
*
* @param string aActor
* The object actor ID from which you want the properties.
* @param function aCallback
* Function you want invoked once the properties are received.
*/
objectPropertiesProvider:
function WCF_objectPropertiesProvider(aActor, aCallback)
{
this.webConsoleClient.inspectObjectProperties(aActor,
function(aResponse) {
if (aResponse.error) {
Cu.reportError("Failed to retrieve the object properties from the " +
"server. Error: " + aResponse.error);
return;
}
aCallback(aResponse.properties);
});
},
/**
* Release an actor.
*
* @private
* @param string aActor
* The actor ID you want to release.
*/
_releaseObject: function WCF__releaseObject(aActor)
{
if (this.proxy) {
this.proxy.releaseActor(aActor);
}
},
/**
* Open the selected item's URL in a new tab.
*/
openSelectedItemInTab: function WCF_openSelectedItemInTab()
{
let item = this.outputNode.selectedItem;
if (!item || !item.url) {
return;
}
this.owner.openLink(item.url);
},
/**
* Destroy the WebConsoleFrame object. Call this method to avoid memory leaks
* when the Web Console is closed.
*
* @return object
* A Promise that is resolved when the WebConsoleFrame instance is
* destroyed.
*/
destroy: function WCF_destroy()
{
if (this._destroyer) {
return this._destroyer.promise;
}
this._destroyer = Promise.defer();
this._cssNodes = {};
this._outputQueue = [];
this._pruneCategoriesQueue = {};
this._networkRequests = {};
if (this._outputTimerInitialized) {
this._outputTimerInitialized = false;
this._outputTimer.cancel();
}
this._outputTimer = null;
if (this.jsterm) {
this.jsterm.destroy();
this.jsterm = null;
}
this._commandController = null;
let onDestroy = function() {
this._destroyer.resolve(null);
}.bind(this);
if (this.proxy) {
this.proxy.disconnect().then(onDestroy);
this.proxy = null;
}
else {
onDestroy();
}
return this._destroyer.promise;
},
};
/**
* Create a JSTerminal (a JavaScript command line). This is attached to an
* existing HeadsUpDisplay (a Web Console instance). This code is responsible
* with handling command line input, code evaluation and result output.
*
* @constructor
* @param object aWebConsoleFrame
* The WebConsoleFrame object that owns this JSTerm instance.
*/
function JSTerm(aWebConsoleFrame)
{
this.hud = aWebConsoleFrame;
this.hudId = this.hud.hudId;
this.lastCompletion = { value: null };
this.history = [];
this.historyIndex = 0;
this.historyPlaceHolder = 0; // this.history.length;
this._keyPress = this.keyPress.bind(this);
this._inputEventHandler = this.inputEventHandler.bind(this);
}
JSTerm.prototype = {
/**
* Stores the data for the last completion.
* @type object
*/
lastCompletion: null,
/**
* Last input value.
* @type string
*/
lastInputValue: "",
/**
* History of code that was executed.
* @type array
*/
history: null,
autocompletePopup: null,
inputNode: null,
completeNode: null,
/**
* Getter for the element that holds the messages we display.
* @type nsIDOMElement
*/
get outputNode() this.hud.outputNode,
/**
* Getter for the debugger WebConsoleClient.
* @type object
*/
get webConsoleClient() this.hud.webConsoleClient,
COMPLETE_FORWARD: 0,
COMPLETE_BACKWARD: 1,
COMPLETE_HINT_ONLY: 2,
/**
* Initialize the JSTerminal UI.
*/
init: function JST_init()
{
let chromeDocument = this.hud.owner.chromeDocument;
this.autocompletePopup = new AutocompletePopup(chromeDocument);
this.autocompletePopup.onSelect = this.onAutocompleteSelect.bind(this);
this.autocompletePopup.onClick = this.acceptProposedCompletion.bind(this);
let doc = this.hud.document;
this.completeNode = doc.querySelector(".jsterm-complete-node");
this.inputNode = doc.querySelector(".jsterm-input-node");
this.inputNode.addEventListener("keypress", this._keyPress, false);
this.inputNode.addEventListener("input", this._inputEventHandler, false);
this.inputNode.addEventListener("keyup", this._inputEventHandler, false);
this.lastInputValue && this.setInputValue(this.lastInputValue);
},
/**
* The JavaScript evaluation response handler.
*
* @private
* @param nsIDOMElement [aAfterNode]
* Optional DOM element after which the evaluation result will be
* inserted.
* @param function [aCallback]
* Optional function to invoke when the evaluation result is added to
* the output.
* @param object aResponse
* The message received from the server.
*/
_executeResultCallback:
function JST__executeResultCallback(aAfterNode, aCallback, aResponse)
{
if (!this.hud) {
return;
}
let errorMessage = aResponse.errorMessage;
let result = aResponse.result;
let inspectable = result && typeof result == "object" && result.inspectable;
let helperResult = aResponse.helperResult;
let helperHasRawOutput = !!(helperResult || {}).rawOutput;
let resultString =
WebConsoleUtils.objectActorGripToString(result,
!helperHasRawOutput);
if (helperResult && helperResult.type) {
switch (helperResult.type) {
case "clearOutput":
this.clearOutput();
break;
case "inspectObject":
this.handleInspectObject(helperResult.input, helperResult.object);
break;
case "error":
try {
errorMessage = l10n.getStr(helperResult.message);
}
catch (ex) {
errorMessage = helperResult.message;
}
break;
case "help":
this.hud.owner.openLink(HELP_URL);
break;
}
}
// Hide undefined results coming from JSTerm helper functions.
if (!errorMessage && result && typeof result == "object" &&
result.type == "undefined" &&
helperResult && !helperHasRawOutput) {
aCallback && aCallback();
return;
}
if (aCallback) {
let oldFlushCallback = this.hud._flushCallback;
this.hud._flushCallback = function() {
aCallback();
oldFlushCallback && oldFlushCallback();
this.hud._flushCallback = oldFlushCallback;
}.bind(this);
}
let node;
if (errorMessage) {
node = this.writeOutput(errorMessage, CATEGORY_OUTPUT, SEVERITY_ERROR,
aAfterNode, aResponse.timestamp);
}
else if (inspectable) {
node = this.writeOutputJS(resultString,
this._evalOutputClick.bind(this, aResponse),
aAfterNode, aResponse.timestamp);
}
else {
node = this.writeOutput(resultString, CATEGORY_OUTPUT, SEVERITY_LOG,
aAfterNode, aResponse.timestamp);
}
if (result && typeof result == "object" && result.actor) {
node._objectActors = [result.actor];
if (typeof result.displayString == "object" &&
result.displayString.type == "longString") {
node._objectActors.push(result.displayString.actor);
}
// Add an ellipsis to expand the short string if the object is not
// inspectable.
let longString = null;
let formatter = null;
if (result.type == "longString") {
longString = result;
if (!helperHasRawOutput) {
formatter = WebConsoleUtils.formatResultString.bind(WebConsoleUtils);
}
}
else if (!inspectable && !errorMessage &&
typeof result.displayString == "object" &&
result.displayString.type == "longString") {
longString = result.displayString;
}
if (longString) {
let body = node.querySelector(".webconsole-msg-body");
let ellipsis = this.hud.document.createElement("description");
ellipsis.classList.add("hud-clickable");
ellipsis.classList.add("longStringEllipsis");
ellipsis.textContent = l10n.getStr("longStringEllipsis");
this.hud._addMessageLinkCallback(ellipsis,
this.hud._longStringClick.bind(this.hud, node, longString, formatter));
body.appendChild(ellipsis);
node.clipboardText += " " + ellipsis.textContent;
}
}
},
/**
* Execute a string. Execution happens asynchronously in the content process.
*
* @param string [aExecuteString]
* The string you want to execute. If this is not provided, the current
* user input is used - taken from |this.inputNode.value|.
* @param function [aCallback]
* Optional function to invoke when the result is displayed.
*/
execute: function JST_execute(aExecuteString, aCallback)
{
// attempt to execute the content of the inputNode
aExecuteString = aExecuteString || this.inputNode.value;
if (!aExecuteString) {
this.writeOutput(l10n.getStr("executeEmptyInput"), CATEGORY_OUTPUT,
SEVERITY_LOG);
return;
}
let node = this.writeOutput(aExecuteString, CATEGORY_INPUT, SEVERITY_LOG);
let onResult = this._executeResultCallback.bind(this, node, aCallback);
this.webConsoleClient.evaluateJS(aExecuteString, onResult);
this.history.push(aExecuteString);
this.historyIndex++;
this.historyPlaceHolder = this.history.length;
this.setInputValue("");
this.clearCompletion();
},
/**
* Opens a new property panel that allows the inspection of the given object.
* The object information can be retrieved both async and sync, depending on
* the given options.
*
* @param object aOptions
* Property panel options:
* - title:
* Panel title.
* - anchor:
* The DOM element you want the panel to be anchored to.
* - updateButtonCallback:
* An optional function you want invoked when the user clicks the
* Update button. If this function is not provided the Update button is
* not shown.
* - data:
* An object that represents the object you want to inspect. Please see
* the PropertyPanel documentation - this object is passed to the
* PropertyPanel constructor
* @return object
* The new instance of PropertyPanel.
*/
openPropertyPanel: function JST_openPropertyPanel(aOptions)
{
// The property panel has one button:
// `Update`: reexecutes the string executed on the command line. The
// result will be inspected by this panel.
let buttons = [];
if (aOptions.updateButtonCallback) {
buttons.push({
label: l10n.getStr("update.button"),
accesskey: l10n.getStr("update.accesskey"),
oncommand: aOptions.updateButtonCallback,
});
}
let parent = this.hud.popupset;
let title = aOptions.title ?
l10n.getFormatStr("jsPropertyInspectTitle", [aOptions.title]) :
l10n.getStr("jsPropertyTitle");
let propPanel = new PropertyPanel(parent, title, aOptions.data, buttons);
propPanel.panel.openPopup(aOptions.anchor, "after_pointer", 0, 0, false, false);
propPanel.panel.sizeTo(350, 450);
if (aOptions.anchor) {
propPanel.panel.addEventListener("popuphiding", function onPopupHide() {
propPanel.panel.removeEventListener("popuphiding", onPopupHide, false);
aOptions.anchor._panelOpen = false;
}, false);
aOptions.anchor._panelOpen = true;
}
return propPanel;
},
/**
* Writes a JS object to the JSTerm outputNode.
*
* @param string aOutputMessage
* The message to display.
* @param function [aCallback]
* Optional function to invoke when users click the message.
* @param nsIDOMNode [aNodeAfter]
* Optional DOM node after which you want to insert the new message.
* This is used when execution results need to be inserted immediately
* after the user input.
* @param number [aTimestamp]
* Optional timestamp to show for the output message (millisconds since
* the UNIX epoch). If no timestamp is provided then Date.now() is
* used.
* @return nsIDOMNode
* The new message node.
*/
writeOutputJS:
function JST_writeOutputJS(aOutputMessage, aCallback, aNodeAfter, aTimestamp)
{
let node = this.writeOutput(aOutputMessage, CATEGORY_OUTPUT, SEVERITY_LOG,
aNodeAfter, aTimestamp);
if (aCallback) {
this.hud.makeOutputMessageLink(node, aCallback);
}
return node;
},
/**
* Writes a message to the HUD that originates from the interactive
* JavaScript console.
*
* @param string aOutputMessage
* The message to display.
* @param number aCategory
* The category of message: one of the CATEGORY_ constants.
* @param number aSeverity
* The severity of message: one of the SEVERITY_ constants.
* @param nsIDOMNode [aNodeAfter]
* Optional DOM node after which you want to insert the new message.
* This is used when execution results need to be inserted immediately
* after the user input.
* @param number [aTimestamp]
* Optional timestamp to show for the output message (millisconds since
* the UNIX epoch). If no timestamp is provided then Date.now() is
* used.
* @return nsIDOMNode
* The new message node.
*/
writeOutput:
function JST_writeOutput(aOutputMessage, aCategory, aSeverity, aNodeAfter,
aTimestamp)
{
let node = this.hud.createMessageNode(aCategory, aSeverity, aOutputMessage,
null, null, null, null, aTimestamp);
node._outputAfterNode = aNodeAfter;
this.hud.outputMessage(aCategory, node);
return node;
},
/**
* Clear the Web Console output.
*
* @param boolean aClearStorage
* True if you want to clear the console messages storage associated to
* this Web Console.
*/
clearOutput: function JST_clearOutput(aClearStorage)
{
let hud = this.hud;
let outputNode = hud.outputNode;
let node;
while ((node = outputNode.firstChild)) {
hud.removeOutputMessage(node);
}
hud.groupDepth = 0;
hud._outputQueue.forEach(hud._pruneItemFromQueue, hud);
hud._outputQueue = [];
hud._networkRequests = {};
hud._cssNodes = {};
if (aClearStorage) {
this.webConsoleClient.clearMessagesCache();
}
},
/**
* Updates the size of the input field (command line) to fit its contents.
*
* @returns void
*/
resizeInput: function JST_resizeInput()
{
let inputNode = this.inputNode;
// Reset the height so that scrollHeight will reflect the natural height of
// the contents of the input field.
inputNode.style.height = "auto";
// Now resize the input field to fit its contents.
let scrollHeight = inputNode.inputField.scrollHeight;
if (scrollHeight > 0) {
inputNode.style.height = scrollHeight + "px";
}
},
/**
* Sets the value of the input field (command line), and resizes the field to
* fit its contents. This method is preferred over setting "inputNode.value"
* directly, because it correctly resizes the field.
*
* @param string aNewValue
* The new value to set.
* @returns void
*/
setInputValue: function JST_setInputValue(aNewValue)
{
this.inputNode.value = aNewValue;
this.lastInputValue = aNewValue;
this.completeNode.value = "";
this.resizeInput();
},
/**
* The inputNode "input" and "keyup" event handler.
*
* @param nsIDOMEvent aEvent
*/
inputEventHandler: function JSTF_inputEventHandler(aEvent)
{
if (this.lastInputValue != this.inputNode.value) {
this.resizeInput();
this.complete(this.COMPLETE_HINT_ONLY);
this.lastInputValue = this.inputNode.value;
}
},
/**
* The inputNode "keypress" event handler.
*
* @param nsIDOMEvent aEvent
*/
keyPress: function JSTF_keyPress(aEvent)
{
if (aEvent.ctrlKey) {
let inputNode = this.inputNode;
let closePopup = false;
switch (aEvent.charCode) {
case 97:
// control-a
if (Services.appinfo.OS == "WINNT") {
closePopup = true;
break;
}
let lineBeginPos = 0;
if (this.hasMultilineInput()) {
// find index of closest newline <= to cursor
for (let i = inputNode.selectionStart-1; i >= 0; i--) {
if (inputNode.value.charAt(i) == "\r" ||
inputNode.value.charAt(i) == "\n") {
lineBeginPos = i+1;
break;
}
}
}
inputNode.setSelectionRange(lineBeginPos, lineBeginPos);
aEvent.preventDefault();
closePopup = true;
break;
case 101:
// control-e
if (Services.appinfo.OS == "WINNT") {
break;
}
let lineEndPos = inputNode.value.length;
if (this.hasMultilineInput()) {
// find index of closest newline >= cursor
for (let i = inputNode.selectionEnd; i<lineEndPos; i++) {
if (inputNode.value.charAt(i) == "\r" ||
inputNode.value.charAt(i) == "\n") {
lineEndPos = i;
break;
}
}
}
inputNode.setSelectionRange(lineEndPos, lineEndPos);
aEvent.preventDefault();
break;
case 110:
// Control-N differs from down arrow: it ignores autocomplete state.
// Note that we preserve the default 'down' navigation within
// multiline text.
if (Services.appinfo.OS == "Darwin" &&
this.canCaretGoNext() &&
this.historyPeruse(HISTORY_FORWARD)) {
aEvent.preventDefault();
}
closePopup = true;
break;
case 112:
// Control-P differs from up arrow: it ignores autocomplete state.
// Note that we preserve the default 'up' navigation within
// multiline text.
if (Services.appinfo.OS == "Darwin" &&
this.canCaretGoPrevious() &&
this.historyPeruse(HISTORY_BACK)) {
aEvent.preventDefault();
}
closePopup = true;
break;
default:
break;
}
if (closePopup) {
if (this.autocompletePopup.isOpen) {
this.clearCompletion();
}
}
return;
}
else if (aEvent.shiftKey &&
aEvent.keyCode == Ci.nsIDOMKeyEvent.DOM_VK_RETURN) {
// shift return
// TODO: expand the inputNode height by one line
return;
}
let inputUpdated = false;
switch(aEvent.keyCode) {
case Ci.nsIDOMKeyEvent.DOM_VK_ESCAPE:
if (this.autocompletePopup.isOpen) {
this.clearCompletion();
aEvent.preventDefault();
}
break;
case Ci.nsIDOMKeyEvent.DOM_VK_RETURN:
if (this.autocompletePopup.isOpen && this.autocompletePopup.selectedIndex > -1) {
this.acceptProposedCompletion();
}
else {
this.execute();
}
aEvent.preventDefault();
break;
case Ci.nsIDOMKeyEvent.DOM_VK_UP:
if (this.autocompletePopup.isOpen) {
inputUpdated = this.complete(this.COMPLETE_BACKWARD);
}
else if (this.canCaretGoPrevious()) {
inputUpdated = this.historyPeruse(HISTORY_BACK);
}
if (inputUpdated) {
aEvent.preventDefault();
}
break;
case Ci.nsIDOMKeyEvent.DOM_VK_DOWN:
if (this.autocompletePopup.isOpen) {
inputUpdated = this.complete(this.COMPLETE_FORWARD);
}
else if (this.canCaretGoNext()) {
inputUpdated = this.historyPeruse(HISTORY_FORWARD);
}
if (inputUpdated) {
aEvent.preventDefault();
}
break;
case Ci.nsIDOMKeyEvent.DOM_VK_TAB:
// Generate a completion and accept the first proposed value.
if (this.complete(this.COMPLETE_HINT_ONLY) &&
this.lastCompletion &&
this.acceptProposedCompletion()) {
aEvent.preventDefault();
}
else {
this.updateCompleteNode(l10n.getStr("Autocomplete.blank"));
aEvent.preventDefault();
}
break;
default:
break;
}
},
/**
* Go up/down the history stack of input values.
*
* @param number aDirection
* History navigation direction: HISTORY_BACK or HISTORY_FORWARD.
*
* @returns boolean
* True if the input value changed, false otherwise.
*/
historyPeruse: function JST_historyPeruse(aDirection)
{
if (!this.history.length) {
return false;
}
// Up Arrow key
if (aDirection == HISTORY_BACK) {
if (this.historyPlaceHolder <= 0) {
return false;
}
let inputVal = this.history[--this.historyPlaceHolder];
if (inputVal){
this.setInputValue(inputVal);
}
}
// Down Arrow key
else if (aDirection == HISTORY_FORWARD) {
if (this.historyPlaceHolder == this.history.length - 1) {
this.historyPlaceHolder ++;
this.setInputValue("");
}
else if (this.historyPlaceHolder >= (this.history.length)) {
return false;
}
else {
let inputVal = this.history[++this.historyPlaceHolder];
if (inputVal){
this.setInputValue(inputVal);
}
}
}
else {
throw new Error("Invalid argument 0");
}
return true;
},
/**
* Test for multiline input.
*
* @return boolean
* True if CR or LF found in node value; else false.
*/
hasMultilineInput: function JST_hasMultilineInput()
{
return /[\r\n]/.test(this.inputNode.value);
},
/**
* Check if the caret is at a location that allows selecting the previous item
* in history when the user presses the Up arrow key.
*
* @return boolean
* True if the caret is at a location that allows selecting the
* previous item in history when the user presses the Up arrow key,
* otherwise false.
*/
canCaretGoPrevious: function JST_canCaretGoPrevious()
{
let node = this.inputNode;
if (node.selectionStart != node.selectionEnd) {
return false;
}
let multiline = /[\r\n]/.test(node.value);
return node.selectionStart == 0 ? true :
node.selectionStart == node.value.length && !multiline;
},
/**
* Check if the caret is at a location that allows selecting the next item in
* history when the user presses the Down arrow key.
*
* @return boolean
* True if the caret is at a location that allows selecting the next
* item in history when the user presses the Down arrow key, otherwise
* false.
*/
canCaretGoNext: function JST_canCaretGoNext()
{
let node = this.inputNode;
if (node.selectionStart != node.selectionEnd) {
return false;
}
let multiline = /[\r\n]/.test(node.value);
return node.selectionStart == node.value.length ? true :
node.selectionStart == 0 && !multiline;
},
/**
* Completes the current typed text in the inputNode. Completion is performed
* only if the selection/cursor is at the end of the string. If no completion
* is found, the current inputNode value and cursor/selection stay.
*
* @param int aType possible values are
* - this.COMPLETE_FORWARD: If there is more than one possible completion
* and the input value stayed the same compared to the last time this
* function was called, then the next completion of all possible
* completions is used. If the value changed, then the first possible
* completion is used and the selection is set from the current
* cursor position to the end of the completed text.
* If there is only one possible completion, then this completion
* value is used and the cursor is put at the end of the completion.
* - this.COMPLETE_BACKWARD: Same as this.COMPLETE_FORWARD but if the
* value stayed the same as the last time the function was called,
* then the previous completion of all possible completions is used.
* - this.COMPLETE_HINT_ONLY: If there is more than one possible
* completion and the input value stayed the same compared to the
* last time this function was called, then the same completion is
* used again. If there is only one possible completion, then
* the inputNode.value is set to this value and the selection is set
* from the current cursor position to the end of the completed text.
* @param function aCallback
* Optional function invoked when the autocomplete properties are
* updated.
* @returns boolean true if there existed a completion for the current input,
* or false otherwise.
*/
complete: function JSTF_complete(aType, aCallback)
{
let inputNode = this.inputNode;
let inputValue = inputNode.value;
// If the inputNode has no value, then don't try to complete on it.
if (!inputValue) {
this.clearCompletion();
return false;
}
// Only complete if the selection is empty and at the end of the input.
if (inputNode.selectionStart == inputNode.selectionEnd &&
inputNode.selectionEnd != inputValue.length) {
this.clearCompletion();
return false;
}
// Update the completion results.
if (this.lastCompletion.value != inputValue) {
this._updateCompletionResult(aType, aCallback);
return false;
}
let popup = this.autocompletePopup;
let accepted = false;
if (aType != this.COMPLETE_HINT_ONLY && popup.itemCount == 1) {
this.acceptProposedCompletion();
accepted = true;
}
else if (aType == this.COMPLETE_BACKWARD) {
popup.selectPreviousItem();
}
else if (aType == this.COMPLETE_FORWARD) {
popup.selectNextItem();
}
aCallback && aCallback(this);
return accepted || popup.itemCount > 0;
},
/**
* Update the completion result. This operation is performed asynchronously by
* fetching updated results from the content process.
*
* @private
* @param int aType
* Completion type. See this.complete() for details.
* @param function [aCallback]
* Optional, function to invoke when completion results are received.
*/
_updateCompletionResult:
function JST__updateCompletionResult(aType, aCallback)
{
if (this.lastCompletion.value == this.inputNode.value) {
return;
}
let requestId = gSequenceId();
let input = this.inputNode.value;
let cursor = this.inputNode.selectionStart;
// TODO: Bug 787986 - throttle/disable updates, deal with slow/high latency
// network connections.
this.lastCompletion = {
requestId: requestId,
completionType: aType,
value: null,
};
let callback = this._receiveAutocompleteProperties.bind(this, requestId,
aCallback);
this.webConsoleClient.autocomplete(input, cursor, callback);
},
/**
* Handler for the autocompletion results. This method takes
* the completion result received from the server and updates the UI
* accordingly.
*
* @param number aRequestId
* Request ID.
* @param function [aCallback=null]
* Optional, function to invoke when the completion result is received.
* @param object aMessage
* The JSON message which holds the completion results received from
* the content process.
*/
_receiveAutocompleteProperties:
function JST__receiveAutocompleteProperties(aRequestId, aCallback, aMessage)
{
let inputNode = this.inputNode;
let inputValue = inputNode.value;
if (this.lastCompletion.value == inputValue ||
aRequestId != this.lastCompletion.requestId) {
return;
}
let matches = aMessage.matches;
if (!matches.length) {
this.clearCompletion();
return;
}
let items = matches.map(function(aMatch) {
return { label: aMatch };
});
let popup = this.autocompletePopup;
popup.setItems(items);
let completionType = this.lastCompletion.completionType;
this.lastCompletion = {
value: inputValue,
matchProp: aMessage.matchProp,
};
if (items.length > 1 && !popup.isOpen) {
popup.openPopup(inputNode);
}
else if (items.length < 2 && popup.isOpen) {
popup.hidePopup();
}
if (items.length == 1) {
popup.selectedIndex = 0;
}
this.onAutocompleteSelect();
if (completionType != this.COMPLETE_HINT_ONLY && popup.itemCount == 1) {
this.acceptProposedCompletion();
}
else if (completionType == this.COMPLETE_BACKWARD) {
popup.selectPreviousItem();
}
else if (completionType == this.COMPLETE_FORWARD) {
popup.selectNextItem();
}
aCallback && aCallback(this);
},
onAutocompleteSelect: function JSTF_onAutocompleteSelect()
{
let currentItem = this.autocompletePopup.selectedItem;
if (currentItem && this.lastCompletion.value) {
let suffix = currentItem.label.substring(this.lastCompletion.
matchProp.length);
this.updateCompleteNode(suffix);
}
else {
this.updateCompleteNode("");
}
},
/**
* Clear the current completion information and close the autocomplete popup,
* if needed.
*/
clearCompletion: function JSTF_clearCompletion()
{
this.autocompletePopup.clearItems();
this.lastCompletion = { value: null };
this.updateCompleteNode("");
if (this.autocompletePopup.isOpen) {
this.autocompletePopup.hidePopup();
}
},
/**
* Accept the proposed input completion.
*
* @return boolean
* True if there was a selected completion item and the input value
* was updated, false otherwise.
*/
acceptProposedCompletion: function JSTF_acceptProposedCompletion()
{
let updated = false;
let currentItem = this.autocompletePopup.selectedItem;
if (currentItem && this.lastCompletion.value) {
let suffix = currentItem.label.substring(this.lastCompletion.
matchProp.length);
this.setInputValue(this.inputNode.value + suffix);
updated = true;
}
this.clearCompletion();
return updated;
},
/**
* Update the node that displays the currently selected autocomplete proposal.
*
* @param string aSuffix
* The proposed suffix for the inputNode value.
*/
updateCompleteNode: function JSTF_updateCompleteNode(aSuffix)
{
// completion prefix = input, with non-control chars replaced by spaces
let prefix = aSuffix ? this.inputNode.value.replace(/[\S]/g, " ") : "";
this.completeNode.value = prefix + aSuffix;
},
/**
* The JSTerm InspectObject remote message handler. This allows the remote
* process to open the Property Panel for a given object.
*
* @param object aRequest
* The request message from the content process. This message includes
* the user input string that was evaluated to inspect an object and
* the result object which is to be inspected.
*/
handleInspectObject: function JST_handleInspectObject(aInput, aActor)
{
let options = {
title: aInput,
data: {
objectPropertiesProvider: this.hud.objectPropertiesProvider.bind(this.hud),
releaseObject: this.hud._releaseObject.bind(this.hud),
},
};
let propPanel;
let onPopupHide = function JST__onPopupHide() {
propPanel.panel.removeEventListener("popuphiding", onPopupHide, false);
this.hud._releaseObject(aActor.actor);
}.bind(this);
this.hud.objectPropertiesProvider(aActor.actor,
function _onObjectProperties(aProperties) {
options.data.objectProperties = aProperties;
propPanel = this.openPropertyPanel(options);
propPanel.panel.setAttribute("hudId", this.hudId);
propPanel.panel.addEventListener("popuphiding", onPopupHide, false);
}.bind(this));
},
/**
* The click event handler for evaluation results in the output.
*
* @private
* @param object aResponse
* The JavaScript evaluation response received from the server.
* @param nsIDOMNode aLink
* The message node for which we are handling events.
*/
_evalOutputClick: function JST__evalOutputClick(aResponse, aLinkNode)
{
if (aLinkNode._panelOpen) {
return;
}
let options = {
title: aResponse.input,
anchor: aLinkNode,
// Data to inspect.
data: {
objectPropertiesProvider: this.hud.objectPropertiesProvider.bind(this.hud),
releaseObject: this.hud._releaseObject.bind(this.hud),
},
};
let propPanel;
options.updateButtonCallback = function JST__evalUpdateButton() {
let onResult =
this._evalOutputUpdatePanelCallback.bind(this, options, propPanel,
aResponse);
this.webConsoleClient.evaluateJS(aResponse.input, onResult);
}.bind(this);
let onPopupHide = function JST__evalInspectPopupHide() {
propPanel.panel.removeEventListener("popuphiding", onPopupHide, false);
if (!aLinkNode.parentNode && aLinkNode._objectActors) {
aLinkNode._objectActors.forEach(this.hud._releaseObject, this.hud);
aLinkNode._objectActors = null;
}
}.bind(this);
this.hud.objectPropertiesProvider(aResponse.result.actor,
function _onObjectProperties(aProperties) {
options.data.objectProperties = aProperties;
propPanel = this.openPropertyPanel(options);
propPanel.panel.setAttribute("hudId", this.hudId);
propPanel.panel.addEventListener("popuphiding", onPopupHide, false);
}.bind(this));
},
/**
* The callback used for updating the Property Panel when the user clicks the
* Update button.
*
* @private
* @param object aOptions
* The options object used for opening the initial Property Panel.
* @param object aPropPanel
* The Property Panel instance.
* @param object aOldResponse
* The previous JSTerm:EvalResult message received from the content
* process.
* @param object aNewResponse
* The new JSTerm:EvalResult message received after the user clicked
* the Update button.
*/
_evalOutputUpdatePanelCallback:
function JST__updatePanelCallback(aOptions, aPropPanel, aOldResponse,
aNewResponse)
{
if (aNewResponse.errorMessage) {
this.writeOutput(aNewResponse.errorMessage, CATEGORY_OUTPUT,
SEVERITY_ERROR);
return;
}
let result = aNewResponse.result;
let inspectable = result && typeof result == "object" && result.inspectable;
let newActor = result && typeof result == "object" ? result.actor : null;
let anchor = aOptions.anchor;
if (anchor && newActor) {
if (!anchor._objectActors) {
anchor._objectActors = [];
}
if (anchor._objectActors.indexOf(newActor) == -1) {
anchor._objectActors.push(newActor);
}
}
if (!inspectable) {
this.writeOutput(l10n.getStr("JSTerm.updateNotInspectable"), CATEGORY_OUTPUT, SEVERITY_ERROR);
return;
}
// Update the old response object such that when the panel is reopen, the
// user sees the new response.
aOldResponse.result = aNewResponse.result;
aOldResponse.error = aNewResponse.error;
aOldResponse.errorMessage = aNewResponse.errorMessage;
aOldResponse.timestamp = aNewResponse.timestamp;
this.hud.objectPropertiesProvider(newActor,
function _onObjectProperties(aProperties) {
aOptions.data.objectProperties = aProperties;
// TODO: This updates the value of the tree.
// However, the states of open nodes is not saved.
// See bug 586246.
aPropPanel.treeView.data = aOptions.data;
}.bind(this));
},
/**
* Destroy the JSTerm object. Call this method to avoid memory leaks.
*/
destroy: function JST_destroy()
{
this.clearCompletion();
this.clearOutput();
this.autocompletePopup.destroy();
this.autocompletePopup = null;
let popup = this.hud.owner.chromeDocument
.getElementById("webConsole_autocompletePopup");
if (popup) {
popup.parentNode.removeChild(popup);
}
this.inputNode.removeEventListener("keypress", this._keyPress, false);
this.inputNode.removeEventListener("input", this._inputEventHandler, false);
this.inputNode.removeEventListener("keyup", this._inputEventHandler, false);
this.hud = null;
},
};
/**
* Utils: a collection of globally used functions.
*/
var Utils = {
/**
* Flag to turn on and off scrolling.
*/
scroll: true,
/**
* Scrolls a node so that it's visible in its containing XUL "scrollbox"
* element.
*
* @param nsIDOMNode aNode
* The node to make visible.
* @returns void
*/
scrollToVisible: function Utils_scrollToVisible(aNode)
{
if (!this.scroll) {
return;
}
// Find the enclosing richlistbox node.
let richListBoxNode = aNode.parentNode;
while (richListBoxNode.tagName != "richlistbox") {
richListBoxNode = richListBoxNode.parentNode;
}
// Use the scroll box object interface to ensure the element is visible.
let boxObject = richListBoxNode.scrollBoxObject;
let nsIScrollBoxObject = boxObject.QueryInterface(Ci.nsIScrollBoxObject);
nsIScrollBoxObject.ensureElementIsVisible(aNode);
},
/**
* Check if the given output node is scrolled to the bottom.
*
* @param nsIDOMNode aOutputNode
* @return boolean
* True if the output node is scrolled to the bottom, or false
* otherwise.
*/
isOutputScrolledToBottom: function Utils_isOutputScrolledToBottom(aOutputNode)
{
let lastNodeHeight = aOutputNode.lastChild ?
aOutputNode.lastChild.clientHeight : 0;
let scrollBox = aOutputNode.scrollBoxObject.element;
return scrollBox.scrollTop + scrollBox.clientHeight >=
scrollBox.scrollHeight - lastNodeHeight / 2;
},
/**
* Determine the category of a given nsIScriptError.
*
* @param nsIScriptError aScriptError
* The script error you want to determine the category for.
* @return CATEGORY_JS|CATEGORY_CSS
* Depending on the script error CATEGORY_JS or CATEGORY_CSS can be
* returned.
*/
categoryForScriptError: function Utils_categoryForScriptError(aScriptError)
{
switch (aScriptError.category) {
case "CSS Parser":
case "CSS Loader":
return CATEGORY_CSS;
default:
return CATEGORY_JS;
}
},
/**
* Retrieve the limit of messages for a specific category.
*
* @param number aCategory
* The category of messages you want to retrieve the limit for. See the
* CATEGORY_* constants.
* @return number
* The number of messages allowed for the specific category.
*/
logLimitForCategory: function Utils_logLimitForCategory(aCategory)
{
let logLimit = DEFAULT_LOG_LIMIT;
try {
let prefName = CATEGORY_CLASS_FRAGMENTS[aCategory];
logLimit = Services.prefs.getIntPref("devtools.hud.loglimit." + prefName);
logLimit = Math.max(logLimit, 1);
}
catch (e) { }
return logLimit;
},
};
///////////////////////////////////////////////////////////////////////////////
// CommandController
///////////////////////////////////////////////////////////////////////////////
/**
* A controller (an instance of nsIController) that makes editing actions
* behave appropriately in the context of the Web Console.
*/
function CommandController(aWebConsole)
{
this.owner = aWebConsole;
}
CommandController.prototype = {
/**
* Copies the currently-selected entries in the Web Console output to the
* clipboard.
*/
copy: function CommandController_copy()
{
this.owner.copySelectedItems();
},
/**
* Selects all the text in the HUD output.
*/
selectAll: function CommandController_selectAll()
{
this.owner.outputNode.selectAll();
},
/**
* Open the URL of the selected message in a new tab.
*/
openURL: function CommandController_openURL()
{
this.owner.openSelectedItemInTab();
},
copyURL: function CommandController_copyURL()
{
this.owner.copySelectedItems({ linkOnly: true });
},
supportsCommand: function CommandController_supportsCommand(aCommand)
{
return this.isCommandEnabled(aCommand);
},
isCommandEnabled: function CommandController_isCommandEnabled(aCommand)
{
switch (aCommand) {
case "cmd_copy":
// Only enable "copy" if nodes are selected.
return this.owner.outputNode.selectedCount > 0;
case "consoleCmd_openURL":
case "consoleCmd_copyURL": {
// Only enable URL-related actions if node is Net Activity.
let selectedItem = this.owner.outputNode.selectedItem;
return selectedItem && selectedItem.url;
}
case "cmd_fontSizeEnlarge":
case "cmd_fontSizeReduce":
case "cmd_fontSizeReset":
case "cmd_selectAll":
return true;
}
},
doCommand: function CommandController_doCommand(aCommand)
{
switch (aCommand) {
case "cmd_copy":
this.copy();
break;
case "consoleCmd_openURL":
this.openURL();
break;
case "consoleCmd_copyURL":
this.copyURL();
break;
case "cmd_selectAll":
this.selectAll();
break;
case "cmd_fontSizeEnlarge":
this.owner.changeFontSize("+");
break;
case "cmd_fontSizeReduce":
this.owner.changeFontSize("-");
break;
case "cmd_fontSizeReset":
this.owner.changeFontSize("");
break;
}
}
};
///////////////////////////////////////////////////////////////////////////////
// Web Console connection proxy
///////////////////////////////////////////////////////////////////////////////
/**
* The WebConsoleConnectionProxy handles the connection between the Web Console
* and the application we connect to through the remote debug protocol.
*
* @constructor
* @param object aWebConsole
* The Web Console instance that owns this connection proxy.
* @param RemoteTarget aTarget
* The target that the console will connect to.
*/
function WebConsoleConnectionProxy(aWebConsole, aTarget)
{
this.owner = aWebConsole;
this.target = aTarget;
this._onPageError = this._onPageError.bind(this);
this._onConsoleAPICall = this._onConsoleAPICall.bind(this);
this._onNetworkEvent = this._onNetworkEvent.bind(this);
this._onNetworkEventUpdate = this._onNetworkEventUpdate.bind(this);
this._onFileActivity = this._onFileActivity.bind(this);
this._onTabNavigated = this._onTabNavigated.bind(this);
this._onAttachTab = this._onAttachTab.bind(this);
this._onAttachConsole = this._onAttachConsole.bind(this);
this._onCachedMessages = this._onCachedMessages.bind(this);
this._connectionTimeout = this._connectionTimeout.bind(this);
}
WebConsoleConnectionProxy.prototype = {
/**
* The owning Web Console instance.
*
* @see WebConsoleFrame
* @type object
*/
owner: null,
/**
* The target that the console connects to.
* @type RemoteTarget
*/
target: null,
/**
* The DebuggerClient object.
*
* @see DebuggerClient
* @type object
*/
client: null,
/**
* The WebConsoleClient object.
*
* @see WebConsoleClient
* @type object
*/
webConsoleClient: null,
/**
* The TabClient instance we use.
* @type object
*/
tabClient: null,
/**
* Tells if the connection is established.
* @type boolean
*/
connected: false,
/**
* Timer used for the connection.
* @private
* @type object
*/
_connectTimer: null,
_connectDefer: null,
_disconnecter: null,
/**
* The WebConsoleActor ID.
*
* @private
* @type string
*/
_consoleActor: null,
/**
* The TabActor ID.
*
* @private
* @type string
*/
_tabActor: null,
/**
* Tells if the window.console object of the remote web page is the native
* object or not.
* @private
* @type boolean
*/
_hasNativeConsoleAPI: false,
/**
* Initialize a debugger client and connect it to the debugger server.
*
* @return object
* A Promise object that is resolved/rejected based on the success of
* the connection initialization.
*/
connect: function WCCP_connect()
{
if (this._connectDefer) {
return this._connectDefer.promise;
}
this._connectDefer = Promise.defer();
let timeout = Services.prefs.getIntPref(PREF_CONNECTION_TIMEOUT);
this._connectTimer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
this._connectTimer.initWithCallback(this._connectionTimeout,
timeout, Ci.nsITimer.TYPE_ONE_SHOT);
let promise = this._connectDefer.promise;
promise.then(function _onSucess() {
this._connectTimer.cancel();
this._connectTimer = null;
}.bind(this), function _onFailure() {
this._connectTimer = null;
}.bind(this));
let client = this.client = this.target.client;
client.addListener("pageError", this._onPageError);
client.addListener("consoleAPICall", this._onConsoleAPICall);
client.addListener("networkEvent", this._onNetworkEvent);
client.addListener("networkEventUpdate", this._onNetworkEventUpdate);
client.addListener("fileActivity", this._onFileActivity);
client.addListener("tabNavigated", this._onTabNavigated);
if (!this.target.chrome) {
// target.form is a TabActor grip
this._attachTab(this.target.form);
}
else {
// target.form is a RootActor grip
this._consoleActor = this.target.form.consoleActor;
this._attachConsole();
}
return promise;
},
/**
* Connection timeout handler.
* @private
*/
_connectionTimeout: function WCCP__connectionTimeout()
{
let error = {
error: "timeout",
message: l10n.getStr("connectionTimeout"),
};
this._connectDefer.reject(error);
},
/**
* Attach to the tab actor.
*
* @private
* @param object aTab
* Grip for the tab to attach to.
*/
_attachTab: function WCCP__attachTab(aTab)
{
this._consoleActor = aTab.consoleActor;
this._tabActor = aTab.actor;
this.owner.onLocationChange(aTab.url, aTab.title);
this.client.attachTab(this._tabActor, this._onAttachTab);
},
/**
* The "attachTab" response handler.
*
* @private
* @param object aResponse
* The JSON response object received from the server.
* @param object aTabClient
* The TabClient instance for the attached tab.
*/
_onAttachTab: function WCCP__onAttachTab(aResponse, aTabClient)
{
if (aResponse.error) {
Cu.reportError("attachTab failed: " + aResponse.error + " " +
aResponse.message);
this._connectDefer.reject(aResponse);
return;
}
this.tabClient = aTabClient;
this._attachConsole();
},
/**
* Attach to the Web Console actor.
* @private
*/
_attachConsole: function WCCP__attachConsole()
{
let listeners = ["PageError", "ConsoleAPI", "NetworkActivity",
"FileActivity"];
this.client.attachConsole(this._consoleActor, listeners,
this._onAttachConsole);
},
/**
* The "attachConsole" response handler.
*
* @private
* @param object aResponse
* The JSON response object received from the server.
* @param object aWebConsoleClient
* The WebConsoleClient instance for the attached console, for the
* specific tab we work with.
*/
_onAttachConsole: function WCCP__onAttachConsole(aResponse, aWebConsoleClient)
{
if (aResponse.error) {
Cu.reportError("attachConsole failed: " + aResponse.error + " " +
aResponse.message);
this._connectDefer.reject(aResponse);
return;
}
this.webConsoleClient = aWebConsoleClient;
this._hasNativeConsoleAPI = aResponse.nativeConsoleAPI;
let msgs = ["PageError", "ConsoleAPI"];
this.webConsoleClient.getCachedMessages(msgs, this._onCachedMessages);
},
/**
* The "cachedMessages" response handler.
*
* @private
* @param object aResponse
* The JSON response object received from the server.
*/
_onCachedMessages: function WCCP__onCachedMessages(aResponse)
{
if (aResponse.error) {
Cu.reportError("Web Console getCachedMessages error: " + aResponse.error +
" " + aResponse.message);
this._connectDefer.reject(aResponse);
return;
}
if (!this._connectTimer) {
// This happens if the Promise is rejected (eg. a timeout), but the
// connection attempt is successful, nonetheless.
Cu.reportError("Web Console getCachedMessages error: invalid state.");
}
this.owner.displayCachedMessages(aResponse.messages);
if (!this._hasNativeConsoleAPI) {
this.owner.logWarningAboutReplacedAPI();
}
this.connected = true;
this._connectDefer.resolve(this);
},
/**
* The "pageError" message type handler. We redirect any page errors to the UI
* for displaying.
*
* @private
* @param string aType
* Message type.
* @param object aPacket
* The message received from the server.
*/
_onPageError: function WCCP__onPageError(aType, aPacket)
{
if (this.owner && aPacket.from == this._consoleActor) {
this.owner.handlePageError(aPacket.pageError);
}
},
/**
* The "consoleAPICall" message type handler. We redirect any message to
* the UI for displaying.
*
* @private
* @param string aType
* Message type.
* @param object aPacket
* The message received from the server.
*/
_onConsoleAPICall: function WCCP__onConsoleAPICall(aType, aPacket)
{
if (this.owner && aPacket.from == this._consoleActor) {
this.owner.handleConsoleAPICall(aPacket.message);
}
},
/**
* The "networkEvent" message type handler. We redirect any message to
* the UI for displaying.
*
* @private
* @param string aType
* Message type.
* @param object aPacket
* The message received from the server.
*/
_onNetworkEvent: function WCCP__onNetworkEvent(aType, aPacket)
{
if (this.owner && aPacket.from == this._consoleActor) {
this.owner.handleNetworkEvent(aPacket.eventActor);
}
},
/**
* The "networkEventUpdate" message type handler. We redirect any message to
* the UI for displaying.
*
* @private
* @param string aType
* Message type.
* @param object aPacket
* The message received from the server.
*/
_onNetworkEventUpdate: function WCCP__onNetworkEvenUpdatet(aType, aPacket)
{
if (this.owner) {
this.owner.handleNetworkEventUpdate(aPacket.from, aPacket.updateType,
aPacket);
}
},
/**
* The "fileActivity" message type handler. We redirect any message to
* the UI for displaying.
*
* @private
* @param string aType
* Message type.
* @param object aPacket
* The message received from the server.
*/
_onFileActivity: function WCCP__onFileActivity(aType, aPacket)
{
if (this.owner && aPacket.from == this._consoleActor) {
this.owner.handleFileActivity(aPacket.uri);
}
},
/**
* The "tabNavigated" message type handler. We redirect any message to
* the UI for displaying.
*
* @private
* @param string aType
* Message type.
* @param object aPacket
* The message received from the server.
*/
_onTabNavigated: function WCCP__onTabNavigated(aType, aPacket)
{
if (!this.owner || aPacket.from != this._tabActor) {
return;
}
if (aPacket.url) {
this.owner.onLocationChange(aPacket.url, aPacket.title);
}
if (aPacket.state == "stop" && !aPacket.nativeConsoleAPI) {
this.owner.logWarningAboutReplacedAPI();
}
},
/**
* Release an object actor.
*
* @param string aActor
* The actor ID to send the request to.
*/
releaseActor: function WCCP_releaseActor(aActor)
{
if (this.client) {
this.client.release(aActor);
}
},
/**
* Disconnect the Web Console from the remote server.
*
* @return object
* A Promise object that is resolved when disconnect completes.
*/
disconnect: function WCCP_disconnect()
{
if (this._disconnecter) {
return this._disconnecter.promise;
}
this._disconnecter = Promise.defer();
if (!this.client) {
this._disconnecter.resolve(null);
return this._disconnecter.promise;
}
this.client.removeListener("pageError", this._onPageError);
this.client.removeListener("consoleAPICall", this._onConsoleAPICall);
this.client.removeListener("networkEvent", this._onNetworkEvent);
this.client.removeListener("networkEventUpdate", this._onNetworkEventUpdate);
this.client.removeListener("fileActivity", this._onFileActivity);
this.client.removeListener("tabNavigated", this._onTabNavigated);
this.client = null;
this.webConsoleClient = null;
this.tabClient = null;
this.target = null;
this.connected = false;
this.owner = null;
this._disconnecter.resolve(null);
return this._disconnecter.promise;
},
};
function gSequenceId()
{
return gSequenceId.n++;
}
gSequenceId.n = 0;
function goUpdateConsoleCommands() {
goUpdateCommand("consoleCmd_openURL");
goUpdateCommand("consoleCmd_copyURL");
}
///////////////////////////////////////////////////////////////////////////////
// Context Menu
///////////////////////////////////////////////////////////////////////////////
const CONTEXTMENU_ID = "output-contextmenu";
/*
* ConsoleContextMenu: This handle to show/hide a context menu item.
*/
let ConsoleContextMenu = {
/*
* Handle to show/hide context menu item.
*
* @param nsIDOMEvent aEvent
*/
build: function CCM_build(aEvent)
{
let popup = aEvent.target;
if (popup.id !== CONTEXTMENU_ID) {
return;
}
let view = document.querySelector(".hud-output-node");
let metadata = this.getSelectionMetadata(view);
for (let i = 0, l = popup.childNodes.length; i < l; ++i) {
let element = popup.childNodes[i];
element.hidden = this.shouldHideMenuItem(element, metadata);
}
},
/*
* Get selection information from the view.
*
* @param nsIDOMElement aView
* This should be <xul:richlistbox>.
*
* @return object
* Selection metadata.
*/
getSelectionMetadata: function CCM_getSelectionMetadata(aView)
{
let metadata = {
selectionType: "",
selection: new Set(),
};
let selectedItems = aView.selectedItems;
metadata.selectionType = (selectedItems > 1) ? "multiple" : "single";
let selection = metadata.selection;
for (let item of selectedItems) {
switch (item.category) {
case CATEGORY_NETWORK:
selection.add("network");
break;
case CATEGORY_CSS:
selection.add("css");
break;
case CATEGORY_JS:
selection.add("js");
break;
case CATEGORY_WEBDEV:
selection.add("webdev");
break;
}
}
return metadata;
},
/*
* Determine if an item should be hidden.
*
* @param nsIDOMElement aMenuItem
* @param object aMetadata
* @return boolean
* Whether the given item should be hidden or not.
*/
shouldHideMenuItem: function CCM_shouldHideMenuItem(aMenuItem, aMetadata)
{
let selectionType = aMenuItem.getAttribute("selectiontype");
if (selectionType && !aMetadata.selectionType == selectionType) {
return true;
}
let selection = aMenuItem.getAttribute("selection");
if (!selection) {
return false;
}
let shouldHide = true;
let itemData = selection.split("|");
for (let type of aMetadata.selection) {
// check whether this menu item should show or not.
if (itemData.indexOf(type) !== -1) {
shouldHide = false;
break;
}
}
return shouldHide;
},
};
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