/* 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 BAD_LISTENER = "The event listener must be a function, or an object that has " + "`EventEmitter.handler` Symbol."; const eventListeners = Symbol("EventEmitter/listeners"); const onceOriginalListener = Symbol("EventEmitter/once-original-listener"); const handler = Symbol("EventEmitter/event-handler"); loader.lazyRequireGetter(this, "flags", "devtools/shared/flags"); class EventEmitter { constructor() { this[eventListeners] = new Map(); } /** * Registers an event `listener` that is called every time events of * specified `type` is emitted on the given event `target`. * * @param {Object} target * Event target object. * @param {String} type * The type of event. * @param {Function|Object} listener * The listener that processes the event. * @returns {Function} * A function that removes the listener when called. */ static on(target, type, listener) { if (typeof listener !== "function" && !isEventHandler(listener)) { throw new Error(BAD_LISTENER); } if (!(eventListeners in target)) { target[eventListeners] = new Map(); } const events = target[eventListeners]; if (events.has(type)) { events.get(type).add(listener); } else { events.set(type, new Set([listener])); } return () => EventEmitter.off(target, type, listener); } /** * Removes an event `listener` for the given event `type` on the given event * `target`. If no `listener` is passed removes all listeners of the given * `type`. If `type` is not passed removes all the listeners of the given * event `target`. * @param {Object} target * The event target object. * @param {String} [type] * The type of event. * @param {Function|Object} [listener] * The listener that processes the event. */ static off(target, type, listener) { const length = arguments.length; const events = target[eventListeners]; if (!events) { return; } if (length >= 3) { // Trying to remove from the `target` the `listener` specified for the // event's `type` given. const listenersForType = events.get(type); // If we don't have listeners for the event's type, we bail out. if (!listenersForType) { return; } // If the listeners list contains the listener given, we just remove it. if (listenersForType.has(listener)) { listenersForType.delete(listener); } else { // If it's not present, there is still the possibility that the listener // have been added using `once`, since the method wraps the original listener // in another function. // So we iterate all the listeners to check if any of them is a wrapper to // the `listener` given. for (const value of listenersForType.values()) { if ( onceOriginalListener in value && value[onceOriginalListener] === listener ) { listenersForType.delete(value); break; } } } } else if (length === 2) { // No listener was given, it means we're removing all the listeners from // the given event's `type`. if (events.has(type)) { events.delete(type); } } else if (length === 1) { // With only the `target` given, we're removing all the listeners from the object. events.clear(); } } static clearEvents(target) { const events = target[eventListeners]; if (!events) { return; } events.clear(); } /** * Registers an event `listener` that is called only the next time an event * of the specified `type` is emitted on the given event `target`. * It returns a promised resolved once the specified event `type` is emitted. * * @param {Object} target * Event target object. * @param {String} type * The type of the event. * @param {Function|Object} [listener] * The listener that processes the event. * @return {Promise} * The promise resolved once the event `type` is emitted. */ static once(target, type, listener) { return new Promise(resolve => { // This is the actual listener that will be added to the target's listener, it wraps // the call to the original `listener` given. const newListener = (first, ...rest) => { // To prevent side effects we're removing the listener upfront. EventEmitter.off(target, type, newListener); let rv; if (listener) { if (isEventHandler(listener)) { // if the `listener` given is actually an object that handles the events // using `EventEmitter.handler`, we want to call that function, passing also // the event's type as first argument, and the `listener` (the object) as // contextual object. rv = listener[handler](type, first, ...rest); } else { // Otherwise we'll just call it rv = listener.call(target, first, ...rest); } } // We resolve the promise once the listener is called. resolve(first); // Listeners may return a promise, so pass it along return rv; }; newListener[onceOriginalListener] = listener; EventEmitter.on(target, type, newListener); }); } static emit(target, type, ...rest) { EventEmitter._emit(target, type, false, ...rest); } static emitAsync(target, type, ...rest) { return EventEmitter._emit(target, type, true, ...rest); } /** * Emit an event of a given `type` on a given `target` object. * * @param {Object} target * Event target object. * @param {String} type * The type of the event. * @param {Boolean} async * If true, this function will wait for each listener completion. * Each listener has to return a promise, which will be awaited for. * @param {any} ...rest * The arguments to pass to each listener function. * @return {Promise|undefined} * If `async` argument is true, returns the promise resolved once all listeners have resolved. * Otherwise, this function returns undefined; */ static _emit(target, type, async, ...rest) { logEvent(type, rest); if (!(eventListeners in target)) { return undefined; } const promises = async ? [] : null; if (target[eventListeners].has(type)) { // Creating a temporary Set with the original listeners, to avoiding side effects // in emit. const listenersForType = new Set(target[eventListeners].get(type)); const events = target[eventListeners]; const listeners = events.get(type); for (const listener of listenersForType) { // If the object was destroyed during event emission, stop emitting. if (!(eventListeners in target)) { break; } // If listeners were removed during emission, make sure the // event handler we're going to fire wasn't removed. if (listeners && listeners.has(listener)) { try { let promise; if (isEventHandler(listener)) { promise = listener[handler](type, ...rest); } else { promise = listener.call(target, ...rest); } if (async) { // Assert the name instead of `constructor != Promise` in order // to avoid cross compartment issues where Promise can be multiple. if (!promise || promise.constructor.name != "Promise") { console.warn( `Listener for event '${type}' did not return a promise.` ); } else { promises.push(promise); } } } catch (ex) { // Prevent a bad listener from interfering with the others. console.error(ex); const msg = ex + ": " + ex.stack; dump(msg + "\n"); } } } } // Backward compatibility with the SDK event-emitter: support wildcard listeners that // will be called for any event. The arguments passed to the listener are the event // type followed by the actual arguments. // !!! This API will be removed by Bug 1391261. const hasWildcardListeners = target[eventListeners].has("*"); if (type !== "*" && hasWildcardListeners) { EventEmitter.emit(target, "*", type, ...rest); } if (async) { return Promise.all(promises); } return undefined; } /** * Returns a number of event listeners registered for the given event `type` * on the given event `target`. * * @param {Object} target * Event target object. * @param {String} type * The type of event. * @return {Number} * The number of event listeners. */ static count(target, type) { if (eventListeners in target) { const listenersForType = target[eventListeners].get(type); if (listenersForType) { return listenersForType.size; } } return 0; } /** * Decorate an object with event emitter functionality; basically using the * class' prototype as mixin. * * @param Object target * The object to decorate. * @return Object * The object given, mixed. */ static decorate(target) { const descriptors = Object.getOwnPropertyDescriptors(this.prototype); delete descriptors.constructor; return Object.defineProperties(target, descriptors); } static get handler() { return handler; } on(...args) { return EventEmitter.on(this, ...args); } off(...args) { EventEmitter.off(this, ...args); } clearEvents() { EventEmitter.clearEvents(this); } once(...args) { return EventEmitter.once(this, ...args); } emit(...args) { EventEmitter.emit(this, ...args); } emitAsync(...args) { return EventEmitter.emitAsync(this, ...args); } emitForTests(...args) { if (flags.testing) { EventEmitter.emit(this, ...args); } } count(...args) { return EventEmitter.count(this, ...args); } } module.exports = EventEmitter; const isEventHandler = listener => listener && handler in listener && typeof listener[handler] === "function"; const Services = require("Services"); const { getNthPathExcluding } = require("devtools/shared/platform/stack"); let loggingEnabled = false; if (!isWorker) { loggingEnabled = Services.prefs.getBoolPref("devtools.dump.emit", false); const observer = { observe: () => { loggingEnabled = Services.prefs.getBoolPref("devtools.dump.emit"); }, }; Services.prefs.addObserver("devtools.dump.emit", observer); // Also listen for Loader unload to unregister the pref observer and // prevent leaking const unloadObserver = function(subject) { if (subject.wrappedJSObject == require("@loader/unload")) { Services.prefs.removeObserver("devtools.dump.emit", observer); Services.obs.removeObserver(unloadObserver, "devtools:loader:destroy"); } }; Services.obs.addObserver(unloadObserver, "devtools:loader:destroy"); } function serialize(target) { const MAXLEN = 60; // Undefined if (typeof target === "undefined") { return "undefined"; } if (target === null) { return "null"; } // Number / String if (typeof target === "string" || typeof target === "number") { return truncate(target, MAXLEN); } // HTML Node if (target.nodeName) { let out = target.nodeName; if (target.id) { out += "#" + target.id; } if (target.className) { out += "." + target.className; } return out; } // Array if (Array.isArray(target)) { return truncate(target.toSource(), MAXLEN); } // Function if (typeof target === "function") { return `function ${target.name ? target.name : "anonymous"}()`; } // Window if (target?.constructor?.name === "Window") { return `window (${target.location.origin})`; } // Object if (typeof target === "object") { let out = "{"; const entries = Object.entries(target); for (let i = 0; i < Math.min(10, entries.length); i++) { const [name, value] = entries[i]; if (i > 0) { out += ", "; } out += `${name}: ${truncate(value, MAXLEN)}`; } return out + "}"; } // Other return truncate(target.toSource(), MAXLEN); } function truncate(value, maxLen) { // We don't use value.toString() because it can throw. const str = String(value); return str.length > maxLen ? str.substring(0, maxLen) + "..." : str; } function logEvent(type, args) { if (!loggingEnabled) { return; } let argsOut = ""; // We need this try / catch to prevent any dead object errors. try { argsOut = `${args.map(serialize).join(", ")}`; } catch (e) { // Object is dead so the toolbox is most likely shutting down, // do nothing. } const path = getNthPathExcluding(0, "devtools/shared/event-emitter.js"); if (args.length > 0) { dump(`EMITTING: emit(${type}, ${argsOut}) from ${path}\n`); } else { dump(`EMITTING: emit(${type}) from ${path}\n`); } }