/* 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/. */ import { EventEmitter } from "resource://gre/modules/EventEmitter.sys.mjs"; const lazy = {}; ChromeUtils.defineESModuleGetters(lazy, { error: "chrome://remote/content/shared/messagehandler/Errors.sys.mjs", EventsDispatcher: "chrome://remote/content/shared/messagehandler/EventsDispatcher.sys.mjs", Log: "chrome://remote/content/shared/Log.sys.mjs", ModuleCache: "chrome://remote/content/shared/messagehandler/ModuleCache.sys.mjs", }); ChromeUtils.defineLazyGetter(lazy, "logger", () => lazy.Log.get()); /** * A ContextDescriptor object provides information to decide if a broadcast or * a session data item should be applied to a specific MessageHandler context. * * @typedef {object} ContextDescriptor * @property {ContextDescriptorType} type * The type of context * @property {string=} id * Unique id of a given context for the provided type. * For ContextDescriptorType.All, id can be ommitted. * For ContextDescriptorType.TopBrowsingContext, the id should be the * browserId corresponding to a top-level browsing context. */ /** * Enum of ContextDescriptor types. * * @enum {string} */ export const ContextDescriptorType = { All: "All", TopBrowsingContext: "TopBrowsingContext", }; /** * A ContextInfo identifies a given context that can be linked to a MessageHandler * instance. It should be used to identify events coming from this context. * * It can either be provided by the MessageHandler itself, when the event is * emitted from the context it relates to. * * Or it can be assembled manually, for instance when emitting an event which * relates to a window global from the root layer (eg browsingContext.contextCreated). * * @typedef {object} ContextInfo * @property {string} contextId * Unique id of the MessageHandler corresponding to this context. * @property {string} type * One of MessageHandler.type. */ /** * MessageHandler instances are dedicated to handle both Commands and Events * to enable automation and introspection for remote control protocols. * * MessageHandler instances are designed to form a network, where each instance * should allow to inspect a specific context (eg. a BrowsingContext, a Worker, * etc). Those instances might live in different processes and threads but * should be linked together by the usage of a single sessionId, shared by all * the instances of a single MessageHandler network. * * MessageHandler instances will be dynamically spawned depending on which * Command or which Event needs to be processed and should therefore not be * explicitly created by consumers, nor used directly. * * The only exception is the ROOT MessageHandler. This MessageHandler will be * the entry point to send commands to the rest of the network. It will also * emit all the relevant events captured by the network. * * However, even to create this ROOT MessageHandler, consumers should use the * RootMessageHandlerRegistry. This singleton will ensure that MessageHandler * instances are properly registered and can be retrieved based on a given * session id as well as some other context information. */ export class MessageHandler extends EventEmitter { #context; #contextId; #eventsDispatcher; #moduleCache; #registry; #sessionId; /** * Create a new MessageHandler instance. * * @param {string} sessionId * ID of the session the handler is used for. * @param {object} context * The context linked to this MessageHandler instance. * @param {MessageHandlerRegistry} registry * The MessageHandlerRegistry which owns this MessageHandler instance. */ constructor(sessionId, context, registry) { super(); this.#moduleCache = new lazy.ModuleCache(this); this.#sessionId = sessionId; this.#context = context; this.#contextId = this.constructor.getIdFromContext(context); this.#eventsDispatcher = new lazy.EventsDispatcher(this); this.#registry = registry; } get context() { return this.#context; } get contextId() { return this.#contextId; } get eventsDispatcher() { return this.#eventsDispatcher; } get moduleCache() { return this.#moduleCache; } get name() { return [this.sessionId, this.constructor.type, this.contextId].join("-"); } get registry() { return this.#registry; } get sessionId() { return this.#sessionId; } destroy() { lazy.logger.trace( `MessageHandler ${this.constructor.type} for session ${this.sessionId} is being destroyed` ); this.#eventsDispatcher.destroy(); this.#moduleCache.destroy(); // At least the MessageHandlerRegistry will be expecting this event in order // to remove the instance from the registry when destroyed. this.emit("message-handler-destroyed", this); } /** * Emit a message handler event. * * Such events should bubble up to the root of a MessageHandler network. * * @param {string} name * Name of the event. Protocol level events should be of the * form [module name].[event name]. * @param {object} data * The event's data. * @param {ContextInfo=} contextInfo * The event's context info, used to identify the origin of the event. * If not provided, the context info of the current MessageHandler will be * used. */ emitEvent(name, data, contextInfo) { // If no contextInfo field is provided on the event, extract it from the // MessageHandler instance. contextInfo = contextInfo || this.#getContextInfo(); // Events are emitted both under their own name for consumers listening to // a specific and as `message-handler-event` for consumers which need to // catch all events. this.emit(name, data, contextInfo); this.emit("message-handler-event", { name, contextInfo, data, sessionId: this.sessionId, }); } /** * @typedef {object} CommandDestination * @property {string} type * One of MessageHandler.type. * @property {string=} id * Unique context identifier. The format depends on the type. * For WINDOW_GLOBAL destinations, this is a browsing context id. * Optional, should only be provided if `contextDescriptor` is missing. * @property {ContextDescriptor=} contextDescriptor * Descriptor used to match several contexts, which will all receive the * command. * Optional, should only be provided if `id` is missing. */ /** * @typedef {object} Command * @property {string} commandName * The name of the command to execute. * @property {string} moduleName * The name of the module. * @property {object} params * Optional command parameters. * @property {CommandDestination} destination * The destination describing a debuggable context. * @property {boolean=} retryOnAbort * Optional. When true, commands will be retried upon AbortError, which * can occur when the underlying JSWindowActor pair is destroyed. * Defaults to `false`. */ /** * Retrieve all module classes matching the moduleName and destination. * See `getAllModuleClasses` (ModuleCache.sys.mjs) for more details. * * @param {string} moduleName * The name of the module. * @param {Destination} destination * The destination. * @returns {Array.|null>} * An array of Module classes. */ getAllModuleClasses(moduleName, destination) { return this.#moduleCache.getAllModuleClasses(moduleName, destination); } /** * Handle a command, either in one of the modules owned by this MessageHandler * or in a another MessageHandler after forwarding the command. * * @param {Command} command * The command that should be either handled in this layer or forwarded to * the next layer leading to the destination. * @returns {Promise} A Promise that will resolve with the return value of the * command once it has been executed. */ handleCommand(command) { const { moduleName, commandName, params, destination } = command; lazy.logger.trace( `Received command ${moduleName}.${commandName} for destination ${destination.type}` ); if (!this.supportsCommand(moduleName, commandName, destination)) { throw new lazy.error.UnsupportedCommandError( `${moduleName}.${commandName} not supported for destination ${destination?.type}` ); } const module = this.#moduleCache.getModuleInstance(moduleName, destination); if (module && module.supportsMethod(commandName)) { return module[commandName](params, destination); } return this.forwardCommand(command); } toString() { return `[object ${this.constructor.name} ${this.name}]`; } /** * Execute the required initialization steps, inlcluding apply the initial session data items * provided to this MessageHandler on startup. Implementation is specific to each MessageHandler class. * * By default the implementation is a no-op. */ async initialize() {} /** * Returns the module path corresponding to this MessageHandler class. * * Needs to be implemented in the sub class. */ static get modulePath() { throw new Error("Not implemented"); } /** * Returns the type corresponding to this MessageHandler class. * * Needs to be implemented in the sub class. */ static get type() { throw new Error("Not implemented"); } /** * Returns the id corresponding to a context compatible with this * MessageHandler class. * * Needs to be implemented in the sub class. */ static getIdFromContext() { throw new Error("Not implemented"); } /** * Forward a command to other MessageHandlers. * * Needs to be implemented in the sub class. */ forwardCommand() { throw new Error("Not implemented"); } /** * Check if contextDescriptor matches the context linked * to this MessageHandler instance. * * Needs to be implemented in the sub class. */ matchesContext() { throw new Error("Not implemented"); } /** * Check if the given command is supported in the module * for the destination * * @param {string} moduleName * The name of the module. * @param {string} commandName * The name of the command. * @param {Destination} destination * The destination. * @returns {boolean} * True if the command is supported. */ supportsCommand(moduleName, commandName, destination) { return this.getAllModuleClasses(moduleName, destination).some(cls => cls.supportsMethod(commandName) ); } /** * Return the context information for this MessageHandler instance, which * can be used to identify the origin of an event. * * @returns {ContextInfo} * The context information for this MessageHandler. */ #getContextInfo() { return { contextId: this.contextId, type: this.constructor.type, }; } }