gecko-dev/toolkit/components/extensions/MessageChannel.jsm

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JavaScript

/* -*- Mode: indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set sts=2 sw=2 et 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";
/**
* This module provides wrappers around standard message managers to
* simplify bidirectional communication. It currently allows a caller to
* send a message to a single listener, and receive a reply. If there
* are no matching listeners, or the message manager disconnects before
* a reply is received, the caller is returned an error.
*
* The listener end may specify filters for the messages it wishes to
* receive, and the sender end likewise may specify recipient tags to
* match the filters.
*
* The message handler on the listener side may return its response
* value directly, or may return a promise, the resolution or rejection
* of which will be returned instead. The sender end likewise receives a
* promise which resolves or rejects to the listener's response.
*
*
* A basic setup works something like this:
*
* A content script adds a message listener to its global
* ContentFrameMessageManager, with an appropriate set of filters:
*
* {
* init(messageManager, window, extensionID) {
* this.window = window;
*
* MessageChannel.addListener(
* messageManager, "ContentScript:TouchContent",
* this);
*
* this.messageFilterStrict = {
* innerWindowID: getInnerWindowID(window),
* extensionID: extensionID,
* };
*
* this.messageFilterPermissive = {
* outerWindowID: getOuterWindowID(window),
* };
* },
*
* receiveMessage({ target, messageName, sender, recipient, data }) {
* if (messageName == "ContentScript:TouchContent") {
* return new Promise(resolve => {
* this.touchWindow(data.touchWith, result => {
* resolve({ touchResult: result });
* });
* });
* }
* },
* };
*
* A script in the parent process sends a message to the content process
* via a tab message manager, including recipient tags to match its
* filter, and an optional sender tag to identify itself:
*
* let data = { touchWith: "pencil" };
* let sender = { extensionID, contextID };
* let recipient = { innerWindowID: tab.linkedBrowser.innerWindowID, extensionID };
*
* MessageChannel.sendMessage(
* tab.linkedBrowser.messageManager, "ContentScript:TouchContent",
* data, {recipient, sender}
* ).then(result => {
* alert(result.touchResult);
* });
*
* Since the lifetimes of message senders and receivers may not always
* match, either side of the message channel may cancel pending
* responses which match its sender or recipient tags.
*
* For the above client, this might be done from an
* inner-window-destroyed observer, when its target scope is destroyed:
*
* observe(subject, topic, data) {
* if (topic == "inner-window-destroyed") {
* let innerWindowID = subject.QueryInterface(Ci.nsISupportsPRUint64).data;
*
* MessageChannel.abortResponses({ innerWindowID });
* }
* },
*
* From the parent, it may be done when its context is being destroyed:
*
* onDestroy() {
* MessageChannel.abortResponses({
* extensionID: this.extensionID,
* contextID: this.contextID,
* });
* },
*
*/
var EXPORTED_SYMBOLS = ["MessageChannel"];
/* globals MessageChannel */
ChromeUtils.import("resource://gre/modules/AppConstants.jsm");
ChromeUtils.import("resource://gre/modules/ExtensionUtils.jsm");
ChromeUtils.import("resource://gre/modules/Services.jsm");
ChromeUtils.defineModuleGetter(this, "MessageManagerProxy",
"resource://gre/modules/MessageManagerProxy.jsm");
function getMessageManager(target) {
if (typeof target.sendAsyncMessage === "function") {
return target;
}
return new MessageManagerProxy(target);
}
function matches(target, messageManager) {
return target === messageManager || target.messageManager === messageManager;
}
const {DEBUG} = AppConstants;
// Idle callback timeout for low-priority message dispatch.
const LOW_PRIORITY_TIMEOUT_MS = 250;
const MESSAGE_MESSAGES = "MessageChannel:Messages";
const MESSAGE_RESPONSE = "MessageChannel:Response";
// ESLint can't tell that these are referenced, so tell it that they're
// exported to make it happy.
/* exported _deferredResult, _makeDeferred */
var _deferredResult;
var _makeDeferred = (resolve, reject) => {
// We use arrow functions here and refer to the outer variables via
// `this`, to avoid a lexical name lookup. Yes, it makes a difference.
// No, I don't like it any more than you do.
this._deferredResult.resolve = resolve;
this._deferredResult.reject = reject;
};
/**
* Helper to create a new Promise without allocating any closures to
* receive its resolution functions.
*
* I know what you're thinking: "This is crazy. There is no possible way
* this can be necessary. Just use the ordinary Promise constructor the
* way it was meant to be used, you lunatic."
*
* And, against all odds, it turns out that you're wrong. Creating
* lambdas to receive promise resolution functions consistently turns
* out to be one of the most expensive parts of message dispatch in this
* code.
*
* So we do the stupid micro-optimization, and try to live with
* ourselves for it.
*
* (See also bug 1404950.)
*
* @returns {object}
*/
let Deferred = () => {
let res = {};
this._deferredResult = res;
res.promise = new Promise(this._makeDeferred);
this._deferredResult = null;
return res;
};
/**
* Handles the mapping and dispatching of messages to their registered
* handlers. There is one broker per message manager and class of
* messages. Each class of messages is mapped to one native message
* name, e.g., "MessageChannel:Message", and is dispatched to handlers
* based on an internal message name, e.g., "Extension:ExecuteScript".
*/
class FilteringMessageManager {
/**
* @param {string} messageName
* The name of the native message this broker listens for.
* @param {function} callback
* A function which is called for each message after it has been
* mapped to its handler. The function receives two arguments:
*
* result:
* An object containing either a `handler` or an `error` property.
* If no error occurs, `handler` will be a matching handler that
* was registered by `addHandler`. Otherwise, the `error` property
* will contain an object describing the error.
*
* data:
* An object describing the message, as defined in
* `MessageChannel.addListener`.
* @param {nsIMessageListenerManager} messageManager
*/
constructor(messageName, callback, messageManager) {
this.messageName = messageName;
this.callback = callback;
this.messageManager = messageManager;
this.messageManager.addMessageListener(this.messageName, this, true);
this.handlers = new Map();
}
/**
* Receives a set of messages from our message manager, maps each to a
* handler, and passes the results to our message callbacks.
*/
receiveMessage({data, target}) {
data.forEach(msg => {
if (msg) {
let handlers = Array.from(this.getHandlers(msg.messageName,
msg.sender || null,
msg.recipient));
msg.target = target;
this.callback(handlers, msg);
}
});
}
/**
* Iterates over all handlers for the given message name. If `recipient`
* is provided, only iterates over handlers whose filters match it.
*
* @param {string|number} messageName
* The message for which to return handlers.
* @param {object} sender
* The sender data on which to filter handlers.
* @param {object} recipient
* The recipient data on which to filter handlers.
*/
* getHandlers(messageName, sender, recipient) {
let handlers = this.handlers.get(messageName) || new Set();
for (let handler of handlers) {
if (MessageChannel.matchesFilter(handler.messageFilterStrict || null, recipient) &&
MessageChannel.matchesFilter(handler.messageFilterPermissive || null, recipient, false) &&
(!handler.filterMessage || handler.filterMessage(sender, recipient))) {
yield handler;
}
}
}
/**
* Registers a handler for the given message.
*
* @param {string} messageName
* The internal message name for which to register the handler.
* @param {object} handler
* An opaque handler object. The object may have a
* `messageFilterStrict` and/or a `messageFilterPermissive`
* property and/or a `filterMessage` method on which to filter messages.
*
* Final dispatching is handled by the message callback passed to
* the constructor.
*/
addHandler(messageName, handler) {
if (!this.handlers.has(messageName)) {
this.handlers.set(messageName, new Set());
}
this.handlers.get(messageName).add(handler);
}
/**
* Unregisters a handler for the given message.
*
* @param {string} messageName
* The internal message name for which to unregister the handler.
* @param {object} handler
* The handler object to unregister.
*/
removeHandler(messageName, handler) {
if (this.handlers.has(messageName)) {
this.handlers.get(messageName).delete(handler);
}
}
}
/**
* A message dispatch and response manager that wrapse a single native
* message manager. Handles dispatching messages through the manager
* (optionally coalescing several low-priority messages and dispatching
* them during an idle slice), and mapping their responses to the
* appropriate response callbacks.
*
* Note that this is a simplified subclass of FilteringMessageManager
* that only supports one handler per message, and does not support
* filtering.
*/
class ResponseManager extends FilteringMessageManager {
constructor(messageName, callback, messageManager) {
super(messageName, callback, messageManager);
this.idleMessages = [];
this.idleScheduled = false;
this.onIdle = this.onIdle.bind(this);
}
/**
* Schedules a new idle callback to dispatch pending low-priority
* messages, if one is not already scheduled.
*/
scheduleIdleCallback() {
if (!this.idleScheduled) {
ChromeUtils.idleDispatch(this.onIdle, {timeout: LOW_PRIORITY_TIMEOUT_MS});
this.idleScheduled = true;
}
}
/**
* Called when the event queue is idle, and dispatches any pending
* low-priority messages in a single chunk.
*
* @param {IdleDeadline} deadline
*/
onIdle(deadline) {
this.idleScheduled = false;
let messages = this.idleMessages;
this.idleMessages = [];
let msgs = messages.map(msg => msg.getMessage());
try {
this.messageManager.sendAsyncMessage(MESSAGE_MESSAGES, msgs);
} catch (e) {
for (let msg of messages) {
msg.reject(e);
}
}
}
/**
* Sends a message through our wrapped message manager, or schedules
* it for low-priority dispatch during an idle callback.
*
* @param {any} message
* The message to send.
* @param {object} [options]
* Message dispatch options.
* @param {boolean} [options.lowPriority = false]
* If true, dispatches the message in a single chunk with other
* low-priority messages the next time the event queue is idle.
*/
sendMessage(message, options = {}) {
if (options.lowPriority) {
this.idleMessages.push(message);
this.scheduleIdleCallback();
} else {
this.messageManager.sendAsyncMessage(MESSAGE_MESSAGES, [message.getMessage()]);
}
}
receiveMessage({data, target}) {
data.target = target;
this.callback(this.handlers.get(data.messageName),
data);
}
* getHandlers(messageName, sender, recipient) {
let handler = this.handlers.get(messageName);
if (handler) {
yield handler;
}
}
addHandler(messageName, handler) {
if (DEBUG && this.handlers.has(messageName)) {
throw new Error(`Handler already registered for response ID ${messageName}`);
}
this.handlers.set(messageName, handler);
}
/**
* Unregisters a handler for the given message.
*
* @param {string} messageName
* The internal message name for which to unregister the handler.
* @param {object} handler
* The handler object to unregister.
*/
removeHandler(messageName, handler) {
if (DEBUG && this.handlers.get(messageName) !== handler) {
throw new Error(`Attempting to remove unexpected response handler for ${messageName}`);
}
this.handlers.delete(messageName);
}
}
/**
* Manages mappings of message managers to their corresponding message
* brokers. Brokers are lazily created for each message manager the
* first time they are accessed. In the case of content frame message
* managers, they are also automatically destroyed when the frame
* unload event fires.
*/
class FilteringMessageManagerMap extends Map {
// Unfortunately, we can't use a WeakMap for this, because message
// managers do not support preserved wrappers.
/**
* @param {string} messageName
* The native message name passed to `FilteringMessageManager` constructors.
* @param {function} callback
* The message callback function passed to
* `FilteringMessageManager` constructors.
* @param {function} [constructor = FilteringMessageManager]
* The constructor for the message manager class that we're
* mapping to.
*/
constructor(messageName, callback, constructor = FilteringMessageManager) {
super();
this.messageName = messageName;
this.callback = callback;
this._constructor = constructor;
}
/**
* Returns, and possibly creates, a message broker for the given
* message manager.
*
* @param {nsIMessageListenerManager} target
* The message manager for which to return a broker.
*
* @returns {FilteringMessageManager}
*/
get(target) {
let broker = super.get(target);
if (broker) {
return broker;
}
broker = new this._constructor(this.messageName, this.callback, target);
this.set(target, broker);
// XXXbz if target is really known to be a MessageListenerManager,
// do we need this isInstance check?
if (EventTarget.isInstance(target)) {
let onUnload = event => {
target.removeEventListener("unload", onUnload);
this.delete(target);
};
target.addEventListener("unload", onUnload);
}
return broker;
}
}
/**
* Represents a message being sent through a MessageChannel, which may
* or may not have been dispatched yet, and is pending a response.
*
* When a response has been received, or the message has been canceled,
* this class is responsible for settling the response promise as
* appropriate.
*
* @param {number} channelId
* The unique ID for this message.
* @param {any} message
* The message contents.
* @param {object} sender
* An object describing the sender of the message, used by
* `abortResponses` to determine whether the message should be
* aborted.
* @param {ResponseManager} broker
* The response broker on which we're expected to receive a
* reply.
*/
class PendingMessage {
constructor(channelId, message, sender, broker) {
this.channelId = channelId;
this.message = message;
this.sender = sender;
this.broker = broker;
this.deferred = Deferred();
MessageChannel.pendingResponses.add(this);
}
/**
* Cleans up after this message once we've received or aborted a
* response.
*/
cleanup() {
if (this.broker) {
this.broker.removeHandler(this.channelId, this);
MessageChannel.pendingResponses.delete(this);
this.message = null;
this.broker = null;
}
}
/**
* Returns the promise which will resolve when we've received or
* aborted a response to this message.
*/
get promise() {
return this.deferred.promise;
}
/**
* Resolves the message's response promise, and cleans up.
*
* @param {any} value
*/
resolve(value) {
this.cleanup();
this.deferred.resolve(value);
}
/**
* Rejects the message's response promise, and cleans up.
*
* @param {any} value
*/
reject(value) {
this.cleanup();
this.deferred.reject(value);
}
get messageManager() {
return this.broker.messageManager;
}
/**
* Returns the contents of the message to be sent over a message
* manager, and registers the response with our response broker.
*
* Returns null if the response has already been canceled, and the
* message should not be sent.
*
* @returns {any}
*/
getMessage() {
let msg = null;
if (this.broker) {
this.broker.addHandler(this.channelId, this);
msg = this.message;
this.message = null;
}
return msg;
}
}
this.MessageChannel = {
init() {
Services.obs.addObserver(this, "message-manager-close");
Services.obs.addObserver(this, "message-manager-disconnect");
this.messageManagers = new FilteringMessageManagerMap(
MESSAGE_MESSAGES, this._handleMessage.bind(this));
this.responseManagers = new FilteringMessageManagerMap(
MESSAGE_RESPONSE, this._handleResponse.bind(this),
ResponseManager);
/**
* @property {Set<Deferred>} pendingResponses
* Contains a set of pending responses, either waiting to be
* received or waiting to be sent.
*
* The response object must be a deferred promise with the following
* properties:
*
* promise:
* The promise object which resolves or rejects when the response
* is no longer pending.
*
* reject:
* A function which, when called, causes the `promise` object to be
* rejected.
*
* sender:
* A sender object, as passed to `sendMessage.
*
* messageManager:
* The message manager the response will be sent or received on.
*
* When the promise resolves or rejects, it must be removed from the
* list.
*
* These values are used to clear pending responses when execution
* contexts are destroyed.
*/
this.pendingResponses = new Set();
/**
* @property {LimitedSet<string>} abortedResponses
* Contains the message name of a limited number of aborted response
* handlers, the responses for which will be ignored.
*/
this.abortedResponses = new ExtensionUtils.LimitedSet(30);
},
RESULT_SUCCESS: 0,
RESULT_DISCONNECTED: 1,
RESULT_NO_HANDLER: 2,
RESULT_MULTIPLE_HANDLERS: 3,
RESULT_ERROR: 4,
RESULT_NO_RESPONSE: 5,
REASON_DISCONNECTED: {
result: 1, // this.RESULT_DISCONNECTED
message: "Message manager disconnected",
},
/**
* Specifies that only a single listener matching the specified
* recipient tag may be listening for the given message, at the other
* end of the target message manager.
*
* If no matching listeners exist, a RESULT_NO_HANDLER error will be
* returned. If multiple matching listeners exist, a
* RESULT_MULTIPLE_HANDLERS error will be returned.
*/
RESPONSE_SINGLE: 0,
/**
* If multiple message managers matching the specified recipient tag
* are listening for a message, all listeners are notified, but only
* the first response or error is returned.
*
* Only handlers which return a value other than `undefined` are
* considered to have responded. Returning a Promise which evaluates
* to `undefined` is interpreted as an explicit response.
*
* If no matching listeners exist, a RESULT_NO_HANDLER error will be
* returned. If no listeners return a response, a RESULT_NO_RESPONSE
* error will be returned.
*/
RESPONSE_FIRST: 1,
/**
* If multiple message managers matching the specified recipient tag
* are listening for a message, all listeners are notified, and all
* responses are returned as an array, once all listeners have
* replied.
*/
RESPONSE_ALL: 2,
/**
* Fire-and-forget: The sender of this message does not expect a reply.
*/
RESPONSE_NONE: 3,
/**
* Initializes message handlers for the given message managers if needed.
*
* @param {Array<nsIMessageListenerManager>} messageManagers
*/
setupMessageManagers(messageManagers) {
for (let mm of messageManagers) {
// This call initializes a FilteringMessageManager for |mm| if needed.
// The FilteringMessageManager must be created to make sure that senders
// of messages that expect a reply, such as MessageChannel:Message, do
// actually receive a default reply even if there are no explicit message
// handlers.
this.messageManagers.get(mm);
}
},
/**
* Returns true if the properties of the `data` object match those in
* the `filter` object. Matching is done on a strict equality basis,
* and the behavior varies depending on the value of the `strict`
* parameter.
*
* @param {object?} filter
* The filter object to match against.
* @param {object} data
* The data object being matched.
* @param {boolean} [strict=true]
* If true, all properties in the `filter` object have a
* corresponding property in `data` with the same value. If
* false, properties present in both objects must have the same
* value.
* @returns {boolean} True if the objects match.
*/
matchesFilter(filter, data, strict = true) {
if (!filter) {
return true;
}
if (strict) {
return Object.keys(filter).every(key => {
return key in data && data[key] === filter[key];
});
}
return Object.keys(filter).every(key => {
return !(key in data) || data[key] === filter[key];
});
},
/**
* Adds a message listener to the given message manager.
*
* @param {nsIMessageListenerManager|Array<nsIMessageListenerManager>} targets
* The message managers on which to listen.
* @param {string|number} messageName
* The name of the message to listen for.
* @param {MessageReceiver} handler
* The handler to dispatch to. Must be an object with the following
* properties:
*
* receiveMessage:
* A method which is called for each message received by the
* listener. The method takes one argument, an object, with the
* following properties:
*
* messageName:
* The internal message name, as passed to `sendMessage`.
*
* target:
* The message manager which received this message.
*
* channelId:
* The internal ID of the transaction, used to map responses to
* the original sender.
*
* sender:
* An object describing the sender, as passed to `sendMessage`.
*
* recipient:
* An object describing the recipient, as passed to
* `sendMessage`.
*
* data:
* The contents of the message, as passed to `sendMessage`.
*
* The method may return any structured-clone-compatible
* object, which will be returned as a response to the message
* sender. It may also instead return a `Promise`, the
* resolution or rejection value of which will likewise be
* returned to the message sender.
*
* messageFilterStrict:
* An object containing arbitrary properties on which to filter
* received messages. Messages will only be dispatched to this
* object if the `recipient` object passed to `sendMessage`
* matches this filter, as determined by `matchesFilter` with
* `strict=true`.
*
* messageFilterPermissive:
* An object containing arbitrary properties on which to filter
* received messages. Messages will only be dispatched to this
* object if the `recipient` object passed to `sendMessage`
* matches this filter, as determined by `matchesFilter` with
* `strict=false`.
*
* filterMessage:
* An optional function that prevents the handler from handling a
* message by returning `false`. See `getHandlers` for the parameters.
*/
addListener(targets, messageName, handler) {
if (!Array.isArray(targets)) {
targets = [targets];
}
for (let target of targets) {
this.messageManagers.get(target).addHandler(messageName, handler);
}
},
/**
* Removes a message listener from the given message manager.
*
* @param {nsIMessageListenerManager|Array<nsIMessageListenerManager>} targets
* The message managers on which to stop listening.
* @param {string|number} messageName
* The name of the message to stop listening for.
* @param {MessageReceiver} handler
* The handler to stop dispatching to.
*/
removeListener(targets, messageName, handler) {
if (!Array.isArray(targets)) {
targets = [targets];
}
for (let target of targets) {
if (this.messageManagers.has(target)) {
this.messageManagers.get(target).removeHandler(messageName, handler);
}
}
},
/**
* Sends a message via the given message manager. Returns a promise which
* resolves or rejects with the return value of the message receiver.
*
* The promise also rejects if there is no matching listener, or the other
* side of the message manager disconnects before the response is received.
*
* @param {nsIMessageSender} target
* The message manager on which to send the message.
* @param {string} messageName
* The name of the message to send, as passed to `addListener`.
* @param {object} data
* A structured-clone-compatible object to send to the message
* recipient.
* @param {object} [options]
* An object containing any of the following properties:
* @param {object} [options.recipient]
* A structured-clone-compatible object to identify the message
* recipient. The object must match the `messageFilterStrict` and
* `messageFilterPermissive` filters defined by recipients in order
* for the message to be received.
* @param {object} [options.sender]
* A structured-clone-compatible object to identify the message
* sender. This object may also be used to avoid delivering the
* message to the sender, and as a filter to prematurely
* abort responses when the sender is being destroyed.
* @see `abortResponses`.
* @param {boolean} [options.lowPriority = false]
* If true, treat this as a low-priority message, and attempt to
* send it in the same chunk as other messages to the same target
* the next time the event queue is idle. This option reduces
* messaging overhead at the expense of adding some latency.
* @param {integer} [options.responseType = RESPONSE_SINGLE]
* Specifies the type of response expected. See the `RESPONSE_*`
* contents for details.
* @returns {Promise}
*/
sendMessage(target, messageName, data, options = {}) {
let sender = options.sender || {};
let recipient = options.recipient || {};
let responseType = options.responseType || this.RESPONSE_SINGLE;
let channelId = ExtensionUtils.getUniqueId();
let message = {messageName, channelId, sender, recipient, data, responseType};
data = null;
if (responseType == this.RESPONSE_NONE) {
try {
target.sendAsyncMessage(MESSAGE_MESSAGES, [message]);
} catch (e) {
// Caller is not expecting a reply, so dump the error to the console.
Cu.reportError(e);
return Promise.reject(e);
}
return Promise.resolve(); // Not expecting any reply.
}
let broker = this.responseManagers.get(target);
let pending = new PendingMessage(channelId, message, recipient, broker);
message = null;
try {
broker.sendMessage(pending, options);
} catch (e) {
pending.reject(e);
}
return pending.promise;
},
_callHandlers(handlers, data) {
let responseType = data.responseType;
// At least one handler is required for all response types but
// RESPONSE_ALL.
if (handlers.length == 0 && responseType != this.RESPONSE_ALL) {
return Promise.reject({result: MessageChannel.RESULT_NO_HANDLER,
message: "No matching message handler"});
}
if (responseType == this.RESPONSE_SINGLE) {
if (handlers.length > 1) {
return Promise.reject({result: MessageChannel.RESULT_MULTIPLE_HANDLERS,
message: `Multiple matching handlers for ${data.messageName}`});
}
// Note: We use `new Promise` rather than `Promise.resolve` here
// so that errors from the handler are trapped and converted into
// rejected promises.
return new Promise(resolve => {
resolve(handlers[0].receiveMessage(data));
});
}
let responses = handlers.map(handler => {
try {
return handler.receiveMessage(data);
} catch (e) {
return Promise.reject(e);
}
});
data = null;
responses = responses.filter(response => response !== undefined);
switch (responseType) {
case this.RESPONSE_FIRST:
if (responses.length == 0) {
return Promise.reject({result: MessageChannel.RESULT_NO_RESPONSE,
message: "No handler returned a response"});
}
return Promise.race(responses);
case this.RESPONSE_ALL:
return Promise.all(responses);
}
return Promise.reject({message: "Invalid response type"});
},
/**
* Handles dispatching message callbacks from the message brokers to their
* appropriate `MessageReceivers`, and routing the responses back to the
* original senders.
*
* Each handler object is a `MessageReceiver` object as passed to
* `addListener`.
*
* @param {Array<MessageHandler>} handlers
* @param {object} data
* @param {nsIMessageSender|{messageManager:nsIMessageSender}} data.target
*/
_handleMessage(handlers, data) {
if (data.responseType == this.RESPONSE_NONE) {
handlers.forEach(handler => {
// The sender expects no reply, so dump any errors to the console.
new Promise(resolve => {
resolve(handler.receiveMessage(data));
}).catch(e => {
Cu.reportError(e.stack ? `${e}\n${e.stack}` : e.message || e);
});
});
data = null;
// Note: Unhandled messages are silently dropped.
return;
}
let target = getMessageManager(data.target);
let deferred = {
sender: data.sender,
messageManager: target,
channelId: data.channelId,
respondingSide: true,
};
let cleanup = () => {
this.pendingResponses.delete(deferred);
if (target.dispose) {
target.dispose();
}
};
this.pendingResponses.add(deferred);
deferred.promise = new Promise((resolve, reject) => {
deferred.reject = reject;
this._callHandlers(handlers, data).then(resolve, reject);
data = null;
}).then(
value => {
let response = {
result: this.RESULT_SUCCESS,
messageName: deferred.channelId,
recipient: {},
value,
};
if (target.isDisconnected) {
// Target is disconnected. We can't send an error response, so
// don't even try.
return;
}
target.sendAsyncMessage(MESSAGE_RESPONSE, response);
},
error => {
if (target.isDisconnected) {
// Target is disconnected. We can't send an error response, so
// don't even try.
if (error.result !== this.RESULT_DISCONNECTED &&
error.result !== this.RESULT_NO_RESPONSE) {
Cu.reportError(Cu.getClassName(error, false) === "Object" ? error.message : error);
}
return;
}
let response = {
result: this.RESULT_ERROR,
messageName: deferred.channelId,
recipient: {},
error: {},
};
if (error && typeof(error) == "object") {
if (error.result) {
response.result = error.result;
}
// Error objects are not structured-clonable, so just copy
// over the important properties.
for (let key of ["fileName", "filename", "lineNumber",
"columnNumber", "message", "stack", "result",
"mozWebExtLocation"]) {
if (key in error) {
response.error[key] = error[key];
}
}
}
target.sendAsyncMessage(MESSAGE_RESPONSE, response);
})
.then(
cleanup,
e => {
cleanup();
Cu.reportError(e);
});
},
/**
* Handles message callbacks from the response brokers.
*
* @param {MessageHandler?} handler
* A deferred object created by `sendMessage`, to be resolved
* or rejected based on the contents of the response.
* @param {object} data
* @param {nsIMessageSender|{messageManager:nsIMessageSender}} data.target
*/
_handleResponse(handler, data) {
// If we have an error at this point, we have handler to report it to,
// so just log it.
if (!handler) {
if (this.abortedResponses.has(data.messageName)) {
this.abortedResponses.delete(data.messageName);
Services.console.logStringMessage(`Ignoring response to aborted listener for ${data.messageName}`);
} else {
Cu.reportError(`No matching message response handler for ${data.messageName}`);
}
} else if (data.result === this.RESULT_SUCCESS) {
handler.resolve(data.value);
} else {
handler.reject(data.error);
}
},
/**
* Aborts pending message response for the specific channel.
*
* @param {string} channelId
* A string for channelId of the response.
* @param {object} reason
* An object describing the reason the response was aborted.
* Will be passed to the promise rejection handler of the aborted
* response.
*/
abortChannel(channelId, reason) {
for (let response of this.pendingResponses) {
if (channelId === response.channelId && response.respondingSide) {
this.pendingResponses.delete(response);
response.reject(reason);
}
}
},
/**
* Aborts any pending message responses to senders matching the given
* filter.
*
* @param {object} sender
* The object on which to filter senders, as determined by
* `matchesFilter`.
* @param {object} [reason]
* An optional object describing the reason the response was aborted.
* Will be passed to the promise rejection handler of all aborted
* responses.
*/
abortResponses(sender, reason = this.REASON_DISCONNECTED) {
for (let response of this.pendingResponses) {
if (this.matchesFilter(sender, response.sender)) {
this.pendingResponses.delete(response);
this.abortedResponses.add(response.channelId);
response.reject(reason);
}
}
},
/**
* Aborts any pending message responses to the broker for the given
* message manager.
*
* @param {nsIMessageListenerManager} target
* The message manager for which to abort brokers.
* @param {object} reason
* An object describing the reason the responses were aborted.
* Will be passed to the promise rejection handler of all aborted
* responses.
*/
abortMessageManager(target, reason) {
for (let response of this.pendingResponses) {
if (matches(response.messageManager, target)) {
this.abortedResponses.add(response.channelId);
response.reject(reason);
}
}
},
observe(subject, topic, data) {
switch (topic) {
case "message-manager-close":
case "message-manager-disconnect":
try {
if (this.responseManagers.has(subject)) {
this.abortMessageManager(subject, this.REASON_DISCONNECTED);
}
} finally {
this.responseManagers.delete(subject);
this.messageManagers.delete(subject);
}
break;
}
},
};
MessageChannel.init();