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|
/* 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 { PushDB } from "resource://gre/modules/PushDB.sys.mjs";
import { PushRecord } from "resource://gre/modules/PushRecord.sys.mjs";
import { PushCrypto } from "resource://gre/modules/PushCrypto.sys.mjs";
const lazy = {};
ChromeUtils.defineESModuleGetters(lazy, {
ObjectUtils: "resource://gre/modules/ObjectUtils.sys.mjs",
pushBroadcastService: "resource://gre/modules/PushBroadcastService.sys.mjs",
});
const kPUSHWSDB_DB_NAME = "pushapi";
const kPUSHWSDB_DB_VERSION = 5; // Change this if the IndexedDB format changes
const kPUSHWSDB_STORE_NAME = "pushapi";
// WebSocket close code sent by the server to indicate that the client should
// not automatically reconnect.
const kBACKOFF_WS_STATUS_CODE = 4774;
// Maps ack statuses, unsubscribe reasons, and delivery error reasons to codes
// included in request payloads.
const kACK_STATUS_TO_CODE = {
[Ci.nsIPushErrorReporter.ACK_DELIVERED]: 100,
[Ci.nsIPushErrorReporter.ACK_DECRYPTION_ERROR]: 101,
[Ci.nsIPushErrorReporter.ACK_NOT_DELIVERED]: 102,
};
const kUNREGISTER_REASON_TO_CODE = {
[Ci.nsIPushErrorReporter.UNSUBSCRIBE_MANUAL]: 200,
[Ci.nsIPushErrorReporter.UNSUBSCRIBE_QUOTA_EXCEEDED]: 201,
[Ci.nsIPushErrorReporter.UNSUBSCRIBE_PERMISSION_REVOKED]: 202,
};
const kDELIVERY_REASON_TO_CODE = {
[Ci.nsIPushErrorReporter.DELIVERY_UNCAUGHT_EXCEPTION]: 301,
[Ci.nsIPushErrorReporter.DELIVERY_UNHANDLED_REJECTION]: 302,
[Ci.nsIPushErrorReporter.DELIVERY_INTERNAL_ERROR]: 303,
};
const prefs = Services.prefs.getBranch("dom.push.");
ChromeUtils.defineLazyGetter(lazy, "console", () => {
let { ConsoleAPI } = ChromeUtils.importESModule(
"resource://gre/modules/Console.sys.mjs"
);
return new ConsoleAPI({
maxLogLevelPref: "dom.push.loglevel",
prefix: "PushServiceWebSocket",
});
});
/**
* A proxy between the PushService and the WebSocket. The listener is used so
* that the PushService can silence messages from the WebSocket by setting
* PushWebSocketListener._pushService to null. This is required because
* a WebSocket can continue to send messages or errors after it has been
* closed but the PushService may not be interested in these. It's easier to
* stop listening than to have checks at specific points.
*/
var PushWebSocketListener = function (pushService) {
this._pushService = pushService;
};
PushWebSocketListener.prototype = {
onStart(context) {
if (!this._pushService) {
return;
}
this._pushService._wsOnStart(context);
},
onStop(context, statusCode) {
if (!this._pushService) {
return;
}
this._pushService._wsOnStop(context, statusCode);
},
onAcknowledge(context, size) {
// EMPTY
},
onBinaryMessageAvailable(context, message) {
// EMPTY
},
onMessageAvailable(context, message) {
if (!this._pushService) {
return;
}
this._pushService._wsOnMessageAvailable(context, message);
},
onServerClose(context, aStatusCode, aReason) {
if (!this._pushService) {
return;
}
this._pushService._wsOnServerClose(context, aStatusCode, aReason);
},
};
// websocket states
// websocket is off
const STATE_SHUT_DOWN = 0;
// Websocket has been opened on client side, waiting for successful open.
// (_wsOnStart)
const STATE_WAITING_FOR_WS_START = 1;
// Websocket opened, hello sent, waiting for server reply (_handleHelloReply).
const STATE_WAITING_FOR_HELLO = 2;
// Websocket operational, handshake completed, begin protocol messaging.
const STATE_READY = 3;
export var PushServiceWebSocket = {
QueryInterface: ChromeUtils.generateQI(["nsINamed", "nsIObserver"]),
name: "PushServiceWebSocket",
_mainPushService: null,
_serverURI: null,
_currentlyRegistering: new Set(),
newPushDB() {
return new PushDB(
kPUSHWSDB_DB_NAME,
kPUSHWSDB_DB_VERSION,
kPUSHWSDB_STORE_NAME,
"channelID",
PushRecordWebSocket
);
},
disconnect() {
this._shutdownWS();
},
observe(aSubject, aTopic, aData) {
if (aTopic == "nsPref:changed" && aData == "dom.push.userAgentID") {
this._onUAIDChanged();
} else if (aTopic == "timer-callback") {
this._onTimerFired(aSubject);
}
},
/**
* Handles a UAID change. Unlike reconnects, we cancel all pending requests
* after disconnecting. Existing subscriptions stored in IndexedDB will be
* dropped on reconnect.
*/
_onUAIDChanged() {
lazy.console.debug("onUAIDChanged()");
this._shutdownWS();
this._startBackoffTimer();
},
/** Handles a ping, backoff, or request timeout timer event. */
_onTimerFired(timer) {
lazy.console.debug("onTimerFired()");
if (timer == this._pingTimer) {
this._sendPing();
return;
}
if (timer == this._backoffTimer) {
lazy.console.debug("onTimerFired: Reconnecting after backoff");
this._beginWSSetup();
return;
}
if (timer == this._requestTimeoutTimer) {
this._timeOutRequests();
}
},
/**
* Sends a ping to the server. Bypasses the request queue, but starts the
* request timeout timer. If the socket is already closed, or the server
* does not respond within the timeout, the client will reconnect.
*/
_sendPing() {
lazy.console.debug("sendPing()");
this._startRequestTimeoutTimer();
try {
this._wsSendMessage({});
this._lastPingTime = Date.now();
} catch (e) {
lazy.console.debug("sendPing: Error sending ping", e);
this._reconnect();
}
},
/** Times out any pending requests. */
_timeOutRequests() {
lazy.console.debug("timeOutRequests()");
if (!this._hasPendingRequests()) {
// Cancel the repeating timer and exit early if we aren't waiting for
// pongs or requests.
this._requestTimeoutTimer.cancel();
return;
}
let now = Date.now();
// Set to true if at least one request timed out, or we're still waiting
// for a pong after the request timeout.
let requestTimedOut = false;
if (
this._lastPingTime > 0 &&
now - this._lastPingTime > this._requestTimeout
) {
lazy.console.debug("timeOutRequests: Did not receive pong in time");
requestTimedOut = true;
} else {
for (let [key, request] of this._pendingRequests) {
let duration = now - request.ctime;
// If any of the registration requests time out, all the ones after it
// also made to fail, since we are going to be disconnecting the
// socket.
requestTimedOut |= duration > this._requestTimeout;
if (requestTimedOut) {
request.reject(new Error("Request timed out: " + key));
this._pendingRequests.delete(key);
}
}
}
// The most likely reason for a pong or registration request timing out is
// that the socket has disconnected. Best to reconnect.
if (requestTimedOut) {
this._reconnect();
}
},
get _UAID() {
return prefs.getStringPref("userAgentID");
},
set _UAID(newID) {
if (typeof newID !== "string") {
lazy.console.warn(
"Got invalid, non-string UAID",
newID,
"Not updating userAgentID"
);
return;
}
lazy.console.debug("New _UAID", newID);
prefs.setStringPref("userAgentID", newID);
},
_ws: null,
_pendingRequests: new Map(),
_currentState: STATE_SHUT_DOWN,
_requestTimeout: 0,
_requestTimeoutTimer: null,
_retryFailCount: 0,
/**
* According to the WS spec, servers should immediately close the underlying
* TCP connection after they close a WebSocket. This causes wsOnStop to be
* called with error NS_BASE_STREAM_CLOSED. Since the client has to keep the
* WebSocket up, it should try to reconnect. But if the server closes the
* WebSocket because it wants the client to back off, then the client
* shouldn't re-establish the connection. If the server sends the backoff
* close code, this field will be set to true in wsOnServerClose. It is
* checked in wsOnStop.
*/
_skipReconnect: false,
/** Indicates whether the server supports Web Push-style message delivery. */
_dataEnabled: false,
/**
* The last time the client sent a ping to the server. If non-zero, keeps the
* request timeout timer active. Reset to zero when the server responds with
* a pong or pending messages.
*/
_lastPingTime: 0,
/**
* A one-shot timer used to ping the server, to avoid timing out idle
* connections. Reset to the ping interval on each incoming message.
*/
_pingTimer: null,
/** A one-shot timer fired after the reconnect backoff period. */
_backoffTimer: null,
/**
* Sends a message to the Push Server through an open websocket.
* typeof(msg) shall be an object
*/
_wsSendMessage(msg) {
if (!this._ws) {
lazy.console.warn(
"wsSendMessage: No WebSocket initialized.",
"Cannot send a message"
);
return;
}
msg = JSON.stringify(msg);
lazy.console.debug("wsSendMessage: Sending message", msg);
this._ws.sendMsg(msg);
},
init(options, mainPushService, serverURI) {
lazy.console.debug("init()");
this._mainPushService = mainPushService;
this._serverURI = serverURI;
// Filled in at connect() time
this._broadcastListeners = null;
// Override the default WebSocket factory function. The returned object
// must be null or satisfy the nsIWebSocketChannel interface. Used by
// the tests to provide a mock WebSocket implementation.
if (options.makeWebSocket) {
this._makeWebSocket = options.makeWebSocket;
}
this._requestTimeout = prefs.getIntPref("requestTimeout");
return Promise.resolve();
},
_reconnect() {
lazy.console.debug("reconnect()");
this._shutdownWS(false);
this._startBackoffTimer();
},
_shutdownWS(shouldCancelPending = true) {
lazy.console.debug("shutdownWS()");
if (this._currentState == STATE_READY) {
prefs.removeObserver("userAgentID", this);
}
this._currentState = STATE_SHUT_DOWN;
this._skipReconnect = false;
if (this._wsListener) {
this._wsListener._pushService = null;
}
try {
this._ws.close(0, null);
} catch (e) {}
this._ws = null;
this._lastPingTime = 0;
if (this._pingTimer) {
this._pingTimer.cancel();
}
if (shouldCancelPending) {
this._cancelPendingRequests();
}
if (this._notifyRequestQueue) {
this._notifyRequestQueue();
this._notifyRequestQueue = null;
}
},
uninit() {
// All pending requests (ideally none) are dropped at this point. We
// shouldn't have any applications performing registration/unregistration
// or receiving notifications.
this._shutdownWS();
if (this._backoffTimer) {
this._backoffTimer.cancel();
}
if (this._requestTimeoutTimer) {
this._requestTimeoutTimer.cancel();
}
this._mainPushService = null;
this._dataEnabled = false;
},
/**
* How retries work: If the WS is closed due to a socket error,
* _startBackoffTimer() is called. The retry timer is started and when
* it times out, beginWSSetup() is called again.
*
* If we are in the middle of a timeout (i.e. waiting), but
* a register/unregister is called, we don't want to wait around anymore.
* _sendRequest will automatically call beginWSSetup(), which will cancel the
* timer. In addition since the state will have changed, even if a pending
* timer event comes in (because the timer fired the event before it was
* cancelled), so the connection won't be reset.
*/
_startBackoffTimer() {
lazy.console.debug("startBackoffTimer()");
// Calculate new timeout, but cap it to pingInterval.
let retryTimeout =
prefs.getIntPref("retryBaseInterval") * Math.pow(2, this._retryFailCount);
retryTimeout = Math.min(retryTimeout, prefs.getIntPref("pingInterval"));
this._retryFailCount++;
lazy.console.debug(
"startBackoffTimer: Retry in",
retryTimeout,
"Try number",
this._retryFailCount
);
if (!this._backoffTimer) {
this._backoffTimer = Cc["@mozilla.org/timer;1"].createInstance(
Ci.nsITimer
);
}
this._backoffTimer.init(this, retryTimeout, Ci.nsITimer.TYPE_ONE_SHOT);
},
/** Indicates whether we're waiting for pongs or requests. */
_hasPendingRequests() {
return this._lastPingTime > 0 || this._pendingRequests.size > 0;
},
/**
* Starts the request timeout timer unless we're already waiting for a pong
* or register request.
*/
_startRequestTimeoutTimer() {
if (this._hasPendingRequests()) {
return;
}
if (!this._requestTimeoutTimer) {
this._requestTimeoutTimer = Cc["@mozilla.org/timer;1"].createInstance(
Ci.nsITimer
);
}
this._requestTimeoutTimer.init(
this,
this._requestTimeout,
Ci.nsITimer.TYPE_REPEATING_SLACK
);
},
/** Starts or resets the ping timer. */
_startPingTimer() {
if (!this._pingTimer) {
this._pingTimer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
}
this._pingTimer.init(
this,
prefs.getIntPref("pingInterval"),
Ci.nsITimer.TYPE_ONE_SHOT
);
},
_makeWebSocket(uri) {
if (!prefs.getBoolPref("connection.enabled")) {
lazy.console.warn(
"makeWebSocket: connection.enabled is not set to true.",
"Aborting."
);
return null;
}
if (Services.io.offline) {
lazy.console.warn("makeWebSocket: Network is offline.");
return null;
}
let contractId =
uri.scheme == "ws"
? "@mozilla.org/network/protocol;1?name=ws"
: "@mozilla.org/network/protocol;1?name=wss";
let socket = Cc[contractId].createInstance(Ci.nsIWebSocketChannel);
socket.initLoadInfo(
null, // aLoadingNode
Services.scriptSecurityManager.getSystemPrincipal(),
null, // aTriggeringPrincipal
Ci.nsILoadInfo.SEC_ALLOW_CROSS_ORIGIN_SEC_CONTEXT_IS_NULL,
Ci.nsIContentPolicy.TYPE_WEBSOCKET
);
// Allow deprecated HTTP request from SystemPrincipal
socket.loadInfo.allowDeprecatedSystemRequests = true;
return socket;
},
_beginWSSetup() {
lazy.console.debug("beginWSSetup()");
if (this._currentState != STATE_SHUT_DOWN) {
lazy.console.error(
"_beginWSSetup: Not in shutdown state! Current state",
this._currentState
);
return;
}
// Stop any pending reconnects scheduled for the near future.
if (this._backoffTimer) {
this._backoffTimer.cancel();
}
let uri = this._serverURI;
if (!uri) {
return;
}
let socket = this._makeWebSocket(uri);
if (!socket) {
return;
}
this._ws = socket.QueryInterface(Ci.nsIWebSocketChannel);
lazy.console.debug("beginWSSetup: Connecting to", uri.spec);
this._wsListener = new PushWebSocketListener(this);
this._ws.protocol = "push-notification";
try {
// Grab a wakelock before we open the socket to ensure we don't go to
// sleep before connection the is opened.
this._ws.asyncOpen(uri, uri.spec, {}, 0, this._wsListener, null);
this._currentState = STATE_WAITING_FOR_WS_START;
} catch (e) {
lazy.console.error(
"beginWSSetup: Error opening websocket.",
"asyncOpen failed",
e
);
this._reconnect();
}
},
connect(broadcastListeners) {
lazy.console.debug("connect()", broadcastListeners);
this._broadcastListeners = broadcastListeners;
this._beginWSSetup();
},
isConnected() {
return !!this._ws;
},
/**
* Protocol handler invoked by server message.
*/
_handleHelloReply(reply) {
lazy.console.debug("handleHelloReply()");
if (this._currentState != STATE_WAITING_FOR_HELLO) {
lazy.console.error(
"handleHelloReply: Unexpected state",
this._currentState,
"(expected STATE_WAITING_FOR_HELLO)"
);
this._shutdownWS();
return;
}
if (typeof reply.uaid !== "string") {
lazy.console.error("handleHelloReply: Received invalid UAID", reply.uaid);
this._shutdownWS();
return;
}
if (reply.uaid === "") {
lazy.console.error("handleHelloReply: Received empty UAID");
this._shutdownWS();
return;
}
// To avoid sticking extra large values sent by an evil server into prefs.
if (reply.uaid.length > 128) {
lazy.console.error(
"handleHelloReply: UAID received from server was too long",
reply.uaid
);
this._shutdownWS();
return;
}
let sendRequests = () => {
if (this._notifyRequestQueue) {
this._notifyRequestQueue();
this._notifyRequestQueue = null;
}
this._sendPendingRequests();
};
function finishHandshake() {
this._UAID = reply.uaid;
this._currentState = STATE_READY;
prefs.addObserver("userAgentID", this);
// Handle broadcasts received in response to the "hello" message.
if (!lazy.ObjectUtils.isEmpty(reply.broadcasts)) {
// The reply isn't technically a broadcast message, but it has
// the shape of a broadcast message (it has a broadcasts field).
const context = { phase: lazy.pushBroadcastService.PHASES.HELLO };
this._mainPushService.receivedBroadcastMessage(reply, context);
}
this._dataEnabled = !!reply.use_webpush;
if (this._dataEnabled) {
this._mainPushService
.getAllUnexpired()
.then(records =>
Promise.all(
records.map(record =>
this._mainPushService.ensureCrypto(record).catch(error => {
lazy.console.error(
"finishHandshake: Error updating record",
record.keyID,
error
);
})
)
)
)
.then(sendRequests);
} else {
sendRequests();
}
}
// By this point we've got a UAID from the server that we are ready to
// accept.
//
// We unconditionally drop all existing registrations and notify service
// workers if we receive a new UAID. This ensures we expunge all stale
// registrations if the `userAgentID` pref is reset.
if (this._UAID != reply.uaid) {
lazy.console.debug("handleHelloReply: Received new UAID");
this._mainPushService
.dropUnexpiredRegistrations()
.then(finishHandshake.bind(this));
return;
}
// otherwise we are good to go
finishHandshake.bind(this)();
},
/**
* Protocol handler invoked by server message.
*/
_handleRegisterReply(reply) {
lazy.console.debug("handleRegisterReply()");
let tmp = this._takeRequestForReply(reply);
if (!tmp) {
return;
}
if (reply.status == 200) {
try {
Services.io.newURI(reply.pushEndpoint);
} catch (e) {
tmp.reject(new Error("Invalid push endpoint: " + reply.pushEndpoint));
return;
}
let record = new PushRecordWebSocket({
channelID: reply.channelID,
pushEndpoint: reply.pushEndpoint,
scope: tmp.record.scope,
originAttributes: tmp.record.originAttributes,
version: null,
systemRecord: tmp.record.systemRecord,
appServerKey: tmp.record.appServerKey,
ctime: Date.now(),
});
tmp.resolve(record);
} else {
lazy.console.error(
"handleRegisterReply: Unexpected server response",
reply
);
tmp.reject(
new Error("Wrong status code for register reply: " + reply.status)
);
}
},
_handleUnregisterReply(reply) {
lazy.console.debug("handleUnregisterReply()");
let request = this._takeRequestForReply(reply);
if (!request) {
return;
}
let success = reply.status === 200;
request.resolve(success);
},
_handleDataUpdate(update) {
let promise;
if (typeof update.channelID != "string") {
lazy.console.warn(
"handleDataUpdate: Discarding update without channel ID",
update
);
return;
}
function updateRecord(record) {
// Ignore messages that we've already processed. This can happen if the
// connection drops between notifying the service worker and acking the
// the message. In that case, the server will re-send the message on
// reconnect.
if (record.hasRecentMessageID(update.version)) {
lazy.console.warn(
"handleDataUpdate: Ignoring duplicate message",
update.version
);
return null;
}
record.noteRecentMessageID(update.version);
return record;
}
if (typeof update.data != "string") {
promise = this._mainPushService.receivedPushMessage(
update.channelID,
update.version,
null,
null,
updateRecord
);
} else {
let message = ChromeUtils.base64URLDecode(update.data, {
// The Push server may append padding.
padding: "ignore",
});
promise = this._mainPushService.receivedPushMessage(
update.channelID,
update.version,
update.headers,
message,
updateRecord
);
}
promise
.then(
status => {
this._sendAck(update.channelID, update.version, status);
},
err => {
lazy.console.error(
"handleDataUpdate: Error delivering message",
update,
err
);
this._sendAck(
update.channelID,
update.version,
Ci.nsIPushErrorReporter.ACK_DECRYPTION_ERROR
);
}
)
.catch(err => {
lazy.console.error(
"handleDataUpdate: Error acknowledging message",
update,
err
);
});
},
/**
* Protocol handler invoked by server message.
*/
_handleNotificationReply(reply) {
lazy.console.debug("handleNotificationReply()");
if (this._dataEnabled) {
this._handleDataUpdate(reply);
return;
}
if (typeof reply.updates !== "object") {
lazy.console.warn(
"handleNotificationReply: Missing updates",
reply.updates
);
return;
}
lazy.console.debug("handleNotificationReply: Got updates", reply.updates);
for (let i = 0; i < reply.updates.length; i++) {
let update = reply.updates[i];
lazy.console.debug("handleNotificationReply: Handling update", update);
if (typeof update.channelID !== "string") {
lazy.console.debug(
"handleNotificationReply: Invalid update at index",
i,
update
);
continue;
}
if (update.version === undefined) {
lazy.console.debug("handleNotificationReply: Missing version", update);
continue;
}
let version = update.version;
if (typeof version === "string") {
version = parseInt(version, 10);
}
if (typeof version === "number" && version >= 0) {
// FIXME(nsm): this relies on app update notification being infallible!
// eventually fix this
this._receivedUpdate(update.channelID, version);
}
}
},
_handleBroadcastReply(reply) {
let phase = lazy.pushBroadcastService.PHASES.BROADCAST;
// Check if this reply is the result of registration.
for (const id of Object.keys(reply.broadcasts)) {
const wasRegistering = this._currentlyRegistering.delete(id);
if (wasRegistering) {
// If we get multiple broadcasts and only one is "registering",
// then we consider the phase to be REGISTER for all of them.
// It is acceptable since registrations do not happen so often,
// and are all very likely to occur soon after browser startup.
phase = lazy.pushBroadcastService.PHASES.REGISTER;
}
}
const context = { phase };
this._mainPushService.receivedBroadcastMessage(reply, context);
},
reportDeliveryError(messageID, reason) {
lazy.console.debug("reportDeliveryError()");
let code = kDELIVERY_REASON_TO_CODE[reason];
if (!code) {
throw new Error("Invalid delivery error reason");
}
let data = { messageType: "nack", version: messageID, code };
this._queueRequest(data);
},
_sendAck(channelID, version, status) {
lazy.console.debug("sendAck()");
let code = kACK_STATUS_TO_CODE[status];
if (!code) {
throw new Error("Invalid ack status");
}
let data = { messageType: "ack", updates: [{ channelID, version, code }] };
this._queueRequest(data);
},
_generateID() {
// generateUUID() gives a UUID surrounded by {...}, slice them off.
return Services.uuid.generateUUID().toString().slice(1, -1);
},
register(record) {
lazy.console.debug("register() ", record);
let data = { channelID: this._generateID(), messageType: "register" };
if (record.appServerKey) {
data.key = ChromeUtils.base64URLEncode(record.appServerKey, {
// The Push server requires padding.
pad: true,
});
}
return this._sendRequestForReply(record, data).then(record => {
if (!this._dataEnabled) {
return record;
}
return PushCrypto.generateKeys().then(([publicKey, privateKey]) => {
record.p256dhPublicKey = publicKey;
record.p256dhPrivateKey = privateKey;
record.authenticationSecret = PushCrypto.generateAuthenticationSecret();
return record;
});
});
},
unregister(record, reason) {
lazy.console.debug("unregister() ", record, reason);
return Promise.resolve().then(_ => {
let code = kUNREGISTER_REASON_TO_CODE[reason];
if (!code) {
throw new Error("Invalid unregister reason");
}
let data = {
channelID: record.channelID,
messageType: "unregister",
code,
};
return this._sendRequestForReply(record, data);
});
},
_queueStart: Promise.resolve(),
_notifyRequestQueue: null,
_queue: null,
_enqueue(op) {
lazy.console.debug("enqueue()");
if (!this._queue) {
this._queue = this._queueStart;
}
this._queue = this._queue.then(op).catch(_ => {});
},
/** Sends a request to the server. */
_send(data) {
if (this._currentState != STATE_READY) {
lazy.console.warn(
"send: Unexpected state; ignoring message",
this._currentState
);
return;
}
if (!this._requestHasReply(data)) {
this._wsSendMessage(data);
return;
}
// If we're expecting a reply, check that we haven't cancelled the request.
let key = this._makePendingRequestKey(data);
if (!this._pendingRequests.has(key)) {
lazy.console.log("send: Request cancelled; ignoring message", key);
return;
}
this._wsSendMessage(data);
},
/** Indicates whether a request has a corresponding reply from the server. */
_requestHasReply(data) {
return data.messageType == "register" || data.messageType == "unregister";
},
/**
* Sends all pending requests that expect replies. Called after the connection
* is established and the handshake is complete.
*/
_sendPendingRequests() {
this._enqueue(_ => {
for (let request of this._pendingRequests.values()) {
this._send(request.data);
}
});
},
/** Queues an outgoing request, establishing a connection if necessary. */
_queueRequest(data) {
lazy.console.debug("queueRequest()", data);
if (this._currentState == STATE_READY) {
// If we're ready, no need to queue; just send the request.
this._send(data);
return;
}
// Otherwise, we're still setting up. If we don't have a request queue,
// make one now.
if (!this._notifyRequestQueue) {
let promise = new Promise((resolve, reject) => {
this._notifyRequestQueue = resolve;
});
this._enqueue(_ => promise);
}
let isRequest = this._requestHasReply(data);
if (!isRequest) {
// Don't queue requests, since they're stored in `_pendingRequests`, and
// `_sendPendingRequests` will send them after reconnecting. Without this
// check, we'd send requests twice.
this._enqueue(_ => this._send(data));
}
if (!this._ws) {
// This will end up calling notifyRequestQueue().
this._beginWSSetup();
// If beginWSSetup does not succeed to make ws, notifyRequestQueue will
// not be call.
if (!this._ws && this._notifyRequestQueue) {
this._notifyRequestQueue();
this._notifyRequestQueue = null;
}
}
},
_receivedUpdate(aChannelID, aLatestVersion) {
lazy.console.debug(
"receivedUpdate: Updating",
aChannelID,
"->",
aLatestVersion
);
this._mainPushService
.receivedPushMessage(aChannelID, "", null, null, record => {
if (record.version === null || record.version < aLatestVersion) {
lazy.console.debug(
"receivedUpdate: Version changed for",
aChannelID,
aLatestVersion
);
record.version = aLatestVersion;
return record;
}
lazy.console.debug(
"receivedUpdate: No significant version change for",
aChannelID,
aLatestVersion
);
return null;
})
.then(status => {
this._sendAck(aChannelID, aLatestVersion, status);
})
.catch(err => {
lazy.console.error(
"receivedUpdate: Error acknowledging message",
aChannelID,
aLatestVersion,
err
);
});
},
// begin Push protocol handshake
_wsOnStart(context) {
lazy.console.debug("wsOnStart()");
if (this._currentState != STATE_WAITING_FOR_WS_START) {
lazy.console.error(
"wsOnStart: NOT in STATE_WAITING_FOR_WS_START. Current",
"state",
this._currentState,
"Skipping"
);
return;
}
this._mainPushService
.getAllUnexpired()
.then(
records => this._sendHello(records),
err => {
lazy.console.warn(
"Error fetching existing records before handshake; assuming none",
err
);
this._sendHello([]);
}
)
.catch(err => {
// If we failed to send the handshake, back off and reconnect.
lazy.console.warn("Failed to send handshake; reconnecting", err);
this._reconnect();
});
},
/**
* Sends a `hello` handshake to the server.
*
* @param {Array<PushRecordWebSocket>} An array of records for existing
* subscriptions, used to determine whether to rotate our UAID.
*/
_sendHello(records) {
let data = {
messageType: "hello",
broadcasts: this._broadcastListeners,
use_webpush: true,
};
if (records.length && this._UAID) {
// Only send our UAID if we have existing push subscriptions, to
// avoid tying a persistent identifier to the connection (bug
// 1617136). The push server will issue our client a new UAID in
// the `hello` response, which we'll store until either the next
// time we reconnect, or the user subscribes to push. Once we have a
// push subscription, we'll stop rotating the UAID when we connect,
// so that we can receive push messages for them.
data.uaid = this._UAID;
}
this._wsSendMessage(data);
this._currentState = STATE_WAITING_FOR_HELLO;
},
/**
* This statusCode is not the websocket protocol status code, but the TCP
* connection close status code.
*
* If we do not explicitly call ws.close() then statusCode is always
* NS_BASE_STREAM_CLOSED, even on a successful close.
*/
_wsOnStop(context, statusCode) {
lazy.console.debug("wsOnStop()");
if (statusCode != Cr.NS_OK && !this._skipReconnect) {
lazy.console.debug(
"wsOnStop: Reconnecting after socket error",
statusCode
);
this._reconnect();
return;
}
this._shutdownWS();
},
_wsOnMessageAvailable(context, message) {
lazy.console.debug("wsOnMessageAvailable()", message);
// Clearing the last ping time indicates we're no longer waiting for a pong.
this._lastPingTime = 0;
let reply;
try {
reply = JSON.parse(message);
} catch (e) {
lazy.console.warn("wsOnMessageAvailable: Invalid JSON", message, e);
return;
}
// If we receive a message, we know the connection succeeded. Reset the
// connection attempt and ping interval counters.
this._retryFailCount = 0;
let doNotHandle = false;
if (
message === "{}" ||
reply.messageType === undefined ||
reply.messageType === "ping" ||
typeof reply.messageType != "string"
) {
lazy.console.debug("wsOnMessageAvailable: Pong received");
doNotHandle = true;
}
// Reset the ping timer. Note: This path is executed at every step of the
// handshake, so this timer does not need to be set explicitly at startup.
this._startPingTimer();
// If it is a ping, do not handle the message.
if (doNotHandle) {
if (!this._hasPendingRequests()) {
this._requestTimeoutTimer.cancel();
}
return;
}
// An allowlist of protocol handlers. Add to these if new messages are added
// in the protocol.
let handlers = [
"Hello",
"Register",
"Unregister",
"Notification",
"Broadcast",
];
// Build up the handler name to call from messageType.
// e.g. messageType == "register" -> _handleRegisterReply.
let handlerName =
reply.messageType[0].toUpperCase() +
reply.messageType.slice(1).toLowerCase();
if (!handlers.includes(handlerName)) {
lazy.console.warn(
"wsOnMessageAvailable: No allowlisted handler",
handlerName,
"for message",
reply.messageType
);
return;
}
let handler = "_handle" + handlerName + "Reply";
if (typeof this[handler] !== "function") {
lazy.console.warn(
"wsOnMessageAvailable: Handler",
handler,
"allowlisted but not implemented"
);
return;
}
this[handler](reply);
},
/**
* The websocket should never be closed. Since we don't call ws.close(),
* _wsOnStop() receives error code NS_BASE_STREAM_CLOSED (see comment in that
* function), which calls reconnect and re-establishes the WebSocket
* connection.
*
* If the server requested that we back off, we won't reconnect until the
* next network state change event, or until we need to send a new register
* request.
*/
_wsOnServerClose(context, aStatusCode, aReason) {
lazy.console.debug("wsOnServerClose()", aStatusCode, aReason);
if (aStatusCode == kBACKOFF_WS_STATUS_CODE) {
lazy.console.debug("wsOnServerClose: Skipping automatic reconnect");
this._skipReconnect = true;
}
},
/**
* Rejects all pending register requests with errors.
*/
_cancelPendingRequests() {
for (let request of this._pendingRequests.values()) {
request.reject(new Error("Request aborted"));
}
this._pendingRequests.clear();
},
/** Creates a case-insensitive map key for a request that expects a reply. */
_makePendingRequestKey(data) {
return (data.messageType + "|" + data.channelID).toLowerCase();
},
/** Sends a request and waits for a reply from the server. */
_sendRequestForReply(record, data) {
return Promise.resolve().then(_ => {
// start the timer since we now have at least one request
this._startRequestTimeoutTimer();
let key = this._makePendingRequestKey(data);
if (!this._pendingRequests.has(key)) {
let request = {
data,
record,
ctime: Date.now(),
};
request.promise = new Promise((resolve, reject) => {
request.resolve = resolve;
request.reject = reject;
});
this._pendingRequests.set(key, request);
this._queueRequest(data);
}
return this._pendingRequests.get(key).promise;
});
},
/** Removes and returns a pending request for a server reply. */
_takeRequestForReply(reply) {
if (typeof reply.channelID !== "string") {
return null;
}
let key = this._makePendingRequestKey(reply);
let request = this._pendingRequests.get(key);
if (!request) {
return null;
}
this._pendingRequests.delete(key);
if (!this._hasPendingRequests()) {
this._requestTimeoutTimer.cancel();
}
return request;
},
sendSubscribeBroadcast(serviceId, version) {
this._currentlyRegistering.add(serviceId);
let data = {
messageType: "broadcast_subscribe",
broadcasts: {
[serviceId]: version,
},
};
this._queueRequest(data);
},
};
function PushRecordWebSocket(record) {
PushRecord.call(this, record);
this.channelID = record.channelID;
this.version = record.version;
}
PushRecordWebSocket.prototype = Object.create(PushRecord.prototype, {
keyID: {
get() {
return this.channelID;
},
},
});
PushRecordWebSocket.prototype.toSubscription = function () {
let subscription = PushRecord.prototype.toSubscription.call(this);
subscription.version = this.version;
return subscription;
};
|