gecko-dev/dom/push/PushService.jsm

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JavaScript
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/* jshint moz: true, esnext: true */
/* 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";
ChromeUtils.import("resource://gre/modules/AppConstants.jsm");
ChromeUtils.import("resource://gre/modules/Preferences.jsm");
ChromeUtils.import("resource://gre/modules/Services.jsm");
ChromeUtils.import("resource://gre/modules/Timer.jsm");
ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm");
const {
PushCrypto,
getCryptoParams,
CryptoError,
} = ChromeUtils.import("resource://gre/modules/PushCrypto.jsm");
const {PushDB} = ChromeUtils.import("resource://gre/modules/PushDB.jsm");
const CONNECTION_PROTOCOLS = (function() {
if ('android' != AppConstants.MOZ_WIDGET_TOOLKIT) {
const {PushServiceWebSocket} = ChromeUtils.import("resource://gre/modules/PushServiceWebSocket.jsm");
const {PushServiceHttp2} = ChromeUtils.import("resource://gre/modules/PushServiceHttp2.jsm");
return [PushServiceWebSocket, PushServiceHttp2];
} else {
const {PushServiceAndroidGCM} = ChromeUtils.import("resource://gre/modules/PushServiceAndroidGCM.jsm");
return [PushServiceAndroidGCM];
}
})();
XPCOMUtils.defineLazyServiceGetter(this, "gPushNotifier",
"@mozilla.org/push/Notifier;1",
"nsIPushNotifier");
XPCOMUtils.defineLazyServiceGetter(this, "eTLDService",
"@mozilla.org/network/effective-tld-service;1",
"nsIEffectiveTLDService");
ChromeUtils.defineModuleGetter(this, "pushBroadcastService", "resource://gre/modules/PushBroadcastService.jsm");
var EXPORTED_SYMBOLS = ["PushService"];
XPCOMUtils.defineLazyGetter(this, "console", () => {
let {ConsoleAPI} = ChromeUtils.import("resource://gre/modules/Console.jsm", {});
return new ConsoleAPI({
maxLogLevelPref: "dom.push.loglevel",
prefix: "PushService",
});
});
const prefs = new Preferences("dom.push.");
const PUSH_SERVICE_UNINIT = 0;
const PUSH_SERVICE_INIT = 1; // No serverURI
const PUSH_SERVICE_ACTIVATING = 2;//activating db
const PUSH_SERVICE_CONNECTION_DISABLE = 3;
const PUSH_SERVICE_ACTIVE_OFFLINE = 4;
const PUSH_SERVICE_RUNNING = 5;
/**
* State is change only in couple of functions:
* init - change state to PUSH_SERVICE_INIT if state was PUSH_SERVICE_UNINIT
* changeServerURL - change state to PUSH_SERVICE_ACTIVATING if serverURL
* present or PUSH_SERVICE_INIT if not present.
* changeStateConnectionEnabledEvent - it is call on pref change or during
* the service activation and it can
* change state to
* PUSH_SERVICE_CONNECTION_DISABLE
* changeStateOfflineEvent - it is called when offline state changes or during
* the service activation and it change state to
* PUSH_SERVICE_ACTIVE_OFFLINE or
* PUSH_SERVICE_RUNNING.
* uninit - change state to PUSH_SERVICE_UNINIT.
**/
// This is for starting and stopping service.
const STARTING_SERVICE_EVENT = 0;
const CHANGING_SERVICE_EVENT = 1;
const STOPPING_SERVICE_EVENT = 2;
const UNINIT_EVENT = 3;
/**
* Annotates an error with an XPCOM result code. We use this helper
* instead of `Components.Exception` because the latter can assert in
* `nsXPCComponents_Exception::HasInstance` when inspected at shutdown.
*/
function errorWithResult(message, result = Cr.NS_ERROR_FAILURE) {
let error = new Error(message);
error.result = result;
return error;
}
/**
* The implementation of the push system. It uses WebSockets
* (PushServiceWebSocket) to communicate with the server and PushDB (IndexedDB)
* for persistence.
*/
var PushService = {
_service: null,
_state: PUSH_SERVICE_UNINIT,
_db: null,
_options: null,
_visibleNotifications: new Map(),
// Callback that is called after attempting to
// reduce the quota for a record. Used for testing purposes.
_updateQuotaTestCallback: null,
// Set of timeout ID of tasks to reduce quota.
_updateQuotaTimeouts: new Set(),
// When serverURI changes (this is used for testing), db is cleaned up and a
// a new db is started. This events must be sequential.
_stateChangeProcessQueue: null,
_stateChangeProcessEnqueue: function(op) {
if (!this._stateChangeProcessQueue) {
this._stateChangeProcessQueue = Promise.resolve();
}
this._stateChangeProcessQueue = this._stateChangeProcessQueue
.then(op)
.catch(error => {
console.error(
"stateChangeProcessEnqueue: Error transitioning state", error);
return this._shutdownService();
})
.catch(error => {
console.error(
"stateChangeProcessEnqueue: Error shutting down service", error);
});
return this._stateChangeProcessQueue;
},
// Pending request. If a worker try to register for the same scope again, do
// not send a new registration request. Therefore we need queue of pending
// register requests. This is the list of scopes which pending registration.
_pendingRegisterRequest: {},
_notifyActivated: null,
_activated: null,
_checkActivated: function() {
if (this._state < PUSH_SERVICE_ACTIVATING) {
return Promise.reject(new Error("Push service not active"));
} else if (this._state > PUSH_SERVICE_ACTIVATING) {
return Promise.resolve();
} else {
return (this._activated) ? this._activated :
this._activated = new Promise((res, rej) =>
this._notifyActivated = {resolve: res,
reject: rej});
}
},
_makePendingKey: function(aPageRecord) {
return aPageRecord.scope + "|" + aPageRecord.originAttributes;
},
_lookupOrPutPendingRequest: function(aPageRecord) {
let key = this._makePendingKey(aPageRecord);
if (this._pendingRegisterRequest[key]) {
return this._pendingRegisterRequest[key];
}
return this._pendingRegisterRequest[key] = this._registerWithServer(aPageRecord);
},
_deletePendingRequest: function(aPageRecord) {
let key = this._makePendingKey(aPageRecord);
if (this._pendingRegisterRequest[key]) {
delete this._pendingRegisterRequest[key];
}
},
_setState: function(aNewState) {
console.debug("setState()", "new state", aNewState, "old state", this._state);
if (this._state == aNewState) {
return;
}
if (this._state == PUSH_SERVICE_ACTIVATING) {
// It is not important what is the new state as soon as we leave
// PUSH_SERVICE_ACTIVATING
if (this._notifyActivated) {
if (aNewState < PUSH_SERVICE_ACTIVATING) {
this._notifyActivated.reject(new Error("Push service not active"));
} else {
this._notifyActivated.resolve();
}
}
this._notifyActivated = null;
this._activated = null;
}
this._state = aNewState;
},
async _changeStateOfflineEvent(offline, calledFromConnEnabledEvent) {
console.debug("changeStateOfflineEvent()", offline);
if (this._state < PUSH_SERVICE_ACTIVE_OFFLINE &&
this._state != PUSH_SERVICE_ACTIVATING &&
!calledFromConnEnabledEvent) {
return;
}
if (offline) {
if (this._state == PUSH_SERVICE_RUNNING) {
this._service.disconnect();
}
this._setState(PUSH_SERVICE_ACTIVE_OFFLINE);
return;
}
if (this._state == PUSH_SERVICE_RUNNING) {
// PushService was not in the offline state, but got notification to
// go online (a offline notification has not been sent).
// Disconnect first.
this._service.disconnect();
}
let records = await this.getAllUnexpired();
let broadcastListeners = await pushBroadcastService.getListeners();
// In principle, a listener could be added to the
// pushBroadcastService here, after we have gotten listeners and
// before we're RUNNING, but this can't happen in practice because
// the only caller that can add listeners is PushBroadcastService,
// and it waits on the same promise we are before it can add
// listeners. If PushBroadcastService gets woken first, it will
// update the value that is eventually returned from
// getListeners.
this._setState(PUSH_SERVICE_RUNNING);
if (records.length > 0 || prefs.get("alwaysConnect")) {
// Connect if we have existing subscriptions, or if the always-on pref
// is set. We gate on the pref to let us do load testing before
// turning it on for everyone, but if the user has push
// subscriptions, we need to connect them anyhow.
this._service.connect(records, broadcastListeners);
}
},
_changeStateConnectionEnabledEvent: function(enabled) {
console.debug("changeStateConnectionEnabledEvent()", enabled);
if (this._state < PUSH_SERVICE_CONNECTION_DISABLE &&
this._state != PUSH_SERVICE_ACTIVATING) {
return Promise.resolve();
}
if (enabled) {
return this._changeStateOfflineEvent(Services.io.offline, true);
}
if (this._state == PUSH_SERVICE_RUNNING) {
this._service.disconnect();
}
this._setState(PUSH_SERVICE_CONNECTION_DISABLE);
return Promise.resolve();
},
// Used for testing.
changeTestServer(url, options = {}) {
console.debug("changeTestServer()");
return this._stateChangeProcessEnqueue(_ => {
if (this._state < PUSH_SERVICE_ACTIVATING) {
console.debug("changeTestServer: PushService not activated?");
return Promise.resolve();
}
return this._changeServerURL(url, CHANGING_SERVICE_EVENT, options);
});
},
observe: function observe(aSubject, aTopic, aData) {
switch (aTopic) {
/*
* We need to call uninit() on shutdown to clean up things that modules
* aren't very good at automatically cleaning up, so we don't get shutdown
* leaks on browser shutdown.
*/
case "quit-application":
this.uninit();
break;
case "network:offline-status-changed":
this._stateChangeProcessEnqueue(_ =>
this._changeStateOfflineEvent(aData === "offline", false)
);
break;
case "nsPref:changed":
if (aData == "dom.push.serverURL") {
console.debug("observe: dom.push.serverURL changed for websocket",
prefs.get("serverURL"));
this._stateChangeProcessEnqueue(_ =>
this._changeServerURL(prefs.get("serverURL"),
CHANGING_SERVICE_EVENT)
);
} else if (aData == "dom.push.connection.enabled" || aData == "dom.push.alwaysConnect") {
this._stateChangeProcessEnqueue(_ =>
this._changeStateConnectionEnabledEvent(prefs.get("connection.enabled"))
);
}
break;
case "idle-daily":
this._dropExpiredRegistrations().catch(error => {
console.error("Failed to drop expired registrations on idle", error);
});
break;
case "perm-changed":
this._onPermissionChange(aSubject, aData).catch(error => {
console.error("onPermissionChange: Error updating registrations:",
error);
})
break;
case "clear-origin-attributes-data":
this._clearOriginData(aData).catch(error => {
console.error("clearOriginData: Error clearing origin data:", error);
});
break;
}
},
_clearOriginData: function(data) {
console.log("clearOriginData()");
if (!data) {
return Promise.resolve();
}
let pattern = JSON.parse(data);
return this._dropRegistrationsIf(record =>
record.matchesOriginAttributes(pattern));
},
/**
* Sends an unregister request to the server in the background. If the
* service is not connected, this function is a no-op.
*
* @param {PushRecord} record The record to unregister.
* @param {Number} reason An `nsIPushErrorReporter` unsubscribe reason,
* indicating why this record was removed.
*/
_backgroundUnregister(record, reason) {
console.debug("backgroundUnregister()");
if (!this._service.isConnected() || !record) {
return;
}
console.debug("backgroundUnregister: Notifying server", record);
this._sendUnregister(record, reason).then(() => {
gPushNotifier.notifySubscriptionModified(record.scope, record.principal);
}).catch(e => {
console.error("backgroundUnregister: Error notifying server", e);
});
},
_findService: function(serverURL) {
console.debug("findService()");
let uri;
let service;
if (!serverURL) {
console.warn("findService: No dom.push.serverURL found");
return [];
}
try {
uri = Services.io.newURI(serverURL);
} catch (e) {
console.warn("findService: Error creating valid URI from",
"dom.push.serverURL", serverURL);
return [];
}
for (let connProtocol of CONNECTION_PROTOCOLS) {
if (connProtocol.validServerURI(uri)) {
service = connProtocol;
break;
}
}
return [service, uri];
},
_changeServerURL: function(serverURI, event, options = {}) {
console.debug("changeServerURL()");
switch(event) {
case UNINIT_EVENT:
return this._stopService(event);
case STARTING_SERVICE_EVENT:
{
let [service, uri] = this._findService(serverURI);
if (!service) {
this._setState(PUSH_SERVICE_INIT);
return Promise.resolve();
}
return this._startService(service, uri, options)
.then(_ => this._changeStateConnectionEnabledEvent(prefs.get("connection.enabled"))
);
}
case CHANGING_SERVICE_EVENT:
let [service, uri] = this._findService(serverURI);
if (service) {
if (this._state == PUSH_SERVICE_INIT) {
this._setState(PUSH_SERVICE_ACTIVATING);
// The service has not been running - start it.
return this._startService(service, uri, options)
.then(_ => this._changeStateConnectionEnabledEvent(prefs.get("connection.enabled"))
);
} else {
this._setState(PUSH_SERVICE_ACTIVATING);
// If we already had running service - stop service, start the new
// one and check connection.enabled and offline state(offline state
// check is called in changeStateConnectionEnabledEvent function)
return this._stopService(CHANGING_SERVICE_EVENT)
.then(_ =>
this._startService(service, uri, options)
)
.then(_ => this._changeStateConnectionEnabledEvent(prefs.get("connection.enabled"))
);
}
} else {
if (this._state == PUSH_SERVICE_INIT) {
return Promise.resolve();
} else {
// The new serverUri is empty or misconfigured - stop service.
this._setState(PUSH_SERVICE_INIT);
return this._stopService(STOPPING_SERVICE_EVENT);
}
}
default:
console.error("Unexpected event in _changeServerURL", event);
return Promise.reject(new Error(`Unexpected event ${event}`));
}
},
/**
* PushService initialization is divided into 4 parts:
* init() - start listening for quit-application and serverURL changes.
* state is change to PUSH_SERVICE_INIT
* startService() - if serverURL is present this function is called. It starts
* listening for broadcasted messages, starts db and
* PushService connection (WebSocket).
* state is change to PUSH_SERVICE_ACTIVATING.
* startObservers() - start other observers.
* changeStateConnectionEnabledEvent - checks prefs and offline state.
* It changes state to:
* PUSH_SERVICE_RUNNING,
* PUSH_SERVICE_ACTIVE_OFFLINE or
* PUSH_SERVICE_CONNECTION_DISABLE.
*/
init: function(options = {}) {
console.debug("init()");
if (this._state > PUSH_SERVICE_UNINIT) {
return;
}
this._setState(PUSH_SERVICE_ACTIVATING);
prefs.observe("serverURL", this);
Services.obs.addObserver(this, "quit-application");
if (options.serverURI) {
// this is use for xpcshell test.
return this._stateChangeProcessEnqueue(_ =>
this._changeServerURL(options.serverURI, STARTING_SERVICE_EVENT, options));
} else {
// This is only used for testing. Different tests require connecting to
// slightly different URLs.
return this._stateChangeProcessEnqueue(_ =>
this._changeServerURL(prefs.get("serverURL"), STARTING_SERVICE_EVENT));
}
},
_startObservers: function() {
console.debug("startObservers()");
if (this._state != PUSH_SERVICE_ACTIVATING) {
return;
}
Services.obs.addObserver(this, "clear-origin-attributes-data");
// The offline-status-changed event is used to know
// when to (dis)connect. It may not fire if the underlying OS changes
// networks; in such a case we rely on timeout.
Services.obs.addObserver(this, "network:offline-status-changed");
// Used to monitor if the user wishes to disable Push.
prefs.observe("connection.enabled", this);
// Used to load-test the server-side infrastructure for broadcast.
prefs.observe("alwaysConnect", this);
// Prunes expired registrations and notifies dormant service workers.
Services.obs.addObserver(this, "idle-daily");
// Prunes registrations for sites for which the user revokes push
// permissions.
Services.obs.addObserver(this, "perm-changed");
},
_startService(service, serverURI, options) {
console.debug("startService()");
if (this._state != PUSH_SERVICE_ACTIVATING) {
return Promise.reject();
}
this._service = service;
this._db = options.db;
if (!this._db) {
this._db = this._service.newPushDB();
}
return this._service.init(options, this, serverURI)
.then(() => {
this._startObservers();
return this._dropExpiredRegistrations();
});
},
/**
* PushService uninitialization is divided into 3 parts:
* stopObservers() - stot observers started in startObservers.
* stopService() - It stops listening for broadcasted messages, stops db and
* PushService connection (WebSocket).
* state is changed to PUSH_SERVICE_INIT.
* uninit() - stop listening for quit-application and serverURL changes.
* state is change to PUSH_SERVICE_UNINIT
*/
_stopService: function(event) {
console.debug("stopService()");
if (this._state < PUSH_SERVICE_ACTIVATING) {
return Promise.resolve();
}
this._stopObservers();
this._service.disconnect();
this._service.uninit();
this._service = null;
this._updateQuotaTimeouts.forEach((timeoutID) => clearTimeout(timeoutID));
this._updateQuotaTimeouts.clear();
if (!this._db) {
return Promise.resolve();
}
if (event == UNINIT_EVENT) {
// If it is uninitialized just close db.
this._db.close();
this._db = null;
return Promise.resolve();
}
return this.dropUnexpiredRegistrations()
.then(_ => {
this._db.close();
this._db = null;
}, err => {
this._db.close();
this._db = null;
});
},
_stopObservers: function() {
console.debug("stopObservers()");
if (this._state < PUSH_SERVICE_ACTIVATING) {
return;
}
prefs.ignore("connection.enabled", this);
prefs.ignore("alwaysConnect", this);
Services.obs.removeObserver(this, "network:offline-status-changed");
Services.obs.removeObserver(this, "clear-origin-attributes-data");
Services.obs.removeObserver(this, "idle-daily");
Services.obs.removeObserver(this, "perm-changed");
},
_shutdownService() {
let promiseChangeURL = this._changeServerURL("", UNINIT_EVENT);
this._setState(PUSH_SERVICE_UNINIT);
console.debug("shutdownService: shutdown complete!");
return promiseChangeURL;
},
uninit: function() {
console.debug("uninit()");
if (this._state == PUSH_SERVICE_UNINIT) {
return;
}
prefs.ignore("serverURL", this);
Services.obs.removeObserver(this, "quit-application");
this._stateChangeProcessEnqueue(_ => this._shutdownService());
},
/**
* Drops all active registrations and notifies the associated service
* workers. This function is called when the user switches Push servers,
* or when the server invalidates all existing registrations.
*
* We ignore expired registrations because they're already handled in other
* code paths. Registrations that expired after exceeding their quotas are
* evicted at startup, or on the next `idle-daily` event. Registrations that
* expired because the user revoked the notification permission are evicted
* once the permission is reinstated.
*/
dropUnexpiredRegistrations: function() {
return this._db.clearIf(record => {
if (record.isExpired()) {
return false;
}
this._notifySubscriptionChangeObservers(record);
return true;
});
},
_notifySubscriptionChangeObservers: function(record) {
if (!record) {
return;
}
gPushNotifier.notifySubscriptionChange(record.scope, record.principal);
},
/**
* Drops a registration and notifies the associated service worker. If the
* registration does not exist, this function is a no-op.
*
* @param {String} keyID The registration ID to remove.
* @returns {Promise} Resolves once the worker has been notified.
*/
dropRegistrationAndNotifyApp: function(aKeyID) {
return this._db.delete(aKeyID)
.then(record => this._notifySubscriptionChangeObservers(record));
},
/**
* Replaces an existing registration and notifies the associated service
* worker.
*
* @param {String} aOldKey The registration ID to replace.
* @param {PushRecord} aNewRecord The new record.
* @returns {Promise} Resolves once the worker has been notified.
*/
updateRegistrationAndNotifyApp: function(aOldKey, aNewRecord) {
return this.updateRecordAndNotifyApp(aOldKey, _ => aNewRecord);
},
/**
* Updates a registration and notifies the associated service worker.
*
* @param {String} keyID The registration ID to update.
* @param {Function} updateFunc Returns the updated record.
* @returns {Promise} Resolves with the updated record once the worker
* has been notified.
*/
updateRecordAndNotifyApp: function(aKeyID, aUpdateFunc) {
return this._db.update(aKeyID, aUpdateFunc)
.then(record => {
this._notifySubscriptionChangeObservers(record);
return record;
});
},
ensureCrypto: function(record) {
if (record.hasAuthenticationSecret() &&
record.p256dhPublicKey &&
record.p256dhPrivateKey) {
return Promise.resolve(record);
}
let keygen = Promise.resolve([]);
if (!record.p256dhPublicKey || !record.p256dhPrivateKey) {
keygen = PushCrypto.generateKeys();
}
// We do not have a encryption key. so we need to generate it. This
// is only going to happen on db upgrade from version 4 to higher.
return keygen
.then(([pubKey, privKey]) => {
return this.updateRecordAndNotifyApp(record.keyID, record => {
if (!record.p256dhPublicKey || !record.p256dhPrivateKey) {
record.p256dhPublicKey = pubKey;
record.p256dhPrivateKey = privKey;
}
if (!record.hasAuthenticationSecret()) {
record.authenticationSecret = PushCrypto.generateAuthenticationSecret();
}
return record;
});
}, error => {
return this.dropRegistrationAndNotifyApp(record.keyID).then(
() => Promise.reject(error));
});
},
/**
* Dispatches an incoming message to a service worker, recalculating the
* quota for the associated push registration. If the quota is exceeded,
* the registration and message will be dropped, and the worker will not
* be notified.
*
* @param {String} keyID The push registration ID.
* @param {String} messageID The message ID, used to report service worker
* delivery failures. For Web Push messages, this is the version. If empty,
* failures will not be reported.
* @param {Object} headers The encryption headers.
* @param {ArrayBuffer|Uint8Array} data The encrypted message data.
* @param {Function} updateFunc A function that receives the existing
* registration record as its argument, and returns a new record. If the
* function returns `null` or `undefined`, the record will not be updated.
* `PushServiceWebSocket` uses this to drop incoming updates with older
* versions.
* @returns {Promise} Resolves with an `nsIPushErrorReporter` ack status
* code, indicating whether the message was delivered successfully.
*/
receivedPushMessage(keyID, messageID, headers, data, updateFunc) {
console.debug("receivedPushMessage()");
return this._updateRecordAfterPush(keyID, updateFunc).then(record => {
if (record.quotaApplies()) {
// Update quota after the delay, at which point
// we check for visible notifications.
let timeoutID = setTimeout(_ =>
{
this._updateQuota(keyID);
if (!this._updateQuotaTimeouts.delete(timeoutID)) {
console.debug("receivedPushMessage: quota update timeout missing?");
}
}, prefs.get("quotaUpdateDelay"));
this._updateQuotaTimeouts.add(timeoutID);
}
return this._decryptAndNotifyApp(record, messageID, headers, data);
}).catch(error => {
console.error("receivedPushMessage: Error notifying app", error);
return Ci.nsIPushErrorReporter.ACK_NOT_DELIVERED;
});
},
/**
* Dispatches a broadcast notification to the BroadcastService.
*/
receivedBroadcastMessage(message) {
pushBroadcastService.receivedBroadcastMessage(message.broadcasts)
.catch(e => {
console.error(e);
});;
},
/**
* Updates a registration record after receiving a push message.
*
* @param {String} keyID The push registration ID.
* @param {Function} updateFunc The function passed to `receivedPushMessage`.
* @returns {Promise} Resolves with the updated record, or rejects if the
* record was not updated.
*/
_updateRecordAfterPush(keyID, updateFunc) {
return this.getByKeyID(keyID).then(record => {
if (!record) {
throw new Error("No record for key ID " + keyID);
}
return record.getLastVisit().then(lastVisit => {
// As a special case, don't notify the service worker if the user
// cleared their history.
if (!isFinite(lastVisit)) {
throw new Error("Ignoring message sent to unvisited origin");
}
return lastVisit;
}).then(lastVisit => {
// Update the record, resetting the quota if the user has visited the
// site since the last push.
return this._db.update(keyID, record => {
let newRecord = updateFunc(record);
if (!newRecord) {
return null;
}
// Because `unregister` is advisory only, we can still receive messages
// for stale Simple Push registrations from the server. To work around
// this, we check if the record has expired before *and* after updating
// the quota.
if (newRecord.isExpired()) {
return null;
}
newRecord.receivedPush(lastVisit);
return newRecord;
});
});
}).then(record => {
gPushNotifier.notifySubscriptionModified(record.scope,
record.principal);
return record;
});
},
/**
* Decrypts an incoming message and notifies the associated service worker.
*
* @param {PushRecord} record The receiving registration.
* @param {String} messageID The message ID.
* @param {Object} headers The encryption headers.
* @param {ArrayBuffer|Uint8Array} data The encrypted message data.
* @returns {Promise} Resolves with an ack status code.
*/
_decryptAndNotifyApp(record, messageID, headers, data) {
return PushCrypto.decrypt(record.p256dhPrivateKey, record.p256dhPublicKey,
record.authenticationSecret, headers, data)
.then(
message => this._notifyApp(record, messageID, message),
error => {
console.warn("decryptAndNotifyApp: Error decrypting message",
record.scope, messageID, error);
let message = error.format(record.scope);
gPushNotifier.notifyError(record.scope, record.principal, message,
Ci.nsIScriptError.errorFlag);
return Ci.nsIPushErrorReporter.ACK_DECRYPTION_ERROR;
});
},
_updateQuota: function(keyID) {
console.debug("updateQuota()");
this._db.update(keyID, record => {
// Record may have expired from an earlier quota update.
if (record.isExpired()) {
console.debug(
"updateQuota: Trying to update quota for expired record", record);
return null;
}
// If there are visible notifications, don't apply the quota penalty
// for the message.
if (record.uri && !this._visibleNotifications.has(record.uri.prePath)) {
record.reduceQuota();
}
return record;
}).then(record => {
if (record.isExpired()) {
// Drop the registration in the background. If the user returns to the
// site, the service worker will be notified on the next `idle-daily`
// event.
this._backgroundUnregister(record,
Ci.nsIPushErrorReporter.UNSUBSCRIBE_QUOTA_EXCEEDED);
} else {
gPushNotifier.notifySubscriptionModified(record.scope,
record.principal);
}
if (this._updateQuotaTestCallback) {
// Callback so that test may be notified when the quota update is complete.
this._updateQuotaTestCallback();
}
}).catch(error => {
console.debug("updateQuota: Error while trying to update quota", error);
});
},
notificationForOriginShown(origin) {
console.debug("notificationForOriginShown()", origin);
let count;
if (this._visibleNotifications.has(origin)) {
count = this._visibleNotifications.get(origin);
} else {
count = 0;
}
this._visibleNotifications.set(origin, count + 1);
},
notificationForOriginClosed(origin) {
console.debug("notificationForOriginClosed()", origin);
let count;
if (this._visibleNotifications.has(origin)) {
count = this._visibleNotifications.get(origin);
} else {
console.debug("notificationForOriginClosed: closing notification that has not been shown?");
return;
}
if (count > 1) {
this._visibleNotifications.set(origin, count - 1);
} else {
this._visibleNotifications.delete(origin);
}
},
reportDeliveryError(messageID, reason) {
console.debug("reportDeliveryError()", messageID, reason);
if (this._state == PUSH_SERVICE_RUNNING &&
this._service.isConnected()) {
// Only report errors if we're initialized and connected.
this._service.reportDeliveryError(messageID, reason);
}
},
_notifyApp(aPushRecord, messageID, message) {
if (!aPushRecord || !aPushRecord.scope ||
aPushRecord.originAttributes === undefined) {
console.error("notifyApp: Invalid record", aPushRecord);
return Ci.nsIPushErrorReporter.ACK_NOT_DELIVERED;
}
console.debug("notifyApp()", aPushRecord.scope);
// If permission has been revoked, trash the message.
if (!aPushRecord.hasPermission()) {
console.warn("notifyApp: Missing push permission", aPushRecord);
return Ci.nsIPushErrorReporter.ACK_NOT_DELIVERED;
}
let payload = ArrayBuffer.isView(message) ?
new Uint8Array(message.buffer) : message;
if (aPushRecord.quotaApplies()) {
// Don't record telemetry for chrome push messages.
Services.telemetry.getHistogramById("PUSH_API_NOTIFY").add();
}
if (payload) {
gPushNotifier.notifyPushWithData(aPushRecord.scope,
aPushRecord.principal,
messageID, payload.length, payload);
} else {
gPushNotifier.notifyPush(aPushRecord.scope, aPushRecord.principal,
messageID);
}
return Ci.nsIPushErrorReporter.ACK_DELIVERED;
},
getByKeyID: function(aKeyID) {
return this._db.getByKeyID(aKeyID);
},
getAllUnexpired: function() {
return this._db.getAllUnexpired();
},
_sendRequest(action, ...params) {
if (this._state == PUSH_SERVICE_CONNECTION_DISABLE) {
return Promise.reject(new Error("Push service disabled"));
}
if (this._state == PUSH_SERVICE_ACTIVE_OFFLINE) {
return Promise.reject(new Error("Push service offline"));
}
// Ensure the backend is ready. `getByPageRecord` already checks this, but
// we need to check again here in case the service was restarted in the
// meantime.
return this._checkActivated().then(_ => {
switch (action) {
case "register":
return this._service.register(...params);
case "unregister":
return this._service.unregister(...params);
}
return Promise.reject(new Error("Unknown request type: " + action));
});
},
/**
* Called on message from the child process. aPageRecord is an object sent by
* the push manager, identifying the sending page and other fields.
*/
_registerWithServer: function(aPageRecord) {
console.debug("registerWithServer()", aPageRecord);
return this._sendRequest("register", aPageRecord)
.then(record => this._onRegisterSuccess(record),
err => this._onRegisterError(err))
.then(record => {
this._deletePendingRequest(aPageRecord);
gPushNotifier.notifySubscriptionModified(record.scope,
record.principal);
return record.toSubscription();
}, err => {
this._deletePendingRequest(aPageRecord);
throw err;
});
},
_sendUnregister(aRecord, aReason) {
return this._sendRequest("unregister", aRecord, aReason);
},
/**
* Exceptions thrown in _onRegisterSuccess are caught by the promise obtained
* from _service.request, causing the promise to be rejected instead.
*/
_onRegisterSuccess: function(aRecord) {
console.debug("_onRegisterSuccess()");
return this._db.put(aRecord)
.catch(error => {
// Unable to save. Destroy the subscription in the background.
this._backgroundUnregister(aRecord,
Ci.nsIPushErrorReporter.UNSUBSCRIBE_MANUAL);
throw error;
});
},
/**
* Exceptions thrown in _onRegisterError are caught by the promise obtained
* from _service.request, causing the promise to be rejected instead.
*/
_onRegisterError: function(reply) {
console.debug("_onRegisterError()");
if (!reply.error) {
console.warn("onRegisterError: Called without valid error message!",
reply);
throw new Error("Registration error");
}
throw reply.error;
},
notificationsCleared() {
this._visibleNotifications.clear();
},
_getByPageRecord(pageRecord) {
return this._checkActivated().then(_ =>
this._db.getByIdentifiers(pageRecord)
);
},
register: function(aPageRecord) {
console.debug("register()", aPageRecord);
let keyPromise;
if (aPageRecord.appServerKey) {
let keyView = new Uint8Array(aPageRecord.appServerKey);
keyPromise = PushCrypto.validateAppServerKey(keyView)
.catch(error => {
// Normalize Web Crypto exceptions. `nsIPushService` will forward the
// error result to the DOM API implementation in `PushManager.cpp` or
// `Push.js`, which will convert it to the correct `DOMException`.
throw errorWithResult("Invalid app server key",
Cr.NS_ERROR_DOM_PUSH_INVALID_KEY_ERR);
});
} else {
keyPromise = Promise.resolve(null);
}
return Promise.all([
keyPromise,
this._getByPageRecord(aPageRecord),
]).then(([appServerKey, record]) => {
aPageRecord.appServerKey = appServerKey;
if (!record) {
return this._lookupOrPutPendingRequest(aPageRecord);
}
if (!record.matchesAppServerKey(appServerKey)) {
throw errorWithResult("Mismatched app server key",
Cr.NS_ERROR_DOM_PUSH_MISMATCHED_KEY_ERR);
}
if (record.isExpired()) {
return record.quotaChanged().then(isChanged => {
if (isChanged) {
// If the user revisited the site, drop the expired push
// registration and re-register.
return this.dropRegistrationAndNotifyApp(record.keyID);
}
throw new Error("Push subscription expired");
}).then(_ => this._lookupOrPutPendingRequest(aPageRecord));
}
return record.toSubscription();
});
},
/*
* Called only by the PushBroadcastService on the receipt of a new
* subscription. Don't call this directly. Go through PushBroadcastService.
*/
async subscribeBroadcast(broadcastId, version) {
if (this._state != PUSH_SERVICE_RUNNING) {
// Ignore any request to subscribe before we send a hello.
// We'll send all the broadcast listeners as part of the hello
// anyhow.
return;
}
await this._service.sendSubscribeBroadcast(broadcastId, version);
},
/**
* Called on message from the child process.
*
* Why is the record being deleted from the local database before the server
* is told?
*
* Unregistration is for the benefit of the app and the AppServer
* so that the AppServer does not keep pinging a channel the UserAgent isn't
* watching The important part of the transaction in this case is left to the
* app, to tell its server of the unregistration. Even if the request to the
* PushServer were to fail, it would not affect correctness of the protocol,
* and the server GC would just clean up the channelID/subscription
* eventually. Since the appserver doesn't ping it, no data is lost.
*
* If rather we were to unregister at the server and update the database only
* on success: If the server receives the unregister, and deletes the
* channelID/subscription, but the response is lost because of network
* failure, the application is never informed. In addition the application may
* retry the unregister when it fails due to timeout (websocket) or any other
* reason at which point the server will say it does not know of this
* unregistration. We'll have to make the registration/unregistration phases
* have retries and attempts to resend messages from the server, and have the
* client acknowledge. On a server, data is cheap, reliable notification is
* not.
*/
unregister: function(aPageRecord) {
console.debug("unregister()", aPageRecord);
return this._getByPageRecord(aPageRecord)
.then(record => {
if (record === undefined) {
return false;
}
let reason = Ci.nsIPushErrorReporter.UNSUBSCRIBE_MANUAL;
return Promise.all([
this._sendUnregister(record, reason),
this._db.delete(record.keyID).then(record => {
if (record) {
gPushNotifier.notifySubscriptionModified(record.scope,
record.principal);
}
}),
]).then(([success]) => success);
});
},
clear: function(info) {
return this._checkActivated()
.then(_ => {
return this._dropRegistrationsIf(record =>
info.domain == "*" ||
(record.uri && eTLDService.hasRootDomain(record.uri.prePath, info.domain))
);
})
.catch(e => {
console.warn("clear: Error dropping subscriptions for domain",
info.domain, e);
return Promise.resolve();
});
},
registration: function(aPageRecord) {
console.debug("registration()");
return this._getByPageRecord(aPageRecord)
.then(record => {
if (!record) {
return null;
}
if (record.isExpired()) {
return record.quotaChanged().then(isChanged => {
if (isChanged) {
return this.dropRegistrationAndNotifyApp(record.keyID).then(_ => null);
}
return null;
});
}
return record.toSubscription();
});
},
_dropExpiredRegistrations: function() {
console.debug("dropExpiredRegistrations()");
return this._db.getAllExpired().then(records => {
return Promise.all(records.map(record =>
record.quotaChanged().then(isChanged => {
if (isChanged) {
// If the user revisited the site, drop the expired push
// registration and notify the associated service worker.
return this.dropRegistrationAndNotifyApp(record.keyID);
}
}).catch(error => {
console.error("dropExpiredRegistrations: Error dropping registration",
record.keyID, error);
})
));
});
},
_onPermissionChange: function(subject, data) {
console.debug("onPermissionChange()");
if (data == "cleared") {
return this._clearPermissions();
}
let permission = subject.QueryInterface(Ci.nsIPermission);
if (permission.type != "desktop-notification") {
return Promise.resolve();
}
return this._updatePermission(permission, data);
},
_clearPermissions() {
console.debug("clearPermissions()");
return this._db.clearIf(record => {
if (!record.quotaApplies()) {
// Only drop registrations that are subject to quota.
return false;
}
this._backgroundUnregister(record,
Ci.nsIPushErrorReporter.UNSUBSCRIBE_PERMISSION_REVOKED);
return true;
});
},
_updatePermission: function(permission, type) {
console.debug("updatePermission()");
let isAllow = permission.capability ==
Ci.nsIPermissionManager.ALLOW_ACTION;
let isChange = type == "added" || type == "changed";
if (isAllow && isChange) {
// Permission set to "allow". Drop all expired registrations for this
// site, notify the associated service workers, and reset the quota
// for active registrations.
return this._forEachPrincipal(
permission.principal,
(record, cursor) => this._permissionAllowed(record, cursor)
);
} else if (isChange || (isAllow && type == "deleted")) {
// Permission set to "block" or "always ask," or "allow" permission
// removed. Expire all registrations for this site.
return this._forEachPrincipal(
permission.principal,
(record, cursor) => this._permissionDenied(record, cursor)
);
}
return Promise.resolve();
},
_forEachPrincipal: function(principal, callback) {
return this._db.forEachOrigin(
principal.URI.prePath,
ChromeUtils.originAttributesToSuffix(principal.originAttributes),
callback
);
},
/**
* The update function called for each registration record if the push
* permission is revoked. We only expire the record so we can notify the
* service worker as soon as the permission is reinstated. If we just
* deleted the record, the worker wouldn't be notified until the next visit
* to the site.
*
* @param {PushRecord} record The record to expire.
* @param {IDBCursor} cursor The IndexedDB cursor.
*/
_permissionDenied: function(record, cursor) {
console.debug("permissionDenied()");
if (!record.quotaApplies() || record.isExpired()) {
// Ignore already-expired records.
return;
}
// Drop the registration in the background.
this._backgroundUnregister(record,
Ci.nsIPushErrorReporter.UNSUBSCRIBE_PERMISSION_REVOKED);
record.setQuota(0);
cursor.update(record);
},
/**
* The update function called for each registration record if the push
* permission is granted. If the record has expired, it will be dropped;
* otherwise, its quota will be reset to the default value.
*
* @param {PushRecord} record The record to update.
* @param {IDBCursor} cursor The IndexedDB cursor.
*/
_permissionAllowed(record, cursor) {
console.debug("permissionAllowed()");
if (!record.quotaApplies()) {
return;
}
if (record.isExpired()) {
// If the registration has expired, drop and notify the worker
// unconditionally.
this._notifySubscriptionChangeObservers(record);
cursor.delete();
return;
}
record.resetQuota();
cursor.update(record);
},
/**
* Drops all matching registrations from the database. Notifies the
* associated service workers if permission is granted, and removes
* unexpired registrations from the server.
*
* @param {Function} predicate A function called for each record.
* @returns {Promise} Resolves once the registrations have been dropped.
*/
_dropRegistrationsIf(predicate) {
return this._db.clearIf(record => {
if (!predicate(record)) {
return false;
}
if (record.hasPermission()) {
// "Clear Recent History" and the Forget button remove permissions
// before clearing registrations, but it's possible for the worker to
// resubscribe if the "dom.push.testing.ignorePermission" pref is set.
this._notifySubscriptionChangeObservers(record);
}
if (!record.isExpired()) {
// Only unregister active registrations, since we already told the
// server about expired ones.
this._backgroundUnregister(record,
Ci.nsIPushErrorReporter.UNSUBSCRIBE_MANUAL);
}
return true;
});
},
};