/* * vim: ts=4:sw=4:expandtab */ function MessageReceiver(url, ports, username, password, signalingKey) { this.url = url; this.signalingKey = signalingKey; this.username = username; this.password = password; this.server = new TextSecureServer(url, ports, username, password); var address = libsignal.SignalProtocolAddress.fromString(username); this.number = address.getName(); this.deviceId = address.getDeviceId(); } MessageReceiver.prototype = new textsecure.EventTarget(); MessageReceiver.prototype.extend({ constructor: MessageReceiver, connect: function() { if (this.socket && this.socket.readyState !== WebSocket.CLOSED) { this.socket.close(); } // initialize the socket and start listening for messages this.socket = this.server.getMessageSocket(); this.socket.onclose = this.onclose.bind(this); this.socket.onerror = this.onerror.bind(this); this.socket.onopen = this.onopen.bind(this); this.wsr = new WebSocketResource(this.socket, { handleRequest: this.handleRequest.bind(this), keepalive: { path: '/v1/keepalive', disconnect: true } }); this.pending = Promise.resolve(); }, close: function() { this.socket.close(3000, 'called close'); delete this.listeners; }, onopen: function() { console.log('websocket open'); }, onerror: function(error) { console.log('websocket error'); }, onclose: function(ev) { console.log('websocket closed', ev.code, ev.reason || ''); if (ev.code === 3000) { return; } var eventTarget = this; // possible 403 or network issue. Make an request to confirm this.server.getDevices(this.number). then(this.connect.bind(this)). // No HTTP error? Reconnect catch(function(e) { var ev = new Event('error'); ev.error = e; eventTarget.dispatchEvent(ev); }); }, handleRequest: function(request) { // We do the message decryption here, instead of in the ordered pending queue, // to avoid exposing the time it took us to process messages through the time-to-ack. // TODO: handle different types of requests. if (request.path !== '/api/v1/message') { console.log('got request', request.verb, request.path); request.respond(200, 'OK'); return; } textsecure.crypto.decryptWebsocketMessage(request.body, this.signalingKey).then(function(plaintext) { var envelope = textsecure.protobuf.Envelope.decode(plaintext); // After this point, decoding errors are not the server's // fault, and we should handle them gracefully and tell the // user they received an invalid message request.respond(200, 'OK'); if (!this.isBlocked(envelope.source)) { this.queueEnvelope(envelope); } }.bind(this)).catch(function(e) { request.respond(500, 'Bad encrypted websocket message'); console.log("Error handling incoming message:", e); var ev = new Event('error'); ev.error = e; this.dispatchEvent(ev); }.bind(this)); }, queueEnvelope: function(envelope) { var handleEnvelope = this.handleEnvelope.bind(this, envelope); this.pending = this.pending.then(handleEnvelope, handleEnvelope); }, handleEnvelope: function(envelope) { if (envelope.type === textsecure.protobuf.Envelope.Type.RECEIPT) { return this.onDeliveryReceipt(envelope); } if (envelope.content) { return this.handleContentMessage(envelope); } else if (envelope.legacyMessage) { return this.handleLegacyMessage(envelope); } else { throw new Error('Received message with no content and no legacyMessage'); } }, getStatus: function() { if (this.socket) { return this.socket.readyState; } else { return -1; } }, onDeliveryReceipt: function (envelope) { var ev = new Event('receipt'); ev.proto = envelope; this.dispatchEvent(ev); }, unpad: function(paddedPlaintext) { paddedPlaintext = new Uint8Array(paddedPlaintext); var plaintext; for (var i = paddedPlaintext.length - 1; i >= 0; i--) { if (paddedPlaintext[i] == 0x80) { plaintext = new Uint8Array(i); plaintext.set(paddedPlaintext.subarray(0, i)); plaintext = plaintext.buffer; break; } else if (paddedPlaintext[i] !== 0x00) { throw new Error('Invalid padding'); } } return plaintext; }, decrypt: function(envelope, ciphertext) { var promise; var address = new libsignal.SignalProtocolAddress(envelope.source, envelope.sourceDevice); var sessionCipher = new libsignal.SessionCipher(textsecure.storage.protocol, address); switch(envelope.type) { case textsecure.protobuf.Envelope.Type.CIPHERTEXT: console.log('message from', envelope.source + '.' + envelope.sourceDevice, envelope.timestamp.toNumber()); promise = sessionCipher.decryptWhisperMessage(ciphertext).then(this.unpad); break; case textsecure.protobuf.Envelope.Type.PREKEY_BUNDLE: console.log('prekey message from', envelope.source + '.' + envelope.sourceDevice, envelope.timestamp.toNumber()); promise = this.decryptPreKeyWhisperMessage(ciphertext, sessionCipher, address); break; default: promise = Promise.reject(new Error("Unknown message type")); } return promise.catch(function(error) { var ev = new Event('error'); ev.error = error; ev.proto = envelope; this.dispatchEvent(ev); return Promise.reject(error); }.bind(this)); }, decryptPreKeyWhisperMessage: function(ciphertext, sessionCipher, address) { return sessionCipher.decryptPreKeyWhisperMessage(ciphertext).then(this.unpad).catch(function(e) { if (e.message === 'Unknown identity key') { // create an error that the UI will pick up and ask the // user if they want to re-negotiate var buffer = dcodeIO.ByteBuffer.wrap(ciphertext); throw new textsecure.IncomingIdentityKeyError( address.toString(), buffer.toArrayBuffer(), e.identityKey ); } throw e; }); }, handleSentMessage: function(destination, timestamp, message, expirationStartTimestamp) { var p = Promise.resolve(); if ((message.flags & textsecure.protobuf.DataMessage.Flags.END_SESSION) == textsecure.protobuf.DataMessage.Flags.END_SESSION ) { p = this.handleEndSession(destination); } return p.then(function() { return this.processDecrypted(message, this.number).then(function(message) { var ev = new Event('sent'); ev.data = { destination : destination, timestamp : timestamp.toNumber(), message : message }; if (expirationStartTimestamp) { ev.data.expirationStartTimestamp = expirationStartTimestamp.toNumber(); } this.dispatchEvent(ev); }.bind(this)); }.bind(this)); }, handleDataMessage: function(envelope, message) { var encodedNumber = envelope.source + '.' + envelope.sourceDevice; console.log('data message from', encodedNumber, envelope.timestamp.toNumber()); var p = Promise.resolve(); if ((message.flags & textsecure.protobuf.DataMessage.Flags.END_SESSION) == textsecure.protobuf.DataMessage.Flags.END_SESSION ) { p = this.handleEndSession(envelope.source); } return p.then(function() { return this.processDecrypted(message, envelope.source).then(function(message) { var ev = new Event('message'); ev.data = { source : envelope.source, timestamp : envelope.timestamp.toNumber(), message : message }; this.dispatchEvent(ev); }.bind(this)); }.bind(this)); }, handleLegacyMessage: function (envelope) { return this.decrypt(envelope, envelope.legacyMessage).then(function(plaintext) { var message = textsecure.protobuf.DataMessage.decode(plaintext); return this.handleDataMessage(envelope, message); }.bind(this)); }, handleContentMessage: function (envelope) { return this.decrypt(envelope, envelope.content).then(function(plaintext) { var content = textsecure.protobuf.Content.decode(plaintext); if (content.syncMessage) { return this.handleSyncMessage(envelope, content.syncMessage); } else if (content.dataMessage) { return this.handleDataMessage(envelope, content.dataMessage); } else { throw new Error('Got Content message with no dataMessage and no syncMessage'); } }.bind(this)); }, handleSyncMessage: function(envelope, syncMessage) { if (envelope.source !== this.number) { throw new Error('Received sync message from another number'); } if (envelope.sourceDevice == this.deviceId) { throw new Error('Received sync message from our own device'); } if (syncMessage.sent) { var sentMessage = syncMessage.sent; console.log('sent message to', sentMessage.destination, sentMessage.timestamp.toNumber(), 'from', envelope.source + '.' + envelope.sourceDevice ); return this.handleSentMessage( sentMessage.destination, sentMessage.timestamp, sentMessage.message, sentMessage.expirationStartTimestamp ); } else if (syncMessage.contacts) { this.handleContacts(syncMessage.contacts); } else if (syncMessage.groups) { this.handleGroups(syncMessage.groups); } else if (syncMessage.blocked) { this.handleBlocked(syncMessage.blocked); } else if (syncMessage.request) { console.log('Got SyncMessage Request'); } else if (syncMessage.read) { console.log('read messages', 'from', envelope.source + '.' + envelope.sourceDevice); this.handleRead(syncMessage.read, envelope.timestamp); } else { throw new Error('Got empty SyncMessage'); } }, handleRead: function(read, timestamp) { for (var i = 0; i < read.length; ++i) { var ev = new Event('read'); ev.timestamp = timestamp.toNumber(); ev.read = { timestamp : read[i].timestamp.toNumber(), sender : read[i].sender } this.dispatchEvent(ev); } }, handleContacts: function(contacts) { console.log('contact sync'); var eventTarget = this; var attachmentPointer = contacts.blob; return this.handleAttachment(attachmentPointer).then(function() { var contactBuffer = new ContactBuffer(attachmentPointer.data); var contactDetails = contactBuffer.next(); while (contactDetails !== undefined) { var ev = new Event('contact'); ev.contactDetails = contactDetails; eventTarget.dispatchEvent(ev); contactDetails = contactBuffer.next(); } eventTarget.dispatchEvent(new Event('contactsync')); }); }, handleGroups: function(groups) { console.log('group sync'); var eventTarget = this; var attachmentPointer = groups.blob; return this.handleAttachment(attachmentPointer).then(function() { var groupBuffer = new GroupBuffer(attachmentPointer.data); var groupDetails = groupBuffer.next(); var promises = []; while (groupDetails !== undefined) { var promise = (function(groupDetails) { groupDetails.id = groupDetails.id.toBinary(); if (groupDetails.active) { return textsecure.storage.groups.getGroup(groupDetails.id). then(function(existingGroup) { if (existingGroup === undefined) { return textsecure.storage.groups.createNewGroup( groupDetails.members, groupDetails.id ); } else { return textsecure.storage.groups.updateNumbers( groupDetails.id, groupDetails.members ); } }).then(function() { return groupDetails }); } else { return Promise.resolve(groupDetails); } })(groupDetails).then(function(groupDetails) { var ev = new Event('group'); ev.groupDetails = groupDetails; eventTarget.dispatchEvent(ev); }).catch(function(e) { console.log('error processing group', e); }); groupDetails = groupBuffer.next(); promises.push(promise); } Promise.all(promises).then(function() { eventTarget.dispatchEvent(new Event('groupsync')); }); }); }, handleBlocked: function(blocked) { textsecure.storage.put('blocked', blocked.numbers); }, isBlocked: function(number) { return textsecure.storage.get('blocked', []).indexOf(number) >= 0; }, handleAttachment: function(attachment) { attachment.id = attachment.id.toString(); attachment.key = attachment.key.toArrayBuffer(); if (attachment.digest) { attachment.digest = attachment.digest.toArrayBuffer(); } function decryptAttachment(encrypted) { return textsecure.crypto.decryptAttachment( encrypted, attachment.key, attachment.digest ); } function updateAttachment(data) { attachment.data = data; } return this.server.getAttachment(attachment.id). then(decryptAttachment). then(updateAttachment); }, tryMessageAgain: function(from, ciphertext) { var address = libsignal.SignalProtocolAddress.fromString(from); var sessionCipher = new libsignal.SessionCipher(textsecure.storage.protocol, address); console.log('retrying prekey whisper message'); return this.decryptPreKeyWhisperMessage(ciphertext, sessionCipher, address).then(function(plaintext) { var finalMessage = textsecure.protobuf.DataMessage.decode(plaintext); var p = Promise.resolve(); if ((finalMessage.flags & textsecure.protobuf.DataMessage.Flags.END_SESSION) == textsecure.protobuf.DataMessage.Flags.END_SESSION && finalMessage.sync !== null) { var number = address.getName(); p = this.handleEndSession(number); } return p.then(function() { return this.processDecrypted(finalMessage); }.bind(this)); }.bind(this)); }, handleEndSession: function(number) { console.log('got end session'); return textsecure.storage.protocol.getDeviceIds(number).then(function(deviceIds) { return Promise.all(deviceIds.map(function(deviceId) { var address = new libsignal.SignalProtocolAddress(number, deviceId); var sessionCipher = new libsignal.SessionCipher(textsecure.storage.protocol, address); console.log('closing session for', address.toString()); return sessionCipher.closeOpenSessionForDevice(); })); }); }, processDecrypted: function(decrypted, source) { // Now that its decrypted, validate the message and clean it up for consumer processing // Note that messages may (generally) only perform one action and we ignore remaining fields // after the first action. if (decrypted.flags == null) { decrypted.flags = 0; } if (decrypted.expireTimer == null) { decrypted.expireTimer = 0; } if (decrypted.flags & textsecure.protobuf.DataMessage.Flags.END_SESSION) { decrypted.body = null; decrypted.attachments = []; decrypted.group = null; return Promise.resolve(decrypted); } else if (decrypted.flags & textsecure.protobuf.DataMessage.Flags.EXPIRATION_TIMER_UPDATE ) { decrypted.body = null; decrypted.attachments = []; } else if (decrypted.flags != 0) { throw new Error("Unknown flags in message"); } var promises = []; if (decrypted.group !== null) { decrypted.group.id = decrypted.group.id.toBinary(); if (decrypted.group.type == textsecure.protobuf.GroupContext.Type.UPDATE) { if (decrypted.group.avatar !== null) { promises.push(this.handleAttachment(decrypted.group.avatar)); } } promises.push(textsecure.storage.groups.getNumbers(decrypted.group.id).then(function(existingGroup) { if (existingGroup === undefined) { if (decrypted.group.type != textsecure.protobuf.GroupContext.Type.UPDATE) { decrypted.group.members = [source]; console.log("Got message for unknown group"); } return textsecure.storage.groups.createNewGroup(decrypted.group.members, decrypted.group.id); } else { var fromIndex = existingGroup.indexOf(source); if (fromIndex < 0) { //TODO: This could be indication of a race... console.log("Sender was not a member of the group they were sending from"); } switch(decrypted.group.type) { case textsecure.protobuf.GroupContext.Type.UPDATE: decrypted.body = null; decrypted.attachments = []; return textsecure.storage.groups.updateNumbers( decrypted.group.id, decrypted.group.members ); break; case textsecure.protobuf.GroupContext.Type.QUIT: decrypted.body = null; decrypted.attachments = []; if (source === this.number) { return textsecure.storage.groups.deleteGroup(decrypted.group.id); } else { return textsecure.storage.groups.removeNumber(decrypted.group.id, source); } case textsecure.protobuf.GroupContext.Type.DELIVER: decrypted.group.name = null; decrypted.group.members = []; decrypted.group.avatar = null; break; default: throw new Error("Unknown group message type"); } } }.bind(this))); } for (var i in decrypted.attachments) { promises.push(this.handleAttachment(decrypted.attachments[i])); } return Promise.all(promises).then(function() { return decrypted; }); } }); window.textsecure = window.textsecure || {}; textsecure.MessageReceiver = function(url, ports, username, password, signalingKey) { var messageReceiver = new MessageReceiver(url, ports, username, password, signalingKey); this.addEventListener = messageReceiver.addEventListener.bind(messageReceiver); this.removeEventListener = messageReceiver.removeEventListener.bind(messageReceiver); this.getStatus = messageReceiver.getStatus.bind(messageReceiver); this.close = messageReceiver.close.bind(messageReceiver); messageReceiver.connect(); textsecure.replay.registerFunction(messageReceiver.tryMessageAgain.bind(messageReceiver), textsecure.replay.Type.INIT_SESSION); }; textsecure.MessageReceiver.prototype = { constructor: textsecure.MessageReceiver };