/* global textsecure, libsignal, window, ConversationController, libloki, StringView, lokiMessageAPI, i18n, log */ /* eslint-disable more/no-then */ /* eslint-disable no-unreachable */ const NUM_SEND_CONNECTIONS = 3; const getTTLForType = type => { switch (type) { case 'friend-request': return 4 * 24 * 60 * 60 * 1000; // 4 days for friend request message case 'device-unpairing': return 4 * 24 * 60 * 60 * 1000; // 4 days for device unpairing case 'onlineBroadcast': return 60 * 1000; // 1 minute for online broadcast message case 'typing': return 60 * 1000; // 1 minute for typing indicators case 'pairing-request': return 2 * 60 * 1000; // 2 minutes for pairing requests default: return (window.getMessageTTL() || 24) * 60 * 60 * 1000; // 1 day default for any other message } }; function _getPaddedMessageLength(messageLength) { const messageLengthWithTerminator = messageLength + 1; let messagePartCount = Math.floor(messageLengthWithTerminator / 160); if (messageLengthWithTerminator % 160 !== 0) { messagePartCount += 1; } return messagePartCount * 160; } function _convertMessageToText(messageBuffer) { const plaintext = new Uint8Array( _getPaddedMessageLength(messageBuffer.byteLength + 1) - 1 ); plaintext.set(new Uint8Array(messageBuffer)); plaintext[messageBuffer.byteLength] = 0x80; return plaintext; } function _getPlaintext(messageBuffer) { return _convertMessageToText(messageBuffer); } function wrapInWebsocketMessage(outgoingObject, timestamp) { const source = outgoingObject.type === textsecure.protobuf.Envelope.Type.UNIDENTIFIED_SENDER ? null : outgoingObject.ourKey; const messageEnvelope = new textsecure.protobuf.Envelope({ type: outgoingObject.type, source, sourceDevice: outgoingObject.sourceDevice, timestamp, content: outgoingObject.content, }); const requestMessage = new textsecure.protobuf.WebSocketRequestMessage({ id: new Uint8Array(libsignal.crypto.getRandomBytes(1))[0], // random ID for now verb: 'PUT', path: '/api/v1/message', body: messageEnvelope.encode().toArrayBuffer(), }); const websocketMessage = new textsecure.protobuf.WebSocketMessage({ type: textsecure.protobuf.WebSocketMessage.Type.REQUEST, request: requestMessage, }); const bytes = new Uint8Array(websocketMessage.encode().toArrayBuffer()); return bytes; } function getStaleDeviceIdsForNumber(number) { return textsecure.storage.protocol.getDeviceIds(number).then(deviceIds => { if (deviceIds.length === 0) { return [1]; } const updateDevices = []; return Promise.all( deviceIds.map(deviceId => { const address = new libsignal.SignalProtocolAddress(number, deviceId); const sessionCipher = new libsignal.SessionCipher( textsecure.storage.protocol, address ); return sessionCipher.hasOpenSession().then(hasSession => { if (!hasSession) { updateDevices.push(deviceId); } }); }) ).then(() => updateDevices); }); } function OutgoingMessage( server, timestamp, numbers, message, silent, callback, options = {} ) { if (message instanceof textsecure.protobuf.DataMessage) { const content = new textsecure.protobuf.Content(); content.dataMessage = message; // eslint-disable-next-line no-param-reassign message = content; } this.server = server; this.timestamp = timestamp; this.numbers = numbers; this.message = message; // ContentMessage proto this.callback = callback; this.silent = silent; this.numbersCompleted = 0; this.errors = []; this.successfulNumbers = []; this.fallBackEncryption = false; this.failoverNumbers = []; this.unidentifiedDeliveries = []; const { numberInfo, senderCertificate, online, messageType, isPing, isPublic, isMediumGroup, publicSendData, } = options || {}; this.numberInfo = numberInfo; this.isPublic = isPublic; this.isMediumGroup = !!isMediumGroup; this.isGroup = !!( this.message && this.message.dataMessage && this.message.dataMessage.group ); this.publicSendData = publicSendData; this.senderCertificate = senderCertificate; this.online = online; this.messageType = messageType || 'outgoing'; this.isPing = isPing || false; } OutgoingMessage.prototype = { constructor: OutgoingMessage, numberCompleted() { this.numbersCompleted += 1; if (this.numbersCompleted >= this.numbers.length) { this.callback({ successfulNumbers: this.successfulNumbers, failoverNumbers: this.failoverNumbers, errors: this.errors, unidentifiedDeliveries: this.unidentifiedDeliveries, messageType: this.messageType, }); } }, registerError(number, reason, error) { if (!error || (error.name === 'HTTPError' && error.code !== 404)) { // eslint-disable-next-line no-param-reassign error = new textsecure.OutgoingMessageError( number, this.message.toArrayBuffer(), this.timestamp, error ); } // eslint-disable-next-line no-param-reassign error.number = number; // eslint-disable-next-line no-param-reassign error.reason = reason; this.errors[this.errors.length] = error; this.numberCompleted(); }, reloadDevicesAndSend(primaryPubKey) { const ourNumber = textsecure.storage.user.getNumber(); return ( libloki.storage .getAllDevicePubKeysForPrimaryPubKey(primaryPubKey) // Don't send to ourselves .then(devicesPubKeys => devicesPubKeys.filter(pubKey => pubKey !== ourNumber) ) .then(devicesPubKeys => { if (devicesPubKeys.length === 0) { // eslint-disable-next-line no-param-reassign devicesPubKeys = [primaryPubKey]; } return this.doSendMessage(primaryPubKey, devicesPubKeys); }) ); }, getKeysForNumber(number, updateDevices) { const handleResult = response => Promise.all( response.devices.map(device => { // eslint-disable-next-line no-param-reassign device.identityKey = response.identityKey; if ( updateDevices === undefined || updateDevices.indexOf(device.deviceId) > -1 ) { const address = new libsignal.SignalProtocolAddress( number, device.deviceId ); const builder = new libsignal.SessionBuilder( textsecure.storage.protocol, address ); if (device.registrationId === 0) { window.log.info('device registrationId 0!'); } return builder .processPreKey(device) .then(async () => { // TODO: only remove the keys that were used above! await libloki.storage.removeContactPreKeyBundle(number); return true; }) .catch(error => { if (error.message === 'Identity key changed') { // eslint-disable-next-line no-param-reassign error.timestamp = this.timestamp; // eslint-disable-next-line no-param-reassign error.originalMessage = this.message.toArrayBuffer(); // eslint-disable-next-line no-param-reassign error.identityKey = device.identityKey; } throw error; }); } return false; }) ); let promise = Promise.resolve(true); updateDevices.forEach(device => { promise = promise.then(() => Promise.all([ textsecure.storage.protocol.loadContactPreKey(number), textsecure.storage.protocol.loadContactSignedPreKey(number), ]) .then(keys => { const [preKey, signedPreKey] = keys; if (preKey === undefined || signedPreKey === undefined) { return false; } const identityKey = StringView.hexToArrayBuffer(number); return handleResult({ identityKey, devices: [ { deviceId: device, preKey, signedPreKey, registrationId: 0 }, ], }).then(results => results.every(value => value === true)); }) .catch(e => { if (e.name === 'HTTPError' && e.code === 404) { if (device !== 1) { return this.removeDeviceIdsForNumber(number, [device]); } throw new textsecure.UnregisteredUserError(number, e); } else { throw e; } }) ); }); return promise; }, // Default ttl to 24 hours if no value provided async transmitMessage(number, data, timestamp, ttl = 24 * 60 * 60 * 1000) { const pubKey = number; try { // TODO: Make NUM_CONCURRENT_CONNECTIONS a global constant const options = { numConnections: NUM_SEND_CONNECTIONS, isPing: this.isPing, }; options.isPublic = this.isPublic; if (this.isPublic) { options.publicSendData = this.publicSendData; } await lokiMessageAPI.sendMessage(pubKey, data, timestamp, ttl, options); } catch (e) { if (e.name === 'HTTPError' && (e.code !== 409 && e.code !== 410)) { // 409 and 410 should bubble and be handled by doSendMessage // 404 should throw UnregisteredUserError // all other network errors can be retried later. if (e.code === 404) { throw new textsecure.UnregisteredUserError(number, e); } throw new textsecure.SendMessageNetworkError(number, '', e, timestamp); } else if (e.name === 'TimedOutError') { throw new textsecure.PoWError(number, e); } throw e; } }, async buildMessage(devicePubKey) { const updatedDevices = await getStaleDeviceIdsForNumber(devicePubKey); const keysFound = await this.getKeysForNumber(devicePubKey, updatedDevices); let isMultiDeviceRequest = false; let thisDeviceMessageType = this.messageType; if ( thisDeviceMessageType !== 'pairing-request' && thisDeviceMessageType !== 'friend-request' && thisDeviceMessageType !== 'onlineBroadcast' ) { try { const conversation = ConversationController.get(devicePubKey); if (conversation && !this.isGroup) { const isOurDevice = await conversation.isOurDevice(); const isFriends = conversation.isFriend() || conversation.hasReceivedFriendRequest(); // We should only send a friend request to our device if we don't have keys const shouldSendAutomatedFR = isOurDevice ? !keysFound : !isFriends; if (shouldSendAutomatedFR) { // We want to send an automated friend request if: // - We aren't already friends // - We haven't received a friend request from this device // - We haven't sent a friend request recently if (conversation.friendRequestTimerIsExpired()) { isMultiDeviceRequest = true; thisDeviceMessageType = 'friend-request'; } else { // Throttle automated friend requests this.successfulNumbers.push(devicePubKey); return null; } } // If we're not friends with our own device then we should become friends if (isOurDevice && keysFound && !isFriends) { conversation.setFriendRequestStatus( window.friends.friendRequestStatusEnum.friends ); } } } catch (e) { // do nothing } } // Check if we need to attach the preKeys const enableFallBackEncryption = !keysFound || thisDeviceMessageType === 'friend-request'; const flags = this.message.dataMessage ? this.message.dataMessage.get_flags() : null; // END_SESSION means Session reset message const isEndSession = flags === textsecure.protobuf.DataMessage.Flags.END_SESSION; const isSessionRequest = flags === textsecure.protobuf.DataMessage.Flags.SESSION_REQUEST; if (enableFallBackEncryption || isEndSession) { // Encrypt them with the fallback const pkb = await libloki.storage.getPreKeyBundleForContact(devicePubKey); this.message.preKeyBundleMessage = new textsecure.protobuf.PreKeyBundleMessage( pkb ); window.log.info('attaching prekeys to outgoing message'); } let messageBuffer; if (isMultiDeviceRequest) { const tempMessage = new textsecure.protobuf.Content(); const tempDataMessage = new textsecure.protobuf.DataMessage(); tempDataMessage.body = i18n('secondaryDeviceDefaultFR'); if (this.message.dataMessage && this.message.dataMessage.profile) { tempDataMessage.profile = this.message.dataMessage.profile; } tempMessage.preKeyBundleMessage = this.message.preKeyBundleMessage; tempMessage.dataMessage = tempDataMessage; messageBuffer = tempMessage.toArrayBuffer(); } else { messageBuffer = this.message.toArrayBuffer(); } const plaintext = _getPlaintext(messageBuffer); // No limit on message keys if we're communicating with our other devices // FIXME options not used at all; if (ourPubkey === number) { // options.messageKeysLimit = false; // } const ttl = getTTLForType(thisDeviceMessageType); const ourKey = textsecure.storage.user.getNumber(); return { ttl, ourKey, sourceDevice: 1, plaintext, pubKey: devicePubKey, isFriendRequest: enableFallBackEncryption, isSessionRequest, enableFallBackEncryption, }; }, async encryptMessage(clearMessage) { if (clearMessage === null) { window.log.warn( 'clearMessage is null on encryptMessage... Returning null' ); return null; } const { ttl, ourKey, sourceDevice, plaintext, pubKey, isSessionRequest, enableFallBackEncryption, } = clearMessage; // Session doesn't use the deviceId scheme, it's always 1. // Instead, there are multiple device public keys. const deviceId = 1; const address = new libsignal.SignalProtocolAddress(pubKey, deviceId); let sessionCipher; if (enableFallBackEncryption) { sessionCipher = new libloki.crypto.FallBackSessionCipher(address); } else { sessionCipher = new libsignal.SessionCipher( textsecure.storage.protocol, address ); } const innerCiphertext = await sessionCipher.encrypt(plaintext); const secretSessionCipher = new window.Signal.Metadata.SecretSessionCipher( textsecure.storage.protocol ); const senderCert = new textsecure.protobuf.SenderCertificate(); senderCert.sender = ourKey; senderCert.senderDevice = deviceId; const ciphertext = await secretSessionCipher.encrypt( address.getName(), senderCert, innerCiphertext ); const type = textsecure.protobuf.Envelope.Type.UNIDENTIFIED_SENDER; const content = window.Signal.Crypto.arrayBufferToBase64(ciphertext); return { type, // FallBackSessionCipher sets this to FRIEND_REQUEST ttl, ourKey, sourceDevice, content, pubKey, isFriendRequest: enableFallBackEncryption, isSessionRequest, }; }, // Send a message to a public group async sendPublicMessage(number) { await this.transmitMessage( number, this.message.dataMessage, this.timestamp, 0 // ttl ); this.successfulNumbers[this.successfulNumbers.length] = number; this.numberCompleted(); }, async sendMediumGroupMessage(groupId) { const ttl = getTTLForType(this.messageType); const plaintext = this.message.toArrayBuffer(); const ourIdentity = textsecure.storage.user.getNumber(); const { ciphertext, keyIdx, } = await window.SenderKeyAPI.encryptWithSenderKey( plaintext, groupId, ourIdentity ); if (!ciphertext) { log.error('could not encrypt for medium group'); return; } // We should include ciphertext idx in the message const content = new textsecure.protobuf.MediumGroupCiphertext({ ciphertext, keyIdx, }); log.debug( 'Group ciphertext: ', window.Signal.Crypto.arrayBufferToBase64(ciphertext) ); const outgoingObject = { type: textsecure.protobuf.Envelope.Type.MEDIUM_GROUP_CIPHERTEXT, ttl, ourKey: ourIdentity, sourceDevice: 1, content: content.encode().toArrayBuffer(), isFriendRequest: false, isSessionRequest: false, }; // TODO: Rather than using sealed sender, we just generate a key pair, perform an ECDH against // the group's public key and encrypt using the derived key const socketMessage = wrapInWebsocketMessage( outgoingObject, this.timestamp ); await this.transmitMessage(groupId, socketMessage, this.timestamp, ttl); this.successfulNumbers[this.successfulNumbers.length] = groupId; this.numberCompleted(); }, // Send a message to a private group or a session chat (one to one) async sendSessionMessage(outgoingObjects) { // TODO: handle multiple devices/messages per transmit const promises = outgoingObjects.map(async outgoingObject => { if (!outgoingObject) { return; } const { pubKey: destination, ttl, isFriendRequest, isSessionRequest, } = outgoingObject; try { const socketMessage = wrapInWebsocketMessage( outgoingObject, this.timestamp ); await this.transmitMessage( destination, socketMessage, this.timestamp, ttl ); if (!this.isGroup && isFriendRequest && !isSessionRequest) { const conversation = ConversationController.get(destination); if (conversation) { // Redundant for primary device but marks secondary devices as pending await conversation.onFriendRequestSent(); } } this.successfulNumbers.push(destination); } catch (e) { e.number = destination; this.errors.push(e); } }); await Promise.all(promises); // TODO: the retrySend should only send to the devices // for which the transmission failed. // ensure numberCompleted() will execute the callback this.numbersCompleted += this.errors.length + this.successfulNumbers.length; // Absorb errors if message sent to at least 1 device if (this.successfulNumbers.length > 0) { this.errors = []; } this.numberCompleted(); }, async buildAndEncrypt(devicePubKey) { const clearMessage = await this.buildMessage(devicePubKey); return this.encryptMessage(clearMessage); }, // eslint-disable-next-line no-unused-vars async doSendMessage(primaryPubKey, devicesPubKeys) { if (this.isPublic) { await this.sendPublicMessage(primaryPubKey); return; } this.numbers = devicesPubKeys; if (this.isMediumGroup) { await this.sendMediumGroupMessage(primaryPubKey); return; } const outgoingObjects = await Promise.all( devicesPubKeys.map(pk => this.buildAndEncrypt(pk, primaryPubKey)) ); this.sendSessionMessage(outgoingObjects); }, removeDeviceIdsForNumber(number, deviceIdsToRemove) { let promise = Promise.resolve(); // eslint-disable-next-line no-restricted-syntax, guard-for-in for (const j in deviceIdsToRemove) { promise = promise.then(() => { const encodedNumber = `${number}.${deviceIdsToRemove[j]}`; return textsecure.storage.protocol.removeSession(encodedNumber); }); } return promise; }, sendToNumber(number) { let conversation; try { conversation = ConversationController.get(number); } catch (e) { // do nothing } return this.reloadDevicesAndSend(number).catch(error => { conversation.resetPendingSend(); if (error.message === 'Identity key changed') { // eslint-disable-next-line no-param-reassign error = new textsecure.OutgoingIdentityKeyError( number, error.originalMessage, error.timestamp, error.identityKey ); this.registerError(number, 'Identity key changed', error); } else { this.registerError( number, `Failed to retrieve new device keys for number ${number}`, error ); } }); }, }; window.textsecure = window.textsecure || {}; window.textsecure.OutgoingMessage = OutgoingMessage;