/* global window, textsecure, libsignal, WebSocketResource, btoa, Signal, getString, libphonenumber, Event, ConversationController */ /* eslint-disable more/no-then */ // eslint-disable-next-line func-names (function() { window.textsecure = window.textsecure || {}; const ARCHIVE_AGE = 7 * 24 * 60 * 60 * 1000; function AccountManager(username, password) { this.server = window.WebAPI.connect({ username, password }); this.pending = Promise.resolve(); } function getNumber(numberId) { if (!numberId || !numberId.length) { return numberId; } const parts = numberId.split('.'); if (!parts.length) { return numberId; } return parts[0]; } AccountManager.prototype = new textsecure.EventTarget(); AccountManager.prototype.extend({ constructor: AccountManager, requestVoiceVerification(number) { return this.server.requestVerificationVoice(number); }, requestSMSVerification(number) { return this.server.requestVerificationSMS(number); }, async encryptDeviceName(name, providedIdentityKey) { if (!name) { return null; } const identityKey = providedIdentityKey || (await textsecure.storage.protocol.getIdentityKeyPair()); if (!identityKey) { throw new Error( 'Identity key was not provided and is not in database!' ); } const encrypted = await Signal.Crypto.encryptDeviceName( name, identityKey.pubKey ); const proto = new textsecure.protobuf.DeviceName(); proto.ephemeralPublic = encrypted.ephemeralPublic; proto.syntheticIv = encrypted.syntheticIv; proto.ciphertext = encrypted.ciphertext; const arrayBuffer = proto.encode().toArrayBuffer(); return Signal.Crypto.arrayBufferToBase64(arrayBuffer); }, async decryptDeviceName(base64) { const identityKey = await textsecure.storage.protocol.getIdentityKeyPair(); const arrayBuffer = Signal.Crypto.base64ToArrayBuffer(base64); const proto = textsecure.protobuf.DeviceName.decode(arrayBuffer); const encrypted = { ephemeralPublic: proto.ephemeralPublic.toArrayBuffer(), syntheticIv: proto.syntheticIv.toArrayBuffer(), ciphertext: proto.ciphertext.toArrayBuffer(), }; const name = await Signal.Crypto.decryptDeviceName( encrypted, identityKey.privKey ); return name; }, async maybeUpdateDeviceName() { const isNameEncrypted = textsecure.storage.user.getDeviceNameEncrypted(); if (isNameEncrypted) { return; } const deviceName = await textsecure.storage.user.getDeviceName(); const base64 = await this.encryptDeviceName(deviceName); await this.server.updateDeviceName(base64); }, async deviceNameIsEncrypted() { await textsecure.storage.user.setDeviceNameEncrypted(); }, async maybeDeleteSignalingKey() { const key = await textsecure.storage.user.getSignalingKey(); if (key) { await this.server.removeSignalingKey(); } }, registerSingleDevice(number, verificationCode) { const registerKeys = this.server.registerKeys.bind(this.server); const createAccount = this.createAccount.bind(this); const clearSessionsAndPreKeys = this.clearSessionsAndPreKeys.bind(this); const generateKeys = this.generateKeys.bind(this, 100); const confirmKeys = this.confirmKeys.bind(this); const registrationDone = this.registrationDone.bind(this); return this.queueTask(() => libsignal.KeyHelper.generateIdentityKeyPair().then( async identityKeyPair => { const profileKey = textsecure.crypto.getRandomBytes(32); const accessKey = await window.Signal.Crypto.deriveAccessKey( profileKey ); return createAccount( number, verificationCode, identityKeyPair, profileKey, null, null, null, { accessKey } ) .then(clearSessionsAndPreKeys) .then(generateKeys) .then(keys => registerKeys(keys).then(() => confirmKeys(keys))) .then(() => registrationDone(number)); } ) ); }, registerSecondDevice(setProvisioningUrl, confirmNumber, progressCallback) { const createAccount = this.createAccount.bind(this); const clearSessionsAndPreKeys = this.clearSessionsAndPreKeys.bind(this); const generateKeys = this.generateKeys.bind(this, 100, progressCallback); const confirmKeys = this.confirmKeys.bind(this); const registrationDone = this.registrationDone.bind(this); const registerKeys = this.server.registerKeys.bind(this.server); const getSocket = this.server.getProvisioningSocket.bind(this.server); const queueTask = this.queueTask.bind(this); const provisioningCipher = new libsignal.ProvisioningCipher(); let gotProvisionEnvelope = false; return provisioningCipher.getPublicKey().then( pubKey => new Promise((resolve, reject) => { const socket = getSocket(); socket.onclose = event => { window.log.info('provisioning socket closed. Code:', event.code); if (!gotProvisionEnvelope) { reject(new Error('websocket closed')); } }; socket.onopen = () => { window.log.info('provisioning socket open'); }; const wsr = new WebSocketResource(socket, { keepalive: { path: '/v1/keepalive/provisioning' }, handleRequest(request) { if (request.path === '/v1/address' && request.verb === 'PUT') { const proto = textsecure.protobuf.ProvisioningUuid.decode( request.body ); setProvisioningUrl( [ 'tsdevice:/?uuid=', proto.uuid, '&pub_key=', encodeURIComponent(btoa(getString(pubKey))), ].join('') ); request.respond(200, 'OK'); } else if ( request.path === '/v1/message' && request.verb === 'PUT' ) { const envelope = textsecure.protobuf.ProvisionEnvelope.decode( request.body, 'binary' ); request.respond(200, 'OK'); gotProvisionEnvelope = true; wsr.close(); resolve( provisioningCipher .decrypt(envelope) .then(provisionMessage => queueTask(() => confirmNumber(provisionMessage.number).then( deviceName => { if ( typeof deviceName !== 'string' || deviceName.length === 0 ) { throw new Error('Invalid device name'); } return createAccount( provisionMessage.number, provisionMessage.provisioningCode, provisionMessage.identityKeyPair, provisionMessage.profileKey, deviceName, provisionMessage.userAgent, provisionMessage.readReceipts ) .then(clearSessionsAndPreKeys) .then(generateKeys) .then(keys => registerKeys(keys).then(() => confirmKeys(keys) ) ) .then(() => registrationDone(provisionMessage.number) ); } ) ) ) ); } else { window.log.error('Unknown websocket message', request.path); } }, }); }) ); }, refreshPreKeys() { const generateKeys = this.generateKeys.bind(this, 100); const registerKeys = this.server.registerKeys.bind(this.server); return this.queueTask(() => this.server.getMyKeys().then(preKeyCount => { window.log.info(`prekey count ${preKeyCount}`); if (preKeyCount < 10) { return generateKeys().then(registerKeys); } return null; }) ); }, rotateSignedPreKey() { return this.queueTask(() => { const signedKeyId = textsecure.storage.get('signedKeyId', 1); if (typeof signedKeyId !== 'number') { throw new Error('Invalid signedKeyId'); } const store = textsecure.storage.protocol; const { server, cleanSignedPreKeys } = this; return store .getIdentityKeyPair() .then( identityKey => libsignal.KeyHelper.generateSignedPreKey( identityKey, signedKeyId ), () => { // We swallow any error here, because we don't want to get into // a loop of repeated retries. window.log.error( 'Failed to get identity key. Canceling key rotation.' ); } ) .then(res => { if (!res) { return null; } window.log.info('Saving new signed prekey', res.keyId); return Promise.all([ textsecure.storage.put('signedKeyId', signedKeyId + 1), store.storeSignedPreKey(res.keyId, res.keyPair), server.setSignedPreKey({ keyId: res.keyId, publicKey: res.keyPair.pubKey, signature: res.signature, }), ]) .then(() => { const confirmed = true; window.log.info('Confirming new signed prekey', res.keyId); return Promise.all([ textsecure.storage.remove('signedKeyRotationRejected'), store.storeSignedPreKey(res.keyId, res.keyPair, confirmed), ]); }) .then(() => cleanSignedPreKeys()); }) .catch(e => { window.log.error( 'rotateSignedPrekey error:', e && e.stack ? e.stack : e ); if ( e instanceof Error && e.name === 'HTTPError' && e.code >= 400 && e.code <= 599 ) { const rejections = 1 + textsecure.storage.get('signedKeyRotationRejected', 0); textsecure.storage.put('signedKeyRotationRejected', rejections); window.log.error( 'Signed key rotation rejected count:', rejections ); } else { throw e; } }); }); }, queueTask(task) { const taskWithTimeout = textsecure.createTaskWithTimeout(task); this.pending = this.pending.then(taskWithTimeout, taskWithTimeout); return this.pending; }, cleanSignedPreKeys() { const MINIMUM_KEYS = 3; const store = textsecure.storage.protocol; return store.loadSignedPreKeys().then(allKeys => { allKeys.sort((a, b) => (a.created_at || 0) - (b.created_at || 0)); allKeys.reverse(); // we want the most recent first let confirmed = allKeys.filter(key => key.confirmed); const unconfirmed = allKeys.filter(key => !key.confirmed); const recent = allKeys[0] ? allKeys[0].keyId : 'none'; const recentConfirmed = confirmed[0] ? confirmed[0].keyId : 'none'; window.log.info(`Most recent signed key: ${recent}`); window.log.info(`Most recent confirmed signed key: ${recentConfirmed}`); window.log.info( 'Total signed key count:', allKeys.length, '-', confirmed.length, 'confirmed' ); let confirmedCount = confirmed.length; // Keep MINIMUM_KEYS confirmed keys, then drop if older than a week confirmed = confirmed.forEach((key, index) => { if (index < MINIMUM_KEYS) { return; } const createdAt = key.created_at || 0; const age = Date.now() - createdAt; if (age > ARCHIVE_AGE) { window.log.info( 'Removing confirmed signed prekey:', key.keyId, 'with timestamp:', createdAt ); store.removeSignedPreKey(key.keyId); confirmedCount -= 1; } }); const stillNeeded = MINIMUM_KEYS - confirmedCount; // If we still don't have enough total keys, we keep as many unconfirmed // keys as necessary. If not necessary, and over a week old, we drop. unconfirmed.forEach((key, index) => { if (index < stillNeeded) { return; } const createdAt = key.created_at || 0; const age = Date.now() - createdAt; if (age > ARCHIVE_AGE) { window.log.info( 'Removing unconfirmed signed prekey:', key.keyId, 'with timestamp:', createdAt ); store.removeSignedPreKey(key.keyId); } }); }); }, async createAccount( number, verificationCode, identityKeyPair, profileKey, deviceName, userAgent, readReceipts, options = {} ) { const { accessKey } = options; let password = btoa(getString(libsignal.crypto.getRandomBytes(16))); password = password.substring(0, password.length - 2); const registrationId = libsignal.KeyHelper.generateRegistrationId(); const previousNumber = getNumber(textsecure.storage.get('number_id')); const encryptedDeviceName = await this.encryptDeviceName( deviceName, identityKeyPair ); await this.deviceNameIsEncrypted(); const response = await this.server.confirmCode( number, verificationCode, password, registrationId, encryptedDeviceName, { accessKey } ); if (previousNumber && previousNumber !== number) { window.log.warn( 'New number is different from old number; deleting all previous data' ); try { await textsecure.storage.protocol.removeAllData(); window.log.info('Successfully deleted previous data'); } catch (error) { window.log.error( 'Something went wrong deleting data from previous number', error && error.stack ? error.stack : error ); } } await Promise.all([ textsecure.storage.remove('identityKey'), textsecure.storage.remove('password'), textsecure.storage.remove('registrationId'), textsecure.storage.remove('number_id'), textsecure.storage.remove('device_name'), textsecure.storage.remove('regionCode'), textsecure.storage.remove('userAgent'), textsecure.storage.remove('profileKey'), textsecure.storage.remove('read-receipts-setting'), ]); // update our own identity key, which may have changed // if we're relinking after a reinstall on the master device await textsecure.storage.protocol.saveIdentityWithAttributes(number, { id: number, publicKey: identityKeyPair.pubKey, firstUse: true, timestamp: Date.now(), verified: textsecure.storage.protocol.VerifiedStatus.VERIFIED, nonblockingApproval: true, }); await textsecure.storage.put('identityKey', identityKeyPair); await textsecure.storage.put('password', password); await textsecure.storage.put('registrationId', registrationId); if (profileKey) { await textsecure.storage.put('profileKey', profileKey); } if (userAgent) { await textsecure.storage.put('userAgent', userAgent); } await textsecure.storage.put( 'read-receipt-setting', Boolean(readReceipts) ); await textsecure.storage.user.setNumberAndDeviceId( number, response.deviceId || 1, deviceName ); const regionCode = libphonenumber.util.getRegionCodeForNumber(number); await textsecure.storage.put('regionCode', regionCode); }, async clearSessionsAndPreKeys() { const store = textsecure.storage.protocol; window.log.info('clearing all sessions, prekeys, and signed prekeys'); await Promise.all([ store.clearPreKeyStore(), store.clearSignedPreKeysStore(), store.clearSessionStore(), ]); }, // Takes the same object returned by generateKeys async confirmKeys(keys) { const store = textsecure.storage.protocol; const key = keys.signedPreKey; const confirmed = true; window.log.info('confirmKeys: confirming key', key.keyId); await store.storeSignedPreKey(key.keyId, key.keyPair, confirmed); }, generateKeys(count, providedProgressCallback) { const progressCallback = typeof providedProgressCallback === 'function' ? providedProgressCallback : null; const startId = textsecure.storage.get('maxPreKeyId', 1); const signedKeyId = textsecure.storage.get('signedKeyId', 1); if (typeof startId !== 'number') { throw new Error('Invalid maxPreKeyId'); } if (typeof signedKeyId !== 'number') { throw new Error('Invalid signedKeyId'); } const store = textsecure.storage.protocol; return store.getIdentityKeyPair().then(identityKey => { const result = { preKeys: [], identityKey: identityKey.pubKey }; const promises = []; for (let keyId = startId; keyId < startId + count; keyId += 1) { promises.push( libsignal.KeyHelper.generatePreKey(keyId).then(res => { store.storePreKey(res.keyId, res.keyPair); result.preKeys.push({ keyId: res.keyId, publicKey: res.keyPair.pubKey, }); if (progressCallback) { progressCallback(); } }) ); } promises.push( libsignal.KeyHelper.generateSignedPreKey( identityKey, signedKeyId ).then(res => { store.storeSignedPreKey(res.keyId, res.keyPair); result.signedPreKey = { keyId: res.keyId, publicKey: res.keyPair.pubKey, signature: res.signature, // server.registerKeys doesn't use keyPair, confirmKeys does keyPair: res.keyPair, }; }) ); textsecure.storage.put('maxPreKeyId', startId + count); textsecure.storage.put('signedKeyId', signedKeyId + 1); return Promise.all(promises).then(() => // This is primarily for the signed prekey summary it logs out this.cleanSignedPreKeys().then(() => result) ); }); }, async registrationDone(number) { window.log.info('registration done'); // Ensure that we always have a conversation for ourself await ConversationController.getOrCreateAndWait(number, 'private'); this.dispatchEvent(new Event('registration')); }, }); textsecure.AccountManager = AccountManager; })();