/** * @module converse-omemo * @copyright The Converse.js contributors * @license Mozilla Public License (MPLv2) */ /* global libsignal */ import "./profile/index.js"; import '../modals/user-details.js'; import log from "@converse/headless/log"; import { Collection } from "@converse/skeletor/src/collection"; import { Model } from '@converse/skeletor/src/model.js'; import { __ } from '../i18n'; import { _converse, api, converse } from "@converse/headless/core"; import { concat, debounce, difference, invokeMap, range, omit } from "lodash-es"; import { html } from 'lit-html'; const { Strophe, sizzle, $build, $iq, $msg } = converse.env; const u = converse.env.utils; Strophe.addNamespace('OMEMO_DEVICELIST', Strophe.NS.OMEMO+".devicelist"); Strophe.addNamespace('OMEMO_VERIFICATION', Strophe.NS.OMEMO+".verification"); Strophe.addNamespace('OMEMO_WHITELISTED', Strophe.NS.OMEMO+".whitelisted"); Strophe.addNamespace('OMEMO_BUNDLES', Strophe.NS.OMEMO+".bundles"); const UNDECIDED = 0; const TRUSTED = 1; // eslint-disable-line no-unused-vars const UNTRUSTED = -1; const TAG_LENGTH = 128; const KEY_ALGO = { 'name': "AES-GCM", 'length': 128 }; class IQError extends Error { constructor (message, iq) { super(message, iq); this.name = 'IQError'; this.iq = iq; } } function parseEncryptedMessage (stanza, attrs) { if (attrs.is_encrypted && attrs.encrypted.key) { // https://xmpp.org/extensions/xep-0384.html#usecases-receiving if (attrs.encrypted.prekey === true) { return decryptPrekeyWhisperMessage(attrs); } else { return decryptWhisperMessage(attrs); } } else { return attrs; } } function onChatBoxesInitialized () { _converse.chatboxes.on('add', chatbox => { checkOMEMOSupported(chatbox); if (chatbox.get('type') === _converse.CHATROOMS_TYPE) { chatbox.occupants.on('add', o => onOccupantAdded(chatbox, o)); chatbox.features.on('change', () => checkOMEMOSupported(chatbox)); } }); } function onChatInitialized (el) { el.listenTo(el.model.messages, 'add', (message) => { if (message.get('is_encrypted') && !message.get('is_error')) { el.model.save('omemo_supported', true); } }); el.listenTo(el.model, 'change:omemo_supported', () => { if (!el.model.get('omemo_supported') && el.model.get('omemo_active')) { el.model.set('omemo_active', false); } else { // Manually trigger an update, setting omemo_active to // false above will automatically trigger one. el.querySelector('converse-chat-toolbar')?.requestUpdate(); } }); el.listenTo(el.model, 'change:omemo_active', () => { el.querySelector('converse-chat-toolbar').requestUpdate(); }); } const omemo = converse.env.omemo = { async encryptMessage (plaintext) { // The client MUST use fresh, randomly generated key/IV pairs // with AES-128 in Galois/Counter Mode (GCM). // For GCM a 12 byte IV is strongly suggested as other IV lengths // will require additional calculations. In principle any IV size // can be used as long as the IV doesn't ever repeat. NIST however // suggests that only an IV size of 12 bytes needs to be supported // by implementations. // // https://crypto.stackexchange.com/questions/26783/ciphertext-and-tag-size-and-iv-transmission-with-aes-in-gcm-mode const iv = crypto.getRandomValues(new window.Uint8Array(12)), key = await crypto.subtle.generateKey(KEY_ALGO, true, ["encrypt", "decrypt"]), algo = { 'name': 'AES-GCM', 'iv': iv, 'tagLength': TAG_LENGTH }, encrypted = await crypto.subtle.encrypt(algo, key, u.stringToArrayBuffer(plaintext)), length = encrypted.byteLength - ((128 + 7) >> 3), ciphertext = encrypted.slice(0, length), tag = encrypted.slice(length), exported_key = await crypto.subtle.exportKey("raw", key); return { 'key': exported_key, 'tag': tag, 'key_and_tag': u.appendArrayBuffer(exported_key, tag), 'payload': u.arrayBufferToBase64(ciphertext), 'iv': u.arrayBufferToBase64(iv) }; }, async decryptMessage (obj) { const key_obj = await crypto.subtle.importKey('raw', obj.key, KEY_ALGO, true, ['encrypt','decrypt']); const cipher = u.appendArrayBuffer(u.base64ToArrayBuffer(obj.payload), obj.tag); const algo = { 'name': "AES-GCM", 'iv': u.base64ToArrayBuffer(obj.iv), 'tagLength': TAG_LENGTH }; return u.arrayBufferToString(await crypto.subtle.decrypt(algo, key_obj, cipher)); } }; function getSessionCipher (jid, id) { const address = new libsignal.SignalProtocolAddress(jid, id); return new window.libsignal.SessionCipher(_converse.omemo_store, address); } async function handleDecryptedWhisperMessage (attrs, key_and_tag) { const encrypted = attrs.encrypted; const devicelist = _converse.devicelists.getDeviceList(attrs.from); await devicelist._devices_promise; let device = devicelist.get(encrypted.device_id); if (!device) { device = await devicelist.devices.create({'id': encrypted.device_id, 'jid': attrs.from}, {'promise': true}); } if (encrypted.payload) { const key = key_and_tag.slice(0, 16); const tag = key_and_tag.slice(16); const result = await omemo.decryptMessage(Object.assign(encrypted, {'key': key, 'tag': tag})); device.save('active', true); return result; } } function getDecryptionErrorAttributes (e) { if (api.settings.get("loglevel") === 'debug') { return { 'error_text': __("Sorry, could not decrypt a received OMEMO message due to an error.") + ` ${e.name} ${e.message}`, 'error_type': 'Decryption', 'is_ephemeral': true, 'is_error': true, 'type': 'error', } } else { return {}; } } async function decryptPrekeyWhisperMessage (attrs) { const session_cipher = getSessionCipher(attrs.from, parseInt(attrs.encrypted.device_id, 10)); const key = u.base64ToArrayBuffer(attrs.encrypted.key); let key_and_tag; try { key_and_tag = await session_cipher.decryptPreKeyWhisperMessage(key, 'binary'); } catch (e) { // TODO from the XEP: // There are various reasons why decryption of an // OMEMOKeyExchange or an OMEMOAuthenticatedMessage // could fail. One reason is if the message was // received twice and already decrypted once, in this // case the client MUST ignore the decryption failure // and not show any warnings/errors. In all other cases // of decryption failure, clients SHOULD respond by // forcibly doing a new key exchange and sending a new // OMEMOKeyExchange with a potentially empty SCE // payload. By building a new session with the original // sender this way, the invalid session of the original // sender will get overwritten with this newly created, // valid session. log.error(`${e.name} ${e.message}`); return Object.assign(attrs, getDecryptionErrorAttributes(e)); } // TODO from the XEP: // When a client receives the first message for a given // ratchet key with a counter of 53 or higher, it MUST send // a heartbeat message. Heartbeat messages are normal OMEMO // encrypted messages where the SCE payload does not include // any elements. These heartbeat messages cause the ratchet // to forward, thus consequent messages will have the // counter restarted from 0. try { const plaintext = await handleDecryptedWhisperMessage(attrs, key_and_tag); await _converse.omemo_store.generateMissingPreKeys(); await _converse.omemo_store.publishBundle(); if (plaintext) { return Object.assign(attrs, {'plaintext': plaintext}); } else { return Object.assign(attrs, {'is_only_key': true}); } } catch (e) { log.error(`${e.name} ${e.message}`); return Object.assign(attrs, getDecryptionErrorAttributes(e)); } } async function decryptWhisperMessage (attrs) { const from_jid = attrs.from_muc ? attrs.from_real_jid : attrs.from; if (!from_jid) { Object.assign(attrs, { 'error_text': __("Sorry, could not decrypt a received OMEMO because we don't have the JID for that user."), 'error_type': 'Decryption', 'is_ephemeral': false, 'is_error': true, 'type': 'error', }); } const session_cipher = getSessionCipher(from_jid, parseInt(attrs.encrypted.device_id, 10)); const key = u.base64ToArrayBuffer(attrs.encrypted.key); try { const key_and_tag = await session_cipher.decryptWhisperMessage(key, 'binary') const plaintext = await handleDecryptedWhisperMessage(attrs, key_and_tag); return Object.assign(attrs, {'plaintext': plaintext}); } catch (e) { log.error(`${e.name} ${e.message}`); return Object.assign(attrs, getDecryptionErrorAttributes(e)); } } function addKeysToMessageStanza (stanza, dicts, iv) { for (const i in dicts) { if (Object.prototype.hasOwnProperty.call(dicts, i)) { const payload = dicts[i].payload; const device = dicts[i].device; const prekey = 3 == parseInt(payload.type, 10); stanza.c('key', {'rid': device.get('id') }).t(btoa(payload.body)); if (prekey) { stanza.attrs({'prekey': prekey}); } stanza.up(); if (i == dicts.length-1) { stanza.c('iv').t(iv).up().up() } } } return Promise.resolve(stanza); } function parseBundle (bundle_el) { /* Given an XML element representing a user's OMEMO bundle, parse it * and return a map. */ const signed_prekey_public_el = bundle_el.querySelector('signedPreKeyPublic'); const signed_prekey_signature_el = bundle_el.querySelector('signedPreKeySignature'); const prekeys = sizzle(`prekeys > preKeyPublic`, bundle_el) .map(el => ({ 'id': parseInt(el.getAttribute('preKeyId'), 10), 'key': el.textContent })); return { 'identity_key': bundle_el.querySelector('identityKey').textContent.trim(), 'signed_prekey': { 'id': parseInt(signed_prekey_public_el.getAttribute('signedPreKeyId'), 10), 'public_key': signed_prekey_public_el.textContent, 'signature': signed_prekey_signature_el.textContent }, 'prekeys': prekeys } } async function generateFingerprint (device) { if (device.get('bundle')?.fingerprint) { return; } const bundle = await device.getBundle(); bundle['fingerprint'] = u.arrayBufferToHex(u.base64ToArrayBuffer(bundle['identity_key'])); device.save('bundle', bundle); device.trigger('change:bundle'); // Doesn't get triggered automatically due to pass-by-reference } async function getDevicesForContact (jid) { await api.waitUntil('OMEMOInitialized'); const devicelist = _converse.devicelists.get(jid) || _converse.devicelists.create({'jid': jid}); await devicelist.fetchDevices(); return devicelist.devices; } function generateDeviceID () { /* Generates a device ID, making sure that it's unique */ const existing_ids = _converse.devicelists.get(_converse.bare_jid).devices.pluck('id'); let device_id = libsignal.KeyHelper.generateRegistrationId(); // Before publishing a freshly generated device id for the first time, // a device MUST check whether that device id already exists, and if so, generate a new one. let i = 0; while (existing_ids.includes(device_id)) { device_id = libsignal.KeyHelper.generateRegistrationId(); i++; if (i === 10) { throw new Error("Unable to generate a unique device ID"); } } return device_id.toString(); } async function buildSession (device) { // TODO: check device-get('jid') versus the 'from' attribute which is used // to build a session when receiving an encrypted message in a MUC. // https://github.com/conversejs/converse.js/issues/1481#issuecomment-509183431 const address = new libsignal.SignalProtocolAddress(device.get('jid'), device.get('id')); const sessionBuilder = new libsignal.SessionBuilder(_converse.omemo_store, address); const prekey = device.getRandomPreKey(); const bundle = await device.getBundle(); return sessionBuilder.processPreKey({ 'registrationId': parseInt(device.get('id'), 10), 'identityKey': u.base64ToArrayBuffer(bundle.identity_key), 'signedPreKey': { 'keyId': bundle.signed_prekey.id, // 'publicKey': u.base64ToArrayBuffer(bundle.signed_prekey.public_key), 'signature': u.base64ToArrayBuffer(bundle.signed_prekey.signature) }, 'preKey': { 'keyId': prekey.id, // 'publicKey': u.base64ToArrayBuffer(prekey.key), } }); } async function getSession (device) { if (!device.get('bundle')) { log.error(`Could not build an OMEMO session for device ${device.get('id')} because we don't have its bundle`); return null; } const address = new libsignal.SignalProtocolAddress(device.get('jid'), device.get('id')); const session = await _converse.omemo_store.loadSession(address.toString()); if (session) { return session; } else { try { const session = await buildSession(device); return session; } catch (e) { log.error(`Could not build an OMEMO session for device ${device.get('id')}`); log.error(e); return null; } } } function updateBundleFromStanza (stanza) { const items_el = sizzle(`items`, stanza).pop(); if (!items_el || !items_el.getAttribute('node').startsWith(Strophe.NS.OMEMO_BUNDLES)) { return; } const device_id = items_el.getAttribute('node').split(':')[1]; const jid = stanza.getAttribute('from'); const bundle_el = sizzle(`item > bundle`, items_el).pop(); const devicelist = _converse.devicelists.getDeviceList(jid); const device = devicelist.devices.get(device_id) || devicelist.devices.create({'id': device_id, 'jid': jid}); device.save({'bundle': parseBundle(bundle_el)}); } function updateDevicesFromStanza (stanza) { const items_el = sizzle(`items[node="${Strophe.NS.OMEMO_DEVICELIST}"]`, stanza).pop(); if (!items_el) { return; } const device_selector = `item list[xmlns="${Strophe.NS.OMEMO}"] device`; const device_ids = sizzle(device_selector, items_el).map(d => d.getAttribute('id')); const jid = stanza.getAttribute('from'); const devicelist = _converse.devicelists.getDeviceList(jid); const devices = devicelist.devices; const removed_ids = difference(devices.pluck('id'), device_ids); removed_ids.forEach(id => { if (jid === _converse.bare_jid && id === _converse.omemo_store.get('device_id')) { return // We don't set the current device as inactive } devices.get(id).save('active', false); }); device_ids.forEach(device_id => { const device = devices.get(device_id); if (device) { device.save('active', true); } else { devices.create({'id': device_id, 'jid': jid}) } }); if (u.isSameBareJID(jid, _converse.bare_jid)) { // Make sure our own device is on the list // (i.e. if it was removed, add it again). devicelist.publishCurrentDevice(device_ids); } } function registerPEPPushHandler () { // Add a handler for devices pushed from other connected clients _converse.connection.addHandler((message) => { try { if (sizzle(`event[xmlns="${Strophe.NS.PUBSUB}#event"]`, message).length) { updateDevicesFromStanza(message); updateBundleFromStanza(message); } } catch (e) { log.error(e.message); } return true; }, null, 'message', 'headline'); } function restoreOMEMOSession () { if (_converse.omemo_store === undefined) { const id = `converse.omemosession-${_converse.bare_jid}`; _converse.omemo_store = new _converse.OMEMOStore({'id': id}); _converse.omemo_store.browserStorage = _converse.createStore(id); } return _converse.omemo_store.fetchSession(); } function fetchDeviceLists () { return new Promise((success, error) => _converse.devicelists.fetch({success, 'error': (m, e) => error(e)})); } async function fetchOwnDevices () { await fetchDeviceLists(); let own_devicelist = _converse.devicelists.get(_converse.bare_jid); if (own_devicelist) { own_devicelist.fetchDevices(); } else { own_devicelist = await _converse.devicelists.create({'jid': _converse.bare_jid}, {'promise': true}); } return own_devicelist._devices_promise; } async function initOMEMO () { if (!_converse.config.get('trusted') || api.settings.get('clear_cache_on_logout')) { log.warn("Not initializing OMEMO, since this browser is not trusted or clear_cache_on_logout is set to true"); return; } _converse.devicelists = new _converse.DeviceLists(); const id = `converse.devicelists-${_converse.bare_jid}`; _converse.devicelists.browserStorage = _converse.createStore(id); try { await fetchOwnDevices(); await restoreOMEMOSession(); await _converse.omemo_store.publishBundle(); } catch (e) { log.error("Could not initialize OMEMO support"); log.error(e); return; } /** * Triggered once OMEMO support has been initialized * @event _converse#OMEMOInitialized * @example _converse.api.listen.on('OMEMOInitialized', () => { ... }); */ api.trigger('OMEMOInitialized'); } async function onOccupantAdded (chatroom, occupant) { if (occupant.isSelf() || !chatroom.features.get('nonanonymous') || !chatroom.features.get('membersonly')) { return; } if (chatroom.get('omemo_active')) { const supported = await _converse.contactHasOMEMOSupport(occupant.get('jid')); if (!supported) { chatroom.createMessage({ 'message': __("%1$s doesn't appear to have a client that supports OMEMO. " + "Encrypted chat will no longer be possible in this grouchat.", occupant.get('nick')), 'type': 'error' }); chatroom.save({'omemo_active': false, 'omemo_supported': false}); } } } async function checkOMEMOSupported (chatbox) { let supported; if (chatbox.get('type') === _converse.CHATROOMS_TYPE) { await api.waitUntil('OMEMOInitialized'); supported = chatbox.features.get('nonanonymous') && chatbox.features.get('membersonly'); } else if (chatbox.get('type') === _converse.PRIVATE_CHAT_TYPE) { supported = await _converse.contactHasOMEMOSupport(chatbox.get('jid')); } chatbox.set('omemo_supported', supported); if (supported && api.settings.get('omemo_default')) { chatbox.set('omemo_active', true); } } function toggleOMEMO (ev) { ev.stopPropagation(); ev.preventDefault(); const toolbar_el = u.ancestor(ev.target, 'converse-chat-toolbar'); if (!toolbar_el.model.get('omemo_supported')) { let messages; if (toolbar_el.model.get('type') === _converse.CHATROOMS_TYPE) { messages = [__( 'Cannot use end-to-end encryption in this groupchat, '+ 'either the groupchat has some anonymity or not all participants support OMEMO.' )]; } else { messages = [__( "Cannot use end-to-end encryption because %1$s uses a client that doesn't support OMEMO.", toolbar_el.model.contact.getDisplayName() )]; } return api.alert('error', __('Error'), messages); } toolbar_el.model.save({'omemo_active': !toolbar_el.model.get('omemo_active')}); } function getOMEMOToolbarButton (toolbar_el, buttons) { const model = toolbar_el.model; const is_muc = model.get('type') === _converse.CHATROOMS_TYPE; let title; if (is_muc && model.get('omemo_supported')) { const i18n_plaintext = __('Messages are being sent in plaintext'); const i18n_encrypted = __('Messages are sent encrypted'); title = model.get('omemo_active') ? i18n_encrypted : i18n_plaintext; } else { title = __('This groupchat needs to be members-only and non-anonymous in '+ 'order to support OMEMO encrypted messages'); } buttons.push(html` ` ); return buttons; } /** * Mixin object that contains OMEMO-related methods for * {@link _converse.ChatBox} or {@link _converse.ChatRoom} objects. * * @typedef {Object} OMEMOEnabledChatBox */ const OMEMOEnabledChatBox = { encryptKey (plaintext, device) { return getSessionCipher(device.get('jid'), device.get('id')) .encrypt(plaintext) .then(payload => ({'payload': payload, 'device': device})); }, handleMessageSendError (e) { if (e.name === 'IQError') { this.save('omemo_supported', false); const err_msgs = []; if (sizzle(`presence-subscription-required[xmlns="${Strophe.NS.PUBSUB_ERROR}"]`, e.iq).length) { err_msgs.push( __("Sorry, we're unable to send an encrypted message because %1$s "+ "requires you to be subscribed to their presence in order to see their OMEMO information", e.iq.getAttribute('from')) ); } else if (sizzle(`remote-server-not-found[xmlns="urn:ietf:params:xml:ns:xmpp-stanzas"]`, e.iq).length) { err_msgs.push( __("Sorry, we're unable to send an encrypted message because the remote server for %1$s could not be found", e.iq.getAttribute('from')) ); } else { err_msgs.push(__("Unable to send an encrypted message due to an unexpected error.")); err_msgs.push(e.iq.outerHTML); } api.alert('error', __('Error'), err_msgs); log.error(e); } else if (e.user_facing) { api.alert('error', __('Error'), [e.message]); log.error(e); } else { throw e; } } } converse.plugins.add('converse-omemo', { enabled (_converse) { return window.libsignal && _converse.config.get('trusted') && !api.settings.get('clear_cache_on_logout') && !_converse.api.settings.get("blacklisted_plugins").includes('converse-omemo'); }, dependencies: ["converse-chatview", "converse-pubsub", "converse-profile"], overrides: { ProfileModal: { events: { 'change input.select-all': 'selectAll', 'click .generate-bundle': 'generateOMEMODeviceBundle', 'submit .fingerprint-removal': 'removeSelectedFingerprints' }, initialize () { this.debouncedRender = debounce(this.render, 50); this.devicelist = _converse.devicelists.get(_converse.bare_jid); this.listenTo(this.devicelist.devices, 'change:bundle', this.debouncedRender); this.listenTo(this.devicelist.devices, 'reset', this.debouncedRender); this.listenTo(this.devicelist.devices, 'reset', this.debouncedRender); this.listenTo(this.devicelist.devices, 'remove', this.debouncedRender); this.listenTo(this.devicelist.devices, 'add', this.debouncedRender); return this.__super__.initialize.apply(this, arguments); }, beforeRender () { const device_id = _converse.omemo_store.get('device_id'); if (device_id) { this.current_device = this.devicelist.devices.get(device_id); } this.other_devices = this.devicelist.devices.filter(d => (d.get('id') !== device_id)); if (this.__super__.beforeRender) { return this.__super__.beforeRender.apply(this, arguments); } }, selectAll (ev) { let sibling = u.ancestor(ev.target, 'li'); while (sibling) { sibling.querySelector('input[type="checkbox"]').checked = ev.target.checked; sibling = sibling.nextElementSibling; } }, removeSelectedFingerprints (ev) { ev.preventDefault(); ev.stopPropagation(); ev.target.querySelector('.select-all').checked = false const device_ids = sizzle('.fingerprint-removal-item input[type="checkbox"]:checked', ev.target).map(c => c.value); this.devicelist.removeOwnDevices(device_ids) .then(this.modal.hide) .catch(err => { log.error(err); _converse.api.alert( Strophe.LogLevel.ERROR, __('Error'), [__('Sorry, an error occurred while trying to remove the devices.')] ) }); }, generateOMEMODeviceBundle (ev) { ev.preventDefault(); if (confirm(__( "Are you sure you want to generate new OMEMO keys? " + "This will remove your old keys and all previously encrypted messages will no longer be decryptable on this device.") )) { api.omemo.bundle.generate(); } } }, UserDetailsModal: { events: { 'click .fingerprint-trust .btn input': 'toggleDeviceTrust' }, initialize () { const jid = this.model.get('jid'); this.devicelist = _converse.devicelists.getDeviceList(jid); this.listenTo(this.devicelist.devices, 'change:bundle', this.render); this.listenTo(this.devicelist.devices, 'change:trusted', this.render); this.listenTo(this.devicelist.devices, 'remove', this.render); this.listenTo(this.devicelist.devices, 'add', this.render); this.listenTo(this.devicelist.devices, 'reset', this.render); return this.__super__.initialize.apply(this, arguments); }, toggleDeviceTrust (ev) { const radio = ev.target; const device = this.devicelist.devices.get(radio.getAttribute('name')); device.save('trusted', parseInt(radio.value, 10)); } }, ChatBox: { async sendMessage (text, spoiler_hint) { if (this.get('omemo_active') && text) { const attrs = this.getOutgoingMessageAttributes(text, spoiler_hint); attrs['is_encrypted'] = true; attrs['plaintext'] = attrs.message; let message, stanza; try { const devices = await _converse.getBundlesAndBuildSessions(this); message = await this.createMessage(attrs); stanza = await _converse.createOMEMOMessageStanza(this, message, devices); } catch (e) { this.handleMessageSendError(e); return null; } _converse.api.send(stanza); return message; } else { return this.__super__.sendMessage.apply(this, arguments); } } } }, initialize () { /* The initialize function gets called as soon as the plugin is * loaded by Converse.js's plugin machinery. */ api.settings.extend({'omemo_default': false}); api.promises.add(['OMEMOInitialized']); _converse.NUM_PREKEYS = 100; // Set here so that tests can override Object.assign(_converse.ChatBox.prototype, OMEMOEnabledChatBox); _converse.generateFingerprints = async function (jid) { const devices = await getDevicesForContact(jid) return Promise.all(devices.map(d => generateFingerprint(d))); } _converse.getDeviceForContact = function (jid, device_id) { return getDevicesForContact(jid).then(devices => devices.get(device_id)); } _converse.contactHasOMEMOSupport = async function (jid) { /* Checks whether the contact advertises any OMEMO-compatible devices. */ const devices = await getDevicesForContact(jid); return devices.length > 0; } _converse.getBundlesAndBuildSessions = async function (chatbox) { const no_devices_err = __("Sorry, no devices found to which we can send an OMEMO encrypted message."); let devices; if (chatbox.get('type') === _converse.CHATROOMS_TYPE) { const collections = await Promise.all(chatbox.occupants.map(o => getDevicesForContact(o.get('jid')))); devices = collections.reduce((a, b) => concat(a, b.models), []); } else if (chatbox.get('type') === _converse.PRIVATE_CHAT_TYPE) { const their_devices = await getDevicesForContact(chatbox.get('jid')); if (their_devices.length === 0) { const err = new Error(no_devices_err); err.user_facing = true; throw err; } const own_devices = _converse.devicelists.get(_converse.bare_jid).devices; devices = [...own_devices.models, ...their_devices.models]; } // Filter out our own device const id = _converse.omemo_store.get('device_id'); devices = devices.filter(d => d.get('id') !== id); // Fetch bundles if necessary await Promise.all(devices.map(d => d.getBundle())); const sessions = devices.filter(d => d).map(d => getSession(d)); await Promise.all(sessions); if (sessions.includes(null)) { // We couldn't build a session for certain devices. devices = devices.filter(d => sessions[devices.indexOf(d)]); if (devices.length === 0) { const err = new Error(no_devices_err); err.user_facing = true; throw err; } } return devices; } _converse.createOMEMOMessageStanza = function (chatbox, message, devices) { const body = __("This is an OMEMO encrypted message which your client doesn’t seem to support. "+ "Find more information on https://conversations.im/omemo"); if (!message.get('message')) { throw new Error("No message body to encrypt!"); } const stanza = $msg({ 'from': _converse.connection.jid, 'to': chatbox.get('jid'), 'type': chatbox.get('message_type'), 'id': message.get('msgid') }).c('body').t(body).up() if (message.get('type') === 'chat') { stanza.c('request', {'xmlns': Strophe.NS.RECEIPTS}).up(); } // An encrypted header is added to the message for // each device that is supposed to receive it. // These headers simply contain the key that the // payload message is encrypted with, // and they are separately encrypted using the // session corresponding to the counterpart device. stanza.c('encrypted', {'xmlns': Strophe.NS.OMEMO}) .c('header', {'sid': _converse.omemo_store.get('device_id')}); return omemo.encryptMessage(message.get('message')).then(obj => { // The 16 bytes key and the GCM authentication tag (The tag // SHOULD have at least 128 bit) are concatenated and for each // intended recipient device, i.e. both own devices as well as // devices associated with the contact, the result of this // concatenation is encrypted using the corresponding // long-standing SignalProtocol session. const promises = devices .filter(device => (device.get('trusted') != UNTRUSTED && device.get('active'))) .map(device => chatbox.encryptKey(obj.key_and_tag, device)); return Promise.all(promises) .then(dicts => addKeysToMessageStanza(stanza, dicts, obj.iv)) .then(stanza => { stanza.c('payload').t(obj.payload).up().up(); stanza.c('store', {'xmlns': Strophe.NS.HINTS}); return stanza; }); }); } _converse.OMEMOStore = Model.extend({ Direction: { SENDING: 1, RECEIVING: 2, }, getIdentityKeyPair () { const keypair = this.get('identity_keypair'); return Promise.resolve({ 'privKey': u.base64ToArrayBuffer(keypair.privKey), 'pubKey': u.base64ToArrayBuffer(keypair.pubKey) }); }, getLocalRegistrationId () { return Promise.resolve(parseInt(this.get('device_id'), 10)); }, isTrustedIdentity (identifier, identity_key, direction) { // eslint-disable-line no-unused-vars if (identifier === null || identifier === undefined) { throw new Error("Can't check identity key for invalid key"); } if (!(identity_key instanceof ArrayBuffer)) { throw new Error("Expected identity_key to be an ArrayBuffer"); } const trusted = this.get('identity_key'+identifier); if (trusted === undefined) { return Promise.resolve(true); } return Promise.resolve(u.arrayBufferToBase64(identity_key) === trusted); }, loadIdentityKey (identifier) { if (identifier === null || identifier === undefined) { throw new Error("Can't load identity_key for invalid identifier"); } return Promise.resolve(u.base64ToArrayBuffer(this.get('identity_key'+identifier))); }, saveIdentity (identifier, identity_key) { if (identifier === null || identifier === undefined) { throw new Error("Can't save identity_key for invalid identifier"); } const address = new libsignal.SignalProtocolAddress.fromString(identifier); const existing = this.get('identity_key'+address.getName()); const b64_idkey = u.arrayBufferToBase64(identity_key); this.save('identity_key'+address.getName(), b64_idkey) if (existing && b64_idkey !== existing) { return Promise.resolve(true); } else { return Promise.resolve(false); } }, getPreKeys () { return this.get('prekeys') || {}; }, loadPreKey (key_id) { const res = this.getPreKeys()[key_id]; if (res) { return Promise.resolve({ 'privKey': u.base64ToArrayBuffer(res.privKey), 'pubKey': u.base64ToArrayBuffer(res.pubKey) }); } return Promise.resolve(); }, storePreKey (key_id, key_pair) { const prekey = {}; prekey[key_id] = { 'pubKey': u.arrayBufferToBase64(key_pair.pubKey), 'privKey': u.arrayBufferToBase64(key_pair.privKey) } this.save('prekeys', Object.assign(this.getPreKeys(), prekey)); return Promise.resolve(); }, removePreKey (key_id) { this.save('prekeys', omit(this.getPreKeys(), key_id)); return Promise.resolve(); }, loadSignedPreKey (keyId) { // eslint-disable-line no-unused-vars const res = this.get('signed_prekey'); if (res) { return Promise.resolve({ 'privKey': u.base64ToArrayBuffer(res.privKey), 'pubKey': u.base64ToArrayBuffer(res.pubKey) }); } return Promise.resolve(); }, storeSignedPreKey (spk) { if (typeof spk !== "object") { // XXX: We've changed the signature of this method from the // example given in InMemorySignalProtocolStore. // Should be fine because the libsignal code doesn't // actually call this method. throw new Error("storeSignedPreKey: expected an object"); } this.save('signed_prekey', { 'id': spk.keyId, 'privKey': u.arrayBufferToBase64(spk.keyPair.privKey), 'pubKey': u.arrayBufferToBase64(spk.keyPair.pubKey), // XXX: The InMemorySignalProtocolStore does not pass // in or store the signature, but we need it when we // publish out bundle and this method isn't called from // within libsignal code, so we modify it to also store // the signature. 'signature': u.arrayBufferToBase64(spk.signature) }); return Promise.resolve(); }, removeSignedPreKey (key_id) { if (this.get('signed_prekey')['id'] === key_id) { this.unset('signed_prekey'); this.save(); } return Promise.resolve(); }, loadSession (identifier) { return Promise.resolve(this.get('session'+identifier)); }, storeSession (identifier, record) { return Promise.resolve(this.save('session'+identifier, record)); }, removeSession (identifier) { return Promise.resolve(this.unset('session'+identifier)); }, removeAllSessions (identifier) { const keys = Object.keys(this.attributes).filter(key => key.startsWith('session'+identifier) ? key : false); const attrs = {}; keys.forEach(key => {attrs[key] = undefined}); this.save(attrs); return Promise.resolve(); }, publishBundle () { const signed_prekey = this.get('signed_prekey'); const node = `${Strophe.NS.OMEMO_BUNDLES}:${this.get('device_id')}`; const item = $build('item') .c('bundle', {'xmlns': Strophe.NS.OMEMO}) .c('signedPreKeyPublic', {'signedPreKeyId': signed_prekey.id}) .t(signed_prekey.pubKey).up() .c('signedPreKeySignature').t(signed_prekey.signature).up() .c('identityKey').t(this.get('identity_keypair').pubKey).up() .c('prekeys'); Object.values(this.get('prekeys')).forEach((prekey, id) => item.c('preKeyPublic', {'preKeyId': id}).t(prekey.pubKey).up()); const options = {'pubsub#access_model': 'open'}; return api.pubsub.publish(null, node, item, options, false); }, async generateMissingPreKeys () { const missing_keys = difference( invokeMap(range(0, _converse.NUM_PREKEYS), Number.prototype.toString), Object.keys(this.getPreKeys()) ); if (missing_keys.length < 1) { log.warn("No missing prekeys to generate for our own device"); return Promise.resolve(); } const keys = await Promise.all(missing_keys.map(id => libsignal.KeyHelper.generatePreKey(parseInt(id, 10)))); keys.forEach(k => this.storePreKey(k.keyId, k.keyPair)); const marshalled_keys = Object.keys(this.getPreKeys()).map(k => ({'id': k.keyId, 'key': u.arrayBufferToBase64(k.pubKey)})); const devicelist = _converse.devicelists.get(_converse.bare_jid); const device = devicelist.devices.get(this.get('device_id')); const bundle = await device.getBundle(); device.save('bundle', Object.assign(bundle, {'prekeys': marshalled_keys})); }, /** * Generate a the data used by the X3DH key agreement protocol * that can be used to build a session with a device. */ async generateBundle () { // The first thing that needs to happen if a client wants to // start using OMEMO is they need to generate an IdentityKey // and a Device ID. The IdentityKey is a Curve25519 [6] // public/private Key pair. The Device ID is a randomly // generated integer between 1 and 2^31 - 1. const identity_keypair = await libsignal.KeyHelper.generateIdentityKeyPair(); const bundle = {}; const identity_key = u.arrayBufferToBase64(identity_keypair.pubKey); const device_id = generateDeviceID(); bundle['identity_key'] = identity_key; bundle['device_id'] = device_id; this.save({ 'device_id': device_id, 'identity_keypair': { 'privKey': u.arrayBufferToBase64(identity_keypair.privKey), 'pubKey': identity_key }, 'identity_key': identity_key }); const signed_prekey = await libsignal.KeyHelper.generateSignedPreKey(identity_keypair, 0); _converse.omemo_store.storeSignedPreKey(signed_prekey); bundle['signed_prekey'] = { 'id': signed_prekey.keyId, 'public_key': u.arrayBufferToBase64(signed_prekey.keyPair.privKey), 'signature': u.arrayBufferToBase64(signed_prekey.signature) } const keys = await Promise.all(range(0, _converse.NUM_PREKEYS).map(id => libsignal.KeyHelper.generatePreKey(id))); keys.forEach(k => _converse.omemo_store.storePreKey(k.keyId, k.keyPair)); const devicelist = _converse.devicelists.get(_converse.bare_jid); const device = await devicelist.devices.create({'id': bundle.device_id, 'jid': _converse.bare_jid}, {'promise': true}); const marshalled_keys = keys.map(k => ({'id': k.keyId, 'key': u.arrayBufferToBase64(k.keyPair.pubKey)})); bundle['prekeys'] = marshalled_keys; device.save('bundle', bundle); }, fetchSession () { if (this._setup_promise === undefined) { this._setup_promise = new Promise((resolve, reject) => { this.fetch({ 'success': () => { if (!_converse.omemo_store.get('device_id')) { this.generateBundle().then(resolve).catch(reject); } else { resolve(); } }, 'error': (model, resp) => { log.warn("Could not fetch OMEMO session from cache, we'll generate a new one."); log.warn(resp); this.generateBundle().then(resolve).catch(reject); } }); }); } return this._setup_promise; } }); /** * @class * @namespace _converse.Device * @memberOf _converse */ _converse.Device = Model.extend({ defaults: { 'trusted': UNDECIDED, 'active': true }, getRandomPreKey () { // XXX: assumes that the bundle has already been fetched const bundle = this.get('bundle'); return bundle.prekeys[u.getRandomInt(bundle.prekeys.length)]; }, async fetchBundleFromServer () { const stanza = $iq({ 'type': 'get', 'from': _converse.bare_jid, 'to': this.get('jid') }).c('pubsub', {'xmlns': Strophe.NS.PUBSUB}) .c('items', {'node': `${Strophe.NS.OMEMO_BUNDLES}:${this.get('id')}`}); let iq; try { iq = await api.sendIQ(stanza) } catch (iq) { log.error(`Could not fetch bundle for device ${this.get('id')} from ${this.get('jid')}`); log.error(iq); return null; } if (iq.querySelector('error')) { throw new IQError("Could not fetch bundle", iq); } const publish_el = sizzle(`items[node="${Strophe.NS.OMEMO_BUNDLES}:${this.get('id')}"]`, iq).pop(); const bundle_el = sizzle(`bundle[xmlns="${Strophe.NS.OMEMO}"]`, publish_el).pop(); const bundle = parseBundle(bundle_el); this.save('bundle', bundle); return bundle; }, /** * Fetch and save the bundle information associated with * this device, if the information is not cached already. * @method _converse.Device#getBundle */ getBundle () { if (this.get('bundle')) { return Promise.resolve(this.get('bundle'), this); } else { return this.fetchBundleFromServer(); } } }); _converse.Devices = Collection.extend({ model: _converse.Device, }); /** * @class * @namespace _converse.DeviceList * @memberOf _converse */ _converse.DeviceList = Model.extend({ idAttribute: 'jid', initialize () { this.devices = new _converse.Devices(); const id = `converse.devicelist-${_converse.bare_jid}-${this.get('jid')}`; this.devices.browserStorage = _converse.createStore(id); this.fetchDevices(); }, async onDevicesFound (collection) { if (collection.length === 0) { let ids; try { ids = await this.fetchDevicesFromServer() } catch (e) { if (e === null) { log.error(`Timeout error while fetching devices for ${this.get('jid')}`); } else { log.error(`Could not fetch devices for ${this.get('jid')}`); log.error(e); } this.destroy(); } if (this.get('jid') === _converse.bare_jid) { await this.publishCurrentDevice(ids); } } }, fetchDevices () { if (this._devices_promise === undefined) { this._devices_promise = new Promise(resolve => { this.devices.fetch({ 'success': c => resolve(this.onDevicesFound(c)), 'error': (m, e) => { log.error(e); resolve(); } }); }); } return this._devices_promise; }, async getOwnDeviceId () { let device_id = _converse.omemo_store.get('device_id'); if (!this.devices.findWhere({'id': device_id})) { // Generate a new bundle if we cannot find our device await _converse.omemo_store.generateBundle(); device_id = _converse.omemo_store.get('device_id'); } return device_id; }, async publishCurrentDevice (device_ids) { if (this.get('jid') !== _converse.bare_jid) { return // We only publish for ourselves. } await restoreOMEMOSession(); if (!_converse.omemo_store) { // Happens during tests. The connection gets torn down // before publishCurrentDevice has time to finish. log.warn('publishCurrentDevice: omemo_store is not defined, likely a timing issue'); return; } if (!device_ids.includes(await this.getOwnDeviceId())) { return this.publishDevices(); } }, async fetchDevicesFromServer () { const stanza = $iq({ 'type': 'get', 'from': _converse.bare_jid, 'to': this.get('jid') }).c('pubsub', {'xmlns': Strophe.NS.PUBSUB}) .c('items', {'node': Strophe.NS.OMEMO_DEVICELIST}); let iq; try { iq = await api.sendIQ(stanza); } catch (e) { log.error(e); return []; } const selector = `list[xmlns="${Strophe.NS.OMEMO}"] device`; const device_ids = sizzle(selector, iq).map(d => d.getAttribute('id')); await Promise.all( device_ids.map(id => this.devices.create({id, 'jid': this.get('jid')}, {'promise': true})) ); return device_ids; }, /** * Send an IQ stanza to the current user's "devices" PEP node to * ensure that all devices are published for potential chat partners to see. * See: https://xmpp.org/extensions/xep-0384.html#usecases-announcing */ publishDevices () { const item = $build('item', {'id': 'current'}).c('list', {'xmlns': Strophe.NS.OMEMO}) this.devices.filter(d => d.get('active')).forEach(d => item.c('device', {'id': d.get('id')}).up()); const options = {'pubsub#access_model': 'open'}; return api.pubsub.publish(null, Strophe.NS.OMEMO_DEVICELIST, item, options, false); }, removeOwnDevices (device_ids) { if (this.get('jid') !== _converse.bare_jid) { throw new Error("Cannot remove devices from someone else's device list"); } device_ids.forEach(device_id => this.devices.get(device_id).destroy()); return this.publishDevices(); } }); /** * @class * @namespace _converse.DeviceLists * @memberOf _converse */ _converse.DeviceLists = Collection.extend({ model: _converse.DeviceList, /** * Returns the {@link _converse.DeviceList} for a particular JID. * The device list will be created if it doesn't exist already. * @private * @method _converse.DeviceLists#getDeviceList * @param { String } jid - The Jabber ID for which the device list will be returned. */ getDeviceList (jid) { return this.get(jid) || this.create({'jid': jid}); } }); /******************** Event Handlers ********************/ api.waitUntil('chatBoxesInitialized').then(onChatBoxesInitialized); api.listen.on('parseMessage', parseEncryptedMessage); api.listen.on('parseMUCMessage', parseEncryptedMessage); api.listen.on('chatBoxViewInitialized', onChatInitialized); api.listen.on('chatRoomViewInitialized', onChatInitialized); api.listen.on('connected', registerPEPPushHandler); api.listen.on('getToolbarButtons', getOMEMOToolbarButton); api.listen.on('statusInitialized', initOMEMO); api.listen.on('addClientFeatures', () => api.disco.own.features.add(`${Strophe.NS.OMEMO_DEVICELIST}+notify`)); api.listen.on('userDetailsModalInitialized', contact => { const jid = contact.get('jid'); _converse.generateFingerprints(jid).catch(e => log.error(e)); }); api.listen.on('profileModalInitialized', () => { _converse.generateFingerprints(_converse.bare_jid).catch(e => log.error(e)); }); api.listen.on('afterTearDown', () => (delete _converse.omemo_store)); api.listen.on('clearSession', () => { if (_converse.shouldClearCache() && _converse.devicelists) { _converse.devicelists.clearStore(); delete _converse.devicelists; } }); /************************ API ************************/ Object.assign(_converse.api, { /** * The "omemo" namespace groups methods relevant to OMEMO * encryption. * * @namespace _converse.api.omemo * @memberOf _converse.api */ 'omemo': { /** * The "bundle" namespace groups methods relevant to the user's * OMEMO bundle. * * @namespace _converse.api.omemo.bundle * @memberOf _converse.api.omemo */ 'bundle': { /** * Lets you generate a new OMEMO device bundle * * @method _converse.api.omemo.bundle.generate * @returns {promise} Promise which resolves once we have a result from the server. */ 'generate': async () => { // Remove current device const devicelist = _converse.devicelists.get(_converse.bare_jid); const device_id = _converse.omemo_store.get('device_id'); if (device_id) { const device = devicelist.devices.get(device_id); _converse.omemo_store.unset(device_id); if (device) { await new Promise(done => device.destroy({'success': done, 'error': done})); } devicelist.devices.trigger('remove'); } // Generate new device bundle and publish // https://xmpp.org/extensions/attic/xep-0384-0.3.0.html#usecases-announcing await _converse.omemo_store.generateBundle(); await devicelist.publishDevices(); const device = devicelist.devices.get(_converse.omemo_store.get('device_id')); const fp = generateFingerprint(device); await _converse.omemo_store.publishBundle(); return fp; } } } }); } });