define([ '/bower_components/chainpad-crypto/crypto.js', '/common/curve.js', '/common/common-hash.js', '/common/common-util.js', '/common/common-realtime.js', '/common/common-constants.js', ], function (Crypto, Curve, Hash, Util, Realtime, Constants) { 'use strict'; var Msg = { inputs: [], }; var Types = { message: 'MSG', update: 'UPDATE', unfriend: 'UNFRIEND', mapId: 'MAP_ID', mapIdAck: 'MAP_ID_ACK' }; var clone = function (o) { return JSON.parse(JSON.stringify(o)); }; // TODO // - mute a channel (hide notifications or don't open it?) var createData = Msg.createData = function (proxy, hash) { return { channel: hash || Hash.createChannelId(), displayName: proxy[Constants.displayNameKey], profile: proxy.profile && proxy.profile.view, edPublic: proxy.edPublic, curvePublic: proxy.curvePublic, avatar: proxy.profile && proxy.profile.avatar }; }; var getFriend = function (proxy, pubkey) { if (pubkey === proxy.curvePublic) { var data = createData(proxy); delete data.channel; return data; } return proxy.friends ? proxy.friends[pubkey] : undefined; }; var getFriendList = Msg.getFriendList = function (proxy) { if (!proxy.friends) { proxy.friends = {}; } return proxy.friends; }; var msgAlreadyKnown = function (channel, sig) { return channel.messages.some(function (message) { return message[0] === sig; }); }; Msg.messenger = function (store) { var messenger = { handlers: { message: [], join: [], leave: [], update: [], friend: [], unfriend: [], }, range_requests: {}, }; var eachHandler = function (type, g) { messenger.handlers[type].forEach(g); }; messenger.on = function (type, f) { var stack = messenger.handlers[type]; if (!Array.isArray(stack)) { return void console.error('unsupported message type'); } if (typeof(f) !== 'function') { return void console.error('expected function'); } stack.push(f); }; var channels = messenger.channels = {}; var joining = {}; // declare common variables var network = store.network; var proxy = store.proxy; var realtime = store.realtime; Msg.hk = network.historyKeeper; var friends = getFriendList(proxy); var getChannel = function (curvePublic) { var friend = friends[curvePublic]; if (!friend) { return; } var chanId = friend.channel; if (!chanId) { return; } return channels[chanId]; }; var initRangeRequest = function (txid, curvePublic, sig, cb) { messenger.range_requests[txid] = { messages: [], cb: cb, curvePublic: curvePublic, sig: sig, }; }; var getRangeRequest = function (txid) { return messenger.range_requests[txid]; }; var deleteRangeRequest = function (txid) { delete messenger.range_requests[txid]; }; messenger.getMoreHistory = function (curvePublic, hash, count, cb) { if (typeof(cb) !== 'function') { return; } if (typeof(hash) !== 'string') { // FIXME hash is not necessarily defined. // What does this mean? console.error("not sure what to do here"); return; } var chan = getChannel(curvePublic); if (typeof(chan) === 'undefined') { console.error("chan is undefined. we're going to have a problem here"); return; } var txid = Util.uid(); initRangeRequest(txid, curvePublic, hash, cb); var msg = [ 'GET_HISTORY_RANGE', chan.id, { from: hash, count: count, txid: txid, } ]; network.sendto(network.historyKeeper, JSON.stringify(msg)).then(function () { }, function (err) { throw new Error(err); }); }; var getCurveForChannel = function (id) { var channel = channels[id]; if (!channel) { return; } return channel.curve; }; messenger.getChannelHead = function (curvePublic, cb) { var friend = friends[curvePublic]; if (!friend) { return void cb('NO_SUCH_FRIEND'); } cb(void 0, friend.lastKnownHash); }; messenger.setChannelHead = function (curvePublic, hash, cb) { var friend = friends[curvePublic]; if (!friend) { return void cb('NO_SUCH_FRIEND'); } friend.lastKnownHash = hash; cb(); }; // Id message allows us to map a netfluxId with a public curve key var onIdMessage = function (msg, sender) { var channel; var isId = Object.keys(channels).some(function (chanId) { if (channels[chanId].userList.indexOf(sender) !== -1) { channel = channels[chanId]; return true; } }); if (!isId) { return; } var decryptedMsg = channel.encryptor.decrypt(msg); if (decryptedMsg === null) { return void console.error("Failed to decrypt message"); } if (!decryptedMsg) { console.error('decrypted message was falsey but not null'); return; } var parsed; try { parsed = JSON.parse(decryptedMsg); } catch (e) { console.error(decryptedMsg); return; } if (parsed[0] !== Types.mapId && parsed[0] !== Types.mapIdAck) { return; } // check that the responding peer's encrypted netflux id matches // the sender field. This is to prevent replay attacks. if (parsed[2] !== sender || !parsed[1]) { return; } channel.mapId[sender] = parsed[1]; eachHandler('join', function (f) { f(parsed[1], channel.id); }); if (parsed[0] !== Types.mapId) { return; } // Don't send your key if it's already an ACK // Answer with your own key var rMsg = [Types.mapIdAck, proxy.curvePublic, channel.wc.myID]; var rMsgStr = JSON.stringify(rMsg); var cryptMsg = channel.encryptor.encrypt(rMsgStr); network.sendto(sender, cryptMsg); }; var orderMessages = function (curvePublic, new_messages /*, sig */) { var channel = getChannel(curvePublic); var messages = channel.messages; // TODO improve performance, guarantee correct ordering new_messages.reverse().forEach(function (msg) { messages.unshift(msg); }); }; var removeFromFriendList = function (curvePublic, cb) { if (!proxy.friends) { return; } var friends = proxy.friends; delete friends[curvePublic]; Realtime.whenRealtimeSyncs(realtime, cb); }; var pushMsg = function (channel, cryptMsg) { var msg = channel.encryptor.decrypt(cryptMsg); var sig = cryptMsg.slice(0, 64); if (msgAlreadyKnown(channel, sig)) { return; } var parsedMsg = JSON.parse(msg); var curvePublic; if (parsedMsg[0] === Types.message) { // TODO validate messages here var res = { type: parsedMsg[0], sig: sig, author: parsedMsg[1], time: parsedMsg[2], text: parsedMsg[3], // this makes debugging a whole lot easier curve: getCurveForChannel(channel.id), }; channel.messages.push(res); eachHandler('message', function (f) { f(res); }); return true; } if (parsedMsg[0] === Types.update) { if (parsedMsg[1] === proxy.curvePublic) { return; } curvePublic = parsedMsg[1]; var newdata = parsedMsg[3]; var data = getFriend(proxy, parsedMsg[1]); var types = []; Object.keys(newdata).forEach(function (k) { if (data[k] !== newdata[k]) { types.push(k); data[k] = newdata[k]; } }); eachHandler('update', function (f) { f(clone(newdata), curvePublic); }); return; } if (parsedMsg[0] === Types.unfriend) { curvePublic = parsedMsg[1]; delete friends[curvePublic]; removeFromFriendList(parsedMsg[1], function () { channel.wc.leave(Types.unfriend); eachHandler('unfriend', function (f) { f(curvePublic); }); }); return; } }; /* Broadcast a display name, profile, or avatar change to all contacts */ // TODO send event... messenger.updateMyData = function () { var friends = getFriendList(proxy); var mySyncData = friends.me; var myData = createData(proxy); if (!mySyncData || mySyncData.displayName !== myData.displayName || mySyncData.profile !== myData.profile || mySyncData.avatar !== myData.avatar) { delete myData.channel; Object.keys(channels).forEach(function (chan) { var channel = channels[chan]; if (!channel) { return void console.error('NO_SUCH_CHANNEL'); } var msg = [Types.update, myData.curvePublic, +new Date(), myData]; var msgStr = JSON.stringify(msg); var cryptMsg = channel.encryptor.encrypt(msgStr); channel.wc.bcast(cryptMsg).then(function () { // TODO send event //channel.refresh(); }, function (err) { console.error(err); }); }); eachHandler('update', function (f) { f(myData, myData.curvePublic); }); friends.me = myData; } }; var onChannelReady = function (chanId) { var cb = joining[chanId]; if (typeof(cb) !== 'function') { return void console.error('channel ready without callback'); } delete joining[chanId]; return cb(); }; var onDirectMessage = function (msg, sender) { if (sender !== Msg.hk) { return void onIdMessage(msg, sender); } var parsed = JSON.parse(msg); if (/HISTORY_RANGE/.test(parsed[0])) { //console.log(parsed); var txid = parsed[1]; var req = getRangeRequest(txid); var type = parsed[0]; if (!req) { return void console.error("received response to unknown request"); } if (type === 'HISTORY_RANGE') { req.messages.push(parsed[2]); } else if (type === 'HISTORY_RANGE_END') { // process all the messages (decrypt) var curvePublic = req.curvePublic; var channel = getChannel(curvePublic); var decrypted = req.messages.map(function (msg) { if (msg[2] !== 'MSG') { return; } try { return { d: JSON.parse(channel.encryptor.decrypt(msg[4])), sig: msg[4].slice(0, 64), }; } catch (e) { console.log('failed to decrypt'); return null; } }).filter(function (decrypted) { return decrypted; }).map(function (O) { return { type: O.d[0], sig: O.sig, author: O.d[1], time: O.d[2], text: O.d[3], curve: curvePublic, }; }); orderMessages(curvePublic, decrypted, req.sig); req.cb(void 0, decrypted); return deleteRangeRequest(txid); } else { console.log(parsed); } return; } if ((parsed.validateKey || parsed.owners) && parsed.channel) { return; } if (parsed.state && parsed.state === 1 && parsed.channel) { if (channels[parsed.channel]) { // parsed.channel is Ready // channel[parsed.channel].ready(); channels[parsed.channel].ready = true; onChannelReady(parsed.channel); var updateTypes = channels[parsed.channel].updateOnReady; if (updateTypes) { //channels[parsed.channel].updateUI(updateTypes); } } return; } var chan = parsed[3]; if (!chan || !channels[chan]) { return; } pushMsg(channels[chan], parsed[4]); }; var onMessage = function (msg, sender, chan) { if (!channels[chan.id]) { return; } var isMessage = pushMsg(channels[chan.id], msg); if (isMessage) { if (channels[chan.id].wc.myID !== sender) { // Don't notify for your own messages //channels[chan.id].notify(); } //channels[chan.id].refresh(); // TODO emit message event } }; // listen for messages... network.on('message', function(msg, sender) { onDirectMessage(msg, sender); }); messenger.removeFriend = function (curvePublic, cb) { if (typeof(cb) !== 'function') { throw new Error('NO_CALLBACK'); } var data = getFriend(proxy, curvePublic); if (!data) { // friend is not valid console.error('friend is not valid'); return; } var channel = channels[data.channel]; if (!channel) { return void cb("NO_SUCH_CHANNEL"); } if (!network.webChannels.some(function (wc) { return wc.id === channel.id; })) { console.error('bad channel: ', curvePublic); } var msg = [Types.unfriend, proxy.curvePublic, +new Date()]; var msgStr = JSON.stringify(msg); var cryptMsg = channel.encryptor.encrypt(msgStr); // TODO emit remove_friend event? try { channel.wc.bcast(cryptMsg).then(function () { delete friends[curvePublic]; delete channels[curvePublic]; Realtime.whenRealtimeSyncs(realtime, function () { cb(); }); }, function (err) { console.error(err); cb(err); }); } catch (e) { cb(e); } }; var getChannelMessagesSince = function (chan, data, keys) { console.log('Fetching [%s] messages since [%s]', data.curvePublic, data.lastKnownHash || ''); var cfg = { validateKey: keys.validateKey, owners: [proxy.edPublic, data.edPublic], lastKnownHash: data.lastKnownHash }; var msg = ['GET_HISTORY', chan.id, cfg]; network.sendto(network.historyKeeper, JSON.stringify(msg)) .then(function () {}, function (err) { throw new Error(err); }); }; var openFriendChannel = function (data, f) { var keys = Curve.deriveKeys(data.curvePublic, proxy.curvePrivate); var encryptor = Curve.createEncryptor(keys); network.join(data.channel).then(function (chan) { var channel = channels[data.channel] = { id: data.channel, sending: false, friendEd: f, keys: keys, curve: data.curvePublic, encryptor: encryptor, messages: [], wc: chan, userList: [], mapId: {}, send: function (payload, cb) { if (!network.webChannels.some(function (wc) { if (wc.id === channel.wc.id) { return true; } })) { return void cb('NO_SUCH_CHANNEL'); } var msg = [Types.message, proxy.curvePublic, +new Date(), payload]; var msgStr = JSON.stringify(msg); var cryptMsg = channel.encryptor.encrypt(msgStr); channel.wc.bcast(cryptMsg).then(function () { pushMsg(channel, cryptMsg); cb(); }, function (err) { cb(err); }); } }; chan.on('message', function (msg, sender) { onMessage(msg, sender, chan); }); var onJoining = function (peer) { if (peer === Msg.hk) { return; } if (channel.userList.indexOf(peer) !== -1) { return; } channel.userList.push(peer); var msg = [Types.mapId, proxy.curvePublic, chan.myID]; var msgStr = JSON.stringify(msg); var cryptMsg = channel.encryptor.encrypt(msgStr); network.sendto(peer, cryptMsg); }; chan.members.forEach(function (peer) { if (peer === Msg.hk) { return; } if (channel.userList.indexOf(peer) !== -1) { return; } channel.userList.push(peer); }); chan.on('join', onJoining); chan.on('leave', function (peer) { var curvePublic = channel.mapId[peer]; var i = channel.userList.indexOf(peer); while (i !== -1) { channel.userList.splice(i, 1); i = channel.userList.indexOf(peer); } // update status if (!curvePublic) { return; } eachHandler('leave', function (f) { f(curvePublic, channel.id); }); }); // FIXME don't subscribe to the channel implicitly getChannelMessagesSince(chan, data, keys); }, function (err) { console.error(err); }); }; messenger.getFriendList = function (cb) { var friends = proxy.friends; if (!friends) { return void cb(void 0, []); } cb(void 0, Object.keys(proxy.friends).filter(function (k) { return k !== 'me'; })); }; messenger.openFriendChannel = function (curvePublic, cb) { if (typeof(curvePublic) !== 'string') { return void cb('INVALID_ID'); } if (typeof(cb) !== 'function') { throw new Error('expected callback'); } var friend = clone(friends[curvePublic]); if (typeof(friend) !== 'object') { return void cb('NO_FRIEND_DATA'); } var channel = friend.channel; if (!channel) { return void cb('E_NO_CHANNEL'); } joining[channel] = cb; openFriendChannel(friend, curvePublic); }; messenger.sendMessage = function (curvePublic, payload, cb) { var channel = getChannel(curvePublic); if (!channel) { return void cb('NO_CHANNEL'); } if (!network.webChannels.some(function (wc) { if (wc.id === channel.wc.id) { return true; } })) { return void cb('NO_SUCH_CHANNEL'); } var msg = [Types.message, proxy.curvePublic, +new Date(), payload]; var msgStr = JSON.stringify(msg); var cryptMsg = channel.encryptor.encrypt(msgStr); channel.wc.bcast(cryptMsg).then(function () { pushMsg(channel, cryptMsg); cb(); }, function (err) { cb(err); }); }; messenger.getStatus = function (curvePublic, cb) { var channel = getChannel(curvePublic); if (!channel) { return void cb('NO_SUCH_CHANNEL'); } var online = channel.userList.some(function (nId) { return channel.mapId[nId] === curvePublic; }); cb(void 0, online); }; messenger.getFriendInfo = function (curvePublic, cb) { setTimeout(function () { var friend = friends[curvePublic]; if (!friend) { return void cb('NO_SUCH_FRIEND'); } // this clone will be redundant when ui uses postmessage cb(void 0, clone(friend)); }); }; messenger.getMyInfo = function (cb) { cb(void 0, { curvePublic: proxy.curvePublic, displayName: proxy[Constants.displayNameKey] }); }; // TODO listen for changes to your friend list // emit 'update' events for clients //var update = function (curvePublic proxy.on('change', ['friends'], function (o, n, p) { var curvePublic; if (o === undefined) { // new friend added curvePublic = p.slice(-1)[0]; eachHandler('friend', function (f) { f(curvePublic, clone(n)); }); return; } console.error(o, n, p); }).on('remove', ['friends'], function (o, p) { eachHandler('unfriend', function (f) { f(p[1]); // TODO }); }); Object.freeze(messenger); return messenger; }; return Msg; });