/*global: WebSocket */ define(() => { 'use strict'; const MAX_LAG_BEFORE_PING = 15000; const MAX_LAG_BEFORE_DISCONNECT = 30000; const PING_CYCLE = 5000; const REQUEST_TIMEOUT = 5000; const now = () => new Date().getTime(); const networkSendTo = (ctx, peerId, content) => { const seq = ctx.seq++; ctx.ws.send(JSON.stringify([seq, 'MSG', peerId, content])); return new Promise((res, rej) => { ctx.requests[seq] = { reject: rej, resolve: res, time: now() }; }); }; const channelBcast = (ctx, chanId, content) => { const chan = ctx.channels[chanId]; if (!chan) { throw new Error("no such channel " + chanId); } const seq = ctx.seq++; ctx.ws.send(JSON.stringify([seq, 'MSG', chanId, content])); return new Promise((res, rej) => { ctx.requests[seq] = { reject: rej, resolve: res, time: now() }; }); }; const channelLeave = (ctx, chanId, reason) => { const chan = ctx.channels[chanId]; if (!chan) { throw new Error("no such channel " + chanId); } delete ctx.channels[chanId]; ctx.ws.send(JSON.stringify([ctx.seq++, 'LEAVE', chanId, reason])); }; const makeEventHandlers = (ctx, mappings) => { return (name, handler) => { const handlers = mappings[name]; if (!handlers) { throw new Error("no such event " + name); } handlers.push(handler); }; }; const mkChannel = (ctx, id) => { const internal = { onMessage: [], onJoin: [], onLeave: [], members: [], jSeq: ctx.seq++ }; const chan = { _: internal, id: id, members: internal.members, bcast: (msg) => channelBcast(ctx, chan.id, msg), leave: (reason) => channelLeave(ctx, chan.id, reason), on: makeEventHandlers(ctx, { message: internal.onMessage, join: internal.onJoin, leave: internal.onLeave }) }; ctx.requests[internal.jSeq] = chan; ctx.ws.send(JSON.stringify([internal.jSeq, 'JOIN', id])); return new Promise((res, rej) => { chan._.resolve = res; chan._.reject = rej; }) }; const mkNetwork = (ctx) => { const network = { webChannels: ctx.channels, getLag: () => (ctx.lag), sendto: (peerId, content) => (networkSendTo(ctx, peerId, content)), join: (chanId) => (mkChannel(ctx, chanId)), on: makeEventHandlers(ctx, { message: ctx.onMessage, disconnect: ctx.onDisconnect }) }; network.__defineGetter__("webChannels", () => { return Object.keys(ctx.channels).map((k) => (ctx.channels[k])); }); return network; }; const onMessage = (ctx, evt) => { let msg; try { msg = JSON.parse(evt.data); } catch (e) { console.log(e.stack); return; } if (msg[0] !== 0) { const req = ctx.requests[msg[0]]; if (!req) { console.log("error: " + JSON.stringify(msg)); return; } delete ctx.requests[msg[0]]; if (msg[1] === 'ACK') { if (req.ping) { // ACK of a PING ctx.lag = now() - Number(req.ping); return; } req.resolve(); } else if (msg[1] === 'JACK') { if (req._) { // Channel join request... if (!msg[2]) { throw new Error("wrong type of ACK for channel join"); } req.id = msg[2]; ctx.channels[req.id] = req; return; } req.resolve(); } else if (msg[1] === 'ERROR') { req.reject({ type: msg[2], message: msg[3] }); } else { req.reject({ type: 'UNKNOWN', message: JSON.stringify(msg) }); } return; } if (msg[2] === 'IDENT') { ctx.uid = msg[3]; setInterval(() => { if (now() - ctx.timeOfLastMessage < MAX_LAG_BEFORE_PING) { return; } let seq = ctx.seq++; let currentDate = now(); ctx.requests[seq] = {time: now(), ping: currentDate}; ctx.ws.send(JSON.stringify([seq, 'PING', currentDate])); if (now() - ctx.timeOfLastMessage > MAX_LAG_BEFORE_DISCONNECT) { ctx.ws.close(); } }, PING_CYCLE); return; } else if (!ctx.uid) { // extranious message, waiting for an ident. return; } if (msg[2] === 'PING') { msg[1] = 'PONG'; ctx.ws.send(JSON.stringify(msg)); return; } if (msg[2] === 'MSG') { let handlers; if (msg[3] === ctx.uid) { handlers = ctx.onMessage; } else { const chan = ctx.channels[msg[3]]; if (!chan) { console.log("message to non-existant chan " + JSON.stringify(msg)); return; } handlers = chan._.onMessage; } handlers.forEach((h) => { try { h(msg[4], msg[1]); } catch (e) { console.error(e); } }); } if (msg[2] === 'LEAVE') { const chan = ctx.channels[msg[3]]; if (!chan) { console.log("leaving non-existant chan " + JSON.stringify(msg)); return; } chan._.onLeave.forEach((h) => { try { h(msg[1], msg[4]); } catch (e) { console.log(e.stack); } }); } if (msg[2] === 'JOIN') { const chan = ctx.channels[msg[3]]; if (!chan) { console.log("ERROR: join to non-existant chan " + JSON.stringify(msg)); return; } // have we yet fully joined the chan? const synced = (chan._.members.indexOf(ctx.uid) !== -1); chan._.members.push(msg[1]); if (!synced && msg[1] === ctx.uid) { // sync the channel join event chan.myID = ctx.uid; chan._.resolve(chan); } if (synced) { chan._.onJoin.forEach((h) => { try { h(msg[1]); } catch (e) { console.log(e.stack); } }); } } }; const connect = (websocketURL) => { let ctx = { ws: new WebSocket(websocketURL), seq: 1, lag: 0, uid: null, network: null, channels: {}, onMessage: [], onDisconnect: [], requests: {} }; setInterval(() => { for (let id in ctx.requests) { const req = ctx.requests[id]; if (now() - req.time > REQUEST_TIMEOUT) { delete ctx.requests[id]; req.reject({ type: 'TIMEOUT', message: 'waited ' + now() - req.time + 'ms' }); } } }, 5000); ctx.network = mkNetwork(ctx); ctx.ws.onmessage = (msg) => (onMessage(ctx, msg)); ctx.ws.onclose = (evt) => { ctx.onDisconnect.forEach((h) => { try { h(evt.reason); } catch (e) { console.log(e.stack); } }); }; return new Promise((resolve, reject) => { ctx.ws.onopen = () => resolve(ctx.network); }); }; return { connect: connect }; });