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Add standalone POC comparing WebRTC DataChannel vs Socket.IO

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Self-contained test under poc-webrtc/ that does not touch the game.
Spins up an Express + WebSocket signaling + node-datachannel server
alongside a Socket.IO server, serves a simple browser client that
runs the same game-like traffic pattern (14Hz worldUpdates, input
events, ping/pong) over either transport based on a URL flag.

Captures per-session stats to a JSONL file and ships an analyze.js
that prints a per-(transport, phase) summary of RTT percentiles,
receive rate, and seq-gap counts so the TCP-vs-UDP-style comparison
becomes quantitative rather than eyeball.

Confirms node-datachannel installs and works on this platform and
that the dual-channel (reliable + unreliable) pattern is feasible
to maintain — both prerequisites for the real integration.
This commit is contained in:
Jeena 2026-05-11 00:38:01 +00:00
parent 71e4b4e847
commit 47faae81e5
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# chuck.js WebRTC POC
Isolated test of WebRTC DataChannels (UDP-like, unreliable) as an alternative
to Socket.IO (TCP) for the game's networking. Does not touch the chuck.js code.
## Run
```
cd poc-webrtc
npm install
npm start
```
Open two browser tabs:
- http://localhost:1235/?transport=webrtc
- http://localhost:1235/?transport=socketio
Use **A/D** or **←/→** to move, **Space** to jump. The blue box is yours; yellow
boxes are other connected clients (open more tabs to add players).
The right-hand panel shows live RTT, packet rate, last received sequence
number, and number of detected sequence gaps (= packets the unreliable channel
silently dropped).
Every connection also streams its stats to the server once per second. The
server writes everything to `runs/<timestamp>.jsonl` (one file per server
start). Use the **phase buttons** on the UI before/after changing network
conditions so the analyzer can group samples per phase.
After a test session, summarize with:
```
node analyze.js
```
This prints a per-(transport, phase) table of RTT percentiles, receive rate,
and seq gap deltas — making the comparison quantitative instead of eyeball.
## What to look for
Baseline on localhost (no packet loss): both transports show single-digit
millisecond RTT and zero gaps. WebRTC's RTT may be a hair higher due to DTLS
overhead. That's fine — the point of the comparison is **under loss**.
Add packet loss via Chrome DevTools (Network → "Add custom profile" with
download/upload throttling and packet loss) **or** via `tc netem` on Linux:
```
sudo tc qdisc add dev lo root netem loss 5% delay 50ms
# … run the test …
sudo tc qdisc del dev lo root
```
Expected difference under 5% loss:
| Metric | Socket.IO | WebRTC unreliable |
|-----------------------|----------------------|------------------------|
| RTT median | rises slightly | rises slightly |
| RTT 95th percentile | spikes wildly (HoL) | stays close to median |
| Seq gaps | ≈ 0 (TCP retransmits)| matches loss rate |
| Box motion smoothness | stutters | smooth (skips a frame) |
The Socket.IO tab will stutter visibly because TCP holds back all later
packets until the dropped one is retransmitted. The WebRTC tab will drop a
worldUpdate here and there but every other update arrives on time.
## What this POC does NOT include
- TURN server (only STUN — works on localhost/LAN; real internet may need
TURN for symmetric NATs)
- Reconnection / connection-loss handling
- Auth / encryption beyond WebRTC's built-in DTLS
- chuck.js's actual protocol (it mimics the *shape* — 14Hz broadcasts, input
events, ping/pong — not the message format)
## Decision after running
If WebRTC clearly outperforms under packet loss → write the integration plan
that swaps chuck.js's Socket.IO game-command stream for an unreliable
DataChannel (keeping Socket.IO or a reliable channel for join/leave/round
control).
If the difference is marginal → the reconciliation-based approach already in
the game is probably good enough, and the integration cost isn't justified.

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// Reads a run JSONL file and prints a per-(transport, phase) summary.
// Usage: node analyze.js [runs/<file>.jsonl]
// If no file given, uses the most recent file in runs/.
"use strict";
const fs = require("fs");
const path = require("path");
function pickFile() {
if (process.argv[2]) return process.argv[2];
const dir = path.join(__dirname, "runs");
const files = fs.readdirSync(dir)
.filter((f) => f.endsWith(".jsonl"))
.map((f) => ({ f, t: fs.statSync(path.join(dir, f)).mtimeMs }))
.sort((a, b) => b.t - a.t);
if (!files.length) {
console.error("No run files in " + dir);
process.exit(1);
}
return path.join(dir, files[0].f);
}
const file = pickFile();
console.log("Analyzing: " + file + "\n");
const lines = fs.readFileSync(file, "utf8").trim().split("\n");
const events = lines.map((l) => { try { return JSON.parse(l); } catch (_) { return null; } }).filter(Boolean);
// Group stats events by (session, transport) → phase
// Phase is the most recent "phase" event for that session before this stats event.
const sessionPhase = new Map();
const bucket = new Map(); // key: transport|phase → samples
function bucketKey(transport, phase) { return transport + "|" + phase; }
for (const e of events) {
if (e.type === "session_start") {
sessionPhase.set(e.session, "unmarked");
} else if (e.type === "phase") {
sessionPhase.set(e.session, e.label || "unmarked");
} else if (e.type === "stats") {
const phase = sessionPhase.get(e.session) || "unmarked";
const k = bucketKey(e.transport, phase);
if (!bucket.has(k)) {
bucket.set(k, {
transport: e.transport, phase,
rtt: [], recvRate: [], sendRate: [], seqGaps: [], reports: 0
});
}
const b = bucket.get(k);
b.reports++;
for (const r of e.rttSamples) b.rtt.push(r);
b.recvRate.push(e.recvRate);
b.sendRate.push(e.sendRate);
b.seqGaps.push(e.seqGaps);
}
}
function pct(arr, p) {
if (!arr.length) return NaN;
const s = arr.slice().sort((a, b) => a - b);
return s[Math.min(s.length - 1, Math.floor(s.length * p))];
}
function mean(arr) { return arr.length ? arr.reduce((a, b) => a + b, 0) / arr.length : NaN; }
function fmt(n) { return Number.isFinite(n) ? n.toFixed(1) : " - "; }
function pad(s, n) { s = String(s); return s + " ".repeat(Math.max(0, n - s.length)); }
if (!bucket.size) {
console.log("No stats events found in run.");
process.exit(0);
}
const header = [
pad("transport", 10), pad("phase", 18),
pad("samples", 8), pad("rtt p50", 10), pad("rtt p95", 10),
pad("rtt p99", 10), pad("rtt max", 10),
pad("recvHz", 8), pad("gapsΔ", 8)
].join(" ");
console.log(header);
console.log("-".repeat(header.length));
const keys = [...bucket.keys()].sort();
for (const k of keys) {
const b = bucket.get(k);
const gapsDelta = b.seqGaps.length ? b.seqGaps[b.seqGaps.length - 1] - b.seqGaps[0] : 0;
console.log([
pad(b.transport, 10),
pad(b.phase, 18),
pad(b.rtt.length, 8),
pad(fmt(pct(b.rtt, 0.5)), 10),
pad(fmt(pct(b.rtt, 0.95)), 10),
pad(fmt(pct(b.rtt, 0.99)), 10),
pad(fmt(Math.max(0, ...b.rtt)), 10),
pad(fmt(mean(b.recvRate)), 8),
pad(gapsDelta, 8)
].join(" "));
}
console.log("\nLegend: rtt in ms, recvHz = worldUpdates/sec, gapsΔ = seq gaps observed during phase");

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{
"name": "chuck-webrtc-poc",
"version": "0.0.1",
"description": "POC: WebRTC DataChannel vs Socket.IO for chuck.js networking",
"main": "server.js",
"private": true,
"scripts": {
"start": "node server.js"
},
"dependencies": {
"express": "^4.18.2",
"node-datachannel": "^0.10.0",
"socket.io": "^4.7.4",
"ws": "^8.16.0"
}
}

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// WebRTC DataChannel client. Signaling over WebSocket, then two channels:
// - reliable: default settings, used for welcome/control
// - unreliable: ordered:false, maxRetransmits:0 — used for game state + pings
(function () {
const POC = window.POC;
POC.setStatus("signaling…", "wait");
const wsProto = location.protocol === "https:" ? "wss" : "ws";
const ws = new WebSocket(wsProto + "://" + location.host + "/signal");
const pc = new RTCPeerConnection({
iceServers: [{ urls: "stun:stun.l.google.com:19302" }]
});
// Create both channels client-side so the server's onDataChannel fires for both.
const reliable = pc.createDataChannel("reliable");
const unreliable = pc.createDataChannel("unreliable", {
ordered: false,
maxRetransmits: 0
});
function wireChannel(ch, label) {
ch.onopen = () => {
POC.log(`channel '${label}' open`);
if (label === "unreliable") {
POC.attach((obj) => {
if (ch.readyState === "open") ch.send(JSON.stringify(obj));
});
POC.setStatus("connected (webrtc unreliable)", "ok");
}
};
ch.onclose = () => {
POC.log(`channel '${label}' closed`);
POC.setStatus("disconnected", "bad");
};
ch.onerror = (e) => POC.log(`channel '${label}' error: ${e.message || e}`);
ch.onmessage = (e) => {
try { POC.handleMessage(JSON.parse(e.data)); }
catch (err) { POC.log("parse error: " + err.message); }
};
}
wireChannel(reliable, "reliable");
wireChannel(unreliable, "unreliable");
pc.onicecandidate = (e) => {
if (e.candidate) {
ws.send(JSON.stringify({
type: "ice",
candidate: e.candidate.candidate,
mid: e.candidate.sdpMid
}));
}
};
pc.onconnectionstatechange = () => {
POC.log("pc state: " + pc.connectionState);
if (pc.connectionState === "failed") POC.setStatus("failed", "bad");
};
ws.onopen = async () => {
POC.log("signaling open, creating offer");
const offer = await pc.createOffer();
await pc.setLocalDescription(offer);
ws.send(JSON.stringify({ type: "sdp", sdp: offer.sdp, sdpType: offer.type }));
};
ws.onmessage = async (e) => {
const m = JSON.parse(e.data);
if (m.type === "sdp") {
await pc.setRemoteDescription({ type: m.sdpType, sdp: m.sdp });
POC.log("got remote sdp (" + m.sdpType + ")");
} else if (m.type === "ice") {
try {
await pc.addIceCandidate({ candidate: m.candidate, sdpMid: m.mid });
} catch (err) {
POC.log("addIceCandidate error: " + err.message);
}
}
};
ws.onclose = () => POC.log("signaling closed");
})();

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// Shared client-side helpers: rendering, stats, input. The transport-specific
// client (client.js or socketio-client.js) calls into POC.attach() with three
// callbacks: send(obj), onmessage handler (provided by POC), and a status setter.
(function () {
const canvas = document.getElementById("world");
const ctx = canvas.getContext("2d");
const rttChart = document.getElementById("rtt-chart");
const rttCtx = rttChart.getContext("2d");
const statusEl = document.getElementById("status");
const statusDot = document.getElementById("status-dot");
const rttEl = document.getElementById("rtt");
const rttAvgEl = document.getElementById("rtt-avg");
const rttP95El = document.getElementById("rtt-p95");
const rateEl = document.getElementById("rate");
const seqEl = document.getElementById("seq");
const gapsEl = document.getElementById("gaps");
const logEl = document.getElementById("log");
const state = {
myBoxId: null,
boxes: {},
send: null,
pingSeq: 0,
outstandingPings: new Map(),
rttSamples: [], // sliding window, last 50 (for display)
rttBucket: [], // accumulator since last stats report
rateWindow: [], // worldUpdate receive times (last 1s)
sendWindow: [], // send times (last 1s)
lastSeq: 0,
seqGaps: 0,
inputSeq: 0
};
const heldKeys = new Set();
let lastSentCmd = null;
function setStatus(text, cls) {
statusEl.textContent = text;
statusDot.className = "dot " + (cls || "wait");
}
function log(line) {
const ts = new Date().toISOString().substr(11, 12);
logEl.textContent = ts + " " + line + "\n" + logEl.textContent;
if (logEl.textContent.length > 4000) logEl.textContent = logEl.textContent.slice(0, 4000);
}
function handleMessage(data) {
if (data.type === "welcome") {
state.myBoxId = data.boxId;
log("welcome boxId=" + data.boxId);
} else if (data.type === "worldUpdate") {
state.boxes = data.boxes || {};
state.rateWindow.push(performance.now());
if (data.seq > state.lastSeq + 1 && state.lastSeq > 0) {
state.seqGaps += data.seq - state.lastSeq - 1;
}
state.lastSeq = data.seq;
} else if (data.type === "pong") {
const sent = state.outstandingPings.get(data.t);
if (sent !== undefined) {
const rtt = performance.now() - sent;
state.outstandingPings.delete(data.t);
state.rttSamples.push(rtt);
state.rttBucket.push(rtt);
if (state.rttSamples.length > 50) state.rttSamples.shift();
}
}
}
function sendRaw(obj) {
if (!state.send) return;
state.sendWindow.push(performance.now());
state.send(obj);
}
function ping() {
if (!state.send) return;
const t = performance.now();
state.outstandingPings.set(t, t);
sendRaw({ type: "ping", t });
// GC stale pings (older than 5s)
for (const k of state.outstandingPings.keys()) {
if (performance.now() - k > 5000) state.outstandingPings.delete(k);
}
}
setInterval(ping, 100);
function sendInput(cmd) {
if (!state.send || lastSentCmd === cmd) return;
lastSentCmd = cmd;
state.inputSeq++;
sendRaw({ type: "input", seq: state.inputSeq, cmd });
}
// Report stats to server every 1s for offline analysis
setInterval(() => {
if (!state.send) return;
const now = performance.now();
state.sendWindow = state.sendWindow.filter((t) => now - t < 1000);
const bucket = state.rttBucket;
state.rttBucket = [];
sendRaw({
type: "stats",
rttSamples: bucket,
recvRate: state.rateWindow.length,
sendRate: state.sendWindow.length,
lastSeq: state.lastSeq,
seqGaps: state.seqGaps,
outstanding: state.outstandingPings.size
});
}, 1000);
// Phase marker buttons
function markPhase(label) {
sendRaw({ type: "phase", label });
log("phase → " + label);
}
window.POC_MARK = markPhase;
function tickInput() {
const left = heldKeys.has("ArrowLeft") || heldKeys.has("a") || heldKeys.has("A");
const right = heldKeys.has("ArrowRight") || heldKeys.has("d") || heldKeys.has("D");
if (left && !right) sendInput("left");
else if (right && !left) sendInput("right");
else if (!left && !right) sendInput("stop");
}
window.addEventListener("keydown", (e) => {
if (e.repeat) return;
heldKeys.add(e.key);
if (e.key === " " || e.key === "Spacebar") {
state.inputSeq++;
if (state.send) state.send({ type: "input", seq: state.inputSeq, cmd: "jump" });
e.preventDefault();
} else {
tickInput();
}
});
window.addEventListener("keyup", (e) => {
heldKeys.delete(e.key);
tickInput();
});
function fmt(n) { return n.toFixed(1); }
function p95(arr) {
if (!arr.length) return 0;
const sorted = arr.slice().sort((a, b) => a - b);
return sorted[Math.floor(sorted.length * 0.95)];
}
function refreshStats() {
const samples = state.rttSamples;
if (samples.length) {
const last = samples[samples.length - 1];
const avg = samples.reduce((a, b) => a + b, 0) / samples.length;
rttEl.textContent = fmt(last) + " ms";
rttAvgEl.textContent = fmt(avg) + " ms";
rttP95El.textContent = fmt(p95(samples)) + " ms";
}
const now = performance.now();
state.rateWindow = state.rateWindow.filter((t) => now - t < 1000);
rateEl.textContent = String(state.rateWindow.length);
seqEl.textContent = String(state.lastSeq);
gapsEl.textContent = String(state.seqGaps);
}
setInterval(refreshStats, 200);
function render() {
ctx.fillStyle = "#222";
ctx.fillRect(0, 0, canvas.width, canvas.height);
ctx.fillStyle = "#444";
ctx.fillRect(0, canvas.height - 20, canvas.width, 20);
for (const id in state.boxes) {
const b = state.boxes[id];
ctx.fillStyle = id === state.myBoxId ? "#4cf" : "#cc6";
ctx.fillRect(b.x - 15, b.y - 15, 30, 30);
ctx.fillStyle = "#111";
ctx.font = "10px monospace";
ctx.fillText(id, b.x - 8, b.y + 3);
}
// RTT chart
rttCtx.fillStyle = "#1c1c1c";
rttCtx.fillRect(0, 0, rttChart.width, rttChart.height);
const samples = state.rttSamples;
if (samples.length > 1) {
const max = Math.max(50, ...samples);
rttCtx.strokeStyle = "#4cf";
rttCtx.beginPath();
for (let i = 0; i < samples.length; i++) {
const x = (i / (samples.length - 1)) * rttChart.width;
const y = rttChart.height - (samples[i] / max) * (rttChart.height - 4) - 2;
if (i === 0) rttCtx.moveTo(x, y); else rttCtx.lineTo(x, y);
}
rttCtx.stroke();
rttCtx.fillStyle = "#666";
rttCtx.font = "9px monospace";
rttCtx.fillText(max.toFixed(0) + "ms", 2, 10);
}
requestAnimationFrame(render);
}
requestAnimationFrame(render);
window.POC = {
attach(send) { state.send = send; },
setStatus,
log,
handleMessage
};
})();

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<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8">
<title>chuck.js WebRTC POC</title>
<style>
body { font-family: monospace; background: #111; color: #ddd; margin: 0; padding: 12px; }
.row { display: flex; gap: 12px; align-items: flex-start; }
.panel { background: #1c1c1c; padding: 10px; border-radius: 6px; }
canvas { background: #222; border: 1px solid #333; image-rendering: pixelated; }
.stat { display: flex; justify-content: space-between; gap: 16px; min-width: 240px; }
.stat span:last-child { color: #8cf; font-weight: bold; }
h1 { font-size: 16px; margin: 0 0 8px; }
.hint { color: #888; font-size: 11px; margin-top: 8px; }
#log { font-size: 11px; line-height: 1.4; white-space: pre-wrap; max-height: 200px; overflow-y: auto; color: #888; }
.dot { display: inline-block; width: 10px; height: 10px; border-radius: 50%; vertical-align: middle; margin-right: 4px; }
.dot.ok { background: #4c4; }
.dot.bad { background: #c44; }
.dot.wait { background: #cc4; }
</style>
</head>
<body>
<h1>chuck.js networking POC — transport: <span id="transport">?</span></h1>
<div class="row">
<div class="panel">
<canvas id="world" width="800" height="600"></canvas>
<div class="hint">A/D or ←/→ move · Space jump</div>
</div>
<div class="panel">
<div class="stat"><span><span class="dot wait" id="status-dot"></span>connection</span><span id="status">connecting…</span></div>
<div class="stat"><span>RTT (last)</span><span id="rtt"> ms</span></div>
<div class="stat"><span>RTT (avg, 50)</span><span id="rtt-avg"> ms</span></div>
<div class="stat"><span>RTT (95p, 50)</span><span id="rtt-p95"> ms</span></div>
<div class="stat"><span>worldUpdate /s</span><span id="rate">0</span></div>
<div class="stat"><span>recv seq</span><span id="seq">0</span></div>
<div class="stat"><span>seq gaps</span><span id="gaps">0</span></div>
<canvas id="rtt-chart" width="240" height="80" style="margin-top:8px"></canvas>
<div style="margin-top:8px">
<div style="color:#888;font-size:11px;margin-bottom:4px">Mark phase in log:</div>
<button onclick="POC_MARK('baseline')">baseline</button>
<button onclick="POC_MARK('1%-loss')">1% loss</button>
<button onclick="POC_MARK('5%-loss')">5% loss</button>
<button onclick="POC_MARK('10%-loss+100ms')">10% + 100ms</button>
<button onclick="POC_MARK(prompt('label?')||'')">custom…</button>
</div>
<div id="log"></div>
</div>
</div>
<script>
window.POC_TRANSPORT = new URLSearchParams(location.search).get("transport") || "webrtc";
document.getElementById("transport").textContent = window.POC_TRANSPORT;
</script>
<script src="common.js"></script>
<script>
if (window.POC_TRANSPORT === "socketio") {
const s = document.createElement("script");
s.src = "/socketio/socket.io.js";
s.onload = () => { const c = document.createElement("script"); c.src = "socketio-client.js"; document.body.appendChild(c); };
document.body.appendChild(s);
} else {
const c = document.createElement("script");
c.src = "client.js";
document.body.appendChild(c);
}
</script>
</body>
</html>

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// Socket.IO comparison client. Uses the same POC.attach() / POC.handleMessage()
// interface as the WebRTC client so the comparison is apples-to-apples.
(function () {
const POC = window.POC;
POC.setStatus("connecting (socketio)…", "wait");
const sock = io({ path: "/socketio" });
sock.on("connect", () => {
POC.log("socket.io connected " + sock.id);
POC.setStatus("connected (socket.io)", "ok");
POC.attach((obj) => sock.emit("msg", obj));
});
sock.on("disconnect", () => {
POC.log("socket.io disconnected");
POC.setStatus("disconnected", "bad");
});
sock.on("connect_error", (err) => POC.log("socket.io error: " + err.message));
sock.on("msg", (data) => POC.handleMessage(data));
})();

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"use strict";
const express = require("express");
const http = require("http");
const path = require("path");
const fs = require("fs");
const { WebSocketServer } = require("ws");
const { Server: SocketIOServer } = require("socket.io");
const nodeDataChannel = require("node-datachannel");
const PORT = 1235;
// ---------------- Run logging ----------------
const RUN_FILE = path.join(__dirname, "runs", new Date().toISOString().replace(/[:.]/g, "-") + ".jsonl");
fs.mkdirSync(path.dirname(RUN_FILE), { recursive: true });
fs.writeFileSync(RUN_FILE, JSON.stringify({ type: "run_start", t: Date.now() }) + "\n");
console.log("Run log: " + RUN_FILE);
function logEvent(obj) {
obj.t = obj.t || Date.now();
fs.appendFile(RUN_FILE, JSON.stringify(obj) + "\n", () => {});
}
const TICK_HZ = 60;
const BROADCAST_HZ = 14;
const WORLD_WIDTH = 800;
const WORLD_HEIGHT = 600;
const SPEED = 240;
const app = express();
app.use(express.static(path.join(__dirname, "public")));
const server = http.createServer(app);
// ---------------- Shared game state ----------------
const boxes = {};
let nextBoxId = 1;
function createBox() {
const id = "b" + nextBoxId++;
boxes[id] = {
id,
x: WORLD_WIDTH / 2,
y: WORLD_HEIGHT / 2,
vx: 0,
vy: 0,
lastInputSeq: 0
};
return id;
}
function destroyBox(id) {
delete boxes[id];
}
function applyInput(boxId, input) {
const b = boxes[boxId];
if (!b) return;
if (input.seq !== undefined) b.lastInputSeq = input.seq;
if (input.cmd === "left") b.vx = -SPEED;
else if (input.cmd === "right") b.vx = SPEED;
else if (input.cmd === "stop") b.vx = 0;
else if (input.cmd === "jump") b.vy = -SPEED * 1.5;
}
// Common handler for stats/phase messages so both transports log identically.
function handleClientReport(session, transport, data) {
if (data.type === "stats") {
logEvent({
type: "stats",
session, transport,
rttSamples: data.rttSamples || [],
recvRate: data.recvRate || 0,
sendRate: data.sendRate || 0,
lastSeq: data.lastSeq || 0,
seqGaps: data.seqGaps || 0,
outstanding: data.outstanding || 0
});
} else if (data.type === "phase") {
logEvent({ type: "phase", session, transport, label: data.label || "" });
console.log(`[${transport}] phase: ${data.label}`);
}
}
setInterval(() => {
const dt = 1 / TICK_HZ;
for (const id in boxes) {
const b = boxes[id];
b.x += b.vx * dt;
b.y += b.vy * dt + 0.5 * 800 * dt * dt;
b.vy += 800 * dt;
if (b.x < 0) { b.x = 0; b.vx = 0; }
if (b.x > WORLD_WIDTH) { b.x = WORLD_WIDTH; b.vx = 0; }
if (b.y > WORLD_HEIGHT - 20) {
b.y = WORLD_HEIGHT - 20;
b.vy = 0;
}
}
}, 1000 / TICK_HZ);
function snapshotWorld() {
const out = {};
for (const id in boxes) {
const b = boxes[id];
out[id] = { x: b.x, y: b.y, ack: b.lastInputSeq };
}
return out;
}
// ---------------- WebRTC signaling + peer management ----------------
const wss = new WebSocketServer({ server, path: "/signal" });
const rtcPeers = new Map();
let nextPeerId = 1;
let rtcBroadcastSeq = 0;
setInterval(() => {
rtcBroadcastSeq++;
const msg = JSON.stringify({
type: "worldUpdate",
seq: rtcBroadcastSeq,
t: Date.now(),
boxes: snapshotWorld()
});
for (const peer of rtcPeers.values()) {
const ch = peer.unreliable;
if (ch && ch.isOpen()) {
try { ch.sendMessage(msg); } catch (_) {}
}
}
}, 1000 / BROADCAST_HZ);
wss.on("connection", (ws) => {
const peerId = "p" + nextPeerId++;
const boxId = createBox();
console.log(`[webrtc] signaling open ${peerId} → box ${boxId}`);
const pc = new nodeDataChannel.PeerConnection(peerId, {
iceServers: ["stun:stun.l.google.com:19302"]
});
const peer = { pc, boxId, reliable: null, unreliable: null };
rtcPeers.set(peerId, peer);
logEvent({ type: "session_start", session: peerId, transport: "webrtc", boxId });
pc.onLocalDescription((sdp, type) => {
ws.send(JSON.stringify({ type: "sdp", sdp, sdpType: type }));
});
pc.onLocalCandidate((candidate, mid) => {
ws.send(JSON.stringify({ type: "ice", candidate, mid }));
});
pc.onDataChannel((dc) => {
const label = dc.getLabel();
if (label === "reliable") peer.reliable = dc;
else if (label === "unreliable") peer.unreliable = dc;
dc.onOpen(() => {
console.log(`[webrtc] ${peerId} channel '${label}' open`);
if (label === "reliable") {
dc.sendMessage(JSON.stringify({ type: "welcome", boxId }));
}
});
dc.onMessage((msg) => {
try {
const data = JSON.parse(msg);
if (data.type === "input") {
applyInput(boxId, data);
} else if (data.type === "ping") {
dc.sendMessage(JSON.stringify({ type: "pong", t: data.t }));
} else if (data.type === "stats" || data.type === "phase") {
handleClientReport(peerId, "webrtc", data);
}
} catch (_) {}
});
dc.onClosed(() => console.log(`[webrtc] ${peerId} channel '${label}' closed`));
});
ws.on("message", (raw) => {
try {
const m = JSON.parse(raw);
if (m.type === "sdp") pc.setRemoteDescription(m.sdp, m.sdpType);
else if (m.type === "ice") pc.addRemoteCandidate(m.candidate, m.mid);
} catch (e) {
console.error("[webrtc] bad signaling msg", e);
}
});
ws.on("close", () => {
console.log(`[webrtc] signaling closed ${peerId}`);
try { pc.close(); } catch (_) {}
rtcPeers.delete(peerId);
destroyBox(boxId);
logEvent({ type: "session_end", session: peerId, transport: "webrtc" });
});
});
// ---------------- Socket.IO comparison transport ----------------
const io = new SocketIOServer(server, { path: "/socketio" });
const ioBoxes = new Map();
let ioBroadcastSeq = 0;
setInterval(() => {
ioBroadcastSeq++;
const msg = {
type: "worldUpdate",
seq: ioBroadcastSeq,
t: Date.now(),
boxes: snapshotWorld()
};
for (const sock of ioBoxes.keys()) {
sock.emit("msg", msg);
}
}, 1000 / BROADCAST_HZ);
io.on("connection", (sock) => {
const boxId = createBox();
ioBoxes.set(sock, boxId);
console.log(`[socketio] connected ${sock.id} → box ${boxId}`);
sock.emit("msg", { type: "welcome", boxId });
logEvent({ type: "session_start", session: sock.id, transport: "socketio", boxId });
sock.on("msg", (data) => {
if (data.type === "input") applyInput(boxId, data);
else if (data.type === "ping") sock.emit("msg", { type: "pong", t: data.t });
else if (data.type === "stats" || data.type === "phase") {
handleClientReport(sock.id, "socketio", data);
}
});
sock.on("disconnect", () => {
console.log(`[socketio] disconnected ${sock.id}`);
destroyBox(boxId);
ioBoxes.delete(sock);
logEvent({ type: "session_end", session: sock.id, transport: "socketio" });
});
});
server.listen(PORT, () => {
console.log(`POC server listening on http://localhost:${PORT}`);
console.log(` WebRTC test: http://localhost:${PORT}/?transport=webrtc`);
console.log(` Socket.IO: http://localhost:${PORT}/?transport=socketio`);
});
process.on("SIGINT", () => {
nodeDataChannel.cleanup();
process.exit(0);
});