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tunnel.mjs
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tunnel.mjs
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// This does not work behind CGNAT nor Docker bridge NAT (you need access to host network card)!
import { once } from 'node:events';
import net from 'node:net';
import tls from 'node:tls';
import dgram from 'node:dgram';
import https from 'node:https';
import http from 'node:http';
// CloudFlare Tunnel to self
const tcpWebsite = new URL('https://...');
const sleep = ms => new Promise(resolve => setTimeout(resolve, ms));
const args = process.argv.slice(2);
const tcp = [];
const udp = [];
for (const arg of args) {
const type = arg.slice(0, 4);
if (type === 'tcp/' || type === 'udp/') {
const target = type === 'tcp/' ? tcp : udp;
const slash = arg.indexOf('/', 4);
const task = slash === -1 ? {
port: arg.slice(4),
name: arg,
} : {
port: arg.slice(4, slash),
name: arg.slice(slash + 1),
};
const colon = task.port.indexOf(':');
if (colon !== -1) {
task.host = task.port.slice(0, colon);
task.port = task.port.slice(colon + 1);
} else {
task.host = '127.0.0.1';
}
target.push(task);
}
}
const proxyTcp = (from, task) => {
const server = net.createServer({
noDelay: true,
}, source => {
const target = net.connect({
host: task.host,
port: task.port,
noDelay: true,
});
source.once('close', () => {
target.resume();
if (!target.writableEnded) {
target.end();
}
});
target.once('close', () => {
source.resume();
if (!source.writableEnded) {
source.end();
}
});
target.once('error', () => {
source.resetAndDestroy();
});
source.once('error', () => {
target.resetAndDestroy();
});
target.pipe(source);
source.pipe(target);
}).listen(from, () => {
const connect = () => {
let connected;
const socket = net.connect(task.public.port, task.public.ip, () => {
connected = true;
socket.resetAndDestroy();
});
socket.once('error', error => {
// console.error(`heartbeat failed: connected=${connected} ${error.code} ${task.public.ip}:${task.public.port}`);
});
socket.once('close', hadError => {
if (hadError && !connected) {
server.close();
runTcpTask(task);
} else {
// console.error(`heartbeat ok: ${task.public.ip}:${task.public.port}`);
setTimeout(() => {
connect();
}, 15000);
}
});
};
connect();
});
};
const hole = async () => {
const socket = net.connect({
host: tcpWebsite.hostname,
port: 443,
family: 4,
localPort: 0,
noDelay: true,
});
socket.setTimeout(1000, () => {
socket.resetAndDestroy();
});
const secure = tls.connect({
socket,
ALPNProtocols: ['http/1.1'],
servername: tcpWebsite.hostname,
});
const request = https.request(tcpWebsite, { createConnection: () => secure });
request.end();
const [ response ] = await once(request, 'response');
const { localPort } = response.req.socket;
const chunks = [];
for await (const chunk of response) {
chunks.push(chunk);
}
request.once('error', () => {
// No need to handle RST
});
// RST is required to skip TIME_WAIT
socket.resetAndDestroy();
if (!socket.closed) {
await once(socket, 'close');
}
// Sleep to allow the kernel free the port
await sleep(2000);
const body = Buffer.concat(chunks).toString();
try {
return [ localPort, JSON.parse(body) ];
} catch {
throw body;
}
};
const runTcpTask = async task => {
delete task.public;
let localPort;
do {
try {
const result = await hole();
task.public = result[1];
localPort = result[0];
break;
} catch (error) {
if ('code' in error || String(error).startsWith('error code: ')) {
await sleep(1000);
} else {
throw error;
}
}
} while (true);
proxyTcp(localPort, task);
};
const runUdpTask = task => {
throw new Error('UDP holepunching is temporarily unsupported');
};
const server = http.createServer((request, response) => {
const name = request.url.slice(1);
for (const task of tcp) {
if (task.name === name) {
if (task.public === undefined) {
response.end('null');
return;
}
response.end(`${task.public.ip}:${task.public.port}`);
return;
}
}
response.end(JSON.stringify({
ip: request.headers['cf-connecting-ip'],
port: request.headers['x-client-port'],
}, undefined, '\t'));
}).listen(80, async () => {
console.log(tcpWebsite.origin);
console.log('TCP services:', tcp);
do {
try {
console.log('Checking connectivity...');
await hole();
console.log('OK!');
break;
} catch (error) {
console.log(error);
await sleep(1000);
}
} while (true);
for (const task of tcp) {
runTcpTask(task);
}
for (const task of udp) {
runUdpTask(task);
}
});