#!/usr/bin/env node (function () { 'use strict'; var pkg = require('../package.json'); console.log(pkg.name, pkg.version); var url = require('url'); var path = require('path'); var remote = require('../'); var state = {}; var argv = process.argv.slice(2); var confIndex = argv.indexOf('--config'); var confpath; if (-1 === confIndex) { confIndex = argv.indexOf('-c'); } confpath = argv[confIndex + 1]; function help() { console.info(''); console.info('Telebit Remote v' + pkg.version); console.info(''); console.info('Usage:'); console.info(''); console.info('\ttelebit --config '); console.info(''); console.info('Example:'); console.info(''); console.info('\ttelebit --config /etc/telebit/telebit.yml'); console.info(''); console.info('Config:'); console.info(''); console.info('\tSee https://git.coolaj86.com/coolaj86/telebit.js'); console.info(''); console.info(''); process.exit(0); } if (-1 === confIndex) { confpath = path.join(require('os').homedir(), '.config/telebit/telebit.yml'); console.info('Using default --config "' + confpath + '"'); } if (-1 !== argv.indexOf('-h') || -1 !== argv.indexOf('--help')) { help(); } if (!confpath || /^--/.test(confpath)) { help(); } require('fs').readFile(confpath, 'utf8', function (err, text) { var config; var recase = require('recase').create({}); var camelCopy = recase.camelCopy.bind(recase); if (err) { console.error("\nCouldn't load config:\n\n\t" + err.message + "\n"); process.exit(1); return; } try { config = JSON.parse(text); } catch(e1) { try { config = require('js-yaml').safeLoad(text); } catch(e2) { console.error(e1.message); console.error(e2.message); process.exit(1); return; } } state._confpath = confpath; state.config = camelCopy(config); rawTunnel(); }); function connectTunnel() { state.net = { createConnection: function (info, cb) { // data is the hello packet / first chunk // info = { data, servername, port, host, remoteFamily, remoteAddress, remotePort } var net = require('net'); // socket = { write, push, end, events: [ 'readable', 'data', 'error', 'end' ] }; var socket = net.createConnection({ port: info.port, host: info.host }, cb); return socket; } }; state.greenlock = state.config.greenlock || {}; if (!state.config.sortingHat) { state.config.sortingHat = path.resolve(__dirname, '..', 'lib/sorting-hat.js'); } // TODO sortingHat.print(); // TODO Check undefined vs false for greenlock config var tun = remote.connect({ relay: state.config.relay , config: state.config , _confpath: confpath , sortingHat: state.config.sortingHat , net: state.net , insecure: state.config.relay_ignore_invalid_certificates , token: state.token , handlers: { grant: function (grants) { console.info(""); console.info("Connect to your device by any of the following means:"); console.info(""); grants.forEach(function (arr) { if ('ssh+https' === arr[0]) { console.info("SSH+HTTPS"); } else if ('ssh' === arr[0]) { console.info("SSH"); } else if ('tcp' === arr[0]) { console.info("TCP"); } else if ('https' === arr[0]) { console.info("HTTPS"); } console.log('\t' + arr[0] + '://' + arr[1] + (arr[2] ? (':' + arr[2]) : '')); if ('ssh+https' === arr[0]) { console.info("\tex: ssh -o ProxyCommand='openssl s_client -connect %h:%p -quiet' " + arr[1] + " -p 443\n"); } else if ('ssh' === arr[0]) { console.info("\tex: ssh " + arr[1] + " -p " + arr[2] + "\n"); } else if ('tcp' === arr[0]) { console.info("\tex: netcat " + arr[1] + " " + arr[2] + "\n"); } else if ('https' === arr[0]) { console.info("\tex: curl https://" + arr[1] + "\n"); } }); } , access_token: function (jwt) { console.info("Received updated access_token:", jwt); } } , greenlockConfig: { version: state.greenlock.version || 'draft-11' , server: state.greenlock.server || 'https://acme-v02.api.letsencrypt.org/directory' , communityMember: state.greenlock.communityMember || state.config.communityMember , telemetry: state.greenlock.telemetry || state.config.telemetry , configDir: state.greenlock.configDir || path.resolve(__dirname, '..', '/etc/acme/') // TODO, store: require(state.greenlock.store.name || 'le-store-certbot').create(state.greenlock.store.options || {}) , approveDomains: function (opts, certs, cb) { // Certs being renewed are listed in certs.altnames if (certs) { opts.domains = certs.altnames; cb(null, { options: opts, certs: certs }); return; } // by virtue of the fact that it's being tunneled through a // trusted source that is already checking, we're good //if (-1 !== state.config.servernames.indexOf(opts.domains[0])) { opts.email = state.greenlock.email || state.config.email; opts.agreeTos = state.greenlock.agree || state.config.agreeTos; cb(null, { options: opts, certs: certs }); return; //} //cb(new Error("servername not found in allowed list")); } } }); function sigHandler() { console.info('Received kill signal. Attempting to exit cleanly...'); // We want to handle cleanup properly unless something is broken in our cleanup process // that prevents us from exitting, in which case we want the user to be able to send // the signal again and exit the way it normally would. process.removeListener('SIGINT', sigHandler); tun.end(); } process.on('SIGINT', sigHandler); } function rawTunnel() { if (!state.config.relay) { throw new Error("'" + state._confpath + "' is missing 'relay'"); } /* if (!(state.config.secret || state.config.token)) { console.error("You must use --secret or --token with --relay"); process.exit(1); return; } */ var location = url.parse(state.config.relay); if (!location.protocol || /\./.test(location.protocol)) { state.config.relay = 'wss://' + state.config.relay; location = url.parse(state.config.relay); } var aud = location.hostname + (location.port ? ':' + location.port : ''); state.config.relay = location.protocol + '//' + aud; if (!state.config.token && state.config.secret) { var jwt = require('jsonwebtoken'); var tokenData = { domains: Object.keys(state.config.servernames || {}).filter(function (name) { return /\./.test(name); }) , aud: aud , iss: Math.round(Date.now() / 1000) }; state.token = jwt.sign(tokenData, state.config.secret); } state.token = state.token || state.config.token; // TODO sign token with own private key, including public key and thumbprint // (much like ACME JOSE account) connectTunnel(); } /* var domainsMap = {}; var services = {}; function collectDomains(val, memo) { var vals = val.split(/,/g); function parseProxy(location) { // john.example.com // http:john.example.com:3000 // http://john.example.com:3000 var parts = location.split(':'); if (1 === parts.length) { // john.example.com -> :john.example.com:0 parts[1] = parts[0]; parts[0] = ''; parts[2] = 0; } else if (2 === parts.length) { throw new Error("invalid arguments for --domains, should use the format or ::"); } if (!parts[1]) { throw new Error("invalid arguments for --domains, should use the format or ::"); } parts[0] = parts[0].toLowerCase(); parts[1] = parts[1].toLowerCase().replace(/(\/\/)?/, ''); parts[2] = parseInt(parts[2], 10) || 0; memo.push({ protocol: parts[0] , hostname: parts[1] , port: parts[2] }); } vals.map(function (val) { return parseProxy(val); }); return memo; } function collectProxies(val, memo) { var vals = val.split(/,/g); function parseProxy(location) { // john.example.com // https:3443 // http:john.example.com:3000 // http://john.example.com:3000 var parts = location.split(':'); var dual = false; if (1 === parts.length) { // john.example.com -> :john.example.com:0 parts[1] = parts[0]; parts[0] = ''; parts[2] = 0; dual = true; } else if (2 === parts.length) { // https:3443 -> https:*:3443 parts[2] = parts[1]; parts[1] = '*'; } parts[0] = parts[0].toLowerCase(); parts[1] = parts[1].toLowerCase().replace(/(\/\/)?/, '') || '*'; parts[2] = parseInt(parts[2], 10) || 0; if (!parts[2]) { // TODO grab OS list of standard ports? if (!parts[0] || 'http' === parts[0]) { parts[2] = 80; } else if ('https' === parts[0]) { parts[2] = 443; } else { throw new Error("port must be specified - ex: tls:*:1337"); } } memo.push({ protocol: parts[0] || 'https' , hostname: parts[1] , port: parts[2] || 443 }); if (dual) { memo.push({ protocol: 'http' , hostname: parts[1] , port: 80 }); } } vals.map(function (val) { return parseProxy(val); }); return memo; } var program = require('commander'); program .version(pkg.version) //.command('jsurl ') .arguments('') .action(function (url) { program.url = url; }) .option('-k --insecure', 'Allow TLS connections to a Telebit Relay without valid certs (rejectUnauthorized: false)') .option('--locals ', 'comma separated list of : to which matching incoming http and https should forward (reverse proxy). Ex: https:8443,smtps:8465', collectProxies, [ ]) // --reverse-proxies .option('--domains ', 'comma separated list of domain names to set to the tunnel (to capture a specific protocol to a specific local port use the format https:example.com:1337 instead). Ex: example.com,example.net', collectDomains, [ ]) .option('--device [HOSTNAME]', 'Tunnel all domains associated with this device instead of specific domainnames. Use with --locals :. Ex: macbook-pro.local (the output of `hostname`)') .option('--relay ', 'the domain (or ip address) at which you are running Telebit Relay (the proxy)') // --proxy .option('--secret ', 'the same secret used by the Telebit Relay (used for JWT authentication)') .option('--token ', 'a pre-generated token for use with the Telebit Relay (instead of generating one with --secret)') .option('--agree-tos', 'agree to the Telebit Terms of Service (requires user validation)') .option('--email ', 'email address (or cloud address) for user validation') .option('--oauth3-url ', 'Cloud Authentication to use (default: https://oauth3.org)') .parse(process.argv) ; program.locals = (program.locals || []).concat(program.domains || []); program.locals.forEach(function (proxy) { // Create a map from which we can derive a list of all domains we want forwarded to us. if (proxy.hostname && proxy.hostname !== '*') { domainsMap[proxy.hostname] = true; } // Create a map of which port different protocols should be forwarded to, allowing for specific // domains to go to different ports if need be (though that only works for HTTP and HTTPS). if (proxy.protocol && proxy.port) { services[proxy.protocol] = services[proxy.protocol] || {}; if (/http/.test(proxy.protocol) && proxy.hostname && proxy.hostname !== '*') { services[proxy.protocol][proxy.hostname] = proxy.port; } else { if (services[proxy.protocol]['*'] && services[proxy.protocol]['*'] !== proxy.port) { console.error('cannot forward generic', proxy.protocol, 'traffic to multiple ports'); process.exit(1); } else { services[proxy.protocol]['*'] = proxy.port; } } } }); if (Object.keys(domainsMap).length === 0) { console.error('no domains specified'); process.exit(1); return; } // Make sure we have generic ports for HTTP and HTTPS services.https = services.https || {}; services.https['*'] = services.https['*'] || 8443; services.http = services.http || {}; services.http['*'] = services.http['*'] || services.https['*']; program.services = services; */ }());