#!/usr/bin/env node 'use strict'; //var PromiseA = global.Promise; var PromiseA = require('bluebird'); var tls = require('tls'); var https = require('httpolyglot'); var http = require('http'); var fs = require('fs'); var path = require('path'); var DDNS = require('ddns-cli'); var httpPort = 80; var httpsPort = 443; var lrPort = 35729; var portFallback = 8443; var insecurePortFallback = 4080; function showError(err, port) { if ('EACCES' === err.code) { console.error(err); console.warn("You do not have permission to use '" + port + "'."); console.warn("You can probably fix that by running as Administrator or root."); } else if ('EADDRINUSE' === err.code) { console.warn("Another server is already running on '" + port + "'."); console.warn("You can probably fix that by rebooting your computer (or stopping it if you know what it is)."); } } function createInsecureServer(port, _delete_me_, opts) { return new PromiseA(function (realResolve) { var server = http.createServer(); function resolve() { realResolve(server); } server.on('error', function (err) { if (opts.errorInsecurePort || opts.manualInsecurePort) { showError(err, port); process.exit(1); return; } opts.errorInsecurePort = err.toString(); return createInsecureServer(insecurePortFallback, null, opts).then(resolve); }); server.on('request', opts.redirectApp); server.listen(port, function () { opts.insecurePort = port; resolve(); }); }); } function createServer(port, _delete_me_, content, opts) { function approveDomains(params, certs, cb) { // This is where you check your database and associated // email addresses with domains and agreements and such var domains = params.domains; //var p; console.log('approveDomains'); console.log(domains); // The domains being approved for the first time are listed in opts.domains // Certs being renewed are listed in certs.altnames if (certs) { params.domains = certs.altnames; //p = PromiseA.resolve(); } else { //params.email = opts.email; if (!opts.agreeTos) { console.error("You have not previously registered '" + domains + "' so you must specify --agree-tos to agree to both the Let's Encrypt and Daplie DNS terms of service."); process.exit(1); return; } params.agreeTos = opts.agreeTos; } // ddns.token(params.email, domains[0]) params.email = opts.email; params.refreshToken = opts.refreshToken; params.challengeType = 'dns-01'; params.cli = opts.argv; cb(null, { options: params, certs: certs }); } return new PromiseA(function (realResolve) { var app = require('../lib/app.js'); var directive = { content: content, livereload: opts.livereload , sites: opts.sites , expressApp: opts.expressApp }; var insecureServer; function resolve() { realResolve({ plainServer: insecureServer , server: server }); } // returns an instance of node-letsencrypt with additional helper methods var webrootPath = require('os').tmpdir(); var leChallengeFs = require('le-challenge-fs').create({ webrootPath: webrootPath }); //var leChallengeSni = require('le-challenge-sni').create({ webrootPath: webrootPath }); var leChallengeDdns = require('le-challenge-ddns').create({ ttl: 1 }); var lex = require('greenlock-express').create({ // set to https://acme-v01.api.letsencrypt.org/directory in production server: opts.debug ? 'staging' : 'https://acme-v01.api.letsencrypt.org/directory' // If you wish to replace the default plugins, you may do so here // , challenges: { 'http-01': leChallengeFs , 'tls-sni-01': leChallengeFs // leChallengeSni , 'dns-01': leChallengeDdns } , challengeType: (opts.tunnel ? 'http-01' : 'dns-01') , store: require('le-store-certbot').create({ webrootPath: webrootPath , configDir: path.join((opts.homedir || '~'), 'letsencrypt', 'etc') , homedir: opts.homedir }) , webrootPath: webrootPath // You probably wouldn't need to replace the default sni handler // See https://git.daplie.com/Daplie/le-sni-auto if you think you do //, sni: require('le-sni-auto').create({}) , approveDomains: approveDomains }); var secureContexts = { 'localhost.daplie.me': null }; opts.httpsOptions.SNICallback = function (sni, cb ) { var tlsOptions; console.log('[https] sni', sni); // Static Certs if (/.*localhost.*\.daplie\.me/.test(sni.toLowerCase())) { // TODO implement if (!secureContexts[sni]) { tlsOptions = require('localhost.daplie.me-certificates').mergeTlsOptions(sni, {}); } if (tlsOptions) { secureContexts[sni] = tls.createSecureContext(tlsOptions); } cb(null, secureContexts[sni]); return; } // Dynamic Certs lex.httpsOptions.SNICallback(sni, cb); }; var server = https.createServer(opts.httpsOptions); server.on('error', function (err) { if (opts.errorPort || opts.manualPort) { showError(err, port); process.exit(1); return; } opts.errorPort = err.toString(); return createServer(portFallback, null, content, opts).then(resolve); }); server.listen(port, function () { opts.port = port; opts.redirectOptions.port = port; if (opts.livereload) { opts.lrPort = opts.lrPort || lrPort; var livereload = require('livereload'); var server2 = livereload.createServer({ https: opts.httpsOptions , port: opts.lrPort , exclusions: [ 'node_modules' ] }); console.info("[livereload] watching " + opts.pubdir); console.warn("WARNING: If CPU usage spikes to 100% it's because too many files are being watched"); // TODO create map of directories to watch from opts.sites and iterate over it server2.watch(opts.pubdir); } // if we haven't disabled insecure port if ('false' !== opts.insecurePort) { // and both ports are the default if ((httpsPort === opts.port && httpPort === opts.insecurePort) // or other case || (httpPort !== opts.insecurePort && opts.port !== opts.insecurePort) ) { return createInsecureServer(opts.insecurePort, null, opts).then(function (_server) { insecureServer = _server; resolve(); }); } } opts.insecurePort = opts.port; resolve(); return; }); if ('function' === typeof app) { app = app(directive); } else if ('function' === typeof app.create) { app = app.create(directive); } server.on('request', function (req, res) { console.log('[' + req.method + '] ' + req.url); if (!req.socket.encrypted && !/\/\.well-known\/acme-challenge\//.test(req.url)) { opts.redirectApp(req, res); return; } if ('function' === typeof app) { app(req, res); return; } res.end('not ready'); }); return PromiseA.resolve(app).then(function (_app) { app = _app; }); }); } module.exports.createServer = createServer; function run() { var defaultServername = 'localhost.daplie.me'; var minimist = require('minimist'); var argv = minimist(process.argv.slice(2)); var port = parseInt(argv.p || argv.port || argv._[0], 10) || httpsPort; var livereload = argv.livereload; var defaultWebRoot = path.resolve(argv['default-web-root'] || argv.d || argv._[1] || process.cwd()); var content = argv.c; var letsencryptHost = argv['letsencrypt-certs']; if (argv.V || argv.version || argv.v) { if (argv.v) { console.warn("flag -v is reserved for future use. Use -V or --version for version information."); } console.info('v' + require('../package.json').version); return; } if (argv.servername && argv.sites) { throw new Error('specify only --sites, not --servername'); } argv.sites = argv.sites || argv.servername; // letsencrypt var httpsOptions = require('localhost.daplie.me-certificates').merge({}); var secureContext; var opts = { agreeTos: argv.agreeTos || argv['agree-tos'] , debug: argv.debug , device: argv.device , provider: (argv.provider && 'false' !== argv.provider) ? argv.provider : 'oauth3.org' , email: argv.email , httpsOptions: { key: httpsOptions.key , cert: httpsOptions.cert //, ca: httpsOptions.ca } , homedir: argv.homedir , argv: argv }; var peerCa; var p; opts.PromiseA = PromiseA; opts.httpsOptions.SNICallback = function (sni, cb) { if (!secureContext) { secureContext = tls.createSecureContext(opts.httpsOptions); } cb(null, secureContext); return; }; if (letsencryptHost) { // TODO remove in v3.x (aka goldilocks) argv.key = argv.key || '/etc/letsencrypt/live/' + letsencryptHost + '/privkey.pem'; argv.cert = argv.cert || '/etc/letsencrypt/live/' + letsencryptHost + '/fullchain.pem'; argv.root = argv.root || argv.chain || ''; argv.sites = argv.sites || letsencryptHost; argv['serve-root'] = argv['serve-root'] || argv['serve-chain']; // argv[express-app] } if (argv['serve-root'] && !argv.root) { console.error("You must specify bath --root to use --serve-root"); return; } if (argv.key || argv.cert || argv.root) { if (!argv.key || !argv.cert) { console.error("You must specify bath --key and --cert, and optionally --root (required with serve-root)"); return; } if (!Array.isArray(argv.root)) { argv.root = [argv.root]; } opts.httpsOptions.key = fs.readFileSync(argv.key); opts.httpsOptions.cert = fs.readFileSync(argv.cert); // turn multiple-cert pemfile into array of cert strings peerCa = argv.root.reduce(function (roots, fullpath) { if (!fs.existsSync(fullpath)) { return roots; } return roots.concat(fs.readFileSync(fullpath, 'ascii') .split('-----END CERTIFICATE-----') .filter(function (ca) { return ca.trim(); }).map(function (ca) { return (ca + '-----END CERTIFICATE-----').trim(); })); }, []); // TODO * `--verify /path/to/root.pem` require peers to present certificates from said authority if (argv.verify) { opts.httpsOptions.ca = peerCa; opts.httpsOptions.requestCert = true; opts.httpsOptions.rejectUnauthorized = true; } if (argv['serve-root']) { content = peerCa.join('\r\n'); } } opts.sites = [ { name: defaultServername , path: '.' } ]; if (argv.sites) { opts._externalHost = false; opts.sites = argv.sites.split(',').map(function (name) { var nameparts = name.split('|'); var servername = nameparts.shift(); opts._externalHost = opts._externalHost || !/(^|\.)localhost\./.test(servername); // TODO allow reverse proxy return { name: servername // there should always be a path , paths: nameparts.length && nameparts || [ defaultWebRoot.replace(/(:hostname|:servername)/g, servername) ] // TODO check for existing custom path before issuing with greenlock , _hasCustomPath: !!nameparts.length }; }); } // TODO use arrays in all things opts._old_server_name = opts.sites[0].name; opts.pubdir = defaultWebRoot.replace(/(:hostname|:servername).*/, ''); if (argv.p || argv.port || argv._[0]) { opts.manualPort = true; } if (argv.t || argv.tunnel) { opts.tunnel = true; } if (argv.i || argv['insecure-port']) { opts.manualInsecurePort = true; } opts.insecurePort = parseInt(argv.i || argv['insecure-port'], 10) || argv.i || argv['insecure-port'] || httpPort ; opts.livereload = livereload; if (argv['express-app']) { opts.expressApp = require(path.resolve(process.cwd(), argv['express-app'])); } if (opts.email || opts._externalHost) { if (!opts.agreeTos) { console.warn("You may need to specify --agree-tos to agree to both the Let's Encrypt and Daplie DNS terms of service."); } if (!opts.email) { // TODO store email in .ddnsrc.json console.warn("You may need to specify --email to register with both the Let's Encrypt and Daplie DNS."); } p = DDNS.refreshToken({ email: opts.email , providerUrl: opts.provider , silent: true , homedir: opts.homedir }, { debug: false , email: opts.argv.email }).then(function (refreshToken) { opts.refreshToken = refreshToken; }); } else { p = PromiseA.resolve(); } return p.then(function () { // can be changed to tunnel external port opts.redirectOptions = { port: opts.port }; opts.redirectApp = require('redirect-https')(opts.redirectOptions); return createServer(port, null, content, opts).then(function (servers) { var p; var httpsUrl; var httpUrl; var promise; // TODO show all sites console.info(''); console.info('Serving ' + opts.pubdir + ' at '); console.info(''); // Port httpsUrl = 'https://' + opts._old_server_name; p = opts.port; if (httpsPort !== p) { httpsUrl += ':' + p; } console.info('\t' + httpsUrl); // Insecure Port httpUrl = 'http://' + opts._old_server_name; p = opts.insecurePort; if (httpPort !== p) { httpUrl += ':' + p; } console.info('\t' + httpUrl + ' (redirecting to https)'); console.info(''); if (!(argv.sites && (defaultServername !== argv.sites) && !(argv.key && argv.cert))) { // TODO what is this condition actually intending to test again? // (I think it can be replaced with if (!opts._externalHost) { ... } // ifaces opts.ifaces = require('../lib/local-ip.js').find(); promise = PromiseA.resolve(); } else { console.info("Attempting to resolve external connection for '" + opts._old_server_name + "'"); try { promise = require('../lib/match-ips.js').match(opts._old_server_name, opts); } catch(e) { console.warn("Upgrade to version 2.x to use automatic certificate issuance for '" + opts._old_server_name + "'"); promise = PromiseA.resolve(); } } return promise.then(function (matchingIps) { if (matchingIps) { if (!matchingIps.length) { console.info("Neither the attached nor external interfaces match '" + opts._old_server_name + "'"); } } opts.matchingIps = matchingIps || []; if (opts.matchingIps.length) { console.info(''); console.info('External IPs:'); console.info(''); opts.matchingIps.forEach(function (ip) { if ('IPv4' === ip.family) { httpsUrl = 'https://' + ip.address; if (httpsPort !== opts.port) { httpsUrl += ':' + opts.port; } console.info('\t' + httpsUrl); } else { httpsUrl = 'https://[' + ip.address + ']'; if (httpsPort !== opts.port) { httpsUrl += ':' + opts.port; } console.info('\t' + httpsUrl); } }); } else if (!opts.tunnel) { console.info("External IP address does not match local IP address."); console.info("Use --tunnel to allow the people of the Internet to access your server."); } if (opts.tunnel) { require('../lib/tunnel.js').create(opts, servers); } else if (opts.ddns) { require('../lib/ddns.js').create(opts, servers); } Object.keys(opts.ifaces).forEach(function (iname) { var iface = opts.ifaces[iname]; if (iface.ipv4.length) { console.info(''); console.info(iname + ':'); httpsUrl = 'https://' + iface.ipv4[0].address; if (httpsPort !== opts.port) { httpsUrl += ':' + opts.port; } console.info('\t' + httpsUrl); if (iface.ipv6.length) { httpsUrl = 'https://[' + iface.ipv6[0].address + ']'; if (httpsPort !== opts.port) { httpsUrl += ':' + opts.port; } console.info('\t' + httpsUrl); } } }); console.info(''); }); }); }); } if (require.main === module) { run(); }