'use strict'; module.exports.create = function (opts) { var id = '0'; var promiseApp; function createAndBindInsecure(lex, message, cb) { // TODO conditional if 80 is being served by caddy require('../lib/insecure-server').create(lex, message.conf.externalPort, message.conf.insecurePort, message, function (err, webserver) { console.info("#" + id + " Listening on http://" + webserver.address().address + ":" + webserver.address().port, '\n'); // we are returning the promise result to the caller return cb(null, webserver, null, message); }); } function createLe(conf) { var LEX = require('letsencrypt-express'); var lex = LEX.create({ configDir: conf.letsencrypt.configDir // i.e. __dirname + '/letsencrypt.config' , approveRegistration: function (hostname, cb) { cb(null, { domains: [hostname] // TODO handle www and bare on the same cert , email: conf.letsencrypt.email , agreeTos: conf.letsencrypt.agreeTos }); /* letsencrypt.getConfig({ domains: [domain] }, function (err, config) { if (!(config && config.checkpoints >= 0)) { cb(err, null); return; } cb(null, { email: config.email // can't remember which it is, but the pyconf is different that the regular variable , agreeTos: config.tos || config.agree || config.agreeTos , server: config.server || LE.productionServerUrl , domains: config.domains || [domain] }); }); */ } }); //var letsencrypt = lex.letsencrypt; return lex; } function createAndBindServers(message, cb) { var lex; if (message.conf.letsencrypt) { lex = createLe(message.conf); } // NOTE that message.conf[x] will be overwritten when the next message comes in require('../lib/local-server').create(lex, message.conf.certPaths, message.conf.localPort, message, function (err, webserver) { if (err) { console.error('[ERROR] worker.js'); console.error(err.stack); throw err; } console.info("#" + id + " Listening on " + message.conf.protocol + "://" + webserver.address().address + ":" + webserver.address().port, '\n'); // we don't need time to pass, just to be able to return process.nextTick(function () { createAndBindInsecure(lex, message, cb); }); // we are returning the promise result to the caller return cb(null, null, webserver, message); }); } // // Worker Mode // function waitForConfig(message) { if ('walnut.init' !== message.type) { console.warn('[Worker] 0 got unexpected message:'); console.warn(message); return; } process.removeListener('message', waitForConfig); // NOTE: this callback must return a promise for an express app createAndBindServers(message, function (err, insecserver, webserver, oldMessage) { // TODO deep merge new message into old message Object.keys(message.conf).forEach(function (key) { oldMessage.conf[key] = message.conf[key]; }); var PromiseA = require('bluebird'); if (promiseApp) { return promiseApp; } promiseApp = new PromiseA(function (resolve) { function initWebServer(srvmsg) { if ('walnut.webserver.onrequest' !== srvmsg.type) { console.warn('[Worker] 1 got unexpected message:'); console.warn(srvmsg); return; } process.removeListener('message', initWebServer); resolve(require('../lib/worker').create(webserver, srvmsg)); } process.send({ type: 'walnut.webserver.listening' }); process.on('message', initWebServer); }).then(function (app) { console.info('[Worker Ready]'); return app; }); return promiseApp; }); } // // Standalone Mode // if (opts) { // NOTE: this callback must return a promise for an express app createAndBindServers(opts, function (err, insecserver, webserver/*, message*/) { var PromiseA = require('bluebird'); if (promiseApp) { return promiseApp; } promiseApp = new PromiseA(function (resolve) { opts.getConfig(function (srvmsg) { resolve(require('../lib/worker').create(webserver, srvmsg)); }); }).then(function (app) { console.info('[Standalone Ready]'); return app; }); return promiseApp; }); } else { // we are in cluster mode, as opposed to standalone mode id = require('cluster').worker.id.toString(); // We have to wait to get the configuration from the master process // before we can start our webserver console.info('[Worker #' + id + '] online!'); process.on('message', waitForConfig); } // // Debugging // process.on('exit', function (code) { // only sync code can run here console.info('uptime:', process.uptime()); console.info(process.memoryUsage()); console.info('[exit] process.exit() has been called (or master has killed us).'); console.info(code); }); process.on('beforeExit', function () { // async can be scheduled here console.info('[beforeExit] Event Loop is empty. Process will end.'); }); process.on('unhandledRejection', function (err) { // this should always throw // (it means somewhere we're not using bluebird by accident) console.error('[caught] [unhandledRejection]'); console.error(Object.keys(err)); console.error(err); console.error(err.stack); }); process.on('rejectionHandled', function (msg) { console.error('[rejectionHandled]'); console.error(msg); }); };