# LetsEncrypt Express Free SSL and Automatic HTTPS for node.js with Express, Connect, and other middleware systems. ## Install ``` npm install --save letsencrypt-express ``` ## Usage **Minimal** ```javascript 'use strict'; // Note: using staging server url, remove .testing() for production var lex = require('letsencrypt-express').testing(); var express = require('express'); var app = express(); app.use('/', function (req, res) { res.send({ success: true }); }); lex.create(app).listen(); ``` ## How Automatic? **Extremely**. * **renewals** are *fully automatic* and happen in the *background*, with **no downtime** * **registrations** are automatic in *testing*, but require a **approval callback** in *production* **testing mode** All you have to do is start the webserver and then visit it at it's domain name. The certificate will be retrieved automatically. Renewals and Registrations are automatic. **production mode** You can run **registration** manually: ```bash npm install -g letsencrypt-cli letsencrypt certonly --standalone --agree-tos --domains example.com --email user@example.com ``` (note that the `--webrootPath` option is also available if you don't want to shut down your webserver to get the cert) Or you can approve registrations with the `opts.approveRegistration(domain, cb)`callback: ```javascript { configDir: '...' // ... , approveRegistration: function (hostname, cb) { // check a database or something, get the user // show them the agreement that you've already downloaded cb(null, { domains: [hostname] , email: 'user@example.com' , agreeTos: true }); } } ``` (if you don't check and simply complete the callback, an attacker will spoof SNI packets with bad hostnames and that will cause you to be rate-limited and or blocked from the ACME server) ## Examples ### < 140 Characters Let's Encrypt in 128 characters, with spaces! ``` node -e 'require("letsencrypt-express").testing().create( require('express')().use(function (_, r) { r.end("Hi!") }) ).listen()' ``` ### More realistic ```javascript 'use strict'; // Note: using staging server url, remove .testing() for production var lex = require('letsencrypt-express').testing(); var express = require('express'); var app = express(); app.use('/', function (req, res) { res.send({ success: true }); }); lex.create({ configDir: './letsencrypt.config' // ~/letsencrypt, /etc/letsencrypt, whatever you want , onRequest: app // your express app (or plain node http app) , letsencrypt: null // you can provide you own instance of letsencrypt // if you need to configure it (with an agreeToTerms // callback, for example) , approveRegistration: function (hostname, cb) { // PRODUCTION MODE needs this function, but only if you want // automatic registration (usually not necessary) // renewals for registered domains will still be automatic cb(null, { domains: [hostname] , email: 'user@example.com' , agreeTos: true // you }); } }).listen([80], [443, 5001], function () { console.log("ENCRYPT __ALL__ THE DOMAINS!"); }); ``` ### More Options Exposed ```javascript 'use strict'; var lex = require('letsencrypt-express'); var express = require('express'); var app = express(); app.use('/', function (req, res) { res.send({ success: true }); }); var results = lex.create({ configDir: '/etc/letsencrypt' , onRequest: app , server: require('letsencrypt').productionServerUrl }).listen( // you can give just the port, or expand out to the full options [80, { port: 8080, address: 'localhost', onListening: function () { console.log('http://localhost'); } }] // you can give just the port, or expand out to the full options , [443, 5001, { port: 8443, address: 'localhost' }] // this is pretty much the default onListening handler , function onListening() { var server = this; var protocol = ('requestCert' in server) ? 'https': 'http'; console.log("Listening at " + protocol + '://localhost:' + this.address().port); } ); // In case you need access to the raw servers (i.e. using websockets) console.log(results.plainServers); console.log(results.tlsServers); ``` ### WebSockets with Let's Encrypt Note: you don't need to create websockets for the plain ports. ```javascript var WebSocketServer = require('ws').Server; results.tlsServers.forEach(function (server) { var wss = new WebSocketServer({ server: server }); wss.on('connection', onConnection); }); function onConnection(ws) { var location = url.parse(ws.upgradeReq.url, true); // you might use location.query.access_token to authenticate or share sessions // or ws.upgradeReq.headers.cookie (see http://stackoverflow.com/a/16395220/151312) ws.on('message', function incoming(message) { console.log('received: %s', message); }); ws.send('something'); } ``` ## API ``` // checks options and sets up defaults. returns object with `listen` LEX.create(options) // (it was really just done this way to appeal to what people are used to seeing) lex.listen(plain, tls, fn) // actually creates the servers and causes them to listen // receives an instance of letsencrypt, returns an SNICallback handler for https.createServer() LEX.createSniCallback(opts) // this will call letsencrypt.renew and letsencrypt.register as appropriate // it will randomly stagger renewals such that they don't all happen at once on boot // or at any other time. registrations will be handled as per `handleRegistration` opts = { letsencrypt: // letsencrypt instance , memorizeFor: <1 day> // how long to wait before checking the disk for updated certificates , renewWithin: <3 days> // the first possible moment the certificate staggering should begin , failedWait: <5 minutes> // how long to wait before trying again if the certificate registration failed // registrations are NOT approved automatically by default due to security concerns , approveRegistration: func // (someone can spoof servername indication to your server and cause you to be rate-limited) // but you can implement handling of them if you wish // (note that you should probably call the callback immediately with a tlsContext) // // default function (hostname, cb) { cb(null, null); } // // example function (hostname, cb) { // cb(null, { domains: [hostname], agreeTos: true, email: 'user@example.com' }); // } , handleRenewFailure: func // renewals are automatic, but sometimes they may fail. If that happens, you should handle it // (note that renewals happen in the background) // // default function (err, letsencrypt, hostname, certInfo) {} } // uses `opts.webrootPath` to read from the filesystem LEX.getChallenge(opts, hostname, key cb) ``` ## Options If any of these values are `undefined` or `null` the will assume use reasonable defaults. Partially defined values will be merged with the defaults. Setting the value to `false` will, in many cases (as documented), disable the defaults. ``` configDir: string // string the letsencrypt configuration path (de facto /etc/letsencrypt) // // default os.homedir() + '/letsencrypt/etc' webrootPath: string // string a path to a folder where temporary challenge files will be stored and read // // default os.tmpdir() + '/acme-challenge' getChallenge: func | false // false do not handle getChallenge // // func Example: // // default function (defaults, hostname, key, cb) { // var filename = path.join(defaults.webrootPath.replace(':hostname', hostname), key); // fs.readFile(filename, 'ascii', function (cb, text) { // cb(null, text); // }) // } httpsOptions: object // object will be merged with internal defaults and passed to https.createServer() // { pfx, key, cert, passphrase, ca, ciphers, rejectUnauthorized, secureProtocol } // See https://nodejs.org/api/https.html // Note: if SNICallback is specified, it will be run *before* // the internal SNICallback that manages automated certificates // // default uses a localhost cert and key to prevent https.createServer() from throwing an error // and also uses our SNICallback, which manages certificates sniCallback: func // func replace the default sniCallback handler (which manages certificates) with your own letsencrypt: object // object configure the letsencrypt object yourself and pass it in directly // // default we create the letsencrypt object using parameters you specify server: url // url use letsencrypt.productionServerUrl (i.e. https://acme-v01.api.letsencrypt.org/directory) // or letsencrypt.stagingServerUrl (i.e. https://acme-staging.api.letsencrypt.org/directory) // // default production ``` ## Heroku? This doesn't work on heroku because heroku uses a proxy with built-in https (which is a smart thing to do) and besides, they want you to pay big bucks for https. (hopefully not for long?...)