I have a working chat application using websockets. I want to go one step further and enable encryption on my connections, however when I switch up the http server with a https one my connections start failing.
I have generated a self-signed certificate that I use on all of my websites (under the same TLD, which implies it is a wildcard certificate). I can confirm it is a valid certificate, so the problem should not be there.
This is what works (unencrypted)
var webSocketServer = require('websocket').server;
var http = require('http');
var server = http.createServer(function() {});
server.listen(webSocketsServerPort, function () {
log("system", "Server is listening on port " + webSocketsServerPort);
});
var wsServer = new webSocketServer({
httpServer: server
});
Using this I can now connect to ws://my.domain:port.
This is what does not work
var webSocketServer = require('websocket').server;
var http = require('https');
var fs = require('fs');
var server = http.createServer({
key: fs.readFileSync("path/to/host.key"),
cert: fs.readFileSync("path/to/host.pem")
});
server.listen(webSocketsServerPort, function () {
log("system", "Server is listening on port " + webSocketsServerPort);
});
var wsServer = new webSocketServer({
httpServer: server
});
With this code the server starts as well, I see the log message "Server is listening.." but when I try to connect at wss://my.domain:port the connection can not be established.
I have added an exception in my browser for the certificate because my client page and websocket server address are under the same tld and sub-domain.
What could be the problem?
It is not enough to add the site from which you'd like to connect to the websocket as exception. Go to the site https://my.domain:port (the websocket address) and add the location as exception. (It certainly is a necessary step in Firefox)
Alternatively you could import your certificate in the certificate manager into Authorities.
Edit: I can tell you what works for me.
> openssl genrsa -out key.pem
> openssl req -new -key key.pem -out csr.pem
> openssl x509 -req -days 9999 -in csr.pem -signkey key.pem -out cert.pem
setting the common name as localhost
in main.js
var https = require('https');
var ws = require('websocket').server;
var fs = require('fs');
var options = {
key:fs.readFileSync('key.pem'),
cert:fs.readFileSync('cert.pem')
};
var server = https.createServer(options,
function(req,res){res.writeHeader(200);res.end();});
server.listen(8000);
var wss = new ws({httpServer:server});
wss.on('request',function(req){
req.on('requestAccepted',function(conn){
conn.on('message',function(msg){
conn.send(msg.utf8Data + " received");
});
})
req.accept(null,req.origin);
});
then in the browser(Firefox) at https://localhost:8000 (added cert as exception)
var ws = new WebSocket('wss://localhost:8000/')
ws.onmessage = function(msg){console.log(msg.data)}
ws.send("test")
and received test received.
Bad practices combined with bad logging habits were the cause of the problem.
On opening a new connection there was a check performed to validate the origin of the request which had hardcoded http:// in there and since I was requesting it from a secure page (https://) the check no longer passed and connections were impossible.
Background:
I'm trying to communicate between a server and one (should be able to be multiple - hence the need of a CA) client through TLS.
Each node has a certificate that is signed with a common CA.
The CA is in turn self-signed.
The private key of each node is exported as key.pem.
The certificate of each node is exported as certificate.crt.
The CA certificate is exported as ca.crt.
The certificates are not bundled, just exported as is.
The server uses the following setup:
var tls = require("tls");
var fs = require("fs");
var options = {
key: fs.readFileSync("keys/key.pem", "utf8"),
cert: fs.readFileSync("keys/certificate.crt", "utf8"),
requestCert: true,
rejectUnauthorized: true,
ca: [fs.readFileSync('keys/ca.crt')]
}
var server = tls.createServer(options, function(res) {
console.log("Client connected");
console.log('Client connected',
res.authorized ? 'authorized' : 'unauthorized');
res.write("Hello World!");
res.setEncoding("utf8");
res.pipe(res);
}).listen(3000);
The client uses the following setup:
var tls = require("tls");
var fs = require("fs");
var options = {
key: fs.readFileSync("keys/key.pem", "utf8"),
cert: fs.readFileSync("keys/certificate.crt", "utf8"),
requestCert: true,
rejectUnauthorized: true,
ca: [fs.readFileSync('keys/ca.crt')]
}
var client = tls.connect(3000, options, function(){
console.log("Connected to server");
console.log(client.authorized ? "Authorized" : "Not authorized");
});
client.on("data", function(data){
console.log("Received from server", data);
client.end();
});
Note on keys / certificates:
The keys and certificates are generated with the openssl GUI / manager XCA.
The tree looks as follows:
The problem:
As you can see I am using explicit client certificate authentication and I want to disallow any non-permitted connections.
The problem with this is that the client is not able to connect, even though all the certificates come from the same CA.
The error I get from both the server (when a client connects) and the client(when it connects) is:
Error: socket hang up, code: ECONNRESET
If I disable rejectUnauthorized the client can connect, but res.authorized returns false.
What is causing authorised clients to not being able to be authenticated?
Your code is fine. I expect there is a problem with your certificates. The fact that there is no expiry date sticks out to me. I have found this OpenSSL Certificate Authority by Jamie Nguyen to be very useful.
Remember that Nodejs does not support multiple certificates in one cert file, so if you are following the guide, there is no need to copy the root ca and intermediate ca into one file. You will have to add them as separate file entries in the ca list argument.
Afaik the xca tool is build on openssl, so might be able to map the commands in openssl to xca.
I'm trying to get HTTPS working on express.js for node, and I can't figure it out.
This is my app.js code.
var express = require('express');
var fs = require('fs');
var privateKey = fs.readFileSync('sslcert/server.key');
var certificate = fs.readFileSync('sslcert/server.crt');
var credentials = {key: privateKey, cert: certificate};
var app = express.createServer(credentials);
app.get('/', function(req,res) {
res.send('hello');
});
app.listen(8000);
When I run it, it seems to only respond to HTTP requests.
I wrote simple vanilla node.js based HTTPS app:
var fs = require("fs"),
http = require("https");
var privateKey = fs.readFileSync('sslcert/server.key').toString();
var certificate = fs.readFileSync('sslcert/server.crt').toString();
var credentials = {key: privateKey, cert: certificate};
var server = http.createServer(credentials,function (req, res) {
res.writeHead(200, {'Content-Type': 'text/plain'});
res.end('Hello World\n');
});
server.listen(8000);
And when I run this app, it does respond to HTTPS requests. Note that I don't think the toString() on the fs result matters, as I've used combinations of both and still no es bueno.
EDIT TO ADD:
For production systems, you're probably better off using Nginx or HAProxy to proxy requests to your nodejs app. You can set up nginx to handle the ssl requests and just speak http to your node app.js.
EDIT TO ADD (4/6/2015)
For systems on using AWS, you are better off using EC2 Elastic Load Balancers to handle SSL Termination, and allow regular HTTP traffic to your EC2 web servers. For further security, setup your security group such that only the ELB is allowed to send HTTP traffic to the EC2 instances, which will prevent external unencrypted HTTP traffic from hitting your machines.
In express.js (since version 3) you should use that syntax:
var fs = require('fs');
var http = require('http');
var https = require('https');
var privateKey = fs.readFileSync('sslcert/server.key', 'utf8');
var certificate = fs.readFileSync('sslcert/server.crt', 'utf8');
var credentials = {key: privateKey, cert: certificate};
var express = require('express');
var app = express();
// your express configuration here
var httpServer = http.createServer(app);
var httpsServer = https.createServer(credentials, app);
httpServer.listen(8080);
httpsServer.listen(8443);
In that way you provide express middleware to the native http/https server
If you want your app running on ports below 1024, you will need to use sudo command (not recommended) or use a reverse proxy (e.g. nginx, haproxy).
First, you need to create selfsigned.key and selfsigned.crt files.
Go to Create a Self-Signed SSL Certificate Or do following steps.
Go to the terminal and run the following command.
sudo openssl req -x509 -nodes -days 365 -newkey rsa:2048 -keyout ./selfsigned.key -out selfsigned.crt
After that put the following information
Country Name (2 letter code) [AU]: US
State or Province Name (full name) [Some-State]: NY
Locality Name (eg, city) []:NY
Organization Name (eg, company) [Internet Widgits Pty Ltd]: xyz (Your - Organization)
Organizational Unit Name (eg, section) []: xyz (Your Unit Name)
Common Name (e.g. server FQDN or YOUR name) []: www.xyz.com (Your URL)
Email Address []: Your email
After creation adds key & cert file in your code, and pass the options to the server.
const express = require('express');
const https = require('https');
const fs = require('fs');
const port = 3000;
var key = fs.readFileSync(__dirname + '/../certs/selfsigned.key');
var cert = fs.readFileSync(__dirname + '/../certs/selfsigned.crt');
var options = {
key: key,
cert: cert
};
app = express()
app.get('/', (req, res) => {
res.send('Now using https..');
});
var server = https.createServer(options, app);
server.listen(port, () => {
console.log("server starting on port : " + port)
});
Finally run your application using https.
More information https://github.com/sagardere/set-up-SSL-in-nodejs
I ran into a similar issue with getting SSL to work on a port other than port 443. In my case I had a bundle certificate as well as a certificate and a key. The bundle certificate is a file that holds multiple certificates, node requires that you break those certificates into separate elements of an array.
var express = require('express');
var https = require('https');
var fs = require('fs');
var options = {
ca: [fs.readFileSync(PATH_TO_BUNDLE_CERT_1), fs.readFileSync(PATH_TO_BUNDLE_CERT_2)],
cert: fs.readFileSync(PATH_TO_CERT),
key: fs.readFileSync(PATH_TO_KEY)
};
app = express()
app.get('/', function(req,res) {
res.send('hello');
});
var server = https.createServer(options, app);
server.listen(8001, function(){
console.log("server running at https://IP_ADDRESS:8001/")
});
In app.js you need to specify https and create the server accordingly. Also, make sure that the port you're trying to use is actually allowing inbound traffic.
Including Points:
SSL setup
In config/local.js
In config/env/production.js
HTTP and WS handling
The app must run on HTTP in development so we can easily debug our
app.
The app must run on HTTPS in production for security concern.
App production HTTP request should always redirect to https.
SSL configuration
In Sailsjs there are two ways to configure all the stuff, first is to configure in config folder with each one has their separate files (like database connection regarding settings lies within connections.js ). And second is configure on environment base file structure, each environment files presents in config/env folder and each file contains settings for particular env.
Sails first looks in config/env folder and then look forward to config/ *.js
Now lets setup ssl in config/local.js.
var local = {
port: process.env.PORT || 1337,
environment: process.env.NODE_ENV || 'development'
};
if (process.env.NODE_ENV == 'production') {
local.ssl = {
secureProtocol: 'SSLv23_method',
secureOptions: require('constants').SSL_OP_NO_SSLv3,
ca: require('fs').readFileSync(__dirname + '/path/to/ca.crt','ascii'),
key: require('fs').readFileSync(__dirname + '/path/to/jsbot.key','ascii'),
cert: require('fs').readFileSync(__dirname + '/path/to/jsbot.crt','ascii')
};
local.port = 443; // This port should be different than your default port
}
module.exports = local;
Alternative you can add this in config/env/production.js too. (This snippet also show how to handle multiple CARoot certi)
Or in production.js
module.exports = {
port: 443,
ssl: {
secureProtocol: 'SSLv23_method',
secureOptions: require('constants').SSL_OP_NO_SSLv3,
ca: [
require('fs').readFileSync(__dirname + '/path/to/AddTrustExternalCARoot.crt', 'ascii'),
require('fs').readFileSync(__dirname + '/path/to/COMODORSAAddTrustCA.crt', 'ascii'),
require('fs').readFileSync(__dirname + '/path/to/COMODORSADomainValidationSecureServerCA.crt', 'ascii')
],
key: require('fs').readFileSync(__dirname + '/path/to/jsbot.key', 'ascii'),
cert: require('fs').readFileSync(__dirname + '/path/to/jsbot.crt', 'ascii')
}
};
http/https & ws/wss redirection
Here ws is Web Socket and wss represent Secure Web Socket, as we set up ssl then now http and ws both requests become secure and transform to https and wss respectively.
There are many source from our app will receive request like any blog post, social media post but our server runs only on https so when any request come from http it gives “This site can’t be reached” error in client browser. And we loss our website traffic. So we must redirect http request to https, same rules allow for websocket otherwise socket will fails.
So we need to run same server on port 80 (http), and divert all request to port 443(https). Sails first compile config/bootstrap.js file before lifting server. Here we can start our express server on port 80.
In config/bootstrap.js (Create http server and redirect all request to https)
module.exports.bootstrap = function(cb) {
var express = require("express"),
app = express();
app.get('*', function(req, res) {
if (req.isSocket)
return res.redirect('wss://' + req.headers.host + req.url)
return res.redirect('https://' + req.headers.host + req.url)
}).listen(80);
cb();
};
Now you can visit http://www.yourdomain.com, it will redirect to https://www.yourdomain.com
This is how its working for me. The redirection used will redirect all the normal http as well.
const express = require('express');
const bodyParser = require('body-parser');
const path = require('path');
const http = require('http');
const app = express();
var request = require('request');
//For https
const https = require('https');
var fs = require('fs');
var options = {
key: fs.readFileSync('certificates/private.key'),
cert: fs.readFileSync('certificates/certificate.crt'),
ca: fs.readFileSync('certificates/ca_bundle.crt')
};
// API file for interacting with MongoDB
const api = require('./server/routes/api');
// Parsers
app.use(bodyParser.json());
app.use(bodyParser.urlencoded({ extended: false }));
// Angular DIST output folder
app.use(express.static(path.join(__dirname, 'dist')));
// API location
app.use('/api', api);
// Send all other requests to the Angular app
app.get('*', (req, res) => {
res.sendFile(path.join(__dirname, 'dist/index.html'));
});
app.use(function(req,resp,next){
if (req.headers['x-forwarded-proto'] == 'http') {
return resp.redirect(301, 'https://' + req.headers.host + '/');
} else {
return next();
}
});
http.createServer(app).listen(80)
https.createServer(options, app).listen(443);
This answer is very similar to Setthase but its for LetsEncrypt (Ubuntu)
// Dependencies
const fs = require('fs');
const http = require('http');
const https = require('https');
const express = require('express');
const app = express();
// Certificate
const privateKey = fs.readFileSync('/etc/letsencrypt/live/yourdomain.com/privkey.pem', 'utf8');
const certificate = fs.readFileSync('/etc/letsencrypt/live/yourdomain.com/cert.pem', 'utf8');
const ca = fs.readFileSync('/etc/letsencrypt/live/yourdomain.com/chain.pem', 'utf8');
const credentials = {
key: privateKey,
cert: certificate,
ca: ca
};
app.use((req, res) => {
res.send('Hello there !');
});
// Starting both http & https servers
const httpServer = http.createServer(app);
const httpsServer = https.createServer(credentials, app);
httpServer.listen(80, () => {
console.log('HTTP Server running on port 80');
});
httpsServer.listen(443, () => {
console.log('HTTPS Server running on port 443');
});
You might encounter : EACCES: permission denied, open '/etc/letsencrypt/live/yourdeomain.com/privkey.pem'
The answer to that is here : Let's encrypt SSL couldn't start by "Error: EACCES: permission denied, open '/etc/letsencrypt/live/domain.net/privkey.pem'"
What worked for me is this in ubuntu ssh terminal
Get user whoami
// Create group with root and nodeuser as members
$ sudo addgroup nodecert
$ sudo adduser ubuntu nodecert
$ sudo adduser root nodecert
// Make the relevant letsencrypt folders owned by said group.
$ sudo chgrp -R nodecert /etc/letsencrypt/live
$ sudo chgrp -R nodecert /etc/letsencrypt/archive
// Allow group to open relevant folders
$ sudo chmod -R 750 /etc/letsencrypt/live
$ sudo chmod -R 750 /etc/letsencrypt/archive
sudo reboot
Use greenlock-express: Free SSL, Automated HTTPS
Greenlock handles certificate issuance and renewal (via Let's Encrypt) and http => https redirection, out-of-the box.
express-app.js:
var express = require('express');
var app = express();
app.use('/', function (req, res) {
res.send({ msg: "Hello, Encrypted World!" })
});
// DO NOT DO app.listen()
// Instead export your app:
module.exports = app;
server.js:
require('greenlock-express').create({
// Let's Encrypt v2 is ACME draft 11
version: 'draft-11'
, server: 'https://acme-v02.api.letsencrypt.org/directory'
// You MUST change these to valid email and domains
, email: 'john.doe#example.com'
, approveDomains: [ 'example.com', 'www.example.com' ]
, agreeTos: true
, configDir: "/path/to/project/acme/"
, app: require('./express-app.j')
, communityMember: true // Get notified of important updates
, telemetry: true // Contribute telemetry data to the project
}).listen(80, 443);
Screencast
Watch the QuickStart demonstration: https://youtu.be/e8vaR4CEZ5s
For Localhost
Just answering this ahead-of-time because it's a common follow-up question:
You can't have SSL certificates on localhost. However, you can use something like Telebit which will allow you to run local apps as real ones.
You can also use private domains with Greenlock via DNS-01 challenges, which is mentioned in the README along with various plugins which support it.
Non-standard Ports (i.e. no 80 / 443)
Read the note above about localhost - you can't use non-standard ports with Let's Encrypt either.
However, you can expose your internal non-standard ports as external standard ports via port-forward, sni-route, or use something like Telebit that does SNI-routing and port-forwarding / relaying for you.
You can also use DNS-01 challenges in which case you won't need to expose ports at all and you can also secure domains on private networks this way.
You can also generate a self-signed certificate using node-forge
In the code below, a new certificate is generated on startup, which means you will get a new certificate every time you restart the server.
const https = require('https')
const express = require('express')
const forge = require('node-forge')
;(function main() {
const server = https.createServer(
generateX509Certificate([
{ type: 6, value: 'http://localhost' },
{ type: 7, ip: '127.0.0.1' }
]),
makeExpressApp()
)
server.listen(8443, () => {
console.log('Listening on https://localhost:8443/')
})
})()
function generateX509Certificate(altNames) {
const issuer = [
{ name: 'commonName', value: 'example.com' },
{ name: 'organizationName', value: 'E Corp' },
{ name: 'organizationalUnitName', value: 'Washington Township Plant' }
]
const certificateExtensions = [
{ name: 'basicConstraints', cA: true },
{ name: 'keyUsage', keyCertSign: true, digitalSignature: true, nonRepudiation: true, keyEncipherment: true, dataEncipherment: true },
{ name: 'extKeyUsage', serverAuth: true, clientAuth: true, codeSigning: true, emailProtection: true, timeStamping: true },
{ name: 'nsCertType', client: true, server: true, email: true, objsign: true, sslCA: true, emailCA: true, objCA: true },
{ name: 'subjectAltName', altNames },
{ name: 'subjectKeyIdentifier' }
]
const keys = forge.pki.rsa.generateKeyPair(2048)
const cert = forge.pki.createCertificate()
cert.validity.notBefore = new Date()
cert.validity.notAfter = new Date()
cert.validity.notAfter.setFullYear(cert.validity.notBefore.getFullYear() + 1)
cert.publicKey = keys.publicKey
cert.setSubject(issuer)
cert.setIssuer(issuer)
cert.setExtensions(certificateExtensions)
cert.sign(keys.privateKey)
return {
key: forge.pki.privateKeyToPem(keys.privateKey),
cert: forge.pki.certificateToPem(cert)
}
}
function makeExpressApp() {
const app = express()
app.get('/', (req, res) => {
res.json({ message: 'Hello, friend' })
})
return app
}
Don't forget your PEM pass phrase in the credentials !
When you generate your credentials with OpenSSL (don't forget the -sha256 flag) :
OpenSSL> req -x509 -sha256 -newkey rsa:4096 -keyout key.pem -out cert.pem -days 365
Generating a RSA private key
writing new private key to 'key.pem'
Enter PEM pass phrase:
Verifying - Enter PEM pass phrase:
Your JS/TS code :
const credentials = {key: privateKey, cert: certificate, passphrase: 'YOUR passphrase'};
Reference
This is my working code for express 4.0.
express 4.0 is very different from 3.0 and others.
4.0 you have /bin/www file, which you are going to add https here.
"npm start" is standard way you start express 4.0 server.
readFileSync() function should use __dirname get current directory
while require() use ./ refer to current directory.
First you put private.key and public.cert file under /bin folder,
It is same folder as WWW file.