255 lines
8.1 KiB
Markdown
255 lines
8.1 KiB
Markdown
# Painless Self Signed Certificates in node.js
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# Try the code
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I made a complete, cloneable example:
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https://git.coolaj86.com/coolaj86/nodejs-self-signed-certificate-example
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# TL;DR
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If you don't like to read you can just **copy and paste** this into your terminal.
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## Create your Root CA and your Signed Certificate
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**STOP**: There is one thing you need to change: Replace `CN=local.ldsconnect.org` with your domain.
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**HOWEVER**, `local.ldsconnect.org` points to `127.0.0.1`, so this example will work if you simply copy and paste with 0 modifications.
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```bash
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# make directories to work from
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mkdir -p server/ client/ all/
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# Create your very own Root Certificate Authority
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openssl genrsa \
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-out all/my-private-root-ca.key.pem \
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2048
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# Self-sign your Root Certificate Authority
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# Since this is private, the details can be as bogus as you like
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openssl req \
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-x509 \
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-new \
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-nodes \
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-key all/my-private-root-ca.key.pem \
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-days 1024 \
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-out all/my-private-root-ca.crt.pem \
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-subj "/C=US/ST=Utah/L=Provo/O=ACME Signing Authority Inc/CN=example.com"
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# Create a Device Certificate for each domain,
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# such as example.com, *.example.com, awesome.example.com
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# NOTE: You MUST match CN to the domain name or ip address you want to use
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openssl genrsa \
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-out all/my-server.key.pem \
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2048
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# Create a request from your Device, which your Root CA will sign
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openssl req -new \
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-key all/my-server.key.pem \
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-out all/my-server.csr.pem \
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-subj "/C=US/ST=Utah/L=Provo/O=ACME Tech Inc/CN=local.ldsconnect.org"
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# Sign the request from Device with your Root CA
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openssl x509 \
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-req -in all/my-server.csr.pem \
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-CA all/my-private-root-ca.crt.pem \
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-CAkey all/my-private-root-ca.key.pem \
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-CAcreateserial \
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-out all/my-server.crt.pem \
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-days 500
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# Put things in their proper place
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rsync -a all/my-server.{key,crt}.pem server/
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rsync -a all/my-private-root-ca.crt.pem server/
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rsync -a all/my-private-root-ca.crt.pem client/
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```
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The only **3 files** you need **on your server** are these:
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```bash
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server
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├── my-private-root-ca.crt.pem
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├── my-server.crt.pem
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└── my-server.key.pem
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```
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The **1 file** you need **on your clients** is this:
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```bash
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client
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└── my-private-root-ca.crt.pem
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```
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## Your server
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```javascript
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#!/usr/bin/env node
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'use strict';
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var https = require('https')
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, port = process.argv[2] || 4443
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, fs = require('fs')
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, path = require('path')
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, server
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, options
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;
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require('ssl-root-cas')
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.inject()
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.addFile(path.join(__dirname, 'server', 'my-private-root-ca.crt.pem'))
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;
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options = {
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key: fs.readFileSync(path.join(__dirname, 'server', 'my-server.key.pem'))
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// You don't need to specify `ca`, it's done by `ssl-root-cas`
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//, ca: [ fs.readFileSync(path.join(__dirname, 'server', 'my-private-root-ca.crt.pem'))]
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, cert: fs.readFileSync(path.join(__dirname, 'server', 'my-server.crt.pem'))
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};
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function app(req, res) {
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res.setHeader('Content-Type', 'text/plain');
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res.end('Hello, encrypted world!');
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}
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server = https.createServer(options, app).listen(port, function () {
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port = server.address().port;
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console.log('Listening on https://127.0.0.1:' + port);
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console.log('Listening on https://' + server.address().address + ':' + port);
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console.log('Listening on https://local.ldsconnect.org:' + port);
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});
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```
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## Your client
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```javascript
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#!/usr/bin/env node
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var https = require('https')
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, fs = require('fs')
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, path = require('path')
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, ca = fs.readFileSync(path.join(__dirname, 'client', 'my-private-root-ca.crt.pem'))
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;
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var options = {
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host: 'local.ldsconnect.org',
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path: '/',
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ca: ca
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};
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options.agent = new https.Agent(options);
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https.request(options, function(res) {
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res.pipe(process.stdout);
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}).end();
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```
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# What you need to know
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I struggled for a bit with self-signed certificates until I found out that **YOU'RE NOT SUPPOSED TO SERVE SELF-SIGNED CERTIFICATES**.
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Seriously. They're not supposed to be public-facing. And that's why you get some many various types of errors that are difficult to resolve such as `SSL certificate problem: Invalid certificate chain` and `DEPTH_ZERO_SELF_SIGNED_CERT`.
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The purpose of self-signed certificates is for Root CAs to hide them away in a safe place and occasionally sign 2nd-tier certificates which sign 3rd-tier certificates which sign... and so forth until you pay just $24.97 for an Nth-tier certificate that only works in the most recent browsers and devices.
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So here's how to win:
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* Create a CA - **KEEP IT PRIVATE** (your server never sees it except the `.crt.pem`)
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* Self-sign your CA
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* Create a **server certificate**
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* Sign your public-facing cert **THIS IS PUBLIC** (but none of it ever leaves your server and the clients never see any of it)
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## Create A Certificate Authority
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Since this is for **private** use and testing it doesn't much matter if the information is correct or not.
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If you want, you can just copy and paste this directly:
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```bash
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openssl genrsa \
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-out my-private-root-ca.key.pem \
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2048
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```
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That creates a key *without a passphrase*. If you want to protect this key with a passphrase, add the option `-des3`.
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## Sign your Certificate Authority with itself
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Normally you have to create a signing request (csr.pem) and then have it signed. This does both in one step.
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```bash
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openssl req \
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-x509 \
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-new \
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-nodes \
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-key my-private-root-ca.key.pem \
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-days 1024 \
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-out my-private-root-ca.crt.pem \
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-subj "/C=US/ST=Utah/L=Provo/O=ACME Signing Authority Inc/CN=example.com"
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```
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* `-new` means your generating a new signature, this is why you don't have to provide an infile
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* `-key` is the key you're using to sign it
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* `-nodes` means "no des" or "don't encrypt with a des cipher" or, most simply, "no password"
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If you want to keep this cert in a safe place and sign lots of stuff with it, then you should put a passphrase on it.
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## Create your SERVER cert
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Looks pretty familiar, eh?
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```bash
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openssl genrsa \
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-out my-server.key.pem \
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2048
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```
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## Create a signing request (csr.pem)
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It's important to note that **the CN MUST match YOUR domain**.
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If I want to use this certificate with `api.example.com` then it must say exactly that, `example.com` will not work. And although `*.example.com` is a valid wildcard for `api.example.com`, it will not work for `example.com` (you would need two certificates, and SNL vhosting or the [v3_req subjectAltName extension](http://techbrahmana.blogspot.com/2013/10/creating-wildcard-self-signed.html))
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**CN** may also be an IP address.
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```bash
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openssl req -new \
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-key my-server.key.pem \
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-out my-server.csr.pem \
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-subj "/C=US/ST=Utah/L=Provo/O=ACME Tech Inc/CN=awesome.example.com"
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```
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I recommend using a different `O`rganization name, just so that it's easier to spot and debug at-a-glance in browsers and whatnot.
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## Sign your server cert with your CA
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```bash
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openssl x509 \
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-req -in my-server.csr.pem \
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-CA my-private-root-ca.crt.pem \
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-CAkey my-private-root-ca.key.pem \
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-CAcreateserial \
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-out my-server.crt.pem \
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-days 500
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```
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* `-days` should be fewer than you specified in your certificate authority
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# Appendix
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**pem**: Just so you know, *pem* means **plain-text format** (but the acronym is something about email and mime types)
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Other SSL Resources
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=========
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Zero-Config clone 'n' run (tm) Repos:
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* [io.js / node.js HTTPS SSL Example](https://github.com/coolaj86/nodejs-ssl-example)
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* [io.js / node.js HTTPS SSL Self-Signed Certificate Example](https://git.coolaj86.com/coolaj86/nodejs-self-signed-certificate-example)
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* [io.js / node.js HTTPS SSL Trusted Peer Client Certificate Example](https://github.com/coolaj86/nodejs-ssl-trusted-peer-example)
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* [SSL Root CAs](https://github.com/coolaj86/node-ssl-root-cas)
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Articles
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* [http://greengeckodesign.com/blog/2013/06/15/creating-an-ssl-certificate-for-node-dot-js/](Creating an SSL Certificate for node.js)
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* [http://www.hacksparrow.com/express-js-https-server-client-example.html/comment-page-1](HTTPS Trusted Peer Example)
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* [How to Create a CSR for HTTPS SSL (demo with name.com, node.js)](https://coolaj86.com/articles/how-to-create-a-csr-for-https-tls-ssl-rsa-pems/)
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* [coolaj86/Painless-Self-Signed-Certificates-in-node](https://github.com/coolaj86/ssl-root-cas.js/master/Painless-Self-Signed-Certificates-in-node.js.md) |