certificates/README.md

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# Step Certificates
An online certificate authority and related tools for secure automated certificate management, so you can use TLS everywhere.
[Website](https://smallstep.com) |
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[Documentation](#documentation) |
[Installation Guide](#installation-guide) |
[Getting Started](./docs/GETTING_STARTED.md) |
[Contribution Guide](./docs/CONTRIBUTING.md)
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![Animated terminal showing step certificates in practice](https://github.com/smallstep/certificates/raw/master/docs/images/step-ca-2-legged.gif)
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## Motivation
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Managing your own *public key infrastructure* (PKI) can be tedious and error
prone. Good security hygiene is hard. Setting up simple PKI is out of reach for
many small teams, and following best practices like proper certificate
revocation and rolling is challenging even for experts.
Amongst numerous use cases, proper PKI makes it easy to use mTLS (mutual TLS)
to improve security and to make it possible to connect services across the
public internet. Unlike VPNs & SDNs, deploying and scaling mTLS is pretty
easy. You're (hopefully) already using TLS, and your existing tools and
standard libraries will provide most of what you need. If you know how to
operate DNS and reverse proxies, you know how to operate mTLS
infrastructure.
![Connect it all with
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mTLS](https://raw.githubusercontent.com/smallstep/certificates/master/docs/images/connect-with-mtls-2.png)
There's just one problem: **you need certificates issued by your own
certificate authority (CA)**. Building and operating a CA, issuing
certificates, and making sure they're renewed before they expire is tricky.
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This project provides the infrastructure, automations, and workflows you'll
need.
`step certificates` is part of smallstep's broader security architecture, which
makes it much easier to implement good security practices early, and
incrementally improve them as your system matures.
For more information and docs see [the Step
website](https://smallstep.com/certificates) and the [blog
post](https://smallstep.com/blog/step-certificates.html) announcing Step
Certificate Authority.
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> ## 🆕 Autocert <a href="autocert/README.md"><img width="50%" src="https://raw.githubusercontent.com/smallstep/certificates/autocert/autocert/autocert-logo.png"></a>
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>
> If you're using Kubernetes, make sure you [check out
> autocert](autocert/README.md): a kubernetes add-on that builds on `step
> certificates` to automatically inject TLS/HTTPS certificates into your containers.
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## Installation Guide
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These instructions will install an OS specific version of the `step-ca` binary on
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your local machine.
> NOTE: While `step` is not required to run the Step Certificate Authority (CA)
> we strongly recommend installing both `step cli` and `step certificates`
> because the Step CA is much easier to initialize, manage, and debug using
> the `step cli` toolkit.
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### Mac OS
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Install `step` via [Homebrew](https://brew.sh/). The
[Homebrew Formula](https://github.com/Homebrew/homebrew-core/blob/master/Formula/step.rb)
installs both `step cli` and `step certificates`.
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<pre><code>
<b>$ brew install step</b>
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# Test installation ...
<b>$ step certificate inspect https://smallstep.com</b>
Certificate:
Data:
Version: 3 (0x2)
Serial Number: 326381749415081530968054238478851085504954 (0x3bf265673332db2d0c70e48a163fb7d11ba)
Signature Algorithm: SHA256-RSA
Issuer: C=US,O=Let's Encrypt,CN=Let's Encrypt Authority X3
...
</code></pre>
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> Note: If you have installed `step` previously through the `smallstep/smallstep`
> tap you will need to run the following commands before installing:
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```
$ brew untap smallstep/smallstep
$ brew uninstall step
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```
### Linux
#### Debian
1. [Optional] Install `step cli`.
Download the latest Debian package from
[`step cli` releases](https://github.com/smallstep/cli/releases):
```
$ wget https://github.com/smallstep/cli/releases/download/X.Y.Z/step_X.Y.Z_amd64.deb
```
Install the Debian package:
```
$ sudo dpkg -i step_X.Y.Z_amd64.deb
```
2. Install `step certificates`.
Download the latest Debian package from
[`step certificates` releases](https://github.com/smallstep/certificates/releases):
```
$ wget https://github.com/smallstep/certificates/releases/download/X.Y.Z/step-certificates_X.Y.Z_amd64.deb
```
Install the Debian package:
```
$ sudo dpkg -i step-certificates_X.Y.Z_amd64.deb
```
#### Arch Linux
We are using the [Arch User Repository](https://aur.archlinux.org) to distribute
`step` binaries for Arch Linux.
* [Optional] The `step-cli` binary tarball can be found [here](https://aur.archlinux.org/packages/step-cli-bin/).
* The `step-ca` binary tarball can be found [here](https://aur.archlinux.org/packages/step-ca-bin/).
You can use [pacman](https://www.archlinux.org/pacman/) to install the packages.
### Test
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<pre><code>
<b>$ step version</b>
Smallstep CLI/0.8.5 (darwin/amd64)
Release Date: 2019-02-13 22:17 UTC
<b>$ step-ca version</b>
Smallstep CA/0.8.4 (darwin/amd64)
Release Date: 2019-02-18 18:56 UTC
</code></pre>
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## Quickstart
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In the following guide we'll run a simple `hello` server that requires clients
to connect over an authorized and encrypted channel (HTTP over TLS). The Step
Certificate Authority (CA) will issue an identity dial tone to our server
enabling it to authenticate and encrypt communication. Let's get started!
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### Prerequisites
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* [`step`](#installation-guide)
* [golang](https://golang.org/doc/install)
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### Let's get started!
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1. Initialize and run the Step CA.
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`step ca init` initializes the CA and accomplishes two tasks.
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1. Generate a Public Key Infrastructure (PKI) with Root and Intermediate
X.509 Certificates and private keys.
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The root X.509 Certificate is a fancy public key that will be
distributed to clients enabling them to authenticate all certificates
generated by your PKI. The root private key should be kept in a very
private place - but as this is just a demo we won't worry about that
right now ([more info on storing sensitive
data](./docs/GETTING_STARTED.md#passwords)). The intermediate
private key will be used to sign new certificates ([Why is it more
secure to use intermediate CA
certificates?](https://security.stackexchange.com/questions/128779/why-is-it-more-secure-to-use-intermediate-ca-certificates))
and the intermediate certificate will be distributed along with newly
minted leaf certificates. In our demo, the server will present the
intermediate certificate along with it's *server* (leaf) certificate
allowing our client to validate the full chain using the root.
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2. Generate the configuration file required by the Step CA.
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See the [Getting Started](./docs/GETTING_STARTED.md) guide for an in depth
explanation of the Step CA configuration file.
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<pre><code>
<b>$ step ca init</b>
✔ What would you like to name your new PKI? (e.g. Smallstep): <b>Example Inc.</b>
✔ What DNS names or IP addresses would you like to add to your new CA? (e.g. ca.smallstep.com[,1.1.1.1,etc.]): <b>localhost</b>
✔ What address will your new CA listen at? (e.g. :443): <b>127.0.0.1:8080</b>
✔ What would you like to name the first provisioner for your new CA? (e.g. you@smallstep.com): <b>bob@example.com</b>
✔ What do you want your password to be? [leave empty and we'll generate one]: <b>abc123</b>
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Generating root certificate...
all done!
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Generating intermediate certificate...
all done!
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✔ Root certificate: /Users/bob/src/github.com/smallstep/step/.step/certs/root_ca.crt
✔ Root private key: /Users/bob/src/github.com/smallstep/step/.step/secrets/root_ca_key
✔ Root fingerprint: 702a094e239c9eec6f0dcd0a5f65e595bf7ed6614012825c5fe3d1ae1b2fd6ee
✔ Intermediate certificate: /Users/bob/src/github.com/smallstep/step/.step/certs/intermediate_ca.crt
✔ Intermediate private key: /Users/bob/src/github.com/smallstep/step/.step/secrets/intermediate_ca_key
✔ Default configuration: /Users/bob/src/github.com/smallstep/step/.step/config/defaults.json
✔ Certificate Authority configuration: /Users/bob/src/github.com/smallstep/step/.step/config/ca.json
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Your PKI is ready to go. To generate certificates for individual services see 'step help ca'.
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<b>$ step-ca $(step path)/config/ca.json</b>
Please enter the password to decrypt /Users/bob/src/github.com/smallstep/step/.step/secrets/intermediate_ca_key: <b>abc123</b>
2019/02/18 13:28:58 Serving HTTPS on 127.0.0.1:8080 ...
</code></pre>
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Now we've got an 'up and running' online CA!
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2. Copy our `hello world` golang server.
```
$ cat > srv.go <<EOF
package main
import (
"net/http"
"log"
)
func HiHandler(w http.ResponseWriter, req *http.Request) {
w.Header().Set("Content-Type", "text/plain")
w.Write([]byte("Hello, world!\n"))
}
func main() {
http.HandleFunc("/hi", HiHandler)
err := http.ListenAndServeTLS(":8443", "srv.crt", "srv.key", nil)
if err != nil {
log.Fatal(err)
}
}
EOF
```
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3. Get an identity for your server from the Step CA.
<pre><code>
<b>$ step ca certificate localhost srv.crt srv.key</b>
✔ Key ID: rQxROEr7Kx9TNjSQBTETtsu3GKmuW9zm02dMXZ8GUEk (bob@example.com)
✔ Please enter the password to decrypt the provisioner key: abc123
✔ CA: https://localhost:8080/1.0/sign
✔ Certificate: srv.crt
✔ Private Key: srv.key
<b>$ step certificate inspect --bundle srv.crt</b>
Certificate:
Data:
Version: 3 (0x2)
Serial Number: 140439335711218707689123407681832384336 (0x69a7a1d7f6f22f68059d2d9088307750)
Signature Algorithm: ECDSA-SHA256
Issuer: CN=Example Inc. Intermediate CA
Validity
Not Before: Feb 18 21:32:35 2019 UTC
Not After : Feb 19 21:32:35 2019 UTC
Subject: CN=localhost
...
Certificate:
Data:
Version: 3 (0x2)
Serial Number: 207035091234452090159026162349261226844 (0x9bc18217bd560cf07db23178ed90835c)
Signature Algorithm: ECDSA-SHA256
Issuer: CN=Example Inc. Root CA
Validity
Not Before: Feb 18 21:27:21 2019 UTC
Not After : Feb 15 21:27:21 2029 UTC
Subject: CN=Example Inc. Intermediate CA
...
</code></pre>
Notice that when you inspect `srv.crt` there are actually two certificates
present. The first is your **server** (leaf) certificate and the second is
the intermediate certificate. When an intermediate CA is used to sign
**leaf** certificates it is not enough for the server to only show it's
**leaf** certificate because the client (which only has access to the root
certificate) will not be able to validate the full chain.
4. Run the simple server.
<pre><code>
<b>$ go run srv.go &</b>
</code></pre>
5. Get the root certificate from the Step CA.
In a new Terminal window:
<pre><code>
<b>$ step ca root root.crt</b>
The root certificate has been saved in root.crt.
</code></pre>
6. Make an authenticated, encrypted curl request to your server using HTTP over TLS.
<pre><code>
<b>$ curl --cacert root.crt https://localhost:8443/hi</b>
Hello, world!
</code></pre>
*All Done!*
Check out the [Getting Started](./docs/GETTING_STARTED.md) guide for more examples
and best practices on running Step CA in production.
## Documentation
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Documentation can be found in a handful of different places:
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1. The [docs](./docs/README.md) sub-repo has an index of documentation and tutorials.
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2. On the command line with `step ca help xxx` where `xxx` is the subcommand
you are interested in. Ex: `step help ca provisioners list`.
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3. On the web at https://smallstep.com/docs/certificates.
4. On your browser by running `step ca help --http :8080` from the command line
and visiting http://localhost:8080.
## The Future
We plan to build more tools that facilitate the use and management of zero trust
networks.
* Tell us what you like and don't like about managing your PKI - we're eager to
help solve problems in this space.
* Tell us what features you'd like to see - open issues or hit us on
[Twitter](https://twitter.com/smallsteplabs).
## Further Reading
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Check out the [Getting Started](./docs/GETTING_STARTED.md) guide for more examples
and best practices on running Step CA in production.