bever-dam/content/posts/docker-tcp.md

title	date	categories	tags
Encrypting a Docker API for Remote Access Using Portainer	2021-05-17	Linux Docker	docker linux servers security

TL;DR: This script has everything you need, just run ./docker-tcp.sh -h (after making it executable) for any help.

Introduction

To manage my little army of servers, I use Portainer CE. It's an open-source management tool for controlling Dockerized applications across multiple hosts. It can handle regular Docker containers, compose stacks, Kubernetes clusters and Docker swarm mode. It's a really useful tool to keep track of everything, and nowadays, I really can't miss it.

Before we can add a host to Portainer, its Docker API has to be exposed to the public, and in order to do this, we need to protect it using encryption (unless of course you like random people controlling your server). This post will explain how this can be done, and I've also written a script that can automate the "heavy" lifting.

Note: This tutorial is only for Linux distributions that use systemctl. I have no experience with managing a Windows server and therefore can't confirm these steps will also work on a Windows machine, or using another init system.

I recommend running these commands on your local Linux machine and just copying the certificates to the server later, as you'll need the files in order to add the host to Portainer later.

Server-side

To make the connection as secure as possible, we'll use both a server- & a client-side certificate. This first section describes how to generate the former:

openssl genrsa -aes256 -out ca-key.pem 4096
openssl req -new -x509 -days 365 -key ca-key.pem -sha256 -out ca.pem

These first two commands generate the CA key. You'll be asked for some basic information, e.g. your country, state, city, organization, etc. The most important one is the password. Keep this one safe, as you'll be asked for it multiple times when generating the other keys.

One thing to note here is the -days 365 flag. This defines after how many days the certificate will expire (but only when the -x509 flag is specified). By default, its value is set at 30 days, but I find this to be rather short. After this time, you'll have to repeat these steps and generate a new certificate. You'll have to figure out for yourself how long you'd like your certificate to be valid for. It's a trade-off between convenience and security.

Now we can generate the server key:

openssl genrsa -out server-key.pem 4096
openssl req -subj '/CN=<HOST>' -sha256 -new -key server-key.pem -out server.csr

In the above snippet, replace <HOST> with the domain name of the machine who's API you want to expose. With domain name, I mean the domain from which your server is accessible, e.g. server.example.com. Now we've created server-key.pem and server.csr.

After this, we need to create a file named extfile.cnf with the following content:

subjectAltName = DNS:<HOST>,IP:<IP>,IP:127.0.0.1
extendedKeyUsage = serverAuth

Here, we once again replace <HOST> with the machine's domain name, and <IP> with the machine's public IP.

This file can now be used to generate the actual signed certificate:

openssl x509 -req -days 365 -sha256 -in server.csr -CA ca.pem \
    -CAkey ca-key.pem -CAcreateserial -out server-cert.pem -extfile extfile.cnf

Here, we can once again change the days argument to the value we want. After all these steps, we're left with a signed server-side certificate.

Client-side

Now we'll generate the client-side certificates. We start by creating a csr file:

openssl genrsa -out key.pem 4096
openssl req -subj '/CN=client' -new -key key.pem -out client.csr

After this, we create another .cnf, this time to configure the client-side keys. Add this to a file named extfile-client.cnf:

extendedKeyUsage = clientAuth

And then, we generate the client-side key:

openssl x509 -req -days 365 -sha256 -in client.csr -CA ca.pem -CAkey \
    ca-key.pem -CAcreateserial -out cert.pem -extfile extfile-client.cnf

Once again change the days value to whatever you want. Now we're left with all the files we need to securely expose the API.

Exposing the API

Note: the following steps will restart the Docker engine and all running containers, so make sure this won't break anything.

Start by creating a directory on the host that you're not going to delete. In the following steps, replace <DIR> with the absolute path to this directory. After this, copy ca.pem, server-cert.pem and server-key.pem to this directory.

We're gonna be creating a system config file for the Docker service (this guide assumes the use of systemd). In /etc/systemd/system/docker.service.d/startup_options.conf, put the following:

[Service]
ExecStart=
ExecStart=/usr/sbin/dockerd --tlsverify --tlscacert='<DIR>/ca.pem' --tlscert='<DIR>/server-cert.pem' --tlskey='<DIR>/server-key.pem' -H fd:// -H tcp://0.0.0.0:2376

Don't forget to replace <DIR> with the path to your actual directory.

The final step is restarting the Docker engine:

systemctl daemon-reload
systemctl restart docker.service

Note: these commands require root.

After all this, you should have a Docker API that's accessible using an encrypted connection. Let's test it by adding it to Portainer!

Adding engine to Portainer

Thankfully this is the easy part. In Portainer, add a new endpoint and choose the "Docker" type. Pick a name for your endpoint, fill in the endpoint URL including the port number (Docker's default port number is 2376) and enable the "TLS" switch. We choose "TLS with server and client verification", as this is the safest. The files to upload are ca.pem for the TLS CA certificate, cert.pem for the TLS certificate and key.pem for the TLS key. If all goes well, you should now connect to the host!

Now, I know these steps can be quite tedious to repeat, so I've written a script that can automate this process for you.