Docker container providing automatic TLS webservers in IPv6 networks
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2019-12-14 23:46:14 +01:00
Dockerfile Initial commit - turn the light on 2019-12-14 23:06:39 +01:00
entrypoint.sh Extend using /etc/nginx/https.conf 2019-12-14 23:46:14 +01:00
README.md Extend using /etc/nginx/https.conf 2019-12-14 23:46:14 +01:00

This container provides fully automated SSL containers in IPv6 networks

Requirements

You need to have docker configured to use IPv6. The following code can be placed in /etc/docker/daemon.json:

{
  "ipv6": true,
  "fixed-cidr-v6": "2001:db8::/64"
}

You need to replace "2001:db8::/64" with your own IPv6 network.

Read more about enabling IPv6 in docker.

How it works

IPv6 addresses are globally reachable, so IPv6 based containers can be reached from anywhere in the world.

This container uses the domain has-a.name, which gives a name to every IPv6 address.

Read more about how has-a.name works.

How to use

Start the container and use the logs to gets its domain name:

id=$(docker run -d ungleich/nginx-letsencrypt-ipv6)
docker logs ${id} 2>/dev/null | grep "^Getting certificate"
Getting certificate for 2a0a-e5c1-0111-0777-0000-0242-ac11-0004.has-a.name

With this information, you can now connect to your container:

% curl https://2a0a-e5c1-0111-0777-0000-0242-ac11-0004.has-a.name
Welcome to 2a0a-e5c1-0111-0777-0000-0242-ac11-0004.has-a.name running with IPv6+LetsEncrypt

How to extend it

The http server part usually does not need to be modified, as it only serves letsencrypt requests and redirects everything else to https.

If you want to extend the https server, simply overwrite /etc/nginx/https.conf. It is by default empty and only exists to be overwritten. It is included in the https block and lets you define proxy or other configurations that you need.