Install Firezone with Docker
As of 0.6.0, Docker is now the preferred method for deploying Firezone. Docker offers a number of benefits over the old Omnibus method:
- Simpler, more robust upgrades: In most cases, simply pull the latest
firezone/firezone
image and restart the container. - Simpler configuration: Most day-to-day configuration of Firezone can now
be done in the web UI instead of the
/etc/firezone/firezone.rb
configuration file. All other configuration variables can be specified as ENV vars to the Firezone container. - Smaller footprint: The Firezone image weighs in at a couple dozen megabytes versus hundreds of megabytes for the Omnibus package.
- Portability: Firezone now runs on any platform that supports Docker.
- Security: Containerization providers better security isolation than simply running as an unprivileged local user.
Step 1: Prerequisites
- Ensure you're on a supported platform with docker-compose version 2 or higher installed.
- Ensure port forwarding is enabled on your firewall. The default Firezone
configuration requires the following ports to be open:
80/tcp
(optional): For automatically issuing SSL certificates.443/tcp
: To access the web UI.51820/udp
: VPN traffic listen port.
Before deploying Firezone in production, you'll need a valid DNS record pointing to this instance. See Prepare to deploy if you haven't done this already.
Step 2: Install server
After prerequisites are satisfied, you're ready to install the Firezone Server.
Option 1: Automatic install
The easiest way to deploy Firezone with Docker is the automatic install script:
bash <(curl -fsSL https://github.com/firezone/firezone/raw/legacy/scripts/install.sh)
This will ask you a few questions regarding initial configuration, then proceed to download a sample docker-compose.yml file, configure it with your responses, and then print instructions for accessing the Web UI.
Firezone files will be installed in $HOME/.firezone
by default.
Option 2: Manual install
If the automatic install fails, or you'd just like more control over the installation process, follow the steps below to install manually.
- Download the docker compose template to a local working directory: For Linux:
curl -fsSL https://raw.githubusercontent.com/firezone/firezone/legacy/docker-compose.prod.yml -o docker-compose.yml
For macOS, Windows (non-production only):
curl -fsSL https://raw.githubusercontent.com/firezone/firezone/legacy/docker-compose.desktop.yml -o docker-compose.yml
- Generate required secrets:
docker run --rm firezone/firezone bin/gen-env > .env
- At a minimum, change the
DEFAULT_ADMIN_EMAIL
andEXTERNAL_URL
variables. Optionally modify other secrets as needed. - Migrate the database:
docker compose run --rm firezone bin/migrate
- Create the first admin:
docker compose run --rm firezone bin/create-or-reset-admin
- Bring the services up:
docker compose up -d
You should now be able to access the Firezone web portal at the EXTERNAL_URL
variable you defined above.
Step 3 (optional): Enable on boot
If you'd like Firezone to start automatically on boot, first ensure Docker is enabled at startup:
sudo systemctl enable docker
Then, make sure your Firezone services have the restart: always
or
restart: unless-stopped
option specified in the docker-compose.yml
file.
This is the default used in the docker-compose.prod.yml production template
file.
Step 4 (optional): Enable IPv6
By default, Firezone ships with IPv6 connectivity enabled inside the tunnel but not routable to the public internet. To enable IPv6 support in Docker-deployed Firezone, follow the steps below.
- Enable IPv6 support within Docker by adding the following to
/etc/docker/daemon.json
:
{
"ipv6": true,
"ip6tables": true,
"experimental": true,
"fixed-cidr-v6": "fcff:db8:1::/64"
}
This enables IPv6 NAT and configures IPv6 forwarding for Docker containers.
- Enable router advertisements on boot for your default egress interface:
egress=`ip route show default 0.0.0.0/0 | grep -oP '(?<=dev ).*' | cut -f1 -d' ' | tr -d '\n'`
sudo bash -c "echo net.ipv6.conf.${egress}.accept_ra=2 >> /etc/sysctl.conf"
- Reboot
You should now be able to ping google from within a docker container:
docker run --rm -t busybox ping6 -c 4 google.com
You shouldn't need to manually add any iptables
rules to enable IPv6
SNAT/masquerading for tunneled traffic; Firezone handles this for you by default
on start.
Step 5: Install client apps
Firezone currently uses WireGuard's open-source client apps.
Once successfully deployed, users and devices can be added to connect to the VPN server:
- Add Users: Add users to grant them access to your network.
- Client Instructions: Instructions to establish a VPN session.
Need additional help?
Try asking on one of our community-powered support channels:
- Discussion forums: Ask questions, report bugs, and suggest features.
- Discord server: Join discussions, meet other users, and chat with the Firezone team
- Email us: We read every message.
Post Setup
Congrats! You have completed the setup, but there's a lot more you can do with Firezone:
- Integrate your identity provider for authenticating clients
- Using Firezone as a NAT gateway to establish a static IP for your team
- Create tunnels between multiple peers with reverse tunnels
- Only route certain traffic through Firezone with split tunneling