Control all the WireGuard server and client configs in a centralized way.
Project description
wg-wizard can help you generate the configs for WireGuard interactively, and control all the server and client configs in a centralized way.
Network Architecture
Our default network architecture is one relay server with multiple clients connecting to the VPN via the relay server.
We assume that most people need a network architecture like this. If you want another architecture, you can still achieve some of them using the advance configuration.
Why Do We Need wg-wizard
TODO
Prerequisite
A server with Ubuntu, Debian or Raspberry Pi OS. You can still use other Linux distributions, but the following instructions might not be applicable.
Install Docker on your relay server.
Install Wireguard on your relay server.
Run the Docker Container
We use Docker to disable the network to make the whole process secure.
# go to the directory you want to put the configs
# assuming ~/wg-wizard here
export WG_WIZARD_CONFIG='~/wg-wizard'
cd "${WG_WIZARD_CONFIG}"
docker run -it --rm --network=none --volume="$PWD":/workdir ianlini/wg-wizard
Initialize the Configuration
# inside the Docker container
wg-wizard init
Follow the instruction to create the config. Example output:
Interface name for WireGuard [wg0]:
Interface.ListenPort of the relay server [51820]:
Interface.Address of the relay server [192.168.10.1/24]:
The default endpoint in clients' Peer.Endpoint configs (e.g., example.com:51280): example.com
If you want to allow the clients to access the internet via the relay server, you must provide the interface name you want to forward the internet traffic to. It's usually eth0 or wlan0. You can check it by executing `ip addr`. If you provide an interface name {interface}, the following rules will be added:
- iptables -A FORWARD -i %i -o {interface} -j ACCEPT
- iptables -A FORWARD -i {interface} -o %i -j ACCEPT
- iptables -t nat -A POSTROUTING -s {network} -o {interface} -j MASQUERADE
Interface name for connecting to the internet []: eth0
Do you want to allow the clients to connect with each other? If yes, a rule will be added: `iptables -A FORWARD -i %i -o %i -j ACCEPT` [Y/n]:
Do you want to allow the clients to connect to any IPs on the relay server? If no, only the IP of the WireGuard interface can be connected, that is, the following rules will be added:
- iptables -A INPUT -d {wg_server_interface_ip} -i %i -j ACCEPT
- iptables -A INPUT -i %i -j DROP
[y/N]:
[2022-10-12 18:41:34,190][INFO] wg_wizard.core: Writing config to /home/pi/pi-gateway/wireguard/wg0.yml
[2022-10-12 18:41:38,868][INFO] wg_wizard.core: Writing secret to /home/pi/pi-gateway/wireguard/wg0_secret.json
Normally, you can use the default values for almost all of the options.
If you allow the internet access or allow the clients to connect with each other, you also need to enable IP forwarding.
For convenience, in the following instructions, we assume that your WireGuard interface name is wg0:
export WG_INTERFACE=wg0
Add a Peer
# inside the Docker container
wg-wizard add-peer
Follow the instruction to create the peer config. Example output:
Interface name for WireGuard [wg0]:
Name of the client: phone1
Peer.PersistentKeepalive of the client [25]:
Interface.Address of the client [192.168.10.2/32]:
Peer.AllowedIPs of the client [0.0.0.0/0, ::/0]:
[2022-10-04 16:40:01,337][INFO] wg_wizard.core: Writing config to /workdir/wg0.yml
[2022-10-04 16:40:01,358][INFO] wg_wizard.core: Writing secret to /workdir/wg0_secret.json
[2022-10-04 16:40:01,362][INFO] wg_wizard.cli: Client's wg-quick config QR Code:
...
Normally, you can use the default values for almost all of the options. In the end, there will be a QR Code generated. You can now use your WireGuard app on your phone to scan the QR Code to import the config. If your client doesn’t support QR Code, you can use another command to generate the text:
wg-wizard export-client-config --interface "${WG_INTERFACE}" --name phone1 --no-qrcode
Set Up the WireGuard Server
Preparing:
# on your relay server (outside the Docker container)
cd "${WG_WIZARD_CONFIG}"
export WG_INTERFACE=wg0 # replace wg0 with your interface name
(umask 077; sudo mkdir /etc/wireguard/)
Exporting server config:
docker run --rm --network=none --volume="$PWD":/workdir ianlini/wg-wizard \
wg-wizard export-server-config -i "${WG_INTERFACE}" \
| sudo cp --backup /dev/stdin "/etc/wireguard/${WG_INTERFACE}.conf"
If you haven’t enabled the service:
# start the WireGuard server
sudo systemctl enable "wg-quick@${WG_INTERFACE}.service"
sudo systemctl start "wg-quick@${WG_INTERFACE}.service"
Now you can turn on the WireGuard tunnel on your client (phone1), and it should work.
If the service is already running, you can check the config diff first:
sudo diff "/etc/wireguard/${WG_INTERFACE}.conf~" "/etc/wireguard/${WG_INTERFACE}.conf"
After confirming the changes, there are 2 ways to apply them.
If you are not changing the wg-quick specific interface configs (e.g., Address, DNS, MTU, Table, PreUp, PostUp, PreDown, PostDown and SaveConfig), you can reload the config without stopping the server:
sudo systemctl reload "wg-quick@${WG_INTERFACE}.service"
Otherwise, you should restart the server:
sudo systemctl restart "wg-quick@${WG_INTERFACE}.service"
Troubleshooting
Read the service log:
journalctl -u "wg-quick@${WG_INTERFACE}.service" -f -n 1000
Enable the kernel log:
sudo modprobe wireguard
echo module wireguard +p | sudo tee /sys/kernel/debug/dynamic_debug/control
Read the kernel log:
journalctl -k -f -n 1000 | grep wireguard
Debug iptables:
# trace the ICMP packets from a WireGuard client
sudo iptables -t raw -A PREROUTING -i "${WG_INTERFACE}" -p icmp -j TRACE
# trace the incoming ICMP packets from the internet to a WireGuard client
sudo iptables -t mangle -A FORWARD -d 192.168.10.0/24 -p icmp -j TRACE
Build the Docker Image from Scratch
TODO
git clone ...
cd ...
docker build . -t ianlini/wg-wizard
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