wgsd
is a CoreDNS plugin that serves WireGuard peer information via DNS-SD (RFC6763) semantics. This enables use cases such as:
- Building a mesh of WireGuard peers from a central registry
- Dynamic discovery of WireGuard Endpoint addressing (both IP address and port number)
- NAT-to-NAT WireGuard connectivity where UDP hole punching is supported.
See this blog post for a deep dive on the underlying techniques and development thought.
Binary releases are available here.
Each release contains 2 binaries:
coredns
- CoreDNS server with all the "internal" plugins +wgsd
wgsd-client
- A sample client
External CoreDNS plugins can be enabled in one of two ways:
For method #2 you can simply go build
the contents of cmd/coredns. The resulting binary is CoreDNS server with all the "internal" plugins + wgsd
.
% go build
% ./coredns -plugins | grep wgsd
dns.wgsd
A basic client is available under cmd/wgsd-client.
wgsd ZONE DEVICE
ZONE
is the zone name wgsd should be authoritative for, e.g. example.com.DEVICE
is the name of the WireGuard interface, e.g. wg0
wgsd ZONE DEVICE {
self [ ENDPOINT ] [ ALLOWED-IPS ... ]
}
- Supplying the
self
option enables serving data about the local WireGuard device in addition to its peers. The optionalENDPOINT
argument enables setting a custom endpoint in ip:port form. IfENDPOINT
is omitted wgsd will default to the local IP address for the DNS query andListenPort
of the WireGuard device. This can be useful if your host is behind NAT. The optional, variadicALLOWED-IPS
argument sets allowed-ips to be served for the local WireGuard device.
Following RFC6763 this plugin provides a listing of peers via PTR records at the namespace _wireguard._udp.<zone>
. The target for the PTR records is of the format <base32PubKey>._wireguard._udp.<zone>
. This same format is used for the accompanying SRV, A/AAAA, and TXT records. When querying the SRV record for a peer, the target A/AAAA & TXT records will be included in the "additional" section of the response. TXT records include Base64 public key and allowed IPs. Public keys are represented in Base32 rather than Base64 in record names as they are treated as case-insensitive by the DNS.
This configuration:
$ cat Corefile
.:5353 {
wgsd example.com. wg0 {
self 192.0.2.1:51820 10.0.0.254/32
}
}
With the following WireGuard peers:
$ sudo wg show
interface: wg0
public key: JeZlz14G8tg1Bqh6apteFCwVhNhpexJ19FDPfuxQtUY=
private key: (hidden)
listening port: 51820
peer: xScVkH3fUGUv4RrJFfmcqm8rs3SEHr41km6+yffAHw4=
endpoint: 203.0.113.1:7777
allowed ips: 10.0.0.1/32
latest handshake: 14 hours, 24 minutes, 40 seconds ago
transfer: 840.64 KiB received, 85.54 KiB sent
peer: syKB97XhGnvC+kynh2KqQJPXoOoOpx/HmpMRTc+r4js=
endpoint: 198.51.100.1:8888
allowed ips: 10.0.0.2/32
latest handshake: 4 days, 15 hours, 8 minutes, 12 seconds ago
transfer: 1.38 MiB received, 139.42 KiB sent
Will respond with:
$ dig @127.0.0.1 -p 5353 _wireguard._udp.example.com. PTR +noall +answer +additional
_wireguard._udp.example.com. 0 IN PTR yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha====._wireguard._udp.example.com.
_wireguard._udp.example.com. 0 IN PTR wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q====._wireguard._udp.example.com.
_wireguard._udp.example.com. 0 IN PTR extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda====._wireguard._udp.example.com.
$
$ dig @127.0.0.1 -p 5353 yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha====._wireguard._udp.example.com. SRV +noall +answer +additional
yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha====._wireguard._udp.example.com. 0 IN SRV 0 0 7777 yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha====._wireguard._udp.example.com.
yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha====._wireguard._udp.example.com. 0 IN A 203.0.113.1
yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha====._wireguard._udp.example.com. 0 IN TXT "txtvers=1" "pub=xScVkH3fUGUv4RrJFfmcqm8rs3SEHr41km6+yffAHw4=" "allowed=10.0.0.1/32"
$
$ dig @127.0.0.1 -p 5353 wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q====._wireguard._udp.example.com. SRV +noall +answer +additional
wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q====._wireguard._udp.example.com. 0 IN SRV 0 0 8888 wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q====._wireguard._udp.example.com.
wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q====._wireguard._udp.example.com. 0 IN A 198.51.100.1
wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q====._wireguard._udp.example.com. 0 IN TXT "txtvers=1" "pub=syKB97XhGnvC+kynh2KqQJPXoOoOpx/HmpMRTc+r4js=" "allowed=10.0.0.2/32"
$
$ dig @127.0.0.1 -p 5353 extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda====._wireguard._udp.example.com. SRV +noall +answer +additional
extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda====._wireguard._udp.example.com. 0 IN SRV 0 0 51820 extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda====._wireguard._udp.example.com.
extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda====._wireguard._udp.example.com. 0 IN A 192.0.2.1
extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda====._wireguard._udp.example.com. 0 IN TXT "txtvers=1" "pub=JeZlz14G8tg1Bqh6apteFCwVhNhpexJ19FDPfuxQtUY=" "allowed=10.0.0.254/32"
Converting public keys to Base64 with coreutils:
$ echo yutrled535igkl7bdlerl6m4vjxsxm3uqqpl4nmsn27mt56ad4ha==== | tr '[:lower:]' '[:upper:]' | base32 -d | base64
xScVkH3fUGUv4RrJFfmcqm8rs3SEHr41km6+yffAHw4=
$ echo wmrid55v4enhxqx2jstyoyvkicj5pihkb2tr7r42smiu3t5l4i5q==== | tr '[:lower:]' '[:upper:]' | base32 -d | base64
syKB97XhGnvC+kynh2KqQJPXoOoOpx/HmpMRTc+r4js=
$ echo extglt26a3znqnigvb5gvg26cqwblbgynf5re5pukdhx53cqwvda==== | tr '[:lower:]' '[:upper:]' | base32 -d | base64
JeZlz14G8tg1Bqh6apteFCwVhNhpexJ19FDPfuxQtUY=
- unit tests
- SOA record support
- CI & release binaries