1d81333685
building the headscale executable. |
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.github/workflows | ||
cmd/headscale | ||
integration_test | ||
k8s | ||
scripts | ||
tests/acls | ||
.dockerignore | ||
.gitignore | ||
.goreleaser.yml | ||
acls.go | ||
acls_test.go | ||
acls_types.go | ||
api.go | ||
app.go | ||
app_test.go | ||
apple_mobileconfig.go | ||
cli.go | ||
cli_test.go | ||
config.json.postgres.example | ||
config.json.sqlite.example | ||
db.go | ||
derp.yaml | ||
Dockerfile | ||
Dockerfile.tailscale | ||
go.mod | ||
go.sum | ||
integration_test.go | ||
LICENSE | ||
machine.go | ||
machine_test.go | ||
Makefile | ||
namespaces.go | ||
namespaces_test.go | ||
poll.go | ||
preauth_keys.go | ||
preauth_keys_test.go | ||
README.md | ||
routes.go | ||
routes_test.go | ||
sharing.go | ||
sharing_test.go | ||
utils.go | ||
utils_test.go |
Headscale
An open source, self-hosted implementation of the Tailscale coordination server.
Overview
Tailscale is a modern VPN built on top of Wireguard. It works like an overlay network between the computers of your networks - using all kinds of NAT traversal sorcery.
Everything in Tailscale is Open Source, except the GUI clients for proprietary OS (Windows and macOS/iOS), and the 'coordination/control server'.
The control server works as an exchange point of Wireguard public keys for the nodes in the Tailscale network. It also assigns the IP addresses of the clients, creates the boundaries between each user, enables sharing machines between users, and exposes the advertised routes of your nodes.
Headscale implements this coordination server.
Status
- Base functionality (nodes can communicate with each other)
- Node registration through the web flow
- Network changes are relayed to the nodes
- Namespace support (~equivalent to multi-user in Tailscale.com)
- Routing (advertise & accept, including exit nodes)
- Node registration via pre-auth keys (including reusable keys, and ephemeral node support)
- JSON-formatted output
- ACLs
- Taildrop (File Sharing)
- Support for alternative IP ranges in the tailnets (default Tailscale's 100.64.0.0/10)
- DNS (passing DNS servers to nodes)
- Share nodes between
usersnamespaces - MagicDNS / Smart DNS
Roadmap 🤷
Suggestions/PRs welcomed!
Running it
-
Download the Headscale binary https://github.com/juanfont/headscale/releases, and place it somewhere in your PATH or use the docker container
docker pull headscale/headscale:x.x.x
-
(Optional, you can also use SQLite) Get yourself a PostgreSQL DB running
docker run --name headscale -e POSTGRES_DB=headscale -e \ POSTGRES_USER=foo -e POSTGRES_PASSWORD=bar -p 5432:5432 -d postgres
-
Set some stuff up (headscale Wireguard keys & the config.json file)
wg genkey > private.key wg pubkey < private.key > public.key # not needed # Postgres cp config.json.postgres.example config.json # or # SQLite cp config.json.sqlite.example config.json
-
Create a namespace (a namespace is a 'tailnet', a group of Tailscale nodes that can talk to each other)
headscale namespaces create myfirstnamespace
or docker:
the db.sqlite mount is only needed if you use sqlite
touch db.sqlite docker run -v $(pwd)/private.key:/private.key -v $(pwd)/config.json:/config.json -v $(pwd)/derp.yaml:/derp.yaml -v $(pwd)/db.sqlite:/db.sqlite -p 127.0.0.1:8080:8080 headscale/headscale:x.x.x headscale namespaces create myfirstnamespace
or if your server is already running in docker:
docker exec <container_name> headscale create myfirstnamespace
-
Run the server
headscale serve
or docker:
the db.sqlite mount is only needed if you use sqlite
docker run -v $(pwd)/private.key:/private.key -v $(pwd)/config.json:/config.json -v $(pwd)/derp.yaml:/derp.yaml -v $(pwd)/db.sqlite:/db.sqlite -p 127.0.0.1:8080:8080 headscale/headscale:x.x.x headscale serve
-
If you used tailscale.com before in your nodes, make sure you clear the tailscald data folder
systemctl stop tailscaled rm -fr /var/lib/tailscale systemctl start tailscaled
-
Add your first machine
tailscale up --login-server YOUR_HEADSCALE_URL
-
Navigate to the URL you will get with
tailscale up
, where you'll find your machine key. -
In the server, register your machine to a namespace with the CLI
headscale -n myfirstnamespace nodes register YOURMACHINEKEY
or docker:
docker run -v $(pwd)/private.key:/private.key -v $(pwd)/config.json:/config.json -v $(pwd)/derp.yaml:/derp.yaml headscale/headscale:x.x.x headscale -n myfirstnamespace nodes register YOURMACHINEKEY
or if your server is already running in docker:
docker exec <container_name> headscale -n myfirstnamespace nodes register YOURMACHINEKEY
Alternatively, you can use Auth Keys to register your machines:
-
Create an authkey
headscale -n myfirstnamespace preauthkeys create --reusable --expiration 24h
or docker:
docker run -v $(pwd)/private.key:/private.key -v $(pwd)/config.json:/config.json -v$(pwd)/derp.yaml:/derp.yaml -v $(pwd)/db.sqlite:/db.sqlite headscale/headscale:x.x.x headscale -n myfirstnamespace preauthkeys create --reusable --expiration 24h
or if your server is already running in docker:
docker exec <container_name> headscale -n myfirstnamespace preauthkeys create --reusable --expiration 24h
-
Use the authkey from your machine to register it
tailscale up --login-server YOUR_HEADSCALE_URL --authkey YOURAUTHKEY
If you create an authkey with the --ephemeral
flag, that key will create ephemeral nodes. This implies that --reusable
is true.
Please bear in mind that all the commands from headscale support adding -o json
or -o json-line
to get a nicely JSON-formatted output.
Configuration reference
Headscale's configuration file is named config.json
or config.yaml
. Headscale will look for it in /etc/headscale
, ~/.headscale
and finally the directory from where the Headscale binary is executed.
"server_url": "http://192.168.1.12:8080",
"listen_addr": "0.0.0.0:8080",
"ip_prefix": "100.64.0.0/10"
server_url
is the external URL via which Headscale is reachable. listen_addr
is the IP address and port the Headscale program should listen on. ip_prefix
is the IP prefix (range) in which IP addresses for nodes will be allocated (default 100.64.0.0/10, e.g., 192.168.4.0/24, 10.0.0.0/8)
"log_level": "debug"
log_level
can be used to set the Log level for Headscale, it defaults to debug
, and the available levels are: trace
, debug
, info
, warn
and error
.
"private_key_path": "private.key",
private_key_path
is the path to the Wireguard private key. If the path is relative, it will be interpreted as relative to the directory the configuration file was read from.
"derp_map_path": "derp.yaml",
derp_map_path
is the path to the DERP map file. If the path is relative, it will be interpreted as relative to the directory the configuration file was read from.
"ephemeral_node_inactivity_timeout": "30m",
ephemeral_node_inactivity_timeout
is the timeout after which inactive ephemeral node records will be deleted from the database. The default is 30 minutes. This value must be higher than 65 seconds (the keepalive timeout for the HTTP long poll is 60 seconds, plus a few seconds to avoid race conditions).
"db_host": "localhost",
"db_port": 5432,
"db_name": "headscale",
"db_user": "foo",
"db_pass": "bar",
The fields starting with db_
are used for the PostgreSQL connection information.
Running the service via TLS (optional)
"tls_cert_path": ""
"tls_key_path": ""
Headscale can be configured to expose its web service via TLS. To configure the certificate and key file manually, set the tls_cert_path
and tls_cert_path
configuration parameters. If the path is relative, it will be interpreted as relative to the directory the configuration file was read from.
"tls_letsencrypt_hostname": "",
"tls_letsencrypt_listen": ":http",
"tls_letsencrypt_cache_dir": ".cache",
"tls_letsencrypt_challenge_type": "HTTP-01",
To get a certificate automatically via Let's Encrypt, set tls_letsencrypt_hostname
to the desired certificate hostname. This name must resolve to the IP address(es) Headscale is reachable on (i.e., it must correspond to the server_url
configuration parameter). The certificate and Let's Encrypt account credentials will be stored in the directory configured in tls_letsencrypt_cache_dir
. If the path is relative, it will be interpreted as relative to the directory the configuration file was read from. The certificate will automatically be renewed as needed.
Challenge type HTTP-01
The default challenge type HTTP-01
requires that Headscale is reachable on port 80 for the Let's Encrypt automated validation, in addition to whatever port is configured in listen_addr
. By default, Headscale listens on port 80 on all local IPs for Let's Encrypt automated validation.
If you need to change the ip and/or port used by Headscale for the Let's Encrypt validation process, set tls_letsencrypt_listen
to the appropriate value. This can be handy if you are running Headscale as a non-root user (or can't run setcap
). Keep in mind, however, that Let's Encrypt will only connect to port 80 for the validation callback, so if you change tls_letsencrypt_listen
you will also need to configure something else (e.g. a firewall rule) to forward the traffic from port 80 to the ip:port combination specified in tls_letsencrypt_listen
.
Challenge type TLS-ALPN-01
Alternatively, tls_letsencrypt_challenge_type
can be set to TLS-ALPN-01
. In this configuration, Headscale listens on the ip:port combination defined in listen_addr
. Let's Encrypt will only connect to port 443 for the validation callback, so if listen_addr
is not set to port 443, something else (e.g. a firewall rule) will be required to forward the traffic from port 443 to the ip:port combination specified in listen_addr
.
Policy ACLs
Headscale implements the same policy ACLs as Tailscale.com, adapted to the self-hosted environment.
For instance, instead of referring to users when defining groups you must use namespaces (which are the equivalent to user/logins in Tailscale.com).
Please check https://tailscale.com/kb/1018/acls/, and ./tests/acls/
in this repo for working examples.
Apple devices
An endpoint with information on how to connect your Apple devices (currently macOS only) is available at /apple
on your running instance.
Disclaimer
- We have nothing to do with Tailscale, or Tailscale Inc.
- The purpose of writing this was to learn how Tailscale works.