Add a new Prefs.RemoteConfig bool. When true, a c2n endpoint at
/remoteapi/localapi/* proxies into this node's LocalAPI at
/localapi/* with full read/write permission, giving the tailnet
admin the same API surface a local root/admin user has via the
tailscale CLI. All LocalAPI versions (v0, v1, ...) proxy through.
RemoteConfig is an alternative to Tailscale's default per-feature
double opt-in, in which both the tailnet admin and the local machine
owner must consent to each individual setting change. It is a single
client-side "I trust the tailnet admin" switch that, once on, hands
over full remote management of this node's settings and LocalAPI
without any further local prompt or confirmation.
This is only appropriate when the tailnet admin already owns the
machine (e.g. a corporate fleet device) or the local user has
explicitly delegated full control. It should never be enabled on a
personal/BYOD device with an untrusted tailnet admin. The trust
model is documented on the pref, on the hidden --remote-config CLI
flag, and on the feature/remoteconfig package.
The node advertises its RemoteConfig state to the control plane via
a new Hostinfo.RemoteConfig bool. This is only true when the feature
is both compiled in (buildfeatures.HasRemoteConfig) and its init
actually ran (feature.IsRegistered("remoteconfig")); tsnet builds
have the former but not the latter and correctly report false.
The handler lives in feature/remoteconfig and can be omitted with the
ts_omit_remoteconfig build tag. tsnet's TestDeps guards against
accidentally pulling it in.
Updates tailscale/corp#18043
Change-Id: I72ce10a90a0e4e738c72c940af3af64c986160b2
Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
tsnet
Package tsnet embeds a Tailscale node directly into a Go program, allowing it to join a tailnet and accept or dial connections without running a separate tailscaled daemon or requiring any system-level configuration.
Overview
Normally, Tailscale runs as a background system service (tailscaled) that manages a virtual network interface for the whole machine. tsnet takes a different approach: it runs a fully self-contained Tailscale node inside your process using a userspace TCP/IP stack (gVisor). This means:
- No root privileges required.
- No system daemons to install or manage.
- Multiple independent Tailscale nodes can run within a single binary.
- The node's Tailscale identity and state are stored in a directory you control.
The core type is Server, which represents one embedded Tailscale node. Calling Server.Listen or Server.Dial routes traffic exclusively over the tailnet. The standard library's net.Listener and net.Conn interfaces are returned, so any existing Go HTTP server, gRPC server, or other net-based code works without modification.
Usage
import "tailscale.com/tsnet"
s := &tsnet.Server{
Hostname: "my-service",
AuthKey: os.Getenv("TS_AUTHKEY"),
}
defer s.Close()
ln, err := s.Listen("tcp", ":80")
if err != nil {
log.Fatal(err)
}
log.Fatal(http.Serve(ln, myHandler))
On first run, if no Server.AuthKey is provided and the node is not already enrolled, the server logs an authentication URL. Open it in a browser to add the node to your tailnet.
Authentication
A Server authenticates using, in order of precedence:
-
The TS_AUTHKEY environment variable.
-
The TS_AUTH_KEY environment variable.
-
An OAuth client secret (Server.ClientSecret or TS_CLIENT_SECRET), used to mint an auth key.
-
Workload identity federation (Server.ClientID plus Server.IDToken or Server.Audience). Available only if the program imports the feature:
import _ "tailscale.com/feature/identityfederation"
The feature is not linked by default to keep the AWS SDK and other cloud-provider dependencies out of programs that don't use workload identity federation.
-
An interactive login URL printed to Server.UserLogf.
If the node is already enrolled (state found in Server.Store), the auth key is ignored unless TSNET_FORCE_LOGIN=1 is set.
Identifying callers
Use the WhoIs method on the client returned by Server.LocalClient to identify who is making a request:
lc, _ := srv.LocalClient()
http.Serve(ln, http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
who, err := lc.WhoIs(r.Context(), r.RemoteAddr)
if err != nil {
http.Error(w, err.Error(), 500)
return
}
fmt.Fprintf(w, "Hello, %s!", who.UserProfile.LoginName)
}))
Tailscale Funnel
Server.ListenFunnel exposes your service on the public internet. Tailscale Funnel currently supports TCP on ports 443, 8443, and 10000. HTTPS must be enabled in the Tailscale admin console.
ln, err := srv.ListenFunnel("tcp", ":443")
// ln is a TLS listener; connections can come from anywhere on the
// internet as well as from your tailnet.
// To restrict to public traffic only:
ln, err = srv.ListenFunnel("tcp", ":443", tsnet.FunnelOnly())
Tailscale Services
Server.ListenService advertises the node as a host for a named Tailscale Service. The node must use a tag-based identity. To advertise multiple ports, call ListenService once per port.
srv.AdvertiseTags = []string{"tag:myservice"}
ln, err := srv.ListenService("svc:my-service", tsnet.ServiceModeHTTP{
HTTPS: true,
Port: 443,
})
log.Printf("Listening on https://%s", ln.FQDN)
Running multiple nodes in one process
Each Server instance is an independent node. Give each a unique Server.Dir and Server.Hostname:
for _, name := range []string{"frontend", "backend"} {
srv := &tsnet.Server{
Hostname: name,
Dir: filepath.Join(baseDir, name),
AuthKey: os.Getenv("TS_AUTHKEY"),
Ephemeral: true,
}
srv.Start()
}