headscale/hscontrol/noise.go

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package hscontrol
import (
"encoding/binary"
"encoding/json"
"io"
"net/http"
"github.com/gorilla/mux"
"github.com/juanfont/headscale/hscontrol/types"
"github.com/rs/zerolog/log"
"golang.org/x/net/http2"
"golang.org/x/net/http2/h2c"
"tailscale.com/control/controlbase"
"tailscale.com/control/controlhttp"
"tailscale.com/tailcfg"
"tailscale.com/types/key"
)
const (
// ts2021UpgradePath is the path that the server listens on for the WebSockets upgrade.
ts2021UpgradePath = "/ts2021"
// The first 9 bytes from the server to client over Noise are either an HTTP/2
// settings frame (a normal HTTP/2 setup) or, as Tailscale added later, an "early payload"
// header that's also 9 bytes long: 5 bytes (earlyPayloadMagic) followed by 4 bytes
// of length. Then that many bytes of JSON-encoded tailcfg.EarlyNoise.
// The early payload is optional. Some servers may not send it... But we do!
earlyPayloadMagic = "\xff\xff\xffTS"
// EarlyNoise was added in protocol version 49.
earlyNoiseCapabilityVersion = 49
)
type noiseServer struct {
headscale *Headscale
httpBaseConfig *http.Server
http2Server *http2.Server
conn *controlbase.Conn
machineKey key.MachinePublic
nodeKey key.NodePublic
// EarlyNoise-related stuff
challenge key.ChallengePrivate
protocolVersion int
}
// NoiseUpgradeHandler is to upgrade the connection and hijack the net.Conn
// in order to use the Noise-based TS2021 protocol. Listens in /ts2021.
func (h *Headscale) NoiseUpgradeHandler(
writer http.ResponseWriter,
req *http.Request,
) {
log.Trace().Caller().Msgf("Noise upgrade handler for client %s", req.RemoteAddr)
upgrade := req.Header.Get("Upgrade")
if upgrade == "" {
// This probably means that the user is running Headscale behind an
// improperly configured reverse proxy. TS2021 requires WebSockets to
// be passed to Headscale. Let's give them a hint.
log.Warn().
Caller().
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Msg("No Upgrade header in TS2021 request. If headscale is behind a reverse proxy, make sure it is configured to pass WebSockets through.")
http.Error(writer, "Internal error", http.StatusInternalServerError)
return
}
noiseServer := noiseServer{
headscale: h,
challenge: key.NewChallenge(),
}
noiseConn, err := controlhttp.AcceptHTTP(
req.Context(),
writer,
req,
*h.noisePrivateKey,
noiseServer.earlyNoise,
)
if err != nil {
log.Error().Err(err).Msg("noise upgrade failed")
http.Error(writer, err.Error(), http.StatusInternalServerError)
return
}
noiseServer.conn = noiseConn
noiseServer.machineKey = noiseServer.conn.Peer()
noiseServer.protocolVersion = noiseServer.conn.ProtocolVersion()
// This router is served only over the Noise connection, and exposes only the new API.
//
// The HTTP2 server that exposes this router is created for
// a single hijacked connection from /ts2021, using netutil.NewOneConnListener
router := mux.NewRouter()
router.HandleFunc("/machine/register", noiseServer.NoiseRegistrationHandler).
Methods(http.MethodPost)
router.HandleFunc("/machine/map", noiseServer.NoisePollNetMapHandler)
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server := http.Server{
ReadTimeout: types.HTTPTimeout,
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}
noiseServer.httpBaseConfig = &http.Server{
Handler: router,
ReadHeaderTimeout: types.HTTPTimeout,
}
noiseServer.http2Server = &http2.Server{}
server.Handler = h2c.NewHandler(router, noiseServer.http2Server)
noiseServer.http2Server.ServeConn(
noiseConn,
&http2.ServeConnOpts{
BaseConfig: noiseServer.httpBaseConfig,
},
)
}
func (ns *noiseServer) earlyNoise(protocolVersion int, writer io.Writer) error {
log.Trace().
Caller().
Int("protocol_version", protocolVersion).
Str("challenge", ns.challenge.Public().String()).
Msg("earlyNoise called")
if protocolVersion < earlyNoiseCapabilityVersion {
log.Trace().
Caller().
Msgf("protocol version %d does not support early noise", protocolVersion)
return nil
}
earlyJSON, err := json.Marshal(&tailcfg.EarlyNoise{
NodeKeyChallenge: ns.challenge.Public(),
})
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if err != nil {
return err
}
// 5 bytes that won't be mistaken for an HTTP/2 frame:
// https://httpwg.org/specs/rfc7540.html#rfc.section.4.1 (Especially not
// an HTTP/2 settings frame, which isn't of type 'T')
var notH2Frame [5]byte
copy(notH2Frame[:], earlyPayloadMagic)
var lenBuf [4]byte
binary.BigEndian.PutUint32(lenBuf[:], uint32(len(earlyJSON)))
// These writes are all buffered by caller, so fine to do them
// separately:
if _, err := writer.Write(notH2Frame[:]); err != nil {
return err
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}
if _, err := writer.Write(lenBuf[:]); err != nil {
return err
}
if _, err := writer.Write(earlyJSON); err != nil {
return err
}
return nil
}
const (
MinimumCapVersion tailcfg.CapabilityVersion = 58
)
// NoisePollNetMapHandler takes care of /machine/:id/map using the Noise protocol
//
// This is the busiest endpoint, as it keeps the HTTP long poll that updates
// the clients when something in the network changes.
//
// The clients POST stuff like HostInfo and their Endpoints here, but
// only after their first request (marked with the ReadOnly field).
//
// At this moment the updates are sent in a quite horrendous way, but they kinda work.
func (ns *noiseServer) NoisePollNetMapHandler(
writer http.ResponseWriter,
req *http.Request,
) {
log.Trace().
Str("handler", "NoisePollNetMap").
Msg("PollNetMapHandler called")
log.Trace().
Any("headers", req.Header).
Caller().
Msg("Headers")
body, _ := io.ReadAll(req.Body)
mapRequest := tailcfg.MapRequest{}
if err := json.Unmarshal(body, &mapRequest); err != nil {
log.Error().
Caller().
Err(err).
Msg("Cannot parse MapRequest")
http.Error(writer, "Internal error", http.StatusInternalServerError)
return
}
// Reject unsupported versions
if mapRequest.Version < MinimumCapVersion {
log.Info().
Caller().
Int("min_version", int(MinimumCapVersion)).
Int("client_version", int(mapRequest.Version)).
Msg("unsupported client connected")
http.Error(writer, "Internal error", http.StatusBadRequest)
return
}
ns.nodeKey = mapRequest.NodeKey
node, err := ns.headscale.db.GetNodeByAnyKey(
ns.conn.Peer(),
mapRequest.NodeKey,
key.NodePublic{},
)
if err != nil {
log.Error().
Str("handler", "NoisePollNetMap").
Uint64("node.id", node.ID.Uint64()).
Msgf("Failed to fetch node from the database with node key: %s", mapRequest.NodeKey.String())
http.Error(writer, "Internal error", http.StatusInternalServerError)
return
}
sess := ns.headscale.newMapSession(req.Context(), mapRequest, writer, node)
sess.tracef("a node sending a MapRequest with Noise protocol")
// If a streaming mapSession exists for this node, close it
// and start a new one.
if sess.isStreaming() {
sess.tracef("aquiring lock to check stream")
ns.headscale.mapSessionMu.Lock()
if _, ok := ns.headscale.mapSessions[node.ID]; ok {
// NOTE/TODO(kradalby): From how I understand the protocol, when
// a client connects with stream=true, and already has a streaming
// connection open, the correct way is to close the current channel
// and replace it. However, I cannot manage to get that working with
// some sort of lock/block happening on the cancelCh in the streaming
// session.
// Not closing the channel and replacing it puts us in a weird state
// which keeps a ghost stream open, receiving keep alives, but no updates.
//
// Typically a new connection is opened when one exists as a client which
// is already authenticated reconnects (e.g. down, then up). The client will
// start auth and streaming at the same time, and then cancel the streaming
// when the auth has finished successfully, opening a new connection.
//
// As a work-around to not replacing, abusing the clients "resilience"
// by reject the new connection which will cause the client to immediately
// reconnect and "fix" the issue, as the other connection typically has been
// closed, meaning there is nothing to replace.
//
// sess.infof("node has an open stream(%p), replacing with %p", oldSession, sess)
// oldSession.close()
defer ns.headscale.mapSessionMu.Unlock()
sess.infof("node has an open stream(%p), rejecting new stream", sess)
return
}
ns.headscale.mapSessions[node.ID] = sess
ns.headscale.mapSessionMu.Unlock()
sess.tracef("releasing lock to check stream")
}
sess.serve()
if sess.isStreaming() {
sess.tracef("aquiring lock to remove stream")
ns.headscale.mapSessionMu.Lock()
defer ns.headscale.mapSessionMu.Unlock()
delete(ns.headscale.mapSessions, node.ID)
sess.tracef("releasing lock to remove stream")
}
}