wip: cleanup

2025-02-25 02:43:29 +01:00 · 2025-02-25 02:43:29 +01:00 · 9fd6d90f9c
commit 9fd6d90f9c
parent 3f7c42bb41
15 changed files with 657 additions and 14 deletions
--- a/peer/connreader.go
+++ b/peer/connreader.go
@ -84,6 +84,7 @@ func (r *connReader) handleControlPacket(
 	enc []byte,
 ) {
 	if peer.ControlCipher == nil {
+		log.Printf("No control cipher for peer: %v", h)
 		return
 	}

@ -125,13 +126,13 @@ func (r *connReader) handleDataPacket(
 		return
 	}

-	relay, ok := rt.GetRelay()
-	if !ok {
-		r.logf("Relay not available.")
+	remote := rt.Peers[h.DestIP]
+	if !remote.Direct {
+		r.logf("Unable to relay data to %d.", h.DestIP)
 		return
 	}

-	r.writeToUDPAddrPort(data, relay.DirectAddr)
+	r.writeToUDPAddrPort(data, remote.DirectAddr)
 }

 func (r *connReader) logf(format string, args ...any) {
--- a/peer/controlmessage.go
+++ b/peer/controlmessage.go
@ -41,6 +41,14 @@ func parseControlMsg(srcIP byte, srcAddr netip.AddrPort, buf []byte) (any, error
 			Packet:  packet,
 		}, err

+	case packetTypeInit:
+		packet, err := parsePacketInit(buf)
+		return controlMsg[packetInit]{
+			SrcIP:   srcIP,
+			SrcAddr: srcAddr,
+			Packet:  packet,
+		}, err
+
 	default:
 		return nil, errUnknownPacketType
 	}
--- a/peer/globals.go
+++ b/peer/globals.go
@ -7,6 +7,8 @@ import (
 )

 const (
+	version = 1
+
 	bufferSize = 1536

 	if_mtu       = 1200
--- a/peer/logging.go
+++ b/peer/logging.go
@ -0,0 +1,13 @@
+package peer
+
+import "log"
+
+func logPacket(p []byte, notes string) {
+	h := parseHeader(p)
+	log.Printf(`Sending: Data: %v | From: %d | To:   %d | %s
+`,
+		h.StreamID == dataStreamID,
+		h.SourceIP,
+		h.DestIP,
+		notes)
+}
--- a/peer/packets.go
+++ b/peer/packets.go
@ -6,19 +6,38 @@ import (

 const (
 	packetTypeSyn           = 1
+	packetTypeInit          = 2
 	packetTypeAck           = 3
 	packetTypeProbe         = 4
 	packetTypeAddrDiscovery = 5
-	packetTypeInit          = 6
 )

 // ----------------------------------------------------------------------------

 type packetInit struct {
 	TraceID uint64
+	Direct  bool
 	Version uint64
 }

+func (p packetInit) Marshal(buf []byte) []byte {
+	return newBinWriter(buf).
+		Byte(packetTypeInit).
+		Uint64(p.TraceID).
+		Bool(p.Direct).
+		Uint64(p.Version).
+		Build()
+}
+
+func parsePacketInit(buf []byte) (p packetInit, err error) {
+	err = newBinReader(buf[1:]).
+		Uint64(&p.TraceID).
+		Bool(&p.Direct).
+		Uint64(&p.Version).
+		Error()
+	return
+}
+
 // ----------------------------------------------------------------------------

 type packetSyn struct {
--- a/peer/peerstates.go
+++ b/peer/peerstates.go
@ -43,6 +43,7 @@ type pState struct {
 	limiter *ratelimiter.Limiter
 }

+/*
 func (s *pState) OnPeerUpdate(peer *m.Peer) peerState {
 	defer func() {
 		// Don't defer directly otherwise s.staged will be evaluated immediately
@ -78,7 +79,7 @@ func (s *pState) OnPeerUpdate(peer *m.Peer) peerState {
 			return enterStateServer(s)
 		}

-		return enterStateClientDirect(s)
+		return enterStateClientinit(s)
 	}

 	if s.localAddr.IsValid() {
@ -90,8 +91,9 @@ func (s *pState) OnPeerUpdate(peer *m.Peer) peerState {
 		return enterStateServer(s)
 	}

-	return enterStateClientRelayed(s)
+	return enterStateClientinit(s)
 }
+*/

 func (s *pState) logf(format string, args ...any) {
 	b := strings.Builder{}
@ -140,6 +142,7 @@ func (s *pState) Send(peer remotePeer, pkt marshaller) {

 // ----------------------------------------------------------------------------

+/*
 type stateDisconnected struct{ *pState }

 func enterStateDisconnected(s *pState) peerState {
@ -181,6 +184,8 @@ func (s *stateServer) OnMsg(rawMsg any) peerState {
 	switch msg := rawMsg.(type) {
 	case peerUpdateMsg:
 		return s.OnPeerUpdate(msg.Peer)
+	case controlMsg[packetInit]:
+		return s.OnInit(msg)
 	case controlMsg[packetSyn]:
 		return s.OnSyn(msg)
 	case controlMsg[packetProbe]:
@ -193,6 +198,21 @@ func (s *stateServer) OnMsg(rawMsg any) peerState {
 	}
 }

+func (s *stateServer) OnInit(msg controlMsg[packetInit]) peerState {
+	s.logf("Responding to INIT.")
+	route := s.staged
+	route.Direct = msg.Packet.Direct
+	route.DirectAddr = msg.SrcAddr
+
+	s.Send(route, packetInit{
+		TraceID: msg.Packet.TraceID,
+		Direct:  route.Direct,
+		Version: version,
+	})
+
+	return s
+}
+
 func (s *stateServer) OnSyn(msg controlMsg[packetSyn]) peerState {
 	s.lastSeen = time.Now()
 	p := msg.Packet
@ -252,6 +272,75 @@ func (s *stateServer) OnPingTimer() peerState {

 // ----------------------------------------------------------------------------

+type stateClientInit struct {
+	*stateDisconnected
+	startedAt time.Time
+	traceID   uint64
+}
+
+func enterStateClientinit(s *pState) peerState {
+	s.logf("==> ClientInit")
+	s.pingTimer.Reset(pingInterval)
+
+	state := &stateClientInit{
+		stateDisconnected: &stateDisconnected{s},
+		startedAt:         time.Now(),
+		traceID:           newTraceID(),
+	}
+	state.Send(s.staged, packetInit{
+		TraceID: state.traceID,
+		Direct:  s.staged.Direct,
+		Version: version,
+	})
+	return state
+}
+
+func (s *stateClientInit) OnMsg(raw any) peerState {
+	switch msg := raw.(type) {
+	case peerUpdateMsg:
+		return s.OnPeerUpdate(msg.Peer)
+	case controlMsg[packetInit]:
+		return s.onInit(msg)
+	case pingTimerMsg:
+		return s.onPing()
+	default:
+		return s
+	}
+}
+
+func (s *stateClientInit) onInit(msg controlMsg[packetInit]) peerState {
+	if msg.Packet.TraceID != s.traceID {
+		s.logf("Invalid trace ID on INIT.")
+		return s
+	}
+	s.logf("Got INIT version %d.", msg.Packet.Version)
+	return s.nextState()
+}
+
+func (s *stateClientInit) onPing() peerState {
+	if time.Since(s.startedAt) > timeoutInterval {
+		s.logf("Init timeout. Assuming version 1.")
+		return s.nextState()
+	}
+
+	s.traceID = newTraceID()
+	s.Send(s.staged, packetInit{
+		TraceID: s.traceID,
+		Direct:  s.staged.Direct,
+		Version: version,
+	})
+	return s
+}
+
+func (s *stateClientInit) nextState() peerState {
+	if s.staged.Direct {
+		return enterStateClientDirect(s.pState)
+	}
+	return enterStateClientRelayed(s.pState)
+}
+
+// ----------------------------------------------------------------------------
+
 type stateClientDirect struct {
 	*stateDisconnected
 	lastSeen time.Time
@ -418,3 +507,4 @@ func (s *stateClientRelayed) sendProbeTo(addr netip.AddrPort) {
 	s.probes[probe.TraceID] = addr
 	s.SendTo(probe, addr)
 }
+*/
--- a/peer/peerstates_test.go
+++ b/peer/peerstates_test.go
@ -53,6 +53,10 @@ func (h *PeerStateTestHarness) PeerUpdate(p *m.Peer) {
 	h.State = h.State.OnMsg(peerUpdateMsg{p})
 }

+func (h *PeerStateTestHarness) OnInit(msg controlMsg[packetInit]) {
+	h.State = h.State.OnMsg(msg)
+}
+
 func (h *PeerStateTestHarness) OnSyn(msg controlMsg[packetSyn]) {
 	h.State = h.State.OnMsg(msg)
 }
@ -110,6 +114,7 @@ func (h *PeerStateTestHarness) ConfigClientDirect(t *testing.T) *stateClientDire

 	h.PeerUpdate(peer)
 	assertEqual(t, h.Published.Up, false)
+
 	return assertType[*stateClientDirect](t, h.State)
 }

--- a/peer/peersuper.go
+++ b/peer/peersuper.go
@ -124,7 +124,7 @@ type peerSuper struct {
 func newPeerSuper(state *pState, pingTimer *time.Ticker) *peerSuper {
 	return &peerSuper{
 		messages:  make(chan any, 8),
-		state:     state.OnPeerUpdate(nil),
+		state:     initPeerState(state, nil),
 		pingTimer: pingTimer,
 	}
 }
--- a/peer/pubaddrs.go
+++ b/peer/pubaddrs.go
@ -1,9 +1,7 @@
 package peer

 import (
-	"log"
 	"net/netip"
-	"runtime/debug"
 	"sort"
 	"sync"
 	"time"
@ -27,14 +25,13 @@ func newPubAddrStore(localAddr netip.AddrPort) *pubAddrStore {
 }

 func (store *pubAddrStore) Store(add netip.AddrPort) {
-	store.lock.Lock()
-	defer store.lock.Unlock()
-
 	if store.localPub {
-		log.Printf("OOPS: Local pub but storage attempt: %s", debug.Stack())
 		return
 	}

+	store.lock.Lock()
+	defer store.lock.Unlock()
+
 	if !add.IsValid() {
 		return
 	}
--- a/peer/state-clientdirect.go
+++ b/peer/state-clientdirect.go
@ -0,0 +1,85 @@
+package peer
+
+import (
+	"net/netip"
+	"time"
+)
+
+type stateClientDirect2 struct {
+	*peerData
+	lastSeen time.Time
+	syn      packetSyn
+}
+
+func enterStateClientDirect2(data *peerData, directAddr netip.AddrPort) peerState {
+	data.staged.Relay = data.peer.Relay
+	data.staged.Direct = true
+	data.staged.DirectAddr = directAddr
+	data.publish(data.staged)
+
+	state := &stateClientDirect2{
+		peerData: data,
+		lastSeen: time.Now(),
+		syn: packetSyn{
+			TraceID:   newTraceID(),
+			SharedKey: data.staged.DataCipher.Key(),
+			Direct:    true,
+		},
+	}
+
+	state.Send(state.staged, state.syn)
+
+	data.pingTimer.Reset(pingInterval)
+
+	state.logf("==> ClientDirect")
+	return state
+}
+
+func (s *stateClientDirect2) logf(str string, args ...any) {
+	s.peerData.logf("CLNT | "+str, args...)
+}
+
+func (s *stateClientDirect2) OnMsg(raw any) peerState {
+	switch msg := raw.(type) {
+	case peerUpdateMsg:
+		return initPeerState(s.peerData, msg.Peer)
+	case controlMsg[packetAck]:
+		return s.onAck(msg)
+	case pingTimerMsg:
+		return s.onPingTimer()
+	case controlMsg[packetLocalDiscovery]:
+		return s
+	default:
+		s.logf("Ignoring message: %v", raw)
+		return s
+	}
+}
+
+func (s *stateClientDirect2) onAck(msg controlMsg[packetAck]) peerState {
+	if msg.Packet.TraceID != s.syn.TraceID {
+		return s
+	}
+
+	s.lastSeen = time.Now()
+
+	if !s.staged.Up {
+		s.staged.Up = true
+		s.publish(s.staged)
+		s.logf("Got ACK.")
+	}
+
+	s.pubAddrs.Store(msg.Packet.ToAddr)
+	return s
+}
+
+func (s *stateClientDirect2) onPingTimer() peerState {
+	if time.Since(s.lastSeen) > timeoutInterval {
+		if s.staged.Up {
+			s.logf("Timeout.")
+		}
+		return initPeerState(s.peerData, s.peer)
+	}
+
+	s.Send(s.staged, s.syn)
+	return s
+}
--- a/peer/state-clientinit.go
+++ b/peer/state-clientinit.go
@ -0,0 +1,93 @@
+package peer
+
+import (
+	"net/netip"
+	"time"
+)
+
+type stateClientInit2 struct {
+	*peerData
+	startedAt time.Time
+	traceID   uint64
+}
+
+func enterStateClientInit2(data *peerData) peerState {
+	ip, ipValid := netip.AddrFromSlice(data.peer.PublicIP)
+
+	data.staged.Up = false
+	data.staged.Relay = false
+	data.staged.Direct = ipValid
+	data.staged.DirectAddr = netip.AddrPortFrom(ip, data.peer.Port)
+	data.staged.PubSignKey = data.peer.PubSignKey
+	data.staged.ControlCipher = newControlCipher(data.privKey, data.peer.PubKey)
+	data.staged.DataCipher = newDataCipher()
+
+	data.publish(data.staged)
+
+	state := &stateClientInit2{
+		peerData:  data,
+		startedAt: time.Now(),
+		traceID:   newTraceID(),
+	}
+	state.sendInit()
+
+	data.pingTimer.Reset(pingInterval)
+
+	state.logf("==> ClientInit")
+	return state
+}
+
+func (s *stateClientInit2) logf(str string, args ...any) {
+	s.peerData.logf("INIT | "+str, args...)
+}
+
+func (s *stateClientInit2) OnMsg(raw any) peerState {
+	switch msg := raw.(type) {
+	case peerUpdateMsg:
+		return initPeerState(s.peerData, msg.Peer)
+	case controlMsg[packetInit]:
+		return s.onInit(msg)
+	case pingTimerMsg:
+		return s.onPing()
+	default:
+		s.logf("Ignoring message: %v", raw)
+		return s
+	}
+}
+
+func (s *stateClientInit2) onInit(msg controlMsg[packetInit]) peerState {
+	if msg.Packet.TraceID != s.traceID {
+		s.logf("Invalid trace ID on INIT.")
+		return s
+	}
+	s.logf("Got INIT version %d.", msg.Packet.Version)
+	return s.nextState()
+}
+
+func (s *stateClientInit2) onPing() peerState {
+	if time.Since(s.startedAt) > timeoutInterval {
+		s.logf("Init timeout. Assuming version 1.")
+		return s.nextState()
+	}
+
+	s.sendInit()
+	return s
+}
+
+func (s *stateClientInit2) sendInit() {
+	s.traceID = newTraceID()
+	init := packetInit{
+		TraceID: s.traceID,
+		Direct:  s.staged.Direct,
+		Version: version,
+	}
+	s.Send(s.staged, init)
+}
+
+func (s *stateClientInit2) nextState() peerState {
+	if s.staged.Direct {
+		return enterStateClientDirect2(s.peerData, s.staged.DirectAddr)
+	}
+
+	return enterStateClientRelayed2(s.peerData)
+}
--- a/peer/state-clientrelayed.go
+++ b/peer/state-clientrelayed.go
@ -0,0 +1,142 @@
+package peer
+
+import (
+	"net/netip"
+	"time"
+)
+
+type sentProbe struct {
+	SentAt time.Time
+	Addr   netip.AddrPort
+}
+
+type stateClientRelayed2 struct {
+	*peerData
+	lastSeen time.Time
+	syn      packetSyn
+	probes   map[uint64]sentProbe
+}
+
+func enterStateClientRelayed2(data *peerData) peerState {
+	data.staged.Relay = false
+	data.staged.Direct = false
+	data.staged.DirectAddr = netip.AddrPort{}
+	data.publish(data.staged)
+
+	state := &stateClientRelayed2{
+		peerData: data,
+		lastSeen: time.Now(),
+		syn: packetSyn{
+			TraceID:       newTraceID(),
+			SharedKey:     data.staged.DataCipher.Key(),
+			Direct:        false,
+			PossibleAddrs: data.pubAddrs.Get(),
+		},
+		probes: map[uint64]sentProbe{},
+	}
+
+	state.Send(state.staged, state.syn)
+
+	data.pingTimer.Reset(pingInterval)
+
+	state.logf("==> ClientRelayed")
+	return state
+}
+
+func (s *stateClientRelayed2) logf(str string, args ...any) {
+	s.peerData.logf("CLNT | "+str, args...)
+}
+
+func (s *stateClientRelayed2) OnMsg(raw any) peerState {
+	switch msg := raw.(type) {
+	case peerUpdateMsg:
+		return initPeerState(s.peerData, msg.Peer)
+	case controlMsg[packetAck]:
+		return s.onAck(msg)
+	case controlMsg[packetProbe]:
+		return s.onProbe(msg)
+	case controlMsg[packetLocalDiscovery]:
+		return s.onLocalDiscovery(msg)
+	case pingTimerMsg:
+		return s.onPingTimer()
+	default:
+		s.logf("Ignoring message: %v", raw)
+		return s
+	}
+}
+
+func (s *stateClientRelayed2) onAck(msg controlMsg[packetAck]) peerState {
+	if msg.Packet.TraceID != s.syn.TraceID {
+		return s
+	}
+
+	s.lastSeen = time.Now()
+
+	if !s.staged.Up {
+		s.staged.Up = true
+		s.publish(s.staged)
+		s.logf("Got ACK.")
+	}
+
+	s.pubAddrs.Store(msg.Packet.ToAddr)
+
+	for _, addr := range msg.Packet.PossibleAddrs {
+		if !addr.IsValid() {
+			break
+		}
+		s.sendProbeTo(addr)
+	}
+
+	s.cleanProbes()
+
+	return s
+}
+
+func (s *stateClientRelayed2) onPingTimer() peerState {
+	if time.Since(s.lastSeen) > timeoutInterval {
+		if s.staged.Up {
+			s.logf("Timeout.")
+		}
+		return initPeerState(s.peerData, s.peer)
+	}
+
+	s.Send(s.staged, s.syn)
+	return s
+}
+
+func (s *stateClientRelayed2) onProbe(msg controlMsg[packetProbe]) peerState {
+	s.cleanProbes()
+
+	sent, ok := s.probes[msg.Packet.TraceID]
+	if !ok {
+		return s
+	}
+
+	s.logf("Successful probe.")
+	return enterStateClientDirect2(s.peerData, sent.Addr)
+}
+
+func (s *stateClientRelayed2) onLocalDiscovery(msg controlMsg[packetLocalDiscovery]) peerState {
+	// The source port will be the multicast port, so we'll have to
+	// construct the correct address using the peer's listed port.
+	addr := netip.AddrPortFrom(msg.SrcAddr.Addr(), s.peer.Port)
+	s.sendProbeTo(addr)
+	return s
+}
+
+func (s *stateClientRelayed2) cleanProbes() {
+	for key, sent := range s.probes {
+		if time.Since(sent.SentAt) > pingInterval {
+			delete(s.probes, key)
+		}
+	}
+}
+
+func (s *stateClientRelayed2) sendProbeTo(addr netip.AddrPort) {
+	probe := packetProbe{TraceID: newTraceID()}
+	s.probes[probe.TraceID] = sentProbe{
+		SentAt: time.Now(),
+		Addr:   addr,
+	}
+	s.SendTo(probe, addr)
+}
--- a/peer/state-disconnected.go
+++ b/peer/state-disconnected.go
@ -0,0 +1,33 @@
+package peer
+
+import "net/netip"
+
+type stateDisconnected2 struct {
+	*peerData
+}
+
+func enterStateDisconnected2(data *peerData) peerState {
+	data.staged.Up = false
+	data.staged.Relay = false
+	data.staged.Direct = false
+	data.staged.DirectAddr = netip.AddrPort{}
+	data.staged.PubSignKey = nil
+	data.staged.ControlCipher = nil
+	data.staged.DataCipher = nil
+
+	data.publish(data.staged)
+
+	data.pingTimer.Stop()
+
+	return &stateDisconnected2{data}
+}
+
+func (s *stateDisconnected2) OnMsg(raw any) peerState {
+	switch msg := raw.(type) {
+	case peerUpdateMsg:
+		return initPeerState(s.peerData, msg.Peer)
+	default:
+		s.logf("Ignoring message: %v", raw)
+		return s
+	}
+}
--- a/peer/state-server.go
+++ b/peer/state-server.go
@ -0,0 +1,127 @@
+package peer
+
+import (
+	"net/netip"
+	"time"
+)
+
+type stateServer2 struct {
+	*peerData
+	lastSeen   time.Time
+	synTraceID uint64 // Last syn trace ID.
+}
+
+func enterStateServer2(data *peerData) peerState {
+	data.staged.Up = false
+	data.staged.Relay = false
+	data.staged.Direct = false
+	data.staged.DirectAddr = netip.AddrPort{}
+	data.staged.PubSignKey = data.peer.PubSignKey
+	data.staged.ControlCipher = newControlCipher(data.privKey, data.peer.PubKey)
+	data.staged.DataCipher = nil
+
+	data.publish(data.staged)
+
+	data.pingTimer.Reset(pingInterval)
+
+	state := &stateServer2{peerData: data}
+	state.logf("==> Server")
+	return state
+}
+
+func (s *stateServer2) logf(str string, args ...any) {
+	s.peerData.logf("SRVR | "+str, args...)
+}
+
+func (s *stateServer2) OnMsg(raw any) peerState {
+	switch msg := raw.(type) {
+	case peerUpdateMsg:
+		return initPeerState(s.peerData, msg.Peer)
+	case controlMsg[packetInit]:
+		return s.onInit(msg)
+	case controlMsg[packetSyn]:
+		return s.onSyn(msg)
+	case controlMsg[packetProbe]:
+		return s.onProbe(msg)
+	case controlMsg[packetLocalDiscovery]:
+		return s
+	case pingTimerMsg:
+		return s.onPingTimer()
+	default:
+		s.logf("Ignoring message: %v", raw)
+		return s
+	}
+}
+
+func (s *stateServer2) onInit(msg controlMsg[packetInit]) peerState {
+	s.staged.Up = false
+	s.staged.Direct = msg.Packet.Direct
+	s.staged.DirectAddr = msg.SrcAddr
+	s.publish(s.staged)
+
+	init := packetInit{
+		TraceID: msg.Packet.TraceID,
+		Direct:  s.staged.Direct,
+		Version: version,
+	}
+
+	s.Send(s.staged, init)
+
+	return s
+}
+
+func (s *stateServer2) onSyn(msg controlMsg[packetSyn]) peerState {
+	s.lastSeen = time.Now()
+	p := msg.Packet
+
+	// Before we can respond to this packet, we need to make sure the
+	// route is setup properly.
+	//
+	// The client will update the syn's TraceID whenever there's a change.
+	// The server will follow the client's request.
+	if p.TraceID != s.synTraceID || !s.staged.Up {
+		s.synTraceID = p.TraceID
+		s.staged.Up = true
+		s.staged.Direct = p.Direct
+		s.staged.DataCipher = newDataCipherFromKey(p.SharedKey)
+		s.staged.DirectAddr = msg.SrcAddr
+		s.publish(s.staged)
+		s.logf("Got SYN.")
+	}
+
+	// Always respond.
+	s.Send(s.staged, packetAck{
+		TraceID:       p.TraceID,
+		ToAddr:        s.staged.DirectAddr,
+		PossibleAddrs: s.pubAddrs.Get(),
+	})
+
+	if p.Direct {
+		return s
+	}
+
+	for _, addr := range msg.Packet.PossibleAddrs {
+		if !addr.IsValid() {
+			break
+		}
+		s.SendTo(packetProbe{TraceID: newTraceID()}, addr)
+	}
+
+	return s
+}
+
+func (s *stateServer2) onProbe(msg controlMsg[packetProbe]) peerState {
+	if msg.SrcAddr.IsValid() {
+		s.SendTo(packetProbe{TraceID: msg.Packet.TraceID}, msg.SrcAddr)
+	}
+	return s
+}
+
+func (s *stateServer2) onPingTimer() peerState {
+	if time.Since(s.lastSeen) > timeoutInterval && s.staged.Up {
+		s.staged.Up = false
+		s.publish(s.staged)
+		s.logf("Timeout.")
+	}
+	return s
+}
--- a/peer/statedata.go
+++ b/peer/statedata.go
@ -0,0 +1,28 @@
+package peer
+
+import (
+	"net/netip"
+	"vppn/m"
+)
+
+type peerData = pState
+
+func initPeerState(data *peerData, peer *m.Peer) peerState {
+	data.peer = peer
+
+	if peer == nil {
+		return enterStateDisconnected2(data)
+	}
+
+	if _, isValid := netip.AddrFromSlice(peer.PublicIP); isValid {
+		if data.localAddr.IsValid() && data.localIP < data.remoteIP {
+			return enterStateServer2(data)
+		}
+		return enterStateClientInit2(data)
+	}
+
+	if data.localAddr.IsValid() || data.localIP < data.remoteIP {
+		return enterStateServer2(data)
+	}
+	return enterStateClientInit2(data)
+}