393 lines
8.8 KiB
Go
393 lines
8.8 KiB
Go
package node
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import (
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"fmt"
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"log"
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"net/netip"
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"strings"
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"sync/atomic"
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"time"
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"vppn/m"
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"git.crumpington.com/lib/go/ratelimiter"
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)
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const (
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pingInterval = 8 * time.Second
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timeoutInterval = 25 * time.Second
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)
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// ----------------------------------------------------------------------------
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func startPeerSuper() {
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peers := [256]peerState{}
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for i := range peers {
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data := &peerStateData{
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published: routingTable[i],
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remoteIP: byte(i),
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buf1: make([]byte, bufferSize),
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buf2: make([]byte, bufferSize),
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limiter: ratelimiter.New(ratelimiter.Config{
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FillPeriod: 50 * time.Millisecond,
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MaxWaitCount: 1,
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}),
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}
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peers[i] = data.OnPeerUpdate(nil)
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}
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go runPeerSuper(peers)
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}
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func runPeerSuper(peers [256]peerState) {
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for raw := range messages {
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switch msg := raw.(type) {
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case peerUpdateMsg:
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peers[msg.PeerIP] = peers[msg.PeerIP].OnPeerUpdate(msg.Peer)
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case controlMsg[synPacket]:
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peers[msg.SrcIP].OnSyn(msg)
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case controlMsg[ackPacket]:
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peers[msg.SrcIP].OnAck(msg)
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case controlMsg[probePacket]:
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peers[msg.SrcIP].OnProbe(msg)
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case controlMsg[localDiscoveryPacket]:
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peers[msg.SrcIP].OnLocalDiscovery(msg)
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case pingTimerMsg:
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for i := range peers {
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if newState := peers[i].OnPingTimer(); newState != nil {
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peers[i] = newState
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}
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}
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default:
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log.Printf("WARNING: unknown message type: %+v", msg)
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}
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}
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}
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// ----------------------------------------------------------------------------
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type peerState interface {
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OnPeerUpdate(*m.Peer) peerState
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OnSyn(controlMsg[synPacket])
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OnAck(controlMsg[ackPacket])
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OnProbe(controlMsg[probePacket])
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OnLocalDiscovery(controlMsg[localDiscoveryPacket])
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OnPingTimer() peerState
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}
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// ----------------------------------------------------------------------------
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type peerStateData struct {
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// The purpose of this state machine is to manage this published data.
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published *atomic.Pointer[peerRoute]
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staged peerRoute // Local copy of shared data. See publish().
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// Immutable data.
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remoteIP byte // Remote VPN IP.
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// Mutable peer data.
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peer *m.Peer
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remotePub bool
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// Buffers for sending control packets.
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buf1 []byte
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buf2 []byte
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// For logging. Set per-state.
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client bool
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limiter *ratelimiter.Limiter
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}
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// ----------------------------------------------------------------------------
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func (s *peerStateData) sendControlPacket(pkt interface{ Marshal([]byte) []byte }) {
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s.limiter.Limit()
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_sendControlPacket(pkt, s.staged, s.buf1, s.buf2)
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}
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func (s *peerStateData) sendControlPacketTo(
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pkt interface{ Marshal([]byte) []byte },
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addr netip.AddrPort,
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) {
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if !addr.IsValid() {
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s.logf("ERROR: Attepted to send packet to invalid address: %v", addr)
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return
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}
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route := s.staged
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route.Direct = true
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route.RemoteAddr = addr
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s.limiter.Limit()
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_sendControlPacket(pkt, route, s.buf1, s.buf2)
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}
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// ----------------------------------------------------------------------------
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func (s *peerStateData) publish() {
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data := s.staged
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s.published.Store(&data)
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}
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func (s *peerStateData) logf(format string, args ...any) {
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b := strings.Builder{}
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b.WriteString(fmt.Sprintf("%30s: ", s.peer.Name))
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if s.client {
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b.WriteString("CLIENT|")
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} else {
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b.WriteString("SERVER|")
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}
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if s.staged.Direct {
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b.WriteString("DIRECT |")
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} else {
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b.WriteString("RELAYED|")
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}
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if s.staged.Up {
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b.WriteString("UP |")
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} else {
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b.WriteString("DOWN|")
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}
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log.Printf(b.String()+format, args...)
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}
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// ----------------------------------------------------------------------------
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func (s *peerStateData) OnPeerUpdate(peer *m.Peer) peerState {
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defer s.publish()
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if peer == nil {
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return enterStateDisconnected(s)
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}
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s.peer = peer
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s.staged.IP = s.remoteIP
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s.staged.PubSignKey = peer.PubSignKey
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s.staged.ControlCipher = newControlCipher(privKey, peer.PubKey)
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s.staged.DataCipher = newDataCipher()
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if ip, isValid := netip.AddrFromSlice(peer.PublicIP); isValid {
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s.remotePub = true
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s.staged.Relay = peer.Relay
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s.staged.Direct = true
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s.staged.RemoteAddr = netip.AddrPortFrom(ip, peer.Port)
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} else if localPub {
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s.staged.Direct = true
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}
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if s.remotePub == localPub {
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if localIP < s.remoteIP {
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return enterStateServer(s)
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}
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return enterStateClient(s)
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}
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if s.remotePub {
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return enterStateClient(s)
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}
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return enterStateServer(s)
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}
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// ----------------------------------------------------------------------------
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type stateDisconnected struct {
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*peerStateData
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}
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func enterStateDisconnected(s *peerStateData) peerState {
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s.peer = nil
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s.staged = peerRoute{}
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s.publish()
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return &stateDisconnected{s}
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}
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func (s *stateDisconnected) OnSyn(controlMsg[synPacket]) {}
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func (s *stateDisconnected) OnAck(controlMsg[ackPacket]) {}
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func (s *stateDisconnected) OnProbe(controlMsg[probePacket]) {}
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func (s *stateDisconnected) OnLocalDiscovery(controlMsg[localDiscoveryPacket]) {}
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func (s *stateDisconnected) OnPingTimer() peerState {
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return nil
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}
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// ----------------------------------------------------------------------------
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type stateServer struct {
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*stateDisconnected
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lastSeen time.Time
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synTraceID uint64
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}
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func enterStateServer(s *peerStateData) peerState {
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s.client = false
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return &stateServer{stateDisconnected: &stateDisconnected{s}}
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}
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func (s *stateServer) OnSyn(msg controlMsg[synPacket]) {
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s.lastSeen = time.Now()
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p := msg.Packet
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// Before we can respond to this packet, we need to make sure the
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// route is setup properly.
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//
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// The client will update the syn's TraceID whenever there's a change.
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// The server will follow the client's request.
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if p.TraceID != s.synTraceID || !s.staged.Up {
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s.synTraceID = p.TraceID
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s.staged.Up = true
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s.staged.Direct = p.Direct
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s.staged.DataCipher = newDataCipherFromKey(p.SharedKey)
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s.staged.RemoteAddr = msg.SrcAddr
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s.publish()
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s.logf("Got syn.")
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}
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// Always respond.
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ack := ackPacket{
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TraceID: p.TraceID,
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FromAddr: getLocalAddr(),
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}
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s.sendControlPacket(ack)
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if !s.staged.Direct && p.FromAddr.IsValid() {
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s.sendControlPacketTo(probePacket{TraceID: newTraceID()}, p.FromAddr)
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}
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}
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func (s *stateServer) OnProbe(msg controlMsg[probePacket]) {
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if !msg.SrcAddr.IsValid() {
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s.logf("Invalid probe address.")
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return
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}
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s.sendControlPacketTo(probePacket{TraceID: msg.Packet.TraceID}, msg.SrcAddr)
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}
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func (s *stateServer) OnPingTimer() peerState {
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if time.Since(s.lastSeen) > timeoutInterval && s.staged.Up {
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s.staged.Up = false
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s.publish()
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s.logf("Connection timeout.")
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}
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return nil
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}
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// ----------------------------------------------------------------------------
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type stateClient struct {
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*stateDisconnected
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lastSeen time.Time
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syn synPacket
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ack ackPacket
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probeTraceID uint64
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probeAddr netip.AddrPort
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localProbeTraceID uint64
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localProbeAddr netip.AddrPort
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}
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func enterStateClient(s *peerStateData) peerState {
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s.client = true
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ss := &stateClient{stateDisconnected: &stateDisconnected{s}}
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ss.syn = synPacket{
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TraceID: newTraceID(),
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SharedKey: s.staged.DataCipher.Key(),
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Direct: s.staged.Direct,
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FromAddr: getLocalAddr(),
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}
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ss.sendSyn()
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return ss
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}
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func (s *stateClient) OnAck(msg controlMsg[ackPacket]) {
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if msg.Packet.TraceID != s.syn.TraceID {
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s.logf("Ack has incorrect trace ID")
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return
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}
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s.ack = msg.Packet
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s.lastSeen = time.Now()
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if !s.staged.Up {
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s.staged.Up = true
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s.logf("Got ack.")
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s.publish()
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} else {
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}
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}
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func (s *stateClient) OnProbe(msg controlMsg[probePacket]) {
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if s.staged.Direct {
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return
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}
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switch msg.Packet.TraceID {
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case s.probeTraceID:
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s.staged.RemoteAddr = s.probeAddr
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case s.localProbeTraceID:
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s.staged.RemoteAddr = s.localProbeAddr
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default:
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return
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}
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s.staged.Direct = true
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s.publish()
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s.syn.TraceID = newTraceID()
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s.syn.Direct = true
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s.syn.FromAddr = getLocalAddr()
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s.sendControlPacket(s.syn)
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s.logf("Established direct connection to %s.", s.staged.RemoteAddr.String())
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}
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func (s *stateClient) OnLocalDiscovery(msg controlMsg[localDiscoveryPacket]) {
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if s.staged.Direct {
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return
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}
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// Send probe.
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//
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// The source port will be the multicast port, so we'll have to
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// construct the correct address using the peer's listed port.
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s.localProbeTraceID = newTraceID()
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s.localProbeAddr = netip.AddrPortFrom(msg.SrcAddr.Addr(), s.peer.Port)
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s.sendControlPacketTo(probePacket{TraceID: s.localProbeTraceID}, s.localProbeAddr)
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}
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func (s *stateClient) OnPingTimer() peerState {
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if time.Since(s.lastSeen) > timeoutInterval {
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if s.staged.Up {
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s.logf("Connection timeout.")
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}
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return s.OnPeerUpdate(s.peer)
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}
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s.sendSyn()
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if !s.staged.Direct && s.ack.FromAddr.IsValid() {
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s.probeTraceID = newTraceID()
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s.probeAddr = s.ack.FromAddr
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s.sendControlPacketTo(probePacket{TraceID: s.probeTraceID}, s.probeAddr)
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}
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return nil
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}
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func (s *stateClient) sendSyn() {
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localAddr := getLocalAddr()
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if localAddr != s.syn.FromAddr {
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s.syn.TraceID = newTraceID()
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s.syn.FromAddr = localAddr
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}
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s.sendControlPacket(s.syn)
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}
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