func startUDP() { bind, err := net.ResolveUDPAddr("udp", *bindAddr) if err != nil { log.Fatalln("Can not resolve bind address:", err) } conn, err := net.ListenUDP("udp", bind) if err != nil { log.Fatalln("Can not listen on UDP:", err) } log.Println("Listening on UDP:" + *bindAddr) udpBufs <- make([]byte, govpn.MTU) go func() { var buf []byte var raddr *net.UDPAddr var addr string var n int var err error var ps *PeerState var hs *govpn.Handshake var addrPrev string var exists bool var peerId *govpn.PeerId var peer *govpn.Peer var conf *govpn.PeerConf for { buf = <-udpBufs n, raddr, err = conn.ReadFromUDP(buf) if err != nil { log.Println("Unexpected error when receiving", err) break } addr = raddr.String() peersLock.RLock() ps, exists = peers[addr] peersLock.RUnlock() if !exists { goto CheckHandshake } go func(ps *govpn.Peer, tap *govpn.TAP, buf []byte, n int) { peer.PktProcess(buf[:n], tap, true) udpBufs <- buf }(ps.peer, ps.tap, buf, n) continue CheckHandshake: hsLock.RLock() hs, exists = handshakes[addr] hsLock.RUnlock() if !exists { goto CheckID } peer = hs.Server(buf[:n]) if peer == nil { goto Finished } log.Println("Peer handshake finished:", addr, peer.Id.String()) hs.Zero() hsLock.Lock() delete(handshakes, addr) hsLock.Unlock() go func() { udpBufs <- make([]byte, govpn.MTU) udpBufs <- make([]byte, govpn.MTU) }() peersByIdLock.RLock() addrPrev, exists = peersById[*peer.Id] peersByIdLock.RUnlock() if exists { peersLock.Lock() peers[addrPrev].terminator <- struct{}{} ps = &PeerState{ peer: peer, tap: peers[addrPrev].tap, terminator: make(chan struct{}), } go func(ps PeerState) { peerReady(ps) <-udpBufs <-udpBufs }(*ps) peersByIdLock.Lock() kpLock.Lock() delete(peers, addrPrev) delete(knownPeers, addrPrev) peers[addr] = ps knownPeers[addr] = &peer peersById[*peer.Id] = addr peersLock.Unlock() peersByIdLock.Unlock() kpLock.Unlock() log.Println("Rehandshake processed:", peer.Id.String()) } else { go func(addr string, peer *govpn.Peer) { ifaceName, err := callUp(peer.Id) if err != nil { return } tap, err := govpn.TAPListen(ifaceName) if err != nil { log.Println("Unable to create TAP:", err) return } ps = &PeerState{ peer: peer, tap: tap, terminator: make(chan struct{}), } go func(ps PeerState) { peerReady(ps) <-udpBufs <-udpBufs }(*ps) peersLock.Lock() peersByIdLock.Lock() kpLock.Lock() peers[addr] = ps knownPeers[addr] = &peer peersById[*peer.Id] = addr peersLock.Unlock() peersByIdLock.Unlock() kpLock.Unlock() log.Println("Peer created:", peer.Id.String()) }(addr, peer) } goto Finished CheckID: peerId = idsCache.Find(buf[:n]) if peerId == nil { log.Println("Unknown identity from:", addr) goto Finished } conf = confs[*peerId] if conf == nil { log.Println("Unable to get peer configuration:", peerId.String()) goto Finished } hs = govpn.NewHandshake( addr, UDPSender{conn: conn, addr: raddr}, conf, ) hs.Server(buf[:n]) hsLock.Lock() handshakes[addr] = hs hsLock.Unlock() Finished: udpBufs <- buf } }() }
func handleTCP(conn net.Conn) { addr := conn.RemoteAddr().String() buf := make([]byte, govpn.MTU) var n int var err error var prev int var hs *govpn.Handshake var ps *PeerState var peer *govpn.Peer var tap *govpn.TAP var conf *govpn.PeerConf for { if prev == govpn.MTU { break } conn.SetReadDeadline(time.Now().Add(time.Duration(govpn.TimeoutDefault) * time.Second)) n, err = conn.Read(buf[prev:]) if err != nil { // Either EOFed or timeouted break } prev += n peerId := idsCache.Find(buf[:prev]) if peerId == nil { continue } if hs == nil { conf = confs[*peerId] if conf == nil { log.Println("Can not get peer configuration:", peerId.String()) break } hs = govpn.NewHandshake(addr, conn, conf) } peer = hs.Server(buf[:prev]) prev = 0 if peer == nil { continue } hs.Zero() log.Println("Peer handshake finished:", addr, peer.Id.String()) peersByIdLock.RLock() addrPrev, exists := peersById[*peer.Id] peersByIdLock.RUnlock() if exists { peersLock.Lock() peers[addrPrev].terminator <- struct{}{} tap = peers[addrPrev].tap ps = &PeerState{ peer: peer, tap: tap, terminator: make(chan struct{}), } go peerReady(*ps) peersByIdLock.Lock() kpLock.Lock() delete(peers, addrPrev) delete(knownPeers, addrPrev) peers[addr] = ps knownPeers[addr] = &peer peersById[*peer.Id] = addr peersLock.Unlock() peersByIdLock.Unlock() kpLock.Unlock() log.Println("Rehandshake processed:", peer.Id.String()) } else { ifaceName, err := callUp(peer.Id) if err != nil { break } tap, err = govpn.TAPListen(ifaceName) if err != nil { log.Println("Unable to create TAP:", err) break } ps = &PeerState{ peer: peer, tap: tap, terminator: make(chan struct{}, 1), } go peerReady(*ps) peersLock.Lock() peersByIdLock.Lock() kpLock.Lock() peers[addr] = ps peersById[*peer.Id] = addr knownPeers[addr] = &peer peersLock.Unlock() peersByIdLock.Unlock() kpLock.Unlock() log.Println("Peer created:", peer.Id.String()) } break } if hs != nil { hs.Zero() } if peer == nil { return } nonceExpectation := make([]byte, govpn.NonceSize) peer.NonceExpectation(nonceExpectation) prev = 0 var i int for { if prev == govpn.MTU { break } conn.SetReadDeadline(time.Now().Add(conf.Timeout)) n, err = conn.Read(buf[prev:]) if err != nil { // Either EOFed or timeouted break } prev += n CheckMore: if prev < govpn.MinPktLength { continue } i = bytes.Index(buf[:prev], nonceExpectation) if i == -1 { continue } if !peer.PktProcess(buf[:i+govpn.NonceSize], tap, false) { log.Println( "Unauthenticated packet, dropping connection", addr, peer.Id.String(), ) break } peer.NonceExpectation(nonceExpectation) copy(buf, buf[i+govpn.NonceSize:prev]) prev = prev - i - govpn.NonceSize goto CheckMore } peer.Zero() }