package nebula import ( "fmt" "net" "sync" "time" "github.com/golang/protobuf/proto" "github.com/slackhq/nebula/cert" ) type LightHouse struct { sync.RWMutex //Because we concurrently read and write to our maps amLighthouse bool myIp uint32 punchConn *udpConn // Local cache of answers from light houses addrMap map[uint32][]udpAddr // staticList exists to avoid having a bool in each addrMap entry // since static should be rare staticList map[uint32]struct{} lighthouses map[uint32]struct{} interval int nebulaPort int punchBack bool } type EncWriter interface { SendMessageToVpnIp(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte) SendMessageToAll(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte) } func NewLightHouse(amLighthouse bool, myIp uint32, ips []uint32, interval int, nebulaPort int, pc *udpConn, punchBack bool) *LightHouse { h := LightHouse{ amLighthouse: amLighthouse, myIp: myIp, addrMap: make(map[uint32][]udpAddr), nebulaPort: nebulaPort, lighthouses: make(map[uint32]struct{}), staticList: make(map[uint32]struct{}), interval: interval, punchConn: pc, punchBack: punchBack, } for _, ip := range ips { h.lighthouses[ip] = struct{}{} } return &h } func (lh *LightHouse) ValidateLHStaticEntries() error { for lhIP, _ := range lh.lighthouses { for ip, _ := range lh.staticList { if lhIP == ip { break } return fmt.Errorf("Lighthouse %s does not have a static_host_map entry", IntIp(lhIP)) } } return nil } func (lh *LightHouse) Query(ip uint32, f EncWriter) ([]udpAddr, error) { if !lh.IsLighthouseIP(ip) { lh.QueryServer(ip, f) } lh.RLock() if v, ok := lh.addrMap[ip]; ok { lh.RUnlock() return v, nil } lh.RUnlock() return nil, fmt.Errorf("host %s not known, queries sent to lighthouses", IntIp(ip)) } // This is asynchronous so no reply should be expected func (lh *LightHouse) QueryServer(ip uint32, f EncWriter) { if !lh.amLighthouse { // Send a query to the lighthouses and hope for the best next time query, err := proto.Marshal(NewLhQueryByInt(ip)) if err != nil { l.WithError(err).WithField("vpnIp", IntIp(ip)).Error("Failed to marshal lighthouse query payload") return } nb := make([]byte, 12, 12) out := make([]byte, mtu) for n := range lh.lighthouses { f.SendMessageToVpnIp(lightHouse, 0, n, query, nb, out) } } } // Query our local lighthouse cached results func (lh *LightHouse) QueryCache(ip uint32) []udpAddr { lh.RLock() if v, ok := lh.addrMap[ip]; ok { lh.RUnlock() return v } lh.RUnlock() return nil } func (lh *LightHouse) DeleteVpnIP(vpnIP uint32) { // First we check the static mapping // and do nothing if it is there if _, ok := lh.staticList[vpnIP]; ok { return } lh.Lock() //l.Debugln(lh.addrMap) delete(lh.addrMap, vpnIP) l.Debugf("deleting %s from lighthouse.", IntIp(vpnIP)) lh.Unlock() } func (lh *LightHouse) AddRemote(vpnIP uint32, toIp *udpAddr, static bool) { // First we check if the sender thinks this is a static entry // and do nothing if it is not, but should be considered static if static == false { if _, ok := lh.staticList[vpnIP]; ok { return } } lh.Lock() for _, v := range lh.addrMap[vpnIP] { if v.Equals(toIp) { lh.Unlock() return } } //l.Debugf("Adding reply of %s as %s\n", IntIp(vpnIP), toIp) if static { lh.staticList[vpnIP] = struct{}{} } lh.addrMap[vpnIP] = append(lh.addrMap[vpnIP], *toIp) lh.Unlock() } func (lh *LightHouse) AddRemoteAndReset(vpnIP uint32, toIp *udpAddr) { if lh.amLighthouse { lh.DeleteVpnIP(vpnIP) lh.AddRemote(vpnIP, toIp, false) } } func (lh *LightHouse) IsLighthouseIP(vpnIP uint32) bool { if _, ok := lh.lighthouses[vpnIP]; ok { return true } return false } // Quick generators for protobuf func NewLhQueryByIpString(VpnIp string) *NebulaMeta { return NewLhQueryByInt(ip2int(net.ParseIP(VpnIp))) } func NewLhQueryByInt(VpnIp uint32) *NebulaMeta { return &NebulaMeta{ Type: NebulaMeta_HostQuery, Details: &NebulaMetaDetails{ VpnIp: VpnIp, }, } } func NewLhWhoami() *NebulaMeta { return &NebulaMeta{ Type: NebulaMeta_HostWhoami, Details: &NebulaMetaDetails{}, } } // End Quick generators for protobuf func NewIpAndPortFromUDPAddr(addr udpAddr) *IpAndPort { return &IpAndPort{Ip: udp2ipInt(&addr), Port: uint32(addr.Port)} } func NewIpAndPortsFromNetIps(ips []udpAddr) *[]*IpAndPort { var iap []*IpAndPort for _, e := range ips { // Only add IPs that aren't my VPN/tun IP iap = append(iap, NewIpAndPortFromUDPAddr(e)) } return &iap } func (lh *LightHouse) LhUpdateWorker(f EncWriter) { if lh.amLighthouse { return } for { ipp := []*IpAndPort{} for _, e := range *localIps() { // Only add IPs that aren't my VPN/tun IP if ip2int(e) != lh.myIp { ipp = append(ipp, &IpAndPort{Ip: ip2int(e), Port: uint32(lh.nebulaPort)}) //fmt.Println(e) } } m := &NebulaMeta{ Type: NebulaMeta_HostUpdateNotification, Details: &NebulaMetaDetails{ VpnIp: lh.myIp, IpAndPorts: ipp, }, } nb := make([]byte, 12, 12) out := make([]byte, mtu) for vpnIp := range lh.lighthouses { mm, err := proto.Marshal(m) if err != nil { l.Debugf("Invalid marshal to update") } //l.Error("LIGHTHOUSE PACKET SEND", mm) f.SendMessageToVpnIp(lightHouse, 0, vpnIp, mm, nb, out) } time.Sleep(time.Second * time.Duration(lh.interval)) } } func (lh *LightHouse) HandleRequest(rAddr *udpAddr, vpnIp uint32, p []byte, c *cert.NebulaCertificate, f EncWriter) { n := &NebulaMeta{} err := proto.Unmarshal(p, n) if err != nil { l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).WithField("udpAddr", rAddr). Error("Failed to unmarshal lighthouse packet") //TODO: send recv_error? return } if n.Details == nil { l.WithField("vpnIp", IntIp(vpnIp)).WithField("udpAddr", rAddr). Error("Invalid lighthouse update") //TODO: send recv_error? return } switch n.Type { case NebulaMeta_HostQuery: // Exit if we don't answer queries if !lh.amLighthouse { l.Debugln("I don't answer queries, but received from: ", rAddr) return } //l.Debugln("Got Query") ips, err := lh.Query(n.Details.VpnIp, f) if err != nil { //l.Debugf("Can't answer query %s from %s because error: %s", IntIp(n.Details.VpnIp), rAddr, err) return } else { iap := NewIpAndPortsFromNetIps(ips) answer := &NebulaMeta{ Type: NebulaMeta_HostQueryReply, Details: &NebulaMetaDetails{ VpnIp: n.Details.VpnIp, IpAndPorts: *iap, }, } reply, err := proto.Marshal(answer) if err != nil { l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).Error("Failed to marshal lighthouse host query reply") return } f.SendMessageToVpnIp(lightHouse, 0, vpnIp, reply, make([]byte, 12, 12), make([]byte, mtu)) // This signals the other side to punch some zero byte udp packets ips, err = lh.Query(vpnIp, f) if err != nil { l.WithField("vpnIp", IntIp(vpnIp)).Debugln("Can't notify host to punch") return } else { //l.Debugln("Notify host to punch", iap) iap = NewIpAndPortsFromNetIps(ips) answer = &NebulaMeta{ Type: NebulaMeta_HostPunchNotification, Details: &NebulaMetaDetails{ VpnIp: vpnIp, IpAndPorts: *iap, }, } reply, _ := proto.Marshal(answer) f.SendMessageToVpnIp(lightHouse, 0, n.Details.VpnIp, reply, make([]byte, 12, 12), make([]byte, mtu)) } //fmt.Println(reply, remoteaddr) } case NebulaMeta_HostQueryReply: if !lh.IsLighthouseIP(vpnIp) { return } for _, a := range n.Details.IpAndPorts { //first := n.Details.IpAndPorts[0] ans := NewUDPAddr(a.Ip, uint16(a.Port)) lh.AddRemote(n.Details.VpnIp, ans, false) } case NebulaMeta_HostUpdateNotification: //Simple check that the host sent this not someone else if n.Details.VpnIp != vpnIp { l.WithField("vpnIp", IntIp(vpnIp)).WithField("answer", IntIp(n.Details.VpnIp)).Debugln("Host sent invalid update") return } for _, a := range n.Details.IpAndPorts { ans := NewUDPAddr(a.Ip, uint16(a.Port)) lh.AddRemote(n.Details.VpnIp, ans, false) } case NebulaMeta_HostMovedNotification: case NebulaMeta_HostPunchNotification: if !lh.IsLighthouseIP(vpnIp) { return } empty := []byte{0} for _, a := range n.Details.IpAndPorts { vpnPeer := NewUDPAddr(a.Ip, uint16(a.Port)) go func() { for i := 0; i < 5; i++ { lh.punchConn.WriteTo(empty, vpnPeer) time.Sleep(time.Second * 1) } }() l.Debugf("Punching %s on %d for %s", IntIp(a.Ip), a.Port, IntIp(n.Details.VpnIp)) } // This sends a nebula test packet to the host trying to contact us. In the case // of a double nat or other difficult scenario, this may help establish // a tunnel. if lh.punchBack { go func() { time.Sleep(time.Second * 5) l.Debugf("Sending a nebula test packet to vpn ip %s", IntIp(n.Details.VpnIp)) f.SendMessageToVpnIp(test, testRequest, n.Details.VpnIp, []byte(""), make([]byte, 12, 12), make([]byte, mtu)) }() } } } /* func (f *Interface) sendPathCheck(ci *ConnectionState, endpoint *net.UDPAddr, counter int) { c := ci.messageCounter b := HeaderEncode(nil, Version, uint8(path_check), 0, ci.remoteIndex, c) ci.messageCounter++ if ci.eKey != nil { msg := ci.eKey.EncryptDanger(b, nil, []byte(strconv.Itoa(counter)), c) //msg := ci.eKey.EncryptDanger(b, nil, []byte(fmt.Sprintf("%d", counter)), c) f.outside.WriteTo(msg, endpoint) l.Debugf("path_check sent, remote index: %d, pathCounter %d", ci.remoteIndex, counter) } } func (f *Interface) sendPathCheckReply(ci *ConnectionState, endpoint *net.UDPAddr, counter []byte) { c := ci.messageCounter b := HeaderEncode(nil, Version, uint8(path_check_reply), 0, ci.remoteIndex, c) ci.messageCounter++ if ci.eKey != nil { msg := ci.eKey.EncryptDanger(b, nil, counter, c) f.outside.WriteTo(msg, endpoint) l.Debugln("path_check sent, remote index: ", ci.remoteIndex) } } */