package ipv4 import ( "fmt" "net" "sync" "time" "git.loafle.net/commons_go/logging" "git.loafle.net/overflow/overflow_discovery/api/module/discovery/model" "git.loafle.net/overflow/overflow_discovery/commons/pcap" "github.com/google/gopacket" "github.com/google/gopacket/layers" ) func scanPortTCP(host *model.Host, dp *model.DiscoveryPort, resultChan chan interface{}, errChan chan error, stopChan chan struct{}, wg *sync.WaitGroup) { defer func() { wg.Done() }() ps, err := pcap.RetainScanner(host.Zone) if nil != err { errChan <- fmt.Errorf("Discovery: Cannot retain pcap instance %v", err) return } defer func() { pcap.ReleaseScanner(host.Zone) }() tcpChan := ps.OpenTCP(host.IP) defer func() { ps.CloseTCP(host.IP, tcpChan) }() go func() { ports := make(map[int]*model.Port) for { select { case packet, ok := <-tcpChan: if !ok { logging.Logger().Debug(fmt.Sprintf("Discovery: tcp channel is closed")) return } if p := handlePacketTCP(host, dp, ports, packet); nil != p { resultChan <- p } case <-stopChan: return } } }() if err := sendTCP(host, dp, stopChan); nil != err { errChan <- err return } timer := time.NewTimer(20 * time.Second) select { case <-stopChan: return case <-timer.C: return } } func sendTCP(host *model.Host, dp *model.DiscoveryPort, stopChan chan struct{}) error { tcpPacket, err := makePacketPortTCP(host) if nil != err { return err } defer func() { tcpPacket.PacketConn.Close() }() buf := gopacket.NewSerializeBuffer() Loop: for portNumber := dp.FirstScanRange; portNumber < dp.LastScanRange; portNumber++ { if nil != dp.ExcludePorts { for _, exPortNumber := range dp.ExcludePorts { if portNumber == exPortNumber { continue Loop } } } tcpPacket.TCP.DstPort = layers.TCPPort(portNumber) tcpPacket.TCP.SetNetworkLayerForChecksum(tcpPacket.IP) if err := gopacket.SerializeLayers(buf, tcpPacket.Opts, tcpPacket.TCP); err != nil { return err } if _, err := tcpPacket.PacketConn.WriteTo(buf.Bytes(), &net.IPAddr{IP: tcpPacket.IP.DstIP}); err != nil { return err } timer := time.NewTimer(time.Microsecond * 100) select { case <-stopChan: return nil case <-timer.C: } } return nil } func handlePacketTCP(host *model.Host, dp *model.DiscoveryPort, ports map[int]*model.Port, packet *layers.TCP) *model.Port { if nil == packet || packet.DstPort != 60000 { return nil } if packet.RST { return nil } port := int(packet.SrcPort) if _, ok := ports[port]; ok || !dp.Contains(port) { return nil } p := &model.Port{ PortType: model.PortTypeTCP, PortNumber: port, } p.Host = host ports[port] = p return p } type PortPacketTCP struct { IP *layers.IPv4 TCP *layers.TCP Opts gopacket.SerializeOptions PacketConn net.PacketConn } func makePacketPortTCP(host *model.Host) (*PortPacketTCP, error) { packetTCP := &PortPacketTCP{} srcIP := net.ParseIP(host.Zone.IP) if nil == srcIP { return nil, fmt.Errorf("Discovery: IP(%s) of zone is not valid", host.Zone.IP) } dstIP := net.ParseIP(host.IP) if nil == dstIP { return nil, fmt.Errorf("Discovery: IP(%s) of host is not valid", host.IP) } packetTCP.IP = &layers.IPv4{ SrcIP: srcIP.To4(), DstIP: dstIP.To4(), Version: 4, TTL: 64, Protocol: layers.IPProtocolTCP, } packetTCP.TCP = &layers.TCP{ SrcPort: 60000, DstPort: 0, // will be incremented during the scan SYN: true, Seq: 0, } packetTCP.Opts = gopacket.SerializeOptions{ ComputeChecksums: true, FixLengths: true, } conn, err := net.ListenPacket("ip4:tcp", "0.0.0.0") if err != nil { return nil, fmt.Errorf("Discovery: SYN create socket error %v", err) } packetTCP.PacketConn = conn return packetTCP, nil }