probe/discovery/protocol/arp/arp.go

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2018-08-31 05:15:46 +00:00
package arp
import (
"fmt"
"log"
"net"
"sync/atomic"
"time"
omd "git.loafle.net/overflow/model/discovery"
omm "git.loafle.net/overflow/model/meta"
omu "git.loafle.net/overflow/model/util"
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oub "git.loafle.net/overflow/util-go/benchmark"
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"git.loafle.net/overflow_scanner/probe/discovery/session"
"git.loafle.net/overflow_scanner/probe/internal/pcap"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
)
func Scan(discoverySession session.DiscoverySession) error {
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oub.Elapsed("mDNS")
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targetHosts := discoverySession.TargetHosts()
if nil == targetHosts || 0 == len(targetHosts) {
return nil
}
zone := discoverySession.Zone()
ps, err := pcap.RetainScanner(zone)
if nil != err {
return fmt.Errorf("Cannot retain pcap instance %v", err)
}
defer func() {
pcap.ReleaseScanner(zone)
}()
arpChan := ps.OpenARP()
defer func() {
ps.CloseARP(arpChan)
}()
timerStopped := make(chan struct{})
go func() {
hosts := make(map[string]*omd.Host)
var delay atomic.Value
delay.Store(false)
ticker := time.NewTicker(time.Millisecond * 500)
for {
select {
case packet, ok := <-arpChan:
if !ok {
// logging.Logger().Debugf("arp channel is closed")
return
}
delay.Store(true)
if h := handlePacketARP(zone, targetHosts, hosts, packet); nil != h {
if h != nil {
log.Println(h)
}
// resultChan <- h
}
case <-ticker.C:
if false == delay.Load().(bool) {
ticker.Stop()
timerStopped <- struct{}{}
return
}
delay.Store(false)
}
}
}()
if err := sendARP(ps, zone, targetHosts); nil != err {
log.Printf("sendARP %v", err)
return nil
}
select {
case <-timerStopped:
return nil
}
}
func sendARP(ps pcap.PCapScanner, zone *omd.Zone, targetHosts []net.IP) error {
hwAddr, err := net.ParseMAC(zone.Mac)
if nil != err {
return err
}
ip := net.ParseIP(zone.Address)
if nil == ip {
return fmt.Errorf("Discovery: IP(%s) of zone is not valid", zone.Address)
}
ethPacket := makePacketEthernet(hwAddr)
arpPacket := makePacketARP(hwAddr, ip.To4())
opts := gopacket.SerializeOptions{FixLengths: true, ComputeChecksums: true}
buf := gopacket.NewSerializeBuffer()
for _, targetHost := range targetHosts {
arpPacket.DstProtAddress = []byte(targetHost)
// log.Printf("ARP:%v", arpPacket)
gopacket.SerializeLayers(buf, opts, &ethPacket, &arpPacket)
if err := ps.WritePacketData(buf.Bytes()); err != nil {
return err
}
timer := time.NewTimer(time.Microsecond * 100)
select {
case <-timer.C:
}
}
return nil
}
func handlePacketARP(zone *omd.Zone, targetHosts []net.IP, hosts map[string]*omd.Host, packet *layers.ARP) *omd.Host {
if packet.Operation != layers.ARPReply {
return nil
}
ip := net.IP(packet.SourceProtAddress)
if _, ok := hosts[ip.String()]; ok {
return nil
}
inRange := false
for _, h := range targetHosts {
if h.Equal(ip) {
inRange = true
break
}
}
if !inRange {
return nil
}
h := &omd.Host{
MetaIPType: omm.ToMetaIPType(omm.MetaIPTypeEnumV4),
Address: ip.String(),
Mac: net.HardwareAddr(packet.SourceHwAddress).String(),
Zone: zone,
DiscoveredDate: omu.NowPtr(),
}
hosts[ip.String()] = h
return h
}
func makePacketEthernet(hw net.HardwareAddr) layers.Ethernet {
return layers.Ethernet{
SrcMAC: hw,
DstMAC: net.HardwareAddr{0xff, 0xff, 0xff, 0xff, 0xff, 0xff},
EthernetType: layers.EthernetTypeARP,
}
}
func makePacketARP(hw net.HardwareAddr, ip net.IP) layers.ARP {
return layers.ARP{
AddrType: layers.LinkTypeEthernet,
Protocol: layers.EthernetTypeIPv4,
HwAddressSize: 6,
ProtAddressSize: 4,
Operation: layers.ARPRequest,
SourceHwAddress: []byte(hw),
SourceProtAddress: []byte(ip),
DstHwAddress: []byte{0, 0, 0, 0, 0, 0},
}
}