package packets import ( "bytes" "fmt" "net" "sync" "sync/atomic" "github.com/bettercap/bettercap/network" "github.com/google/gopacket" "github.com/google/gopacket/layers" "github.com/google/gopacket/pcap" ) type Activity struct { IP net.IP MAC net.HardwareAddr Source bool } type Traffic struct { Sent uint64 Received uint64 } type Stats struct { Sent uint64 Received uint64 PktReceived uint64 Errors uint64 } type PacketCallback func(pkt gopacket.Packet) type Queue struct { sync.RWMutex Activities chan Activity `json:"-"` Stats Stats Protos map[string]uint64 Traffic map[string]*Traffic iface *network.Endpoint handle *pcap.Handle source *gopacket.PacketSource pktCb PacketCallback active bool } func NewQueue(iface *network.Endpoint) (q *Queue, err error) { q = &Queue{ Protos: make(map[string]uint64), Traffic: make(map[string]*Traffic), Activities: make(chan Activity), iface: iface, active: !iface.IsMonitor(), pktCb: nil, } if q.active == true { if q.handle, err = pcap.OpenLive(iface.Name(), 1024, true, pcap.BlockForever); err != nil { return } q.source = gopacket.NewPacketSource(q.handle, q.handle.LinkType()) go q.worker() } return } func (q *Queue) OnPacket(cb PacketCallback) { q.Lock() defer q.Unlock() q.pktCb = cb } func (q *Queue) onPacketCallback(pkt gopacket.Packet) { q.RLock() defer q.RUnlock() if q.pktCb != nil { q.pktCb(pkt) } } func (q *Queue) trackProtocols(pkt gopacket.Packet) { // gather protocols stats pktLayers := pkt.Layers() for _, layer := range pktLayers { proto := layer.LayerType() if proto == gopacket.LayerTypeDecodeFailure || proto == gopacket.LayerTypePayload { continue } q.Lock() name := proto.String() if _, found := q.Protos[name]; found == false { q.Protos[name] = 1 } else { q.Protos[name] += 1 } q.Unlock() } } func (q *Queue) trackActivity(eth *layers.Ethernet, ip4 *layers.IPv4, address net.IP, pktSize uint64, isSent bool) { // push to activity channel q.Activities <- Activity{ IP: address, MAC: eth.SrcMAC, Source: isSent, } q.Lock() defer q.Unlock() // initialize or update stats addr := address.String() if _, found := q.Traffic[addr]; found == false { if isSent { q.Traffic[addr] = &Traffic{Sent: pktSize} } else { q.Traffic[addr] = &Traffic{Received: pktSize} } } else { if isSent { q.Traffic[addr].Sent += pktSize } else { q.Traffic[addr].Received += pktSize } } } func (q *Queue) worker() { for pkt := range q.source.Packets() { if q.active == false { return } q.trackProtocols(pkt) pktSize := uint64(len(pkt.Data())) atomic.AddUint64(&q.Stats.PktReceived, 1) atomic.AddUint64(&q.Stats.Received, pktSize) q.onPacketCallback(pkt) // decode eth and ipv4 layers leth := pkt.Layer(layers.LayerTypeEthernet) lip4 := pkt.Layer(layers.LayerTypeIPv4) if leth != nil && lip4 != nil { eth := leth.(*layers.Ethernet) ip4 := lip4.(*layers.IPv4) // coming from our network if bytes.Compare(q.iface.IP, ip4.SrcIP) != 0 && q.iface.Net.Contains(ip4.SrcIP) { q.trackActivity(eth, ip4, ip4.SrcIP, pktSize, true) } // coming to our network if bytes.Compare(q.iface.IP, ip4.DstIP) != 0 && q.iface.Net.Contains(ip4.DstIP) { q.trackActivity(eth, ip4, ip4.DstIP, pktSize, false) } } } } func (q *Queue) Send(raw []byte) error { q.Lock() defer q.Unlock() if q.active == false { return fmt.Errorf("Packet queue is not active.") } if err := q.handle.WritePacketData(raw); err != nil { atomic.AddUint64(&q.Stats.Errors, 1) return err } else { atomic.AddUint64(&q.Stats.Sent, uint64(len(raw))) } return nil } func (q *Queue) Stop() { q.Lock() defer q.Unlock() if q.active == true { q.handle.Close() q.active = false } }