// Handles a IPv4 packet and sends it to it's destination func (p *PeerToPeer) handlePacketIPv4(contents []byte, proto int) { Log(Trace, "Handling IPv4 Packet") f := new(ethernet.Frame) if err := f.UnmarshalBinary(contents); err != nil { Log(Error, "Failed to unmarshal IPv4 packet") } if f.EtherType != ethernet.EtherTypeIPv4 { return } msg := CreateNencP2PMessage(p.Crypter, contents, uint16(proto), 1, 1, 1) p.SendTo(f.Destination, msg) }
func parsePacket(buf []byte) (*Packet, *ethernet.Frame, error) { f := new(ethernet.Frame) if err := f.UnmarshalBinary(buf); err != nil { return nil, nil, err } // Ignore frames which do not have ARP EtherType if f.EtherType != ethernet.EtherTypeARP { return nil, nil, errInvalidARPPacket } p := new(Packet) if err := p.UnmarshalBinary(f.Payload); err != nil { return nil, nil, err } return p, f, nil }
// testRequest performs a single AoE request using the input request // header and returns a single AoE response. func testRequest(t *testing.T, req *aoe.Header) *aoe.Header { recv, send, run, done := testAoEServer(t) defer done() reqb, err := req.MarshalBinary() if err != nil { t.Fatalf("failed to marshal request AoE header: %v", err) } reqf := ðernet.Frame{ Payload: reqb, } reqfb, err := reqf.MarshalBinary() if err != nil { t.Fatalf("failed to marshal request Ethernet frame: %v", err) } if _, err := send.Write(reqfb); err != nil { t.Fatalf("failed to write request to server: %v", err) } if err := run(); err != nil { t.Fatalf("failed to run server: %v", err) } b, err := ioutil.ReadAll(recv) if err != nil { t.Fatalf("failed to read server response: %v", err) } resf := new(ethernet.Frame) if err := resf.UnmarshalBinary(b); err != nil { t.Fatalf("failed to unmarshal response Ethernet frame: %v", err) } resh := new(aoe.Header) if err := resh.UnmarshalBinary(resf.Payload); err != nil { t.Fatalf("failed to unmarshal response AoE header: %v", err) } return resh }
// parseRequest unmarshals a raw ethernet frame and an ARP packet into a Request. func parseRequest(buf []byte) (*Request, error) { f := new(ethernet.Frame) if err := f.UnmarshalBinary(buf); err != nil { return nil, err } // Ignore frames which do not have ARP EtherType if f.EtherType != ethernet.EtherTypeARP { return nil, errInvalidARPPacket } p := new(Packet) if err := p.UnmarshalBinary(f.Payload); err != nil { return nil, err } return &Request{ Operation: p.Operation, SenderHardwareAddr: p.SenderHardwareAddr, SenderIP: p.SenderIP, TargetHardwareAddr: p.TargetHardwareAddr, TargetIP: p.TargetIP, }, nil }
func (p *PeerToPeer) handlePacketARP(contents []byte, proto int) { // Prepare new ethernet frame and fill it with // contents of the packet f := new(ethernet.Frame) if err := f.UnmarshalBinary(contents); err != nil { Log(Error, "Failed to Unmarshal ARP Binary") return } if f.EtherType != ethernet.EtherTypeARP { Log(Error, "Not ARP") return } packet := new(ARPPacket) if err := packet.UnmarshalARP(f.Payload); err != nil { Log(Error, "Failed to unmarshal arp") return } Log(Trace, "Peers: %v, Target IP: %s", p.NetworkPeers, packet.TargetIP.String()) var hwAddr net.HardwareAddr id, exists := p.IPIDTable[packet.TargetIP.String()] if !exists { Log(Debug, "Unknown IP requested") return } peer, exists := p.NetworkPeers[id] if !exists { Log(Debug, "Specified ID was not found in peer list") return } hwAddr = peer.PeerHW // TODO: Put there normal IP from list of ips // Send a reply if hwAddr == nil { Log(Error, "Cannot find hardware address for requested IP") _, hwAddr = GenerateMAC() peer.PeerHW = hwAddr p.NetworkPeers[id] = peer } if hwAddr.String() == "00:00:00:00:00:00" { _, hwAddr = GenerateMAC() peer.PeerHW = hwAddr p.NetworkPeers[id] = peer } var reply ARPPacket ip := net.ParseIP(packet.TargetIP.String()) response, err := reply.NewPacket(OperationReply, hwAddr, ip, packet.SenderHardwareAddr, packet.SenderIP) if err != nil { Log(Error, "Failed to create ARP reply") return } rp, err := response.MarshalBinary() if err != nil { Log(Error, "Failed to marshal ARP response packet") return } fr := ðernet.Frame{ Destination: response.TargetHardwareAddr, Source: response.SenderHardwareAddr, EtherType: ethernet.EtherTypeARP, Payload: rp, } fb, err := fr.MarshalBinary() if err != nil { Log(Error, "Failed to marshal ARP Ethernet Frame") } Log(Debug, "%v", packet.String()) p.WriteToDevice(fb, uint16(proto), false) }
func TestServeOK(t *testing.T) { b := append([]byte{ // Ethernet frame 0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 0x08, 0x06, // ARP Packet 0, 1, 0x08, 0x06, 6, 4, 0, 1, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 192, 168, 1, 10, 0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, 192, 168, 1, 1, }, make([]byte, 40)...) // Values to be sent in ARP reply and checked later wantsHW := net.HardwareAddr{0xde, 0xad, 0xbe, 0xef, 0xde, 0xad} wantsIP := net.IP{192, 168, 1, 1} wanttHW := net.HardwareAddr{0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff} wanttIP := net.IP{192, 168, 1, 10} // Count bytes sent var n int p, err := testServe(b, true, func(w ResponseSender, r *Request) { // Build an ARP reply for request pkt, err := NewPacket( OperationReply, r.TargetHardwareAddr, r.TargetIP, r.SenderHardwareAddr, r.SenderIP, ) if err != nil { t.Fatal(err) } n, err = w.Send(pkt) if err != nil { t.Fatal(err) } return }) if err != nil { t.Fatal(err) } if want, got := n, p.wb.Len(); want != got { t.Fatalf("unexpected response length: %v != %v", want, got) } // Unmarshal ethernet frame and verify fields f := new(ethernet.Frame) if err := f.UnmarshalBinary(p.wb.Bytes()); err != nil { log.Println(len(p.wb.Bytes())) t.Fatal(err) } if want, got := wanttHW, f.Destination; !bytes.Equal(want, got) { t.Fatalf("unexpected ethernet frame destination:\n- want: %v\n- got: %v", want, got) } if want, got := wantsHW, f.Source; !bytes.Equal(want, got) { t.Fatalf("unexpected ethernet frame source:\n- want: %v\n- got: %v", want, got) } if want, got := ethernet.EtherTypeARP, f.EtherType; want != got { t.Fatalf("unexpected ethernet frame EtherType: %v != %v", want, got) } // Unmarshal ARP packet and verify fields pkt := new(Packet) if err := pkt.UnmarshalBinary(f.Payload); err != nil { t.Fatal(err) } // Hardware type is hardcoded if want, got := uint16(1), pkt.HardwareType; want != got { t.Fatalf("unexpected ARP packet hardware type: %v != %v", want, got) } // Protocol type is hardcoded if want, got := uint16(ethernet.EtherTypeIPv4), pkt.ProtocolType; want != got { t.Fatalf("unexpected ARP packet protocol type: %v != %v", want, got) } if want, got := uint8(len(wantsHW)), pkt.HardwareAddrLength; want != got { t.Fatalf("unexpected ARP packet hardware address length: %v != %v", want, got) } if want, got := uint8(len(wantsIP)), pkt.IPLength; want != got { t.Fatalf("unexpected ARP packet IP length: %v != %v", want, got) } if want, got := OperationReply, pkt.Operation; want != got { t.Fatalf("unexpected ARP packet operation: %v != %v", want, got) } if want, got := wantsHW, pkt.SenderHardwareAddr; !bytes.Equal(want, got) { t.Fatalf("unexpected ARP packet sender hardware address:\n- want: %v\n- got: %v", want, got) } if want, got := wantsIP, pkt.SenderIP; !bytes.Equal(want, got) { t.Fatalf("unexpected ARP packet sender IP:\n- want: %v\n- got: %v", want, got) } if want, got := wanttHW, pkt.TargetHardwareAddr; !bytes.Equal(want, got) { t.Fatalf("unexpected ARP packet target hardware address:\n- want: %v\n- got: %v", want, got) } if want, got := wanttIP, pkt.TargetIP; !bytes.Equal(want, got) { t.Fatalf("unexpected ARP packet target IP:\n- want: %v\n- got: %v", want, got) } }