package main import ( "context" "net" "net/netip" "time" "github.com/insomniacslk/dhcp/dhcpv4" "github.com/insomniacslk/dhcp/dhcpv6" "github.com/insomniacslk/dhcp/dhcpv6/nclient6" "github.com/insomniacslk/dhcp/iana" gen "golang.zx2c4.com/wireguard/android/gen" ) const ( ENABLE_PD = true ) type dhcp struct { fqdn string hwAddr net.HardwareAddr conn *net.UDPConn serverAddr net.UDPAddr client *nclient6.Client linkAddr net.IP peerAddr net.IP } func newClientIDOpt(duid dhcpv6.DUID) dhcpv4.Option { iaid := []byte{0, 0, 0, 3} ident := []byte{255} // Type IAID+DUID ident = append(ident, iaid...) // IAID ident = append(ident, duid.ToBytes()...) // DUID return dhcpv4.OptClientIdentifier(ident) } func getDuid(hwAddr net.HardwareAddr) dhcpv6.DUID { duid := &dhcpv6.DUIDLLT{ HWType: iana.HWTypeEthernet, Time: uint32(time.Now().Unix()), LinkLayerAddr: hwAddr, } return duid } func (d *dhcp) encapSendAndRead(ctx context.Context, msg *dhcpv6.Message, match nclient6.Matcher) (*dhcpv6.Message, error) { packet, err := dhcpv6.EncapsulateRelay(msg, dhcpv6.MessageTypeRelayForward, d.linkAddr, d.peerAddr) if err != nil { return nil, err } relay, err := d.client.SendAndReadRelay(ctx, &d.serverAddr, packet, match) if err != nil { return nil, err } inner, err := relay.GetInnerMessage() if err != nil { return nil, err } return inner, nil } // isRelayMessageType returns a matcher that checks for the message type. func isRelayMessageType(t dhcpv6.MessageType, tt ...dhcpv6.MessageType) nclient6.Matcher { return func(p dhcpv6.DHCPv6) bool { inner, err := p.GetInnerMessage() if err != nil { return false } if inner.Type() == t { return true } for _, mt := range tt { if inner.Type() == mt { return true } } return false } } // func New() *dhcp { // } func RunDhcp(ctx context.Context, laddr, raddr netip.Addr) ([]*gen.Lease, error) { d := &dhcp{} d.linkAddr = net.ParseIP("fe80::101") d.peerAddr = net.ParseIP("::1") // TODO generate hostname and hwAddr from public key hostName := "foobar" d.fqdn = hostName + ".m7n.se" d.hwAddr = []byte{41, 42, 43, 44, 45, 46} src := net.UDPAddr{IP: laddr.AsSlice(), Port: 0, // Use non-restrict UDP source port } d.serverAddr = net.UDPAddr{IP: raddr.AsSlice(), Port: 547, } err := d.Start(&src) if err != nil { return nil, err } defer d.Close() reply, err := d.ObtainLease(ctx) // Use reply if err != nil { return nil, err } return getAddressesFromReply(reply), nil } func getAddressesFromReply(reply *dhcpv6.Message) []*gen.Lease{ var leases []*gen.Lease = make([]*gen.Lease, 0, 4) if opt := reply.GetOneOption(dhcpv6.OptionIANA); opt != nil { iana := opt.(*dhcpv6.OptIANA) ianaOpts := iana.Options.Get(dhcpv6.OptionIAAddr) for _, opt := range ianaOpts { addr :=opt.(*dhcpv6.OptIAAddress).IPv6Addr lease := &gen.Lease{ Address: &gen.InetAddress{ Address: addr, }, // PreferredLifetime: , // ValidLifetime: , } leases = append(leases, lease) } } return leases } func (d *dhcp) Start(localAddr *net.UDPAddr) error { conn, err := net.ListenUDP("udp6", localAddr) if err != nil { return err } d.client, err = nclient6.NewWithConn(conn, d.hwAddr, nclient6.WithDebugLogger()) return err } func (d *dhcp) Close() error { err := d.client.Close() d.client = nil return err } func (d *dhcp) ObtainLease(ctx context.Context) (*dhcpv6.Message, error){ duidOpt := dhcpv6.WithClientID(getDuid(d.hwAddr)) fqdnOpt := dhcpv6.WithFQDN(0x1, d.fqdn) solicit, err := dhcpv6.NewSolicit(d.hwAddr, duidOpt, fqdnOpt, dhcpv6.WithRapidCommit) if err != nil { return nil, err } msg, err := d.encapSendAndRead(ctx, solicit, isRelayMessageType(dhcpv6.MessageTypeReply, dhcpv6.MessageTypeAdvertise)) if err != nil { return nil, err } if msg.Type() == dhcpv6.MessageTypeReply { // We got RapidCommitted. return msg, nil } // We didn't get RapidCommitted. Request regular lease. req, err := dhcpv6.NewRequestFromAdvertise(msg, fqdnOpt) if err != nil { return nil, err } return d.encapSendAndRead(ctx, req, nil) }