package dhcpv6 import ( "errors" "fmt" "net" ) const RelayHeaderSize = 34 type DHCPv6Relay struct { messageType MessageType hopCount uint8 linkAddr net.IP peerAddr net.IP options []Option } func (r *DHCPv6Relay) Type() MessageType { return r.messageType } func (r *DHCPv6Relay) MessageTypeToString() string { return MessageTypeToString(r.messageType) } func (r *DHCPv6Relay) String() string { ret := fmt.Sprintf( "DHCPv6Relay(messageType=%v hopcount=%v, linkaddr=%v, peeraddr=%v, %d options)", r.MessageTypeToString(), r.hopCount, r.linkAddr, r.peerAddr, len(r.options), ) return ret } func (r *DHCPv6Relay) Summary() string { ret := fmt.Sprintf( "DHCPv6Relay\n"+ " messageType=%v\n"+ " hopcount=%v\n"+ " linkaddr=%v\n"+ " peeraddr=%v\n"+ " options=%v\n", r.MessageTypeToString(), r.hopCount, r.linkAddr, r.peerAddr, r.options, ) return ret } func (r *DHCPv6Relay) ToBytes() []byte { ret := make([]byte, RelayHeaderSize) ret[0] = byte(r.messageType) ret[1] = byte(r.hopCount) copy(ret[2:18], r.linkAddr) copy(ret[18:34], r.peerAddr) for _, opt := range r.options { ret = append(ret, opt.ToBytes()...) } return ret } func (r *DHCPv6Relay) MessageType() MessageType { return r.messageType } func (r *DHCPv6Relay) SetMessageType(messageType MessageType) { // not enforcing if message type is not a RELAY_FORW or a RELAY_REPL message r.messageType = messageType } func (r *DHCPv6Relay) HopCount() uint8 { return r.hopCount } func (r *DHCPv6Relay) SetHopCount(hopCount uint8) { r.hopCount = hopCount } func (r *DHCPv6Relay) LinkAddr() net.IP { return r.linkAddr } func (r *DHCPv6Relay) SetLinkAddr(linkAddr net.IP) { r.linkAddr = linkAddr } func (r *DHCPv6Relay) PeerAddr() net.IP { return r.peerAddr } func (r *DHCPv6Relay) SetPeerAddr(peerAddr net.IP) { r.peerAddr = peerAddr } func (r *DHCPv6Relay) Length() int { mLen := RelayHeaderSize for _, opt := range r.options { mLen += opt.Length() + 4 // +4 for opt code and opt len } return mLen } func (r *DHCPv6Relay) Options() []Option { return r.options } func (r *DHCPv6Relay) GetOption(code OptionCode) []Option { return getOptions(r.options, code, false) } func (r *DHCPv6Relay) GetOneOption(code OptionCode) Option { return getOption(r.options, code) } func (r *DHCPv6Relay) SetOptions(options []Option) { r.options = options } func (r *DHCPv6Relay) AddOption(option Option) { r.options = append(r.options, option) } // UpdateOption replaces the first option of the same type as the specified one. func (r *DHCPv6Relay) UpdateOption(option Option) { for idx, opt := range r.options { if opt.Code() == option.Code() { r.options[idx] = option // don't look further return } } // if not found, add it r.AddOption(option) } func (r *DHCPv6Relay) IsRelay() bool { return true } // Recurse into a relay message and extract and return the inner DHCPv6Message. // Return nil if none found (e.g. not a relay message). func (d *DHCPv6Relay) GetInnerMessage() (DHCPv6, error) { var ( p DHCPv6 err error ) p = d for { if !p.IsRelay() { return p, nil } p, err = DecapsulateRelay(p) if err != nil { return nil, err } } } // NewRelayReplFromRelayForw creates a RELAY_REPL packet based on a RELAY_FORW // packet and replaces the inner message with the passed DHCPv6 message. func NewRelayReplFromRelayForw(relayForw, msg DHCPv6) (DHCPv6, error) { var ( err error linkAddr, peerAddr []net.IP optiids []Option ) if relayForw == nil { return nil, errors.New("RELAY_FORW cannot be nil") } relay, ok := relayForw.(*DHCPv6Relay) if !ok { return nil, errors.New("Not a DHCPv6Relay") } if relay.Type() != RELAY_FORW { return nil, errors.New("The passed packet is not of type RELAY_FORW") } if msg == nil { return nil, errors.New("The passed message cannot be nil") } if msg.IsRelay() { return nil, errors.New("The passed message cannot be a relay") } for { linkAddr = append(linkAddr, relay.LinkAddr()) peerAddr = append(peerAddr, relay.PeerAddr()) optiids = append(optiids, relay.GetOneOption(OPTION_INTERFACE_ID)) decap, err := DecapsulateRelay(relay) if err != nil { return nil, err } if decap.IsRelay() { relay = decap.(*DHCPv6Relay) } else { break } } for i := len(linkAddr) - 1; i >= 0; i-- { msg, err = EncapsulateRelay(msg, RELAY_REPL, linkAddr[i], peerAddr[i]) if opt := optiids[i]; opt != nil { msg.AddOption(opt) } if err != nil { return nil, err } } return msg, nil }