package dhcpv6 import ( "fmt" "net" ) type DHCPv6 interface { Type() MessageType ToBytes() []byte Options() []Option String() string Summary() string Length() int IsRelay() bool GetOption(code OptionCode) []Option GetOneOption(code OptionCode) Option SetOptions(options []Option) AddOption(Option) UpdateOption(Option) } // Modifier defines the signature for functions that can modify DHCPv6 // structures. This is used to simplify packet manipulation type Modifier func(d DHCPv6) DHCPv6 func FromBytes(data []byte) (DHCPv6, error) { var ( isRelay = false headerSize int messageType = MessageType(data[0]) ) if messageType == RELAY_FORW || messageType == RELAY_REPL { isRelay = true } if isRelay { headerSize = RelayHeaderSize } else { headerSize = MessageHeaderSize } if len(data) < headerSize { return nil, fmt.Errorf("Invalid header size: shorter than %v bytes", headerSize) } if isRelay { var ( linkAddr, peerAddr []byte ) d := DHCPv6Relay{ messageType: messageType, hopCount: uint8(data[1]), } linkAddr = append(linkAddr, data[2:18]...) d.linkAddr = linkAddr peerAddr = append(peerAddr, data[18:34]...) d.peerAddr = peerAddr options, err := OptionsFromBytes(data[34:]) if err != nil { return nil, err } // TODO fail if no OptRelayMessage is present d.options = options return &d, nil } else { tid, err := BytesToTransactionID(data[1:4]) if err != nil { return nil, err } d := DHCPv6Message{ messageType: messageType, transactionID: *tid, } options, err := OptionsFromBytes(data[4:]) if err != nil { return nil, err } d.options = options return &d, nil } } // NewMessage creates a new DHCPv6 message with default options func NewMessage(modifiers ...Modifier) (DHCPv6, error) { tid, err := GenerateTransactionID() if err != nil { return nil, err } msg := DHCPv6Message{ messageType: SOLICIT, transactionID: *tid, } // apply modifiers d := DHCPv6(&msg) for _, mod := range modifiers { d = mod(d) } return d, nil } func getOptions(options []Option, code OptionCode, onlyFirst bool) []Option { var ret []Option for _, opt := range options { if opt.Code() == code { ret = append(ret, opt) if onlyFirst { break } } } return ret } func getOption(options []Option, code OptionCode) Option { opts := getOptions(options, code, true) if opts == nil { return nil } return opts[0] } func delOption(options []Option, code OptionCode) []Option { newOpts := make([]Option, 0, len(options)) for _, opt := range options { if opt.Code() != code { newOpts = append(newOpts, opt) } } return newOpts } // DecapsulateRelay extracts the content of a relay message. It does not recurse // if there are nested relay messages. Returns the original packet if is not not // a relay message func DecapsulateRelay(l DHCPv6) (DHCPv6, error) { if !l.IsRelay() { return l, nil } opt := l.GetOneOption(OPTION_RELAY_MSG) if opt == nil { return nil, fmt.Errorf("No OptRelayMsg found") } relayOpt := opt.(*OptRelayMsg) if relayOpt.RelayMessage() == nil { return nil, fmt.Errorf("Relay message cannot be nil") } return relayOpt.RelayMessage(), nil } // EncapsulateRelay creates a DHCPv6Relay message containing the passed DHCPv6 // message as payload. The passed message type must be either RELAY_FORW or // RELAY_REPL func EncapsulateRelay(d DHCPv6, mType MessageType, linkAddr, peerAddr net.IP) (DHCPv6, error) { if mType != RELAY_FORW && mType != RELAY_REPL { return nil, fmt.Errorf("Message type must be either RELAY_FORW or RELAY_REPL") } outer := DHCPv6Relay{ messageType: mType, linkAddr: linkAddr, peerAddr: peerAddr, } if d.IsRelay() { relay := d.(*DHCPv6Relay) outer.hopCount = relay.hopCount + 1 } else { outer.hopCount = 0 } orm := OptRelayMsg{relayMessage: d} outer.AddOption(&orm) return &outer, nil }