// Copyright (C) 2014 Nippon Telegraph and Telephone Corporation. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or // implied. // See the License for the specific language governing permissions and // limitations under the License. package bgp import ( "encoding/binary" "encoding/json" "fmt" "math" "net" "reflect" ) // move somewhere else const ( AFI_IP = 1 AFI_IP6 = 2 ) const ( SAFI_UNICAST = 1 SAFI_MULTICAST = 2 SAFI_MPLS_LABEL = 4 SAFI_MPLS_VPN = 128 SAFI_ROUTE_TARGET_CONSTRTAINS = 132 ) const ( _ = iota BGP_MSG_OPEN BGP_MSG_UPDATE BGP_MSG_NOTIFICATION BGP_MSG_KEEPALIVE BGP_MSG_ROUTE_REFRESH ) const ( BGP_OPT_CAPABILITY = 2 ) type BGPCapabilityCode uint8 const ( BGP_CAP_MULTIPROTOCOL BGPCapabilityCode = 1 BGP_CAP_ROUTE_REFRESH BGPCapabilityCode = 2 BGP_CAP_CARRYING_LABEL_INFO BGPCapabilityCode = 4 BGP_CAP_GRACEFUL_RESTART BGPCapabilityCode = 64 BGP_CAP_FOUR_OCTET_AS_NUMBER BGPCapabilityCode = 65 BGP_CAP_ENHANCED_ROUTE_REFRESH BGPCapabilityCode = 70 BGP_CAP_ROUTE_REFRESH_CISCO BGPCapabilityCode = 128 ) type ParameterCapabilityInterface interface { DecodeFromBytes([]byte) error Serialize() ([]byte, error) Len() int Code() BGPCapabilityCode } type DefaultParameterCapability struct { CapCode BGPCapabilityCode CapLen uint8 CapValue []byte } func (c *DefaultParameterCapability) Code() BGPCapabilityCode { return c.CapCode } func (c *DefaultParameterCapability) DecodeFromBytes(data []byte) error { c.CapCode = BGPCapabilityCode(data[0]) c.CapLen = data[1] if uint8(len(data)) < 2+c.CapLen { return fmt.Errorf("Not all OptionParameterCapability bytes available") } c.CapValue = data[2 : 2+c.CapLen] return nil } func (c *DefaultParameterCapability) Serialize() ([]byte, error) { c.CapLen = uint8(len(c.CapValue)) buf := make([]byte, 2) buf[0] = uint8(c.CapCode) buf[1] = c.CapLen buf = append(buf, c.CapValue...) return buf, nil } func (c *DefaultParameterCapability) Len() int { return int(c.CapLen + 2) } type CapMultiProtocolValue struct { AFI uint16 SAFI uint8 } type CapMultiProtocol struct { DefaultParameterCapability CapValue CapMultiProtocolValue } func (c *CapMultiProtocol) DecodeFromBytes(data []byte) error { c.DefaultParameterCapability.DecodeFromBytes(data) data = data[2:] if len(data) < 4 { return fmt.Errorf("Not all CapabilityMultiProtocol bytes available") } c.CapValue.AFI = binary.BigEndian.Uint16(data[0:2]) c.CapValue.SAFI = data[3] return nil } func (c *CapMultiProtocol) Serialize() ([]byte, error) { buf := make([]byte, 4) binary.BigEndian.PutUint16(buf[0:], c.CapValue.AFI) buf[3] = c.CapValue.SAFI c.DefaultParameterCapability.CapValue = buf return c.DefaultParameterCapability.Serialize() } func NewCapMultiProtocol(afi uint16, safi uint8) *CapMultiProtocol { return &CapMultiProtocol{ DefaultParameterCapability{ CapCode: BGP_CAP_MULTIPROTOCOL, }, CapMultiProtocolValue{ AFI: afi, SAFI: safi, }, } } type CapRouteRefresh struct { DefaultParameterCapability } func NewCapRouteRefresh() *CapRouteRefresh { return &CapRouteRefresh{ DefaultParameterCapability{ CapCode: BGP_CAP_ROUTE_REFRESH, }, } } type CapCarryingLabelInfo struct { DefaultParameterCapability } type CapGracefulRestartTuples struct { AFI uint16 SAFI uint8 Flags uint8 } type CapGracefulRestartValue struct { Flags uint8 Time uint16 Tuples []CapGracefulRestartTuples } type CapGracefulRestart struct { DefaultParameterCapability CapValue CapGracefulRestartValue } func (c *CapGracefulRestart) DecodeFromBytes(data []byte) error { c.DefaultParameterCapability.DecodeFromBytes(data) data = data[2:] restart := binary.BigEndian.Uint16(data[0:2]) c.CapValue.Flags = uint8(restart >> 12) c.CapValue.Time = restart & 0xfff data = data[2:] for len(data) >= 4 { t := CapGracefulRestartTuples{binary.BigEndian.Uint16(data[0:2]), data[2], data[3]} c.CapValue.Tuples = append(c.CapValue.Tuples, t) data = data[4:] } return nil } func (c *CapGracefulRestart) Serialize() ([]byte, error) { buf := make([]byte, 2) binary.BigEndian.PutUint16(buf[0:], uint16(c.CapValue.Flags)<<12|c.CapValue.Time) for _, t := range c.CapValue.Tuples { tbuf := make([]byte, 4) binary.BigEndian.PutUint16(tbuf[0:2], t.AFI) tbuf[2] = t.SAFI tbuf[3] = t.Flags buf = append(buf, tbuf...) } c.DefaultParameterCapability.CapValue = buf return c.DefaultParameterCapability.Serialize() } func NewCapGracefulRestart(flags uint8, time uint16, tuples []CapGracefulRestartTuples) *CapGracefulRestart { return &CapGracefulRestart{ DefaultParameterCapability{ CapCode: BGP_CAP_GRACEFUL_RESTART, }, CapGracefulRestartValue{ flags, time, tuples, }, } } type CapFourOctetASNumber struct { DefaultParameterCapability CapValue uint32 } func (c *CapFourOctetASNumber) DecodeFromBytes(data []byte) error { c.DefaultParameterCapability.DecodeFromBytes(data) data = data[2:] if len(data) < 4 { return fmt.Errorf("Not all CapabilityMultiProtocol bytes available") } c.CapValue = binary.BigEndian.Uint32(data[0:4]) return nil } func (c *CapFourOctetASNumber) Serialize() ([]byte, error) { buf := make([]byte, 4) binary.BigEndian.PutUint32(buf, c.CapValue) c.DefaultParameterCapability.CapValue = buf return c.DefaultParameterCapability.Serialize() } func NewCapFourOctetASNumber(asnum uint32) *CapFourOctetASNumber { return &CapFourOctetASNumber{ DefaultParameterCapability{ CapCode: BGP_CAP_FOUR_OCTET_AS_NUMBER, }, asnum, } } type CapEnhancedRouteRefresh struct { DefaultParameterCapability } func NewCapEnhancedRouteRefresh() *CapEnhancedRouteRefresh { return &CapEnhancedRouteRefresh{ DefaultParameterCapability{ CapCode: BGP_CAP_ENHANCED_ROUTE_REFRESH, }, } } type CapRouteRefreshCisco struct { DefaultParameterCapability } func NewCapRouteRefreshCisco() *CapRouteRefreshCisco { return &CapRouteRefreshCisco{ DefaultParameterCapability{ CapCode: BGP_CAP_ROUTE_REFRESH_CISCO, }, } } type CapUnknown struct { DefaultParameterCapability } type OptionParameterInterface interface { Serialize() ([]byte, error) } type OptionParameterCapability struct { ParamType uint8 ParamLen uint8 Capability []ParameterCapabilityInterface } func (o *OptionParameterCapability) DecodeFromBytes(data []byte) error { if uint8(len(data)) < o.ParamLen { return fmt.Errorf("Not all OptionParameterCapability bytes available") } for len(data) >= 2 { var c ParameterCapabilityInterface switch BGPCapabilityCode(data[0]) { case BGP_CAP_MULTIPROTOCOL: c = &CapMultiProtocol{} case BGP_CAP_ROUTE_REFRESH: c = &CapRouteRefresh{} case BGP_CAP_CARRYING_LABEL_INFO: c = &CapCarryingLabelInfo{} case BGP_CAP_GRACEFUL_RESTART: c = &CapGracefulRestart{} case BGP_CAP_FOUR_OCTET_AS_NUMBER: c = &CapFourOctetASNumber{} case BGP_CAP_ENHANCED_ROUTE_REFRESH: c = &CapEnhancedRouteRefresh{} case BGP_CAP_ROUTE_REFRESH_CISCO: c = &CapRouteRefreshCisco{} default: c = &CapUnknown{} } err := c.DecodeFromBytes(data) if err != nil { return nil } o.Capability = append(o.Capability, c) data = data[c.Len():] } return nil } func (o *OptionParameterCapability) Serialize() ([]byte, error) { buf := make([]byte, 2) buf[0] = o.ParamType //buf[1] = o.ParamLen for _, p := range o.Capability { pbuf, err := p.Serialize() if err != nil { return nil, err } buf = append(buf, pbuf...) } buf[1] = uint8(len(buf) - 2) return buf, nil } func NewOptionParameterCapability(capability []ParameterCapabilityInterface) *OptionParameterCapability { return &OptionParameterCapability{ ParamType: BGP_OPT_CAPABILITY, Capability: capability, } } type OptionParameterUnknown struct { ParamType uint8 ParamLen uint8 Value []byte } func (o *OptionParameterUnknown) Serialize() ([]byte, error) { buf := make([]byte, 2) buf[0] = o.ParamType if o.ParamLen == 0 { o.ParamLen = uint8(len(o.Value)) } buf[1] = o.ParamLen return append(buf, o.Value...), nil } type BGPOpen struct { Version uint8 MyAS uint16 HoldTime uint16 ID net.IP OptParamLen uint8 OptParams []OptionParameterInterface } func (msg *BGPOpen) DecodeFromBytes(data []byte) error { msg.Version = data[0] msg.MyAS = binary.BigEndian.Uint16(data[1:3]) msg.HoldTime = binary.BigEndian.Uint16(data[3:5]) msg.ID = data[5:9] msg.OptParamLen = data[9] data = data[10:] if uint8(len(data)) < msg.OptParamLen { return fmt.Errorf("Not all BGP Open message bytes available") } for rest := msg.OptParamLen; rest > 0; { paramtype := data[0] paramlen := data[1] rest -= paramlen + 2 if paramtype == BGP_OPT_CAPABILITY { p := &OptionParameterCapability{} p.ParamType = paramtype p.ParamLen = paramlen p.DecodeFromBytes(data[2 : 2+paramlen]) msg.OptParams = append(msg.OptParams, p) } else { p := &OptionParameterUnknown{} p.ParamType = paramtype p.ParamLen = paramlen p.Value = data[2 : 2+paramlen] msg.OptParams = append(msg.OptParams, p) } data = data[2+paramlen:] } return nil } func (msg *BGPOpen) Serialize() ([]byte, error) { buf := make([]byte, 10) buf[0] = msg.Version binary.BigEndian.PutUint16(buf[1:3], msg.MyAS) binary.BigEndian.PutUint16(buf[3:5], msg.HoldTime) copy(buf[5:9], msg.ID) pbuf := make([]byte, 0) for _, p := range msg.OptParams { onepbuf, err := p.Serialize() if err != nil { return nil, err } pbuf = append(pbuf, onepbuf...) } buf[9] = uint8(len(pbuf)) return append(buf, pbuf...), nil } func NewBGPOpenMessage(myas uint16, holdtime uint16, id string, optparams []OptionParameterInterface) *BGPMessage { return &BGPMessage{ Header: BGPHeader{Type: BGP_MSG_OPEN}, Body: &BGPOpen{4, myas, holdtime, net.ParseIP(id).To4(), 0, optparams}, } } type AddrPrefixInterface interface { DecodeFromBytes([]byte) error Serialize() ([]byte, error) AFI() uint16 SAFI() uint8 Len() int } type IPAddrPrefixDefault struct { Length uint8 Prefix net.IP } func (r *IPAddrPrefixDefault) decodePrefix(data []byte, bitlen uint8, addrlen uint8) error { bytelen := (bitlen + 7) / 8 b := make([]byte, addrlen) copy(b, data[:bytelen]) r.Prefix = b return nil } func (r *IPAddrPrefixDefault) serializePrefix(bitlen uint8) ([]byte, error) { bytelen := (bitlen + 7) / 8 buf := make([]byte, bytelen) copy(buf, r.Prefix) // clear trailing bits in the last byte. rfc doesn't require // this though. if bitlen%8 != 0 { mask := 0xff00 >> (bitlen % 8) last_byte_value := buf[bytelen-1] & byte(mask) buf[bytelen-1] = last_byte_value } return buf, nil } func (r *IPAddrPrefixDefault) Len() int { return int(1 + ((r.Length + 7) / 8)) } type IPAddrPrefix struct { IPAddrPrefixDefault addrlen uint8 } func (r *IPAddrPrefix) DecodeFromBytes(data []byte) error { r.Length = data[0] if r.addrlen == 0 { r.addrlen = 4 } r.decodePrefix(data[1:], r.Length, r.addrlen) return nil } func (r *IPAddrPrefix) Serialize() ([]byte, error) { buf := make([]byte, 1) buf[0] = r.Length pbuf, err := r.serializePrefix(r.Length) if err != nil { return nil, err } return append(buf, pbuf...), nil } func (r *IPAddrPrefix) AFI() uint16 { return AFI_IP } func (r *IPAddrPrefix) SAFI() uint8 { return SAFI_UNICAST } type IPv6AddrPrefix struct { IPAddrPrefix } func NewIPAddrPrefix(length uint8, prefix string) *IPAddrPrefix { return &IPAddrPrefix{ IPAddrPrefixDefault{length, net.ParseIP(prefix)}, 4, } } func (r *IPv6AddrPrefix) AFI() uint16 { return AFI_IP6 } func NewIPv6AddrPrefix(length uint8, prefix string) *IPv6AddrPrefix { return &IPv6AddrPrefix{ IPAddrPrefix{ IPAddrPrefixDefault{length, net.ParseIP(prefix)}, 16, }, } } type WithdrawnRoute struct { IPAddrPrefix } const ( BGP_RD_TWO_OCTET_AS = iota BGP_RD_IPV4_ADDRESS BGP_RD_FOUR_OCTET_AS ) type RouteDistinguisherInterface interface { DecodeFromBytes([]byte) error Serialize() ([]byte, error) Len() int } type DefaultRouteDistinguisher struct { Type uint16 Value []byte } func (rd *DefaultRouteDistinguisher) DecodeFromBytes(data []byte) error { rd.Type = binary.BigEndian.Uint16(data[0:2]) rd.Value = data[2:8] return nil } func (rd *DefaultRouteDistinguisher) Serialize() ([]byte, error) { buf := make([]byte, 8) binary.BigEndian.PutUint16(buf, rd.Type) copy(buf[2:], rd.Value) return buf, nil } func (rd *DefaultRouteDistinguisher) Len() int { return 8 } type RouteDistinguisherTwoOctetASValue struct { Admin uint16 Assigned uint32 } type RouteDistinguisherTwoOctetAS struct { DefaultRouteDistinguisher Value RouteDistinguisherTwoOctetASValue } func (rd *RouteDistinguisherTwoOctetAS) Serialize() ([]byte, error) { buf := make([]byte, 6) binary.BigEndian.PutUint16(buf[0:], rd.Value.Admin) binary.BigEndian.PutUint32(buf[2:], rd.Value.Assigned) rd.DefaultRouteDistinguisher.Value = buf return rd.DefaultRouteDistinguisher.Serialize() } func NewRouteDistinguisherTwoOctetAS(admin uint16, assigned uint32) *RouteDistinguisherTwoOctetAS { return &RouteDistinguisherTwoOctetAS{ DefaultRouteDistinguisher{ Type: BGP_RD_TWO_OCTET_AS, }, RouteDistinguisherTwoOctetASValue{ Admin: admin, Assigned: assigned, }, } } type RouteDistinguisherIPAddressASValue struct { Admin net.IP Assigned uint16 } type RouteDistinguisherIPAddressAS struct { DefaultRouteDistinguisher Value RouteDistinguisherIPAddressASValue } func (rd *RouteDistinguisherIPAddressAS) Serialize() ([]byte, error) { buf := make([]byte, 6) copy(buf[0:], rd.Value.Admin) binary.BigEndian.PutUint16(buf[4:], rd.Value.Assigned) rd.DefaultRouteDistinguisher.Value = buf return rd.DefaultRouteDistinguisher.Serialize() } func NewRouteDistinguisherIPAddressAS(admin string, assigned uint16) *RouteDistinguisherIPAddressAS { return &RouteDistinguisherIPAddressAS{ DefaultRouteDistinguisher{ Type: BGP_RD_IPV4_ADDRESS, }, RouteDistinguisherIPAddressASValue{ Admin: net.ParseIP(admin), Assigned: assigned, }, } } type RouteDistinguisherFourOctetASValue struct { Admin uint32 Assigned uint16 } type RouteDistinguisherFourOctetAS struct { DefaultRouteDistinguisher Value RouteDistinguisherFourOctetASValue } func (rd *RouteDistinguisherFourOctetAS) Serialize() ([]byte, error) { buf := make([]byte, 6) binary.BigEndian.PutUint32(buf[0:], rd.Value.Admin) binary.BigEndian.PutUint16(buf[4:], rd.Value.Assigned) rd.DefaultRouteDistinguisher.Value = buf return rd.DefaultRouteDistinguisher.Serialize() } func NewRouteDistinguisherFourOctetAS(admin uint32, assigned uint16) *RouteDistinguisherFourOctetAS { return &RouteDistinguisherFourOctetAS{ DefaultRouteDistinguisher{ Type: BGP_RD_FOUR_OCTET_AS, }, RouteDistinguisherFourOctetASValue{ Admin: admin, Assigned: assigned, }, } } type RouteDistinguisherUnknown struct { DefaultRouteDistinguisher } func getRouteDistinguisher(data []byte) RouteDistinguisherInterface { rdtype := binary.BigEndian.Uint16(data[0:2]) switch rdtype { case BGP_RD_TWO_OCTET_AS: rd := &RouteDistinguisherTwoOctetAS{} rd.Type = rdtype rd.Value.Admin = binary.BigEndian.Uint16(data[2:4]) rd.Value.Assigned = binary.BigEndian.Uint32(data[4:8]) return rd case BGP_RD_IPV4_ADDRESS: rd := &RouteDistinguisherIPAddressAS{} rd.Type = rdtype rd.Value.Admin = data[2:6] rd.Value.Assigned = binary.BigEndian.Uint16(data[6:8]) return rd case BGP_RD_FOUR_OCTET_AS: rd := &RouteDistinguisherFourOctetAS{} rd.Type = rdtype rd.Value.Admin = binary.BigEndian.Uint32(data[2:6]) rd.Value.Assigned = binary.BigEndian.Uint16(data[6:8]) return rd } rd := &RouteDistinguisherUnknown{} rd.Type = rdtype return rd } type Label struct { Labels []uint32 } func (l *Label) DecodeFromBytes(data []byte) error { labels := []uint32{} foundBottom := false for len(data) >= 4 { label := uint32(data[0]<<16 | data[1]<<8 | data[2]) data = data[3:] labels = append(labels, label>>4) if label&1 == 1 { foundBottom = true break } } if foundBottom == false { l.Labels = []uint32{} return nil } l.Labels = labels return nil } func (l *Label) Serialize() ([]byte, error) { buf := make([]byte, len(l.Labels)*3) for i, label := range l.Labels { label = label << 4 buf[i*3] = byte((label >> 16) & 0xff) buf[i*3+1] = byte((label >> 8) & 0xff) buf[i*3+2] = byte(label & 0xff) } buf[len(buf)-1] |= 1 return buf, nil } func (l *Label) Len() int { return 3 * len(l.Labels) } func NewLabel(labels ...uint32) *Label { return &Label{labels} } type LabelledVPNIPAddrPrefix struct { IPAddrPrefixDefault Labels Label RD RouteDistinguisherInterface addrlen uint8 } func (l *LabelledVPNIPAddrPrefix) DecodeFromBytes(data []byte) error { l.Length = uint8(data[0]) data = data[1:] l.Labels.DecodeFromBytes(data) if int(l.Length)-8*(l.Labels.Len()) < 0 { l.Labels.Labels = []uint32{} } data = data[l.Labels.Len():] l.RD = getRouteDistinguisher(data) data = data[l.RD.Len():] restbits := int(l.Length) - 8*(l.Labels.Len()+l.RD.Len()) l.decodePrefix(data, uint8(restbits), l.addrlen) return nil } func (l *LabelledVPNIPAddrPrefix) Serialize() ([]byte, error) { buf := make([]byte, 1) buf[0] = l.Length lbuf, err := l.Labels.Serialize() if err != nil { return nil, err } buf = append(buf, lbuf...) rbuf, err := l.RD.Serialize() if err != nil { return nil, err } buf = append(buf, rbuf...) restbits := int(l.Length) - 8*(l.Labels.Len()+l.RD.Len()) pbuf, err := l.serializePrefix(uint8(restbits)) if err != nil { return nil, err } buf = append(buf, pbuf...) return buf, nil } func (l *LabelledVPNIPAddrPrefix) AFI() uint16 { return AFI_IP } func (l *LabelledVPNIPAddrPrefix) SAFI() uint8 { return SAFI_MPLS_VPN } func NewLabelledVPNIPAddrPrefix(length uint8, prefix string, label Label, rd RouteDistinguisherInterface) *LabelledVPNIPAddrPrefix { rdlen := 0 if rd != nil { rdlen = rd.Len() } return &LabelledVPNIPAddrPrefix{ IPAddrPrefixDefault{length + uint8(8*(label.Len()+rdlen)), net.ParseIP(prefix)}, label, rd, 4, } } type LabelledVPNIPv6AddrPrefix struct { LabelledVPNIPAddrPrefix } func (l *LabelledVPNIPv6AddrPrefix) AFI() uint16 { return AFI_IP6 } func NewLabelledVPNIPv6AddrPrefix(length uint8, prefix string, label Label, rd RouteDistinguisherInterface) *LabelledVPNIPv6AddrPrefix { rdlen := 0 if rd != nil { rdlen = rd.Len() } return &LabelledVPNIPv6AddrPrefix{ LabelledVPNIPAddrPrefix{ IPAddrPrefixDefault{length + uint8(8*(label.Len()+rdlen)), net.ParseIP(prefix)}, label, rd, 16, }, } } type LabelledIPAddrPrefix struct { IPAddrPrefixDefault Labels Label addrlen uint8 } func (r *LabelledIPAddrPrefix) AFI() uint16 { return AFI_IP } func (r *LabelledIPAddrPrefix) SAFI() uint8 { return SAFI_MPLS_LABEL } func (r *IPAddrPrefix) decodeNextHop(data []byte) net.IP { if r.addrlen == 0 { r.addrlen = 4 } var next net.IP = data[0:r.addrlen] return next } func (r *LabelledVPNIPAddrPrefix) decodeNextHop(data []byte) net.IP { // skip rd var next net.IP = data[8 : 8+r.addrlen] return next } func (r *LabelledIPAddrPrefix) decodeNextHop(data []byte) net.IP { var next net.IP = data[0:r.addrlen] return next } func (l *LabelledIPAddrPrefix) DecodeFromBytes(data []byte) error { l.Length = uint8(data[0]) data = data[1:] l.Labels.DecodeFromBytes(data) if int(l.Length)-8*(l.Labels.Len()) < 0 { l.Labels.Labels = []uint32{} } restbits := int(l.Length) - 8*(l.Labels.Len()) data = data[l.Labels.Len():] l.decodePrefix(data, uint8(restbits), l.addrlen) return nil } func (l *LabelledIPAddrPrefix) Serialize() ([]byte, error) { buf := make([]byte, 1) buf[0] = l.Length restbits := int(l.Length) - 8*(l.Labels.Len()) lbuf, err := l.Labels.Serialize() if err != nil { return nil, err } buf = append(buf, lbuf...) pbuf, err := l.serializePrefix(uint8(restbits)) if err != nil { return nil, err } buf = append(buf, pbuf...) return buf, nil } func NewLabelledIPAddrPrefix(length uint8, prefix string, label Label) *LabelledIPAddrPrefix { return &LabelledIPAddrPrefix{ IPAddrPrefixDefault{length + uint8(label.Len()*8), net.ParseIP(prefix)}, label, 4, } } type LabelledIPv6AddrPrefix struct { LabelledIPAddrPrefix } func NewLabelledIPv6AddrPrefix(length uint8, prefix string, label Label) *LabelledIPv6AddrPrefix { return &LabelledIPv6AddrPrefix{ LabelledIPAddrPrefix{ IPAddrPrefixDefault{length + uint8(label.Len()*8), net.ParseIP(prefix)}, label, 16, }, } } type RouteTargetMembershipNLRI struct { AS uint32 RouteTarget ExtendedCommunityInterface } func (n *RouteTargetMembershipNLRI) DecodeFromBytes(data []byte) error { n.AS = binary.BigEndian.Uint32(data[0:4]) n.RouteTarget = parseExtended(data[4:]) return nil } func (n *RouteTargetMembershipNLRI) Serialize() ([]byte, error) { buf := make([]byte, 4) binary.BigEndian.PutUint32(buf, n.AS) ebuf, err := n.RouteTarget.Serialize() if err != nil { return nil, err } return append(buf, ebuf...), nil } func (n *RouteTargetMembershipNLRI) AFI() uint16 { return AFI_IP } func (n *RouteTargetMembershipNLRI) SAFI() uint8 { return SAFI_ROUTE_TARGET_CONSTRTAINS } func (n *RouteTargetMembershipNLRI) Len() int { return 12 } func rfshift(afi uint16, safi uint8) RouteFamily { return RouteFamily(int(afi)<<16 | int(safi)) } type RouteFamily int const ( RF_IPv4_UC RouteFamily = AFI_IP<<16 | SAFI_UNICAST RF_IPv6_UC RouteFamily = AFI_IP6<<16 | SAFI_UNICAST RF_IPv4_VPN RouteFamily = AFI_IP<<16 | SAFI_MPLS_VPN RF_IPv6_VPN RouteFamily = AFI_IP6<<16 | SAFI_MPLS_VPN RF_IPv4_MPLS RouteFamily = AFI_IP<<16 | SAFI_MPLS_LABEL RF_IPv6_MPLS RouteFamily = AFI_IP6<<16 | SAFI_MPLS_LABEL RF_RTC_UC RouteFamily = AFI_IP<<16 | SAFI_ROUTE_TARGET_CONSTRTAINS ) func routeFamilyPrefix(afi uint16, safi uint8) (prefix AddrPrefixInterface) { switch rfshift(afi, safi) { case RF_IPv4_UC: prefix = NewIPAddrPrefix(0, "") case RF_IPv6_UC: prefix = NewIPv6AddrPrefix(0, "") case RF_IPv4_VPN: prefix = NewLabelledVPNIPAddrPrefix(0, "", *NewLabel(), nil) case RF_IPv6_VPN: prefix = NewLabelledVPNIPv6AddrPrefix(0, "", *NewLabel(), nil) case RF_IPv4_MPLS: prefix = NewLabelledIPAddrPrefix(0, "", *NewLabel()) case RF_IPv6_MPLS: prefix = NewLabelledIPv6AddrPrefix(0, "", *NewLabel()) case RF_RTC_UC: prefix = &RouteTargetMembershipNLRI{} } return prefix } const ( BGP_ATTR_FLAG_EXTENDED_LENGTH = 1 << 4 BGP_ATTR_FLAG_PARTIAL = 1 << 5 BGP_ATTR_FLAG_TRANSITIVE = 1 << 6 BGP_ATTR_FLAG_OPTIONAL = 1 << 7 ) type BGPAttrType uint8 const ( _ BGPAttrType = iota BGP_ATTR_TYPE_ORIGIN BGP_ATTR_TYPE_AS_PATH BGP_ATTR_TYPE_NEXT_HOP BGP_ATTR_TYPE_MULTI_EXIT_DISC BGP_ATTR_TYPE_LOCAL_PREF BGP_ATTR_TYPE_ATOMIC_AGGREGATE BGP_ATTR_TYPE_AGGREGATOR BGP_ATTR_TYPE_COMMUNITIES BGP_ATTR_TYPE_ORIGINATOR_ID BGP_ATTR_TYPE_CLUSTER_LIST _ _ _ BGP_ATTR_TYPE_MP_REACH_NLRI BGP_ATTR_TYPE_MP_UNREACH_NLRI BGP_ATTR_TYPE_EXTENDED_COMMUNITIES BGP_ATTR_TYPE_AS4_PATH BGP_ATTR_TYPE_AS4_AGGREGATOR ) // NOTIFICATION Error Code RFC 4271 4.5. const ( _ = iota BGP_ERROR_MESSAGE_HEADER_ERROR BGP_ERROR_OPEN_MESSAGE_ERROR BGP_ERROR_UPDATE_MESSAGE_ERROR BGP_ERROR_HOLD_TIMER_EXPIRED BGP_ERROR_FSM_ERROR BGP_ERROR_CEASE ) // NOTIFICATION Error Subcode for BGP_ERROR_MESSAGE_HEADER_ERROR const ( _ = iota BGP_ERROR_SUB_CONNECTION_NOT_SYNCHRONIZED BGP_ERROR_SUB_BAD_MESSAGE_LENGTH BGP_ERROR_SUB_BAD_MESSAGE_TYPE ) // NOTIFICATION Error Subcode for BGP_ERROR_OPEN_MESSAGE_ERROR const ( _ = iota BGP_ERROR_SUB_UNSUPPORTED_VERSION_NUMBER BGP_ERROR_SUB_BAD_PEER_AS BGP_ERROR_SUB_BAD_BGP_IDENTIFIER BGP_ERROR_SUB_UNSUPPORTED_OPTIONAL_PARAMETER BGP_ERROR_SUB_AUTHENTICATION_FAILURE BGP_ERROR_SUB_UNACCEPTABLE_HOLD_TIME ) // NOTIFICATION Error Subcode for BGP_ERROR_UPDATE_MESSAGE_ERROR const ( _ = iota BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST BGP_ERROR_SUB_UNRECOGNIZED_WELL_KNOWN_ATTRIBUTE BGP_ERROR_SUB_MISSING_WELL_KNOWN_ATTRIBUTE BGP_ERROR_SUB_ATTRIBUTE_FLAGS_ERROR BGP_ERROR_SUB_ATTRIBUTE_LENGTH_ERROR BGP_ERROR_SUB_INVALID_ORIGIN_ATTRIBUTE BGP_ERROR_SUB_ROUTING_LOOP BGP_ERROR_SUB_INVALID_NEXT_HOP_ATTRIBUTE BGP_ERROR_SUB_OPTIONAL_ATTRIBUTE_ERROR BGP_ERROR_SUB_INVALID_NETWORK_FIELD BGP_ERROR_SUB_MALFORMED_AS_PATH ) // NOTIFICATION Error Subcode for BGP_ERROR_HOLD_TIMER_EXPIRED const ( _ = iota BGP_ERROR_SUB_HOLD_TIMER_EXPIRED ) // NOTIFICATION Error Subcode for BGP_ERROR_FSM_ERROR const ( _ = iota BGP_ERROR_SUB_FSM_ERROR ) // NOTIFICATION Error Subcode for BGP_ERROR_CEASE (RFC 4486) const ( _ = iota BGP_ERROR_SUB_MAXIMUM_NUMBER_OF_PREFIXES_REACHED BGP_ERROR_SUB_ADMINISTRATIVE_SHUTDOWN BGP_ERROR_SUB_PEER_DECONFIGURED BGP_ERROR_SUB_ADMINISTRATIVE_RESET BGP_ERROR_SUB_CONNECTION_RESET BGP_ERROR_SUB_OTHER_CONFIGURATION_CHANGE BGP_ERROR_SUB_CONNECTION_COLLISION_RESOLUTION BGP_ERROR_SUB_OUT_OF_RESOURCES ) type PathAttributeInterface interface { DecodeFromBytes([]byte) error Serialize() ([]byte, error) Len() int } type PathAttribute struct { Flags uint8 Type BGPAttrType Length uint16 Value []byte } func (p *PathAttribute) Len() int { l := 2 + p.Length if p.Flags&BGP_ATTR_FLAG_EXTENDED_LENGTH != 0 { l += 2 } else { l += 1 } return int(l) } func (p *PathAttribute) DecodeFromBytes(data []byte) error { p.Flags = data[0] p.Type = BGPAttrType(data[1]) if p.Flags&BGP_ATTR_FLAG_EXTENDED_LENGTH != 0 { p.Length = binary.BigEndian.Uint16(data[2:4]) data = data[4:] } else { p.Length = uint16(data[2]) data = data[3:] } p.Value = data[:p.Length] return nil } func (p *PathAttribute) Serialize() ([]byte, error) { p.Length = uint16(len(p.Value)) if p.Length > 255 { p.Flags |= BGP_ATTR_FLAG_EXTENDED_LENGTH } else { p.Flags &^= BGP_ATTR_FLAG_EXTENDED_LENGTH } buf := make([]byte, p.Len()) buf[0] = p.Flags buf[1] = uint8(p.Type) if p.Flags&BGP_ATTR_FLAG_EXTENDED_LENGTH != 0 { binary.BigEndian.PutUint16(buf[2:4], p.Length) copy(buf[4:], p.Value) } else { buf[2] = byte(p.Length) copy(buf[3:], p.Value) } return buf, nil } type PathAttributeOrigin struct { PathAttribute } func (p *PathAttributeOrigin) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string Value uint8 }{ Type: p.Type.String(), Value: uint8(p.Value[0]), }) } func NewPathAttributeOrigin(value uint8) *PathAttributeOrigin { return &PathAttributeOrigin{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_ORIGIN, Value: []byte{byte(value)}, }, } } type AsPathParam struct { Type uint8 Num uint8 AS []uint16 } func (a *AsPathParam) Serialize() ([]byte, error) { buf := make([]byte, 2+len(a.AS)*2) buf[0] = uint8(a.Type) buf[1] = a.Num for j, as := range a.AS { binary.BigEndian.PutUint16(buf[2+j*2:], as) } return buf, nil } func (a *AsPathParam) DecodeFromBytes(data []byte) error { a.Type = data[0] a.Num = data[1] data = data[2:] for i := 0; i < int(a.Num); i++ { a.AS = append(a.AS, binary.BigEndian.Uint16(data)) data = data[2:] } return nil } func (a *AsPathParam) Len() int { return 2 + len(a.AS)*2 } func (a *AsPathParam) ASLen() int { return len(a.AS) } func NewAsPathParam(segType uint8, as []uint16) *AsPathParam { return &AsPathParam{ Type: segType, Num: uint8(len(as)), AS: as, } } type As4PathParam struct { Type uint8 Num uint8 AS []uint32 } func (a *As4PathParam) Serialize() ([]byte, error) { buf := make([]byte, 2+len(a.AS)*4) buf[0] = a.Type buf[1] = a.Num for j, as := range a.AS { binary.BigEndian.PutUint32(buf[2+j*4:], as) } return buf, nil } func (a *As4PathParam) DecodeFromBytes(data []byte) error { a.Type = data[0] a.Num = data[1] data = data[2:] for i := 0; i < int(a.Num); i++ { a.AS = append(a.AS, binary.BigEndian.Uint32(data)) data = data[4:] } return nil } func (a *As4PathParam) Len() int { return 2 + len(a.AS)*4 } func (a *As4PathParam) ASLen() int { return len(a.AS) } func NewAs4PathParam(segType uint8, as []uint32) *As4PathParam { return &As4PathParam{ Type: segType, Num: uint8(len(as)), AS: as, } } type DefaultAsPath struct { } func (p *DefaultAsPath) isValidAspath(data []byte) bool { for len(data) > 0 { segType := data[0] asNum := data[1] if segType == 0 || segType > 4 { return false } data = data[2:] if len(data) < int(asNum)*2 { return false } data = data[2*asNum:] } return true } type AsPathParamInterface interface { Serialize() ([]byte, error) DecodeFromBytes([]byte) error Len() int ASLen() int } type PathAttributeAsPath struct { DefaultAsPath PathAttribute Value []AsPathParamInterface } func (p *PathAttributeAsPath) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) validAs := p.DefaultAsPath.isValidAspath(p.PathAttribute.Value) v := p.PathAttribute.Value for len(v) > 0 { var tuple AsPathParamInterface if validAs == true { tuple = &AsPathParam{} } else { tuple = &As4PathParam{} } tuple.DecodeFromBytes(v) p.Value = append(p.Value, tuple) v = v[tuple.Len():] } return nil } func (p *PathAttributeAsPath) Serialize() ([]byte, error) { buf := make([]byte, 0) for _, v := range p.Value { vbuf, err := v.Serialize() if err != nil { return nil, err } buf = append(buf, vbuf...) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeAsPath) MarshalJSON() ([]byte, error) { aslist := make([]uint32, 0) for _, a := range p.Value { path, y := a.(*As4PathParam) if y { aslist = append(aslist, path.AS...) } else { path := a.(*AsPathParam) for _, v := range path.AS { aslist = append(aslist, uint32(v)) } } } return json.Marshal(struct { Type string AsPath []uint32 }{ Type: p.Type.String(), AsPath: aslist, }) } func NewPathAttributeAsPath(value []AsPathParamInterface) *PathAttributeAsPath { return &PathAttributeAsPath{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_AS_PATH, }, Value: value, } } type PathAttributeNextHop struct { PathAttribute Value net.IP } func (p *PathAttributeNextHop) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) p.Value = p.PathAttribute.Value return nil } func (p *PathAttributeNextHop) Serialize() ([]byte, error) { p.PathAttribute.Value = p.Value return p.PathAttribute.Serialize() } func (p *PathAttributeNextHop) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string Nexthop string }{ Type: p.Type.String(), Nexthop: p.Value.String(), }) } func NewPathAttributeNextHop(value string) *PathAttributeNextHop { return &PathAttributeNextHop{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_NEXT_HOP, }, Value: net.ParseIP(value).To4(), } } type PathAttributeMultiExitDisc struct { PathAttribute Value uint32 } func (p *PathAttributeMultiExitDisc) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) p.Value = binary.BigEndian.Uint32(p.PathAttribute.Value) return nil } func (p *PathAttributeMultiExitDisc) Serialize() ([]byte, error) { buf := make([]byte, 4) binary.BigEndian.PutUint32(buf, p.Value) p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeMultiExitDisc) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string Metric uint32 }{ Type: p.Type.String(), Metric: p.Value, }) } func NewPathAttributeMultiExitDisc(value uint32) *PathAttributeMultiExitDisc { return &PathAttributeMultiExitDisc{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_OPTIONAL, Type: BGP_ATTR_TYPE_MULTI_EXIT_DISC, }, Value: value, } } type PathAttributeLocalPref struct { PathAttribute Value uint32 } func (p *PathAttributeLocalPref) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) p.Value = binary.BigEndian.Uint32(p.PathAttribute.Value) return nil } func (p *PathAttributeLocalPref) Serialize() ([]byte, error) { buf := make([]byte, 4) binary.BigEndian.PutUint32(buf, p.Value) p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeLocalPref) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string Pref uint32 }{ Type: p.Type.String(), Pref: p.Value, }) } func NewPathAttributeLocalPref(value uint32) *PathAttributeLocalPref { return &PathAttributeLocalPref{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_LOCAL_PREF, }, Value: value, } } type PathAttributeAtomicAggregate struct { PathAttribute } func (p *PathAttributeAtomicAggregate) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string }{ Type: p.Type.String(), }) } func NewPathAttributeAtomicAggregate() *PathAttributeAtomicAggregate { return &PathAttributeAtomicAggregate{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_ATOMIC_AGGREGATE, }, } } type PathAttributeAggregatorParam struct { AS uint32 askind reflect.Kind Address net.IP } type PathAttributeAggregator struct { PathAttribute Value PathAttributeAggregatorParam } func (p *PathAttributeAggregator) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) if len(p.PathAttribute.Value) == 6 { p.Value.AS = uint32(binary.BigEndian.Uint16(p.PathAttribute.Value[0:2])) p.Value.Address = p.PathAttribute.Value[2:] p.Value.askind = reflect.Uint16 } else { p.Value.AS = binary.BigEndian.Uint32(p.PathAttribute.Value[0:4]) p.Value.Address = p.PathAttribute.Value[4:] p.Value.askind = reflect.Uint32 } return nil } func (p *PathAttributeAggregator) Serialize() ([]byte, error) { var buf []byte switch p.Value.askind { case reflect.Uint16: buf = make([]byte, 6) binary.BigEndian.PutUint16(buf, uint16(p.Value.AS)) copy(buf[2:], p.Value.Address) case reflect.Uint32: buf = make([]byte, 8) binary.BigEndian.PutUint32(buf, p.Value.AS) copy(buf[4:], p.Value.Address) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeAggregator) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string AS uint32 Address net.IP }{ Type: p.Type.String(), AS: p.Value.AS, Address: p.Value.Address, }) } func NewPathAttributeAggregator(as interface{}, address string) *PathAttributeAggregator { v := reflect.ValueOf(as) return &PathAttributeAggregator{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_AGGREGATOR, }, Value: PathAttributeAggregatorParam{ AS: uint32(v.Uint()), askind: v.Kind(), Address: net.ParseIP(address).To4(), }, } } type PathAttributeCommunities struct { PathAttribute Value []uint32 } func (p *PathAttributeCommunities) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) value := p.PathAttribute.Value for len(value) >= 4 { p.Value = append(p.Value, binary.BigEndian.Uint32(value)) value = value[4:] } return nil } func (p *PathAttributeCommunities) Serialize() ([]byte, error) { buf := make([]byte, len(p.Value)*4) for i, v := range p.Value { binary.BigEndian.PutUint32(buf[i*4:], v) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeCommunities) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string Value []uint32 }{ Type: p.Type.String(), Value: p.Value, }) } func NewPathAttributeCommunities(value []uint32) *PathAttributeCommunities { return &PathAttributeCommunities{ PathAttribute{BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANSITIVE, BGP_ATTR_TYPE_COMMUNITIES, 0, nil}, value, } } type PathAttributeOriginatorId struct { PathAttribute Value net.IP } func (p *PathAttributeOriginatorId) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) p.Value = p.PathAttribute.Value return nil } func (p *PathAttributeOriginatorId) Serialize() ([]byte, error) { buf := make([]byte, 4) copy(buf, p.Value) p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeOriginatorId) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Type string Address string }{ Type: p.Type.String(), Address: p.Value.String(), }) } func NewPathAttributeOriginatorId(value string) *PathAttributeOriginatorId { return &PathAttributeOriginatorId{ PathAttribute{BGP_ATTR_FLAG_OPTIONAL, BGP_ATTR_TYPE_ORIGINATOR_ID, 0, nil}, net.ParseIP(value).To4(), } } type PathAttributeClusterList struct { PathAttribute Value []net.IP } func (p *PathAttributeClusterList) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) value := p.PathAttribute.Value for len(value) >= 4 { p.Value = append(p.Value, value[:4]) value = value[4:] } return nil } func (p *PathAttributeClusterList) Serialize() ([]byte, error) { buf := make([]byte, len(p.Value)*4) for i, v := range p.Value { copy(buf[i*4:], v) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeClusterList) MarshalJSON() ([]byte, error) { l := make([]string, 0) for _, addr := range p.Value { l = append(l, addr.String()) } return json.Marshal(struct { Type string Address []string }{ Type: p.Type.String(), Address: l, }) } func NewPathAttributeClusterList(value []string) *PathAttributeClusterList { l := make([]net.IP, len(value)) for i, v := range value { l[i] = net.ParseIP(v).To4() } return &PathAttributeClusterList{ PathAttribute{BGP_ATTR_FLAG_OPTIONAL, BGP_ATTR_TYPE_CLUSTER_LIST, 0, nil}, l, } } type PathAttributeMpReachNLRI struct { PathAttribute Nexthop net.IP Value []AddrPrefixInterface } func (p *PathAttributeMpReachNLRI) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) value := p.PathAttribute.Value afi := binary.BigEndian.Uint16(value[0:2]) safi := value[2] nexthopLen := value[3] nexthopbin := value[4 : 4+nexthopLen] value = value[4+nexthopLen:] if nexthopLen > 0 { offset := 0 if safi == SAFI_MPLS_VPN { offset = 8 } addrlen := 4 if afi == AFI_IP6 { addrlen = 16 } p.Nexthop = nexthopbin[offset : +offset+addrlen] } // skip reserved value = value[1:] for len(value) > 0 { prefix := routeFamilyPrefix(afi, safi) prefix.DecodeFromBytes(value) value = value[prefix.Len():] p.Value = append(p.Value, prefix) } return nil } func (p *PathAttributeMpReachNLRI) Serialize() ([]byte, error) { afi := p.Value[0].AFI() safi := p.Value[0].SAFI() nexthoplen := 4 if afi == AFI_IP6 { nexthoplen = 16 } offset := 0 if safi == SAFI_MPLS_VPN { offset = 8 nexthoplen += 8 } buf := make([]byte, 4+nexthoplen) binary.BigEndian.PutUint16(buf[0:], afi) buf[2] = safi buf[3] = uint8(nexthoplen) copy(buf[4+offset:], p.Nexthop) buf = append(buf, make([]byte, 1)...) for _, prefix := range p.Value { pbuf, err := prefix.Serialize() if err != nil { return nil, err } buf = append(buf, pbuf...) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func (p *PathAttributeMpReachNLRI) MarshalJSON() ([]byte, error) { // TODO: fix address printing return json.Marshal(struct { Type string Nexthop string Address []string }{ Type: p.Type.String(), Nexthop: p.Nexthop.String(), }) } func NewPathAttributeMpReachNLRI(nexthop string, nlri []AddrPrefixInterface) *PathAttributeMpReachNLRI { return &PathAttributeMpReachNLRI{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_OPTIONAL, Type: BGP_ATTR_TYPE_MP_REACH_NLRI, }, Nexthop: net.ParseIP(nexthop), Value: nlri, } } type PathAttributeMpUnreachNLRI struct { PathAttribute Value []AddrPrefixInterface } func (p *PathAttributeMpUnreachNLRI) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) value := p.PathAttribute.Value afi := binary.BigEndian.Uint16(value[0:2]) safi := value[2] value = value[3:] for len(value) > 0 { prefix := routeFamilyPrefix(afi, safi) prefix.DecodeFromBytes(value) value = value[prefix.Len():] p.Value = append(p.Value, prefix) } return nil } func (p *PathAttributeMpUnreachNLRI) Serialize() ([]byte, error) { buf := make([]byte, 3) afi := p.Value[0].AFI() safi := p.Value[0].SAFI() binary.BigEndian.PutUint16(buf, afi) buf[2] = safi for _, prefix := range p.Value { pbuf, err := prefix.Serialize() if err != nil { return nil, err } buf = append(buf, pbuf...) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func NewPathAttributeMpUnreachNLRI(nlri []AddrPrefixInterface) *PathAttributeMpUnreachNLRI { return &PathAttributeMpUnreachNLRI{ PathAttribute{BGP_ATTR_FLAG_OPTIONAL, BGP_ATTR_TYPE_MP_UNREACH_NLRI, 0, nil}, nlri, } } type ExtendedCommunityInterface interface { Serialize() ([]byte, error) } type TwoOctetAsSpecificExtended struct { SubType uint8 AS uint16 LocalAdmin uint32 } func (e *TwoOctetAsSpecificExtended) Serialize() ([]byte, error) { buf := make([]byte, 8) buf[0] = 0x00 buf[1] = e.SubType binary.BigEndian.PutUint16(buf[2:], e.AS) binary.BigEndian.PutUint32(buf[4:], e.LocalAdmin) return buf, nil } type IPv4AddressSpecificExtended struct { SubType uint8 IPv4 net.IP LocalAdmin uint16 } func (e *IPv4AddressSpecificExtended) Serialize() ([]byte, error) { buf := make([]byte, 8) buf[0] = 0x01 buf[1] = e.SubType copy(buf[2:6], e.IPv4) binary.BigEndian.PutUint16(buf[6:], e.LocalAdmin) return buf, nil } type FourOctetAsSpecificExtended struct { SubType uint8 AS uint32 LocalAdmin uint16 } func (e *FourOctetAsSpecificExtended) Serialize() ([]byte, error) { buf := make([]byte, 8) buf[0] = 0x02 buf[1] = e.SubType binary.BigEndian.PutUint32(buf[2:], e.AS) binary.BigEndian.PutUint16(buf[6:], e.LocalAdmin) return buf, nil } type OpaqueExtended struct { Value []byte } func (e *OpaqueExtended) Serialize() ([]byte, error) { buf := make([]byte, 8) buf[0] = 0x03 copy(buf[1:], e.Value) return buf, nil } type UnknownExtended struct { Type BGPAttrType Value []byte } func (e *UnknownExtended) Serialize() ([]byte, error) { buf := make([]byte, 8) buf[0] = uint8(e.Type) copy(buf[1:], e.Value) return buf, nil } type PathAttributeExtendedCommunities struct { PathAttribute Value []ExtendedCommunityInterface } func parseExtended(data []byte) ExtendedCommunityInterface { typehigh := data[0] & ^uint8(0x40) switch typehigh { case 0: e := &TwoOctetAsSpecificExtended{} e.SubType = data[1] e.AS = binary.BigEndian.Uint16(data[2:4]) e.LocalAdmin = binary.BigEndian.Uint32(data[4:8]) return e case 1: e := &IPv4AddressSpecificExtended{} e.SubType = data[1] e.IPv4 = data[2:6] e.LocalAdmin = binary.BigEndian.Uint16(data[6:8]) return e case 2: e := &FourOctetAsSpecificExtended{} e.SubType = data[1] e.AS = binary.BigEndian.Uint32(data[2:6]) e.LocalAdmin = binary.BigEndian.Uint16(data[6:8]) return e case 3: e := &OpaqueExtended{} e.Value = data[2:8] return e } e := &UnknownExtended{} e.Type = BGPAttrType(data[1]) e.Value = data[2:8] return e } func (p *PathAttributeExtendedCommunities) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) value := p.PathAttribute.Value for len(value) >= 8 { e := parseExtended(value) p.Value = append(p.Value, e) value = value[8:] } return nil } func NewPathAttributeExtendedCommunities(value []ExtendedCommunityInterface) *PathAttributeExtendedCommunities { return &PathAttributeExtendedCommunities{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_EXTENDED_COMMUNITIES, }, Value: value, } } type PathAttributeAs4Path struct { PathAttribute Value []*As4PathParam DefaultAsPath } func (p *PathAttributeAs4Path) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) v := p.PathAttribute.Value for len(v) > 0 { tuple := &As4PathParam{} tuple.DecodeFromBytes(v) p.Value = append(p.Value, tuple) v = v[tuple.Len():] } return nil } func (p *PathAttributeAs4Path) Serialize() ([]byte, error) { buf := make([]byte, 0) for _, v := range p.Value { vbuf, err := v.Serialize() if err != nil { return nil, err } buf = append(buf, vbuf...) } p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func NewPathAttributeAs4Path(value []*As4PathParam) *PathAttributeAs4Path { return &PathAttributeAs4Path{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_AS4_PATH, }, Value: value, } } type PathAttributeAs4Aggregator struct { PathAttribute Value PathAttributeAggregatorParam } func (p *PathAttributeAs4Aggregator) DecodeFromBytes(data []byte) error { p.PathAttribute.DecodeFromBytes(data) p.Value.AS = binary.BigEndian.Uint32(p.PathAttribute.Value[0:4]) p.Value.Address = p.PathAttribute.Value[4:] return nil } func (p *PathAttributeAs4Aggregator) Serialize() ([]byte, error) { buf := make([]byte, 8) binary.BigEndian.PutUint32(buf[0:], p.Value.AS) copy(buf[4:], p.Value.Address) p.PathAttribute.Value = buf return p.PathAttribute.Serialize() } func NewPathAttributeAs4Aggregator(as uint32, address string) *PathAttributeAs4Aggregator { return &PathAttributeAs4Aggregator{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANSITIVE, Type: BGP_ATTR_TYPE_AS4_AGGREGATOR, }, Value: PathAttributeAggregatorParam{ AS: as, Address: net.ParseIP(address), }, } } type PathAttributeUnknown struct { PathAttribute } func getPathAttribute(data []byte) PathAttributeInterface { switch BGPAttrType(data[1]) { case BGP_ATTR_TYPE_ORIGIN: return &PathAttributeOrigin{} case BGP_ATTR_TYPE_AS_PATH: return &PathAttributeAsPath{} case BGP_ATTR_TYPE_NEXT_HOP: return &PathAttributeNextHop{} case BGP_ATTR_TYPE_MULTI_EXIT_DISC: return &PathAttributeMultiExitDisc{} case BGP_ATTR_TYPE_LOCAL_PREF: return &PathAttributeLocalPref{} case BGP_ATTR_TYPE_ATOMIC_AGGREGATE: return &PathAttributeAtomicAggregate{} case BGP_ATTR_TYPE_AGGREGATOR: return &PathAttributeAggregator{} case BGP_ATTR_TYPE_COMMUNITIES: return &PathAttributeCommunities{} case BGP_ATTR_TYPE_ORIGINATOR_ID: return &PathAttributeOriginatorId{} case BGP_ATTR_TYPE_CLUSTER_LIST: return &PathAttributeClusterList{} case BGP_ATTR_TYPE_MP_REACH_NLRI: return &PathAttributeMpReachNLRI{} case BGP_ATTR_TYPE_MP_UNREACH_NLRI: return &PathAttributeMpUnreachNLRI{} case BGP_ATTR_TYPE_EXTENDED_COMMUNITIES: return &PathAttributeExtendedCommunities{} case BGP_ATTR_TYPE_AS4_PATH: return &PathAttributeAs4Path{} case BGP_ATTR_TYPE_AS4_AGGREGATOR: return &PathAttributeAs4Aggregator{} } return &PathAttributeUnknown{} } type NLRInfo struct { IPAddrPrefix } func NewNLRInfo(length uint8, prefix string) *NLRInfo { return &NLRInfo{ IPAddrPrefix: *NewIPAddrPrefix(length, prefix), } } type BGPUpdate struct { WithdrawnRoutesLen uint16 WithdrawnRoutes []WithdrawnRoute TotalPathAttributeLen uint16 PathAttributes []PathAttributeInterface NLRI []NLRInfo } func (msg *BGPUpdate) DecodeFromBytes(data []byte) error { msg.WithdrawnRoutesLen = binary.BigEndian.Uint16(data[0:2]) data = data[2:] for routelen := msg.WithdrawnRoutesLen; routelen > 0; { w := WithdrawnRoute{} w.DecodeFromBytes(data) routelen -= uint16(w.Len()) data = data[w.Len():] msg.WithdrawnRoutes = append(msg.WithdrawnRoutes, w) } msg.TotalPathAttributeLen = binary.BigEndian.Uint16(data[0:2]) data = data[2:] for pathlen := msg.TotalPathAttributeLen; pathlen > 0; { p := getPathAttribute(data) p.DecodeFromBytes(data) pathlen -= uint16(p.Len()) data = data[p.Len():] msg.PathAttributes = append(msg.PathAttributes, p) } for restlen := len(data); restlen > 0; { n := NLRInfo{} n.DecodeFromBytes(data) restlen -= n.Len() data = data[n.Len():] msg.NLRI = append(msg.NLRI, n) } return nil } func (msg *BGPUpdate) Serialize() ([]byte, error) { wbuf := make([]byte, 2) for _, w := range msg.WithdrawnRoutes { onewbuf, err := w.Serialize() if err != nil { return nil, err } wbuf = append(wbuf, onewbuf...) } binary.BigEndian.PutUint16(wbuf, uint16(len(wbuf)-2)) pbuf := make([]byte, 2) for _, p := range msg.PathAttributes { onepbuf, err := p.Serialize() if err != nil { return nil, err } pbuf = append(pbuf, onepbuf...) } binary.BigEndian.PutUint16(pbuf, uint16(len(pbuf)-2)) buf := append(wbuf, pbuf...) for _, n := range msg.NLRI { nbuf, err := n.Serialize() if err != nil { return nil, err } buf = append(buf, nbuf...) } return buf, nil } func NewBGPUpdateMessage(withdrawnRoutes []WithdrawnRoute, pathattrs []PathAttributeInterface, nlri []NLRInfo) *BGPMessage { return &BGPMessage{ Header: BGPHeader{Type: BGP_MSG_UPDATE}, Body: &BGPUpdate{0, withdrawnRoutes, 0, pathattrs, nlri}, } } type BGPNotification struct { ErrorCode uint8 ErrorSubcode uint8 Data []byte } func (msg *BGPNotification) DecodeFromBytes(data []byte) error { if len(data) < 2 { return fmt.Errorf("Not all Notificaiton bytes available") } msg.ErrorCode = data[0] msg.ErrorSubcode = data[1] if len(data) > 2 { msg.Data = data[2:] } return nil } func (msg *BGPNotification) Serialize() ([]byte, error) { buf := make([]byte, 2) buf[0] = msg.ErrorCode buf[1] = msg.ErrorSubcode buf = append(buf, msg.Data...) return buf, nil } func NewBGPNotificationMessage(errcode uint8, errsubcode uint8, data []byte) *BGPMessage { return &BGPMessage{ Header: BGPHeader{Type: BGP_MSG_NOTIFICATION}, Body: &BGPNotification{errcode, errsubcode, data}, } } type BGPKeepAlive struct { } func (msg *BGPKeepAlive) DecodeFromBytes(data []byte) error { return nil } func (msg *BGPKeepAlive) Serialize() ([]byte, error) { return nil, nil } func NewBGPKeepAliveMessage() *BGPMessage { return &BGPMessage{ Header: BGPHeader{Len: 19, Type: BGP_MSG_KEEPALIVE}, Body: &BGPKeepAlive{}, } } type BGPRouteRefresh struct { AFI uint16 Demarcation uint8 SAFI uint8 } func (msg *BGPRouteRefresh) DecodeFromBytes(data []byte) error { if len(data) < 4 { return fmt.Errorf("Not all RouteRefresh bytes available") } msg.AFI = binary.BigEndian.Uint16(data[0:2]) msg.Demarcation = data[2] msg.SAFI = data[3] return nil } func (msg *BGPRouteRefresh) Serialize() ([]byte, error) { buf := make([]byte, 4) binary.BigEndian.PutUint16(buf[0:2], msg.AFI) buf[2] = msg.Demarcation buf[3] = msg.SAFI return buf, nil } func NewBGPRouteRefreshMessage(afi uint16, demarcation uint8, safi uint8) *BGPMessage { return &BGPMessage{ Header: BGPHeader{Type: BGP_MSG_ROUTE_REFRESH}, Body: &BGPRouteRefresh{afi, demarcation, safi}, } } type BGPBody interface { DecodeFromBytes([]byte) error Serialize() ([]byte, error) } const ( BGP_HEADER_LENGTH = 19 ) type BGPHeader struct { Marker []byte Len uint16 Type uint8 } func (msg *BGPHeader) DecodeFromBytes(data []byte) error { // minimum BGP message length if uint16(len(data)) < 19 { return fmt.Errorf("Not all BGP message header") } msg.Len = binary.BigEndian.Uint16(data[16:18]) msg.Type = data[18] return nil } func (msg *BGPHeader) Serialize() ([]byte, error) { buf := make([]byte, 19) for i, _ := range buf[:16] { buf[i] = 0xff } binary.BigEndian.PutUint16(buf[16:18], msg.Len) buf[18] = msg.Type return buf, nil } type BGPMessage struct { Header BGPHeader Body BGPBody } func parseBody(h *BGPHeader, data []byte) (*BGPMessage, error) { if len(data) < int(h.Len)-BGP_HEADER_LENGTH { return nil, fmt.Errorf("Not all BGP message bytes available") } msg := &BGPMessage{Header: *h} switch msg.Header.Type { case BGP_MSG_OPEN: msg.Body = &BGPOpen{} case BGP_MSG_UPDATE: msg.Body = &BGPUpdate{} case BGP_MSG_NOTIFICATION: msg.Body = &BGPNotification{} case BGP_MSG_KEEPALIVE: msg.Body = &BGPKeepAlive{} case BGP_MSG_ROUTE_REFRESH: msg.Body = &BGPRouteRefresh{} } err := msg.Body.DecodeFromBytes(data) if err != nil { return nil, err } return msg, nil } func ParseBGPMessage(data []byte) (*BGPMessage, error) { h := &BGPHeader{} err := h.DecodeFromBytes(data) if err != nil { return nil, err } return parseBody(h, data[19:h.Len]) } func ParseBGPBody(h *BGPHeader, data []byte) (*BGPMessage, error) { return parseBody(h, data) } func (msg *BGPMessage) Serialize() ([]byte, error) { b, err := msg.Body.Serialize() if err != nil { return nil, err } if msg.Header.Len == 0 { msg.Header.Len = 19 + uint16(len(b)) } h, err := msg.Header.Serialize() if err != nil { return nil, err } return append(h, b...), nil } // BMP type BMPHeader struct { Version uint8 Length uint32 Type uint8 } const ( BMP_HEADER_SIZE = 6 ) func (msg *BMPHeader) DecodeFromBytes(data []byte) error { msg.Version = data[0] if data[0] != 3 { return fmt.Errorf("error version") } msg.Length = binary.BigEndian.Uint32(data[1:5]) msg.Type = data[5] return nil } func (msg *BMPHeader) Len() int { return int(msg.Length) } type BMPPeerHeader struct { PeerType uint8 IsPostPolicy bool PeerDistinguisher uint64 PeerAddress net.IP PeerAS uint32 PeerBGPID net.IP Timestamp float64 flags uint8 } func (msg *BMPPeerHeader) DecodeFromBytes(data []byte) error { data = data[6:] msg.PeerType = data[0] flags := data[1] msg.flags = flags if flags&1<<6 == 1 { msg.IsPostPolicy = true } else { msg.IsPostPolicy = false } msg.PeerDistinguisher = binary.BigEndian.Uint64(data[2:10]) if flags&1<<7 == 1 { msg.PeerAddress = data[10:26] } else { msg.PeerAddress = data[10:14] } msg.PeerAS = binary.BigEndian.Uint32(data[26:30]) msg.PeerBGPID = data[30:34] timestamp1 := binary.BigEndian.Uint32(data[34:38]) timestamp2 := binary.BigEndian.Uint32(data[38:42]) msg.Timestamp = float64(timestamp1) + float64(timestamp2)*math.Pow(10, -6) return nil } type BMPRouteMonitoring struct { BGPUpdate *BGPMessage } func (body *BMPRouteMonitoring) ParseBody(msg *BMPMessage, data []byte) error { update, err := ParseBGPMessage(data) if err != nil { return err } body.BGPUpdate = update return nil } const ( BMP_STAT_TYPE_REJECTED = iota BMP_STAT_TYPE_DUPLICATE_PREFIX BMP_STAT_TYPE_DUPLICATE_WITHDRAW BMP_STAT_TYPE_INV_UPDATE_DUE_TO_CLUSTER_LIST_LOOP BMP_STAT_TYPE_INV_UPDATE_DUE_TO_AS_PATH_LOOP BMP_STAT_TYPE_INV_UPDATE_DUE_TO_ORIGINATOR_ID BMP_STAT_TYPE_INV_UPDATE_DUE_TO_AS_CONFED_LOOP BMP_STAT_TYPE_ADJ_RIB_IN BMP_STAT_TYPE_LOC_RIB ) type BMPStatsTLV struct { Type uint16 Length uint16 Value uint64 } type BMPStatisticsReport struct { Stats []BMPStatsTLV } const ( BMP_PEER_DOWN_REASON_UNKNOWN = iota BMP_PEER_DOWN_REASON_LOCAL_BGP_NOTIFICATION BMP_PEER_DOWN_REASON_LOCAL_NO_NOTIFICATION BMP_PEER_DOWN_REASON_REMOTE_BGP_NOTIFICATION BMP_PEER_DOWN_REASON_REMOTE_NO_NOTIFICATION ) type BMPPeerDownNotification struct { Reason uint8 BGPNotification *BGPMessage Data []byte } func (body *BMPPeerDownNotification) ParseBody(msg *BMPMessage, data []byte) error { body.Reason = data[0] data = data[1:] if body.Reason == BMP_PEER_DOWN_REASON_LOCAL_BGP_NOTIFICATION || body.Reason == BMP_PEER_DOWN_REASON_REMOTE_BGP_NOTIFICATION { notification, err := ParseBGPMessage(data) if err != nil { return err } body.BGPNotification = notification } else { body.Data = data } return nil } type BMPPeerUpNotification struct { LocalAddress net.IP LocalPort uint16 RemotePort uint16 SentOpenMsg *BGPMessage ReceivedOpenMsg *BGPMessage } func (body *BMPPeerUpNotification) ParseBody(msg *BMPMessage, data []byte) error { if msg.PeerHeader.flags&1<<7 == 1 { body.LocalAddress = data[:16] } else { body.LocalAddress = data[:4] } body.LocalPort = binary.BigEndian.Uint16(data[16:18]) body.RemotePort = binary.BigEndian.Uint16(data[18:20]) data = data[20:] sentopen, err := ParseBGPMessage(data) if err != nil { return err } body.SentOpenMsg = sentopen data = data[body.SentOpenMsg.Header.Len:] body.ReceivedOpenMsg, err = ParseBGPMessage(data) if err != nil { return err } return nil } func (body *BMPStatisticsReport) ParseBody(msg *BMPMessage, data []byte) error { _ = binary.BigEndian.Uint32(data[0:4]) data = data[4:] for len(data) >= 4 { s := BMPStatsTLV{} s.Type = binary.BigEndian.Uint16(data[0:2]) s.Length = binary.BigEndian.Uint16(data[2:4]) if s.Type == BMP_STAT_TYPE_ADJ_RIB_IN || s.Type == BMP_STAT_TYPE_LOC_RIB { s.Value = binary.BigEndian.Uint64(data[4:12]) } else { s.Value = uint64(binary.BigEndian.Uint32(data[4:8])) } body.Stats = append(body.Stats, s) data = data[4+s.Length:] } return nil } type BMPTLV struct { Type uint16 Length uint16 Value []byte } type BMPInitiation struct { Info []BMPTLV } func (body *BMPInitiation) ParseBody(msg *BMPMessage, data []byte) error { for len(data) >= 4 { tlv := BMPTLV{} tlv.Type = binary.BigEndian.Uint16(data[0:2]) tlv.Length = binary.BigEndian.Uint16(data[2:4]) tlv.Value = data[4 : 4+tlv.Length] body.Info = append(body.Info, tlv) data = data[4+tlv.Length:] } return nil } type BMPTermination struct { Info []BMPTLV } func (body *BMPTermination) ParseBody(msg *BMPMessage, data []byte) error { for len(data) >= 4 { tlv := BMPTLV{} tlv.Type = binary.BigEndian.Uint16(data[0:2]) tlv.Length = binary.BigEndian.Uint16(data[2:4]) tlv.Value = data[4 : 4+tlv.Length] body.Info = append(body.Info, tlv) data = data[4+tlv.Length:] } return nil } type BMPBody interface { ParseBody(*BMPMessage, []byte) error } type BMPMessage struct { Header BMPHeader PeerHeader BMPPeerHeader Body BMPBody } func (msg *BMPMessage) Len() int { return int(msg.Header.Length) } const ( BMP_MSG_ROUTE_MONITORING = iota BMP_MSG_STATISTICS_REPORT BMP_MSG_PEER_DOWN_NOTIFICATION BMP_MSG_PEER_UP_NOTIFICATION BMP_MSG_INITIATION BMP_MSG_TERMINATION ) // move somewhere else func ReadBMPMessage(conn net.Conn) (*BMPMessage, error) { buf := make([]byte, BMP_HEADER_SIZE) for offset := 0; offset < BMP_HEADER_SIZE; { rlen, err := conn.Read(buf[offset:]) if err != nil { return nil, err } offset += rlen } h := BMPHeader{} err := h.DecodeFromBytes(buf) if err != nil { return nil, err } data := make([]byte, h.Len()) copy(data, buf) data = data[BMP_HEADER_SIZE:] for offset := 0; offset < h.Len()-BMP_HEADER_SIZE; { rlen, err := conn.Read(data[offset:]) if err != nil { return nil, err } offset += rlen } msg := &BMPMessage{Header: h} switch msg.Header.Type { case BMP_MSG_ROUTE_MONITORING: msg.Body = &BMPRouteMonitoring{} case BMP_MSG_STATISTICS_REPORT: msg.Body = &BMPStatisticsReport{} case BMP_MSG_PEER_DOWN_NOTIFICATION: msg.Body = &BMPPeerDownNotification{} case BMP_MSG_PEER_UP_NOTIFICATION: msg.Body = &BMPPeerUpNotification{} case BMP_MSG_INITIATION: msg.Body = &BMPInitiation{} case BMP_MSG_TERMINATION: msg.Body = &BMPTermination{} } if msg.Header.Type != BMP_MSG_INITIATION && msg.Header.Type != BMP_MSG_INITIATION { msg.PeerHeader.DecodeFromBytes(data) data = data[42:] } err = msg.Body.ParseBody(msg, data) if err != nil { return nil, err } return msg, nil } func ParseBMPMessage(data []byte) (*BMPMessage, error) { msg := &BMPMessage{} msg.Header.DecodeFromBytes(data) data = data[6:msg.Header.Length] switch msg.Header.Type { case BMP_MSG_ROUTE_MONITORING: msg.Body = &BMPRouteMonitoring{} case BMP_MSG_STATISTICS_REPORT: msg.Body = &BMPStatisticsReport{} case BMP_MSG_PEER_DOWN_NOTIFICATION: msg.Body = &BMPPeerDownNotification{} case BMP_MSG_PEER_UP_NOTIFICATION: msg.Body = &BMPPeerUpNotification{} case BMP_MSG_INITIATION: msg.Body = &BMPInitiation{} case BMP_MSG_TERMINATION: msg.Body = &BMPTermination{} } if msg.Header.Type != BMP_MSG_INITIATION && msg.Header.Type != BMP_MSG_INITIATION { msg.PeerHeader.DecodeFromBytes(data) data = data[42:] } err := msg.Body.ParseBody(msg, data) if err != nil { return nil, err } return msg, nil }