// 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 table import ( "encoding/json" "fmt" log "github.com/Sirupsen/logrus" "github.com/osrg/gobgp/api" "github.com/osrg/gobgp/config" "github.com/osrg/gobgp/packet" "net" "reflect" "time" ) type Path interface { String() string getPathAttrs() []bgp.PathAttributeInterface getPathAttr(bgp.BGPAttrType) (int, bgp.PathAttributeInterface) updatePathAttrs(global *config.Global, peer *config.Neighbor) GetRouteFamily() bgp.RouteFamily GetAsPathLen() int GetAsList() []uint32 GetAsSeqList() []uint32 GetCommunities() []uint32 SetCommunities([]uint32, bool) RemoveCommunities([]uint32) int ClearCommunities() setSource(source *PeerInfo) GetSource() *PeerInfo GetSourceAs() uint32 GetNexthop() net.IP SetNexthop(net.IP) setWithdraw(withdraw bool) IsWithdraw() bool GetNlri() bgp.AddrPrefixInterface getPrefix() string setMedSetByTargetNeighbor(medSetByTargetNeighbor bool) getMedSetByTargetNeighbor() bool Clone(IsWithdraw bool) Path getTimestamp() time.Time setTimestamp(t time.Time) ToApiStruct() *api.Path MarshalJSON() ([]byte, error) } type PathDefault struct { routeFamily bgp.RouteFamily source *PeerInfo withdraw bool nlri bgp.AddrPrefixInterface pathAttrs []bgp.PathAttributeInterface medSetByTargetNeighbor bool timestamp time.Time } func NewPathDefault(rf bgp.RouteFamily, source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, pattrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *PathDefault { if !isWithdraw && pattrs == nil { log.WithFields(log.Fields{ "Topic": "Table", "Key": nlri.String(), "Peer": source.Address.String(), }).Error("Need to provide patattrs for the path that is not withdraw.") return nil } path := &PathDefault{} path.routeFamily = rf path.pathAttrs = pattrs path.nlri = nlri path.source = source path.withdraw = isWithdraw path.medSetByTargetNeighbor = medSetByTargetNeighbor path.timestamp = now return path } func cloneAsPath(asAttr *bgp.PathAttributeAsPath) *bgp.PathAttributeAsPath { newASparams := make([]bgp.AsPathParamInterface, len(asAttr.Value)) for i, param := range asAttr.Value { asParam := param.(*bgp.As4PathParam) as := make([]uint32, len(asParam.AS)) copy(as, asParam.AS) newASparams[i] = bgp.NewAs4PathParam(asParam.Type, as) } return bgp.NewPathAttributeAsPath(newASparams) } func (pd *PathDefault) updatePathAttrs(global *config.Global, peer *config.Neighbor) { if peer.RouteServer.RouteServerClient { return } if peer.PeerType == config.PEER_TYPE_EXTERNAL { // NEXTHOP handling pd.SetNexthop(peer.LocalAddress) // AS_PATH handling // // When a given BGP speaker advertises the route to an external // peer, the advertising speaker updates the AS_PATH attribute // as follows: // 1) if the first path segment of the AS_PATH is of type // AS_SEQUENCE, the local system prepends its own AS num as // the last element of the sequence (put it in the left-most // position with respect to the position of octets in the // protocol message). If the act of prepending will cause an // overflow in the AS_PATH segment (i.e., more than 255 // ASes), it SHOULD prepend a new segment of type AS_SEQUENCE // and prepend its own AS number to this new segment. // // 2) if the first path segment of the AS_PATH is of type AS_SET // , the local system prepends a new path segment of type // AS_SEQUENCE to the AS_PATH, including its own AS number in // that segment. // // 3) if the AS_PATH is empty, the local system creates a path // segment of type AS_SEQUENCE, places its own AS into that // segment, and places that segment into the AS_PATH. idx, originalAsPath := pd.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH) if idx < 0 { log.Fatal("missing AS_PATH mandatory attribute") } asPath := cloneAsPath(originalAsPath.(*bgp.PathAttributeAsPath)) pd.pathAttrs[idx] = asPath fst := asPath.Value[0].(*bgp.As4PathParam) if len(asPath.Value) > 0 && fst.Type == bgp.BGP_ASPATH_ATTR_TYPE_SEQ && fst.ASLen() < 255 { fst.AS = append([]uint32{global.As}, fst.AS...) fst.Num += 1 } else { p := bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{global.As}) asPath.Value = append([]bgp.AsPathParamInterface{p}, asPath.Value...) } // MED Handling idx, _ = pd.getPathAttr(bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC) if idx >= 0 { pd.pathAttrs = append(pd.pathAttrs[:idx], pd.pathAttrs[idx+1:]...) } } else if peer.PeerType == config.PEER_TYPE_INTERNAL { // For iBGP peers we are required to send local-pref attribute // for connected or local prefixes. // We set default local-pref 100. p := bgp.NewPathAttributeLocalPref(100) idx, _ := pd.getPathAttr(bgp.BGP_ATTR_TYPE_LOCAL_PREF) if idx < 0 { pd.pathAttrs = append(pd.pathAttrs, p) } else { pd.pathAttrs[idx] = p } } else { log.WithFields(log.Fields{ "Topic": "Peer", "Key": peer.NeighborAddress, }).Warnf("invalid peer type: %d", peer.PeerType) } } func (pd *PathDefault) getTimestamp() time.Time { return pd.timestamp } func (pd *PathDefault) setTimestamp(t time.Time) { pd.timestamp = t } func (pd *PathDefault) ToApiStruct() *api.Path { pathAttrs := func(arg []bgp.PathAttributeInterface) []*api.PathAttr { ret := make([]*api.PathAttr, 0, len(arg)) for _, a := range arg { ret = append(ret, a.ToApiStruct()) } return ret }(pd.getPathAttrs()) return &api.Path{ Nlri: pd.GetNlri().ToApiStruct(), Nexthop: pd.GetNexthop().String(), Attrs: pathAttrs, Age: int64(time.Now().Sub(pd.timestamp).Seconds()), IsWithdraw: pd.IsWithdraw(), } } func (pd *PathDefault) MarshalJSON() ([]byte, error) { return json.Marshal(pd.ToApiStruct()) } // create new PathAttributes func (pd *PathDefault) Clone(isWithdraw bool) Path { nlri := pd.nlri if pd.GetRouteFamily() == bgp.RF_IPv4_UC && isWithdraw { if pd.IsWithdraw() { nlri = pd.nlri } else { nlri = &bgp.WithdrawnRoute{pd.nlri.(*bgp.NLRInfo).IPAddrPrefix} } } newPathAttrs := make([]bgp.PathAttributeInterface, len(pd.pathAttrs)) for i, v := range pd.pathAttrs { newPathAttrs[i] = v } path, _ := CreatePath(pd.source, nlri, newPathAttrs, isWithdraw, pd.timestamp) return path } func (pd *PathDefault) GetRouteFamily() bgp.RouteFamily { return pd.routeFamily } func (pd *PathDefault) setSource(source *PeerInfo) { pd.source = source } func (pd *PathDefault) GetSource() *PeerInfo { return pd.source } func (pd *PathDefault) GetSourceAs() uint32 { _, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH) if attr != nil { asPathParam := attr.(*bgp.PathAttributeAsPath).Value if len(asPathParam) == 0 { return 0 } asPath := asPathParam[len(asPathParam)-1].(*bgp.As4PathParam) if asPath.Num == 0 { return 0 } return asPath.AS[asPath.Num-1] } return 0 } func (pd *PathDefault) GetNexthop() net.IP { _, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_NEXT_HOP) if attr != nil { return attr.(*bgp.PathAttributeNextHop).Value } _, attr = pd.getPathAttr(bgp.BGP_ATTR_TYPE_MP_REACH_NLRI) if attr != nil { return attr.(*bgp.PathAttributeMpReachNLRI).Nexthop } return net.IP{} } func (pd *PathDefault) SetNexthop(nexthop net.IP) { idx, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_NEXT_HOP) if attr != nil { newNexthop := bgp.NewPathAttributeNextHop(nexthop.String()) pd.pathAttrs[idx] = newNexthop } idx, attr = pd.getPathAttr(bgp.BGP_ATTR_TYPE_MP_REACH_NLRI) if attr != nil { oldNlri := attr.(*bgp.PathAttributeMpReachNLRI) newNlri := bgp.NewPathAttributeMpReachNLRI(nexthop.String(), oldNlri.Value) pd.pathAttrs[idx] = newNlri } } func (pd *PathDefault) setWithdraw(withdraw bool) { pd.withdraw = withdraw } func (pd *PathDefault) IsWithdraw() bool { return pd.withdraw } func (pd *PathDefault) GetNlri() bgp.AddrPrefixInterface { return pd.nlri } func (pd *PathDefault) setMedSetByTargetNeighbor(medSetByTargetNeighbor bool) { pd.medSetByTargetNeighbor = medSetByTargetNeighbor } func (pd *PathDefault) getMedSetByTargetNeighbor() bool { return pd.medSetByTargetNeighbor } func (pd *PathDefault) getPathAttrs() []bgp.PathAttributeInterface { return pd.pathAttrs } func (pd *PathDefault) getPathAttr(pattrType bgp.BGPAttrType) (int, bgp.PathAttributeInterface) { attrMap := [bgp.BGP_ATTR_TYPE_AS4_AGGREGATOR + 1]reflect.Type{} attrMap[bgp.BGP_ATTR_TYPE_ORIGIN] = reflect.TypeOf(&bgp.PathAttributeOrigin{}) attrMap[bgp.BGP_ATTR_TYPE_AS_PATH] = reflect.TypeOf(&bgp.PathAttributeAsPath{}) attrMap[bgp.BGP_ATTR_TYPE_NEXT_HOP] = reflect.TypeOf(&bgp.PathAttributeNextHop{}) attrMap[bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC] = reflect.TypeOf(&bgp.PathAttributeMultiExitDisc{}) attrMap[bgp.BGP_ATTR_TYPE_LOCAL_PREF] = reflect.TypeOf(&bgp.PathAttributeLocalPref{}) attrMap[bgp.BGP_ATTR_TYPE_ATOMIC_AGGREGATE] = reflect.TypeOf(&bgp.PathAttributeAtomicAggregate{}) attrMap[bgp.BGP_ATTR_TYPE_AGGREGATOR] = reflect.TypeOf(&bgp.PathAttributeAggregator{}) attrMap[bgp.BGP_ATTR_TYPE_COMMUNITIES] = reflect.TypeOf(&bgp.PathAttributeCommunities{}) attrMap[bgp.BGP_ATTR_TYPE_ORIGINATOR_ID] = reflect.TypeOf(&bgp.PathAttributeOriginatorId{}) attrMap[bgp.BGP_ATTR_TYPE_CLUSTER_LIST] = reflect.TypeOf(&bgp.PathAttributeClusterList{}) attrMap[bgp.BGP_ATTR_TYPE_MP_REACH_NLRI] = reflect.TypeOf(&bgp.PathAttributeMpReachNLRI{}) attrMap[bgp.BGP_ATTR_TYPE_MP_UNREACH_NLRI] = reflect.TypeOf(&bgp.PathAttributeMpUnreachNLRI{}) attrMap[bgp.BGP_ATTR_TYPE_EXTENDED_COMMUNITIES] = reflect.TypeOf(&bgp.PathAttributeExtendedCommunities{}) attrMap[bgp.BGP_ATTR_TYPE_AS4_PATH] = reflect.TypeOf(&bgp.PathAttributeAs4Path{}) attrMap[bgp.BGP_ATTR_TYPE_AS4_AGGREGATOR] = reflect.TypeOf(&bgp.PathAttributeAs4Aggregator{}) t := attrMap[pattrType] for i, p := range pd.pathAttrs { if t == reflect.TypeOf(p) { return i, p } } return -1, nil } // return Path's string representation func (pi *PathDefault) String() string { str := fmt.Sprintf("IPv4Path Source: %v, ", pi.GetSource()) str = str + fmt.Sprintf(" NLRI: %s, ", pi.getPrefix()) str = str + fmt.Sprintf(" nexthop: %s, ", pi.GetNexthop().String()) str = str + fmt.Sprintf(" withdraw: %s, ", pi.IsWithdraw()) //str = str + fmt.Sprintf(" path attributes: %s, ", pi.getPathAttributeMap()) return str } func (pi *PathDefault) getPrefix() string { return pi.nlri.String() } // GetAsPathLen returns the number of AS_PATH func (pd *PathDefault) GetAsPathLen() int { var length int = 0 if _, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH); attr != nil { aspath := attr.(*bgp.PathAttributeAsPath) for _, paramIf := range aspath.Value { segment := paramIf.(*bgp.As4PathParam) length += segment.ASLen() } } return length } func (pd *PathDefault) GetAsList() []uint32 { return pd.getAsListofSpecificType(true, true) } func (pd *PathDefault) GetAsSeqList() []uint32 { return pd.getAsListofSpecificType(true, false) } func (pd *PathDefault) getAsListofSpecificType(getAsSeq, getAsSet bool) []uint32 { asList := []uint32{} if _, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH); attr != nil { aspath := attr.(*bgp.PathAttributeAsPath) for _, paramIf := range aspath.Value { segment := paramIf.(*bgp.As4PathParam) if getAsSeq && segment.Type == bgp.BGP_ASPATH_ATTR_TYPE_SEQ { asList = append(asList, segment.AS...) continue } if getAsSet && segment.Type == bgp.BGP_ASPATH_ATTR_TYPE_SET { asList = append(asList, segment.AS...) } } } return asList } func (pd *PathDefault) GetCommunities() []uint32 { communityList := []uint32{} if _, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_COMMUNITIES); attr != nil { communities := attr.(*bgp.PathAttributeCommunities) communityList = append(communityList, communities.Value...) } return communityList } // SetCommunities adds or replaces communities with new ones. // If the length of communites is 0, it does nothing. func (pd *PathDefault) SetCommunities(communities []uint32, doReplace bool) { if len(communities) == 0 { // do nothing return } newList := make([]uint32, 0) idx, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_COMMUNITIES) if attr != nil { c := attr.(*bgp.PathAttributeCommunities) if doReplace { newList = append(newList, communities...) } else { newList = append(newList, c.Value...) newList = append(newList, communities...) } newCommunities := bgp.NewPathAttributeCommunities(newList) pd.pathAttrs[idx] = newCommunities } else { newList = append(newList, communities...) newCommunities := bgp.NewPathAttributeCommunities(newList) pd.pathAttrs = append(pd.pathAttrs, newCommunities) } } // RemoveCommunities removes specific communities. // If the length of communites is 0, it does nothing. // If all communities are removed, it removes Communities path attribute itself. func (pd *PathDefault) RemoveCommunities(communities []uint32) int { if len(communities) == 0 { // do nothing return 0 } find := func(val uint32) bool { for _, com := range communities { if com == val { return true } } return false } count := 0 idx, attr := pd.getPathAttr(bgp.BGP_ATTR_TYPE_COMMUNITIES) if attr != nil { newList := make([]uint32, 0) c := attr.(*bgp.PathAttributeCommunities) for _, value := range c.Value { if find(value) { count += 1 } else { newList = append(newList, value) } } if len(newList) != 0 { newCommunities := bgp.NewPathAttributeCommunities(newList) pd.pathAttrs[idx] = newCommunities } else { pd.pathAttrs = append(pd.pathAttrs[:idx], pd.pathAttrs[idx+1:]...) } } return count } // ClearCommunities removes Communities path attribute. func (pd *PathDefault) ClearCommunities() { idx, _ := pd.getPathAttr(bgp.BGP_ATTR_TYPE_COMMUNITIES) if idx >= 0 { pd.pathAttrs = append(pd.pathAttrs[:idx], pd.pathAttrs[idx+1:]...) } } // create Path object based on route family func CreatePath(source *PeerInfo, nlri bgp.AddrPrefixInterface, attrs []bgp.PathAttributeInterface, isWithdraw bool, now time.Time) (Path, error) { rf := bgp.RouteFamily(int(nlri.AFI())<<16 | int(nlri.SAFI())) log.Debugf("CreatePath afi: %d, safi: %d ", int(nlri.AFI()), nlri.SAFI()) var path Path switch rf { case bgp.RF_IPv4_UC: log.Debugf("CreatePath RouteFamily : %s", bgp.RF_IPv4_UC.String()) path = NewIPv4Path(source, nlri, isWithdraw, attrs, false, now) case bgp.RF_IPv6_UC: log.Debugf("CreatePath RouteFamily : %s", bgp.RF_IPv6_UC.String()) path = NewIPv6Path(source, nlri, isWithdraw, attrs, false, now) case bgp.RF_IPv4_VPN: log.Debugf("CreatePath RouteFamily : %s", bgp.RF_IPv4_VPN.String()) path = NewIPv4VPNPath(source, nlri, isWithdraw, attrs, false, now) case bgp.RF_EVPN: log.Debugf("CreatePath RouteFamily : %s", bgp.RF_EVPN.String()) path = NewEVPNPath(source, nlri, isWithdraw, attrs, false, now) case bgp.RF_ENCAP: log.Debugf("CreatePath RouteFamily : %s", bgp.RF_ENCAP.String()) path = NewEncapPath(source, nlri, isWithdraw, attrs, false, now) case bgp.RF_RTC_UC: log.Debugf("CreatePath RouteFamily : %s", bgp.RF_RTC_UC) path = NewRouteTargetPath(source, nlri, isWithdraw, attrs, false, now) default: return path, fmt.Errorf("Unsupported RouteFamily: %s", rf) } return path, nil } /* * Definition of inherited Path interface */ type IPv4Path struct { *PathDefault } func NewIPv4Path(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, attrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *IPv4Path { ipv4Path := &IPv4Path{} ipv4Path.PathDefault = NewPathDefault(bgp.RF_IPv4_UC, source, nlri, isWithdraw, attrs, medSetByTargetNeighbor, now) return ipv4Path } func (ipv4p *IPv4Path) setPathDefault(pd *PathDefault) { ipv4p.PathDefault = pd } func (ipv4p *IPv4Path) getPathDefault() *PathDefault { return ipv4p.PathDefault } type IPv6Path struct { *PathDefault } func NewIPv6Path(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, attrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *IPv6Path { ipv6Path := &IPv6Path{} ipv6Path.PathDefault = NewPathDefault(bgp.RF_IPv6_UC, source, nlri, isWithdraw, attrs, medSetByTargetNeighbor, now) return ipv6Path } func (ipv6p *IPv6Path) setPathDefault(pd *PathDefault) { ipv6p.PathDefault = pd } func (ipv6p *IPv6Path) getPathDefault() *PathDefault { return ipv6p.PathDefault } // return IPv6Path's string representation func (ipv6p *IPv6Path) String() string { str := fmt.Sprintf("IPv6Path Source: %v, ", ipv6p.GetSource()) str = str + fmt.Sprintf(" NLRI: %s, ", ipv6p.getPrefix()) str = str + fmt.Sprintf(" nexthop: %s, ", ipv6p.GetNexthop().String()) str = str + fmt.Sprintf(" withdraw: %s, ", ipv6p.IsWithdraw()) //str = str + fmt.Sprintf(" path attributes: %s, ", ipv6p.getPathAttributeMap()) return str } type IPv4VPNPath struct { *PathDefault } func NewIPv4VPNPath(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, attrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *IPv4VPNPath { ipv4VPNPath := &IPv4VPNPath{} ipv4VPNPath.PathDefault = NewPathDefault(bgp.RF_IPv4_VPN, source, nlri, isWithdraw, attrs, medSetByTargetNeighbor, now) return ipv4VPNPath } func (ipv4vpnp *IPv4VPNPath) setPathDefault(pd *PathDefault) { ipv4vpnp.PathDefault = pd } func (ipv4vpnp *IPv4VPNPath) getPathDefault() *PathDefault { return ipv4vpnp.PathDefault } // return IPv4VPNPath's string representation func (ipv4vpnp *IPv4VPNPath) String() string { str := fmt.Sprintf("IPv4VPNPath Source: %v, ", ipv4vpnp.GetSource()) str = str + fmt.Sprintf(" NLRI: %s, ", ipv4vpnp.getPrefix()) str = str + fmt.Sprintf(" nexthop: %s, ", ipv4vpnp.GetNexthop().String()) str = str + fmt.Sprintf(" withdraw: %s, ", ipv4vpnp.IsWithdraw()) //str = str + fmt.Sprintf(" path attributes: %s, ", ipv4vpnp.getPathAttributeMap()) return str } func (ipv4vpnp *IPv4VPNPath) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Network string Nexthop string Attrs []bgp.PathAttributeInterface Age int64 }{ Network: ipv4vpnp.getPrefix(), Nexthop: ipv4vpnp.PathDefault.GetNexthop().String(), Attrs: ipv4vpnp.PathDefault.getPathAttrs(), Age: int64(time.Now().Sub(ipv4vpnp.PathDefault.timestamp).Seconds()), }) } type EVPNPath struct { *PathDefault } func NewEVPNPath(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, attrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *EVPNPath { EVPNPath := &EVPNPath{} EVPNPath.PathDefault = NewPathDefault(bgp.RF_EVPN, source, nlri, isWithdraw, attrs, medSetByTargetNeighbor, now) return EVPNPath } func (evpnp *EVPNPath) setPathDefault(pd *PathDefault) { evpnp.PathDefault = pd } func (evpnp *EVPNPath) getPathDefault() *PathDefault { return evpnp.PathDefault } // return EVPNPath's string representation func (evpnp *EVPNPath) String() string { str := fmt.Sprintf("EVPNPath Source: %v, ", evpnp.GetSource()) str = str + fmt.Sprintf(" NLRI: %s, ", evpnp.getPrefix()) str = str + fmt.Sprintf(" nexthop: %s, ", evpnp.GetNexthop().String()) str = str + fmt.Sprintf(" withdraw: %s, ", evpnp.IsWithdraw()) //str = str + fmt.Sprintf(" path attributes: %s, ", evpnp.getPathAttributeMap()) return str } func (evpnp *EVPNPath) MarshalJSON() ([]byte, error) { return json.Marshal(struct { Network string Nexthop string Attrs []bgp.PathAttributeInterface Age int64 }{ Network: evpnp.getPrefix(), Nexthop: evpnp.PathDefault.GetNexthop().String(), Attrs: evpnp.PathDefault.getPathAttrs(), Age: int64(time.Now().Sub(evpnp.PathDefault.timestamp).Seconds()), }) } type EncapPath struct { *PathDefault } func NewEncapPath(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, attrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *EncapPath { return &EncapPath{ PathDefault: NewPathDefault(bgp.RF_ENCAP, source, nlri, isWithdraw, attrs, medSetByTargetNeighbor, now), } } func (p *EncapPath) setPathDefault(pd *PathDefault) { p.PathDefault = pd } func (p *EncapPath) getPathDefault() *PathDefault { return p.PathDefault } type RouteTargetPath struct { *PathDefault } func NewRouteTargetPath(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, attrs []bgp.PathAttributeInterface, medSetByTargetNeighbor bool, now time.Time) *RouteTargetPath { return &RouteTargetPath{ PathDefault: NewPathDefault(bgp.RF_RTC_UC, source, nlri, isWithdraw, attrs, medSetByTargetNeighbor, now), } } func (p *RouteTargetPath) setPathDefault(pd *PathDefault) { p.PathDefault = pd } func (p *RouteTargetPath) getPathDefault() *PathDefault { return p.PathDefault }