// 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 ( "bytes" "fmt" log "github.com/Sirupsen/logrus" api "github.com/osrg/gobgp/api" "github.com/osrg/gobgp/config" "github.com/osrg/gobgp/packet/bgp" "math" "net" "sort" "time" ) const ( DEFAULT_LOCAL_PREF = 100 ) type Bitmap []uint64 func (b Bitmap) Flag(i uint) { b[i/64] |= 1 << uint(i%64) } func (b Bitmap) Unflag(i uint) { b[i/64] &^= 1 << uint(i%64) } func (b Bitmap) GetFlag(i uint) bool { return b[i/64]&(1< 0 } func NewBitmap(size int) Bitmap { return Bitmap(make([]uint64, (size+64-1)/64)) } type originInfo struct { nlri bgp.AddrPrefixInterface source *PeerInfo timestamp time.Time noImplicitWithdraw bool validation config.RpkiValidationResultType isFromExternal bool key string uuid []byte eor bool stale bool } type FlowSpecComponents []bgp.FlowSpecComponentInterface func (c FlowSpecComponents) Len() int { return len(c) } func (c FlowSpecComponents) Swap(i, j int) { c[i], c[j] = c[j], c[i] } func (c FlowSpecComponents) Less(i, j int) bool { return c[i].Type() < c[j].Type() } type Path struct { info *originInfo IsWithdraw bool pathAttrs []bgp.PathAttributeInterface reason BestPathReason parent *Path dels []bgp.BGPAttrType filtered map[string]PolicyDirection } func NewPath(source *PeerInfo, nlri bgp.AddrPrefixInterface, isWithdraw bool, pattrs []bgp.PathAttributeInterface, timestamp time.Time, noImplicitWithdraw bool) *Path { 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 } if nlri != nil && (nlri.SAFI() == bgp.SAFI_FLOW_SPEC_UNICAST || nlri.SAFI() == bgp.SAFI_FLOW_SPEC_VPN) { var coms FlowSpecComponents var f *bgp.FlowSpecNLRI switch nlri.(type) { case *bgp.FlowSpecIPv4Unicast: f = &nlri.(*bgp.FlowSpecIPv4Unicast).FlowSpecNLRI case *bgp.FlowSpecIPv4VPN: f = &nlri.(*bgp.FlowSpecIPv4VPN).FlowSpecNLRI case *bgp.FlowSpecIPv6Unicast: f = &nlri.(*bgp.FlowSpecIPv6Unicast).FlowSpecNLRI case *bgp.FlowSpecIPv6VPN: f = &nlri.(*bgp.FlowSpecIPv6VPN).FlowSpecNLRI } if f != nil { coms = f.Value sort.Sort(coms) } } return &Path{ info: &originInfo{ nlri: nlri, source: source, timestamp: timestamp, noImplicitWithdraw: noImplicitWithdraw, }, IsWithdraw: isWithdraw, pathAttrs: pattrs, filtered: make(map[string]PolicyDirection), } } func NewEOR(family bgp.RouteFamily) *Path { afi, safi := bgp.RouteFamilyToAfiSafi(family) nlri, _ := bgp.NewPrefixFromRouteFamily(afi, safi) return &Path{ info: &originInfo{ nlri: nlri, eor: true, }, filtered: make(map[string]PolicyDirection), } } func (path *Path) IsEOR() bool { if path.info != nil && path.info.eor { return true } return false } 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 (path *Path) UpdatePathAttrs(global *config.Global, peer *config.Neighbor) { for _, a := range path.GetPathAttrs() { if _, y := bgp.PathAttrFlags[a.GetType()]; !y { if a.GetFlags()&bgp.BGP_ATTR_FLAG_TRANSITIVE == 0 { path.delPathAttr(a.GetType()) } } } if peer.RouteServer.Config.RouteServerClient { return } localAddress := net.ParseIP(peer.Transport.State.LocalAddress) isZero := func(ip net.IP) bool { return ip.Equal(net.ParseIP("0.0.0.0")) || ip.Equal(net.ParseIP("::")) } nexthop := path.GetNexthop() if peer.Config.PeerType == config.PEER_TYPE_EXTERNAL { // NEXTHOP handling if !path.IsLocal() || isZero(nexthop) { path.SetNexthop(localAddress) } // AS_PATH handling path.PrependAsn(peer.Config.LocalAs, 1) // MED Handling if med := path.getPathAttr(bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC); med != nil && !path.IsLocal() { path.delPathAttr(bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC) } } else if peer.Config.PeerType == config.PEER_TYPE_INTERNAL { // NEXTHOP handling for iBGP // if the path generated locally set local address as nexthop. // if not, don't modify it. // TODO: NEXT-HOP-SELF support if path.IsLocal() && isZero(nexthop) { path.SetNexthop(localAddress) } // AS_PATH handling for iBGP // if the path has AS_PATH path attribute, don't modify it. // if not, attach *empty* AS_PATH path attribute. if nh := path.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH); nh == nil { path.PrependAsn(0, 0) } // For iBGP peers we are required to send local-pref attribute // for connected or local prefixes. // We set default local-pref 100. if pref := path.getPathAttr(bgp.BGP_ATTR_TYPE_LOCAL_PREF); pref == nil || !path.IsLocal() { path.setPathAttr(bgp.NewPathAttributeLocalPref(DEFAULT_LOCAL_PREF)) } // RFC4456: BGP Route Reflection // 8. Avoiding Routing Information Loops info := path.GetSource() if peer.RouteReflector.Config.RouteReflectorClient { // This attribute will carry the BGP Identifier of the originator of the route in the local AS. // A BGP speaker SHOULD NOT create an ORIGINATOR_ID attribute if one already exists. // // RFC4684 3.2 Intra-AS VPN Route Distribution // When advertising RT membership NLRI to a route-reflector client, // the Originator attribute shall be set to the router-id of the // advertiser, and the Next-hop attribute shall be set of the local // address for that session. if path.GetRouteFamily() == bgp.RF_RTC_UC { path.SetNexthop(localAddress) path.setPathAttr(bgp.NewPathAttributeOriginatorId(info.LocalID.String())) } else if path.getPathAttr(bgp.BGP_ATTR_TYPE_ORIGINATOR_ID) == nil { path.setPathAttr(bgp.NewPathAttributeOriginatorId(info.ID.String())) } // When an RR reflects a route, it MUST prepend the local CLUSTER_ID to the CLUSTER_LIST. // If the CLUSTER_LIST is empty, it MUST create a new one. id := string(peer.RouteReflector.Config.RouteReflectorClusterId) if p := path.getPathAttr(bgp.BGP_ATTR_TYPE_CLUSTER_LIST); p == nil { path.setPathAttr(bgp.NewPathAttributeClusterList([]string{id})) } else { clusterList := p.(*bgp.PathAttributeClusterList) newClusterList := make([]string, 0, len(clusterList.Value)) for _, ip := range clusterList.Value { newClusterList = append(newClusterList, ip.String()) } path.setPathAttr(bgp.NewPathAttributeClusterList(append([]string{id}, newClusterList...))) } } } else { log.WithFields(log.Fields{ "Topic": "Peer", "Key": peer.Config.NeighborAddress, }).Warnf("invalid peer type: %d", peer.Config.PeerType) } } func (path *Path) GetTimestamp() time.Time { return path.OriginInfo().timestamp } func (path *Path) setTimestamp(t time.Time) { path.OriginInfo().timestamp = t } func (path *Path) IsLocal() bool { return path.GetSource().Address == nil } func (path *Path) IsIBGP() bool { return path.GetSource().AS == path.GetSource().LocalAS } func (path *Path) ToApiStruct(id string) *api.Path { nlri := path.GetNlri() n, _ := nlri.Serialize() family := uint32(bgp.AfiSafiToRouteFamily(nlri.AFI(), nlri.SAFI())) pattrs := func(arg []bgp.PathAttributeInterface) [][]byte { ret := make([][]byte, 0, len(arg)) for _, a := range arg { aa, _ := a.Serialize() ret = append(ret, aa) } return ret }(path.GetPathAttrs()) return &api.Path{ Nlri: n, Pattrs: pattrs, Age: path.OriginInfo().timestamp.Unix(), IsWithdraw: path.IsWithdraw, Validation: int32(path.OriginInfo().validation.ToInt()), Filtered: path.Filtered(id) == POLICY_DIRECTION_IN, Family: family, SourceAsn: path.OriginInfo().source.AS, SourceId: path.OriginInfo().source.ID.String(), NeighborIp: path.OriginInfo().source.Address.String(), Stale: path.IsStale(), IsFromExternal: path.OriginInfo().isFromExternal, } } // create new PathAttributes func (path *Path) Clone(isWithdraw bool) *Path { return &Path{ parent: path, IsWithdraw: isWithdraw, filtered: make(map[string]PolicyDirection), } } func (path *Path) root() *Path { p := path for p.parent != nil { p = p.parent } return p } func (path *Path) OriginInfo() *originInfo { return path.root().info } func (path *Path) NoImplicitWithdraw() bool { return path.OriginInfo().noImplicitWithdraw } func (path *Path) Validation() config.RpkiValidationResultType { return path.OriginInfo().validation } func (path *Path) SetValidation(r config.RpkiValidationResultType) { path.OriginInfo().validation = r } func (path *Path) IsFromExternal() bool { return path.OriginInfo().isFromExternal } func (path *Path) SetIsFromExternal(y bool) { path.OriginInfo().isFromExternal = y } func (path *Path) UUID() []byte { return path.OriginInfo().uuid } func (path *Path) SetUUID(uuid []byte) { path.OriginInfo().uuid = uuid } func (path *Path) Filter(id string, reason PolicyDirection) { path.filtered[id] = reason } func (path *Path) Filtered(id string) PolicyDirection { return path.filtered[id] } func (path *Path) GetRouteFamily() bgp.RouteFamily { return bgp.AfiSafiToRouteFamily(path.OriginInfo().nlri.AFI(), path.OriginInfo().nlri.SAFI()) } func (path *Path) setSource(source *PeerInfo) { path.OriginInfo().source = source } func (path *Path) GetSource() *PeerInfo { return path.OriginInfo().source } func (path *Path) MarkStale(s bool) { path.OriginInfo().stale = s } func (path *Path) IsStale() bool { return path.OriginInfo().stale } func (path *Path) GetSourceAs() uint32 { attr := path.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 (path *Path) GetNexthop() net.IP { attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_NEXT_HOP) if attr != nil { return attr.(*bgp.PathAttributeNextHop).Value } attr = path.getPathAttr(bgp.BGP_ATTR_TYPE_MP_REACH_NLRI) if attr != nil { return attr.(*bgp.PathAttributeMpReachNLRI).Nexthop } return net.IP{} } func (path *Path) SetNexthop(nexthop net.IP) { attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_NEXT_HOP) if attr != nil { path.setPathAttr(bgp.NewPathAttributeNextHop(nexthop.String())) } attr = path.getPathAttr(bgp.BGP_ATTR_TYPE_MP_REACH_NLRI) if attr != nil { oldNlri := attr.(*bgp.PathAttributeMpReachNLRI) path.setPathAttr(bgp.NewPathAttributeMpReachNLRI(nexthop.String(), oldNlri.Value)) } } func (path *Path) GetNlri() bgp.AddrPrefixInterface { return path.OriginInfo().nlri } type PathAttrs []bgp.PathAttributeInterface func (a PathAttrs) Len() int { return len(a) } func (a PathAttrs) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a PathAttrs) Less(i, j int) bool { return a[i].GetType() < a[j].GetType() } func (path *Path) GetPathAttrs() []bgp.PathAttributeInterface { deleted := NewBitmap(math.MaxUint8) modified := make(map[uint]bgp.PathAttributeInterface) p := path for { for _, t := range p.dels { deleted.Flag(uint(t)) } if p.parent == nil { list := PathAttrs(make([]bgp.PathAttributeInterface, 0, len(p.pathAttrs))) // we assume that the original pathAttrs are // in order, that is, other bgp speakers send // attributes in order. for _, a := range p.pathAttrs { typ := uint(a.GetType()) if m, ok := modified[typ]; ok { list = append(list, m) delete(modified, typ) } else if !deleted.GetFlag(typ) { list = append(list, a) } } if len(modified) > 0 { // Huh, some attributes were newly // added. So we need to sort... for _, m := range modified { list = append(list, m) } sort.Sort(list) } return list } else { for _, a := range p.pathAttrs { typ := uint(a.GetType()) if _, ok := modified[typ]; !deleted.GetFlag(typ) && !ok { modified[typ] = a } } } p = p.parent } } func (path *Path) getPathAttr(typ bgp.BGPAttrType) bgp.PathAttributeInterface { p := path for { for _, t := range p.dels { if t == typ { return nil } } for _, a := range p.pathAttrs { if a.GetType() == typ { return a } } if p.parent == nil { return nil } p = p.parent } } func (path *Path) setPathAttr(a bgp.PathAttributeInterface) { if len(path.pathAttrs) == 0 { path.pathAttrs = []bgp.PathAttributeInterface{a} } else { for i, b := range path.pathAttrs { if a.GetType() == b.GetType() { path.pathAttrs[i] = a return } } path.pathAttrs = append(path.pathAttrs, a) } } func (path *Path) delPathAttr(typ bgp.BGPAttrType) { if len(path.dels) == 0 { path.dels = []bgp.BGPAttrType{typ} } else { path.dels = append(path.dels, typ) } } // return Path's string representation func (path *Path) String() string { s := bytes.NewBuffer(make([]byte, 0, 64)) if path.IsEOR() { s.WriteString(fmt.Sprintf("{ %s EOR | src: %s }", path.GetRouteFamily(), path.GetSource())) return s.String() } s.WriteString(fmt.Sprintf("{ %s | ", path.getPrefix())) s.WriteString(fmt.Sprintf("src: %s", path.GetSource())) s.WriteString(fmt.Sprintf(", nh: %s", path.GetNexthop())) if path.IsWithdraw { s.WriteString(", withdraw") } s.WriteString(" }") return s.String() } func (path *Path) getPrefix() string { if path.OriginInfo().key == "" { path.OriginInfo().key = path.GetNlri().String() } return path.OriginInfo().key } func (path *Path) GetAsPath() *bgp.PathAttributeAsPath { attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH) if attr != nil { return attr.(*bgp.PathAttributeAsPath) } return nil } // GetAsPathLen returns the number of AS_PATH func (path *Path) GetAsPathLen() int { var length int = 0 if aspath := path.GetAsPath(); aspath != nil { for _, as := range aspath.Value { length += as.ASLen() } } return length } func (path *Path) GetAsString() string { s := bytes.NewBuffer(make([]byte, 0, 64)) if aspath := path.GetAsPath(); aspath != nil { for i, paramIf := range aspath.Value { segment := paramIf.(*bgp.As4PathParam) if i != 0 { s.WriteString(" ") } sep := " " switch segment.Type { case bgp.BGP_ASPATH_ATTR_TYPE_SET, bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET: s.WriteString("{") sep = "," } for j, as := range segment.AS { s.WriteString(fmt.Sprintf("%d", as)) if j != len(segment.AS)-1 { s.WriteString(sep) } } switch segment.Type { case bgp.BGP_ASPATH_ATTR_TYPE_SET, bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET: s.WriteString("}") } } } return s.String() } func (path *Path) GetAsList() []uint32 { return path.getAsListofSpecificType(true, true) } func (path *Path) GetAsSeqList() []uint32 { return path.getAsListofSpecificType(true, false) } func (path *Path) getAsListofSpecificType(getAsSeq, getAsSet bool) []uint32 { asList := []uint32{} if aspath := path.GetAsPath(); aspath != nil { 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...) } else { asList = append(asList, 0) } } } return asList } // PrependAsn prepends AS number. // This function 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 the specified 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) the specified number of times. // 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 other than type // AS_SEQUENCE, the local system prepends a new path segment of type // AS_SEQUENCE to the AS_PATH, including the specified AS number in // that segment. // // 3) if the AS_PATH is empty, the local system creates a path // segment of type AS_SEQUENCE, places the specified AS number // into that segment, and places that segment into the AS_PATH. func (path *Path) PrependAsn(asn uint32, repeat uint8) { original := path.GetAsPath() asns := make([]uint32, repeat) for i, _ := range asns { asns[i] = asn } var asPath *bgp.PathAttributeAsPath if original == nil { asPath = bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{}) } else { asPath = cloneAsPath(original) } if len(asPath.Value) > 0 { fst := asPath.Value[0].(*bgp.As4PathParam) if fst.Type == bgp.BGP_ASPATH_ATTR_TYPE_SEQ { if len(fst.AS)+int(repeat) > 255 { repeat = uint8(255 - len(fst.AS)) } fst.AS = append(asns[:int(repeat)], fst.AS...) fst.Num += repeat asns = asns[int(repeat):] } } if len(asns) > 0 { p := bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, asns) asPath.Value = append([]bgp.AsPathParamInterface{p}, asPath.Value...) } path.setPathAttr(asPath) } func (path *Path) GetCommunities() []uint32 { communityList := []uint32{} if attr := path.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 communities is 0 and doReplace is true, it clears communities. func (path *Path) SetCommunities(communities []uint32, doReplace bool) { if len(communities) == 0 && doReplace { // clear communities path.delPathAttr(bgp.BGP_ATTR_TYPE_COMMUNITIES) return } newList := make([]uint32, 0) attr := path.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...) } } else { newList = append(newList, communities...) } path.setPathAttr(bgp.NewPathAttributeCommunities(newList)) } // 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 (path *Path) 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 attr := path.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 { path.setPathAttr(bgp.NewPathAttributeCommunities(newList)) } else { path.delPathAttr(bgp.BGP_ATTR_TYPE_COMMUNITIES) } } return count } func (path *Path) GetExtCommunities() []bgp.ExtendedCommunityInterface { eCommunityList := make([]bgp.ExtendedCommunityInterface, 0) if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_EXTENDED_COMMUNITIES); attr != nil { eCommunities := attr.(*bgp.PathAttributeExtendedCommunities).Value for _, eCommunity := range eCommunities { eCommunityList = append(eCommunityList, eCommunity) } } return eCommunityList } func (path *Path) SetExtCommunities(exts []bgp.ExtendedCommunityInterface, doReplace bool) { attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_EXTENDED_COMMUNITIES) if attr != nil { l := attr.(*bgp.PathAttributeExtendedCommunities).Value if doReplace { l = exts } else { l = append(l, exts...) } path.setPathAttr(bgp.NewPathAttributeExtendedCommunities(l)) } else { path.setPathAttr(bgp.NewPathAttributeExtendedCommunities(exts)) } } func (path *Path) GetMed() (uint32, error) { attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC) if attr == nil { return 0, fmt.Errorf("no med path attr") } return attr.(*bgp.PathAttributeMultiExitDisc).Value, nil } // SetMed replace, add or subtraction med with new ones. func (path *Path) SetMed(med int64, doReplace bool) error { parseMed := func(orgMed uint32, med int64, doReplace bool) (*bgp.PathAttributeMultiExitDisc, error) { newMed := &bgp.PathAttributeMultiExitDisc{} if doReplace { newMed = bgp.NewPathAttributeMultiExitDisc(uint32(med)) } else { if int64(orgMed)+med < 0 { return nil, fmt.Errorf("med value invalid. it's underflow threshold.") } else if int64(orgMed)+med > int64(math.MaxUint32) { return nil, fmt.Errorf("med value invalid. it's overflow threshold.") } newMed = bgp.NewPathAttributeMultiExitDisc(uint32(int64(orgMed) + med)) } return newMed, nil } m := uint32(0) if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC); attr != nil { m = attr.(*bgp.PathAttributeMultiExitDisc).Value } newMed, err := parseMed(m, med, doReplace) if err != nil { return err } path.setPathAttr(newMed) return nil } func (path *Path) RemoveLocalPref() { if path.getPathAttr(bgp.BGP_ATTR_TYPE_LOCAL_PREF) != nil { path.delPathAttr(bgp.BGP_ATTR_TYPE_LOCAL_PREF) } } func (path *Path) GetOriginatorID() net.IP { if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_ORIGINATOR_ID); attr != nil { return attr.(*bgp.PathAttributeOriginatorId).Value } return nil } func (path *Path) GetClusterList() []net.IP { if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_CLUSTER_LIST); attr != nil { return attr.(*bgp.PathAttributeClusterList).Value } return nil } func (path *Path) GetOrigin() (uint8, error) { if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_ORIGIN); attr != nil { return attr.(*bgp.PathAttributeOrigin).Value[0], nil } return 0, fmt.Errorf("no origin path attr") } func (path *Path) GetLocalPref() (uint32, error) { lp := uint32(DEFAULT_LOCAL_PREF) attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_LOCAL_PREF) if attr != nil { lp = attr.(*bgp.PathAttributeLocalPref).Value } return lp, nil } func (lhs *Path) Equal(rhs *Path) bool { if rhs == nil { return false } if lhs.GetSource() != rhs.GetSource() { return false } pattrs := func(arg []bgp.PathAttributeInterface) []byte { ret := make([]byte, 0) for _, a := range arg { aa, _ := a.Serialize() ret = append(ret, aa...) } return ret } return bytes.Equal(pattrs(lhs.GetPathAttrs()), pattrs(rhs.GetPathAttrs())) } func (lhs *Path) Compare(rhs *Path) int { if lhs.IsLocal() && !rhs.IsLocal() { return 1 } else if !lhs.IsLocal() && rhs.IsLocal() { return -1 } if !lhs.IsIBGP() && rhs.IsIBGP() { return 1 } else if lhs.IsIBGP() && !rhs.IsIBGP() { return -1 } lp1, _ := lhs.GetLocalPref() lp2, _ := rhs.GetLocalPref() if lp1 != lp2 { return int(lp1 - lp2) } l1 := lhs.GetAsPathLen() l2 := rhs.GetAsPathLen() if l1 != l2 { return int(l2 - l1) } o1, _ := lhs.GetOrigin() o2, _ := rhs.GetOrigin() if o1 != o2 { return int(o2 - o1) } m1, _ := lhs.GetMed() m2, _ := rhs.GetMed() return int(m2 - m1) }