// 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" "net" "time" farm "github.com/dgryski/go-farm" log "github.com/sirupsen/logrus" "github.com/osrg/gobgp/pkg/packet/bgp" ) const ( GLOBAL_RIB_NAME = "global" ) func ProcessMessage(m *bgp.BGPMessage, peerInfo *PeerInfo, timestamp time.Time) []*Path { update := m.Body.(*bgp.BGPUpdate) if y, f := update.IsEndOfRib(); y { // this message has no normal updates or withdrawals. return []*Path{NewEOR(f)} } adds := make([]bgp.AddrPrefixInterface, 0, len(update.NLRI)) for _, nlri := range update.NLRI { adds = append(adds, nlri) } dels := make([]bgp.AddrPrefixInterface, 0, len(update.WithdrawnRoutes)) for _, nlri := range update.WithdrawnRoutes { dels = append(dels, nlri) } attrs := make([]bgp.PathAttributeInterface, 0, len(update.PathAttributes)) var reach *bgp.PathAttributeMpReachNLRI for _, attr := range update.PathAttributes { switch a := attr.(type) { case *bgp.PathAttributeMpReachNLRI: reach = a case *bgp.PathAttributeMpUnreachNLRI: l := make([]bgp.AddrPrefixInterface, 0, len(a.Value)) l = append(l, a.Value...) dels = append(dels, l...) default: attrs = append(attrs, attr) } } listLen := len(adds) + len(dels) if reach != nil { listLen += len(reach.Value) } var hash uint32 if len(adds) > 0 || reach != nil { total := bytes.NewBuffer(make([]byte, 0)) for _, a := range attrs { b, _ := a.Serialize() total.Write(b) } hash = farm.Hash32(total.Bytes()) } pathList := make([]*Path, 0, listLen) for _, nlri := range adds { p := NewPath(peerInfo, nlri, false, attrs, timestamp, false) p.SetHash(hash) pathList = append(pathList, p) } if reach != nil { reachAttrs := make([]bgp.PathAttributeInterface, len(attrs)+1) copy(reachAttrs, attrs) // we sort attributes when creating a bgp message from paths reachAttrs[len(reachAttrs)-1] = reach for _, nlri := range reach.Value { p := NewPath(peerInfo, nlri, false, reachAttrs, timestamp, false) p.SetHash(hash) pathList = append(pathList, p) } } for _, nlri := range dels { p := NewPath(peerInfo, nlri, true, []bgp.PathAttributeInterface{}, timestamp, false) pathList = append(pathList, p) } return pathList } type TableManager struct { Tables map[bgp.RouteFamily]*Table Vrfs map[string]*Vrf rfList []bgp.RouteFamily } func NewTableManager(rfList []bgp.RouteFamily) *TableManager { t := &TableManager{ Tables: make(map[bgp.RouteFamily]*Table), Vrfs: make(map[string]*Vrf), rfList: rfList, } for _, rf := range rfList { t.Tables[rf] = NewTable(rf) } return t } func (manager *TableManager) GetRFlist() []bgp.RouteFamily { return manager.rfList } func (manager *TableManager) AddVrf(name string, id uint32, rd bgp.RouteDistinguisherInterface, importRt, exportRt []bgp.ExtendedCommunityInterface, info *PeerInfo) ([]*Path, error) { if _, ok := manager.Vrfs[name]; ok { return nil, fmt.Errorf("vrf %s already exists", name) } log.WithFields(log.Fields{ "Topic": "Vrf", "Key": name, "Rd": rd, "ImportRt": importRt, "ExportRt": exportRt, }).Debugf("add vrf") manager.Vrfs[name] = &Vrf{ Name: name, Id: id, Rd: rd, ImportRt: importRt, ExportRt: exportRt, } msgs := make([]*Path, 0, len(importRt)) nexthop := "0.0.0.0" for _, target := range importRt { nlri := bgp.NewRouteTargetMembershipNLRI(info.AS, target) pattr := make([]bgp.PathAttributeInterface, 0, 2) pattr = append(pattr, bgp.NewPathAttributeOrigin(bgp.BGP_ORIGIN_ATTR_TYPE_IGP)) pattr = append(pattr, bgp.NewPathAttributeMpReachNLRI(nexthop, []bgp.AddrPrefixInterface{nlri})) msgs = append(msgs, NewPath(info, nlri, false, pattr, time.Now(), false)) } return msgs, nil } func (manager *TableManager) DeleteVrf(name string) ([]*Path, error) { if _, ok := manager.Vrfs[name]; !ok { return nil, fmt.Errorf("vrf %s not found", name) } msgs := make([]*Path, 0) vrf := manager.Vrfs[name] for _, t := range manager.Tables { msgs = append(msgs, t.deletePathsByVrf(vrf)...) } log.WithFields(log.Fields{ "Topic": "Vrf", "Key": vrf.Name, "Rd": vrf.Rd, "ImportRt": vrf.ImportRt, "ExportRt": vrf.ExportRt, "MplsLabel": vrf.MplsLabel, }).Debugf("delete vrf") delete(manager.Vrfs, name) rtcTable := manager.Tables[bgp.RF_RTC_UC] msgs = append(msgs, rtcTable.deleteRTCPathsByVrf(vrf, manager.Vrfs)...) return msgs, nil } func (tm *TableManager) update(newPath *Path) *Update { t := tm.Tables[newPath.GetRouteFamily()] t.validatePath(newPath) dst := t.getOrCreateDest(newPath.GetNlri(), 64) u := dst.Calculate(newPath) if len(dst.knownPathList) == 0 { t.deleteDest(dst) } return u } func (manager *TableManager) Update(newPath *Path) []*Update { if newPath == nil || newPath.IsEOR() { return nil } // Except for a special case with EVPN, we'll have one destination. updates := make([]*Update, 0, 1) family := newPath.GetRouteFamily() if _, ok := manager.Tables[family]; ok { updates = append(updates, manager.update(newPath)) if family == bgp.RF_EVPN { for _, p := range manager.handleMacMobility(newPath) { updates = append(updates, manager.update(p)) } } } return updates } // EVPN MAC MOBILITY HANDLING // // RFC7432 15. MAC Mobility // // A PE receiving a MAC/IP Advertisement route for a MAC address with a // different Ethernet segment identifier and a higher sequence number // than that which it had previously advertised withdraws its MAC/IP // Advertisement route. // ...... // If the PE is the originator of the MAC route and it receives the same // MAC address with the same sequence number that it generated, it will // compare its own IP address with the IP address of the remote PE and // will select the lowest IP. If its own route is not the best one, it // will withdraw the route. func (manager *TableManager) handleMacMobility(path *Path) []*Path { pathList := make([]*Path, 0) nlri := path.GetNlri().(*bgp.EVPNNLRI) if path.IsWithdraw || path.IsLocal() || nlri.RouteType != bgp.EVPN_ROUTE_TYPE_MAC_IP_ADVERTISEMENT { return nil } for _, path2 := range manager.GetPathList(GLOBAL_RIB_NAME, 0, []bgp.RouteFamily{bgp.RF_EVPN}) { if !path2.IsLocal() || path2.GetNlri().(*bgp.EVPNNLRI).RouteType != bgp.EVPN_ROUTE_TYPE_MAC_IP_ADVERTISEMENT { continue } f := func(p *Path) (bgp.EthernetSegmentIdentifier, uint32, net.HardwareAddr, int, net.IP) { nlri := p.GetNlri().(*bgp.EVPNNLRI) d := nlri.RouteTypeData.(*bgp.EVPNMacIPAdvertisementRoute) ecs := p.GetExtCommunities() seq := -1 for _, ec := range ecs { if t, st := ec.GetTypes(); t == bgp.EC_TYPE_EVPN && st == bgp.EC_SUBTYPE_MAC_MOBILITY { seq = int(ec.(*bgp.MacMobilityExtended).Sequence) break } } return d.ESI, d.ETag, d.MacAddress, seq, p.info.source.Address } e1, et1, m1, s1, i1 := f(path) e2, et2, m2, s2, i2 := f(path2) if et1 == et2 && bytes.Equal(m1, m2) && !bytes.Equal(e1.Value, e2.Value) { if s1 > s2 || s1 == s2 && bytes.Compare(i1, i2) < 0 { pathList = append(pathList, path2.Clone(true)) } } } return pathList } func (manager *TableManager) tables(list ...bgp.RouteFamily) []*Table { l := make([]*Table, 0, len(manager.Tables)) if len(list) == 0 { for _, v := range manager.Tables { l = append(l, v) } return l } for _, f := range list { if t, ok := manager.Tables[f]; ok { l = append(l, t) } } return l } func (manager *TableManager) getDestinationCount(rfList []bgp.RouteFamily) int { count := 0 for _, t := range manager.tables(rfList...) { count += len(t.GetDestinations()) } return count } func (manager *TableManager) GetBestPathList(id string, as uint32, rfList []bgp.RouteFamily) []*Path { if SelectionOptions.DisableBestPathSelection { // Note: If best path selection disabled, there is no best path. return nil } paths := make([]*Path, 0, manager.getDestinationCount(rfList)) for _, t := range manager.tables(rfList...) { paths = append(paths, t.Bests(id, as)...) } return paths } func (manager *TableManager) GetBestMultiPathList(id string, rfList []bgp.RouteFamily) [][]*Path { if !UseMultiplePaths.Enabled || SelectionOptions.DisableBestPathSelection { // Note: If multi path not enabled or best path selection disabled, // there is no best multi path. return nil } paths := make([][]*Path, 0, manager.getDestinationCount(rfList)) for _, t := range manager.tables(rfList...) { paths = append(paths, t.MultiBests(id)...) } return paths } func (manager *TableManager) GetPathList(id string, as uint32, rfList []bgp.RouteFamily) []*Path { paths := make([]*Path, 0, manager.getDestinationCount(rfList)) for _, t := range manager.tables(rfList...) { paths = append(paths, t.GetKnownPathList(id, as)...) } return paths } func (manager *TableManager) GetPathListWithNexthop(id string, rfList []bgp.RouteFamily, nexthop net.IP) []*Path { paths := make([]*Path, 0, manager.getDestinationCount(rfList)) for _, rf := range rfList { if t, ok := manager.Tables[rf]; ok { for _, path := range t.GetKnownPathList(id, 0) { if path.GetNexthop().Equal(nexthop) { paths = append(paths, path) } } } } return paths } func (manager *TableManager) GetPathListWithSource(id string, rfList []bgp.RouteFamily, source *PeerInfo) []*Path { paths := make([]*Path, 0, manager.getDestinationCount(rfList)) for _, rf := range rfList { if t, ok := manager.Tables[rf]; ok { for _, path := range t.GetKnownPathList(id, 0) { if path.GetSource().Equal(source) { paths = append(paths, path) } } } } return paths } func (manager *TableManager) GetDestination(path *Path) *Destination { if path == nil { return nil } family := path.GetRouteFamily() t, ok := manager.Tables[family] if !ok { return nil } return t.GetDestination(path.GetNlri()) }