// 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" "github.com/osrg/gobgp/packet" "net" "time" ) const ( GLOBAL_RIB_NAME = "global" ) func nlri2Path(m *bgp.BGPMessage, p *PeerInfo, now time.Time) []*Path { updateMsg := m.Body.(*bgp.BGPUpdate) pathAttributes := updateMsg.PathAttributes pathList := make([]*Path, 0) for _, nlri := range updateMsg.NLRI { path := NewPath(p, nlri, false, pathAttributes, now, false) pathList = append(pathList, path) } return pathList } func withdraw2Path(m *bgp.BGPMessage, p *PeerInfo, now time.Time) []*Path { updateMsg := m.Body.(*bgp.BGPUpdate) pathAttributes := updateMsg.PathAttributes pathList := make([]*Path, 0) for _, nlri := range updateMsg.WithdrawnRoutes { path := NewPath(p, nlri, true, pathAttributes, now, false) pathList = append(pathList, path) } return pathList } func mpreachNlri2Path(m *bgp.BGPMessage, p *PeerInfo, now time.Time) []*Path { updateMsg := m.Body.(*bgp.BGPUpdate) pathAttributes := updateMsg.PathAttributes attrList := []*bgp.PathAttributeMpReachNLRI{} for _, attr := range pathAttributes { a, ok := attr.(*bgp.PathAttributeMpReachNLRI) if ok { attrList = append(attrList, a) break } } pathList := make([]*Path, 0) for _, mp := range attrList { nlri_info := mp.Value for _, nlri := range nlri_info { path := NewPath(p, nlri, false, pathAttributes, now, false) pathList = append(pathList, path) } } return pathList } func mpunreachNlri2Path(m *bgp.BGPMessage, p *PeerInfo, now time.Time) []*Path { updateMsg := m.Body.(*bgp.BGPUpdate) pathAttributes := updateMsg.PathAttributes attrList := []*bgp.PathAttributeMpUnreachNLRI{} for _, attr := range pathAttributes { a, ok := attr.(*bgp.PathAttributeMpUnreachNLRI) if ok { attrList = append(attrList, a) break } } pathList := make([]*Path, 0) for _, mp := range attrList { nlri_info := mp.Value for _, nlri := range nlri_info { path := NewPath(p, nlri, true, pathAttributes, now, false) pathList = append(pathList, path) } } return pathList } func ProcessMessage(m *bgp.BGPMessage, peerInfo *PeerInfo, timestamp time.Time) []*Path { pathList := make([]*Path, 0) pathList = append(pathList, nlri2Path(m, peerInfo, timestamp)...) pathList = append(pathList, withdraw2Path(m, peerInfo, timestamp)...) pathList = append(pathList, mpreachNlri2Path(m, peerInfo, timestamp)...) pathList = append(pathList, mpunreachNlri2Path(m, peerInfo, timestamp)...) return pathList } type TableManager struct { Tables map[bgp.RouteFamily]*Table Vrfs map[string]*Vrf minLabel uint32 maxLabel uint32 nextLabel uint32 rfList []bgp.RouteFamily } func NewTableManager(rfList []bgp.RouteFamily, minLabel, maxLabel uint32) *TableManager { t := &TableManager{ Tables: make(map[bgp.RouteFamily]*Table), Vrfs: make(map[string]*Vrf), minLabel: minLabel, maxLabel: maxLabel, nextLabel: minLabel, 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) GetNextLabel(name, nexthop string, isWithdraw bool) (uint32, error) { var label uint32 var err error vrf, ok := manager.Vrfs[name] if !ok { return label, fmt.Errorf("vrf %s not found", name) } label, ok = vrf.LabelMap[nexthop] if !ok { label, err = manager.getNextLabel() vrf.LabelMap[nexthop] = label } return label, err } func (manager *TableManager) getNextLabel() (uint32, error) { if manager.nextLabel > manager.maxLabel { return 0, fmt.Errorf("ran out of label resource. max label %d", manager.maxLabel) } label := manager.nextLabel manager.nextLabel += 1 return label, nil } func (manager *TableManager) AddVrf(name string, 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, Rd: rd, ImportRt: importRt, ExportRt: exportRt, LabelMap: make(map[string]uint32), } 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, }).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 (manager *TableManager) calculate(destinations []*Destination) { for _, destination := range destinations { log.WithFields(log.Fields{ "Topic": "table", "Key": destination.GetNlri().String(), }).Debug("Processing destination") destination.Calculate() } } func (manager *TableManager) DeletePathsByPeer(info *PeerInfo, rf bgp.RouteFamily) []*Destination { if t, ok := manager.Tables[rf]; ok { dsts := t.DeleteDestByPeer(info) manager.calculate(dsts) return dsts } return nil } func (manager *TableManager) ProcessPaths(pathList []*Path) []*Destination { m := make(map[string]bool, len(pathList)) dsts := make([]*Destination, 0, len(pathList)) for _, path := range pathList { if path == nil { continue } rf := path.GetRouteFamily() if t, ok := manager.Tables[rf]; ok { dst := t.insert(path) key := dst.GetNlri().String() if !m[key] { m[key] = true dsts = append(dsts, dst) } if rf == bgp.RF_EVPN { for _, dst := range manager.handleMacMobility(path) { key := dst.GetNlri().String() if !m[key] { m[key] = true dsts = append(dsts, dst) } } } } } manager.calculate(dsts) return dsts } // 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. func (manager *TableManager) handleMacMobility(path *Path) []*Destination { dsts := make([]*Destination, 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, []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) (uint32, net.HardwareAddr, int) { 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.ETag, d.MacAddress, seq } e1, m1, s1 := f(path) e2, m2, s2 := f(path2) if e1 == e2 && bytes.Equal(m1, m2) && s1 > s2 { path2.IsWithdraw = true dsts = append(dsts, manager.Tables[bgp.RF_EVPN].insert(path2)) } } return dsts } func (manager *TableManager) getDestinationCount(rfList []bgp.RouteFamily) int { count := 0 for _, rf := range rfList { if _, ok := manager.Tables[rf]; ok { count += len(manager.Tables[rf].GetDestinations()) } } return count } func (manager *TableManager) GetBestPathList(id string, rfList []bgp.RouteFamily) []*Path { paths := make([]*Path, 0, manager.getDestinationCount(rfList)) for _, rf := range rfList { if t, ok := manager.Tables[rf]; ok { paths = append(paths, t.Bests(id)...) } } return paths } func (manager *TableManager) GetPathList(id string, rfList []bgp.RouteFamily) []*Path { c := 0 for _, rf := range rfList { if t, ok := manager.Tables[rf]; ok { c += len(t.destinations) } } paths := make([]*Path, 0, c) for _, rf := range rfList { if t, ok := manager.Tables[rf]; ok { paths = append(paths, t.GetKnownPathList(id)...) } } return paths }