// 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 ( "fmt" "net" "strings" "unsafe" "github.com/armon/go-radix" "github.com/osrg/gobgp/packet/bgp" log "github.com/sirupsen/logrus" ) type LookupOption uint8 const ( LOOKUP_EXACT LookupOption = iota LOOKUP_LONGER LOOKUP_SHORTER ) type LookupPrefix struct { Prefix string LookupOption } type TableSelectOption struct { ID string AS uint32 LookupPrefixes []*LookupPrefix VRF *Vrf adj bool Best bool MultiPath bool } type Table struct { routeFamily bgp.RouteFamily destinations map[string]*Destination } func NewTable(rf bgp.RouteFamily, dsts ...*Destination) *Table { t := &Table{ routeFamily: rf, destinations: make(map[string]*Destination), } for _, dst := range dsts { t.setDestination(dst) } return t } func (t *Table) GetRoutefamily() bgp.RouteFamily { return t.routeFamily } func (t *Table) deletePathsByVrf(vrf *Vrf) []*Path { pathList := make([]*Path, 0) for _, dest := range t.destinations { for _, p := range dest.knownPathList { var rd bgp.RouteDistinguisherInterface nlri := p.GetNlri() switch nlri.(type) { case *bgp.LabeledVPNIPAddrPrefix: rd = nlri.(*bgp.LabeledVPNIPAddrPrefix).RD case *bgp.LabeledVPNIPv6AddrPrefix: rd = nlri.(*bgp.LabeledVPNIPv6AddrPrefix).RD case *bgp.EVPNNLRI: rd = nlri.(*bgp.EVPNNLRI).RD() default: return pathList } if p.IsLocal() && vrf.Rd.String() == rd.String() { pathList = append(pathList, p.Clone(true)) break } } } return pathList } func (t *Table) deleteRTCPathsByVrf(vrf *Vrf, vrfs map[string]*Vrf) []*Path { pathList := make([]*Path, 0) if t.routeFamily != bgp.RF_RTC_UC { return pathList } for _, target := range vrf.ImportRt { lhs := target.String() for _, dest := range t.destinations { nlri := dest.GetNlri().(*bgp.RouteTargetMembershipNLRI) rhs := nlri.RouteTarget.String() if lhs == rhs && isLastTargetUser(vrfs, target) { for _, p := range dest.knownPathList { if p.IsLocal() { pathList = append(pathList, p.Clone(true)) break } } } } } return pathList } func (t *Table) deleteDestByNlri(nlri bgp.AddrPrefixInterface) *Destination { if dst := t.GetDestination(nlri); dst != nil { t.deleteDest(dst) return dst } return nil } func (t *Table) deleteDest(dest *Destination) { destinations := t.GetDestinations() delete(destinations, t.tableKey(dest.GetNlri())) if len(destinations) == 0 { t.destinations = make(map[string]*Destination) } } func (t *Table) validatePath(path *Path) { if path == nil { log.WithFields(log.Fields{ "Topic": "Table", "Key": t.routeFamily, }).Error("path is nil") } if path.GetRouteFamily() != t.routeFamily { log.WithFields(log.Fields{ "Topic": "Table", "Key": t.routeFamily, "Prefix": path.GetNlri().String(), "ReceivedRf": path.GetRouteFamily().String(), }).Error("Invalid path. RouteFamily mismatch") } if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH); attr != nil { pathParam := attr.(*bgp.PathAttributeAsPath).Value for _, as := range pathParam { _, y := as.(*bgp.As4PathParam) if !y { log.WithFields(log.Fields{ "Topic": "Table", "Key": t.routeFamily, "As": as, }).Fatal("AsPathParam must be converted to As4PathParam") } } } if attr := path.getPathAttr(bgp.BGP_ATTR_TYPE_AS4_PATH); attr != nil { log.WithFields(log.Fields{ "Topic": "Table", "Key": t.routeFamily, }).Fatal("AS4_PATH must be converted to AS_PATH") } if path.GetNlri() == nil { log.WithFields(log.Fields{ "Topic": "Table", "Key": t.routeFamily, }).Fatal("path's nlri is nil") } } func (t *Table) getOrCreateDest(nlri bgp.AddrPrefixInterface) *Destination { dest := t.GetDestination(nlri) // If destination for given prefix does not exist we create it. if dest == nil { log.WithFields(log.Fields{ "Topic": "Table", "Nlri": nlri, }).Debugf("create Destination") dest = NewDestination(nlri, 64) t.setDestination(dest) } return dest } func (t *Table) GetDestinations() map[string]*Destination { return t.destinations } func (t *Table) setDestinations(destinations map[string]*Destination) { t.destinations = destinations } func (t *Table) GetDestination(nlri bgp.AddrPrefixInterface) *Destination { dest, ok := t.destinations[t.tableKey(nlri)] if ok { return dest } else { return nil } } func (t *Table) GetLongerPrefixDestinations(key string) ([]*Destination, error) { results := make([]*Destination, 0, len(t.GetDestinations())) switch t.routeFamily { case bgp.RF_IPv4_UC, bgp.RF_IPv6_UC, bgp.RF_IPv4_MPLS, bgp.RF_IPv6_MPLS: _, prefix, err := net.ParseCIDR(key) if err != nil { return nil, err } k := CidrToRadixkey(prefix.String()) r := radix.New() for _, dst := range t.GetDestinations() { r.Insert(AddrToRadixkey(dst.nlri), dst) } r.WalkPrefix(k, func(s string, v interface{}) bool { results = append(results, v.(*Destination)) return false }) default: for _, dst := range t.GetDestinations() { results = append(results, dst) } } return results, nil } func (t *Table) GetEvpnDestinationsWithRouteType(typ string) ([]*Destination, error) { var routeType uint8 switch strings.ToLower(typ) { case "a-d": routeType = bgp.EVPN_ROUTE_TYPE_ETHERNET_AUTO_DISCOVERY case "macadv": routeType = bgp.EVPN_ROUTE_TYPE_MAC_IP_ADVERTISEMENT case "multicast": routeType = bgp.EVPN_INCLUSIVE_MULTICAST_ETHERNET_TAG case "esi": routeType = bgp.EVPN_ETHERNET_SEGMENT_ROUTE case "prefix": routeType = bgp.EVPN_IP_PREFIX default: return nil, fmt.Errorf("unsupported evpn route type: %s", typ) } destinations := t.GetDestinations() results := make([]*Destination, 0, len(destinations)) switch t.routeFamily { case bgp.RF_EVPN: for _, dst := range destinations { if nlri, ok := dst.nlri.(*bgp.EVPNNLRI); !ok { return nil, fmt.Errorf("invalid evpn nlri type detected: %T", dst.nlri) } else if nlri.RouteType == routeType { results = append(results, dst) } } default: for _, dst := range destinations { results = append(results, dst) } } return results, nil } func (t *Table) setDestination(dst *Destination) { t.destinations[t.tableKey(dst.nlri)] = dst } func (t *Table) tableKey(nlri bgp.AddrPrefixInterface) string { switch T := nlri.(type) { case *bgp.IPAddrPrefix: b := make([]byte, 5) copy(b, T.Prefix.To4()) b[4] = T.Length return *(*string)(unsafe.Pointer(&b)) case *bgp.IPv6AddrPrefix: b := make([]byte, 17) copy(b, T.Prefix.To16()) b[16] = T.Length return *(*string)(unsafe.Pointer(&b)) } return nlri.String() } func (t *Table) Bests(id string, as uint32) []*Path { paths := make([]*Path, 0, len(t.destinations)) for _, dst := range t.destinations { path := dst.GetBestPath(id, as) if path != nil { paths = append(paths, path) } } return paths } func (t *Table) MultiBests(id string) [][]*Path { paths := make([][]*Path, 0, len(t.destinations)) for _, dst := range t.destinations { path := dst.GetMultiBestPath(id) if path != nil { paths = append(paths, path) } } return paths } func (t *Table) GetKnownPathList(id string, as uint32) []*Path { paths := make([]*Path, 0, len(t.destinations)) for _, dst := range t.destinations { paths = append(paths, dst.GetKnownPathList(id, as)...) } return paths } func (t *Table) Select(option ...TableSelectOption) (*Table, error) { id := GLOBAL_RIB_NAME var vrf *Vrf adj := false prefixes := make([]*LookupPrefix, 0, len(option)) best := false mp := false as := uint32(0) for _, o := range option { if o.ID != "" { id = o.ID } if o.VRF != nil { vrf = o.VRF } adj = o.adj prefixes = append(prefixes, o.LookupPrefixes...) best = o.Best mp = o.MultiPath as = o.AS } dOption := DestinationSelectOption{ID: id, AS: as, VRF: vrf, adj: adj, Best: best, MultiPath: mp} r := &Table{ routeFamily: t.routeFamily, destinations: make(map[string]*Destination), } if len(prefixes) != 0 { switch t.routeFamily { case bgp.RF_IPv4_UC, bgp.RF_IPv6_UC: f := func(prefixStr string) bool { var nlri bgp.AddrPrefixInterface if t.routeFamily == bgp.RF_IPv4_UC { nlri, _ = bgp.NewPrefixFromRouteFamily(bgp.AFI_IP, bgp.SAFI_UNICAST, prefixStr) } else { nlri, _ = bgp.NewPrefixFromRouteFamily(bgp.AFI_IP6, bgp.SAFI_UNICAST, prefixStr) } if dst := t.GetDestination(nlri); dst != nil { if d := dst.Select(dOption); d != nil { r.setDestination(d) return true } } return false } for _, p := range prefixes { key := p.Prefix switch p.LookupOption { case LOOKUP_LONGER: ds, err := t.GetLongerPrefixDestinations(key) if err != nil { return nil, err } for _, dst := range ds { if d := dst.Select(dOption); d != nil { r.setDestination(d) } } case LOOKUP_SHORTER: addr, prefix, err := net.ParseCIDR(key) if err != nil { return nil, err } ones, _ := prefix.Mask.Size() for i := ones; i >= 0; i-- { _, prefix, _ := net.ParseCIDR(fmt.Sprintf("%s/%d", addr.String(), i)) f(prefix.String()) } default: if host := net.ParseIP(key); host != nil { masklen := 32 if t.routeFamily == bgp.RF_IPv6_UC { masklen = 128 } for i := masklen; i >= 0; i-- { _, prefix, err := net.ParseCIDR(fmt.Sprintf("%s/%d", key, i)) if err != nil { return nil, err } if f(prefix.String()) { break } } } else { f(key) } } } case bgp.RF_EVPN: for _, p := range prefixes { // Uses LookupPrefix.Prefix as EVPN Route Type string ds, err := t.GetEvpnDestinationsWithRouteType(p.Prefix) if err != nil { return nil, err } for _, dst := range ds { if d := dst.Select(dOption); d != nil { r.setDestination(d) } } } default: return nil, fmt.Errorf("route filtering is not supported for this family") } } else { for _, dst := range t.GetDestinations() { if d := dst.Select(dOption); d != nil { r.setDestination(d) } } } return r, nil } type TableInfo struct { NumDestination int NumPath int NumAccepted int } func (t *Table) Info(id string, as uint32) *TableInfo { var numD, numP int for _, d := range t.destinations { ps := d.GetKnownPathList(id, as) if len(ps) > 0 { numD += 1 numP += len(ps) } } return &TableInfo{ NumDestination: numD, NumPath: numP, } }