// Copyright (C) 2015 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 server import ( "fmt" "math" "net" "strconv" "strings" "syscall" "time" "github.com/osrg/gobgp/internal/pkg/table" "github.com/osrg/gobgp/internal/pkg/zebra" "github.com/osrg/gobgp/pkg/packet/bgp" log "github.com/sirupsen/logrus" ) // nexthopStateCache stores a map of nexthop IP to metric value. Especially, // the metric value of math.MaxUint32 means the nexthop is unreachable. type nexthopStateCache map[string]uint32 func (m nexthopStateCache) applyToPathList(paths []*table.Path) []*table.Path { updated := make([]*table.Path, 0, len(paths)) for _, path := range paths { if path == nil || path.IsWithdraw { continue } metric, ok := m[path.GetNexthop().String()] if !ok { continue } isNexthopInvalid := metric == math.MaxUint32 med, err := path.GetMed() if err == nil && med == metric && path.IsNexthopInvalid == isNexthopInvalid { // If the nexthop state of the given path is already up to date, // skips this path. continue } newPath := path.Clone(false) if isNexthopInvalid { newPath.IsNexthopInvalid = true } else { newPath.IsNexthopInvalid = false newPath.SetMed(int64(metric), true) } updated = append(updated, newPath) } return updated } func (m nexthopStateCache) updateByNexthopUpdate(body *zebra.NexthopUpdateBody) (updated bool) { if len(body.Nexthops) == 0 { // If NEXTHOP_UPDATE message does not contain any nexthop, the given // nexthop is unreachable. if _, ok := m[body.Prefix.Prefix.String()]; !ok { // Zebra will send an empty NEXTHOP_UPDATE message as the fist // response for the NEXTHOP_REGISTER message. Here ignores it. return false } m[body.Prefix.Prefix.String()] = math.MaxUint32 // means unreachable } else { m[body.Prefix.Prefix.String()] = body.Metric } return true } func (m nexthopStateCache) filterPathToRegister(paths []*table.Path) []*table.Path { filteredPaths := make([]*table.Path, 0, len(paths)) for _, path := range paths { // Here filters out: // - Nil path // - Withdrawn path // - External path (advertised from Zebra) in order avoid sending back // - Unspecified nexthop address // - Already registered nexthop if path == nil || path.IsWithdraw || path.IsFromExternal() { continue } else if nexthop := path.GetNexthop(); nexthop.IsUnspecified() { continue } else if _, ok := m[nexthop.String()]; ok { continue } filteredPaths = append(filteredPaths, path) } return filteredPaths } func filterOutExternalPath(paths []*table.Path) []*table.Path { filteredPaths := make([]*table.Path, 0, len(paths)) for _, path := range paths { // Here filters out: // - Nil path // - External path (advertised from Zebra) in order avoid sending back // - Unreachable path because invalidated by Zebra if path == nil || path.IsFromExternal() || path.IsNexthopInvalid { continue } filteredPaths = append(filteredPaths, path) } return filteredPaths } func newIPRouteBody(dst []*table.Path) (body *zebra.IPRouteBody, isWithdraw bool) { paths := filterOutExternalPath(dst) if len(paths) == 0 { return nil, false } path := paths[0] l := strings.SplitN(path.GetNlri().String(), "/", 2) var prefix net.IP //nexthops := make([]net.IP, 0, len(paths)) var nexthop zebra.Nexthop nexthops := make([]zebra.Nexthop, 0, len(paths)) switch path.GetRouteFamily() { case bgp.RF_IPv4_UC, bgp.RF_IPv4_VPN: if path.GetRouteFamily() == bgp.RF_IPv4_UC { prefix = path.GetNlri().(*bgp.IPAddrPrefix).IPAddrPrefixDefault.Prefix.To4() } else { prefix = path.GetNlri().(*bgp.LabeledVPNIPAddrPrefix).IPAddrPrefixDefault.Prefix.To4() } for _, p := range paths { nexthop.Gate = p.GetNexthop().To4() nexthops = append(nexthops, nexthop) } case bgp.RF_IPv6_UC, bgp.RF_IPv6_VPN: if path.GetRouteFamily() == bgp.RF_IPv6_UC { prefix = path.GetNlri().(*bgp.IPv6AddrPrefix).IPAddrPrefixDefault.Prefix.To16() } else { prefix = path.GetNlri().(*bgp.LabeledVPNIPv6AddrPrefix).IPAddrPrefixDefault.Prefix.To16() } for _, p := range paths { nexthop.Gate = p.GetNexthop().To16() nexthops = append(nexthops, nexthop) } default: return nil, false } msgFlags := zebra.MESSAGE_NEXTHOP plen, _ := strconv.ParseUint(l[1], 10, 8) med, err := path.GetMed() if err == nil { msgFlags |= zebra.MESSAGE_METRIC } var flags zebra.FLAG info := path.GetSource() if info.AS == info.LocalAS { flags = zebra.FLAG_IBGP | zebra.FLAG_INTERNAL } else if info.MultihopTtl > 0 { flags = zebra.FLAG_INTERNAL } return &zebra.IPRouteBody{ Type: zebra.ROUTE_BGP, Flags: flags, SAFI: zebra.SAFI_UNICAST, Message: msgFlags, Prefix: zebra.Prefix{ Prefix: prefix, PrefixLen: uint8(plen), }, Nexthops: nexthops, Metric: med, }, path.IsWithdraw } func newNexthopRegisterBody(paths []*table.Path, nexthopCache nexthopStateCache) *zebra.NexthopRegisterBody { paths = nexthopCache.filterPathToRegister(paths) if len(paths) == 0 { return nil } path := paths[0] family := path.GetRouteFamily() nexthops := make([]*zebra.RegisteredNexthop, 0, len(paths)) for _, p := range paths { nexthop := p.GetNexthop() var nh *zebra.RegisteredNexthop switch family { case bgp.RF_IPv4_UC, bgp.RF_IPv4_VPN: nh = &zebra.RegisteredNexthop{ Family: syscall.AF_INET, Prefix: nexthop.To4(), } case bgp.RF_IPv6_UC, bgp.RF_IPv6_VPN: nh = &zebra.RegisteredNexthop{ Family: syscall.AF_INET6, Prefix: nexthop.To16(), } default: continue } nexthops = append(nexthops, nh) } // If no nexthop needs to be registered or unregistered, skips to send // message. if len(nexthops) == 0 { return nil } return &zebra.NexthopRegisterBody{ Nexthops: nexthops, } } func newNexthopUnregisterBody(family uint16, prefix net.IP) *zebra.NexthopRegisterBody { return &zebra.NexthopRegisterBody{ Nexthops: []*zebra.RegisteredNexthop{{ Family: family, Prefix: prefix, }}, } } func newPathFromIPRouteMessage(m *zebra.Message, version uint8) *table.Path { header := m.Header body := m.Body.(*zebra.IPRouteBody) family := body.RouteFamily(version) isWithdraw := body.IsWithdraw(version) var nlri bgp.AddrPrefixInterface pattr := make([]bgp.PathAttributeInterface, 0) origin := bgp.NewPathAttributeOrigin(bgp.BGP_ORIGIN_ATTR_TYPE_IGP) pattr = append(pattr, origin) log.WithFields(log.Fields{ "Topic": "Zebra", "RouteType": body.Type.String(), "Flag": body.Flags.String(), "Message": body.Message, "Family": body.Prefix.Family, "Prefix": body.Prefix.Prefix, "PrefixLength": body.Prefix.PrefixLen, "Nexthop": body.Nexthops, "Metric": body.Metric, "Distance": body.Distance, "Mtu": body.Mtu, "api": header.Command.String(), }).Debugf("create path from ip route message.") switch family { case bgp.RF_IPv4_UC: nlri = bgp.NewIPAddrPrefix(body.Prefix.PrefixLen, body.Prefix.Prefix.String()) if len(body.Nexthops) > 0 { pattr = append(pattr, bgp.NewPathAttributeNextHop(body.Nexthops[0].Gate.String())) } case bgp.RF_IPv6_UC: nlri = bgp.NewIPv6AddrPrefix(body.Prefix.PrefixLen, body.Prefix.Prefix.String()) nexthop := "" if len(body.Nexthops) > 0 { nexthop = body.Nexthops[0].Gate.String() } pattr = append(pattr, bgp.NewPathAttributeMpReachNLRI(nexthop, []bgp.AddrPrefixInterface{nlri})) default: log.WithFields(log.Fields{ "Topic": "Zebra", }).Errorf("unsupport address family: %s", family) return nil } med := bgp.NewPathAttributeMultiExitDisc(body.Metric) pattr = append(pattr, med) path := table.NewPath(nil, nlri, isWithdraw, pattr, time.Now(), false) path.SetIsFromExternal(true) return path } type zebraClient struct { client *zebra.Client server *BgpServer nexthopCache nexthopStateCache dead chan struct{} } func (z *zebraClient) getPathListWithNexthopUpdate(body *zebra.NexthopUpdateBody) []*table.Path { rib := &table.TableManager{ Tables: make(map[bgp.RouteFamily]*table.Table), } var rfList []bgp.RouteFamily switch body.Prefix.Family { case syscall.AF_INET: rfList = []bgp.RouteFamily{bgp.RF_IPv4_UC, bgp.RF_IPv4_VPN} case syscall.AF_INET6: rfList = []bgp.RouteFamily{bgp.RF_IPv6_UC, bgp.RF_IPv6_VPN} } for _, rf := range rfList { tbl, _, err := z.server.getRib("", rf, nil) if err != nil { log.WithFields(log.Fields{ "Topic": "Zebra", "Family": rf.String(), "Error": err, }).Error("failed to get global rib") continue } rib.Tables[rf] = tbl } return rib.GetPathListWithNexthop(table.GLOBAL_RIB_NAME, rfList, body.Prefix.Prefix) } func (z *zebraClient) updatePathByNexthopCache(paths []*table.Path) { paths = z.nexthopCache.applyToPathList(paths) if len(paths) > 0 { if err := z.server.updatePath("", paths); err != nil { log.WithFields(log.Fields{ "Topic": "Zebra", "PathList": paths, }).Error("failed to update nexthop reachability") } } } func (z *zebraClient) loop() { w := z.server.Watch([]WatchOption{ WatchBestPath(true), WatchPostUpdate(true), }...) defer w.Stop() for { select { case <-z.dead: return case msg := <-z.client.Receive(): switch body := msg.Body.(type) { case *zebra.IPRouteBody: if path := newPathFromIPRouteMessage(msg, z.client.Version); path != nil { if err := z.server.addPathList("", []*table.Path{path}); err != nil { log.WithFields(log.Fields{ "Topic": "Zebra", "Path": path, "Error": err, }).Error("failed to add path from zebra") } } case *zebra.NexthopUpdateBody: if updated := z.nexthopCache.updateByNexthopUpdate(body); !updated { continue } paths := z.getPathListWithNexthopUpdate(body) if len(paths) == 0 { // If there is no path bound for the given nexthop, send // NEXTHOP_UNREGISTER message. z.client.SendNexthopRegister(msg.Header.VrfId, newNexthopUnregisterBody(uint16(body.Prefix.Family), body.Prefix.Prefix), true) delete(z.nexthopCache, body.Prefix.Prefix.String()) } z.updatePathByNexthopCache(paths) } case ev := <-w.Event(): switch msg := ev.(type) { case *WatchEventBestPath: if table.UseMultiplePaths.Enabled { for _, paths := range msg.MultiPathList { z.updatePathByNexthopCache(paths) if body, isWithdraw := newIPRouteBody(paths); body != nil { z.client.SendIPRoute(0, body, isWithdraw) } if body := newNexthopRegisterBody(paths, z.nexthopCache); body != nil { z.client.SendNexthopRegister(0, body, false) } } } else { z.updatePathByNexthopCache(msg.PathList) for _, path := range msg.PathList { vrfs := []uint32{0} if msg.Vrf != nil { if v, ok := msg.Vrf[path.GetNlri().String()]; ok { vrfs = append(vrfs, v) } } for _, i := range vrfs { if body, isWithdraw := newIPRouteBody([]*table.Path{path}); body != nil { z.client.SendIPRoute(i, body, isWithdraw) } if body := newNexthopRegisterBody([]*table.Path{path}, z.nexthopCache); body != nil { z.client.SendNexthopRegister(i, body, false) } } } } case *WatchEventUpdate: if body := newNexthopRegisterBody(msg.PathList, z.nexthopCache); body != nil { vrfID := uint32(0) for _, vrf := range z.server.listVrf() { if vrf.Name == msg.Neighbor.Config.Vrf { vrfID = uint32(vrf.Id) } } z.client.SendNexthopRegister(vrfID, body, false) } } } } } func newZebraClient(s *BgpServer, url string, protos []string, version uint8, nhtEnable bool, nhtDelay uint8) (*zebraClient, error) { l := strings.SplitN(url, ":", 2) if len(l) != 2 { return nil, fmt.Errorf("unsupported url: %s", url) } var cli *zebra.Client var err error for _, ver := range []uint8{version, 2, 3, 4, 5} { cli, err = zebra.NewClient(l[0], l[1], zebra.ROUTE_BGP, ver) if err == nil { break } // Retry with another Zebra message version log.WithFields(log.Fields{ "Topic": "Zebra", }).Warnf("cannot connect to Zebra with message version %d. going to retry another version...", ver) } if cli == nil { return nil, err } // Note: HELLO/ROUTER_ID_ADD messages are automatically sent to negotiate // the Zebra message version in zebra.NewClient(). // cli.SendHello() // cli.SendRouterIDAdd() cli.SendInterfaceAdd() for _, typ := range protos { t, err := zebra.RouteTypeFromString(typ, version) if err != nil { return nil, err } cli.SendRedistribute(t, zebra.VRF_DEFAULT) } w := &zebraClient{ client: cli, server: s, nexthopCache: make(nexthopStateCache), dead: make(chan struct{}), } go w.loop() return w, nil }