// 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 server import ( "encoding/json" log "github.com/Sirupsen/logrus" "github.com/osrg/gobgp/api" "github.com/osrg/gobgp/config" "github.com/osrg/gobgp/packet" "github.com/osrg/gobgp/table" "gopkg.in/tomb.v2" "net" "time" ) const ( FSM_CHANNEL_LENGTH = 1024 FLOP_THRESHOLD = time.Second * 30 ) type peerMsgType int const ( _ peerMsgType = iota PEER_MSG_PATH PEER_MSG_PEER_DOWN ) type peerMsg struct { msgType peerMsgType msgData interface{} } type Peer struct { t tomb.Tomb globalConfig config.GlobalType peerConfig config.NeighborType acceptedConnCh chan *net.TCPConn serverMsgCh chan *serverMsg peerMsgCh chan *peerMsg fsm *FSM adjRib *table.AdjRib // peer and rib are always not one-to-one so should not be // here but it's the simplest and works our first target. rib *table.TableManager // for now we support only the same afi as transport rf bgp.RouteFamily capMap map[bgp.BGPCapabilityCode]bgp.ParameterCapabilityInterface peerInfo *table.PeerInfo siblings map[string]*serverMsgDataPeer outgoing chan *bgp.BGPMessage } func NewPeer(g config.GlobalType, peer config.NeighborType, serverMsgCh chan *serverMsg, peerMsgCh chan *peerMsg, peerList []*serverMsgDataPeer) *Peer { p := &Peer{ globalConfig: g, peerConfig: peer, acceptedConnCh: make(chan *net.TCPConn), serverMsgCh: serverMsgCh, peerMsgCh: peerMsgCh, capMap: make(map[bgp.BGPCapabilityCode]bgp.ParameterCapabilityInterface), } p.siblings = make(map[string]*serverMsgDataPeer) for _, s := range peerList { p.siblings[s.address.String()] = s } p.fsm = NewFSM(&g, &peer, p.acceptedConnCh) peer.BgpNeighborCommonState.State = uint32(bgp.BGP_FSM_IDLE) peer.BgpNeighborCommonState.Downtime = time.Now() if peer.NeighborAddress.To4() != nil { p.rf = bgp.RF_IPv4_UC } else { p.rf = bgp.RF_IPv6_UC } p.peerInfo = &table.PeerInfo{ AS: peer.PeerAs, LocalID: g.RouterId, RF: p.rf, Address: peer.NeighborAddress, } p.adjRib = table.NewAdjRib() p.rib = table.NewTableManager() p.t.Go(p.loop) return p } func (peer *Peer) handleBGPmessage(m *bgp.BGPMessage) { log.WithFields(log.Fields{ "Topic": "Peer", "Key": peer.peerConfig.NeighborAddress, "data": m, }).Debug("received") switch m.Header.Type { case bgp.BGP_MSG_OPEN: body := m.Body.(*bgp.BGPOpen) peer.peerInfo.ID = m.Body.(*bgp.BGPOpen).ID for _, p := range body.OptParams { paramCap, y := p.(*bgp.OptionParameterCapability) if !y { continue } for _, c := range paramCap.Capability { peer.capMap[c.Code()] = c } } case bgp.BGP_MSG_ROUTE_REFRESH: pathList := peer.adjRib.GetOutPathList(peer.rf) peer.sendMessages(table.CreateUpdateMsgFromPaths(pathList)) case bgp.BGP_MSG_UPDATE: peer.peerConfig.BgpNeighborCommonState.UpdateRecvTime = time.Now() body := m.Body.(*bgp.BGPUpdate) table.UpdatePathAttrs4ByteAs(body) msg := table.NewProcessMessage(m, peer.peerInfo) pathList := msg.ToPathList() if len(pathList) == 0 { return } peer.adjRib.UpdateIn(pathList) pm := &peerMsg{ msgType: PEER_MSG_PATH, msgData: pathList, } for _, s := range peer.siblings { if s.rf != peer.rf { continue } s.peerMsgCh <- pm } } } func (peer *Peer) sendMessages(msgs []*bgp.BGPMessage) { for _, m := range msgs { if peer.peerConfig.BgpNeighborCommonState.State != uint32(bgp.BGP_FSM_ESTABLISHED) { continue } if m.Header.Type != bgp.BGP_MSG_UPDATE { log.Fatal("not update message ", m.Header.Type) } _, y := peer.capMap[bgp.BGP_CAP_FOUR_OCTET_AS_NUMBER] if !y { log.WithFields(log.Fields{ "Topic": "Peer", "Key": peer.peerConfig.NeighborAddress, "data": m, }).Debug("update for 2byte AS peer") table.UpdatePathAttrs2ByteAs(m.Body.(*bgp.BGPUpdate)) } peer.outgoing <- m } } func (peer *Peer) handleREST(restReq *api.RestRequest) { result := &api.RestResponse{} switch restReq.RequestType { case api.REQ_LOCAL_RIB: j, _ := json.Marshal(peer.rib.Tables[peer.rf]) result.Data = j case api.REQ_NEIGHBOR_SHUTDOWN: peer.outgoing <- bgp.NewBGPNotificationMessage(bgp.BGP_ERROR_CEASE, bgp.BGP_ERROR_SUB_ADMINISTRATIVE_SHUTDOWN, nil) case api.REQ_NEIGHBOR_RESET: peer.fsm.idleHoldTime = peer.peerConfig.Timers.IdleHoldTImeAfterReset peer.outgoing <- bgp.NewBGPNotificationMessage(bgp.BGP_ERROR_CEASE, bgp.BGP_ERROR_SUB_ADMINISTRATIVE_RESET, nil) case api.REQ_NEIGHBOR_SOFT_RESET: case api.REQ_NEIGHBOR_SOFT_RESET_IN: // check capability // drop allIn and other peers? // peer.adjRib.DropAllIn(peer.rf) peer.outgoing <- bgp.NewBGPRouteRefreshMessage(uint16(int(peer.rf)>>16), 0, uint8(int(peer.rf)&0xff)) case api.REQ_NEIGHBOR_SOFT_RESET_OUT: pathList := peer.adjRib.GetOutPathList(peer.rf) peer.sendMessages(table.CreateUpdateMsgFromPaths(pathList)) case api.REQ_ADJ_RIB_IN: fallthrough case api.REQ_ADJ_RIB_OUT: rfs := []bgp.RouteFamily{bgp.RF_IPv4_UC, bgp.RF_IPv6_UC} adjrib := make(map[string][]table.Path) if restReq.RequestType == api.REQ_ADJ_RIB_IN { for _, rf := range rfs { paths := peer.adjRib.GetInPathList(rf) adjrib[rf.String()] = paths log.Debugf("RouteFamily=%v adj-rib-in found : %d", rf.String(), len(paths)) } } else { for _, rf := range rfs { paths := peer.adjRib.GetOutPathList(rf) adjrib[rf.String()] = paths log.Debugf("RouteFamily=%v adj-rib-out found : %d", rf.String(), len(paths)) } } j, _ := json.Marshal(adjrib) result.Data = j } restReq.ResponseCh <- result close(restReq.ResponseCh) } func (peer *Peer) sendUpdateMsgFromPaths(pList []table.Path, wList []table.Path) { pathList := append([]table.Path(nil), pList...) pathList = append(pathList, wList...) for _, p := range wList { if !p.IsWithdraw() { log.Fatal("withdraw pathlist has non withdraw path") } } peer.adjRib.UpdateOut(pathList) peer.sendMessages(table.CreateUpdateMsgFromPaths(pathList)) } func (peer *Peer) handlePeerMsg(m *peerMsg) { switch m.msgType { case PEER_MSG_PATH: pList, wList, _ := peer.rib.ProcessPaths(m.msgData.([]table.Path)) peer.sendUpdateMsgFromPaths(pList, wList) case PEER_MSG_PEER_DOWN: pList, wList, _ := peer.rib.DeletePathsforPeer(m.msgData.(*table.PeerInfo)) peer.sendUpdateMsgFromPaths(pList, wList) } } func (peer *Peer) handleServerMsg(m *serverMsg) { switch m.msgType { case SRV_MSG_PEER_ADDED: d := m.msgData.(*serverMsgDataPeer) peer.siblings[d.address.String()] = d pathList := peer.adjRib.GetInPathList(d.rf) if len(pathList) == 0 { return } pm := &peerMsg{ msgType: PEER_MSG_PATH, msgData: pathList, } for _, s := range peer.siblings { if s.rf != peer.rf { continue } s.peerMsgCh <- pm } case SRV_MSG_PEER_DELETED: d := m.msgData.(*table.PeerInfo) _, found := peer.siblings[d.Address.String()] if found { delete(peer.siblings, d.Address.String()) pList, wList, _ := peer.rib.DeletePathsforPeer(d) peer.sendUpdateMsgFromPaths(pList, wList) } else { log.Warning("can not find peer: ", d.Address.String()) } case SRV_MSG_API: peer.handleREST(m.msgData.(*api.RestRequest)) default: log.Fatal("unknown server msg type ", m.msgType) } } // this goroutine handles routing table operations func (peer *Peer) loop() error { for { incoming := make(chan *fsmMsg, FSM_CHANNEL_LENGTH) peer.outgoing = make(chan *bgp.BGPMessage, FSM_CHANNEL_LENGTH) h := NewFSMHandler(peer.fsm, incoming, peer.outgoing) sameState := true for sameState { select { case <-peer.t.Dying(): close(peer.acceptedConnCh) peer.outgoing <- bgp.NewBGPNotificationMessage(bgp.BGP_ERROR_CEASE, bgp.BGP_ERROR_SUB_PEER_DECONFIGURED, nil) // h.t.Kill(nil) will be called // internall so even goroutines in // non-established will be killed. h.Stop() return nil case e := <-incoming: switch e.MsgType { case FSM_MSG_STATE_CHANGE: nextState := e.MsgData.(bgp.FSMState) // waits for all goroutines created for the current state h.Wait() oldState := bgp.FSMState(peer.peerConfig.BgpNeighborCommonState.State) peer.peerConfig.BgpNeighborCommonState.State = uint32(nextState) peer.fsm.StateChange(nextState) sameState = false if nextState == bgp.BGP_FSM_ESTABLISHED { pathList := peer.adjRib.GetOutPathList(peer.rf) peer.sendMessages(table.CreateUpdateMsgFromPaths(pathList)) peer.fsm.peerConfig.BgpNeighborCommonState.Uptime = time.Now() peer.fsm.peerConfig.BgpNeighborCommonState.EstablishedCount++ } if oldState == bgp.BGP_FSM_ESTABLISHED { t := time.Now() peer.fsm.peerConfig.BgpNeighborCommonState.Downtime = t if t.Sub(peer.fsm.peerConfig.BgpNeighborCommonState.Uptime) < FLOP_THRESHOLD { peer.fsm.peerConfig.BgpNeighborCommonState.Flops++ } peer.adjRib.DropAllIn(peer.rf) pm := &peerMsg{ msgType: PEER_MSG_PEER_DOWN, msgData: peer.peerInfo, } for _, s := range peer.siblings { s.peerMsgCh <- pm } } case FSM_MSG_BGP_MESSAGE: switch m := e.MsgData.(type) { case *bgp.MessageError: peer.outgoing <- bgp.NewBGPNotificationMessage(m.TypeCode, m.SubTypeCode, m.Data) case *bgp.BGPMessage: peer.handleBGPmessage(m) default: log.WithFields(log.Fields{ "Topic": "Peer", "Key": peer.peerConfig.NeighborAddress, "Data": e.MsgData, }).Panic("unknonw msg type") } } case m := <-peer.serverMsgCh: peer.handleServerMsg(m) case m := <-peer.peerMsgCh: peer.handlePeerMsg(m) } } } } func (peer *Peer) Stop() error { peer.t.Kill(nil) return peer.t.Wait() } func (peer *Peer) PassConn(conn *net.TCPConn) { peer.acceptedConnCh <- conn } func (peer *Peer) MarshalJSON() ([]byte, error) { f := peer.fsm c := f.peerConfig p := make(map[string]interface{}) capList := make([]int, 0) for k, _ := range peer.capMap { capList = append(capList, int(k)) } p["conf"] = struct { RemoteIP string `json:"remote_ip"` Id string `json:"id"` RemoteAS uint32 `json:"remote_as"` CapRefresh bool `json:"cap_refresh"` CapEnhancedRefresh bool `json:"cap_enhanced_refresh"` RemoteCap []int LocalCap []int }{ RemoteIP: c.NeighborAddress.String(), Id: peer.peerInfo.ID.To4().String(), RemoteAS: c.PeerAs, RemoteCap: capList, LocalCap: []int{int(bgp.BGP_CAP_MULTIPROTOCOL), int(bgp.BGP_CAP_ROUTE_REFRESH), int(bgp.BGP_CAP_FOUR_OCTET_AS_NUMBER)}, } s := c.BgpNeighborCommonState uptime := float64(0) if !s.Uptime.IsZero() { uptime = time.Now().Sub(s.Uptime).Seconds() } downtime := float64(0) if !s.Downtime.IsZero() { downtime = time.Now().Sub(s.Downtime).Seconds() } p["info"] = struct { BgpState string `json:"bgp_state"` FsmEstablishedTransitions uint32 `json:"fsm_established_transitions"` TotalMessageOut uint32 `json:"total_message_out"` TotalMessageIn uint32 `json:"total_message_in"` UpdateMessageOut uint32 `json:"update_message_out"` UpdateMessageIn uint32 `json:"update_message_in"` KeepAliveMessageOut uint32 `json:"keepalive_message_out"` KeepAliveMessageIn uint32 `json:"keepalive_message_in"` OpenMessageOut uint32 `json:"open_message_out"` OpenMessageIn uint32 `json:"open_message_in"` NotificationOut uint32 `json:"notification_out"` NotificationIn uint32 `json:"notification_in"` RefreshMessageOut uint32 `json:"refresh_message_out"` RefreshMessageIn uint32 `json:"refresh_message_in"` Uptime float64 `json:"uptime"` Downtime float64 `json:"downtime"` LastError string `json:"last_error"` Received uint32 Accepted uint32 Advertized uint32 OutQ int Flops uint32 }{ BgpState: f.state.String(), FsmEstablishedTransitions: s.EstablishedCount, TotalMessageOut: s.TotalOut, TotalMessageIn: s.TotalIn, UpdateMessageOut: s.UpdateOut, UpdateMessageIn: s.UpdateIn, KeepAliveMessageOut: s.KeepaliveOut, KeepAliveMessageIn: s.KeepaliveIn, OpenMessageOut: s.OpenOut, OpenMessageIn: s.OpenIn, NotificationOut: s.NotifyOut, NotificationIn: s.NotifyIn, RefreshMessageOut: s.RefreshOut, RefreshMessageIn: s.RefreshIn, Uptime: uptime, Downtime: downtime, Received: uint32(peer.adjRib.GetInCount(peer.rf)), Accepted: uint32(peer.adjRib.GetInCount(peer.rf)), Advertized: uint32(peer.adjRib.GetOutCount(peer.rf)), OutQ: len(peer.outgoing), Flops: s.Flops, } return json.Marshal(p) }