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// 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/policy"
"github.com/osrg/gobgp/table"
"net"
"time"
)
const (
FLOP_THRESHOLD = time.Second * 30
MIN_CONNECT_RETRY = 10
)
type Peer struct {
gConf config.Global
conf config.Neighbor
fsm *FSM
rfMap map[bgp.RouteFamily]bool
capMap map[bgp.BGPCapabilityCode]bgp.ParameterCapabilityInterface
adjRib *table.AdjRib
peerInfo *table.PeerInfo
outgoing chan *bgp.BGPMessage
distPolicies []*policy.Policy
defaultDistributePolicy config.DefaultPolicyType
isConfederationMember bool
isEBGP bool
}
func NewPeer(g config.Global, conf config.Neighbor) *Peer {
peer := &Peer{
gConf: g,
conf: conf,
rfMap: make(map[bgp.RouteFamily]bool),
capMap: make(map[bgp.BGPCapabilityCode]bgp.ParameterCapabilityInterface),
}
conf.NeighborState.SessionState = uint32(bgp.BGP_FSM_IDLE)
conf.Timers.TimersState.Downtime = time.Now().Unix()
for _, rf := range conf.AfiSafis.AfiSafiList {
k, _ := bgp.GetRouteFamily(rf.AfiSafiName)
peer.rfMap[k] = true
}
peer.peerInfo = &table.PeerInfo{
AS: conf.NeighborConfig.PeerAs,
LocalID: g.GlobalConfig.RouterId,
Address: conf.NeighborConfig.NeighborAddress,
}
peer.adjRib = table.NewAdjRib(peer.configuredRFlist())
peer.fsm = NewFSM(&g, &conf)
if conf.NeighborConfig.PeerAs != g.GlobalConfig.As {
peer.isEBGP = true
for _, member := range g.Confederation.ConfederationConfig.MemberAs {
if member == conf.NeighborConfig.PeerAs {
peer.isConfederationMember = true
break
}
}
}
return peer
}
func (peer *Peer) isRouteServerClient() bool {
return peer.conf.RouteServer.RouteServerConfig.RouteServerClient
}
func (peer *Peer) configuredRFlist() []bgp.RouteFamily {
rfList := []bgp.RouteFamily{}
for _, rf := range peer.conf.AfiSafis.AfiSafiList {
k, _ := bgp.GetRouteFamily(rf.AfiSafiName)
rfList = append(rfList, k)
}
return rfList
}
func (peer *Peer) handleBGPmessage(m *bgp.BGPMessage) ([]*table.Path, bool, []*bgp.BGPMessage) {
bgpMsgList := []*bgp.BGPMessage{}
pathList := []*table.Path{}
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
"data": m,
}).Debug("received")
update := false
switch m.Header.Type {
case bgp.BGP_MSG_OPEN:
body := m.Body.(*bgp.BGPOpen)
peer.peerInfo.ID = m.Body.(*bgp.BGPOpen).ID
r := make(map[bgp.RouteFamily]bool)
for _, p := range body.OptParams {
if paramCap, y := p.(*bgp.OptionParameterCapability); y {
for _, c := range paramCap.Capability {
peer.capMap[c.Code()] = c
if c.Code() == bgp.BGP_CAP_MULTIPROTOCOL {
m := c.(*bgp.CapMultiProtocol)
r[bgp.AfiSafiToRouteFamily(m.CapValue.AFI, m.CapValue.SAFI)] = true
}
}
}
}
for rf, _ := range peer.rfMap {
if _, y := r[rf]; !y {
delete(peer.rfMap, rf)
}
}
for _, rf := range peer.configuredRFlist() {
if _, ok := r[rf]; ok {
peer.rfMap[rf] = true
}
}
// calculate HoldTime
// RFC 4271 P.13
// a BGP speaker MUST calculate the value of the Hold Timer
// by using the smaller of its configured Hold Time and the Hold Time
// received in the OPEN message.
holdTime := float64(body.HoldTime)
myHoldTime := peer.conf.Timers.TimersConfig.HoldTime
if holdTime > myHoldTime {
peer.fsm.negotiatedHoldTime = myHoldTime
} else {
peer.fsm.negotiatedHoldTime = holdTime
}
case bgp.BGP_MSG_ROUTE_REFRESH:
rr := m.Body.(*bgp.BGPRouteRefresh)
rf := bgp.AfiSafiToRouteFamily(rr.AFI, rr.SAFI)
if _, ok := peer.rfMap[rf]; !ok {
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
"Data": rf,
}).Warn("Route family isn't supported")
break
}
if _, ok := peer.capMap[bgp.BGP_CAP_ROUTE_REFRESH]; ok {
pathList = peer.adjRib.GetOutPathList(rf)
} else {
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
}).Warn("ROUTE_REFRESH received but the capability wasn't advertised")
}
case bgp.BGP_MSG_UPDATE:
update = true
peer.conf.Timers.TimersState.UpdateRecvTime = time.Now().Unix()
body := m.Body.(*bgp.BGPUpdate)
confedCheckRequired := !peer.isConfederationMember && peer.isEBGP
_, err := bgp.ValidateUpdateMsg(body, peer.rfMap, confedCheckRequired)
if err != nil {
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
"error": err,
}).Warn("malformed BGP update message")
m := err.(*bgp.MessageError)
if m.TypeCode != 0 {
bgpMsgList = append(bgpMsgList, bgp.NewBGPNotificationMessage(m.TypeCode, m.SubTypeCode, m.Data))
}
break
}
table.UpdatePathAttrs4ByteAs(body)
pathList = table.ProcessMessage(m, peer.peerInfo)
peer.adjRib.UpdateIn(pathList)
}
return pathList, update, bgpMsgList
}
func (peer *Peer) getBests(loc *LocalRib) []*table.Path {
pathList := []*table.Path{}
for _, rf := range peer.configuredRFlist() {
for _, paths := range loc.rib.GetPathList(rf) {
pathList = append(pathList, paths)
}
}
return pathList
}
func (peer *Peer) startFSMHandler(incoming chan *fsmMsg) {
peer.fsm.h = NewFSMHandler(peer.fsm, incoming, peer.outgoing)
}
func (peer *Peer) PassConn(conn *net.TCPConn) {
isEBGP := peer.gConf.GlobalConfig.As != peer.conf.NeighborConfig.PeerAs
if isEBGP {
ttl := 1
SetTcpTTLSockopts(conn, ttl)
}
select {
case peer.fsm.connCh <- conn:
default:
conn.Close()
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
}).Warn("accepted conn is closed to avoid be blocked")
}
}
func (peer *Peer) MarshalJSON() ([]byte, error) {
return json.Marshal(peer.ToApiStruct())
}
func (peer *Peer) ToApiStruct() *api.Peer {
f := peer.fsm
c := f.pConf
remoteCap := make([]*api.Capability, 0, len(peer.capMap))
for _, c := range peer.capMap {
remoteCap = append(remoteCap, c.ToApiStruct())
}
caps := capabilitiesFromConfig(&peer.gConf, &peer.conf)
localCap := make([]*api.Capability, 0, len(caps))
for _, c := range caps {
localCap = append(localCap, c.ToApiStruct())
}
conf := &api.PeerConf{
RemoteIp: c.NeighborConfig.NeighborAddress.String(),
Id: peer.peerInfo.ID.To4().String(),
RemoteAs: c.NeighborConfig.PeerAs,
RemoteCap: remoteCap,
LocalCap: localCap,
KeepaliveInterval: uint32(peer.conf.Timers.TimersConfig.KeepaliveInterval),
Holdtime: uint32(peer.conf.Timers.TimersConfig.HoldTime),
}
s := &c.NeighborState
timer := &c.Timers
uptime := int64(0)
if timer.TimersState.Uptime != 0 {
uptime = int64(time.Now().Sub(time.Unix(timer.TimersState.Uptime, 0)).Seconds())
}
downtime := int64(0)
if timer.TimersState.Downtime != 0 {
downtime = int64(time.Now().Sub(time.Unix(timer.TimersState.Downtime, 0)).Seconds())
}
advertized := uint32(0)
received := uint32(0)
accepted := uint32(0)
if f.state == bgp.BGP_FSM_ESTABLISHED {
for _, rf := range peer.configuredRFlist() {
advertized += uint32(peer.adjRib.GetOutCount(rf))
received += uint32(peer.adjRib.GetInCount(rf))
// FIXME: we should store 'accepted' in memory
for _, p := range peer.adjRib.GetInPathList(rf) {
applied, path := peer.applyDistributePolicies(p)
if applied && path == nil || !applied && peer.defaultDistributePolicy != config.DEFAULT_POLICY_TYPE_ACCEPT_ROUTE {
continue
}
accepted += 1
}
}
}
keepalive := uint32(0)
if f.negotiatedHoldTime != 0 {
if f.negotiatedHoldTime < timer.TimersConfig.HoldTime {
keepalive = uint32(f.negotiatedHoldTime / 3)
} else {
keepalive = uint32(timer.TimersConfig.KeepaliveInterval)
}
}
info := &api.PeerInfo{
BgpState: f.state.String(),
AdminState: f.adminState.String(),
FsmEstablishedTransitions: s.EstablishedCount,
TotalMessageOut: s.Messages.Sent.Total,
TotalMessageIn: s.Messages.Received.Total,
UpdateMessageOut: s.Messages.Sent.Update,
UpdateMessageIn: s.Messages.Received.Update,
KeepAliveMessageOut: s.Messages.Sent.Keepalive,
KeepAliveMessageIn: s.Messages.Received.Keepalive,
OpenMessageOut: s.Messages.Sent.Open,
OpenMessageIn: s.Messages.Received.Open,
NotificationOut: s.Messages.Sent.Notification,
NotificationIn: s.Messages.Received.Notification,
RefreshMessageOut: s.Messages.Sent.Refresh,
RefreshMessageIn: s.Messages.Received.Refresh,
DiscardedOut: s.Messages.Sent.Discarded,
DiscardedIn: s.Messages.Received.Discarded,
Uptime: uptime,
Downtime: downtime,
Received: received,
Accepted: accepted,
Advertized: advertized,
OutQ: uint32(len(peer.outgoing)),
Flops: s.Flops,
NegotiatedHoldtime: uint32(f.negotiatedHoldTime),
KeepaliveInterval: keepalive,
}
return &api.Peer{
Conf: conf,
Info: info,
}
}
func (peer *Peer) setDistributePolicy(policyMap map[string]*policy.Policy) {
// configure distribute policy
policyConf := peer.conf.ApplyPolicy
distPolicies := make([]*policy.Policy, 0)
for _, policyName := range policyConf.ApplyPolicyConfig.DistributePolicy {
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
"PolicyName": policyName,
}).Info("distribute policy installed")
if pol, ok := policyMap[policyName]; ok {
log.Debug("distribute policy : ", pol)
distPolicies = append(distPolicies, pol)
}
}
peer.distPolicies = distPolicies
peer.defaultDistributePolicy = policyConf.ApplyPolicyConfig.DefaultDistributePolicy
}
func (peer *Peer) applyDistributePolicies(original *table.Path) (bool, *table.Path) {
policies := peer.distPolicies
var d Direction = POLICY_DIRECTION_DISTRIBUTE
return applyPolicy("Peer", peer.conf.NeighborConfig.NeighborAddress.String(), d, policies, original)
}
type LocalRib struct {
rib *table.TableManager
importPolicies []*policy.Policy
defaultImportPolicy config.DefaultPolicyType
exportPolicies []*policy.Policy
defaultExportPolicy config.DefaultPolicyType
}
func NewLocalRib(owner string, rfList []bgp.RouteFamily, policyMap map[string]*policy.Policy) *LocalRib {
return &LocalRib{
rib: table.NewTableManager(owner, rfList),
}
}
func (loc *LocalRib) OwnerName() string {
return loc.rib.OwnerName()
}
func (loc *LocalRib) isGlobal() bool {
return loc.OwnerName() == "global"
}
func (loc *LocalRib) setPolicy(peer *Peer, policyMap map[string]*policy.Policy) {
// configure import policy
policyConf := peer.conf.ApplyPolicy
inPolicies := make([]*policy.Policy, 0)
for _, policyName := range policyConf.ApplyPolicyConfig.ImportPolicy {
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
"PolicyName": policyName,
}).Info("import policy installed")
if pol, ok := policyMap[policyName]; ok {
log.Debug("import policy : ", pol)
inPolicies = append(inPolicies, pol)
}
}
loc.importPolicies = inPolicies
loc.defaultImportPolicy = policyConf.ApplyPolicyConfig.DefaultImportPolicy
// configure export policy
outPolicies := make([]*policy.Policy, 0)
for _, policyName := range policyConf.ApplyPolicyConfig.ExportPolicy {
log.WithFields(log.Fields{
"Topic": "Peer",
"Key": peer.conf.NeighborConfig.NeighborAddress,
"PolicyName": policyName,
}).Info("export policy installed")
if pol, ok := policyMap[policyName]; ok {
log.Debug("export policy : ", pol)
outPolicies = append(outPolicies, pol)
}
}
loc.exportPolicies = outPolicies
loc.defaultExportPolicy = policyConf.ApplyPolicyConfig.DefaultExportPolicy
}
// apply policies to the path
// if multiple policies are defined,
// this function applies each policy to the path in the order that
// policies are stored in the array passed to this function.
//
// the way of applying statements inside a single policy
// - apply statement until the condition in the statement matches.
// if the condition matches the path, apply the action on the statement and
// return value that indicates 'applied' to caller of this function
// - if no statement applied, then process the next policy
//
// if no policy applied, return value that indicates 'not applied' to the caller of this function
//
// return values:
// bool -- indicates that any of policy applied to the path that is passed to this function
// table.Path -- indicates new path object that is the result of modification according to
// policy's action.
// If the applied policy doesn't have a modification action,
// then return the path itself that is passed to this function, otherwise return
// modified path.
// If action of the policy is 'reject', return nil
//
func (loc *LocalRib) applyPolicies(d Direction, original *table.Path) (bool, *table.Path) {
var policies []*policy.Policy
switch d {
case POLICY_DIRECTION_EXPORT:
policies = loc.exportPolicies
case POLICY_DIRECTION_IMPORT:
policies = loc.importPolicies
}
return applyPolicy("Loc", loc.OwnerName(), d, policies, original)
}
func applyPolicy(component, owner string, d Direction, policies []*policy.Policy, original *table.Path) (bool, *table.Path) {
var applied bool = true
for _, pol := range policies {
if result, action, newpath := pol.Apply(original); result {
log.Debug("newpath: ", newpath)
if action == policy.ROUTE_TYPE_REJECT {
log.WithFields(log.Fields{
"Topic": component,
"Key": owner,
"NRLI": original.GetNlri(),
"Dir": d,
}).Debug("path was rejected")
// return applied, nil, this means path was rejected
return applied, nil
} else {
// return applied, new path
return applied, newpath
}
}
}
log.WithFields(log.Fields{
"Topic": component,
"Key": owner,
"Len": len(policies),
"NRLI": original,
"Dir": d,
}).Debug("no policy applied")
return !applied, original
}
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