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// 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"
"github.com/osrg/gobgp/packet/bgp"
"github.com/osrg/gobgp/table"
"github.com/osrg/gobgp/zebra"
log "github.com/sirupsen/logrus"
"net"
"strconv"
"strings"
"syscall"
"time"
)
type pathList []*table.Path
type nexthopTrackingManager struct {
dead chan struct{}
nexthopCache []*net.IP
server *BgpServer
delay int
isScheduled bool
scheduledPathList map[string]pathList
trigger chan struct{}
pathListCh chan pathList
}
func newNexthopTrackingManager(server *BgpServer, delay int) *nexthopTrackingManager {
return &nexthopTrackingManager{
dead: make(chan struct{}),
nexthopCache: make([]*net.IP, 0),
server: server,
delay: delay,
scheduledPathList: make(map[string]pathList, 0),
trigger: make(chan struct{}),
pathListCh: make(chan pathList),
}
}
func (s *nexthopTrackingManager) stop() {
close(s.pathListCh)
close(s.trigger)
close(s.dead)
}
func (m *nexthopTrackingManager) isRegisteredNexthop(nexthop net.IP) bool {
for _, cached := range m.nexthopCache {
if cached.Equal(nexthop) {
return true
}
}
return false
}
func (m *nexthopTrackingManager) registerNexthop(nexthop net.IP) bool {
if m.isRegisteredNexthop(nexthop) {
return false
}
m.nexthopCache = append(m.nexthopCache, &nexthop)
return true
}
func (m *nexthopTrackingManager) appendPathList(paths pathList) {
if len(paths) == 0 {
return
}
path := paths[0]
m.scheduledPathList[path.GetNexthop().String()] = paths
}
func (m *nexthopTrackingManager) calculateDelay(penalty int) int {
if penalty <= 950 {
return m.delay
}
delay := 8
for penalty > 950 {
delay += 8
penalty /= 2
}
return delay
}
func (m *nexthopTrackingManager) triggerUpdatePathAfter(delay int) {
time.Sleep(time.Duration(delay) * time.Second)
m.trigger <- struct{}{}
}
func (m *nexthopTrackingManager) loop() {
t := time.NewTicker(8 * time.Second)
defer t.Stop()
penalty := 0
for {
select {
case <-m.dead:
return
case <-t.C:
penalty /= 2
case paths := <-m.pathListCh:
penalty += 500
log.WithFields(log.Fields{
"Topic": "Zebra",
"Event": "Nexthop Tracking",
}).Debug("penalty 500 chrged: penalty: %d", penalty)
m.appendPathList(paths)
isScheduled := m.isScheduled
if isScheduled {
log.WithFields(log.Fields{
"Topic": "Zebra",
"Event": "Nexthop Tracking",
}).Debug("nexthop tracking event already scheduled")
continue
} else {
m.isScheduled = true
}
delay := m.calculateDelay(penalty)
go m.triggerUpdatePathAfter(delay)
log.WithFields(log.Fields{
"Topic": "Zebra",
"Event": "Nexthop Tracking",
}).Debug("nexthop tracking event scheduled in %d secs", delay)
case <-m.trigger:
paths := make(pathList, 0)
for _, pList := range m.scheduledPathList {
for _, p := range pList {
paths = append(paths, p)
}
}
log.WithFields(log.Fields{
"Topic": "Zebra",
"Event": "Nexthop Tracking",
}).Debug("update nexthop reachability: %s", paths)
if err := m.server.UpdatePath("", paths); err != nil {
log.WithFields(log.Fields{
"Topic": "Zebra",
"Event": "Nexthop Tracking",
}).Error("failed to update nexthop reachability")
}
m.isScheduled = false
m.scheduledPathList = make(map[string]pathList, 0)
}
}
}
func (m *nexthopTrackingManager) scheduleUpdate(paths pathList) {
if len(paths) == 0 {
return
}
m.pathListCh <- paths
}
func filterOutNilPath(paths pathList) pathList {
filteredPaths := make(pathList, 0, len(paths))
for _, path := range paths {
if path == nil {
continue
}
filteredPaths = append(filteredPaths, path)
}
return filteredPaths
}
func filterOutExternalPath(paths pathList) pathList {
filteredPaths := make(pathList, 0, len(paths))
for _, path := range paths {
if path == nil || path.IsFromExternal() {
continue
}
filteredPaths = append(filteredPaths, path)
}
return filteredPaths
}
func newIPRouteMessage(dst pathList, version uint8, vrfId uint16) *zebra.Message {
paths := filterOutExternalPath(dst)
if len(paths) == 0 {
return nil
}
path := paths[0]
l := strings.SplitN(path.GetNlri().String(), "/", 2)
var command zebra.API_TYPE
var prefix net.IP
nexthops := make([]net.IP, 0, len(paths))
switch path.GetRouteFamily() {
case bgp.RF_IPv4_UC, bgp.RF_IPv4_VPN:
if path.IsWithdraw == true {
command = zebra.IPV4_ROUTE_DELETE
} else {
command = zebra.IPV4_ROUTE_ADD
}
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 {
nexthops = append(nexthops, p.GetNexthop().To4())
}
case bgp.RF_IPv6_UC, bgp.RF_IPv6_VPN:
if path.IsWithdraw == true {
command = zebra.IPV6_ROUTE_DELETE
} else {
command = zebra.IPV6_ROUTE_ADD
}
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 {
nexthops = append(nexthops, p.GetNexthop().To16())
}
default:
return nil
}
msgFlags := zebra.MESSAGE_NEXTHOP
plen, _ := strconv.Atoi(l[1])
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.Message{
Header: zebra.Header{
Len: zebra.HeaderSize(version),
Marker: zebra.HEADER_MARKER,
Version: version,
Command: command,
VrfId: vrfId,
},
Body: &zebra.IPRouteBody{
Type: zebra.ROUTE_BGP,
Flags: flags,
SAFI: zebra.SAFI_UNICAST,
Message: msgFlags,
Prefix: prefix,
PrefixLength: uint8(plen),
Nexthops: nexthops,
Metric: med,
},
}
}
func newNexthopRegisterMessage(dst pathList, version uint8, vrfId uint16, nhtManager *nexthopTrackingManager) *zebra.Message {
// Note: NEXTHOP_REGISTER and NEXTHOP_UNREGISTER messages are not
// supported in Zebra protocol version<3.
if version < 3 || nhtManager == nil {
return nil
}
paths := filterOutNilPath(dst)
if len(paths) == 0 {
return nil
}
route_family := paths[0].GetRouteFamily()
command := zebra.NEXTHOP_REGISTER
if paths[0].IsWithdraw == true {
// TODO:
// Send NEXTHOP_UNREGISTER message if the given nexthop is no longer
// referred by any path. Currently, do not send NEXTHOP_UNREGISTER
// message to simplify the implementation.
//command = zebra.NEXTHOP_UNREGISTER
return nil
}
nexthops := make([]*zebra.RegisteredNexthop, 0, len(paths))
for _, p := range paths {
nexthop := p.GetNexthop()
// Skips to register or unregister the given nexthop
// when the nexthop is:
// - already registered
// - already invalidated
// - an unspecified address
if nhtManager.isRegisteredNexthop(nexthop) || p.IsNexthopInvalid || nexthop.IsUnspecified() {
continue
}
var nh *zebra.RegisteredNexthop
switch route_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:
return nil
}
nexthops = append(nexthops, nh)
nhtManager.registerNexthop(nexthop)
}
// If no nexthop needs to be registered or unregistered,
// skips to send message.
if len(nexthops) == 0 {
return nil
}
return &zebra.Message{
Header: zebra.Header{
Len: zebra.HeaderSize(version),
Marker: zebra.HEADER_MARKER,
Version: version,
Command: command,
VrfId: vrfId,
},
Body: &zebra.NexthopRegisterBody{
Nexthops: nexthops,
},
}
}
func createPathFromIPRouteMessage(m *zebra.Message) *table.Path {
header := m.Header
body := m.Body.(*zebra.IPRouteBody)
family := bgp.RF_IPv6_UC
if header.Command == zebra.IPV4_ROUTE_ADD || header.Command == zebra.IPV4_ROUTE_DELETE {
family = bgp.RF_IPv4_UC
}
var nlri bgp.AddrPrefixInterface
pattr := make([]bgp.PathAttributeInterface, 0)
var isWithdraw bool = header.Command == zebra.IPV4_ROUTE_DELETE || header.Command == zebra.IPV6_ROUTE_DELETE
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,
"Prefix": body.Prefix,
"PrefixLength": body.PrefixLength,
"Nexthop": body.Nexthops,
"IfIndex": body.Ifindexs,
"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.PrefixLength, body.Prefix.String())
if len(body.Nexthops) > 0 {
pattr = append(pattr, bgp.NewPathAttributeNextHop(body.Nexthops[0].String()))
}
case bgp.RF_IPv6_UC:
nlri = bgp.NewIPv6AddrPrefix(body.PrefixLength, body.Prefix.String())
nexthop := ""
if len(body.Nexthops) > 0 {
nexthop = body.Nexthops[0].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
}
func createPathListFromNexthopUpdateMessage(m *zebra.Message, manager *table.TableManager) (pathList, error) {
body := m.Body.(*zebra.NexthopUpdateBody)
isNexthopInvalid := len(body.Nexthops) == 0
var rfList []bgp.RouteFamily
switch body.Family {
case uint16(syscall.AF_INET):
rfList = []bgp.RouteFamily{bgp.RF_IPv4_UC, bgp.RF_IPv4_VPN}
case uint16(syscall.AF_INET6):
rfList = []bgp.RouteFamily{bgp.RF_IPv6_UC, bgp.RF_IPv6_VPN}
default:
return nil, fmt.Errorf("invalid address family: %d", body.Family)
}
paths := manager.GetPathListWithNexthop(table.GLOBAL_RIB_NAME, rfList, body.Prefix)
updatedPathList := make(pathList, 0, len(paths))
for _, path := range paths {
newPath := path.Clone(false)
if isNexthopInvalid {
// If NEXTHOP_UPDATE message does NOT contain any nexthop,
// invalidates the nexthop reachability.
newPath.IsNexthopInvalid = true
} else {
// If NEXTHOP_UPDATE message contains valid nexthops,
// copies Metric into MED.
newPath.IsNexthopInvalid = false
newPath.SetMed(int64(body.Metric), true)
}
updatedPathList = append(updatedPathList, newPath)
}
return updatedPathList, nil
}
type zebraClient struct {
client *zebra.Client
server *BgpServer
dead chan struct{}
nhtManager *nexthopTrackingManager
}
func (z *zebraClient) stop() {
close(z.dead)
}
func (z *zebraClient) loop() {
w := z.server.Watch(WatchBestPath(true))
defer w.Stop()
if z.nhtManager != nil {
go z.nhtManager.loop()
defer z.nhtManager.stop()
}
for {
select {
case <-z.dead:
return
case msg := <-z.client.Receive():
switch msg.Body.(type) {
case *zebra.IPRouteBody:
if p := createPathFromIPRouteMessage(msg); p != nil {
if _, err := z.server.AddPath("", pathList{p}); err != nil {
log.Errorf("failed to add path from zebra: %s", p)
}
}
case *zebra.NexthopUpdateBody:
if z.nhtManager != nil {
body := msg.Body.(*zebra.NexthopUpdateBody)
if paths, err := createPathListFromNexthopUpdateMessage(msg, z.server.globalRib); err != nil {
log.Errorf("failed to create updated path list related to nexthop %s", body.Prefix.String())
} else {
z.nhtManager.scheduleUpdate(paths)
}
}
}
case ev := <-w.Event():
msg := ev.(*WatchEventBestPath)
if table.UseMultiplePaths.Enabled {
for _, dst := range msg.MultiPathList {
if m := newIPRouteMessage(dst, z.client.Version, 0); m != nil {
z.client.Send(m)
}
if m := newNexthopRegisterMessage(dst, z.client.Version, 0, z.nhtManager); m != nil {
z.client.Send(m)
}
}
} else {
for _, path := range msg.PathList {
if len(path.VrfIds) == 0 {
path.VrfIds = []uint16{0}
}
for _, i := range path.VrfIds {
if m := newIPRouteMessage(pathList{path}, z.client.Version, i); m != nil {
z.client.Send(m)
}
if m := newNexthopRegisterMessage(pathList{path}, z.client.Version, i, z.nhtManager); m != nil {
z.client.Send(m)
}
}
}
}
}
}
}
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)
}
cli, err := zebra.NewClient(l[0], l[1], zebra.ROUTE_BGP, version)
if err != nil {
// Retry with another Zebra message version
var retry_version uint8 = 2
if version == 2 {
retry_version = 3
}
log.WithFields(log.Fields{
"Topic": "Zebra",
}).Warnf("cannot connect to Zebra with message version %d. retry with version %d", version, retry_version)
cli, err = zebra.NewClient(l[0], l[1], zebra.ROUTE_BGP, retry_version)
if err != 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)
if err != nil {
return nil, err
}
cli.SendRedistribute(t, zebra.VRF_DEFAULT)
}
var nhtManager *nexthopTrackingManager = nil
if nhtEnable {
nhtManager = newNexthopTrackingManager(s, int(nhtDelay))
}
w := &zebraClient{
dead: make(chan struct{}),
client: cli,
server: s,
nhtManager: nhtManager,
}
go w.loop()
return w, nil
}
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