//AddLocalProtoRoute is used to add local endpoint to the protocol RIB
func (self *OfnetBgp) AddLocalProtoRoute(pathInfo []*OfnetProtoRouteInfo) error {
if self.routerIP == "" {
//ignoring populating to the bgp rib because
//Bgp is not configured.
return nil
}
log.Infof("Received AddLocalProtoRoute to add local endpoint to protocol RIB: %+v", pathInfo)
// add routes
attrs := []bgp.PathAttributeInterface{
bgp.NewPathAttributeOrigin(1),
bgp.NewPathAttributeNextHop(pathInfo[0].nextHopIP),
bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{self.myBgpAs})}),
}
paths := []*table.Path{}
for _, path := range pathInfo {
paths = append(paths, table.NewPath(nil, bgp.NewIPAddrPrefix(32, path.localEpIP), false, attrs, time.Now(), false))
}
_, err := self.bgpServer.AddPath("", paths)
if err != nil {
return err
}
return nil
}
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 mpnlri *bgp.PathAttributeMpReachNLRI
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,
"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())
nexthop := bgp.NewPathAttributeNextHop(body.Nexthops[0].String())
pattr = append(pattr, nexthop)
case bgp.RF_IPv6_UC:
nlri = bgp.NewIPv6AddrPrefix(body.PrefixLength, body.Prefix.String())
mpnlri = bgp.NewPathAttributeMpReachNLRI(body.Nexthops[0].String(), []bgp.AddrPrefixInterface{nlri})
pattr = append(pattr, mpnlri)
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 (bs *BgpService) DelPath(route string) error {
attrs := []bgp.PathAttributeInterface{
bgp.NewPathAttributeNextHop("0.0.0.0"),
}
if err := bs.bgp.DeletePath([]byte{}, bgp.RF_IPv4_UC, "", []*table.Path{table.NewPath(nil, bgp.NewIPAddrPrefix(32, route), true, attrs, time.Now(), false)}); err != nil {
return fmt.Errorf("[bgp] Error deleting bgp path. %v", err)
}
return nil
}
func (bs *BgpService) AddPath(route string) error {
attrs := []bgp.PathAttributeInterface{
bgp.NewPathAttributeOrigin(0),
bgp.NewPathAttributeNextHop("0.0.0.0"),
}
if _, err := bs.bgp.AddPath("", []*table.Path{table.NewPath(nil, bgp.NewIPAddrPrefix(32, route), false, attrs, time.Now(), false)}); err != nil {
return fmt.Errorf("[bgp] Error adding bgp path. %v", err)
}
return nil
}
func createPathFromIPRouteMessage(m *zebra.Message, peerInfo *table.PeerInfo) *table.Path {
header := m.Header
body := m.Body.(*zebra.IPRouteBody)
isV4 := header.Command == zebra.IPV4_ROUTE_ADD || header.Command == zebra.IPV4_ROUTE_DELETE
var nlri bgp.AddrPrefixInterface
pattr := make([]bgp.PathAttributeInterface, 0)
var mpnlri *bgp.PathAttributeMpReachNLRI
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,
"api": header.Command.String(),
}).Debugf("create path from ip route message.")
if isV4 {
nlri = bgp.NewIPAddrPrefix(body.PrefixLength, body.Prefix.String())
nexthop := bgp.NewPathAttributeNextHop(body.Nexthops[0].String())
pattr = append(pattr, nexthop)
} else {
nlri = bgp.NewIPv6AddrPrefix(body.PrefixLength, body.Prefix.String())
mpnlri = bgp.NewPathAttributeMpReachNLRI(body.Nexthops[0].String(), []bgp.AddrPrefixInterface{nlri})
pattr = append(pattr, mpnlri)
}
med := bgp.NewPathAttributeMultiExitDisc(body.Metric)
pattr = append(pattr, med)
p := table.NewPath(peerInfo, nlri, isWithdraw, pattr, false, time.Now(), false)
p.IsFromZebra = true
return p
}
//DeleteLocalProtoRoute withdraws local endpoints from protocol RIB
func (self *OfnetBgp) DeleteLocalProtoRoute(pathInfo []*OfnetProtoRouteInfo) error {
log.Infof("Received DeleteLocalProtoRoute to withdraw local endpoint to protocol RIB: %v", pathInfo)
attrs := []bgp.PathAttributeInterface{
bgp.NewPathAttributeOrigin(1),
bgp.NewPathAttributeNextHop(pathInfo[0].nextHopIP),
bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{self.myBgpAs})}),
}
paths := []*table.Path{}
for _, path := range pathInfo {
paths = append(paths, table.NewPath(nil, bgp.NewIPAddrPrefix(32, path.localEpIP), true, attrs, time.Now(), false))
}
if err := self.bgpServer.DeletePath(nil, bgp.RF_IPv4_UC, "", paths); err != nil {
return err
}
return nil
}
func (p *Path) ToNativePath(option ...ToNativeOption) (*table.Path, error) {
info := &table.PeerInfo{
AS: p.SourceAsn,
ID: net.ParseIP(p.SourceId),
Address: net.ParseIP(p.NeighborIp),
}
var nlri bgp.AddrPrefixInterface
for _, o := range option {
info.LocalAS = o.LocalAS
info.LocalID = o.LocalID
info.RouteReflectorClient = o.RouteReflectorClient
info.RouteReflectorClusterID = o.RouteReflectorClusterID
nlri = o.NLRI
}
if nlri == nil {
var err error
nlri, err = getNLRI(bgp.RouteFamily(p.Family), p.Nlri)
if err != nil {
return nil, err
}
}
pattr := make([]bgp.PathAttributeInterface, 0, len(p.Pattrs))
for _, attr := range p.Pattrs {
p, err := bgp.GetPathAttribute(attr)
if err != nil {
return nil, err
}
err = p.DecodeFromBytes(attr)
if err != nil {
return nil, err
}
pattr = append(pattr, p)
}
t := time.Unix(p.Age, 0)
path := table.NewPath(info, nlri, p.IsWithdraw, pattr, t, false)
path.SetValidation(config.IntToRpkiValidationResultTypeMap[int(p.Validation)])
path.MarkStale(p.Stale)
if p.Filtered {
path.Filter("", table.POLICY_DIRECTION_IN)
}
return path, nil
}
func injectMrt(r string, filename string, count int, skip int, onlyBest bool) error {
var resource api.Resource
switch r {
case CMD_GLOBAL:
resource = api.Resource_GLOBAL
default:
return fmt.Errorf("unknown resource type: %s", r)
}
file, err := os.Open(filename)
if err != nil {
return fmt.Errorf("failed to open file: %s", err)
}
idx := 0
ch := make(chan *api.InjectMrtRequest, 1<<20)
go func() {
var peers []*mrt.Peer
for {
buf := make([]byte, mrt.MRT_COMMON_HEADER_LEN)
_, err := file.Read(buf)
if err == io.EOF {
break
} else if err != nil {
exitWithError(fmt.Errorf("failed to read: %s", err))
}
h := &mrt.MRTHeader{}
err = h.DecodeFromBytes(buf)
if err != nil {
exitWithError(fmt.Errorf("failed to parse"))
}
buf = make([]byte, h.Len)
_, err = file.Read(buf)
if err != nil {
exitWithError(fmt.Errorf("failed to read"))
}
msg, err := mrt.ParseMRTBody(h, buf)
if err != nil {
printError(fmt.Errorf("failed to parse: %s", err))
continue
}
if globalOpts.Debug {
fmt.Println(msg)
}
if msg.Header.Type == mrt.TABLE_DUMPv2 {
subType := mrt.MRTSubTypeTableDumpv2(msg.Header.SubType)
var rf bgp.RouteFamily
switch subType {
case mrt.PEER_INDEX_TABLE:
peers = msg.Body.(*mrt.PeerIndexTable).Peers
continue
case mrt.RIB_IPV4_UNICAST:
rf = bgp.RF_IPv4_UC
case mrt.RIB_IPV6_UNICAST:
rf = bgp.RF_IPv6_UC
default:
exitWithError(fmt.Errorf("unsupported subType: %s", subType))
}
if peers == nil {
exitWithError(fmt.Errorf("not found PEER_INDEX_TABLE"))
}
rib := msg.Body.(*mrt.Rib)
nlri := rib.Prefix
paths := make([]*api.Path, 0, len(rib.Entries))
for _, e := range rib.Entries {
if len(peers) < int(e.PeerIndex) {
exitWithError(fmt.Errorf("invalid peer index: %d (PEER_INDEX_TABLE has only %d peers)\n", e.PeerIndex, len(peers)))
}
if !onlyBest {
path := &api.Path{
Pattrs: make([][]byte, 0),
NoImplicitWithdraw: true,
SourceAsn: peers[e.PeerIndex].AS,
SourceId: peers[e.PeerIndex].BgpId.String(),
}
if rf == bgp.RF_IPv4_UC {
path.Nlri, _ = nlri.Serialize()
}
for _, p := range e.PathAttributes {
b, err := p.Serialize()
if err != nil {
continue
}
path.Pattrs = append(path.Pattrs, b)
}
paths = append(paths, path)
}
}
if onlyBest {
paths = func() []*api.Path {
dst := table.NewDestination(nlri)
pathList := make([]*table.Path, 0, len(rib.Entries))
for _, e := range rib.Entries {
p := table.NewPath(&table.PeerInfo{AS: peers[e.PeerIndex].AS, ID: peers[e.PeerIndex].BgpId}, nlri, false, e.PathAttributes, time.Unix(int64(e.OriginatedTime), 0), false)
dst.AddNewPath(p)
pathList = append(pathList, p)
}
best, _, _ := dst.Calculate([]string{table.GLOBAL_RIB_NAME})
for _, p := range pathList {
if p == best[table.GLOBAL_RIB_NAME] {
nb, _ := nlri.Serialize()
return []*api.Path{&api.Path{
Nlri: nb,
NoImplicitWithdraw: true,
SourceAsn: p.GetSource().AS,
SourceId: p.GetSource().ID.String(),
Pattrs: func() [][]byte {
attrs := make([][]byte, 0)
for _, a := range p.GetPathAttrs() {
if b, e := a.Serialize(); e == nil {
attrs = append(attrs, b)
}
}
return attrs
}(),
}}
}
}
exitWithError(fmt.Errorf("Can't find the best %v", nlri))
return []*api.Path{}
}()
}
if idx >= skip {
ch <- &api.InjectMrtRequest{
Resource: resource,
Paths: paths,
}
}
idx += 1
if idx == count+skip {
break
}
}
}
close(ch)
}()
stream, err := client.InjectMrt(context.Background())
if err != nil {
return fmt.Errorf("failed to modpath: %s", err)
}
for arg := range ch {
err = stream.Send(arg)
if err != nil {
return fmt.Errorf("failed to send: %s", err)
}
}
_, err = stream.CloseAndRecv()
if err != nil {
return fmt.Errorf("failed to send: %s", err)
}
return nil
}
func injectMrt(filename string, count int, skip int, onlyBest bool) error {
file, err := os.Open(filename)
if err != nil {
return fmt.Errorf("failed to open file: %s", err)
}
idx := 0
ch := make(chan []*table.Path, 1<<20)
go func() {
var peers []*mrt.Peer
for {
buf := make([]byte, mrt.MRT_COMMON_HEADER_LEN)
_, err := file.Read(buf)
if err == io.EOF {
break
} else if err != nil {
exitWithError(fmt.Errorf("failed to read: %s", err))
}
h := &mrt.MRTHeader{}
err = h.DecodeFromBytes(buf)
if err != nil {
exitWithError(fmt.Errorf("failed to parse"))
}
buf = make([]byte, h.Len)
_, err = file.Read(buf)
if err != nil {
exitWithError(fmt.Errorf("failed to read"))
}
msg, err := mrt.ParseMRTBody(h, buf)
if err != nil {
printError(fmt.Errorf("failed to parse: %s", err))
continue
}
if globalOpts.Debug {
fmt.Println(msg)
}
if msg.Header.Type == mrt.TABLE_DUMPv2 {
subType := mrt.MRTSubTypeTableDumpv2(msg.Header.SubType)
switch subType {
case mrt.PEER_INDEX_TABLE:
peers = msg.Body.(*mrt.PeerIndexTable).Peers
continue
default:
exitWithError(fmt.Errorf("unsupported subType: %v", subType))
}
if peers == nil {
exitWithError(fmt.Errorf("not found PEER_INDEX_TABLE"))
}
rib := msg.Body.(*mrt.Rib)
nlri := rib.Prefix
paths := make([]*table.Path, 0, len(rib.Entries))
for _, e := range rib.Entries {
if len(peers) < int(e.PeerIndex) {
exitWithError(fmt.Errorf("invalid peer index: %d (PEER_INDEX_TABLE has only %d peers)\n", e.PeerIndex, len(peers)))
}
source := &table.PeerInfo{
AS: peers[e.PeerIndex].AS,
ID: peers[e.PeerIndex].BgpId,
}
t := time.Unix(int64(e.OriginatedTime), 0)
paths = append(paths, table.NewPath(source, nlri, false, e.PathAttributes, t, false))
}
if onlyBest {
dst := table.NewDestination(nlri)
for _, p := range paths {
dst.AddNewPath(p)
}
best, _, _ := dst.Calculate([]string{table.GLOBAL_RIB_NAME})
if best[table.GLOBAL_RIB_NAME] == nil {
exitWithError(fmt.Errorf("Can't find the best %v", nlri))
}
paths = []*table.Path{best[table.GLOBAL_RIB_NAME]}
}
if idx >= skip {
ch <- paths
}
idx += 1
if idx == count+skip {
break
}
}
}
close(ch)
}()
stream, err := client.AddPathByStream()
if err != nil {
return fmt.Errorf("failed to modpath: %s", err)
}
for paths := range ch {
err = stream.Send(paths...)
if err != nil {
return fmt.Errorf("failed to send: %s", err)
}
}
if err := stream.Close(); err != nil {
return fmt.Errorf("failed to send: %s", err)
}
return nil
}
func TestMonitor(test *testing.T) {
assert := assert.New(test)
s := NewBgpServer()
go s.Serve()
s.Start(&config.Global{
Config: config.GlobalConfig{
As: 1,
RouterId: "1.1.1.1",
Port: 10179,
},
})
n := &config.Neighbor{
Config: config.NeighborConfig{
NeighborAddress: "127.0.0.1",
PeerAs: 2,
},
Transport: config.Transport{
Config: config.TransportConfig{
PassiveMode: true,
},
},
}
if err := s.AddNeighbor(n); err != nil {
log.Fatal(err)
}
t := NewBgpServer()
go t.Serve()
t.Start(&config.Global{
Config: config.GlobalConfig{
As: 2,
RouterId: "2.2.2.2",
Port: -1,
},
})
m := &config.Neighbor{
Config: config.NeighborConfig{
NeighborAddress: "127.0.0.1",
PeerAs: 1,
},
Transport: config.Transport{
Config: config.TransportConfig{
RemotePort: 10179,
},
},
}
if err := t.AddNeighbor(m); err != nil {
log.Fatal(err)
}
for {
time.Sleep(time.Second)
if t.GetNeighbor(false)[0].State.SessionState == config.SESSION_STATE_ESTABLISHED {
break
}
}
w := s.Watch(WatchBestPath())
attrs := []bgp.PathAttributeInterface{
bgp.NewPathAttributeOrigin(0),
bgp.NewPathAttributeNextHop("10.0.0.1"),
}
if _, err := t.AddPath("", []*table.Path{table.NewPath(nil, bgp.NewIPAddrPrefix(24, "10.0.0.0"), false, attrs, time.Now(), false)}); err != nil {
log.Fatal(err)
}
ev := <-w.Event()
b := ev.(*WatchEventBestPath)
assert.Equal(len(b.PathList), 1)
assert.Equal(b.PathList[0].GetNlri().String(), "10.0.0.0/24")
assert.Equal(b.PathList[0].IsWithdraw, false)
if _, err := t.AddPath("", []*table.Path{table.NewPath(nil, bgp.NewIPAddrPrefix(24, "10.0.0.0"), true, attrs, time.Now(), false)}); err != nil {
log.Fatal(err)
}
ev = <-w.Event()
b = ev.(*WatchEventBestPath)
assert.Equal(len(b.PathList), 1)
assert.Equal(b.PathList[0].GetNlri().String(), "10.0.0.0/24")
assert.Equal(b.PathList[0].IsWithdraw, true)
}
func (s *Server) api2PathList(resource Resource, ApiPathList []*Path) ([]*table.Path, error) {
var nlri bgp.AddrPrefixInterface
var nexthop string
var pi *table.PeerInfo
pathList := make([]*table.Path, 0, len(ApiPathList))
for _, path := range ApiPathList {
seen := make(map[bgp.BGPAttrType]bool)
pattr := make([]bgp.PathAttributeInterface, 0)
extcomms := make([]bgp.ExtendedCommunityInterface, 0)
if path.SourceAsn != 0 {
pi = &table.PeerInfo{
AS: path.SourceAsn,
LocalID: net.ParseIP(path.SourceId),
}
}
if len(path.Nlri) > 0 {
nlri = &bgp.IPAddrPrefix{}
err := nlri.DecodeFromBytes(path.Nlri)
if err != nil {
return nil, err
}
}
for _, attr := range path.Pattrs {
p, err := bgp.GetPathAttribute(attr)
if err != nil {
return nil, err
}
err = p.DecodeFromBytes(attr)
if err != nil {
return nil, err
}
if _, ok := seen[p.GetType()]; !ok {
seen[p.GetType()] = true
} else {
return nil, fmt.Errorf("the path attribute apears twice. Type : " + strconv.Itoa(int(p.GetType())))
}
switch p.GetType() {
case bgp.BGP_ATTR_TYPE_NEXT_HOP:
nexthop = p.(*bgp.PathAttributeNextHop).Value.String()
case bgp.BGP_ATTR_TYPE_EXTENDED_COMMUNITIES:
value := p.(*bgp.PathAttributeExtendedCommunities).Value
if len(value) > 0 {
extcomms = append(extcomms, value...)
}
case bgp.BGP_ATTR_TYPE_MP_REACH_NLRI:
mpreach := p.(*bgp.PathAttributeMpReachNLRI)
if len(mpreach.Value) != 1 {
return nil, fmt.Errorf("include only one route in mp_reach_nlri")
}
nlri = mpreach.Value[0]
nexthop = mpreach.Nexthop.String()
default:
pattr = append(pattr, p)
}
}
if nlri == nil || nexthop == "" {
return nil, fmt.Errorf("not found nlri or nexthop")
}
rf := bgp.AfiSafiToRouteFamily(nlri.AFI(), nlri.SAFI())
if resource != Resource_VRF && rf == bgp.RF_IPv4_UC {
pattr = append(pattr, bgp.NewPathAttributeNextHop(nexthop))
} else {
pattr = append(pattr, bgp.NewPathAttributeMpReachNLRI(nexthop, []bgp.AddrPrefixInterface{nlri}))
}
if len(extcomms) > 0 {
pattr = append(pattr, bgp.NewPathAttributeExtendedCommunities(extcomms))
}
newPath := table.NewPath(pi, nlri, path.IsWithdraw, pattr, time.Now(), path.NoImplicitWithdraw)
newPath.SetIsFromExternal(path.IsFromExternal)
pathList = append(pathList, newPath)
}
return pathList, nil
}
func ParsePath(rf bgp.RouteFamily, args []string) (*table.Path, error) {
var nlri bgp.AddrPrefixInterface
var rd bgp.RouteDistinguisherInterface
var extcomms []string
var err error
attrs := table.PathAttrs(make([]bgp.PathAttributeInterface, 0, 1))
fns := []func([]string) ([]string, bgp.PathAttributeInterface, error){
extractOrigin,
extractMed,
extractLocalPref,
extractCommunity,
extractAigp,
extractAggregator,
extractLargeCommunity,
}
for _, fn := range fns {
var a bgp.PathAttributeInterface
args, a, err = fn(args)
if err != nil {
return nil, err
}
if a != nil {
attrs = append(attrs, a)
}
}
args, nexthop, err := extractNexthop(rf, args)
if err != nil {
return nil, err
}
switch rf {
case bgp.RF_IPv4_UC, bgp.RF_IPv6_UC:
if len(args) < 1 {
return nil, fmt.Errorf("invalid format")
}
ip, net, err := net.ParseCIDR(args[0])
if err != nil {
return nil, err
}
ones, _ := net.Mask.Size()
if rf == bgp.RF_IPv4_UC {
if ip.To4() == nil {
return nil, fmt.Errorf("invalid ipv4 prefix")
}
nlri = bgp.NewIPAddrPrefix(uint8(ones), ip.String())
} else {
if ip.To16() == nil {
return nil, fmt.Errorf("invalid ipv6 prefix")
}
nlri = bgp.NewIPv6AddrPrefix(uint8(ones), ip.String())
}
extcomms = args[1:]
case bgp.RF_IPv4_VPN, bgp.RF_IPv6_VPN:
if len(args) < 5 || args[1] != "label" || args[3] != "rd" {
return nil, fmt.Errorf("invalid format")
}
ip, net, _ := net.ParseCIDR(args[0])
ones, _ := net.Mask.Size()
label := 0
if label, err = strconv.Atoi(args[2]); err != nil {
return nil, fmt.Errorf("invalid format")
}
mpls := bgp.NewMPLSLabelStack(uint32(label))
rd, err = bgp.ParseRouteDistinguisher(args[4])
if err != nil {
return nil, err
}
extcomms = args[5:]
if rf == bgp.RF_IPv4_VPN {
if ip.To4() == nil {
return nil, fmt.Errorf("invalid ipv4 prefix")
}
nlri = bgp.NewLabeledVPNIPAddrPrefix(uint8(ones), ip.String(), *mpls, rd)
} else {
if ip.To16() == nil {
return nil, fmt.Errorf("invalid ipv6 prefix")
}
nlri = bgp.NewLabeledVPNIPv6AddrPrefix(uint8(ones), ip.String(), *mpls, rd)
}
case bgp.RF_IPv4_MPLS, bgp.RF_IPv6_MPLS:
if len(args) < 2 {
return nil, fmt.Errorf("invalid format")
}
ip, net, _ := net.ParseCIDR(args[0])
ones, _ := net.Mask.Size()
mpls, err := bgp.ParseMPLSLabelStack(args[1])
if err != nil {
return nil, err
}
extcomms = args[2:]
if rf == bgp.RF_IPv4_MPLS {
if ip.To4() == nil {
return nil, fmt.Errorf("invalid ipv4 prefix")
}
nlri = bgp.NewLabeledIPAddrPrefix(uint8(ones), ip.String(), *mpls)
} else {
if ip.To4() != nil {
return nil, fmt.Errorf("invalid ipv6 prefix")
}
nlri = bgp.NewLabeledIPv6AddrPrefix(uint8(ones), ip.String(), *mpls)
}
case bgp.RF_EVPN:
nlri, extcomms, err = ParseEvpnArgs(args)
case bgp.RF_FS_IPv4_VPN, bgp.RF_FS_IPv6_VPN, bgp.RF_FS_L2_VPN:
args, rd, err = extractRouteDistinguisher(args)
if err != nil {
return nil, err
}
fallthrough
case bgp.RF_FS_IPv4_UC, bgp.RF_FS_IPv6_UC:
nlri, extcomms, err = ParseFlowSpecArgs(rf, args, rd)
case bgp.RF_OPAQUE:
m := extractReserved(args, []string{"key", "value"})
if len(m["key"]) != 1 {
return nil, fmt.Errorf("opaque nlri key missing")
}
if len(m["value"]) > 0 {
nlri = bgp.NewOpaqueNLRI([]byte(m["key"][0]), []byte(m["value"][0]))
} else {
nlri = bgp.NewOpaqueNLRI([]byte(m["key"][0]), nil)
}
default:
return nil, fmt.Errorf("Unsupported route family: %s", rf)
}
if err != nil {
return nil, err
}
if rf == bgp.RF_IPv4_UC {
attrs = append(attrs, bgp.NewPathAttributeNextHop(nexthop))
} else {
mpreach := bgp.NewPathAttributeMpReachNLRI(nexthop, []bgp.AddrPrefixInterface{nlri})
attrs = append(attrs, mpreach)
}
if extcomms != nil && len(extcomms) > 0 {
extcomms, err := ParseExtendedCommunities(strings.Join(extcomms, " "))
if err != nil {
return nil, err
}
p := bgp.NewPathAttributeExtendedCommunities(extcomms)
attrs = append(attrs, p)
}
sort.Sort(attrs)
return table.NewPath(nil, nlri, false, attrs, time.Now(), false), nil
}
func Test_createRequestFromIPRouteMessage(t *testing.T) {
assert := assert.New(t)
m := &zebra.Message{}
h := &zebra.Header{
Len: zebra.HEADER_SIZE,
Marker: zebra.HEADER_MARKER,
Version: zebra.VERSION,
Command: zebra.IPV4_ROUTE_ADD,
}
b := &zebra.IPRouteBody{
Type: zebra.ROUTE_TYPE(zebra.ROUTE_STATIC),
Flags: zebra.FLAG(zebra.FLAG_SELECTED),
Message: zebra.MESSAGE_NEXTHOP | zebra.MESSAGE_DISTANCE | zebra.MESSAGE_METRIC,
SAFI: zebra.SAFI(zebra.SAFI_UNICAST),
Prefix: net.ParseIP("192.168.100.0"),
PrefixLength: uint8(24),
Nexthops: []net.IP{net.ParseIP("0.0.0.0")},
Ifindexs: []uint32{1},
Distance: uint8(0),
Metric: uint32(100),
Api: zebra.API_TYPE(zebra.IPV4_ROUTE_ADD),
}
m.Header = *h
m.Body = b
p := createRequestFromIPRouteMessage(m)
assert.NotNil(p)
paths, err := cmd.ApiStruct2Path(p.Path)
assert.Nil(err)
assert.Equal(len(paths), 1)
path := paths[0]
pp := table.NewPath(nil, path.Nlri, path.IsWithdraw, path.PathAttrs, time.Now(), false)
pp.SetIsFromExternal(p.Path.IsFromExternal)
assert.Equal("0.0.0.0", pp.GetNexthop().String())
assert.Equal("192.168.100.0/24", pp.GetNlri().String())
assert.True(pp.IsFromExternal())
assert.False(pp.IsWithdraw)
// withdraw
h.Command = zebra.IPV4_ROUTE_DELETE
m.Header = *h
p = createRequestFromIPRouteMessage(m)
assert.NotNil(p)
paths, err = cmd.ApiStruct2Path(p.Path)
assert.Nil(err)
assert.Equal(len(paths), 1)
path = paths[0]
pp = table.NewPath(nil, path.Nlri, path.IsWithdraw, path.PathAttrs, time.Now(), false)
pp.SetIsFromExternal(p.Path.IsFromExternal)
assert.Equal("0.0.0.0", pp.GetNexthop().String())
assert.Equal("192.168.100.0/24", pp.GetNlri().String())
med, _ := pp.GetMed()
assert.Equal(uint32(100), med)
assert.True(pp.IsFromExternal())
assert.True(pp.IsWithdraw)
// IPv6
h.Command = zebra.IPV6_ROUTE_ADD
b.Prefix = net.ParseIP("2001:db8:0:f101::")
b.PrefixLength = uint8(64)
b.Nexthops = []net.IP{net.ParseIP("::")}
m.Header = *h
m.Body = b
p = createRequestFromIPRouteMessage(m)
assert.NotNil(p)
paths, err = cmd.ApiStruct2Path(p.Path)
assert.Nil(err)
assert.Equal(len(paths), 1)
path = paths[0]
pp = table.NewPath(nil, path.Nlri, path.IsWithdraw, path.PathAttrs, time.Now(), false)
pp.SetIsFromExternal(p.Path.IsFromExternal)
assert.Equal("::", pp.GetNexthop().String())
assert.Equal("2001:db8:0:f101::/64", pp.GetNlri().String())
med, _ = pp.GetMed()
assert.Equal(uint32(100), med)
assert.True(pp.IsFromExternal())
assert.False(pp.IsWithdraw)
// withdraw
h.Command = zebra.IPV6_ROUTE_DELETE
m.Header = *h
p = createRequestFromIPRouteMessage(m)
assert.NotNil(p)
paths, err = cmd.ApiStruct2Path(p.Path)
assert.Nil(err)
assert.Equal(len(paths), 1)
path = paths[0]
pp = table.NewPath(nil, path.Nlri, path.IsWithdraw, path.PathAttrs, time.Now(), false)
pp.SetIsFromExternal(p.Path.IsFromExternal)
assert.Equal("::", pp.GetNexthop().String())
assert.Equal("2001:db8:0:f101::/64", pp.GetNlri().String())
assert.True(pp.IsFromExternal())
assert.True(pp.IsWithdraw)
}
// Test adding/deleting Vlrouter routes
func TestOfnetBgpVlrouteAddDelete(t *testing.T) {
neighborAs := "500"
peer := "50.1.1.3"
routerIP := "50.1.1.2/24"
as := "65002"
//Add Bgp neighbor and check if it is successful
for i := 0; i < NUM_VLRTR_AGENT; i++ {
err := vlrtrAgents[i].AddBgp(routerIP, as, neighborAs, peer)
time.Sleep(5 * time.Second)
if err != nil {
t.Errorf("Error adding Bgp Neighbor: %v", err)
return
}
attrs := []bgp.PathAttributeInterface{
bgp.NewPathAttributeOrigin(1),
bgp.NewPathAttributeNextHop("50.1.1.3"),
bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65002})}),
}
path := table.NewPath(nil, bgp.NewIPAddrPrefix(32, "20.20.20.20"), false, attrs, time.Now(), false)
vlrtrAgents[i].protopath.ModifyProtoRib(path)
log.Infof("Adding path to the Bgp Rib")
time.Sleep(2 * time.Second)
// verify flow entry exists
brName := "vlrtrBridge" + fmt.Sprintf("%d", i)
flowList, err := ofctlFlowDump(brName)
if err != nil {
t.Errorf("Error getting flow entries. Err: %v", err)
}
ipFlowMatch := fmt.Sprintf("priority=100,ip,nw_dst=20.20.20.20")
ipTableId := IP_TBL_ID
if !ofctlFlowMatch(flowList, ipTableId, ipFlowMatch) {
t.Errorf("Could not find the route %s on ovs %s", ipFlowMatch, brName)
return
}
log.Infof("Found ipflow %s on ovs %s", ipFlowMatch, brName)
// withdraw the route
path.IsWithdraw = true
vlrtrAgents[i].protopath.ModifyProtoRib(path)
log.Infof("Withdrawing route from BGP rib")
// verify flow entry exists
brName = "vlrtrBridge" + fmt.Sprintf("%d", i)
flowList, err = ofctlFlowDump(brName)
if err != nil {
t.Errorf("Error getting flow entries. Err: %v", err)
}
ipFlowMatch = fmt.Sprintf("priority=100,ip,nw_dst=20.20.20.20")
ipTableId = IP_TBL_ID
if ofctlFlowMatch(flowList, ipTableId, ipFlowMatch) {
t.Errorf("Found the route %s on ovs %s which was withdrawn", ipFlowMatch, brName)
return
}
log.Infof("ipflow %s on ovs %s has been deleted from OVS", ipFlowMatch, brName)
}
}
