Beispiel #1
0
// before:
//  as-path  : 65000, 4000, 23456, 23456, 40001
//  as4-path : {10, 20, 30} 400000, 300000, 40001
// expected result:
//  as-path  : 65000, {10, 20, 30}, 400000, 300000, 40001
func TestAsPathAs4Trans5(t *testing.T) {
	as := []uint16{65000, 4000, bgp.AS_TRANS, bgp.AS_TRANS, 40001}
	params := []bgp.AsPathParamInterface{bgp.NewAsPathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, as)}
	aspath := bgp.NewPathAttributeAsPath(params)

	as4 := []uint32{400000, 300000, 40001}
	as4param1 := bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, as4)
	as5 := []uint32{10, 20, 30}
	as4param2 := bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SET, as5)
	param4s := []*bgp.As4PathParam{as4param2, as4param1}
	as4path := bgp.NewPathAttributeAs4Path(param4s)
	msg := bgp.NewBGPUpdateMessage(nil, []bgp.PathAttributeInterface{aspath, as4path}, nil).Body.(*bgp.BGPUpdate)
	UpdatePathAttrs4ByteAs(msg)
	assert.Equal(t, len(msg.PathAttributes), 1)
	assert.Equal(t, len(msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value), 3)
	assert.Equal(t, len(msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.As4PathParam).AS), 1)
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.As4PathParam).AS[0], uint32(65000))
	assert.Equal(t, len(msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[1].(*bgp.As4PathParam).AS), 3)
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[1].(*bgp.As4PathParam).AS[0], uint32(10))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[1].(*bgp.As4PathParam).AS[1], uint32(20))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[1].(*bgp.As4PathParam).AS[2], uint32(30))
	assert.Equal(t, len(msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[2].(*bgp.As4PathParam).AS), 3)
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[2].(*bgp.As4PathParam).AS[0], uint32(400000))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[2].(*bgp.As4PathParam).AS[1], uint32(300000))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[2].(*bgp.As4PathParam).AS[2], uint32(40001))
}
Beispiel #2
0
func TestImplicitWithdrawCalculate(t *testing.T) {
	origin := bgp.NewPathAttributeOrigin(0)
	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{65001})}
	aspath := bgp.NewPathAttributeAsPath(aspathParam)
	nexthop := bgp.NewPathAttributeNextHop("10.0.0.1")
	med := bgp.NewPathAttributeMultiExitDisc(0)
	pathAttributes := []bgp.PathAttributeInterface{origin, aspath, nexthop, med}
	nlri := bgp.NewIPAddrPrefix(24, "10.10.0.101")
	updateMsg := bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	peer1 := &PeerInfo{AS: 1, Address: net.IP{1, 1, 1, 1}}
	path1 := ProcessMessage(updateMsg, peer1, time.Now())[0]
	path1.Filter("1", POLICY_DIRECTION_IMPORT)

	// suppose peer2 has import policy to prepend as-path
	action := &AsPathPrependAction{
		asn:    100,
		repeat: 1,
	}

	path2 := action.Apply(path1.Clone(false), nil)
	path1.Filter("2", POLICY_DIRECTION_IMPORT)
	path2.Filter("1", POLICY_DIRECTION_IMPORT)
	path2.Filter("3", POLICY_DIRECTION_IMPORT)

	d := NewDestination(nlri)
	d.AddNewPath(path1)
	d.AddNewPath(path2)

	d.Calculate(nil)

	assert.Equal(t, len(d.GetKnownPathList("1")), 0) // peer "1" is the originator
	assert.Equal(t, len(d.GetKnownPathList("2")), 1)
	assert.Equal(t, d.GetKnownPathList("2")[0].GetAsString(), "100 65001") // peer "2" has modified path {100, 65001}
	assert.Equal(t, len(d.GetKnownPathList("3")), 1)
	assert.Equal(t, d.GetKnownPathList("3")[0].GetAsString(), "65001") // peer "3" has original path {65001}
	assert.Equal(t, len(d.knownPathList), 2)

	// say, we removed peer2's import policy and
	// peer1 advertised new path with the same prefix
	aspathParam = []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{65001, 65002})}
	aspath = bgp.NewPathAttributeAsPath(aspathParam)
	pathAttributes = []bgp.PathAttributeInterface{origin, aspath, nexthop, med}
	updateMsg = bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	path3 := ProcessMessage(updateMsg, peer1, time.Now())[0]
	path3.Filter("1", POLICY_DIRECTION_IMPORT)

	d.AddNewPath(path3)
	d.Calculate(nil)

	assert.Equal(t, len(d.GetKnownPathList("1")), 0) // peer "1" is the originator
	assert.Equal(t, len(d.GetKnownPathList("2")), 1)
	assert.Equal(t, d.GetKnownPathList("2")[0].GetAsString(), "65001 65002") // peer "2" has new original path {65001, 65002}
	assert.Equal(t, len(d.GetKnownPathList("3")), 1)
	assert.Equal(t, d.GetKnownPathList("3")[0].GetAsString(), "65001 65002") // peer "3" has new original path {65001, 65002}
	assert.Equal(t, len(d.knownPathList), 1)
}
Beispiel #3
0
func TestMedTieBreaker(t *testing.T) {
	nlri := bgp.NewIPAddrPrefix(24, "10.10.0.0")

	p0 := func() *Path {
		aspath := bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65001, 65002}), bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65003, 65004})})
		attrs := []bgp.PathAttributeInterface{aspath, bgp.NewPathAttributeMultiExitDisc(0)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	p1 := func() *Path {
		aspath := bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65001, 65002}), bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65003, 65005})})
		attrs := []bgp.PathAttributeInterface{aspath, bgp.NewPathAttributeMultiExitDisc(10)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	// same AS
	assert.Equal(t, compareByMED(p0, p1), p0)

	p2 := func() *Path {
		aspath := bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65003})})
		attrs := []bgp.PathAttributeInterface{aspath, bgp.NewPathAttributeMultiExitDisc(10)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	// different AS
	assert.Equal(t, compareByMED(p0, p2), (*Path)(nil))

	p3 := func() *Path {
		aspath := bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SEQ, []uint32{65003, 65004}), bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65001, 65003})})
		attrs := []bgp.PathAttributeInterface{aspath, bgp.NewPathAttributeMultiExitDisc(0)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	p4 := func() *Path {
		aspath := bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, []uint32{65001, 65002}), bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SEQ, []uint32{65005, 65006})})
		attrs := []bgp.PathAttributeInterface{aspath, bgp.NewPathAttributeMultiExitDisc(10)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	// ignore confed
	assert.Equal(t, compareByMED(p3, p4), p3)

	p5 := func() *Path {
		attrs := []bgp.PathAttributeInterface{bgp.NewPathAttributeMultiExitDisc(0)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	p6 := func() *Path {
		attrs := []bgp.PathAttributeInterface{bgp.NewPathAttributeMultiExitDisc(10)}
		return NewPath(nil, nlri, false, attrs, time.Now(), false)
	}()

	// no aspath
	assert.Equal(t, compareByMED(p5, p6), p5)
}
Beispiel #4
0
//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
}
Beispiel #5
0
// PrependAsn prepends AS number.
// This function updates the AS_PATH attribute as follows.
//  1) if the first path segment of the AS_PATH is of type
//     AS_SEQUENCE, the local system prepends the specified AS num as
//     the last element of the sequence (put it in the left-most
//     position with respect to the position of  octets in the
//     protocol message) the specified number of times.
//     If the act of prepending will cause an overflow in the AS_PATH
//     segment (i.e.,  more than 255 ASes),
//     it SHOULD prepend a new segment of type AS_SEQUENCE
//     and prepend its own AS number to this new segment.
//
//  2) if the first path segment of the AS_PATH is of other than type
//     AS_SEQUENCE, the local system prepends a new path segment of type
//     AS_SEQUENCE to the AS_PATH, including the specified AS number in
//     that segment.
//
//  3) if the AS_PATH is empty, the local system creates a path
//     segment of type AS_SEQUENCE, places the specified AS number
//     into that segment, and places that segment into the AS_PATH.
func (path *Path) PrependAsn(asn uint32, repeat uint8) {

	original := path.GetAsPath()

	asns := make([]uint32, repeat)
	for i, _ := range asns {
		asns[i] = asn
	}

	var asPath *bgp.PathAttributeAsPath
	if original == nil {
		asPath = bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{})
	} else {
		asPath = cloneAsPath(original)
	}

	if len(asPath.Value) > 0 {
		fst := asPath.Value[0].(*bgp.As4PathParam)
		if fst.Type == bgp.BGP_ASPATH_ATTR_TYPE_SEQ {
			if len(fst.AS)+int(repeat) > 255 {
				repeat = uint8(255 - len(fst.AS))
			}
			fst.AS = append(asns[:int(repeat)], fst.AS...)
			fst.Num += repeat
			asns = asns[int(repeat):]
		}
	}

	if len(asns) > 0 {
		p := bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, asns)
		asPath.Value = append([]bgp.AsPathParamInterface{p}, asPath.Value...)
	}
	path.setPathAttr(asPath)
}
Beispiel #6
0
func strToASParam(str string) *bgp.PathAttributeAsPath {
	toList := func(asstr, sep string) []uint32 {
		as := make([]uint32, 0)
		l := strings.Split(asstr, sep)
		for _, s := range l {
			v, _ := strconv.ParseUint(s, 10, 32)
			as = append(as, uint32(v))
		}
		return as
	}
	var atype uint8
	var as []uint32
	if strings.HasPrefix(str, "{") {
		atype = bgp.BGP_ASPATH_ATTR_TYPE_SET
		as = toList(str[1:len(str)-1], ",")
	} else if strings.HasPrefix(str, "(") {
		atype = bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET
		as = toList(str[1:len(str)-1], " ")
	} else {
		atype = bgp.BGP_ASPATH_ATTR_TYPE_SEQ
		as = toList(str, " ")
	}

	return bgp.NewPathAttributeAsPath([]bgp.AsPathParamInterface{bgp.NewAs4PathParam(atype, as)})
}
Beispiel #7
0
func TestTimeTieBreaker(t *testing.T) {
	origin := bgp.NewPathAttributeOrigin(0)
	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{65001})}
	aspath := bgp.NewPathAttributeAsPath(aspathParam)
	nexthop := bgp.NewPathAttributeNextHop("10.0.0.1")
	med := bgp.NewPathAttributeMultiExitDisc(0)
	pathAttributes := []bgp.PathAttributeInterface{origin, aspath, nexthop, med}
	nlri := bgp.NewIPAddrPrefix(24, "10.10.0.0")
	updateMsg := bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	peer1 := &PeerInfo{AS: 2, LocalAS: 1, Address: net.IP{1, 1, 1, 1}, ID: net.IP{1, 1, 1, 1}}
	path1 := ProcessMessage(updateMsg, peer1, time.Now())[0]

	peer2 := &PeerInfo{AS: 2, LocalAS: 1, Address: net.IP{2, 2, 2, 2}, ID: net.IP{2, 2, 2, 2}} // weaker router-id
	path2 := ProcessMessage(updateMsg, peer2, time.Now().Add(-1*time.Hour))[0]                 // older than path1

	d := NewDestination(nlri)
	d.AddNewPath(path1)
	d.AddNewPath(path2)

	d.Calculate(nil)

	assert.Equal(t, len(d.knownPathList), 2)
	assert.Equal(t, true, d.GetBestPath("").GetSource().ID.Equal(net.IP{2, 2, 2, 2})) // path from peer2 win

	// this option disables tie breaking by age
	SelectionOptions.ExternalCompareRouterId = true
	d = NewDestination(nlri)
	d.AddNewPath(path1)
	d.AddNewPath(path2)

	d.Calculate(nil)

	assert.Equal(t, len(d.knownPathList), 2)
	assert.Equal(t, true, d.GetBestPath("").GetSource().ID.Equal(net.IP{1, 1, 1, 1})) // path from peer1 win
}
Beispiel #8
0
func cloneAsPath(asAttr *bgp.PathAttributeAsPath) *bgp.PathAttributeAsPath {
	newASparams := make([]bgp.AsPathParamInterface, len(asAttr.Value))
	for i, param := range asAttr.Value {
		asParam := param.(*bgp.As4PathParam)
		as := make([]uint32, len(asParam.AS))
		copy(as, asParam.AS)
		newASparams[i] = bgp.NewAs4PathParam(asParam.Type, as)
	}
	return bgp.NewPathAttributeAsPath(newASparams)
}
Beispiel #9
0
func TestCalculate2(t *testing.T) {

	origin := bgp.NewPathAttributeOrigin(0)
	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{65001})}
	aspath := bgp.NewPathAttributeAsPath(aspathParam)
	nexthop := bgp.NewPathAttributeNextHop("10.0.0.1")
	med := bgp.NewPathAttributeMultiExitDisc(0)
	pathAttributes := []bgp.PathAttributeInterface{origin, aspath, nexthop, med}
	nlri := bgp.NewIPAddrPrefix(24, "10.10.0.0")

	// peer1 sends normal update message 10.10.0.0/24
	update1 := bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	peer1 := &PeerInfo{AS: 1, Address: net.IP{1, 1, 1, 1}}
	path1 := ProcessMessage(update1, peer1, time.Now())[0]

	d := NewDestination(nlri)
	d.AddNewPath(path1)
	d.Calculate(nil)

	// suppose peer2 sends grammaatically correct but semantically flawed update message
	// which has a withdrawal nlri not advertised before
	update2 := bgp.NewBGPUpdateMessage([]*bgp.IPAddrPrefix{nlri}, pathAttributes, nil)
	peer2 := &PeerInfo{AS: 2, Address: net.IP{2, 2, 2, 2}}
	path2 := ProcessMessage(update2, peer2, time.Now())[0]
	assert.Equal(t, path2.IsWithdraw, true)

	d.AddWithdraw(path2)
	d.Calculate(nil)

	// we have a path from peer1 here
	assert.Equal(t, len(d.knownPathList), 1)

	// after that, new update with the same nlri comes from peer2
	update3 := bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	path3 := ProcessMessage(update3, peer2, time.Now())[0]
	assert.Equal(t, path3.IsWithdraw, false)

	d.AddNewPath(path3)
	d.Calculate(nil)

	// this time, we have paths from peer1 and peer2
	assert.Equal(t, len(d.knownPathList), 2)

	// now peer3 sends normal update message 10.10.0.0/24
	peer3 := &PeerInfo{AS: 3, Address: net.IP{3, 3, 3, 3}}
	update4 := bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	path4 := ProcessMessage(update4, peer3, time.Now())[0]

	d.AddNewPath(path4)
	d.Calculate(nil)

	// we must have paths from peer1, peer2 and peer3
	assert.Equal(t, len(d.knownPathList), 3)
}
Beispiel #10
0
func TestBMP(t *testing.T) {
	aspath1 := []bgp.AsPathParamInterface{
		bgp.NewAs4PathParam(2, []uint32{1000000}),
		bgp.NewAs4PathParam(1, []uint32{1000001, 1002}),
		bgp.NewAs4PathParam(2, []uint32{1003, 100004}),
	}
	mp_nlri := []bgp.AddrPrefixInterface{bgp.NewIPv6AddrPrefix(100,
		"fe80:1234:1234:5667:8967:af12:8912:1023")}

	p := []bgp.PathAttributeInterface{
		bgp.NewPathAttributeOrigin(3),
		bgp.NewPathAttributeAsPath(aspath1),
		bgp.NewPathAttributeMpUnreachNLRI(mp_nlri),
	}
	w := []*bgp.IPAddrPrefix{}
	n := []*bgp.IPAddrPrefix{}

	msg := bgp.NewBGPUpdateMessage(w, p, n)
	pList := ProcessMessage(msg, peerR1(), time.Now())
	CreateUpdateMsgFromPaths(pList)
}
Beispiel #11
0
// before:
//  as-path  : 65000, 4000, 40000, 30000, 40001
// expected result:
//  as-path  : 65000, 4000, 40000, 30000, 40001
func TestAsPathAs2Trans2(t *testing.T) {
	as := []uint32{65000, 4000, 40000, 30000, 40001}
	params := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(bgp.BGP_ASPATH_ATTR_TYPE_SEQ, as)}
	aspath := bgp.NewPathAttributeAsPath(params)
	msg := bgp.NewBGPUpdateMessage(nil, []bgp.PathAttributeInterface{aspath}, nil).Body.(*bgp.BGPUpdate)
	UpdatePathAttrs2ByteAs(msg)
	assert.Equal(t, len(msg.PathAttributes), 1)
	assert.Equal(t, len(msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value), 1)
	assert.Equal(t, len(msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.AsPathParam).AS), 5)
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.AsPathParam).AS[0], uint16(65000))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.AsPathParam).AS[1], uint16(4000))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.AsPathParam).AS[2], uint16(40000))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.AsPathParam).AS[3], uint16(30000))
	assert.Equal(t, msg.PathAttributes[0].(*bgp.PathAttributeAsPath).Value[0].(*bgp.AsPathParam).AS[4], uint16(40001))
}
Beispiel #12
0
//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
}
Beispiel #13
0
//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)

	path := &api.Path{
		Pattrs: make([][]byte, 0),
	}

	//form appropraite path attributes for path to be withdrawn
	nlri := bgp.NewIPAddrPrefix(32, pathInfo.localEpIP)
	path.Nlri, _ = nlri.Serialize()
	origin, _ := bgp.NewPathAttributeOrigin(bgp.BGP_ORIGIN_ATTR_TYPE_EGP).Serialize()
	path.Pattrs = append(path.Pattrs, origin)
	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{self.myBgpAs})}
	aspath, _ := bgp.NewPathAttributeAsPath(aspathParam).Serialize()
	path.Pattrs = append(path.Pattrs, aspath)
	n, _ := bgp.NewPathAttributeNextHop(pathInfo.nextHopIP).Serialize()
	path.Pattrs = append(path.Pattrs, n)
	path.IsWithdraw = true
	//paths := []*api.Path{path}
	arg := &api.DeletePathRequest{
		Resource: api.Resource_GLOBAL,
		Path:     path,
	}

	//send arguement stream
	client := api.NewGobgpApiClient(self.cc)
	if client == nil {
		log.Errorf("Gobgpapi stream invalid")
		return nil
	}

	_, err := client.DeletePath(context.Background(), arg)

	if err != nil {
		log.Errorf("Fail to enforce Modpathi: %v", err)
		return err
	}

	return nil
}
Beispiel #14
0
func TestCalculate(t *testing.T) {
	origin := bgp.NewPathAttributeOrigin(0)
	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{65001})}
	aspath := bgp.NewPathAttributeAsPath(aspathParam)
	nexthop := bgp.NewPathAttributeNextHop("10.0.0.1")
	med := bgp.NewPathAttributeMultiExitDisc(0)
	pathAttributes := []bgp.PathAttributeInterface{origin, aspath, nexthop, med}
	nlri := bgp.NewIPAddrPrefix(24, "10.10.0.101")
	updateMsg := bgp.NewBGPUpdateMessage(nil, pathAttributes, []*bgp.IPAddrPrefix{nlri})
	peer1 := &PeerInfo{AS: 1, Address: net.IP{1, 1, 1, 1}}
	path1 := ProcessMessage(updateMsg, peer1, time.Now())[0]
	path1.Filter("1", POLICY_DIRECTION_IMPORT)

	action := &AsPathPrependAction{
		asn:    100,
		repeat: 10,
	}

	path2 := action.Apply(path1.Clone(false), nil)
	path1.Filter("2", POLICY_DIRECTION_IMPORT)
	path2.Filter("1", POLICY_DIRECTION_IMPORT)

	d := NewDestination(nlri)
	d.AddNewPath(path1)
	d.AddNewPath(path2)

	d.Calculate([]string{"1", "2"})

	assert.Equal(t, len(d.GetKnownPathList("1")), 0)
	assert.Equal(t, len(d.GetKnownPathList("2")), 1)
	assert.Equal(t, len(d.knownPathList), 2)

	d.AddWithdraw(path1.Clone(true))

	d.Calculate([]string{"1", "2"})

	assert.Equal(t, len(d.GetKnownPathList("1")), 0)
	assert.Equal(t, len(d.GetKnownPathList("2")), 0)
	assert.Equal(t, len(d.knownPathList), 0)
}
Beispiel #15
0
//AddLocalProtoRoute is used to add local endpoint to the protocol RIB
func (self *OfnetBgp) AddLocalProtoRoute(pathInfo *OfnetProtoRouteInfo) error {
	log.Infof("Received AddLocalProtoRoute to add local endpoint to protocol RIB: %v", pathInfo)
	if self.routerIP == "" {
		//ignoring populating to the bgp rib because
		//Bgp is not configured.
		return nil
	}

	path := &api.Path{
		Pattrs:    make([][]byte, 0),
		SourceAsn: self.myBgpAs,
	}

	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{self.myBgpAs})}
	aspath, _ := bgp.NewPathAttributeAsPath(aspathParam).Serialize()
	path.Pattrs = append(path.Pattrs, aspath)

	// form the path structure with appropriate path attributes
	nlri := bgp.NewIPAddrPrefix(32, pathInfo.localEpIP)
	path.Nlri, _ = nlri.Serialize()
	origin, _ := bgp.NewPathAttributeOrigin(bgp.BGP_ORIGIN_ATTR_TYPE_EGP).Serialize()
	path.Pattrs = append(path.Pattrs, origin)
	log.Infof("Received AddLocalProtoRoute aspath: %v", aspath)
	mpls, err := bgp.ParseMPLSLabelStack("3")
	if err != nil {
		return nil
	}
	var nlri2 bgp.AddrPrefixInterface
	nlri2 = bgp.NewLabeledIPAddrPrefix(32, pathInfo.localEpIP, *mpls)
	mpreach, _ := bgp.NewPathAttributeMpReachNLRI(pathInfo.nextHopIP, []bgp.AddrPrefixInterface{nlri2}).Serialize()
	log.Infof("Received AddLocalProtoRoute nlri2: %v, mpreach: %v", nlri2, mpreach)
	path.Pattrs = append(path.Pattrs, mpreach)
	//path.Pattrs = append(path.Pattrs, n)

	arg := &api.AddPathRequest{
		Resource: api.Resource_GLOBAL,
		VrfId:    "default",
		Path:     path,
	}
	log.Infof("BGP - arg %v ", arg)
	// add routes
	/*
	   	prefix := pathInfo.localEpIP
	   	log.Infof("BGP - Prefix %v " , prefix )
	       	path2, err := cmd.ParsePath(bgp.RF_IPv4_MPLS, []string{"10.200.1.25/32", "3"})
	   	log.Infof("BGP - Path2 %v " , path2 )
	   	log.Infof("BGP - Err %v " , err )
	       	req := bgpserver.NewGrpcRequest(bgpserver.REQ_ADD_PATH, "", bgp.RouteFamily(0), &api.AddPathRequest{
	           	Resource: api.Resource_GLOBAL,
	           	Path:     path2,
	       	})
	       	self.bgpServer.GrpcReqCh <- req
	       	res := <-req.ResponseCh
	       	if err := res.Err(); err != nil {
	           	log.Fatal(err)
	   		log.Infof("BGP - Err %v " , err)
	       	}
	*/
	//send arguement stream
	client := api.NewGobgpApiClient(self.cc)
	if client == nil {
		log.Infof("Gobgpapi stream invalid")
		return nil
	}
	stream, err := client.AddPath(context.Background(), arg)
	if err != nil {
		log.Infof("Fail to enforce Modpath: %v %v", err, stream)
		return err
	}

	return nil
}
Beispiel #16
0
// 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)
	}
}
Beispiel #17
0
func UpdatePathAttrs4ByteAs(msg *bgp.BGPUpdate) error {
	var asAttr *bgp.PathAttributeAsPath
	var as4Attr *bgp.PathAttributeAs4Path
	asAttrPos := 0
	as4AttrPos := 0
	for i, attr := range msg.PathAttributes {
		switch attr.(type) {
		case *bgp.PathAttributeAsPath:
			asAttr = attr.(*bgp.PathAttributeAsPath)
			for j, param := range asAttr.Value {
				as2Param, ok := param.(*bgp.AsPathParam)
				if ok {
					asPath := make([]uint32, 0, len(as2Param.AS))
					for _, as := range as2Param.AS {
						asPath = append(asPath, uint32(as))
					}
					as4Param := bgp.NewAs4PathParam(as2Param.Type, asPath)
					asAttr.Value[j] = as4Param
				}
			}
			asAttrPos = i
			msg.PathAttributes[i] = asAttr
		case *bgp.PathAttributeAs4Path:
			as4AttrPos = i
			as4Attr = attr.(*bgp.PathAttributeAs4Path)
		}
	}

	if as4Attr != nil {
		msg.PathAttributes = append(msg.PathAttributes[:as4AttrPos], msg.PathAttributes[as4AttrPos+1:]...)
	}

	if asAttr == nil || as4Attr == nil {
		return nil
	}

	asLen := 0
	asConfedLen := 0
	asParams := make([]*bgp.As4PathParam, 0, len(asAttr.Value))
	for _, param := range asAttr.Value {
		asLen += param.ASLen()
		p := param.(*bgp.As4PathParam)
		switch p.Type {
		case bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET:
			asConfedLen += 1
		case bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SEQ:
			asConfedLen += len(p.AS)
		}
		asParams = append(asParams, p)
	}

	as4Len := 0
	as4Params := make([]*bgp.As4PathParam, 0, len(as4Attr.Value))
	if as4Attr != nil {
		for _, p := range as4Attr.Value {
			// RFC 6793 6. Error Handling
			//
			// the path segment types AS_CONFED_SEQUENCE and AS_CONFED_SET [RFC5065]
			// MUST NOT be carried in the AS4_PATH attribute of an UPDATE message.
			// A NEW BGP speaker that receives these path segment types in the AS4_PATH
			// attribute of an UPDATE message from an OLD BGP speaker MUST discard
			// these path segments, adjust the relevant attribute fields accordingly,
			// and continue processing the UPDATE message.
			// This case SHOULD be logged locally for analysis.
			switch p.Type {
			case bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SEQ, bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET:
				typ := "CONFED_SEQ"
				if p.Type == bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET {
					typ = "CONFED_SET"
				}
				log.Warnf("AS4_PATH contains %s segment %s. ignore", typ, p.String())
				continue
			}
			as4Len += p.ASLen()
			as4Params = append(as4Params, p)
		}
	}

	if asLen+asConfedLen < as4Len {
		log.Warnf("AS4_PATH is longer than AS_PATH. ignore AS4_PATH")
		return nil
	}

	keepNum := asLen + asConfedLen - as4Len

	newParams := make([]*bgp.As4PathParam, 0, len(asAttr.Value))
	for _, param := range asParams {
		if keepNum-param.ASLen() >= 0 {
			newParams = append(newParams, param)
			keepNum -= param.ASLen()
		} else {
			// only SEQ param reaches here
			param.AS = param.AS[:keepNum]
			newParams = append(newParams, param)
			keepNum = 0
		}

		if keepNum <= 0 {
			break
		}
	}

	for _, param := range as4Params {
		lastParam := newParams[len(newParams)-1]
		if param.Type == lastParam.Type && param.Type == bgp.BGP_ASPATH_ATTR_TYPE_SEQ {
			if len(lastParam.AS)+len(param.AS) > 255 {
				lastParam.AS = append(lastParam.AS, param.AS[:255-len(lastParam.AS)]...)
				param.AS = param.AS[255-len(lastParam.AS):]
				newParams = append(newParams, param)
			} else {
				lastParam.AS = append(lastParam.AS, param.AS...)
			}
		} else {
			newParams = append(newParams, param)
		}
	}

	newIntfParams := make([]bgp.AsPathParamInterface, 0, len(asAttr.Value))
	for _, p := range newParams {
		newIntfParams = append(newIntfParams, p)
	}

	msg.PathAttributes[asAttrPos] = bgp.NewPathAttributeAsPath(newIntfParams)
	return nil
}
Beispiel #18
0
func TestMultipath(t *testing.T) {
	UseMultiplePaths.Enabled = true
	origin := bgp.NewPathAttributeOrigin(0)
	aspathParam := []bgp.AsPathParamInterface{bgp.NewAs4PathParam(2, []uint32{65000})}
	aspath := bgp.NewPathAttributeAsPath(aspathParam)
	nexthop := bgp.NewPathAttributeNextHop("192.168.150.1")
	med := bgp.NewPathAttributeMultiExitDisc(100)

	pathAttributes := []bgp.PathAttributeInterface{
		origin,
		aspath,
		nexthop,
		med,
	}

	nlri := []*bgp.IPAddrPrefix{bgp.NewIPAddrPrefix(24, "10.10.10.0")}
	updateMsg := bgp.NewBGPUpdateMessage(nil, pathAttributes, nlri)
	peer1 := &PeerInfo{AS: 1, Address: net.IP{1, 1, 1, 1}, ID: net.IP{1, 1, 1, 1}}
	path1 := ProcessMessage(updateMsg, peer1, time.Now())[0]
	peer2 := &PeerInfo{AS: 2, Address: net.IP{2, 2, 2, 2}, ID: net.IP{2, 2, 2, 2}}

	med = bgp.NewPathAttributeMultiExitDisc(100)
	nexthop = bgp.NewPathAttributeNextHop("192.168.150.2")
	pathAttributes = []bgp.PathAttributeInterface{
		origin,
		aspath,
		nexthop,
		med,
	}
	updateMsg = bgp.NewBGPUpdateMessage(nil, pathAttributes, nlri)
	path2 := ProcessMessage(updateMsg, peer2, time.Now())[0]

	d := NewDestination(nlri[0])
	d.AddNewPath(path1)
	d.AddNewPath(path2)

	best, w, multi := d.Calculate([]string{GLOBAL_RIB_NAME})
	assert.Equal(t, len(best), 1)
	assert.Equal(t, len(w), 0)
	assert.Equal(t, len(multi), 2)
	assert.Equal(t, len(d.GetKnownPathList(GLOBAL_RIB_NAME)), 2)

	path3 := path2.Clone(true)
	d.AddWithdraw(path3)
	best, w, multi = d.Calculate([]string{GLOBAL_RIB_NAME})
	assert.Equal(t, len(best), 1)
	assert.Equal(t, len(w), 1)
	assert.Equal(t, len(multi), 1)
	assert.Equal(t, len(d.GetKnownPathList(GLOBAL_RIB_NAME)), 1)

	peer3 := &PeerInfo{AS: 3, Address: net.IP{3, 3, 3, 3}, ID: net.IP{3, 3, 3, 3}}
	med = bgp.NewPathAttributeMultiExitDisc(50)
	nexthop = bgp.NewPathAttributeNextHop("192.168.150.3")
	pathAttributes = []bgp.PathAttributeInterface{
		origin,
		aspath,
		nexthop,
		med,
	}
	updateMsg = bgp.NewBGPUpdateMessage(nil, pathAttributes, nlri)
	path4 := ProcessMessage(updateMsg, peer3, time.Now())[0]
	d.AddNewPath(path4)

	best, w, multi = d.Calculate([]string{GLOBAL_RIB_NAME})
	assert.Equal(t, len(best), 1)
	assert.Equal(t, len(w), 0)
	assert.Equal(t, len(multi), 1)
	assert.Equal(t, len(d.GetKnownPathList(GLOBAL_RIB_NAME)), 2)

	nexthop = bgp.NewPathAttributeNextHop("192.168.150.2")
	pathAttributes = []bgp.PathAttributeInterface{
		origin,
		aspath,
		nexthop,
		med,
	}
	updateMsg = bgp.NewBGPUpdateMessage(nil, pathAttributes, nlri)
	path5 := ProcessMessage(updateMsg, peer2, time.Now())[0]
	d.AddNewPath(path5)

	best, w, multi = d.Calculate([]string{GLOBAL_RIB_NAME})
	assert.Equal(t, len(best), 1)
	assert.Equal(t, len(w), 0)
	assert.Equal(t, len(multi), 2)
	assert.Equal(t, len(d.GetKnownPathList(GLOBAL_RIB_NAME)), 3)

	UseMultiplePaths.Enabled = false
}