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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 table
import (
//"fmt"
"github.com/osrg/gobgp/packet/bgp"
"github.com/stretchr/testify/assert"
"net"
"testing"
"time"
)
func TestDestinationNewIPv4(t *testing.T) {
peerD := DestCreatePeer()
pathD := DestCreatePath(peerD)
ipv4d := NewDestination(pathD[0].GetNlri())
assert.NotNil(t, ipv4d)
}
func TestDestinationNewIPv6(t *testing.T) {
peerD := DestCreatePeer()
pathD := DestCreatePath(peerD)
ipv6d := NewDestination(pathD[0].GetNlri())
assert.NotNil(t, ipv6d)
}
func TestDestinationSetRouteFamily(t *testing.T) {
dd := &Destination{}
dd.setRouteFamily(bgp.RF_IPv4_UC)
rf := dd.Family()
assert.Equal(t, rf, bgp.RF_IPv4_UC)
}
func TestDestinationGetRouteFamily(t *testing.T) {
dd := &Destination{}
dd.setRouteFamily(bgp.RF_IPv6_UC)
rf := dd.Family()
assert.Equal(t, rf, bgp.RF_IPv6_UC)
}
func TestDestinationSetNlri(t *testing.T) {
dd := &Destination{}
nlri := bgp.NewIPAddrPrefix(24, "13.2.3.1")
dd.setNlri(nlri)
r_nlri := dd.GetNlri()
assert.Equal(t, r_nlri, nlri)
}
func TestDestinationGetNlri(t *testing.T) {
dd := &Destination{}
nlri := bgp.NewIPAddrPrefix(24, "10.110.123.1")
dd.setNlri(nlri)
r_nlri := dd.GetNlri()
assert.Equal(t, r_nlri, nlri)
}
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))
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)
}
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)
}
func DestCreatePeer() []*PeerInfo {
peerD1 := &PeerInfo{AS: 65000}
peerD2 := &PeerInfo{AS: 65001}
peerD3 := &PeerInfo{AS: 65002}
peerD := []*PeerInfo{peerD1, peerD2, peerD3}
return peerD
}
func DestCreatePath(peerD []*PeerInfo) []*Path {
bgpMsgD1 := updateMsgD1()
bgpMsgD2 := updateMsgD2()
bgpMsgD3 := updateMsgD3()
pathD := make([]*Path, 3)
for i, msg := range []*bgp.BGPMessage{bgpMsgD1, bgpMsgD2, bgpMsgD3} {
updateMsgD := msg.Body.(*bgp.BGPUpdate)
nlriList := updateMsgD.NLRI
pathAttributes := updateMsgD.PathAttributes
nlri_info := nlriList[0]
pathD[i] = NewPath(peerD[i], nlri_info, false, pathAttributes, time.Now(), false)
}
return pathD
}
func updateMsgD1() *bgp.BGPMessage {
origin := bgp.NewPathAttributeOrigin(0)
aspathParam := []bgp.AsPathParamInterface{bgp.NewAsPathParam(2, []uint16{65000})}
aspath := bgp.NewPathAttributeAsPath(aspathParam)
nexthop := bgp.NewPathAttributeNextHop("192.168.50.1")
med := bgp.NewPathAttributeMultiExitDisc(0)
pathAttributes := []bgp.PathAttributeInterface{
origin,
aspath,
nexthop,
med,
}
nlri := []*bgp.IPAddrPrefix{bgp.NewIPAddrPrefix(24, "10.10.10.0")}
updateMsg := bgp.NewBGPUpdateMessage(nil, pathAttributes, nlri)
UpdatePathAttrs4ByteAs(updateMsg.Body.(*bgp.BGPUpdate))
return updateMsg
}
func updateMsgD2() *bgp.BGPMessage {
origin := bgp.NewPathAttributeOrigin(0)
aspathParam := []bgp.AsPathParamInterface{bgp.NewAsPathParam(2, []uint16{65100})}
aspath := bgp.NewPathAttributeAsPath(aspathParam)
nexthop := bgp.NewPathAttributeNextHop("192.168.100.1")
med := bgp.NewPathAttributeMultiExitDisc(100)
pathAttributes := []bgp.PathAttributeInterface{
origin,
aspath,
nexthop,
med,
}
nlri := []*bgp.IPAddrPrefix{bgp.NewIPAddrPrefix(24, "20.20.20.0")}
updateMsg := bgp.NewBGPUpdateMessage(nil, pathAttributes, nlri)
UpdatePathAttrs4ByteAs(updateMsg.Body.(*bgp.BGPUpdate))
return updateMsg
}
func updateMsgD3() *bgp.BGPMessage {
origin := bgp.NewPathAttributeOrigin(0)
aspathParam := []bgp.AsPathParamInterface{bgp.NewAsPathParam(2, []uint16{65100})}
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, "30.30.30.0")}
w1 := bgp.NewIPAddrPrefix(23, "40.40.40.0")
withdrawnRoutes := []*bgp.IPAddrPrefix{w1}
updateMsg := bgp.NewBGPUpdateMessage(withdrawnRoutes, pathAttributes, nlri)
UpdatePathAttrs4ByteAs(updateMsg.Body.(*bgp.BGPUpdate))
return updateMsg
}
func TestRadixkey(t *testing.T) {
assert.Equal(t, "000010100000001100100000", CidrToRadixkey("10.3.32.0/24"))
assert.Equal(t, "000010100000001100100000", IpToRadixkey(net.ParseIP("10.3.32.0").To4(), 24))
assert.Equal(t, "000010100000001100100000", IpToRadixkey(net.ParseIP("10.3.32.0").To4(), 24))
}
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