// Copyright (C) 2016 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 bgp import ( "bytes" "encoding/binary" "net" "reflect" "strconv" "testing" "github.com/stretchr/testify/assert" ) func keepalive() *BGPMessage { return NewBGPKeepAliveMessage() } func notification() *BGPMessage { return NewBGPNotificationMessage(1, 2, nil) } func refresh() *BGPMessage { return NewBGPRouteRefreshMessage(1, 2, 10) } func Test_Message(t *testing.T) { l := []*BGPMessage{keepalive(), notification(), refresh(), NewTestBGPOpenMessage(), NewTestBGPUpdateMessage()} for _, m1 := range l { buf1, _ := m1.Serialize() t.Log("LEN =", len(buf1)) m2, err := ParseBGPMessage(buf1) if err != nil { t.Error(err) } // FIXME: shouldn't but workaround for some structs. buf2, _ := m2.Serialize() if reflect.DeepEqual(m1, m2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), m1, buf1) t.Error(len(buf2), m2, buf2) } } } func Test_IPAddrPrefixString(t *testing.T) { ipv4 := NewIPAddrPrefix(24, "129.6.10.0") assert.Equal(t, "129.6.10.0/24", ipv4.String()) ipv4 = NewIPAddrPrefix(24, "129.6.10.1") assert.Equal(t, "129.6.10.0/24", ipv4.String()) ipv4 = NewIPAddrPrefix(22, "129.6.129.0") assert.Equal(t, "129.6.128.0/22", ipv4.String()) ipv6 := NewIPv6AddrPrefix(64, "3343:faba:3903::0") assert.Equal(t, "3343:faba:3903::/64", ipv6.String()) ipv6 = NewIPv6AddrPrefix(64, "3343:faba:3903::1") assert.Equal(t, "3343:faba:3903::/64", ipv6.String()) ipv6 = NewIPv6AddrPrefix(63, "3343:faba:3903:129::0") assert.Equal(t, "3343:faba:3903:128::/63", ipv6.String()) } func Test_RouteTargetMembershipNLRIString(t *testing.T) { assert := assert.New(t) // TwoOctetAsSpecificExtended buf := make([]byte, 13) buf[0] = 12 binary.BigEndian.PutUint32(buf[1:5], 65546) buf[5] = byte(EC_TYPE_TRANSITIVE_TWO_OCTET_AS_SPECIFIC) // typehigh binary.BigEndian.PutUint16(buf[7:9], 65000) binary.BigEndian.PutUint32(buf[9:], 65546) r := &RouteTargetMembershipNLRI{} err := r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:65000:65546", r.String()) buf, err = r.Serialize() assert.Equal(nil, err) err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:65000:65546", r.String()) // IPv4AddressSpecificExtended buf = make([]byte, 13) binary.BigEndian.PutUint32(buf[1:5], 65546) buf[5] = byte(EC_TYPE_TRANSITIVE_IP4_SPECIFIC) // typehigh ip := net.ParseIP("10.0.0.1").To4() copy(buf[7:11], []byte(ip)) binary.BigEndian.PutUint16(buf[11:], 65000) r = &RouteTargetMembershipNLRI{} err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:10.0.0.1:65000", r.String()) buf, err = r.Serialize() assert.Equal(nil, err) err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:10.0.0.1:65000", r.String()) // FourOctetAsSpecificExtended buf = make([]byte, 13) binary.BigEndian.PutUint32(buf[1:5], 65546) buf[5] = byte(EC_TYPE_TRANSITIVE_FOUR_OCTET_AS_SPECIFIC) // typehigh buf[6] = byte(EC_SUBTYPE_ROUTE_TARGET) // subtype binary.BigEndian.PutUint32(buf[7:], 65546) binary.BigEndian.PutUint16(buf[11:], 65000) r = &RouteTargetMembershipNLRI{} err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:1.10:65000", r.String()) buf, err = r.Serialize() assert.Equal(nil, err) err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:1.10:65000", r.String()) // OpaqueExtended buf = make([]byte, 13) binary.BigEndian.PutUint32(buf[1:5], 65546) buf[5] = byte(EC_TYPE_TRANSITIVE_OPAQUE) // typehigh binary.BigEndian.PutUint32(buf[9:], 1000000) r = &RouteTargetMembershipNLRI{} err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:1000000", r.String()) buf, err = r.Serialize() assert.Equal(nil, err) err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:1000000", r.String()) // Unknown buf = make([]byte, 13) binary.BigEndian.PutUint32(buf[1:5], 65546) buf[5] = 0x04 // typehigh binary.BigEndian.PutUint32(buf[9:], 1000000) r = &RouteTargetMembershipNLRI{} err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:1000000", r.String()) buf, err = r.Serialize() assert.Equal(nil, err) err = r.DecodeFromBytes(buf) assert.Equal(nil, err) assert.Equal("65546:1000000", r.String()) } func Test_MalformedUpdateMsg(t *testing.T) { assert := assert.New(t) // Invalid AGGREGATOR bufin := []byte{ 0x00, 0x00, // Withdraws(0) 0x00, 0x16, // Attrs Len(22) 0xc0, 0x07, 0x05, // Flag, Type(7), Length(5) 0x00, 0x00, 0x00, 0x64, // aggregator - invalid length 0x00, 0x40, 0x01, 0x01, 0x00, // Attr(ORIGIN) 0x40, 0x03, 0x04, 0xc0, // Attr(NEXT_HOP) 0xa8, 0x01, 0x64, 0x40, 0x02, 0x00, // Attr(AS_PATH) } u := &BGPUpdate{} err := u.DecodeFromBytes(bufin) assert.Error(err) assert.Equal(ERROR_HANDLING_ATTRIBUTE_DISCARD, err.(*MessageError).ErrorHandling) // Invalid MP_REACH_NLRI bufin = []byte{ 0x00, 0x00, // Withdraws(0) 0x00, 0x27, // Attrs Len(39) 0x80, 0x0e, 0x1d, // Flag, Type(14), Length(29) 0x00, 0x02, 0x01, // afi(2), safi(1) 0x0f, 0x00, 0x00, 0x00, // nexthop - invalid nexthop length 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0xff, 0x0a, 0x00, 0x00, 0x00, // SNPA(0) 0x40, 0x20, 0x01, 0x0d, // NLRI 0xb8, 0x00, 0x01, 0x00, 0x00, 0x40, 0x01, 0x01, 0x00, // Attr(ORIGIN) 0x40, 0x02, 0x00, // Attr(AS_PATH) } err = u.DecodeFromBytes(bufin) assert.Error(err) assert.Equal(ERROR_HANDLING_AFISAFI_DISABLE, err.(*MessageError).ErrorHandling) // Invalid flag bufin = []byte{ 0x00, 0x00, // Withdraws(0) 0x00, 0x0e, // Attrs Len(14) 0xc0, 0x01, 0x01, 0x00, // Attr(ORIGIN) - invalid flag 0x40, 0x03, 0x04, 0xc0, // Attr(NEXT_HOP) 0xa8, 0x01, 0x64, 0x40, 0x02, 0x00, // Attr(AS_PATH) } err = u.DecodeFromBytes(bufin) assert.Error(err) assert.Equal(ERROR_HANDLING_TREAT_AS_WITHDRAW, err.(*MessageError).ErrorHandling) // Invalid AGGREGATOR and MULTI_EXIT_DESC bufin = []byte{ 0x00, 0x00, // Withdraws(0) 0x00, 0x1e, // Attrs Len(30) 0xc0, 0x07, 0x05, 0x00, // Attr(AGGREGATOR) - invalid length 0x00, 0x00, 0x64, 0x00, 0x80, 0x04, 0x05, 0x00, // Attr(MULTI_EXIT_DESC) - invalid length 0x00, 0x00, 0x00, 0x64, 0x40, 0x01, 0x01, 0x00, // Attr(ORIGIN) 0x40, 0x02, 0x00, // Attr(AS_PATH) 0x40, 0x03, 0x04, 0xc0, // Attr(NEXT_HOP) 0xa8, 0x01, 0x64, 0x20, 0xc8, 0xc8, 0xc8, // NLRI 0xc8, } err = u.DecodeFromBytes(bufin) assert.Error(err) assert.Equal(ERROR_HANDLING_TREAT_AS_WITHDRAW, err.(*MessageError).ErrorHandling) } func Test_RFC5512(t *testing.T) { assert := assert.New(t) buf := make([]byte, 8) buf[0] = byte(EC_TYPE_TRANSITIVE_OPAQUE) buf[1] = byte(EC_SUBTYPE_COLOR) binary.BigEndian.PutUint32(buf[4:], 1000000) ec, err := ParseExtended(buf) assert.Equal(nil, err) assert.Equal("1000000", ec.String()) buf, err = ec.Serialize() assert.Equal(nil, err) assert.Equal([]byte{0x3, 0xb, 0x0, 0x0, 0x0, 0xf, 0x42, 0x40}, buf) buf = make([]byte, 8) buf[0] = byte(EC_TYPE_TRANSITIVE_OPAQUE) buf[1] = byte(EC_SUBTYPE_ENCAPSULATION) binary.BigEndian.PutUint16(buf[6:], uint16(TUNNEL_TYPE_VXLAN)) ec, err = ParseExtended(buf) assert.Equal(nil, err) assert.Equal("VXLAN", ec.String()) buf, err = ec.Serialize() assert.Equal(nil, err) assert.Equal([]byte{0x3, 0xc, 0x0, 0x0, 0x0, 0x0, 0x0, 0x8}, buf) tlv := NewTunnelEncapTLV(TUNNEL_TYPE_VXLAN, []TunnelEncapSubTLVInterface{NewTunnelEncapSubTLVColor(10)}) attr := NewPathAttributeTunnelEncap([]*TunnelEncapTLV{tlv}) buf1, err := attr.Serialize() assert.Equal(nil, err) p, err := GetPathAttribute(buf1) assert.Equal(nil, err) err = p.DecodeFromBytes(buf1) assert.Equal(nil, err) buf2, err := p.Serialize() assert.Equal(nil, err) assert.Equal(buf1, buf2) n1 := NewEncapNLRI("10.0.0.1") buf1, err = n1.Serialize() assert.Equal(nil, err) n2 := NewEncapNLRI("") err = n2.DecodeFromBytes(buf1) assert.Equal(nil, err) assert.Equal("10.0.0.1", n2.String()) n3 := NewEncapv6NLRI("2001::1") buf1, err = n3.Serialize() assert.Equal(nil, err) n4 := NewEncapv6NLRI("") err = n4.DecodeFromBytes(buf1) assert.Equal(nil, err) assert.Equal("2001::1", n4.String()) } func Test_ASLen(t *testing.T) { assert := assert.New(t) aspath := AsPathParam{ Num: 2, AS: []uint16{65000, 65001}, } aspath.Type = BGP_ASPATH_ATTR_TYPE_SEQ assert.Equal(2, aspath.ASLen()) aspath.Type = BGP_ASPATH_ATTR_TYPE_SET assert.Equal(1, aspath.ASLen()) aspath.Type = BGP_ASPATH_ATTR_TYPE_CONFED_SEQ assert.Equal(0, aspath.ASLen()) aspath.Type = BGP_ASPATH_ATTR_TYPE_CONFED_SET assert.Equal(0, aspath.ASLen()) as4path := As4PathParam{ Num: 2, AS: []uint32{65000, 65001}, } as4path.Type = BGP_ASPATH_ATTR_TYPE_SEQ assert.Equal(2, as4path.ASLen()) as4path.Type = BGP_ASPATH_ATTR_TYPE_SET assert.Equal(1, as4path.ASLen()) as4path.Type = BGP_ASPATH_ATTR_TYPE_CONFED_SEQ assert.Equal(0, as4path.ASLen()) as4path.Type = BGP_ASPATH_ATTR_TYPE_CONFED_SET assert.Equal(0, as4path.ASLen()) } func Test_MPLSLabelStack(t *testing.T) { assert := assert.New(t) mpls := NewMPLSLabelStack() buf, err := mpls.Serialize() assert.Nil(err) assert.Equal(true, bytes.Equal(buf, []byte{0, 0, 1})) mpls = &MPLSLabelStack{} assert.Nil(mpls.DecodeFromBytes(buf)) assert.Equal(1, len(mpls.Labels)) assert.Equal(uint32(0), mpls.Labels[0]) mpls = NewMPLSLabelStack(WITHDRAW_LABEL) buf, err = mpls.Serialize() assert.Nil(err) assert.Equal(true, bytes.Equal(buf, []byte{128, 0, 0})) mpls = &MPLSLabelStack{} assert.Nil(mpls.DecodeFromBytes(buf)) assert.Equal(1, len(mpls.Labels)) assert.Equal(WITHDRAW_LABEL, mpls.Labels[0]) } func Test_FlowSpecNlri(t *testing.T) { assert := assert.New(t) cmp := make([]FlowSpecComponentInterface, 0) cmp = append(cmp, NewFlowSpecDestinationPrefix(NewIPAddrPrefix(24, "10.0.0.0"))) cmp = append(cmp, NewFlowSpecSourcePrefix(NewIPAddrPrefix(24, "10.0.0.0"))) item1 := NewFlowSpecComponentItem(DEC_NUM_OP_EQ, TCP) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_IP_PROTO, []*FlowSpecComponentItem{item1})) item2 := NewFlowSpecComponentItem(DEC_NUM_OP_GT_EQ, 20) item3 := NewFlowSpecComponentItem(DEC_NUM_OP_AND|DEC_NUM_OP_LT_EQ, 30) item4 := NewFlowSpecComponentItem(DEC_NUM_OP_GT_EQ, 10) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_PORT, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_DST_PORT, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_SRC_PORT, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_ICMP_TYPE, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_ICMP_CODE, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_PKT_LEN, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_DSCP, []*FlowSpecComponentItem{item2, item3, item4})) isFragment := uint64(0x02) lastFragment := uint64(0x08) item5 := NewFlowSpecComponentItem(BITMASK_FLAG_OP_MATCH, isFragment) item6 := NewFlowSpecComponentItem(BITMASK_FLAG_OP_AND, lastFragment) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_FRAGMENT, []*FlowSpecComponentItem{item5, item6})) item7 := NewFlowSpecComponentItem(0, TCP_FLAG_ACK) item8 := NewFlowSpecComponentItem(BITMASK_FLAG_OP_AND|BITMASK_FLAG_OP_NOT, TCP_FLAG_URGENT) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_TCP_FLAG, []*FlowSpecComponentItem{item7, item8})) n1 := NewFlowSpecIPv4Unicast(cmp) buf1, err := n1.Serialize() assert.Nil(err) n2, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_FS_IPv4_UC)) assert.Nil(err) err = n2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := n2.Serialize() if reflect.DeepEqual(n1, n2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_FlowSpecExtended(t *testing.T) { assert := assert.New(t) exts := make([]ExtendedCommunityInterface, 0) exts = append(exts, NewTrafficRateExtended(100, 9600.0)) exts = append(exts, NewTrafficActionExtended(true, false)) exts = append(exts, NewRedirectTwoOctetAsSpecificExtended(1000, 1000)) exts = append(exts, NewRedirectIPv4AddressSpecificExtended("10.0.0.1", 1000)) exts = append(exts, NewRedirectFourOctetAsSpecificExtended(10000000, 1000)) exts = append(exts, NewTrafficRemarkExtended(10)) m1 := NewPathAttributeExtendedCommunities(exts) buf1, err := m1.Serialize() assert.Nil(err) m2 := NewPathAttributeExtendedCommunities(nil) err = m2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := m2.Serialize() if reflect.DeepEqual(m1, m2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), m1, buf1) t.Error(len(buf2), m2, buf2) } } func Test_IP6FlowSpecExtended(t *testing.T) { assert := assert.New(t) exts := make([]ExtendedCommunityInterface, 0) exts = append(exts, NewRedirectIPv6AddressSpecificExtended("2001:db8::68", 1000)) m1 := NewPathAttributeIP6ExtendedCommunities(exts) buf1, err := m1.Serialize() assert.Nil(err) m2 := NewPathAttributeIP6ExtendedCommunities(nil) err = m2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := m2.Serialize() if reflect.DeepEqual(m1, m2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), m1, buf1) t.Error(len(buf2), m2, buf2) } } func Test_FlowSpecNlriv6(t *testing.T) { assert := assert.New(t) cmp := make([]FlowSpecComponentInterface, 0) cmp = append(cmp, NewFlowSpecDestinationPrefix6(NewIPv6AddrPrefix(64, "2001::"), 12)) cmp = append(cmp, NewFlowSpecSourcePrefix6(NewIPv6AddrPrefix(64, "2001::"), 12)) item1 := NewFlowSpecComponentItem(DEC_NUM_OP_EQ, TCP) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_IP_PROTO, []*FlowSpecComponentItem{item1})) item2 := NewFlowSpecComponentItem(DEC_NUM_OP_GT_EQ, 20) item3 := NewFlowSpecComponentItem(DEC_NUM_OP_AND|DEC_NUM_OP_LT_EQ, 30) item4 := NewFlowSpecComponentItem(DEC_NUM_OP_EQ, 10) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_PORT, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_DST_PORT, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_SRC_PORT, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_ICMP_TYPE, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_ICMP_CODE, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_PKT_LEN, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_DSCP, []*FlowSpecComponentItem{item2, item3, item4})) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_LABEL, []*FlowSpecComponentItem{item2, item3, item4})) isFragment := uint64(0x02) item5 := NewFlowSpecComponentItem(BITMASK_FLAG_OP_MATCH, isFragment) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_FRAGMENT, []*FlowSpecComponentItem{item5})) item6 := NewFlowSpecComponentItem(0, TCP_FLAG_ACK) item7 := NewFlowSpecComponentItem(BITMASK_FLAG_OP_AND|BITMASK_FLAG_OP_NOT, TCP_FLAG_URGENT) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_TCP_FLAG, []*FlowSpecComponentItem{item6, item7})) n1 := NewFlowSpecIPv6Unicast(cmp) buf1, err := n1.Serialize() assert.Nil(err) n2, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_FS_IPv6_UC)) assert.Nil(err) err = n2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := n2.Serialize() if reflect.DeepEqual(n1, n2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_Aigp(t *testing.T) { assert := assert.New(t) m := NewAigpTLVIgpMetric(1000) a1 := NewPathAttributeAigp([]AigpTLVInterface{m}) buf1, err := a1.Serialize() assert.Nil(err) a2 := NewPathAttributeAigp(nil) err = a2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := a2.Serialize() if reflect.DeepEqual(a1, a2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), a1, buf1) t.Error(len(buf2), a2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_FlowSpecNlriL2(t *testing.T) { assert := assert.New(t) mac, _ := net.ParseMAC("01:23:45:67:89:ab") cmp := make([]FlowSpecComponentInterface, 0) cmp = append(cmp, NewFlowSpecDestinationMac(mac)) cmp = append(cmp, NewFlowSpecSourceMac(mac)) item1 := NewFlowSpecComponentItem(DEC_NUM_OP_EQ, uint64(IPv4)) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_ETHERNET_TYPE, []*FlowSpecComponentItem{item1})) rd, _ := ParseRouteDistinguisher("100:100") n1 := NewFlowSpecL2VPN(rd, cmp) buf1, err := n1.Serialize() assert.Nil(err) n2, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_FS_L2_VPN)) assert.Nil(err) err = n2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := n2.Serialize() if reflect.DeepEqual(n1, n2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_NotificationErrorCode(t *testing.T) { // boundary check t.Log(NewNotificationErrorCode(BGP_ERROR_MESSAGE_HEADER_ERROR, BGP_ERROR_SUB_BAD_MESSAGE_TYPE).String()) t.Log(NewNotificationErrorCode(BGP_ERROR_MESSAGE_HEADER_ERROR, BGP_ERROR_SUB_BAD_MESSAGE_TYPE+1).String()) t.Log(NewNotificationErrorCode(BGP_ERROR_MESSAGE_HEADER_ERROR, 0).String()) t.Log(NewNotificationErrorCode(0, BGP_ERROR_SUB_BAD_MESSAGE_TYPE).String()) t.Log(NewNotificationErrorCode(BGP_ERROR_ROUTE_REFRESH_MESSAGE_ERROR+1, 0).String()) } func Test_FlowSpecNlriVPN(t *testing.T) { assert := assert.New(t) cmp := make([]FlowSpecComponentInterface, 0) cmp = append(cmp, NewFlowSpecDestinationPrefix(NewIPAddrPrefix(24, "10.0.0.0"))) cmp = append(cmp, NewFlowSpecSourcePrefix(NewIPAddrPrefix(24, "10.0.0.0"))) rd, _ := ParseRouteDistinguisher("100:100") n1 := NewFlowSpecIPv4VPN(rd, cmp) buf1, err := n1.Serialize() assert.Nil(err) n2, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_FS_IPv4_VPN)) assert.Nil(err) err = n2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := n2.Serialize() if reflect.DeepEqual(n1, n2) == true { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_EVPNIPPrefixRoute(t *testing.T) { assert := assert.New(t) rd, _ := ParseRouteDistinguisher("100:100") r := &EVPNIPPrefixRoute{ RD: rd, ESI: EthernetSegmentIdentifier{ Type: ESI_ARBITRARY, Value: make([]byte, 9), }, ETag: 10, IPPrefixLength: 24, IPPrefix: net.IP{10, 10, 10, 0}, GWIPAddress: net.IP{10, 10, 10, 10}, Label: 1000, } n1 := NewEVPNNLRI(EVPN_IP_PREFIX, r) buf1, err := n1.Serialize() assert.Nil(err) n2, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_EVPN)) assert.Nil(err) err = n2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := n2.Serialize() t.Log(n1.RouteTypeData.(*EVPNIPPrefixRoute).ESI.Value, n2.(*EVPNNLRI).RouteTypeData.(*EVPNIPPrefixRoute).ESI.Value) t.Log(reflect.DeepEqual(n1.RouteTypeData.(*EVPNIPPrefixRoute).ESI.Value, n2.(*EVPNNLRI).RouteTypeData.(*EVPNIPPrefixRoute).ESI.Value)) if reflect.DeepEqual(n1, n2) { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_CapExtendedNexthop(t *testing.T) { assert := assert.New(t) tuple := NewCapExtendedNexthopTuple(RF_IPv4_UC, AFI_IP6) n1 := NewCapExtendedNexthop([]*CapExtendedNexthopTuple{tuple}) buf1, err := n1.Serialize() assert.Nil(err) n2, err := DecodeCapability(buf1) assert.Nil(err) buf2, _ := n2.Serialize() if reflect.DeepEqual(n1, n2) { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_AddPath(t *testing.T) { assert := assert.New(t) opt := &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_IPv4_UC: BGP_ADD_PATH_BOTH}} { n1 := NewIPAddrPrefix(24, "10.10.10.0") assert.Equal(n1.PathIdentifier(), uint32(0)) n1.SetPathLocalIdentifier(10) assert.Equal(n1.PathLocalIdentifier(), uint32(10)) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := &IPAddrPrefix{} err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(10)) } { n1 := NewIPv6AddrPrefix(64, "2001::") n1.SetPathIdentifier(10) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewIPv6AddrPrefix(0, "") err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(0)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_IPv4_UC: BGP_ADD_PATH_BOTH, RF_IPv6_UC: BGP_ADD_PATH_BOTH}} { n1 := NewIPv6AddrPrefix(64, "2001::") n1.SetPathLocalIdentifier(10) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewIPv6AddrPrefix(0, "") err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(10)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_IPv4_VPN: BGP_ADD_PATH_BOTH, RF_IPv6_VPN: BGP_ADD_PATH_BOTH}} { rd, _ := ParseRouteDistinguisher("100:100") labels := NewMPLSLabelStack(100, 200) n1 := NewLabeledVPNIPAddrPrefix(24, "10.10.10.0", *labels, rd) n1.SetPathLocalIdentifier(20) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewLabeledVPNIPAddrPrefix(0, "", MPLSLabelStack{}, nil) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(20)) } { rd, _ := ParseRouteDistinguisher("100:100") labels := NewMPLSLabelStack(100, 200) n1 := NewLabeledVPNIPv6AddrPrefix(64, "2001::", *labels, rd) n1.SetPathLocalIdentifier(20) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewLabeledVPNIPAddrPrefix(0, "", MPLSLabelStack{}, nil) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(20)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_IPv4_MPLS: BGP_ADD_PATH_BOTH, RF_IPv6_MPLS: BGP_ADD_PATH_BOTH}} { labels := NewMPLSLabelStack(100, 200) n1 := NewLabeledIPAddrPrefix(24, "10.10.10.0", *labels) n1.SetPathLocalIdentifier(20) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewLabeledIPAddrPrefix(0, "", MPLSLabelStack{}) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(20)) } { labels := NewMPLSLabelStack(100, 200) n1 := NewLabeledIPv6AddrPrefix(64, "2001::", *labels) n1.SetPathLocalIdentifier(20) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewLabeledIPAddrPrefix(0, "", MPLSLabelStack{}) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(20)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_RTC_UC: BGP_ADD_PATH_BOTH}} { rt, _ := ParseRouteTarget("100:100") n1 := NewRouteTargetMembershipNLRI(65000, rt) n1.SetPathLocalIdentifier(30) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewRouteTargetMembershipNLRI(0, nil) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(30)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_EVPN: BGP_ADD_PATH_BOTH}} { n1 := NewEVPNNLRI(EVPN_ROUTE_TYPE_ETHERNET_AUTO_DISCOVERY, &EVPNEthernetAutoDiscoveryRoute{NewRouteDistinguisherFourOctetAS(5, 6), EthernetSegmentIdentifier{ESI_ARBITRARY, make([]byte, 9)}, 2, 2}) n1.SetPathLocalIdentifier(40) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewEVPNNLRI(0, nil) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(40)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_IPv4_ENCAP: BGP_ADD_PATH_BOTH}} { n1 := NewEncapNLRI("10.10.10.0") n1.SetPathLocalIdentifier(50) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewEncapNLRI("") err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(50)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_FS_IPv4_UC: BGP_ADD_PATH_BOTH}} { n1 := NewFlowSpecIPv4Unicast([]FlowSpecComponentInterface{NewFlowSpecDestinationPrefix(NewIPAddrPrefix(24, "10.0.0.0"))}) n1.SetPathLocalIdentifier(60) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := NewFlowSpecIPv4Unicast(nil) err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(60)) } opt = &MarshallingOption{AddPath: map[RouteFamily]BGPAddPathMode{RF_OPAQUE: BGP_ADD_PATH_BOTH}} { n1 := NewOpaqueNLRI([]byte("key"), []byte("value")) n1.SetPathLocalIdentifier(70) bits, err := n1.Serialize(opt) assert.Nil(err) n2 := &OpaqueNLRI{} err = n2.DecodeFromBytes(bits, opt) assert.Nil(err) assert.Equal(n2.PathIdentifier(), uint32(70)) } } func Test_CompareFlowSpecNLRI(t *testing.T) { assert := assert.New(t) cmp, err := ParseFlowSpecComponents(RF_FS_IPv4_UC, "destination 10.0.0.2/32 source 10.0.0.1/32 destination-port ==3128 protocol tcp") assert.Nil(err) // Note: Use NewFlowSpecIPv4Unicast() for the consistent ordered rules. n1 := NewFlowSpecIPv4Unicast(cmp).FlowSpecNLRI cmp, err = ParseFlowSpecComponents(RF_FS_IPv4_UC, "source 10.0.0.0/24 destination-port ==3128 protocol tcp") assert.Nil(err) n2 := NewFlowSpecIPv4Unicast(cmp).FlowSpecNLRI r, err := CompareFlowSpecNLRI(&n1, &n2) assert.Nil(err) assert.True(r > 0) cmp, err = ParseFlowSpecComponents(RF_FS_IPv4_UC, "source 10.0.0.9/32 port ==80 ==8080 destination-port >8080&<8080 ==3128 source-port >1024 protocol ==udp ==tcp") n3 := NewFlowSpecIPv4Unicast(cmp).FlowSpecNLRI assert.Nil(err) cmp, err = ParseFlowSpecComponents(RF_FS_IPv4_UC, "destination 192.168.0.2/32") n4 := NewFlowSpecIPv4Unicast(cmp).FlowSpecNLRI assert.Nil(err) r, err = CompareFlowSpecNLRI(&n3, &n4) assert.Nil(err) assert.True(r < 0) } func Test_MpReachNLRIWithIPv4MappedIPv6Prefix(t *testing.T) { assert := assert.New(t) n1 := NewIPv6AddrPrefix(120, "::ffff:10.0.0.0") buf1, err := n1.Serialize() assert.Nil(err) n2, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_IPv6_UC)) assert.Nil(err) err = n2.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ := n2.Serialize() if reflect.DeepEqual(n1, n2) { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n1, buf1) t.Error(len(buf2), n2, buf2) t.Log(bytes.Equal(buf1, buf2)) } label := NewMPLSLabelStack(2) n3 := NewLabeledIPv6AddrPrefix(120, "::ffff:10.0.0.0", *label) buf1, err = n3.Serialize() assert.Nil(err) n4, err := NewPrefixFromRouteFamily(RouteFamilyToAfiSafi(RF_IPv6_MPLS)) assert.Nil(err) err = n4.DecodeFromBytes(buf1) assert.Nil(err) buf2, _ = n3.Serialize() t.Log(n3, n4) if reflect.DeepEqual(n3, n4) { t.Log("OK") } else { t.Error("Something wrong") t.Error(len(buf1), n3, buf1) t.Error(len(buf2), n4, buf2) t.Log(bytes.Equal(buf1, buf2)) } } func Test_MpReachNLRIWithIPv6PrefixWithIPv4Peering(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x80, 0x0e, 0x1e, // flags(1), type(1), length(1) 0x00, 0x02, 0x01, 0x10, // afi(2), safi(1), nexthoplen(1) 0x00, 0x00, 0x00, 0x00, // nexthop(16) 0x00, 0x00, 0x00, 0x00, // = "::ffff:172.20.0.1" 0x00, 0x00, 0xff, 0xff, 0xac, 0x14, 0x00, 0x01, 0x00, // reserved(1) 0x40, 0x20, 0x01, 0x0d, // nlri(9) 0xb8, 0x00, 0x01, 0x00, // = "2001:db8:1:1::/64" 0x01, } // Test DecodeFromBytes() p := &PathAttributeMpReachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x80), p.Flags) assert.Equal(BGPAttrType(0xe), p.Type) assert.Equal(uint16(0x1e), p.Length) assert.Equal(uint16(AFI_IP6), p.AFI) assert.Equal(uint8(SAFI_UNICAST), p.SAFI) assert.Equal(net.ParseIP("::ffff:172.20.0.1"), p.Nexthop) assert.Equal(net.ParseIP(""), p.LinkLocalNexthop) value := []AddrPrefixInterface{ NewIPv6AddrPrefix(64, "2001:db8:1:1::"), } assert.Equal(value, p.Value) // Set NextHop as IPv4 address (because IPv4 peering) p.Nexthop = net.ParseIP("172.20.0.1") // Test Serialize() bufout, err := p.Serialize() assert.Nil(err) // Test serialised value assert.Equal(bufin, bufout) } func Test_MpReachNLRIWithIPv6(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x90, 0x0e, 0x00, 0x1e, // flags(1), type(1), length(2), 0x00, 0x02, 0x01, 0x10, // afi(2), safi(1), nexthoplen(1) 0x20, 0x01, 0x0d, 0xb8, // nexthop(16) 0x00, 0x01, 0x00, 0x00, // = "2001:db8:1::1" 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, // reserved(1) 0x40, 0x20, 0x01, 0x0d, // nlri(9) 0xb8, 0x00, 0x53, 0x00, // = "2001:db8:53::/64" 0x00, } // Test DecodeFromBytes() p := &PathAttributeMpReachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x90), p.Flags) assert.Equal(BGPAttrType(0xe), p.Type) assert.Equal(uint16(0x1e), p.Length) assert.Equal(uint16(AFI_IP6), p.AFI) assert.Equal(uint8(SAFI_UNICAST), p.SAFI) assert.Equal(net.ParseIP("2001:db8:1::1"), p.Nexthop) value := []AddrPrefixInterface{ NewIPv6AddrPrefix(64, "2001:db8:53::"), } assert.Equal(value, p.Value) } func Test_MpUnreachNLRIWithIPv6(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x90, 0x0f, 0x00, 0x0c, // flags(1), type(1), length(2), 0x00, 0x02, 0x01, // afi(2), safi(1), 0x40, 0x20, 0x01, 0x0d, // nlri(9) 0xb8, 0x00, 0x53, 0x00, // = "2001:db8:53::/64" 0x00, } // Test DecodeFromBytes() p := &PathAttributeMpUnreachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x90), p.Flags) assert.Equal(BGPAttrType(0xf), p.Type) assert.Equal(uint16(0x0c), p.Length) assert.Equal(uint16(AFI_IP6), p.AFI) assert.Equal(uint8(SAFI_UNICAST), p.SAFI) value := []AddrPrefixInterface{ NewIPv6AddrPrefix(64, "2001:db8:53::"), } assert.Equal(value, p.Value) } func Test_MpReachNLRIWithIPv6PrefixWithLinkLocalNexthop(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x80, 0x0e, 0x2c, // flags(1), type(1), length(1) 0x00, 0x02, 0x01, 0x20, // afi(2), safi(1), nexthoplen(1) 0x20, 0x01, 0x0d, 0xb8, // nexthop(32) 0x00, 0x01, 0x00, 0x00, // = "2001:db8:1::1" 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, // + "fe80::1" (link local) 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, // reserved(1) 0x30, 0x20, 0x10, 0x0a, // nlri(7) 0xb8, 0x00, 0x01, // = "2010:ab8:1::/48" } // Test DecodeFromBytes() p := &PathAttributeMpReachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x80), p.Flags) assert.Equal(BGPAttrType(0xe), p.Type) assert.Equal(uint16(0x2c), p.Length) assert.Equal(uint16(AFI_IP6), p.AFI) assert.Equal(uint8(SAFI_UNICAST), p.SAFI) assert.Equal(net.ParseIP("2001:db8:1::1"), p.Nexthop) assert.Equal(net.ParseIP("fe80::1"), p.LinkLocalNexthop) value := []AddrPrefixInterface{ NewIPv6AddrPrefix(48, "2010:ab8:1::"), } assert.Equal(value, p.Value) // Test Serialize() bufout, err := p.Serialize() assert.Nil(err) // Test serialised value assert.Equal(bufin, bufout) } func Test_MpReachNLRIWithVPNv4Prefix(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x80, 0x0e, 0x20, // flags(1), type(1), length(1) 0x00, 0x01, 0x80, 0x0c, // afi(2), safi(1), nexthoplen(1) 0x00, 0x00, 0x00, 0x00, // nexthop(12) 0x00, 0x00, 0x00, 0x00, // = (rd:"0:0",) "172.20.0.1" 0xac, 0x14, 0x00, 0x01, 0x00, // reserved(1) 0x70, 0x00, 0x01, 0x01, // nlri(15) 0x00, 0x00, 0xfd, 0xe8, // = label:16, rd:"65000:100", prefix:"10.1.1.0/24" 0x00, 0x00, 0x00, 0x64, 0x0a, 0x01, 0x01, } // Test DecodeFromBytes() p := &PathAttributeMpReachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x80), p.Flags) assert.Equal(BGPAttrType(0xe), p.Type) assert.Equal(uint16(0x20), p.Length) assert.Equal(uint16(AFI_IP), p.AFI) assert.Equal(uint8(SAFI_MPLS_VPN), p.SAFI) assert.Equal(net.ParseIP("172.20.0.1").To4(), p.Nexthop) assert.Equal(net.ParseIP(""), p.LinkLocalNexthop) value := []AddrPrefixInterface{ NewLabeledVPNIPAddrPrefix(24, "10.1.1.0", *NewMPLSLabelStack(16), NewRouteDistinguisherTwoOctetAS(65000, 100)), } assert.Equal(value, p.Value) // Test Serialize() bufout, err := p.Serialize() assert.Nil(err) // Test serialised value assert.Equal(bufin, bufout) } func Test_MpReachNLRIWithVPNv6Prefix(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x80, 0x0e, 0x39, // flags(1), type(1), length(1) 0x00, 0x02, 0x80, 0x18, // afi(2), safi(1), nexthoplen(1) 0x00, 0x00, 0x00, 0x00, // nexthop(24) 0x00, 0x00, 0x00, 0x00, // = (rd:"0:0",) "2001:db8:1::1" 0x20, 0x01, 0x0d, 0xb8, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, // reserved(1) 0xd4, 0x00, 0x01, 0x01, // nlri(28) 0x00, 0x00, 0xfd, 0xe8, // = label:16, rd:"65000:100", prefix:"2001:1::/124" 0x00, 0x00, 0x00, 0x64, 0x20, 0x01, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, } // Test DecodeFromBytes() p := &PathAttributeMpReachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x80), p.Flags) assert.Equal(BGPAttrType(0xe), p.Type) assert.Equal(uint16(0x39), p.Length) assert.Equal(uint16(AFI_IP6), p.AFI) assert.Equal(uint8(SAFI_MPLS_VPN), p.SAFI) assert.Equal(net.ParseIP("2001:db8:1::1"), p.Nexthop) assert.Equal(net.ParseIP(""), p.LinkLocalNexthop) value := []AddrPrefixInterface{ NewLabeledVPNIPv6AddrPrefix(124, "2001:1::", *NewMPLSLabelStack(16), NewRouteDistinguisherTwoOctetAS(65000, 100)), } assert.Equal(value, p.Value) // Test Serialize() bufout, err := p.Serialize() assert.Nil(err) // Test serialised value assert.Equal(bufin, bufout) } func Test_MpReachNLRIWithIPv4PrefixWithIPv6Nexthop(t *testing.T) { assert := assert.New(t) bufin := []byte{ 0x80, 0x0e, 0x19, // flags(1), type(1), length(1) 0x00, 0x01, 0x01, 0x10, // afi(1), safi(1), nexthoplen(1) 0x20, 0x01, 0x0d, 0xb8, // nexthop(32) 0x00, 0x01, 0x00, 0x00, // = "2001:db8:1::1" 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, // reserved(1) 0x18, 0xc0, 0xa8, 0x0a, // nlri(7) } // Test DecodeFromBytes() p := &PathAttributeMpReachNLRI{} err := p.DecodeFromBytes(bufin) assert.Nil(err) // Test decoded values assert.Equal(BGPAttrFlag(0x80), p.Flags) assert.Equal(BGPAttrType(0xe), p.Type) assert.Equal(uint16(0x19), p.Length) assert.Equal(uint16(AFI_IP), p.AFI) assert.Equal(uint8(SAFI_UNICAST), p.SAFI) assert.Equal(net.ParseIP("2001:db8:1::1"), p.Nexthop) value := []AddrPrefixInterface{ NewIPAddrPrefix(24, "192.168.10.0"), } assert.Equal(value, p.Value) // Test Serialize() bufout, err := p.Serialize() assert.Nil(err) // Test serialised value assert.Equal(bufin, bufout) } func Test_ParseRouteDistinguisher(t *testing.T) { assert := assert.New(t) rd, _ := ParseRouteDistinguisher("100:1000") rdType0, ok := rd.(*RouteDistinguisherTwoOctetAS) if !ok { t.Fatal("Type of RD interface is not RouteDistinguisherTwoOctetAS") } assert.Equal(uint16(100), rdType0.Admin) assert.Equal(uint32(1000), rdType0.Assigned) rd, _ = ParseRouteDistinguisher("10.0.0.0:100") rdType1, ok := rd.(*RouteDistinguisherIPAddressAS) if !ok { t.Fatal("Type of RD interface is not RouteDistinguisherIPAddressAS") } assert.Equal("10.0.0.0", rdType1.Admin.String()) assert.Equal(uint16(100), rdType1.Assigned) rd, _ = ParseRouteDistinguisher("100.1000:10000") rdType2, ok := rd.(*RouteDistinguisherFourOctetAS) if !ok { t.Fatal("Type of RD interface is not RouteDistinguisherFourOctetAS") } assert.Equal(uint32((100<<16)|1000), rdType2.Admin) assert.Equal(uint16(10000), rdType2.Assigned) } func Test_ParseEthernetSegmentIdentifier(t *testing.T) { assert := assert.New(t) // "single-homed" esiZero := EthernetSegmentIdentifier{} args := make([]string, 0, 0) esi, err := ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(esiZero, esi) args = []string{"single-homed"} esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(esiZero, esi) // ESI_ARBITRARY args = []string{"ARBITRARY", "11:22:33:44:55:66:77:88:99"} // omit "ESI_" esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESI_ARBITRARY, Value: []byte{0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99}, }, esi) // ESI_LACP args = []string{"lacp", "aa:bb:cc:dd:ee:ff", strconv.FormatInt(0x1122, 10)} // lower case esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESI_LACP, Value: []byte{0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 0x11, 0x22, 0x00}, }, esi) // ESI_MSTP args = []string{"esi_mstp", "aa:bb:cc:dd:ee:ff", strconv.FormatInt(0x1122, 10)} // omit "ESI_" + lower case esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESI_MSTP, Value: []byte{0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 0x11, 0x22, 0x00}, }, esi) // ESI_MAC args = []string{"ESI_MAC", "aa:bb:cc:dd:ee:ff", strconv.FormatInt(0x112233, 10)} esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESI_MAC, Value: []byte{0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 0x11, 0x22, 0x33}, }, esi) // ESI_ROUTERID args = []string{"ESI_ROUTERID", "1.1.1.1", strconv.FormatInt(0x11223344, 10)} esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESI_ROUTERID, Value: []byte{0x01, 0x01, 0x01, 0x01, 0x11, 0x22, 0x33, 0x44, 0x00}, }, esi) // ESI_AS args = []string{"ESI_AS", strconv.FormatInt(0xaabbccdd, 10), strconv.FormatInt(0x11223344, 10)} esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESI_AS, Value: []byte{0xaa, 0xbb, 0xcc, 0xdd, 0x11, 0x22, 0x33, 0x44, 0x00}, }, esi) // Other args = []string{"99", "11:22:33:44:55:66:77:88:99"} esi, err = ParseEthernetSegmentIdentifier(args) assert.Nil(err) assert.Equal(EthernetSegmentIdentifier{ Type: ESIType(99), Value: []byte{0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99}, }, esi) }