package bgp import ( "bytes" "encoding/binary" "github.com/stretchr/testify/assert" "net" "reflect" "testing" ) func keepalive() *BGPMessage { return NewBGPKeepAliveMessage() } func notification() *BGPMessage { return NewBGPNotificationMessage(1, 2, nil) } func refresh() *BGPMessage { return NewBGPRouteRefreshMessage(1, 2, 10) } func open() *BGPMessage { p1 := NewOptionParameterCapability( []ParameterCapabilityInterface{NewCapRouteRefresh()}) p2 := NewOptionParameterCapability( []ParameterCapabilityInterface{NewCapMultiProtocol(RF_IPv4_UC)}) g := CapGracefulRestartTuples{4, 2, 3} p3 := NewOptionParameterCapability( []ParameterCapabilityInterface{NewCapGracefulRestart(2, 100, []CapGracefulRestartTuples{g})}) p4 := NewOptionParameterCapability( []ParameterCapabilityInterface{NewCapFourOctetASNumber(100000)}) p5 := NewOptionParameterCapability( []ParameterCapabilityInterface{NewCapAddPath(RF_IPv4_UC, BGP_ADD_PATH_BOTH)}) return NewBGPOpenMessage(11033, 303, "100.4.10.3", []OptionParameterInterface{p1, p2, p3, p4, p5}) } func update() *BGPMessage { w1 := NewIPAddrPrefix(23, "121.1.3.2") w2 := NewIPAddrPrefix(17, "100.33.3.0") w := []*IPAddrPrefix{w1, w2} aspath1 := []AsPathParamInterface{ NewAsPathParam(2, []uint16{1000}), NewAsPathParam(1, []uint16{1001, 1002}), NewAsPathParam(2, []uint16{1003, 1004}), } aspath2 := []AsPathParamInterface{ NewAs4PathParam(2, []uint32{1000000}), NewAs4PathParam(1, []uint32{1000001, 1002}), NewAs4PathParam(2, []uint32{1003, 100004}), } aspath3 := []*As4PathParam{ NewAs4PathParam(2, []uint32{1000000}), NewAs4PathParam(1, []uint32{1000001, 1002}), NewAs4PathParam(2, []uint32{1003, 100004}), } isTransitive := true ecommunities := []ExtendedCommunityInterface{ NewTwoOctetAsSpecificExtended(EC_SUBTYPE_ROUTE_TARGET, 10003, 3<<20, isTransitive), NewFourOctetAsSpecificExtended(EC_SUBTYPE_ROUTE_TARGET, 1<<20, 300, isTransitive), NewIPv4AddressSpecificExtended(EC_SUBTYPE_ROUTE_TARGET, "192.2.1.2", 3000, isTransitive), &OpaqueExtended{ Value: &DefaultOpaqueExtendedValue{[]byte{0, 1, 2, 3, 4, 5, 6, 7}}, }, &UnknownExtended{Type: 99, Value: []byte{0, 1, 2, 3, 4, 5, 6, 7}}, NewESILabelExtended(1000, true), NewESImportRouteTarget("11:22:33:44:55:66"), NewMacMobilityExtended(123, false), } mp_nlri := []AddrPrefixInterface{ NewLabeledVPNIPAddrPrefix(20, "192.0.9.0", *NewMPLSLabelStack(1, 2, 3), NewRouteDistinguisherTwoOctetAS(256, 10000)), NewLabeledVPNIPAddrPrefix(26, "192.10.8.192", *NewMPLSLabelStack(5, 6, 7, 8), NewRouteDistinguisherIPAddressAS("10.0.1.1", 10001)), } mp_nlri2 := []AddrPrefixInterface{NewIPv6AddrPrefix(100, "fe80:1234:1234:5667:8967:af12:8912:1023")} mp_nlri3 := []AddrPrefixInterface{NewLabeledVPNIPv6AddrPrefix(100, "fe80:1234:1234:5667:8967:af12:1203:33a1", *NewMPLSLabelStack(5, 6), NewRouteDistinguisherFourOctetAS(5, 6))} mp_nlri4 := []AddrPrefixInterface{NewLabeledIPAddrPrefix(25, "192.168.0.0", *NewMPLSLabelStack(5, 6, 7))} mac, _ := net.ParseMAC("01:23:45:67:89:ab") mp_nlri5 := []AddrPrefixInterface{ NewEVPNNLRI(EVPN_ROUTE_TYPE_ETHERNET_AUTO_DISCOVERY, 0, &EVPNEthernetAutoDiscoveryRoute{NewRouteDistinguisherFourOctetAS(5, 6), EthernetSegmentIdentifier{ESI_ARBITRARY, make([]byte, 9)}, 2, 2}), NewEVPNNLRI(EVPN_ROUTE_TYPE_MAC_IP_ADVERTISEMENT, 0, &EVPNMacIPAdvertisementRoute{NewRouteDistinguisherFourOctetAS(5, 6), EthernetSegmentIdentifier{ESI_ARBITRARY, make([]byte, 9)}, 3, 48, mac, 32, net.ParseIP("192.2.1.2"), []uint32{3, 4}}), NewEVPNNLRI(EVPN_INCLUSIVE_MULTICAST_ETHERNET_TAG, 0, &EVPNMulticastEthernetTagRoute{NewRouteDistinguisherFourOctetAS(5, 6), 3, 32, net.ParseIP("192.2.1.2")}), NewEVPNNLRI(EVPN_ETHERNET_SEGMENT_ROUTE, 0, &EVPNEthernetSegmentRoute{NewRouteDistinguisherFourOctetAS(5, 6), EthernetSegmentIdentifier{ESI_ARBITRARY, make([]byte, 9)}, 32, net.ParseIP("192.2.1.1")}), } p := []PathAttributeInterface{ NewPathAttributeOrigin(3), NewPathAttributeAsPath(aspath1), NewPathAttributeAsPath(aspath2), NewPathAttributeNextHop("129.1.1.2"), NewPathAttributeMultiExitDisc(1 << 20), NewPathAttributeLocalPref(1 << 22), NewPathAttributeAtomicAggregate(), NewPathAttributeAggregator(uint16(30002), "129.0.2.99"), NewPathAttributeAggregator(uint32(30002), "129.0.2.99"), NewPathAttributeAggregator(uint32(300020), "129.0.2.99"), NewPathAttributeCommunities([]uint32{1, 3}), NewPathAttributeOriginatorId("10.10.0.1"), NewPathAttributeClusterList([]string{"10.10.0.2", "10.10.0.3"}), NewPathAttributeExtendedCommunities(ecommunities), NewPathAttributeAs4Path(aspath3), NewPathAttributeAs4Aggregator(10000, "112.22.2.1"), NewPathAttributeMpReachNLRI("112.22.2.0", mp_nlri), NewPathAttributeMpReachNLRI("1023::", mp_nlri2), NewPathAttributeMpReachNLRI("fe80::", mp_nlri3), NewPathAttributeMpReachNLRI("129.1.1.1", mp_nlri4), NewPathAttributeMpReachNLRI("129.1.1.1", mp_nlri5), NewPathAttributeMpUnreachNLRI(mp_nlri), //NewPathAttributeMpReachNLRI("112.22.2.0", []AddrPrefixInterface{}), //NewPathAttributeMpUnreachNLRI([]AddrPrefixInterface{}), &PathAttributeUnknown{ PathAttribute: PathAttribute{ Flags: BGP_ATTR_FLAG_TRANSITIVE, Type: 100, Value: []byte{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}, }, }, } n := []*IPAddrPrefix{NewIPAddrPrefix(24, "13.2.3.1")} return NewBGPUpdateMessage(w, p, n) } func Test_Message(t *testing.T) { l := []*BGPMessage{keepalive(), notification(), refresh(), open(), update()} 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()) ipv6 := NewIPv6AddrPrefix(18, "3343:faba:3903::1") assert.Equal(t, "3343:faba:3903::1/18", ipv6.String()) ipv6 = NewIPv6AddrPrefix(18, "3343:faba:3903::0") assert.Equal(t, "3343:faba:3903::/18", 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_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) subTlv := &TunnelEncapSubTLV{ Type: ENCAP_SUBTLV_TYPE_COLOR, Value: &TunnelEncapSubTLVColor{10}, } tlv := &TunnelEncapTLV{ Type: TUNNEL_TYPE_VXLAN, Value: []*TunnelEncapSubTLV{subTlv}, } 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()) n1 = NewEncapNLRI("2001::1") buf1, err = n1.Serialize() assert.Equal(nil, err) n2 = NewEncapNLRI("") err = n2.DecodeFromBytes(buf1) assert.Equal(nil, err) assert.Equal("2001::1", n2.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"))) eq := 0x1 gt := 0x2 lt := 0x4 and := 0x40 not := 0x2 item1 := NewFlowSpecComponentItem(eq, TCP) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_IP_PROTO, []*FlowSpecComponentItem{item1})) item2 := NewFlowSpecComponentItem(gt|eq, 20) item3 := NewFlowSpecComponentItem(and|lt|eq, 30) item4 := NewFlowSpecComponentItem(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})) isFlagment := 0x02 item5 := NewFlowSpecComponentItem(isFlagment, 0) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_FRAGMENT, []*FlowSpecComponentItem{item5})) item6 := NewFlowSpecComponentItem(0, TCP_FLAG_ACK) item7 := NewFlowSpecComponentItem(and|not, TCP_FLAG_URGENT) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_TCP_FLAG, []*FlowSpecComponentItem{item6, item7})) 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_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)) eq := 0x1 gt := 0x2 lt := 0x4 and := 0x40 not := 0x2 item1 := NewFlowSpecComponentItem(eq, TCP) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_IP_PROTO, []*FlowSpecComponentItem{item1})) item2 := NewFlowSpecComponentItem(gt|eq, 20) item3 := NewFlowSpecComponentItem(and|lt|eq, 30) item4 := NewFlowSpecComponentItem(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})) isFlagment := 0x02 item5 := NewFlowSpecComponentItem(isFlagment, 0) cmp = append(cmp, NewFlowSpecComponent(FLOW_SPEC_TYPE_FRAGMENT, []*FlowSpecComponentItem{item5})) item6 := NewFlowSpecComponentItem(0, TCP_FLAG_ACK) item7 := NewFlowSpecComponentItem(and|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([]AigpTLV{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)) } }