package dns import ( "bytes" "encoding/hex" "net" "testing" ) func TestPackUnpack(t *testing.T) { out := new(Msg) out.Answer = make([]RR, 1) key := &DNSKEY{Flags: 257, Protocol: 3, Algorithm: RSASHA1} key.Hdr = RR_Header{Name: "miek.nl.", Rrtype: TypeDNSKEY, Class: ClassINET, Ttl: 3600} key.PublicKey = "AwEAAaHIwpx3w4VHKi6i1LHnTaWeHCL154Jug0Rtc9ji5qwPXpBo6A5sRv7cSsPQKPIwxLpyCrbJ4mr2L0EPOdvP6z6YfljK2ZmTbogU9aSU2fiq/4wjxbdkLyoDVgtO+JsxNN4bjr4WcWhsmk1Hg93FV9ZpkWb0Tbad8DFqNDzr//kZ" out.Answer[0] = key msg, err := out.Pack() if err != nil { t.Error("failed to pack msg with DNSKEY") } in := new(Msg) if in.Unpack(msg) != nil { t.Error("failed to unpack msg with DNSKEY") } sig := &RRSIG{TypeCovered: TypeDNSKEY, Algorithm: RSASHA1, Labels: 2, OrigTtl: 3600, Expiration: 4000, Inception: 4000, KeyTag: 34641, SignerName: "miek.nl.", Signature: "AwEAAaHIwpx3w4VHKi6i1LHnTaWeHCL154Jug0Rtc9ji5qwPXpBo6A5sRv7cSsPQKPIwxLpyCrbJ4mr2L0EPOdvP6z6YfljK2ZmTbogU9aSU2fiq/4wjxbdkLyoDVgtO+JsxNN4bjr4WcWhsmk1Hg93FV9ZpkWb0Tbad8DFqNDzr//kZ"} sig.Hdr = RR_Header{Name: "miek.nl.", Rrtype: TypeRRSIG, Class: ClassINET, Ttl: 3600} out.Answer[0] = sig msg, err = out.Pack() if err != nil { t.Error("failed to pack msg with RRSIG") } if in.Unpack(msg) != nil { t.Error("failed to unpack msg with RRSIG") } } func TestPackUnpack2(t *testing.T) { m := new(Msg) m.Extra = make([]RR, 1) m.Answer = make([]RR, 1) dom := "miek.nl." rr := new(A) rr.Hdr = RR_Header{Name: dom, Rrtype: TypeA, Class: ClassINET, Ttl: 0} rr.A = net.IPv4(127, 0, 0, 1) x := new(TXT) x.Hdr = RR_Header{Name: dom, Rrtype: TypeTXT, Class: ClassINET, Ttl: 0} x.Txt = []string{"heelalaollo"} m.Extra[0] = x m.Answer[0] = rr _, err := m.Pack() if err != nil { t.Error("Packing failed: ", err) return } } func TestPackUnpack3(t *testing.T) { m := new(Msg) m.Extra = make([]RR, 2) m.Answer = make([]RR, 1) dom := "miek.nl." rr := new(A) rr.Hdr = RR_Header{Name: dom, Rrtype: TypeA, Class: ClassINET, Ttl: 0} rr.A = net.IPv4(127, 0, 0, 1) x1 := new(TXT) x1.Hdr = RR_Header{Name: dom, Rrtype: TypeTXT, Class: ClassINET, Ttl: 0} x1.Txt = []string{} x2 := new(TXT) x2.Hdr = RR_Header{Name: dom, Rrtype: TypeTXT, Class: ClassINET, Ttl: 0} x2.Txt = []string{"heelalaollo"} m.Extra[0] = x1 m.Extra[1] = x2 m.Answer[0] = rr b, err := m.Pack() if err != nil { t.Error("packing failed: ", err) return } var unpackMsg Msg err = unpackMsg.Unpack(b) if err != nil { t.Error("unpacking failed") return } } func TestBailiwick(t *testing.T) { yes := map[string]string{ "miek1.nl": "miek1.nl", "miek.nl": "ns.miek.nl", ".": "miek.nl", } for parent, child := range yes { if !IsSubDomain(parent, child) { t.Errorf("%s should be child of %s", child, parent) t.Errorf("comparelabels %d", CompareDomainName(parent, child)) t.Errorf("lenlabels %d %d", CountLabel(parent), CountLabel(child)) } } no := map[string]string{ "www.miek.nl": "ns.miek.nl", "m\\.iek.nl": "ns.miek.nl", "w\\.iek.nl": "w.iek.nl", "p\\\\.iek.nl": "ns.p.iek.nl", // p\\.iek.nl , literal \ in domain name "miek.nl": ".", } for parent, child := range no { if IsSubDomain(parent, child) { t.Errorf("%s should not be child of %s", child, parent) t.Errorf("comparelabels %d", CompareDomainName(parent, child)) t.Errorf("lenlabels %d %d", CountLabel(parent), CountLabel(child)) } } } func TestPackNAPTR(t *testing.T) { for _, n := range []string{ `apple.com. IN NAPTR 100 50 "se" "SIP+D2U" "" _sip._udp.apple.com.`, `apple.com. IN NAPTR 90 50 "se" "SIP+D2T" "" _sip._tcp.apple.com.`, `apple.com. IN NAPTR 50 50 "se" "SIPS+D2T" "" _sips._tcp.apple.com.`, } { rr := testRR(n) msg := make([]byte, Len(rr)) if off, err := PackRR(rr, msg, 0, nil, false); err != nil { t.Errorf("packing failed: %v", err) t.Errorf("length %d, need more than %d", Len(rr), off) } } } func TestToRFC3597(t *testing.T) { a := testRR("miek.nl. IN A 10.0.1.1") x := new(RFC3597) x.ToRFC3597(a) if x.String() != `miek.nl. 3600 CLASS1 TYPE1 \# 4 0a000101` { t.Errorf("string mismatch, got: %s", x) } b := testRR("miek.nl. IN MX 10 mx.miek.nl.") x.ToRFC3597(b) if x.String() != `miek.nl. 3600 CLASS1 TYPE15 \# 14 000a026d78046d69656b026e6c00` { t.Errorf("string mismatch, got: %s", x) } } func TestNoRdataPack(t *testing.T) { data := make([]byte, 1024) for typ, fn := range TypeToRR { r := fn() *r.Header() = RR_Header{Name: "miek.nl.", Rrtype: typ, Class: ClassINET, Ttl: 16} _, err := PackRR(r, data, 0, nil, false) if err != nil { t.Errorf("failed to pack RR with zero rdata: %s: %v", TypeToString[typ], err) } } } func TestNoRdataUnpack(t *testing.T) { data := make([]byte, 1024) for typ, fn := range TypeToRR { if typ == TypeSOA || typ == TypeTSIG || typ == TypeTKEY { // SOA, TSIG will not be seen (like this) in dyn. updates? // TKEY requires length fields to be present for the Key and OtherData fields continue } r := fn() *r.Header() = RR_Header{Name: "miek.nl.", Rrtype: typ, Class: ClassINET, Ttl: 16} off, err := PackRR(r, data, 0, nil, false) if err != nil { // Should always works, TestNoDataPack should have caught this t.Errorf("failed to pack RR: %v", err) continue } if _, _, err := UnpackRR(data[:off], 0); err != nil { t.Errorf("failed to unpack RR with zero rdata: %s: %v", TypeToString[typ], err) } } } func TestRdataOverflow(t *testing.T) { rr := new(RFC3597) rr.Hdr.Name = "." rr.Hdr.Class = ClassINET rr.Hdr.Rrtype = 65280 rr.Rdata = hex.EncodeToString(make([]byte, 0xFFFF)) buf := make([]byte, 0xFFFF*2) if _, err := PackRR(rr, buf, 0, nil, false); err != nil { t.Fatalf("maximum size rrdata pack failed: %v", err) } rr.Rdata += "00" if _, err := PackRR(rr, buf, 0, nil, false); err != ErrRdata { t.Fatalf("oversize rrdata pack didn't return ErrRdata - instead: %v", err) } } func TestCopy(t *testing.T) { rr := testRR("miek.nl. 2311 IN A 127.0.0.1") // Weird TTL to avoid catching TTL rr1 := Copy(rr) if rr.String() != rr1.String() { t.Fatalf("Copy() failed %s != %s", rr.String(), rr1.String()) } } func TestMsgCopy(t *testing.T) { m := new(Msg) m.SetQuestion("miek.nl.", TypeA) rr := testRR("miek.nl. 2311 IN A 127.0.0.1") m.Answer = []RR{rr} rr = testRR("miek.nl. 2311 IN NS 127.0.0.1") m.Ns = []RR{rr} m1 := m.Copy() if m.String() != m1.String() { t.Fatalf("Msg.Copy() failed %s != %s", m.String(), m1.String()) } m1.Answer[0] = testRR("somethingelse.nl. 2311 IN A 127.0.0.1") if m.String() == m1.String() { t.Fatalf("Msg.Copy() failed; change to copy changed template %s", m.String()) } rr = testRR("miek.nl. 2311 IN A 127.0.0.2") m1.Answer = append(m1.Answer, rr) if m1.Ns[0].String() == m1.Answer[1].String() { t.Fatalf("Msg.Copy() failed; append changed underlying array %s", m1.Ns[0].String()) } } func TestMsgPackBuffer(t *testing.T) { var testMessages = []string{ // news.ycombinator.com.in.escapemg.com. IN A, response "586285830001000000010000046e6577730b79636f6d62696e61746f7203636f6d02696e086573636170656d6703636f6d0000010001c0210006000100000e10002c036e7332c02103646e730b67726f6f7665736861726bc02d77ed50e600002a3000000e1000093a8000000e10", // news.ycombinator.com.in.escapemg.com. IN A, question "586201000001000000000000046e6577730b79636f6d62696e61746f7203636f6d02696e086573636170656d6703636f6d0000010001", "398781020001000000000000046e6577730b79636f6d62696e61746f7203636f6d0000010001", } for i, hexData := range testMessages { // we won't fail the decoding of the hex input, _ := hex.DecodeString(hexData) m := new(Msg) if err := m.Unpack(input); err != nil { t.Errorf("packet %d failed to unpack", i) continue } } } // Make sure we can decode a TKEY packet from the string, modify the RR, and then pack it again. func TestTKEY(t *testing.T) { // An example TKEY RR captured. There is no known accepted standard text format for a TKEY // record so we do this from a hex string instead of from a text readable string. tkeyStr := "0737362d6d732d370932322d3332633233332463303439663961662d633065612d313165372d363839362d6463333937396666656666640000f900ff0000000000d2086773732d747369670059fd01f359fe53730003000000b8a181b53081b2a0030a0100a10b06092a864882f712010202a2819d04819a60819706092a864886f71201020202006f8187308184a003020105a10302010fa2783076a003020112a26f046db29b1b1d2625da3b20b49dafef930dd1e9aad335e1c5f45dcd95e0005d67a1100f3e573d70506659dbed064553f1ab890f68f65ae10def0dad5b423b39f240ebe666f2886c5fe03819692d29182bbed87b83e1f9d16b7334ec16a3c4fc5ad4a990088e0be43f0c6957916f5fe60000" tkeyBytes, err := hex.DecodeString(tkeyStr) if err != nil { t.Fatal("unable to decode TKEY string ", err) } // Decode the RR rr, tkeyLen, unPackErr := UnpackRR(tkeyBytes, 0) if unPackErr != nil { t.Fatal("unable to decode TKEY RR", unPackErr) } // Make sure it's a TKEY record if rr.Header().Rrtype != TypeTKEY { t.Fatal("Unable to decode TKEY") } // Make sure we get back the same length if Len(rr) != len(tkeyBytes) { t.Fatalf("Lengths don't match %d != %d", Len(rr), len(tkeyBytes)) } // make space for it with some fudge room msg := make([]byte, tkeyLen+1000) offset, packErr := PackRR(rr, msg, 0, nil, false) if packErr != nil { t.Fatal("unable to pack TKEY RR", packErr) } if offset != len(tkeyBytes) { t.Fatalf("mismatched TKEY RR size %d != %d", len(tkeyBytes), offset) } if !bytes.Equal(tkeyBytes, msg[0:offset]) { t.Fatal("mismatched TKEY data after rewriting bytes") } // Now add some bytes to this and make sure we can encode OtherData properly tkey := rr.(*TKEY) tkey.OtherData = "abcd" tkey.OtherLen = 2 offset, packErr = PackRR(tkey, msg, 0, nil, false) if packErr != nil { t.Fatal("unable to pack TKEY RR after modification", packErr) } if offset != len(tkeyBytes)+2 { t.Fatalf("mismatched TKEY RR size %d != %d", offset, len(tkeyBytes)+2) } // Make sure we can parse our string output tkey.Hdr.Class = ClassINET // https://github.com/miekg/dns/issues/577 _, newError := NewRR(tkey.String()) if newError != nil { t.Fatalf("unable to parse TKEY string: %s", newError) } }