package dns // https://datatracker.ietf.org/doc/html/rfc1035 // https://github.com/Forescout/namewreck/blob/main/rfc/draft-dashevskyi-dnsrr-antipatterns-00.txt import ( "net" "strings" "github.com/wader/fq/format" "github.com/wader/fq/pkg/decode" "github.com/wader/fq/pkg/interp" "github.com/wader/fq/pkg/scalar" ) func init() { interp.RegisterFormat( format.DNS, &decode.Format{ Description: "DNS packet", Groups: []*decode.Group{format.UDP_Payload}, DecodeFn: dnsUDPDecode, }) } const ( classIN = 1 ) var classNames = scalar.UintRangeToScalar{ {Range: [2]uint64{0x0000, 0x0000}, S: scalar.Uint{Sym: "reserved", Description: "Reserved"}}, {Range: [2]uint64{classIN, classIN}, S: scalar.Uint{Sym: "in", Description: "Internet"}}, {Range: [2]uint64{0x0002, 0x0002}, S: scalar.Uint{Sym: "unassigned", Description: "Unassigned"}}, {Range: [2]uint64{0x0003, 0x0003}, S: scalar.Uint{Sym: "chaos", Description: "Chaos"}}, {Range: [2]uint64{0x0004, 0x0004}, S: scalar.Uint{Sym: "hesiod", Description: "Hesiod"}}, {Range: [2]uint64{0x0005, 0x00fd}, S: scalar.Uint{Sym: "unassigned", Description: "Unassigned"}}, {Range: [2]uint64{0x00fe, 0x00fe}, S: scalar.Uint{Sym: "qclass_none", Description: "QCLASS NONE"}}, {Range: [2]uint64{0x00ff, 0x00ff}, S: scalar.Uint{Sym: "qclass_any", Description: "QCLASS ANY"}}, {Range: [2]uint64{0x0100, 0xfeff}, S: scalar.Uint{Sym: "unassigned", Description: "Unassigned"}}, {Range: [2]uint64{0xff00, 0xfffe}, S: scalar.Uint{Sym: "private", Description: "Reserved for Private Use"}}, {Range: [2]uint64{0xffff, 0xffff}, S: scalar.Uint{Sym: "reserved", Description: "Reserved"}}, } const ( typeA = 1 typeNS = 2 typeCNAME = 5 typeSOA = 6 typePTR = 12 typeTXT = 16 typeAAAA = 28 ) var typeNames = scalar.UintMapSymStr{ typeA: "a", typeAAAA: "aaaa", 18: "afsdb", 42: "apl", 257: "caa", 60: "cdnskey", 59: "cds", 37: "cert", typeCNAME: "cname", 62: "csync", 49: "dhcid", 32769: "dlv", 39: "dname", 48: "dnskey", 43: "ds", 108: "eui48", 109: "eui64", 13: "hinfo", 55: "hip", 45: "ipseckey", 25: "key", 36: "kx", 29: "loc", 15: "mx", 35: "naptr", typeNS: "ns", 47: "nsec", 50: "nsec3", 51: "nsec3_param", 61: "openpgp_key", typePTR: "ptr", 46: "rrsig", 17: "rp", 24: "sig", 53: "smimea", typeSOA: "soa", 33: "srv", 44: "sshfp", 32768: "ta", 249: "tkey", 52: "tlsa", 250: "tsig", typeTXT: "txt", 256: "uri", 63: "zonemd", 64: "svcb", 65: "https", } var rcodeNames = scalar.UintMap{ 0: {Sym: "no_error", Description: "No error"}, 1: {Sym: "form_err", Description: "Format error"}, 2: {Sym: "serv_fail", Description: "Server failure"}, 3: {Sym: "nx_domain", Description: "Non-Existent Domain"}, 4: {Sym: "no_tiimpl", Description: "Not implemented"}, 5: {Sym: "refused", Description: "Refused"}, 6: {Sym: "yx_domain", Description: "DescriptionName Exists when it should not"}, // RFC 2136 7: {Sym: "yxrr_set", Description: "RR Set Exists when it should not"}, // RFC 2136 8: {Sym: "nxrr_set", Description: "RR Set that should exist does not"}, // RFC 2136 9: {Sym: "not_auth", Description: "Server Not Authoritative for zone"}, // RFC 2136 10: {Sym: "not_zone", Description: "Name not contained in zone"}, // RFC 2136 // collision in RFCs // 16: {Sym: "badvers", Description: "Bad OPT Version"}, // RFC 2671 16: {Sym: "bad_sig", Description: "TSIG Signature Failure"}, // RFC 2845 17: {Sym: "bad_key", Description: "Key not recognized"}, // RFC 2845 18: {Sym: "bad_time", Description: "Signature out of time window"}, // RFC 2845 19: {Sym: "bad_mode", Description: "Bad TKEY Mode"}, // RFC 2930 20: {Sym: "bad_name", Description: "Duplicate key name"}, // RFC 2930 21: {Sym: "bad_alg", Description: "Algorithm not supported"}, // RFC 2930 } func decodeAStr(d *decode.D) string { return net.IP(d.BytesLen(4)).String() } func decodeAAAAStr(d *decode.D) string { return net.IP(d.BytesLen(16)).String() } func fieldDecodeLabel(d *decode.D, pointerOffset int64, name string) { var endPos int64 const maxJumps = 100 jumpCount := 0 d.FieldStruct(name, func(d *decode.D) { var ls []string d.FieldArray("labels", func(d *decode.D) { seenTermintor := false for !seenTermintor { d.FieldStruct("label", func(d *decode.D) { if d.PeekUintBits(2) == 0b11 { d.FieldU2("is_pointer") pointer := d.FieldU14("pointer") if endPos == 0 { endPos = d.Pos() } jumpCount++ if jumpCount > maxJumps { d.Fatalf("label has more than %d jumps", maxJumps) } d.SeekAbs(int64(pointer)*8 + pointerOffset) } l := d.FieldU8("length") if l == 0 { seenTermintor = true return } ls = append(ls, d.FieldUTF8("value", int(l))) }) } }) d.FieldValueStr("value", strings.Join(ls, ".")) }) if endPos != 0 { d.SeekAbs(endPos) } } func dnsDecodeRR(d *decode.D, pointerOffset int64, resp bool, count uint64, name string, structName string) { d.FieldArray(name, func(d *decode.D) { for i := uint64(0); i < count; i++ { d.FieldStruct(structName, func(d *decode.D) { fieldDecodeLabel(d, pointerOffset, "name") typ := d.FieldU16("type", typeNames) class := d.FieldU16("class", classNames) if resp { d.FieldU32("ttl") rdLength := d.FieldU16("rdlength") d.FramedFn(int64(rdLength)*8, func(d *decode.D) { // TODO: all only for classIN? switch { case class == classIN && typ == typeA: d.FieldStrFn("address", decodeAStr) case typ == typeNS: fieldDecodeLabel(d, pointerOffset, "ns") case typ == typeCNAME: fieldDecodeLabel(d, pointerOffset, "cname") case typ == typeSOA: fieldDecodeLabel(d, pointerOffset, "mname") fieldDecodeLabel(d, pointerOffset, "rname") d.FieldU32("serial") d.FieldU32("refresh") d.FieldU32("retry") d.FieldU32("expire") d.FieldU32("minimum") case typ == typePTR: fieldDecodeLabel(d, pointerOffset, "ptr") case typ == typeTXT: var ss []string d.FieldStruct("txt", func(d *decode.D) { d.FieldArray("strings", func(d *decode.D) { for !d.End() { ss = append(ss, d.FieldUTF8ShortString("string")) } }) d.FieldValueStr("value", strings.Join(ss, "")) }) case class == classIN && typ == typeAAAA: d.FieldStrFn("address", decodeAAAAStr) default: d.FieldUTF8("rdata", int(rdLength)) } }) } }) } }) } func dnsDecode(d *decode.D, hasLengthHeader bool) any { pointerOffset := int64(0) d.FieldStruct("header", func(d *decode.D) { if hasLengthHeader { pointerOffset = 16 d.FieldU16("length") } d.FieldU16("id") d.FieldU1("qr", scalar.UintMapSymStr{ 0: "query", 1: "response", }) d.FieldU4("opcode", scalar.UintMapSymStr{ 0: "query", 1: "iquery", 2: "status", 4: "notify", // RFC 1996 5: "update", // RFC 2136 }) d.FieldBool("authoritative_answer") d.FieldBool("truncation") d.FieldBool("recursion_desired") d.FieldBool("recursion_available") d.FieldU3("z") d.FieldU4("rcode", rcodeNames) }) qdCount := d.FieldU16("qd_count") anCount := d.FieldU16("an_count") nsCount := d.FieldU16("ns_count") arCount := d.FieldU16("ar_count") dnsDecodeRR(d, pointerOffset, false, qdCount, "questions", "question") dnsDecodeRR(d, pointerOffset, true, anCount, "answers", "answer") dnsDecodeRR(d, pointerOffset, true, nsCount, "nameservers", "nameserver") dnsDecodeRR(d, pointerOffset, true, arCount, "additionals", "additional") return nil } func dnsUDPDecode(d *decode.D) any { var upi format.UDP_Payload_In if d.ArgAs(&upi) { upi.MustIsPort(d.Fatalf, format.UDPPortDomain, format.UDPPortMDNS) } return dnsDecode(d, false) }