// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // DNS packet assembly. See RFC 1035. // // This is intended to support name resolution during net.Dial. // It doesn't have to be blazing fast. // // Rather than write the usual handful of routines to pack and // unpack every message that can appear on the wire, we use // reflection to write a generic pack/unpack for structs and then // use it. Thus, if in the future we need to define new message // structs, no new pack/unpack/printing code needs to be written. // // The first half of this file defines the DNS message formats. // The second half implements the conversion to and from wire format. // A few of the structure elements have string tags to aid the // generic pack/unpack routines. // // TODO(rsc) There are enough names defined in this file that they're all // prefixed with _DNS_. Perhaps put this in its own package later. package net import ( "fmt" "os" "reflect" ) // Packet formats // Wire constants. const ( // valid _DNS_RR_Header.Rrtype and _DNS_Question.qtype _DNS_TypeA = 1 _DNS_TypeNS = 2 _DNS_TypeMD = 3 _DNS_TypeMF = 4 _DNS_TypeCNAME = 5 _DNS_TypeSOA = 6 _DNS_TypeMB = 7 _DNS_TypeMG = 8 _DNS_TypeMR = 9 _DNS_TypeNULL = 10 _DNS_TypeWKS = 11 _DNS_TypePTR = 12 _DNS_TypeHINFO = 13 _DNS_TypeMINFO = 14 _DNS_TypeMX = 15 _DNS_TypeTXT = 16 // valid _DNS_Question.qtype only _DNS_TypeAXFR = 252 _DNS_TypeMAILB = 253 _DNS_TypeMAILA = 254 _DNS_TypeALL = 255 // valid _DNS_Question.qclass _DNS_ClassINET = 1 _DNS_ClassCSNET = 2 _DNS_ClassCHAOS = 3 _DNS_ClassHESIOD = 4 _DNS_ClassANY = 255 // _DNS_Msg.rcode _DNS_RcodeSuccess = 0 _DNS_RcodeFormatError = 1 _DNS_RcodeServerFailure = 2 _DNS_RcodeNameError = 3 _DNS_RcodeNotImplemented = 4 _DNS_RcodeRefused = 5 ) // The wire format for the DNS packet header. type __DNS_Header struct { Id uint16 Bits uint16 Qdcount, Ancount, Nscount, Arcount uint16 } const ( // __DNS_Header.Bits _QR = 1 << 15 // query/response (response=1) _AA = 1 << 10 // authoritative _TC = 1 << 9 // truncated _RD = 1 << 8 // recursion desired _RA = 1 << 7 // recursion available ) // DNS queries. type _DNS_Question struct { Name string "domain-name" // "domain-name" specifies encoding; see packers below Qtype uint16 Qclass uint16 } // DNS responses (resource records). // There are many types of messages, // but they all share the same header. type _DNS_RR_Header struct { Name string "domain-name" Rrtype uint16 Class uint16 Ttl uint32 Rdlength uint16 // length of data after header } func (h *_DNS_RR_Header) Header() *_DNS_RR_Header { return h } type _DNS_RR interface { Header() *_DNS_RR_Header } // Specific DNS RR formats for each query type. type _DNS_RR_CNAME struct { Hdr _DNS_RR_Header Cname string "domain-name" } func (rr *_DNS_RR_CNAME) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_HINFO struct { Hdr _DNS_RR_Header Cpu string Os string } func (rr *_DNS_RR_HINFO) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_MB struct { Hdr _DNS_RR_Header Mb string "domain-name" } func (rr *_DNS_RR_MB) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_MG struct { Hdr _DNS_RR_Header Mg string "domain-name" } func (rr *_DNS_RR_MG) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_MINFO struct { Hdr _DNS_RR_Header Rmail string "domain-name" Email string "domain-name" } func (rr *_DNS_RR_MINFO) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_MR struct { Hdr _DNS_RR_Header Mr string "domain-name" } func (rr *_DNS_RR_MR) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_MX struct { Hdr _DNS_RR_Header Pref uint16 Mx string "domain-name" } func (rr *_DNS_RR_MX) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_NS struct { Hdr _DNS_RR_Header Ns string "domain-name" } func (rr *_DNS_RR_NS) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_PTR struct { Hdr _DNS_RR_Header Ptr string "domain-name" } func (rr *_DNS_RR_PTR) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_SOA struct { Hdr _DNS_RR_Header Ns string "domain-name" Mbox string "domain-name" Serial uint32 Refresh uint32 Retry uint32 Expire uint32 Minttl uint32 } func (rr *_DNS_RR_SOA) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_TXT struct { Hdr _DNS_RR_Header Txt string // not domain name } func (rr *_DNS_RR_TXT) Header() *_DNS_RR_Header { return &rr.Hdr } type _DNS_RR_A struct { Hdr _DNS_RR_Header A uint32 "ipv4" } func (rr *_DNS_RR_A) Header() *_DNS_RR_Header { return &rr.Hdr } // Packing and unpacking. // // All the packers and unpackers take a (msg []byte, off int) // and return (off1 int, ok bool). If they return ok==false, they // also return off1==len(msg), so that the next unpacker will // also fail. This lets us avoid checks of ok until the end of a // packing sequence. // Map of constructors for each RR wire type. var rr_mk = map[int]func() _DNS_RR{ _DNS_TypeCNAME: func() _DNS_RR { return new(_DNS_RR_CNAME) }, _DNS_TypeHINFO: func() _DNS_RR { return new(_DNS_RR_HINFO) }, _DNS_TypeMB: func() _DNS_RR { return new(_DNS_RR_MB) }, _DNS_TypeMG: func() _DNS_RR { return new(_DNS_RR_MG) }, _DNS_TypeMINFO: func() _DNS_RR { return new(_DNS_RR_MINFO) }, _DNS_TypeMR: func() _DNS_RR { return new(_DNS_RR_MR) }, _DNS_TypeMX: func() _DNS_RR { return new(_DNS_RR_MX) }, _DNS_TypeNS: func() _DNS_RR { return new(_DNS_RR_NS) }, _DNS_TypePTR: func() _DNS_RR { return new(_DNS_RR_PTR) }, _DNS_TypeSOA: func() _DNS_RR { return new(_DNS_RR_SOA) }, _DNS_TypeTXT: func() _DNS_RR { return new(_DNS_RR_TXT) }, _DNS_TypeA: func() _DNS_RR { return new(_DNS_RR_A) }, } // Pack a domain name s into msg[off:]. // Domain names are a sequence of counted strings // split at the dots. They end with a zero-length string. func packDomainName(s string, msg []byte, off int) (off1 int, ok bool) { // Add trailing dot to canonicalize name. if n := len(s); n == 0 || s[n-1] != '.' { s += "." } // Each dot ends a segment of the name. // We trade each dot byte for a length byte. // There is also a trailing zero. // Check that we have all the space we need. tot := len(s) + 1 if off+tot > len(msg) { return len(msg), false } // Emit sequence of counted strings, chopping at dots. begin := 0 for i := 0; i < len(s); i++ { if s[i] == '.' { if i-begin >= 1<<6 { // top two bits of length must be clear return len(msg), false } msg[off] = byte(i - begin) off++ for j := begin; j < i; j++ { msg[off] = s[j] off++ } begin = i + 1 } } msg[off] = 0 off++ return off, true } // Unpack a domain name. // In addition to the simple sequences of counted strings above, // domain names are allowed to refer to strings elsewhere in the // packet, to avoid repeating common suffixes when returning // many entries in a single domain. The pointers are marked // by a length byte with the top two bits set. Ignoring those // two bits, that byte and the next give a 14 bit offset from msg[0] // where we should pick up the trail. // Note that if we jump elsewhere in the packet, // we return off1 == the offset after the first pointer we found, // which is where the next record will start. // In theory, the pointers are only allowed to jump backward. // We let them jump anywhere and stop jumping after a while. func unpackDomainName(msg []byte, off int) (s string, off1 int, ok bool) { s = "" ptr := 0 // number of pointers followed Loop: for { if off >= len(msg) { return "", len(msg), false } c := int(msg[off]) off++ switch c & 0xC0 { case 0x00: if c == 0x00 { // end of name break Loop } // literal string if off+c > len(msg) { return "", len(msg), false } s += string(msg[off:off+c]) + "." off += c case 0xC0: // pointer to somewhere else in msg. // remember location after first ptr, // since that's how many bytes we consumed. // also, don't follow too many pointers -- // maybe there's a loop. if off >= len(msg) { return "", len(msg), false } c1 := msg[off] off++ if ptr == 0 { off1 = off } if ptr++; ptr > 10 { return "", len(msg), false } off = (c^0xC0)<<8 | int(c1) default: // 0x80 and 0x40 are reserved return "", len(msg), false } } if ptr == 0 { off1 = off } return s, off1, true } // TODO(rsc): Move into generic library? // Pack a reflect.StructValue into msg. Struct members can only be uint16, uint32, string, // and other (often anonymous) structs. func packStructValue(val *reflect.StructValue, msg []byte, off int) (off1 int, ok bool) { for i := 0; i < val.NumField(); i++ { f := val.Type().(*reflect.StructType).Field(i) switch fv := val.Field(i).(type) { default: fmt.Fprintf(os.Stderr, "net: dns: unknown packing type %v", f.Type) return len(msg), false case *reflect.StructValue: off, ok = packStructValue(fv, msg, off) case *reflect.Uint16Value: i := fv.Get() if off+2 > len(msg) { return len(msg), false } msg[off] = byte(i >> 8) msg[off+1] = byte(i) off += 2 case *reflect.Uint32Value: i := fv.Get() if off+4 > len(msg) { return len(msg), false } msg[off] = byte(i >> 24) msg[off+1] = byte(i >> 16) msg[off+2] = byte(i >> 8) msg[off+4] = byte(i) off += 4 case *reflect.StringValue: // There are multiple string encodings. // The tag distinguishes ordinary strings from domain names. s := fv.Get() switch f.Tag { default: fmt.Fprintf(os.Stderr, "net: dns: unknown string tag %v", f.Tag) return len(msg), false case "domain-name": off, ok = packDomainName(s, msg, off) if !ok { return len(msg), false } case "": // Counted string: 1 byte length. if len(s) > 255 || off+1+len(s) > len(msg) { return len(msg), false } msg[off] = byte(len(s)) off++ for i := 0; i < len(s); i++ { msg[off+i] = s[i] } off += len(s) } } } return off, true } func structValue(any interface{}) *reflect.StructValue { return reflect.NewValue(any).(*reflect.PtrValue).Elem().(*reflect.StructValue) } func packStruct(any interface{}, msg []byte, off int) (off1 int, ok bool) { off, ok = packStructValue(structValue(any), msg, off) return off, ok } // TODO(rsc): Move into generic library? // Unpack a reflect.StructValue from msg. // Same restrictions as packStructValue. func unpackStructValue(val *reflect.StructValue, msg []byte, off int) (off1 int, ok bool) { for i := 0; i < val.NumField(); i++ { f := val.Type().(*reflect.StructType).Field(i) switch fv := val.Field(i).(type) { default: fmt.Fprintf(os.Stderr, "net: dns: unknown packing type %v", f.Type) return len(msg), false case *reflect.StructValue: off, ok = unpackStructValue(fv, msg, off) case *reflect.Uint16Value: if off+2 > len(msg) { return len(msg), false } i := uint16(msg[off])<<8 | uint16(msg[off+1]) fv.Set(i) off += 2 case *reflect.Uint32Value: if off+4 > len(msg) { return len(msg), false } i := uint32(msg[off])<<24 | uint32(msg[off+1])<<16 | uint32(msg[off+2])<<8 | uint32(msg[off+3]) fv.Set(i) off += 4 case *reflect.StringValue: var s string switch f.Tag { default: fmt.Fprintf(os.Stderr, "net: dns: unknown string tag %v", f.Tag) return len(msg), false case "domain-name": s, off, ok = unpackDomainName(msg, off) if !ok { return len(msg), false } case "": if off >= len(msg) || off+1+int(msg[off]) > len(msg) { return len(msg), false } n := int(msg[off]) off++ b := make([]byte, n) for i := 0; i < n; i++ { b[i] = msg[off+i] } off += n s = string(b) } fv.Set(s) } } return off, true } func unpackStruct(any interface{}, msg []byte, off int) (off1 int, ok bool) { off, ok = unpackStructValue(structValue(any), msg, off) return off, ok } // Generic struct printer. // Doesn't care about the string tag "domain-name", // but does look for an "ipv4" tag on uint32 variables, // printing them as IP addresses. func printStructValue(val *reflect.StructValue) string { s := "{" for i := 0; i < val.NumField(); i++ { if i > 0 { s += ", " } f := val.Type().(*reflect.StructType).Field(i) if !f.Anonymous { s += f.Name + "=" } fval := val.Field(i) if fv, ok := fval.(*reflect.StructValue); ok { s += printStructValue(fv) } else if fv, ok := fval.(*reflect.Uint32Value); ok && f.Tag == "ipv4" { i := fv.Get() s += IPv4(byte(i>>24), byte(i>>16), byte(i>>8), byte(i)).String() } else { s += fmt.Sprint(fval.Interface()) } } s += "}" return s } func printStruct(any interface{}) string { return printStructValue(structValue(any)) } // Resource record packer. func packRR(rr _DNS_RR, msg []byte, off int) (off2 int, ok bool) { var off1 int // pack twice, once to find end of header // and again to find end of packet. // a bit inefficient but this doesn't need to be fast. // off1 is end of header // off2 is end of rr off1, ok = packStruct(rr.Header(), msg, off) off2, ok = packStruct(rr, msg, off) if !ok { return len(msg), false } // pack a third time; redo header with correct data length rr.Header().Rdlength = uint16(off2 - off1) packStruct(rr.Header(), msg, off) return off2, true } // Resource record unpacker. func unpackRR(msg []byte, off int) (rr _DNS_RR, off1 int, ok bool) { // unpack just the header, to find the rr type and length var h _DNS_RR_Header off0 := off if off, ok = unpackStruct(&h, msg, off); !ok { return nil, len(msg), false } end := off + int(h.Rdlength) // make an rr of that type and re-unpack. // again inefficient but doesn't need to be fast. mk, known := rr_mk[int(h.Rrtype)] if !known { return &h, end, true } rr = mk() off, ok = unpackStruct(rr, msg, off0) if off != end { return &h, end, true } return rr, off, ok } // Usable representation of a DNS packet. // A manually-unpacked version of (id, bits). // This is in its own struct for easy printing. type __DNS_Msg_Top struct { id uint16 response bool opcode int authoritative bool truncated bool recursion_desired bool recursion_available bool rcode int } type _DNS_Msg struct { __DNS_Msg_Top question []_DNS_Question answer []_DNS_RR ns []_DNS_RR extra []_DNS_RR } func (dns *_DNS_Msg) Pack() (msg []byte, ok bool) { var dh __DNS_Header // Convert convenient _DNS_Msg into wire-like __DNS_Header. dh.Id = dns.id dh.Bits = uint16(dns.opcode)<<11 | uint16(dns.rcode) if dns.recursion_available { dh.Bits |= _RA } if dns.recursion_desired { dh.Bits |= _RD } if dns.truncated { dh.Bits |= _TC } if dns.authoritative { dh.Bits |= _AA } if dns.response { dh.Bits |= _QR } // Prepare variable sized arrays. question := dns.question answer := dns.answer ns := dns.ns extra := dns.extra dh.Qdcount = uint16(len(question)) dh.Ancount = uint16(len(answer)) dh.Nscount = uint16(len(ns)) dh.Arcount = uint16(len(extra)) // Could work harder to calculate message size, // but this is far more than we need and not // big enough to hurt the allocator. msg = make([]byte, 2000) // Pack it in: header and then the pieces. off := 0 off, ok = packStruct(&dh, msg, off) for i := 0; i < len(question); i++ { off, ok = packStruct(&question[i], msg, off) } for i := 0; i < len(answer); i++ { off, ok = packStruct(answer[i], msg, off) } for i := 0; i < len(ns); i++ { off, ok = packStruct(ns[i], msg, off) } for i := 0; i < len(extra); i++ { off, ok = packStruct(extra[i], msg, off) } if !ok { return nil, false } return msg[0:off], true } func (dns *_DNS_Msg) Unpack(msg []byte) bool { // Header. var dh __DNS_Header off := 0 var ok bool if off, ok = unpackStruct(&dh, msg, off); !ok { return false } dns.id = dh.Id dns.response = (dh.Bits & _QR) != 0 dns.opcode = int(dh.Bits>>11) & 0xF dns.authoritative = (dh.Bits & _AA) != 0 dns.truncated = (dh.Bits & _TC) != 0 dns.recursion_desired = (dh.Bits & _RD) != 0 dns.recursion_available = (dh.Bits & _RA) != 0 dns.rcode = int(dh.Bits & 0xF) // Arrays. dns.question = make([]_DNS_Question, dh.Qdcount) dns.answer = make([]_DNS_RR, dh.Ancount) dns.ns = make([]_DNS_RR, dh.Nscount) dns.extra = make([]_DNS_RR, dh.Arcount) for i := 0; i < len(dns.question); i++ { off, ok = unpackStruct(&dns.question[i], msg, off) } for i := 0; i < len(dns.answer); i++ { dns.answer[i], off, ok = unpackRR(msg, off) } for i := 0; i < len(dns.ns); i++ { dns.ns[i], off, ok = unpackRR(msg, off) } for i := 0; i < len(dns.extra); i++ { dns.extra[i], off, ok = unpackRR(msg, off) } if !ok { return false } // if off != len(msg) { // println("extra bytes in dns packet", off, "<", len(msg)); // } return true } func (dns *_DNS_Msg) String() string { s := "DNS: " + printStruct(&dns.__DNS_Msg_Top) + "\n" if len(dns.question) > 0 { s += "-- Questions\n" for i := 0; i < len(dns.question); i++ { s += printStruct(&dns.question[i]) + "\n" } } if len(dns.answer) > 0 { s += "-- Answers\n" for i := 0; i < len(dns.answer); i++ { s += printStruct(dns.answer[i]) + "\n" } } if len(dns.ns) > 0 { s += "-- Name servers\n" for i := 0; i < len(dns.ns); i++ { s += printStruct(dns.ns[i]) + "\n" } } if len(dns.extra) > 0 { s += "-- Extra\n" for i := 0; i < len(dns.extra); i++ { s += printStruct(dns.extra[i]) + "\n" } } return s }