// 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. // Package dnsmessage provides a mostly RFC 1035 compliant implementation of // DNS message packing and unpacking. // // This implementation is designed to minimize heap allocations and avoid // unnecessary packing and unpacking as much as possible. package dnsmessage import ( "errors" ) // Packet formats // A Type is a type of DNS request and response. type Type uint16 // A Class is a type of network. type Class uint16 // An OpCode is a DNS operation code. type OpCode uint16 // An RCode is a DNS response status code. type RCode uint16 // Wire constants. const ( // ResourceHeader.Type and Question.Type TypeA Type = 1 TypeNS Type = 2 TypeCNAME Type = 5 TypeSOA Type = 6 TypePTR Type = 12 TypeMX Type = 15 TypeTXT Type = 16 TypeAAAA Type = 28 TypeSRV Type = 33 // Question.Type TypeWKS Type = 11 TypeHINFO Type = 13 TypeMINFO Type = 14 TypeAXFR Type = 252 TypeALL Type = 255 // ResourceHeader.Class and Question.Class ClassINET Class = 1 ClassCSNET Class = 2 ClassCHAOS Class = 3 ClassHESIOD Class = 4 // Question.Class ClassANY Class = 255 // Message.Rcode RCodeSuccess RCode = 0 RCodeFormatError RCode = 1 RCodeServerFailure RCode = 2 RCodeNameError RCode = 3 RCodeNotImplemented RCode = 4 RCodeRefused RCode = 5 ) var ( // ErrNotStarted indicates that the prerequisite information isn't // available yet because the previous records haven't been appropriately // parsed or skipped. ErrNotStarted = errors.New("parsing of this type isn't available yet") // ErrSectionDone indicated that all records in the section have been // parsed. ErrSectionDone = errors.New("parsing of this section has completed") errBaseLen = errors.New("insufficient data for base length type") errCalcLen = errors.New("insufficient data for calculated length type") errReserved = errors.New("segment prefix is reserved") errTooManyPtr = errors.New("too many pointers (>10)") errInvalidPtr = errors.New("invalid pointer") errResourceLen = errors.New("insufficient data for resource body length") errSegTooLong = errors.New("segment length too long") errZeroSegLen = errors.New("zero length segment") errResTooLong = errors.New("resource length too long") errTooManyQuestions = errors.New("too many Questions to pack (>65535)") errTooManyAnswers = errors.New("too many Answers to pack (>65535)") errTooManyAuthorities = errors.New("too many Authorities to pack (>65535)") errTooManyAdditionals = errors.New("too many Additionals to pack (>65535)") ) type nestedError struct { // s is the current level's error message. s string // err is the nested error. err error } // nestedError implements error.Error. func (e *nestedError) Error() string { return e.s + ": " + e.err.Error() } // Header is a representation of a DNS message header. type Header struct { ID uint16 Response bool OpCode OpCode Authoritative bool Truncated bool RecursionDesired bool RecursionAvailable bool RCode RCode } func (m *Header) pack() (id uint16, bits uint16) { id = m.ID bits = uint16(m.OpCode)<<11 | uint16(m.RCode) if m.RecursionAvailable { bits |= headerBitRA } if m.RecursionDesired { bits |= headerBitRD } if m.Truncated { bits |= headerBitTC } if m.Authoritative { bits |= headerBitAA } if m.Response { bits |= headerBitQR } return } // Message is a representation of a DNS message. type Message struct { Header Questions []Question Answers []Resource Authorities []Resource Additionals []Resource } type section uint8 const ( sectionHeader section = iota sectionQuestions sectionAnswers sectionAuthorities sectionAdditionals sectionDone headerBitQR = 1 << 15 // query/response (response=1) headerBitAA = 1 << 10 // authoritative headerBitTC = 1 << 9 // truncated headerBitRD = 1 << 8 // recursion desired headerBitRA = 1 << 7 // recursion available ) var sectionNames = map[section]string{ sectionHeader: "header", sectionQuestions: "Question", sectionAnswers: "Answer", sectionAuthorities: "Authority", sectionAdditionals: "Additional", } // header is the wire format for a DNS message header. type header struct { id uint16 bits uint16 questions uint16 answers uint16 authorities uint16 additionals uint16 } func (h *header) count(sec section) uint16 { switch sec { case sectionQuestions: return h.questions case sectionAnswers: return h.answers case sectionAuthorities: return h.authorities case sectionAdditionals: return h.additionals } return 0 } func (h *header) pack(msg []byte) []byte { msg = packUint16(msg, h.id) msg = packUint16(msg, h.bits) msg = packUint16(msg, h.questions) msg = packUint16(msg, h.answers) msg = packUint16(msg, h.authorities) return packUint16(msg, h.additionals) } func (h *header) unpack(msg []byte, off int) (int, error) { newOff := off var err error if h.id, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"id", err} } if h.bits, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"bits", err} } if h.questions, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"questions", err} } if h.answers, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"answers", err} } if h.authorities, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"authorities", err} } if h.additionals, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"additionals", err} } return newOff, nil } func (h *header) header() Header { return Header{ ID: h.id, Response: (h.bits & headerBitQR) != 0, OpCode: OpCode(h.bits>>11) & 0xF, Authoritative: (h.bits & headerBitAA) != 0, Truncated: (h.bits & headerBitTC) != 0, RecursionDesired: (h.bits & headerBitRD) != 0, RecursionAvailable: (h.bits & headerBitRA) != 0, RCode: RCode(h.bits & 0xF), } } // A Resource is a DNS resource record. type Resource interface { // Header return's the Resource's ResourceHeader. Header() *ResourceHeader // pack packs a Resource except for its header. pack(msg []byte, compression map[string]int) ([]byte, error) // realType returns the actual type of the Resource. This is used to // fill in the header Type field. realType() Type } func packResource(msg []byte, resource Resource, compression map[string]int) ([]byte, error) { oldMsg := msg resource.Header().Type = resource.realType() msg, length, err := resource.Header().pack(msg, compression) if err != nil { return msg, &nestedError{"ResourceHeader", err} } preLen := len(msg) msg, err = resource.pack(msg, compression) if err != nil { return msg, &nestedError{"content", err} } conLen := len(msg) - preLen if conLen > int(^uint16(0)) { return oldMsg, errResTooLong } // Fill in the length now that we know how long the content is. packUint16(length[:0], uint16(conLen)) resource.Header().Length = uint16(conLen) return msg, nil } // A Parser allows incrementally parsing a DNS message. // // When parsing is started, the Header is parsed. Next, each Question can be // either parsed or skipped. Alternatively, all Questions can be skipped at // once. When all Questions have been parsed, attempting to parse Questions // will return (nil, nil) and attempting to skip Questions will return // (true, nil). After all Questions have been either parsed or skipped, all // Answers, Authorities and Additionals can be either parsed or skipped in the // same way, and each type of Resource must be fully parsed or skipped before // proceeding to the next type of Resource. // // Note that there is no requirement to fully skip or parse the message. type Parser struct { msg []byte header header section section off int index int resHeaderValid bool resHeader ResourceHeader } // Start parses the header and enables the parsing of Questions. func (p *Parser) Start(msg []byte) (Header, error) { if p.msg != nil { *p = Parser{} } p.msg = msg var err error if p.off, err = p.header.unpack(msg, 0); err != nil { return Header{}, &nestedError{"unpacking header", err} } p.section = sectionQuestions return p.header.header(), nil } func (p *Parser) checkAdvance(sec section) error { if p.section < sec { return ErrNotStarted } if p.section > sec { return ErrSectionDone } p.resHeaderValid = false if p.index == int(p.header.count(sec)) { p.index = 0 p.section++ return ErrSectionDone } return nil } func (p *Parser) resource(sec section) (Resource, error) { var r Resource hdr, err := p.resourceHeader(sec) if err != nil { return r, err } p.resHeaderValid = false r, p.off, err = unpackResource(p.msg, p.off, hdr) if err != nil { return nil, &nestedError{"unpacking " + sectionNames[sec], err} } p.index++ return r, nil } func (p *Parser) resourceHeader(sec section) (ResourceHeader, error) { if p.resHeaderValid { return p.resHeader, nil } if err := p.checkAdvance(sec); err != nil { return ResourceHeader{}, err } var hdr ResourceHeader off, err := hdr.unpack(p.msg, p.off) if err != nil { return ResourceHeader{}, err } p.resHeaderValid = true p.resHeader = hdr p.off = off return hdr, nil } func (p *Parser) skipResource(sec section) error { if p.resHeaderValid { newOff := p.off + int(p.resHeader.Length) if newOff > len(p.msg) { return errResourceLen } p.off = newOff p.resHeaderValid = false p.index++ return nil } if err := p.checkAdvance(sec); err != nil { return err } var err error p.off, err = skipResource(p.msg, p.off) if err != nil { return &nestedError{"skipping: " + sectionNames[sec], err} } p.index++ return nil } // Question parses a single Question. func (p *Parser) Question() (Question, error) { if err := p.checkAdvance(sectionQuestions); err != nil { return Question{}, err } name, off, err := unpackName(p.msg, p.off) if err != nil { return Question{}, &nestedError{"unpacking Question.Name", err} } typ, off, err := unpackType(p.msg, off) if err != nil { return Question{}, &nestedError{"unpacking Question.Type", err} } class, off, err := unpackClass(p.msg, off) if err != nil { return Question{}, &nestedError{"unpacking Question.Class", err} } p.off = off p.index++ return Question{name, typ, class}, nil } // AllQuestions parses all Questions. func (p *Parser) AllQuestions() ([]Question, error) { qs := make([]Question, 0, p.header.questions) for { q, err := p.Question() if err == ErrSectionDone { return qs, nil } if err != nil { return nil, err } qs = append(qs, q) } } // SkipQuestion skips a single Question. func (p *Parser) SkipQuestion() error { if err := p.checkAdvance(sectionQuestions); err != nil { return err } off, err := skipName(p.msg, p.off) if err != nil { return &nestedError{"skipping Question Name", err} } if off, err = skipType(p.msg, off); err != nil { return &nestedError{"skipping Question Type", err} } if off, err = skipClass(p.msg, off); err != nil { return &nestedError{"skipping Question Class", err} } p.off = off p.index++ return nil } // SkipAllQuestions skips all Questions. func (p *Parser) SkipAllQuestions() error { for { if err := p.SkipQuestion(); err == ErrSectionDone { return nil } else if err != nil { return err } } } // AnswerHeader parses a single Answer ResourceHeader. func (p *Parser) AnswerHeader() (ResourceHeader, error) { return p.resourceHeader(sectionAnswers) } // Answer parses a single Answer Resource. func (p *Parser) Answer() (Resource, error) { return p.resource(sectionAnswers) } // AllAnswers parses all Answer Resources. func (p *Parser) AllAnswers() ([]Resource, error) { as := make([]Resource, 0, p.header.answers) for { a, err := p.Answer() if err == ErrSectionDone { return as, nil } if err != nil { return nil, err } as = append(as, a) } } // SkipAnswer skips a single Answer Resource. func (p *Parser) SkipAnswer() error { return p.skipResource(sectionAnswers) } // SkipAllAnswers skips all Answer Resources. func (p *Parser) SkipAllAnswers() error { for { if err := p.SkipAnswer(); err == ErrSectionDone { return nil } else if err != nil { return err } } } // AuthorityHeader parses a single Authority ResourceHeader. func (p *Parser) AuthorityHeader() (ResourceHeader, error) { return p.resourceHeader(sectionAuthorities) } // Authority parses a single Authority Resource. func (p *Parser) Authority() (Resource, error) { return p.resource(sectionAuthorities) } // AllAuthorities parses all Authority Resources. func (p *Parser) AllAuthorities() ([]Resource, error) { as := make([]Resource, 0, p.header.authorities) for { a, err := p.Authority() if err == ErrSectionDone { return as, nil } if err != nil { return nil, err } as = append(as, a) } } // SkipAuthority skips a single Authority Resource. func (p *Parser) SkipAuthority() error { return p.skipResource(sectionAuthorities) } // SkipAllAuthorities skips all Authority Resources. func (p *Parser) SkipAllAuthorities() error { for { if err := p.SkipAuthority(); err == ErrSectionDone { return nil } else if err != nil { return err } } } // AdditionalHeader parses a single Additional ResourceHeader. func (p *Parser) AdditionalHeader() (ResourceHeader, error) { return p.resourceHeader(sectionAdditionals) } // Additional parses a single Additional Resource. func (p *Parser) Additional() (Resource, error) { return p.resource(sectionAdditionals) } // AllAdditionals parses all Additional Resources. func (p *Parser) AllAdditionals() ([]Resource, error) { as := make([]Resource, 0, p.header.additionals) for { a, err := p.Additional() if err == ErrSectionDone { return as, nil } if err != nil { return nil, err } as = append(as, a) } } // SkipAdditional skips a single Additional Resource. func (p *Parser) SkipAdditional() error { return p.skipResource(sectionAdditionals) } // SkipAllAdditionals skips all Additional Resources. func (p *Parser) SkipAllAdditionals() error { for { if err := p.SkipAdditional(); err == ErrSectionDone { return nil } else if err != nil { return err } } } // Unpack parses a full Message. func (m *Message) Unpack(msg []byte) error { var p Parser var err error if m.Header, err = p.Start(msg); err != nil { return err } if m.Questions, err = p.AllQuestions(); err != nil { return err } if m.Answers, err = p.AllAnswers(); err != nil { return err } if m.Authorities, err = p.AllAuthorities(); err != nil { return err } if m.Additionals, err = p.AllAdditionals(); err != nil { return err } return nil } // Pack packs a full Message. func (m *Message) Pack() ([]byte, error) { // Validate the lengths. It is very unlikely that anyone will try to // pack more than 65535 of any particular type, but it is possible and // we should fail gracefully. if len(m.Questions) > int(^uint16(0)) { return nil, errTooManyQuestions } if len(m.Answers) > int(^uint16(0)) { return nil, errTooManyAnswers } if len(m.Authorities) > int(^uint16(0)) { return nil, errTooManyAuthorities } if len(m.Additionals) > int(^uint16(0)) { return nil, errTooManyAdditionals } var h header h.id, h.bits = m.Header.pack() h.questions = uint16(len(m.Questions)) h.answers = uint16(len(m.Answers)) h.authorities = uint16(len(m.Authorities)) h.additionals = uint16(len(m.Additionals)) // The starting capacity doesn't matter too much, but most DNS responses // Will be <= 512 bytes as it is the limit for DNS over UDP. msg := make([]byte, 0, 512) msg = h.pack(msg) // RFC 1035 allows (but does not require) compression for packing. RFC // 1035 requires unpacking implementations to support compression, so // unconditionally enabling it is fine. // // DNS lookups are typically done over UDP, and RFC 1035 states that UDP // DNS packets can be a maximum of 512 bytes long. Without compression, // many DNS response packets are over this limit, so enabling // compression will help ensure compliance. compression := map[string]int{} for _, q := range m.Questions { var err error msg, err = q.pack(msg, compression) if err != nil { return nil, &nestedError{"packing Question", err} } } for _, a := range m.Answers { var err error msg, err = packResource(msg, a, compression) if err != nil { return nil, &nestedError{"packing Answer", err} } } for _, a := range m.Authorities { var err error msg, err = packResource(msg, a, compression) if err != nil { return nil, &nestedError{"packing Authority", err} } } for _, a := range m.Additionals { var err error msg, err = packResource(msg, a, compression) if err != nil { return nil, &nestedError{"packing Additional", err} } } return msg, nil } // An ResourceHeader is the header of a DNS resource record. There are // many types of DNS resource records, but they all share the same header. type ResourceHeader struct { // Name is the domain name for which this resource record pertains. Name string // Type is the type of DNS resource record. // // This field will be set automatically during packing. Type Type // Class is the class of network to which this DNS resource record // pertains. Class Class // TTL is the length of time (measured in seconds) which this resource // record is valid for (time to live). All Resources in a set should // have the same TTL (RFC 2181 Section 5.2). TTL uint32 // Length is the length of data in the resource record after the header. // // This field will be set automatically during packing. Length uint16 } // Header implements Resource.Header. func (h *ResourceHeader) Header() *ResourceHeader { return h } // pack packs all of the fields in a ResourceHeader except for the length. The // length bytes are returned as a slice so they can be filled in after the rest // of the Resource has been packed. func (h *ResourceHeader) pack(oldMsg []byte, compression map[string]int) (msg []byte, length []byte, err error) { msg = oldMsg if msg, err = packName(msg, h.Name, compression); err != nil { return oldMsg, nil, &nestedError{"Name", err} } msg = packType(msg, h.Type) msg = packClass(msg, h.Class) msg = packUint32(msg, h.TTL) lenBegin := len(msg) msg = packUint16(msg, h.Length) return msg, msg[lenBegin:], nil } func (h *ResourceHeader) unpack(msg []byte, off int) (int, error) { newOff := off var err error if h.Name, newOff, err = unpackName(msg, newOff); err != nil { return off, &nestedError{"Name", err} } if h.Type, newOff, err = unpackType(msg, newOff); err != nil { return off, &nestedError{"Type", err} } if h.Class, newOff, err = unpackClass(msg, newOff); err != nil { return off, &nestedError{"Class", err} } if h.TTL, newOff, err = unpackUint32(msg, newOff); err != nil { return off, &nestedError{"TTL", err} } if h.Length, newOff, err = unpackUint16(msg, newOff); err != nil { return off, &nestedError{"Length", err} } return newOff, nil } func skipResource(msg []byte, off int) (int, error) { newOff, err := skipName(msg, off) if err != nil { return off, &nestedError{"Name", err} } if newOff, err = skipType(msg, newOff); err != nil { return off, &nestedError{"Type", err} } if newOff, err = skipClass(msg, newOff); err != nil { return off, &nestedError{"Class", err} } if newOff, err = skipUint32(msg, newOff); err != nil { return off, &nestedError{"TTL", err} } length, newOff, err := unpackUint16(msg, newOff) if err != nil { return off, &nestedError{"Length", err} } if newOff += int(length); newOff > len(msg) { return off, errResourceLen } return newOff, nil } func packUint16(msg []byte, field uint16) []byte { return append(msg, byte(field>>8), byte(field)) } func unpackUint16(msg []byte, off int) (uint16, int, error) { if off+2 > len(msg) { return 0, off, errBaseLen } return uint16(msg[off])<<8 | uint16(msg[off+1]), off + 2, nil } func skipUint16(msg []byte, off int) (int, error) { if off+2 > len(msg) { return off, errBaseLen } return off + 2, nil } func packType(msg []byte, field Type) []byte { return packUint16(msg, uint16(field)) } func unpackType(msg []byte, off int) (Type, int, error) { t, o, err := unpackUint16(msg, off) return Type(t), o, err } func skipType(msg []byte, off int) (int, error) { return skipUint16(msg, off) } func packClass(msg []byte, field Class) []byte { return packUint16(msg, uint16(field)) } func unpackClass(msg []byte, off int) (Class, int, error) { c, o, err := unpackUint16(msg, off) return Class(c), o, err } func skipClass(msg []byte, off int) (int, error) { return skipUint16(msg, off) } func packUint32(msg []byte, field uint32) []byte { return append( msg, byte(field>>24), byte(field>>16), byte(field>>8), byte(field), ) } func unpackUint32(msg []byte, off int) (uint32, int, error) { if off+4 > len(msg) { return 0, off, errBaseLen } v := uint32(msg[off])<<24 | uint32(msg[off+1])<<16 | uint32(msg[off+2])<<8 | uint32(msg[off+3]) return v, off + 4, nil } func skipUint32(msg []byte, off int) (int, error) { if off+4 > len(msg) { return off, errBaseLen } return off + 4, nil } func packText(msg []byte, field string) []byte { for len(field) > 0 { l := len(field) if l > 255 { l = 255 } msg = append(msg, byte(l)) msg = append(msg, field[:l]...) field = field[l:] } return msg } func unpackText(msg []byte, off int) (string, int, error) { if off >= len(msg) { return "", off, errBaseLen } beginOff := off + 1 endOff := beginOff + int(msg[off]) if endOff > len(msg) { return "", off, errCalcLen } return string(msg[beginOff:endOff]), endOff, nil } func skipText(msg []byte, off int) (int, error) { if off >= len(msg) { return off, errBaseLen } endOff := off + 1 + int(msg[off]) if endOff > len(msg) { return off, errCalcLen } return endOff, nil } func packBytes(msg []byte, field []byte) []byte { return append(msg, field...) } func unpackBytes(msg []byte, off int, field []byte) (int, error) { newOff := off + len(field) if newOff > len(msg) { return off, errBaseLen } copy(field, msg[off:newOff]) return newOff, nil } func skipBytes(msg []byte, off int, field []byte) (int, error) { newOff := off + len(field) if newOff > len(msg) { return off, errBaseLen } return newOff, nil } // packName packs a domain name. // // Domain names are a sequence of counted strings split at the dots. They end // with a zero-length string. Compression can be used to reuse domain suffixes. // // The compression map will be updated with new domain suffixes. If compression // is nil, compression will not be used. func packName(msg []byte, name string, compression map[string]int) ([]byte, error) { oldMsg := msg // Add a trailing dot to canonicalize name. if n := len(name); n == 0 || name[n-1] != '.' { name += "." } // Allow root domain. if name == "." { return append(msg, 0), nil } // Emit sequence of counted strings, chopping at dots. for i, begin := 0, 0; i < len(name); i++ { // Check for the end of the segment. if name[i] == '.' { // The two most significant bits have special meaning. // It isn't allowed for segments to be long enough to // need them. if i-begin >= 1<<6 { return oldMsg, errSegTooLong } // Segments must have a non-zero length. if i-begin == 0 { return oldMsg, errZeroSegLen } msg = append(msg, byte(i-begin)) for j := begin; j < i; j++ { msg = append(msg, name[j]) } begin = i + 1 continue } // We can only compress domain suffixes starting with a new // segment. A pointer is two bytes with the two most significant // bits set to 1 to indicate that it is a pointer. if (i == 0 || name[i-1] == '.') && compression != nil { if ptr, ok := compression[name[i:]]; ok { // Hit. Emit a pointer instead of the rest of // the domain. return append(msg, byte(ptr>>8|0xC0), byte(ptr)), nil } // Miss. Add the suffix to the compression table if the // offset can be stored in the available 14 bytes. if len(msg) <= int(^uint16(0)>>2) { compression[name[i:]] = len(msg) } } } return append(msg, 0), nil } // unpackName unpacks a domain name. func unpackName(msg []byte, off int) (string, int, error) { // currOff is the current working offset. currOff := off // newOff is the offset where the next record will start. Pointers lead // to data that belongs to other names and thus doesn't count towards to // the usage of this name. newOff := off // name is the domain name being unpacked. name := make([]byte, 0, 255) // ptr is the number of pointers followed. var ptr int Loop: for { if currOff >= len(msg) { return "", off, errBaseLen } c := int(msg[currOff]) currOff++ switch c & 0xC0 { case 0x00: // String segment if c == 0x00 { // A zero length signals the end of the name. break Loop } endOff := currOff + c if endOff > len(msg) { return "", off, errCalcLen } name = append(name, msg[currOff:endOff]...) name = append(name, '.') currOff = endOff case 0xC0: // Pointer if currOff >= len(msg) { return "", off, errInvalidPtr } c1 := msg[currOff] currOff++ if ptr == 0 { newOff = currOff } // Don't follow too many pointers, maybe there's a loop. if ptr++; ptr > 10 { return "", off, errTooManyPtr } currOff = (c^0xC0)<<8 | int(c1) default: // Prefixes 0x80 and 0x40 are reserved. return "", off, errReserved } } if len(name) == 0 { name = append(name, '.') } if ptr == 0 { newOff = currOff } return string(name), newOff, nil } func skipName(msg []byte, off int) (int, error) { // newOff is the offset where the next record will start. Pointers lead // to data that belongs to other names and thus doesn't count towards to // the usage of this name. newOff := off Loop: for { if newOff >= len(msg) { return off, errBaseLen } c := int(msg[newOff]) newOff++ switch c & 0xC0 { case 0x00: if c == 0x00 { // A zero length signals the end of the name. break Loop } // literal string newOff += c if newOff > len(msg) { return off, errCalcLen } case 0xC0: // Pointer to somewhere else in msg. // Pointers are two bytes. newOff++ // Don't follow the pointer as the data here has ended. break Loop default: // Prefixes 0x80 and 0x40 are reserved. return off, errReserved } } return newOff, nil } // A Question is a DNS query. type Question struct { Name string Type Type Class Class } func (q *Question) pack(msg []byte, compression map[string]int) ([]byte, error) { msg, err := packName(msg, q.Name, compression) if err != nil { return msg, &nestedError{"Name", err} } msg = packType(msg, q.Type) return packClass(msg, q.Class), nil } func unpackResource(msg []byte, off int, hdr ResourceHeader) (Resource, int, error) { var ( r Resource err error name string ) switch hdr.Type { case TypeA: r, err = unpackAResource(hdr, msg, off) name = "A" case TypeNS: r, err = unpackNSResource(hdr, msg, off) name = "NS" case TypeCNAME: r, err = unpackCNAMEResource(hdr, msg, off) name = "CNAME" case TypeSOA: r, err = unpackSOAResource(hdr, msg, off) name = "SOA" case TypePTR: r, err = unpackPTRResource(hdr, msg, off) name = "PTR" case TypeMX: r, err = unpackMXResource(hdr, msg, off) name = "MX" case TypeTXT: r, err = unpackTXTResource(hdr, msg, off) name = "TXT" case TypeAAAA: r, err = unpackAAAAResource(hdr, msg, off) name = "AAAA" case TypeSRV: r, err = unpackSRVResource(hdr, msg, off) name = "SRV" } if err != nil { return nil, off, &nestedError{name + " record", err} } if r != nil { return r, off + int(hdr.Length), nil } return nil, off, errors.New("invalid resource type: " + string(hdr.Type+'0')) } // A CNAMEResource is a CNAME Resource record. type CNAMEResource struct { ResourceHeader CNAME string } func (r *CNAMEResource) realType() Type { return TypeCNAME } func (r *CNAMEResource) pack(msg []byte, compression map[string]int) ([]byte, error) { return packName(msg, r.CNAME, compression) } func unpackCNAMEResource(hdr ResourceHeader, msg []byte, off int) (*CNAMEResource, error) { cname, _, err := unpackName(msg, off) if err != nil { return nil, err } return &CNAMEResource{hdr, cname}, nil } // An MXResource is an MX Resource record. type MXResource struct { ResourceHeader Pref uint16 MX string } func (r *MXResource) realType() Type { return TypeMX } func (r *MXResource) pack(msg []byte, compression map[string]int) ([]byte, error) { oldMsg := msg msg = packUint16(msg, r.Pref) msg, err := packName(msg, r.MX, compression) if err != nil { return oldMsg, &nestedError{"MXResource.MX", err} } return msg, nil } func unpackMXResource(hdr ResourceHeader, msg []byte, off int) (*MXResource, error) { pref, off, err := unpackUint16(msg, off) if err != nil { return nil, &nestedError{"Pref", err} } mx, _, err := unpackName(msg, off) if err != nil { return nil, &nestedError{"MX", err} } return &MXResource{hdr, pref, mx}, nil } // An NSResource is an NS Resource record. type NSResource struct { ResourceHeader NS string } func (r *NSResource) realType() Type { return TypeNS } func (r *NSResource) pack(msg []byte, compression map[string]int) ([]byte, error) { return packName(msg, r.NS, compression) } func unpackNSResource(hdr ResourceHeader, msg []byte, off int) (*NSResource, error) { ns, _, err := unpackName(msg, off) if err != nil { return nil, err } return &NSResource{hdr, ns}, nil } // A PTRResource is a PTR Resource record. type PTRResource struct { ResourceHeader PTR string } func (r *PTRResource) realType() Type { return TypePTR } func (r *PTRResource) pack(msg []byte, compression map[string]int) ([]byte, error) { return packName(msg, r.PTR, compression) } func unpackPTRResource(hdr ResourceHeader, msg []byte, off int) (*PTRResource, error) { ptr, _, err := unpackName(msg, off) if err != nil { return nil, err } return &PTRResource{hdr, ptr}, nil } // An SOAResource is an SOA Resource record. type SOAResource struct { ResourceHeader NS string MBox string Serial uint32 Refresh uint32 Retry uint32 Expire uint32 // MinTTL the is the default TTL of Resources records which did not // contain a TTL value and the TTL of negative responses. (RFC 2308 // Section 4) MinTTL uint32 } func (r *SOAResource) realType() Type { return TypeSOA } func (r *SOAResource) pack(msg []byte, compression map[string]int) ([]byte, error) { oldMsg := msg msg, err := packName(msg, r.NS, compression) if err != nil { return oldMsg, &nestedError{"SOAResource.NS", err} } msg, err = packName(msg, r.MBox, compression) if err != nil { return oldMsg, &nestedError{"SOAResource.MBox", err} } msg = packUint32(msg, r.Serial) msg = packUint32(msg, r.Refresh) msg = packUint32(msg, r.Retry) msg = packUint32(msg, r.Expire) return packUint32(msg, r.MinTTL), nil } func unpackSOAResource(hdr ResourceHeader, msg []byte, off int) (*SOAResource, error) { ns, off, err := unpackName(msg, off) if err != nil { return nil, &nestedError{"NS", err} } mbox, off, err := unpackName(msg, off) if err != nil { return nil, &nestedError{"MBox", err} } serial, off, err := unpackUint32(msg, off) if err != nil { return nil, &nestedError{"Serial", err} } refresh, off, err := unpackUint32(msg, off) if err != nil { return nil, &nestedError{"Refresh", err} } retry, off, err := unpackUint32(msg, off) if err != nil { return nil, &nestedError{"Retry", err} } expire, off, err := unpackUint32(msg, off) if err != nil { return nil, &nestedError{"Expire", err} } minTTL, _, err := unpackUint32(msg, off) if err != nil { return nil, &nestedError{"MinTTL", err} } return &SOAResource{hdr, ns, mbox, serial, refresh, retry, expire, minTTL}, nil } // A TXTResource is a TXT Resource record. type TXTResource struct { ResourceHeader Txt string // Not a domain name. } func (r *TXTResource) realType() Type { return TypeTXT } func (r *TXTResource) pack(msg []byte, compression map[string]int) ([]byte, error) { return packText(msg, r.Txt), nil } func unpackTXTResource(hdr ResourceHeader, msg []byte, off int) (*TXTResource, error) { var txt string for n := uint16(0); n < hdr.Length; { var t string var err error if t, off, err = unpackText(msg, off); err != nil { return nil, &nestedError{"text", err} } // Check if we got too many bytes. if hdr.Length-n < uint16(len(t))+1 { return nil, errCalcLen } n += uint16(len(t)) + 1 txt += t } return &TXTResource{hdr, txt}, nil } // An SRVResource is an SRV Resource record. type SRVResource struct { ResourceHeader Priority uint16 Weight uint16 Port uint16 Target string // Not compressed as per RFC 2782. } func (r *SRVResource) realType() Type { return TypeSRV } func (r *SRVResource) pack(msg []byte, compression map[string]int) ([]byte, error) { oldMsg := msg msg = packUint16(msg, r.Priority) msg = packUint16(msg, r.Weight) msg = packUint16(msg, r.Port) msg, err := packName(msg, r.Target, nil) if err != nil { return oldMsg, &nestedError{"SRVResource.Target", err} } return msg, nil } func unpackSRVResource(hdr ResourceHeader, msg []byte, off int) (*SRVResource, error) { priority, off, err := unpackUint16(msg, off) if err != nil { return nil, &nestedError{"Priority", err} } weight, off, err := unpackUint16(msg, off) if err != nil { return nil, &nestedError{"Weight", err} } port, off, err := unpackUint16(msg, off) if err != nil { return nil, &nestedError{"Port", err} } target, _, err := unpackName(msg, off) if err != nil { return nil, &nestedError{"Target", err} } return &SRVResource{hdr, priority, weight, port, target}, nil } // An AResource is an A Resource record. type AResource struct { ResourceHeader A [4]byte } func (r *AResource) realType() Type { return TypeA } func (r *AResource) pack(msg []byte, compression map[string]int) ([]byte, error) { return packBytes(msg, r.A[:]), nil } func unpackAResource(hdr ResourceHeader, msg []byte, off int) (*AResource, error) { var a [4]byte if _, err := unpackBytes(msg, off, a[:]); err != nil { return nil, err } return &AResource{hdr, a}, nil } // An AAAAResource is an AAAA Resource record. type AAAAResource struct { ResourceHeader AAAA [16]byte } func (r *AAAAResource) realType() Type { return TypeAAAA } func (r *AAAAResource) pack(msg []byte, compression map[string]int) ([]byte, error) { return packBytes(msg, r.AAAA[:]), nil } func unpackAAAAResource(hdr ResourceHeader, msg []byte, off int) (*AAAAResource, error) { var aaaa [16]byte if _, err := unpackBytes(msg, off, aaaa[:]); err != nil { return nil, err } return &AAAAResource{hdr, aaaa}, nil }