2018-05-01 23:45:06 +00:00
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package dns
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import (
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"errors"
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"net"
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"strconv"
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)
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const hexDigit = "0123456789abcdef"
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// Everything is assumed in ClassINET.
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// SetReply creates a reply message from a request message.
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func (dns *Msg) SetReply(request *Msg) *Msg {
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dns.Id = request.Id
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dns.Response = true
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dns.Opcode = request.Opcode
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if dns.Opcode == OpcodeQuery {
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dns.RecursionDesired = request.RecursionDesired // Copy rd bit
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dns.CheckingDisabled = request.CheckingDisabled // Copy cd bit
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}
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dns.Rcode = RcodeSuccess
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if len(request.Question) > 0 {
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dns.Question = make([]Question, 1)
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dns.Question[0] = request.Question[0]
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}
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return dns
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}
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// SetQuestion creates a question message, it sets the Question
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// section, generates an Id and sets the RecursionDesired (RD)
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// bit to true.
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func (dns *Msg) SetQuestion(z string, t uint16) *Msg {
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dns.Id = Id()
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dns.RecursionDesired = true
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dns.Question = make([]Question, 1)
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dns.Question[0] = Question{z, t, ClassINET}
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return dns
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}
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// SetNotify creates a notify message, it sets the Question
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// section, generates an Id and sets the Authoritative (AA)
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// bit to true.
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func (dns *Msg) SetNotify(z string) *Msg {
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dns.Opcode = OpcodeNotify
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dns.Authoritative = true
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dns.Id = Id()
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dns.Question = make([]Question, 1)
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dns.Question[0] = Question{z, TypeSOA, ClassINET}
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return dns
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}
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// SetRcode creates an error message suitable for the request.
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func (dns *Msg) SetRcode(request *Msg, rcode int) *Msg {
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dns.SetReply(request)
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dns.Rcode = rcode
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return dns
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}
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// SetRcodeFormatError creates a message with FormError set.
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func (dns *Msg) SetRcodeFormatError(request *Msg) *Msg {
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dns.Rcode = RcodeFormatError
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dns.Opcode = OpcodeQuery
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dns.Response = true
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dns.Authoritative = false
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dns.Id = request.Id
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return dns
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}
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// SetUpdate makes the message a dynamic update message. It
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// sets the ZONE section to: z, TypeSOA, ClassINET.
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func (dns *Msg) SetUpdate(z string) *Msg {
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dns.Id = Id()
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dns.Response = false
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dns.Opcode = OpcodeUpdate
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dns.Compress = false // BIND9 cannot handle compression
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dns.Question = make([]Question, 1)
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dns.Question[0] = Question{z, TypeSOA, ClassINET}
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return dns
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}
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// SetIxfr creates message for requesting an IXFR.
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func (dns *Msg) SetIxfr(z string, serial uint32, ns, mbox string) *Msg {
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dns.Id = Id()
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dns.Question = make([]Question, 1)
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dns.Ns = make([]RR, 1)
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s := new(SOA)
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s.Hdr = RR_Header{z, TypeSOA, ClassINET, defaultTtl, 0}
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s.Serial = serial
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s.Ns = ns
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s.Mbox = mbox
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dns.Question[0] = Question{z, TypeIXFR, ClassINET}
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dns.Ns[0] = s
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return dns
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}
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// SetAxfr creates message for requesting an AXFR.
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func (dns *Msg) SetAxfr(z string) *Msg {
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dns.Id = Id()
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dns.Question = make([]Question, 1)
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dns.Question[0] = Question{z, TypeAXFR, ClassINET}
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return dns
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}
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// SetTsig appends a TSIG RR to the message.
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// This is only a skeleton TSIG RR that is added as the last RR in the
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// additional section. The Tsig is calculated when the message is being send.
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func (dns *Msg) SetTsig(z, algo string, fudge uint16, timesigned int64) *Msg {
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t := new(TSIG)
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t.Hdr = RR_Header{z, TypeTSIG, ClassANY, 0, 0}
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t.Algorithm = algo
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t.Fudge = fudge
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t.TimeSigned = uint64(timesigned)
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t.OrigId = dns.Id
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dns.Extra = append(dns.Extra, t)
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return dns
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}
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// SetEdns0 appends a EDNS0 OPT RR to the message.
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// TSIG should always the last RR in a message.
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func (dns *Msg) SetEdns0(udpsize uint16, do bool) *Msg {
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e := new(OPT)
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e.Hdr.Name = "."
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e.Hdr.Rrtype = TypeOPT
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e.SetUDPSize(udpsize)
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if do {
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e.SetDo()
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}
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dns.Extra = append(dns.Extra, e)
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return dns
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}
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// IsTsig checks if the message has a TSIG record as the last record
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// in the additional section. It returns the TSIG record found or nil.
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func (dns *Msg) IsTsig() *TSIG {
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if len(dns.Extra) > 0 {
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if dns.Extra[len(dns.Extra)-1].Header().Rrtype == TypeTSIG {
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return dns.Extra[len(dns.Extra)-1].(*TSIG)
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}
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}
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return nil
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}
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// IsEdns0 checks if the message has a EDNS0 (OPT) record, any EDNS0
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// record in the additional section will do. It returns the OPT record
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// found or nil.
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func (dns *Msg) IsEdns0() *OPT {
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// EDNS0 is at the end of the additional section, start there.
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// We might want to change this to *only* look at the last two
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// records. So we see TSIG and/or OPT - this a slightly bigger
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// change though.
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for i := len(dns.Extra) - 1; i >= 0; i-- {
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if dns.Extra[i].Header().Rrtype == TypeOPT {
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return dns.Extra[i].(*OPT)
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}
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}
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return nil
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}
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// IsDomainName checks if s is a valid domain name, it returns the number of
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// labels and true, when a domain name is valid. Note that non fully qualified
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// domain name is considered valid, in this case the last label is counted in
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// the number of labels. When false is returned the number of labels is not
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// defined. Also note that this function is extremely liberal; almost any
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// string is a valid domain name as the DNS is 8 bit protocol. It checks if each
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// label fits in 63 characters, but there is no length check for the entire
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// string s. I.e. a domain name longer than 255 characters is considered valid.
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func IsDomainName(s string) (labels int, ok bool) {
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_, labels, err := packDomainName(s, nil, 0, nil, false)
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return labels, err == nil
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}
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// IsSubDomain checks if child is indeed a child of the parent. If child and parent
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// are the same domain true is returned as well.
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func IsSubDomain(parent, child string) bool {
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// Entire child is contained in parent
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return CompareDomainName(parent, child) == CountLabel(parent)
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}
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// IsMsg sanity checks buf and returns an error if it isn't a valid DNS packet.
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// The checking is performed on the binary payload.
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func IsMsg(buf []byte) error {
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// Header
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if len(buf) < 12 {
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return errors.New("dns: bad message header")
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}
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// Header: Opcode
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// TODO(miek): more checks here, e.g. check all header bits.
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return nil
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}
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// IsFqdn checks if a domain name is fully qualified.
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func IsFqdn(s string) bool {
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l := len(s)
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if l == 0 {
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return false
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}
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return s[l-1] == '.'
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}
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// IsRRset checks if a set of RRs is a valid RRset as defined by RFC 2181.
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// This means the RRs need to have the same type, name, and class. Returns true
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// if the RR set is valid, otherwise false.
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func IsRRset(rrset []RR) bool {
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if len(rrset) == 0 {
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return false
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}
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if len(rrset) == 1 {
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return true
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}
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rrHeader := rrset[0].Header()
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rrType := rrHeader.Rrtype
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rrClass := rrHeader.Class
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rrName := rrHeader.Name
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for _, rr := range rrset[1:] {
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curRRHeader := rr.Header()
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if curRRHeader.Rrtype != rrType || curRRHeader.Class != rrClass || curRRHeader.Name != rrName {
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// Mismatch between the records, so this is not a valid rrset for
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//signing/verifying
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return false
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}
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}
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return true
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}
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// Fqdn return the fully qualified domain name from s.
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// If s is already fully qualified, it behaves as the identity function.
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func Fqdn(s string) string {
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if IsFqdn(s) {
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return s
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}
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return s + "."
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}
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// Copied from the official Go code.
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// ReverseAddr returns the in-addr.arpa. or ip6.arpa. hostname of the IP
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// address suitable for reverse DNS (PTR) record lookups or an error if it fails
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// to parse the IP address.
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func ReverseAddr(addr string) (arpa string, err error) {
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ip := net.ParseIP(addr)
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if ip == nil {
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return "", &Error{err: "unrecognized address: " + addr}
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}
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if ip.To4() != nil {
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return strconv.Itoa(int(ip[15])) + "." + strconv.Itoa(int(ip[14])) + "." + strconv.Itoa(int(ip[13])) + "." +
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strconv.Itoa(int(ip[12])) + ".in-addr.arpa.", nil
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}
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// Must be IPv6
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buf := make([]byte, 0, len(ip)*4+len("ip6.arpa."))
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// Add it, in reverse, to the buffer
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for i := len(ip) - 1; i >= 0; i-- {
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v := ip[i]
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buf = append(buf, hexDigit[v&0xF])
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buf = append(buf, '.')
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buf = append(buf, hexDigit[v>>4])
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buf = append(buf, '.')
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}
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// Append "ip6.arpa." and return (buf already has the final .)
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buf = append(buf, "ip6.arpa."...)
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return string(buf), nil
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}
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// String returns the string representation for the type t.
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func (t Type) String() string {
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if t1, ok := TypeToString[uint16(t)]; ok {
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return t1
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}
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return "TYPE" + strconv.Itoa(int(t))
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}
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// String returns the string representation for the class c.
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func (c Class) String() string {
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2019-03-18 03:40:18 +00:00
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if c1, ok := ClassToString[uint16(c)]; ok {
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return c1
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2018-05-01 23:45:06 +00:00
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}
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return "CLASS" + strconv.Itoa(int(c))
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}
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// String returns the string representation for the name n.
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func (n Name) String() string {
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return sprintName(string(n))
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}
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