2015-09-10 14:17:51 +00:00
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package dns
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import (
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"time"
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)
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// Envelope is used when doing a zone transfer with a remote server.
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type Envelope struct {
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RR []RR // The set of RRs in the answer section of the xfr reply message.
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Error error // If something went wrong, this contains the error.
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}
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// A Transfer defines parameters that are used during a zone transfer.
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type Transfer struct {
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*Conn
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DialTimeout time.Duration // net.DialTimeout, defaults to 2 seconds
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ReadTimeout time.Duration // net.Conn.SetReadTimeout value for connections, defaults to 2 seconds
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WriteTimeout time.Duration // net.Conn.SetWriteTimeout value for connections, defaults to 2 seconds
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TsigSecret map[string]string // Secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be fully qualified
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tsigTimersOnly bool
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}
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// Think we need to away to stop the transfer
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// In performs an incoming transfer with the server in a.
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func (t *Transfer) In(q *Msg, a string) (env chan *Envelope, err error) {
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timeout := dnsTimeout
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if t.DialTimeout != 0 {
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timeout = t.DialTimeout
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}
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2016-10-30 15:37:32 +00:00
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t.Conn, err = DialTimeout("tcp", a, timeout)
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if err != nil {
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return nil, err
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2015-09-10 14:17:51 +00:00
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}
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if err := t.WriteMsg(q); err != nil {
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return nil, err
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}
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env = make(chan *Envelope)
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go func() {
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if q.Question[0].Qtype == TypeAXFR {
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go t.inAxfr(q.Id, env)
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return
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}
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if q.Question[0].Qtype == TypeIXFR {
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go t.inIxfr(q.Id, env)
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return
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}
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}()
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return env, nil
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}
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func (t *Transfer) inAxfr(id uint16, c chan *Envelope) {
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first := true
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defer t.Close()
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defer close(c)
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timeout := dnsTimeout
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if t.ReadTimeout != 0 {
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timeout = t.ReadTimeout
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}
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for {
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t.Conn.SetReadDeadline(time.Now().Add(timeout))
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in, err := t.ReadMsg()
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if err != nil {
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c <- &Envelope{nil, err}
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return
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}
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if id != in.Id {
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c <- &Envelope{in.Answer, ErrId}
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return
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}
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if first {
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if !isSOAFirst(in) {
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c <- &Envelope{in.Answer, ErrSoa}
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return
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}
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first = !first
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// only one answer that is SOA, receive more
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if len(in.Answer) == 1 {
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t.tsigTimersOnly = true
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c <- &Envelope{in.Answer, nil}
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continue
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}
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}
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if !first {
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t.tsigTimersOnly = true // Subsequent envelopes use this.
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if isSOALast(in) {
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c <- &Envelope{in.Answer, nil}
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return
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}
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c <- &Envelope{in.Answer, nil}
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}
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}
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}
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func (t *Transfer) inIxfr(id uint16, c chan *Envelope) {
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serial := uint32(0) // The first serial seen is the current server serial
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first := true
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defer t.Close()
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defer close(c)
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timeout := dnsTimeout
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if t.ReadTimeout != 0 {
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timeout = t.ReadTimeout
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}
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for {
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t.SetReadDeadline(time.Now().Add(timeout))
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in, err := t.ReadMsg()
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if err != nil {
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c <- &Envelope{nil, err}
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return
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}
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if id != in.Id {
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c <- &Envelope{in.Answer, ErrId}
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return
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}
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if first {
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// A single SOA RR signals "no changes"
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if len(in.Answer) == 1 && isSOAFirst(in) {
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c <- &Envelope{in.Answer, nil}
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return
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}
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// Check if the returned answer is ok
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if !isSOAFirst(in) {
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c <- &Envelope{in.Answer, ErrSoa}
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return
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}
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// This serial is important
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serial = in.Answer[0].(*SOA).Serial
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first = !first
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}
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// Now we need to check each message for SOA records, to see what we need to do
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if !first {
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t.tsigTimersOnly = true
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// If the last record in the IXFR contains the servers' SOA, we should quit
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if v, ok := in.Answer[len(in.Answer)-1].(*SOA); ok {
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if v.Serial == serial {
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c <- &Envelope{in.Answer, nil}
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return
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}
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}
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c <- &Envelope{in.Answer, nil}
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}
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}
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}
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// Out performs an outgoing transfer with the client connecting in w.
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// Basic use pattern:
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//
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// ch := make(chan *dns.Envelope)
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// tr := new(dns.Transfer)
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2016-10-30 15:37:32 +00:00
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// tr.Out(w, r, ch)
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// c <- &dns.Envelope{RR: []dns.RR{soa, rr1, rr2, rr3, soa}}
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2015-09-10 14:17:51 +00:00
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// close(ch)
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// w.Hijack()
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// // w.Close() // Client closes connection
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//
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// The server is responsible for sending the correct sequence of RRs through the
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// channel ch.
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func (t *Transfer) Out(w ResponseWriter, q *Msg, ch chan *Envelope) error {
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for x := range ch {
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r := new(Msg)
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// Compress?
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r.SetReply(q)
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r.Authoritative = true
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// assume it fits TODO(miek): fix
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r.Answer = append(r.Answer, x.RR...)
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if err := w.WriteMsg(r); err != nil {
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return err
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}
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}
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w.TsigTimersOnly(true)
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return nil
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}
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// ReadMsg reads a message from the transfer connection t.
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func (t *Transfer) ReadMsg() (*Msg, error) {
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m := new(Msg)
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p := make([]byte, MaxMsgSize)
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n, err := t.Read(p)
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if err != nil && n == 0 {
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return nil, err
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}
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p = p[:n]
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if err := m.Unpack(p); err != nil {
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return nil, err
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}
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if ts := m.IsTsig(); ts != nil && t.TsigSecret != nil {
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if _, ok := t.TsigSecret[ts.Hdr.Name]; !ok {
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return m, ErrSecret
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}
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// Need to work on the original message p, as that was used to calculate the tsig.
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err = TsigVerify(p, t.TsigSecret[ts.Hdr.Name], t.tsigRequestMAC, t.tsigTimersOnly)
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t.tsigRequestMAC = ts.MAC
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}
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return m, err
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}
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// WriteMsg writes a message through the transfer connection t.
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func (t *Transfer) WriteMsg(m *Msg) (err error) {
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var out []byte
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if ts := m.IsTsig(); ts != nil && t.TsigSecret != nil {
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if _, ok := t.TsigSecret[ts.Hdr.Name]; !ok {
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return ErrSecret
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}
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out, t.tsigRequestMAC, err = TsigGenerate(m, t.TsigSecret[ts.Hdr.Name], t.tsigRequestMAC, t.tsigTimersOnly)
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} else {
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out, err = m.Pack()
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}
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if err != nil {
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return err
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}
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if _, err = t.Write(out); err != nil {
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return err
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}
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return nil
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}
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func isSOAFirst(in *Msg) bool {
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if len(in.Answer) > 0 {
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return in.Answer[0].Header().Rrtype == TypeSOA
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}
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return false
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}
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func isSOALast(in *Msg) bool {
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if len(in.Answer) > 0 {
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return in.Answer[len(in.Answer)-1].Header().Rrtype == TypeSOA
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}
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return false
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}
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