func (e Etcd) NS(zone string, state middleware.State) (records, extra []dns.RR, debug []msg.Service, err error) {
// NS record for this zone live in a special place, ns.dns.<zone>. Fake our lookup.
// only a tad bit fishy...
old := state.QName()
state.Clear()
state.Req.Question[0].Name = "ns.dns." + zone
services, debug, err := e.records(state, false)
if err != nil {
return nil, nil, debug, err
}
// ... and reset
state.Req.Question[0].Name = old
for _, serv := range services {
ip := net.ParseIP(serv.Host)
switch {
case ip == nil:
return nil, nil, debug, fmt.Errorf("NS record must be an IP address: %s", serv.Host)
case ip.To4() != nil:
serv.Host = msg.Domain(serv.Key)
records = append(records, serv.NewNS(state.QName()))
extra = append(extra, serv.NewA(serv.Host, ip.To4()))
case ip.To4() == nil:
serv.Host = msg.Domain(serv.Key)
records = append(records, serv.NewNS(state.QName()))
extra = append(extra, serv.NewAAAA(serv.Host, ip.To16()))
}
}
return records, extra, debug, nil
}
func (e Etcd) ServeDNS(ctx context.Context, w dns.ResponseWriter, r *dns.Msg) (int, error) {
state := middleware.State{W: w, Req: r}
if state.QClass() != dns.ClassINET {
return dns.RcodeServerFailure, fmt.Errorf("can only deal with ClassINET")
}
name := state.Name()
if e.Debug {
if debug := isDebug(name); debug != "" {
e.debug = r.Question[0].Name
state.Clear()
state.Req.Question[0].Name = debug
}
}
// We need to check stubzones first, because we may get a request for a zone we
// are not auth. for *but* do have a stubzone forward for. If we do the stubzone
// handler will handle the request.
if e.Stubmap != nil && len(*e.Stubmap) > 0 {
for zone := range *e.Stubmap {
if middleware.Name(zone).Matches(name) {
stub := Stub{Etcd: e, Zone: zone}
return stub.ServeDNS(ctx, w, r)
}
}
}
zone := middleware.Zones(e.Zones).Matches(state.Name())
if zone == "" {
if e.Next == nil {
return dns.RcodeServerFailure, nil
}
return e.Next.ServeDNS(ctx, w, r)
}
var (
records, extra []dns.RR
debug []msg.Service
err error
)
switch state.Type() {
case "A":
records, debug, err = e.A(zone, state, nil)
case "AAAA":
records, debug, err = e.AAAA(zone, state, nil)
case "TXT":
records, debug, err = e.TXT(zone, state)
case "CNAME":
records, debug, err = e.CNAME(zone, state)
case "PTR":
records, debug, err = e.PTR(zone, state)
case "MX":
records, extra, debug, err = e.MX(zone, state)
case "SRV":
records, extra, debug, err = e.SRV(zone, state)
case "SOA":
records, debug, err = e.SOA(zone, state)
case "NS":
if state.Name() == zone {
records, extra, debug, err = e.NS(zone, state)
break
}
fallthrough
default:
// Do a fake A lookup, so we can distinguish between NODATA and NXDOMAIN
_, debug, err = e.A(zone, state, nil)
}
if e.debug != "" {
// Substitute this name with the original when we return the request.
state.Clear()
state.Req.Question[0].Name = e.debug
}
if isEtcdNameError(err) {
return e.Err(zone, dns.RcodeNameError, state, debug, err)
}
if err != nil {
return e.Err(zone, dns.RcodeServerFailure, state, debug, err)
}
if len(records) == 0 {
return e.Err(zone, dns.RcodeSuccess, state, debug, err)
}
m := new(dns.Msg)
m.SetReply(r)
m.Authoritative, m.RecursionAvailable, m.Compress = true, true, true
m.Answer = append(m.Answer, records...)
m.Extra = append(m.Extra, extra...)
if e.debug != "" {
m.Extra = append(m.Extra, servicesToTxt(debug)...)
}
m = dedup(m)
state.SizeAndDo(m)
m, _ = state.Scrub(m)
w.WriteMsg(m)
return dns.RcodeSuccess, nil
}