// Package dns64 implements a plugin that performs DNS64.
//
// See: RFC 6147 (https://tools.ietf.org/html/rfc6147)
package dns64
import (
"context"
"errors"
"net"
"time"
"github.com/coredns/coredns/plugin"
"github.com/coredns/coredns/plugin/metrics"
"github.com/coredns/coredns/plugin/pkg/nonwriter"
"github.com/coredns/coredns/plugin/pkg/response"
"github.com/coredns/coredns/request"
"github.com/miekg/dns"
)
// UpstreamInt wraps the Upstream API for dependency injection during testing
type UpstreamInt interface {
Lookup(ctx context.Context, state request.Request, name string, typ uint16) (*dns.Msg, error)
}
// DNS64 performs DNS64.
type DNS64 struct {
Next plugin.Handler
Prefix *net.IPNet
TranslateAll bool // Not comply with 5.1.1
AllowIPv4 bool
Upstream UpstreamInt
}
// ServeDNS implements the plugin.Handler interface.
func (d *DNS64) ServeDNS(ctx context.Context, w dns.ResponseWriter, r *dns.Msg) (int, error) {
// Don't proxy if we don't need to.
if !d.requestShouldIntercept(&request.Request{W: w, Req: r}) {
return d.Next.ServeDNS(ctx, w, r)
}
// Pass the request to the next plugin in the chain, but intercept the response.
nw := nonwriter.New(w)
origRc, origErr := d.Next.ServeDNS(ctx, nw, r)
if nw.Msg == nil { // somehow we didn't get a response (or raw bytes were written)
return origRc, origErr
}
// If the response doesn't need DNS64, short-circuit.
if !d.responseShouldDNS64(nw.Msg) {
w.WriteMsg(nw.Msg)
return origRc, origErr
}
// otherwise do the actual DNS64 request and response synthesis
msg, err := d.DoDNS64(ctx, w, r, nw.Msg)
if err != nil {
// err means we weren't able to even issue the A request
// to CoreDNS upstream
return dns.RcodeServerFailure, err
}
RequestsTranslatedCount.WithLabelValues(metrics.WithServer(ctx)).Inc()
w.WriteMsg(msg)
return msg.MsgHdr.Rcode, nil
}
// Name implements the Handler interface.
func (d *DNS64) Name() string { return "dns64" }
// requestShouldIntercept returns true if the request represents one that is eligible
// for DNS64 rewriting:
// 1. The request came in over IPv6 or the 'allow_ipv4' option is set
// 2. The request is of type AAAA
// 3. The request is of class INET
func (d *DNS64) requestShouldIntercept(req *request.Request) bool {
// Make sure that request came in over IPv4 unless AllowIPv4 option is enabled.
// Translating requests without taking into consideration client (source) IP might be problematic in dual-stack networks.
if !d.AllowIPv4 && req.Family() == 1 {
return false
}
// Do not modify if question is not AAAA or not of class IN. See RFC 6147 5.1
return req.QType() == dns.TypeAAAA && req.QClass() == dns.ClassINET
}
// responseShouldDNS64 returns true if the response indicates we should attempt
// DNS64 rewriting:
// 1. The response has no valid (RFC 5.1.4) AAAA records (RFC 5.1.1)
// 2. The response code (RCODE) is not 3 (Name Error) (RFC 5.1.2)
//
// Note that requestShouldIntercept must also have been true, so the request
// is known to be of type AAAA.
func (d *DNS64) responseShouldDNS64(origResponse *dns.Msg) bool {
ty, _ := response.Typify(origResponse, time.Now().UTC())
// Handle NameError normally. See RFC 6147 5.1.2
// All other error types are "equivalent" to empty response
if ty == response.NameError {
return false
}
// If we've configured to always translate, well, then always translate.
if d.TranslateAll {
return true
}
// if response includes AAAA record, no need to rewrite
for _, rr := range origResponse.Answer {
if rr.Header().Rrtype == dns.TypeAAAA {
return false
}
}
return true
}
// DoDNS64 takes an (empty) response to an AAAA question, issues the A request,
// and synthesizes the answer. Returns the response message, or error on internal failure.
func (d *DNS64) DoDNS64(ctx context.Context, w dns.ResponseWriter, r *dns.Msg, origResponse *dns.Msg) (*dns.Msg, error) {
req := request.Request{W: w, Req: r} // req is unused
resp, err := d.Upstream.Lookup(ctx, req, req.Name(), dns.TypeA)
if err != nil {
return nil, err
}
out := d.Synthesize(r, origResponse, resp)
return out, nil
}
// Synthesize merges the AAAA response and the records from the A response
func (d *DNS64) Synthesize(origReq, origResponse, resp *dns.Msg) *dns.Msg {
ret := dns.Msg{}
ret.SetReply(origReq)
// persist truncated state of AAAA response
ret.Truncated = resp.Truncated
// 5.3.2: DNS64 MUST pass the additional section unchanged
ret.Extra = resp.Extra
ret.Ns = resp.Ns
// 5.1.7: The TTL is the minimum of the A RR and the SOA RR. If SOA is
// unknown, then the TTL is the minimum of A TTL and 600
SOATtl := uint32(600) // Default NS record TTL
for _, ns := range origResponse.Ns {
if ns.Header().Rrtype == dns.TypeSOA {
SOATtl = ns.Header().Ttl
}
}
ret.Answer = make([]dns.RR, 0, len(resp.Answer))
// convert A records to AAAA records
for _, rr := range resp.Answer {
header := rr.Header()
// 5.3.3: All other RR's MUST be returned unchanged
if header.Rrtype != dns.TypeA {
ret.Answer = append(ret.Answer, rr)
continue
}
aaaa, _ := to6(d.Prefix, rr.(*dns.A).A)
// ttl is min of SOA TTL and A TTL
ttl := SOATtl
if rr.Header().Ttl < ttl {
ttl = rr.Header().Ttl
}
// Replace A answer with a DNS64 AAAA answer
ret.Answer = append(ret.Answer, &dns.AAAA{
Hdr: dns.RR_Header{
Name: header.Name,
Rrtype: dns.TypeAAAA,
Class: header.Class,
Ttl: ttl,
},
AAAA: aaaa,
})
}
return &ret
}
// to6 takes a prefix and IPv4 address and returns an IPv6 address according to RFC 6052.
func to6(prefix *net.IPNet, addr net.IP) (net.IP, error) {
addr = addr.To4()
if addr == nil {
return nil, errors.New("not a valid IPv4 address")
}
n, _ := prefix.Mask.Size()
// Assumes prefix has been validated during setup
v6 := make([]byte, 16)
i, j := 0, 0
for ; i < n/8; i++ {
v6[i] = prefix.IP[i]
}
for ; i < 8; i, j = i+1, j+1 {
v6[i] = addr[j]
}
if i == 8 {
i++
}
for ; j < 4; i, j = i+1, j+1 {
v6[i] = addr[j]
}
return v6, nil
}