package test import ( "testing" "github.com/miekg/dns" "golang.org/x/net/context" ) type Sect int const ( Answer Sect = iota Ns Extra ) type RRSet []dns.RR func (p RRSet) Len() int { return len(p) } func (p RRSet) Swap(i, j int) { p[i], p[j] = p[j], p[i] } func (p RRSet) Less(i, j int) bool { return p[i].String() < p[j].String() } // If the TTL of a record is 303 we don't care what the TTL is. type Case struct { Qname string Qtype uint16 Rcode int Do bool Answer []dns.RR Ns []dns.RR Extra []dns.RR } func (c Case) Msg() *dns.Msg { m := new(dns.Msg) m.SetQuestion(dns.Fqdn(c.Qname), c.Qtype) if c.Do { o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT o.SetDo() o.SetUDPSize(4096) m.Extra = []dns.RR{o} } return m } func A(rr string) *dns.A { r, _ := dns.NewRR(rr); return r.(*dns.A) } func AAAA(rr string) *dns.AAAA { r, _ := dns.NewRR(rr); return r.(*dns.AAAA) } func CNAME(rr string) *dns.CNAME { r, _ := dns.NewRR(rr); return r.(*dns.CNAME) } func SRV(rr string) *dns.SRV { r, _ := dns.NewRR(rr); return r.(*dns.SRV) } func SOA(rr string) *dns.SOA { r, _ := dns.NewRR(rr); return r.(*dns.SOA) } func NS(rr string) *dns.NS { r, _ := dns.NewRR(rr); return r.(*dns.NS) } func PTR(rr string) *dns.PTR { r, _ := dns.NewRR(rr); return r.(*dns.PTR) } func TXT(rr string) *dns.TXT { r, _ := dns.NewRR(rr); return r.(*dns.TXT) } func MX(rr string) *dns.MX { r, _ := dns.NewRR(rr); return r.(*dns.MX) } func RRSIG(rr string) *dns.RRSIG { r, _ := dns.NewRR(rr); return r.(*dns.RRSIG) } func NSEC(rr string) *dns.NSEC { r, _ := dns.NewRR(rr); return r.(*dns.NSEC) } func DNSKEY(rr string) *dns.DNSKEY { r, _ := dns.NewRR(rr); return r.(*dns.DNSKEY) } func OPT(bufsize int, do bool) *dns.OPT { o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT o.SetVersion(0) o.SetUDPSize(uint16(bufsize)) if do { o.SetDo() } return o } func Header(t *testing.T, tc Case, resp *dns.Msg) bool { if resp.Rcode != tc.Rcode { t.Errorf("rcode is %q, expected %q", dns.RcodeToString[resp.Rcode], dns.RcodeToString[tc.Rcode]) return false } if len(resp.Answer) != len(tc.Answer) { t.Errorf("answer for %q contained %d results, %d expected", tc.Qname, len(resp.Answer), len(tc.Answer)) return false } if len(resp.Ns) != len(tc.Ns) { t.Errorf("authority for %q contained %d results, %d expected", tc.Qname, len(resp.Ns), len(tc.Ns)) return false } if len(resp.Extra) != len(tc.Extra) { t.Errorf("additional for %q contained %d results, %d expected", tc.Qname, len(resp.Extra), len(tc.Extra)) return false } return true } func Section(t *testing.T, tc Case, sect Sect, rr []dns.RR) bool { section := []dns.RR{} switch sect { case 0: section = tc.Answer case 1: section = tc.Ns case 2: section = tc.Extra } for i, a := range rr { if a.Header().Name != section[i].Header().Name { t.Errorf("rr %d should have a Header Name of %q, but has %q", i, section[i].Header().Name, a.Header().Name) return false } // 303 signals: don't care what the ttl is. if section[i].Header().Ttl != 303 && a.Header().Ttl != section[i].Header().Ttl { if _, ok := section[i].(*dns.OPT); !ok { // we check edns0 bufize on this one t.Errorf("rr %d should have a Header TTL of %d, but has %d", i, section[i].Header().Ttl, a.Header().Ttl) return false } } if a.Header().Rrtype != section[i].Header().Rrtype { t.Errorf("rr %d should have a header rr type of %d, but has %d", i, section[i].Header().Rrtype, a.Header().Rrtype) return false } switch x := a.(type) { case *dns.SRV: if x.Priority != section[i].(*dns.SRV).Priority { t.Errorf("rr %d should have a Priority of %d, but has %d", i, section[i].(*dns.SRV).Priority, x.Priority) return false } if x.Weight != section[i].(*dns.SRV).Weight { t.Errorf("rr %d should have a Weight of %d, but has %d", i, section[i].(*dns.SRV).Weight, x.Weight) return false } if x.Port != section[i].(*dns.SRV).Port { t.Errorf("rr %d should have a Port of %d, but has %d", i, section[i].(*dns.SRV).Port, x.Port) return false } if x.Target != section[i].(*dns.SRV).Target { t.Errorf("rr %d should have a Target of %q, but has %q", i, section[i].(*dns.SRV).Target, x.Target) return false } case *dns.RRSIG: if x.TypeCovered != section[i].(*dns.RRSIG).TypeCovered { t.Errorf("rr %d should have a TypeCovered of %d, but has %d", i, section[i].(*dns.RRSIG).TypeCovered, x.TypeCovered) return false } if x.Labels != section[i].(*dns.RRSIG).Labels { t.Errorf("rr %d should have a Labels of %d, but has %d", i, section[i].(*dns.RRSIG).Labels, x.Labels) return false } if x.SignerName != section[i].(*dns.RRSIG).SignerName { t.Errorf("rr %d should have a SignerName of %d, but has %d", i, section[i].(*dns.RRSIG).SignerName, x.SignerName) return false } case *dns.NSEC: if x.NextDomain != section[i].(*dns.NSEC).NextDomain { t.Errorf("rr %d should have a NextDomain of %d, but has %d", i, section[i].(*dns.NSEC).NextDomain, x.NextDomain) return false } // TypeBitMap case *dns.A: if x.A.String() != section[i].(*dns.A).A.String() { t.Errorf("rr %d should have a Address of %q, but has %q", i, section[i].(*dns.A).A.String(), x.A.String()) return false } case *dns.AAAA: if x.AAAA.String() != section[i].(*dns.AAAA).AAAA.String() { t.Errorf("rr %d should have a Address of %q, but has %q", i, section[i].(*dns.AAAA).AAAA.String(), x.AAAA.String()) return false } case *dns.TXT: for j, txt := range x.Txt { if txt != section[i].(*dns.TXT).Txt[j] { t.Errorf("rr %d should have a Txt of %q, but has %q", i, section[i].(*dns.TXT).Txt[j], txt) return false } } case *dns.SOA: tt := section[i].(*dns.SOA) if x.Ns != tt.Ns { t.Errorf("SOA nameserver should be %q, but is %q", x.Ns, tt.Ns) return false } case *dns.PTR: tt := section[i].(*dns.PTR) if x.Ptr != tt.Ptr { t.Errorf("PTR ptr should be %q, but is %q", x.Ptr, tt.Ptr) return false } case *dns.CNAME: tt := section[i].(*dns.CNAME) if x.Target != tt.Target { t.Errorf("CNAME target should be %q, but is %q", x.Target, tt.Target) return false } case *dns.MX: tt := section[i].(*dns.MX) if x.Mx != tt.Mx { t.Errorf("MX Mx should be %q, but is %q", x.Mx, tt.Mx) return false } if x.Preference != tt.Preference { t.Errorf("MX Preference should be %q, but is %q", x.Preference, tt.Preference) return false } case *dns.NS: tt := section[i].(*dns.NS) if x.Ns != tt.Ns { t.Errorf("NS nameserver should be %q, but is %q", x.Ns, tt.Ns) return false } case *dns.OPT: tt := section[i].(*dns.OPT) if x.UDPSize() != tt.UDPSize() { t.Errorf("OPT UDPSize should be %d, but is %d", tt.UDPSize(), x.UDPSize()) return false } if x.Do() != tt.Do() { t.Errorf("OPT DO should be %t, but is %t", tt.Do(), x.Do()) return false } } } return true } func ErrorHandler() Handler { return HandlerFunc(func(ctx context.Context, w dns.ResponseWriter, r *dns.Msg) (int, error) { m := new(dns.Msg) m.SetRcode(r, dns.RcodeServerFailure) w.WriteMsg(m) return dns.RcodeServerFailure, nil }) } // Copied here to prevent an import cycle. type ( // HandlerFunc is a convenience type like dns.HandlerFunc, except // ServeDNS returns an rcode and an error. HandlerFunc func(context.Context, dns.ResponseWriter, *dns.Msg) (int, error) Handler interface { ServeDNS(context.Context, dns.ResponseWriter, *dns.Msg) (int, error) } ) // ServeDNS implements the Handler interface. func (f HandlerFunc) ServeDNS(ctx context.Context, w dns.ResponseWriter, r *dns.Msg) (int, error) { return f(ctx, w, r) }