func TestServeDNSOverrideIPv6(t *testing.T) { t.Parallel() const hostname = "foo.com." var a App a.Overrides.Store(Overrides{hostname: net.ParseIP("1.2.3.4")}) req := new(dns.Msg) req.Opcode = dns.OpcodeQuery req.Question = []dns.Question{{Name: hostname, Qtype: qtypeIPv6}} var w fDNSResponseWriter a.ServeDNS(&w, req) ensure.DeepEqual(t, len(w.msg.Answer), 0) }
func ResolveIt(domain string, rType uint16, badop ...bool) (*dns.Msg, error) { // root domain if not already root(&domain) m := new(dns.Msg) m.SetQuestion(domain, rType) if len(badop) > 0 { m.Opcode = dns.OpcodeStatus } // ask the dns server r, err := dns.Exchange(m, config.DnsListen) if err != nil { return nil, fmt.Errorf("Failed to exchange - %v", err) } return r, nil }
func TestServeDNSForwardUDP(t *testing.T) { t.Parallel() const ns = "a" res := new(dns.Msg) a := App{ Nameservers: []string{ns}, dnsUDPclient: fDNSClient{ exchange: func(m *dns.Msg, a string) (*dns.Msg, time.Duration, error) { ensure.DeepEqual(t, a, ns) return res, time.Minute, nil }, }, } req := new(dns.Msg) req.Opcode = dns.OpcodeStatus var w fDNSResponseWriter a.ServeDNS(&w, req) ensure.DeepEqual(t, w.msg, res) }
func TestServeDNSForwardNonOverrideQuery(t *testing.T) { t.Parallel() const ns = "a" res := new(dns.Msg) a := App{ Nameservers: []string{ns}, dnsUDPclient: fDNSClient{ exchange: func(m *dns.Msg, a string) (*dns.Msg, time.Duration, error) { ensure.DeepEqual(t, a, ns) return res, time.Minute, nil }, }, } a.Overrides.Store(Overrides{}) req := new(dns.Msg) req.Opcode = dns.OpcodeQuery req.Question = []dns.Question{{Name: "foo.com."}} var w fDNSResponseWriter a.ServeDNS(&w, req) ensure.DeepEqual(t, w.msg, res) }
func TestServeDNSForwardTryAllAndFail(t *testing.T) { t.Parallel() ns := []string{"a", "b"} var current int32 a := App{ Log: log.New(ioutil.Discard, "", log.LstdFlags), Nameservers: ns, dnsUDPclient: fDNSClient{ exchange: func(m *dns.Msg, a string) (*dns.Msg, time.Duration, error) { ensure.DeepEqual(t, a, ns[int(atomic.AddInt32(¤t, 1)-1)]) return nil, time.Minute, errors.New("foo") }, }, } req := new(dns.Msg) req.Opcode = dns.OpcodeStatus var w fDNSResponseWriter a.ServeDNS(&w, req) ensure.DeepEqual(t, w.msg.Rcode, dns.RcodeServerFailure) ensure.DeepEqual(t, atomic.LoadInt32(¤t), int32(2)) }
func TestServeDNSOverrideIPv4(t *testing.T) { t.Parallel() const hostname = "foo.com." ip := net.ParseIP("1.2.3.4") var a App a.Overrides.Store(Overrides{hostname: ip}) req := new(dns.Msg) req.Opcode = dns.OpcodeQuery req.Question = []dns.Question{{Name: hostname, Qtype: qtypeIPv4}} var w fDNSResponseWriter a.ServeDNS(&w, req) ensure.DeepEqual(t, w.msg.Answer, []dns.RR{ &dns.A{ A: ip, Hdr: dns.RR_Header{ Name: hostname, Rrtype: 1, Class: 1, Ttl: 100, Rdlength: 4, }, }, }) }
func main() { short = flag.Bool("short", false, "abbreviate long DNSSEC records") dnssec := flag.Bool("dnssec", false, "request DNSSEC records") query := flag.Bool("question", false, "show question") check := flag.Bool("check", false, "check internal DNSSEC consistency") six := flag.Bool("6", false, "use IPv6 only") four := flag.Bool("4", false, "use IPv4 only") anchor := flag.String("anchor", "", "use the DNSKEY in this file as trust anchor") tsig := flag.String("tsig", "", "request tsig with key: [hmac:]name:key") port := flag.Int("port", 53, "port number to use") aa := flag.Bool("aa", false, "set AA flag in query") ad := flag.Bool("ad", false, "set AD flag in query") cd := flag.Bool("cd", false, "set CD flag in query") rd := flag.Bool("rd", true, "set RD flag in query") fallback := flag.Bool("fallback", false, "fallback to 4096 bytes bufsize and after that TCP") tcp := flag.Bool("tcp", false, "TCP mode, multiple queries are asked over the same connection") nsid := flag.Bool("nsid", false, "set edns nsid option") client := flag.String("client", "", "set edns client-subnet option") clientdraftcode := flag.Bool("clientdraft", false, "set edns client-subnet option using the draft option code") opcode := flag.String("opcode", "query", "set opcode to query|update|notify") rcode := flag.String("rcode", "success", "set rcode to noerror|formerr|nxdomain|servfail|...") //serial := flag.Int("serial", 0, "perform an IXFR with this serial") flag.Usage = func() { fmt.Fprintf(os.Stderr, "Usage: %s [options] [@server] [qtype...] [qclass...] [name ...]\n", os.Args[0]) flag.PrintDefaults() } var ( qtype []uint16 qclass []uint16 qname []string ) flag.Parse() if *anchor != "" { f, err := os.Open(*anchor) if err != nil { fmt.Fprintf(os.Stderr, "Failure to open %s: %s\n", *anchor, err.Error()) } r, err := dns.ReadRR(f, *anchor) if err != nil { fmt.Fprintf(os.Stderr, "Failure to read an RR from %s: %s\n", *anchor, err.Error()) } if k, ok := r.(*dns.DNSKEY); !ok { fmt.Fprintf(os.Stderr, "No DNSKEY read from %s\n", *anchor) } else { dnskey = k } } var nameserver string Flags: for i := 0; i < flag.NArg(); i++ { // If it starts with @ it is a nameserver if flag.Arg(i)[0] == '@' { nameserver = flag.Arg(i) continue Flags } // First class, then type, to make ANY queries possible // And if it looks like type, it is a type if k, ok := dns.StringToType[strings.ToUpper(flag.Arg(i))]; ok { qtype = append(qtype, k) continue Flags } // If it looks like a class, it is a class if k, ok := dns.StringToClass[strings.ToUpper(flag.Arg(i))]; ok { qclass = append(qclass, k) continue Flags } // If it starts with TYPExxx it is unknown rr if strings.HasPrefix(flag.Arg(i), "TYPE") { i, e := strconv.Atoi(string([]byte(flag.Arg(i))[4:])) if e == nil { qtype = append(qtype, uint16(i)) continue Flags } } // If it starts with CLASSxxx it is unknown class if strings.HasPrefix(flag.Arg(i), "CLASS") { i, e := strconv.Atoi(string([]byte(flag.Arg(i))[5:])) if e == nil { qclass = append(qclass, uint16(i)) continue Flags } } // Anything else is a qname qname = append(qname, flag.Arg(i)) } if len(qname) == 0 { qname = []string{"."} if len(qtype) == 0 { qtype = append(qtype, dns.TypeNS) } } if len(qtype) == 0 { qtype = append(qtype, dns.TypeA) } if len(qclass) == 0 { qclass = append(qclass, dns.ClassINET) } if len(nameserver) == 0 { conf, err := dns.ClientConfigFromFile("/etc/resolv.conf") if err != nil { fmt.Fprintln(os.Stderr, err) os.Exit(2) } nameserver = "@" + conf.Servers[0] } nameserver = string([]byte(nameserver)[1:]) // chop off @ // if the nameserver is from /etc/resolv.conf the [ and ] are already // added, thereby breaking net.ParseIP. Check for this and don't // fully qualify such a name if nameserver[0] == '[' && nameserver[len(nameserver)-1] == ']' { nameserver = nameserver[1 : len(nameserver)-1] } if i := net.ParseIP(nameserver); i != nil { nameserver = net.JoinHostPort(nameserver, strconv.Itoa(*port)) } else { nameserver = dns.Fqdn(nameserver) + ":" + strconv.Itoa(*port) } c := new(dns.Client) t := new(dns.Transfer) c.Net = "udp" if *four { c.Net = "udp4" } if *six { c.Net = "udp6" } if *tcp { c.Net = "tcp" if *four { c.Net = "tcp4" } if *six { c.Net = "tcp6" } } m := new(dns.Msg) m.MsgHdr.Authoritative = *aa m.MsgHdr.AuthenticatedData = *ad m.MsgHdr.CheckingDisabled = *cd m.MsgHdr.RecursionDesired = *rd m.Question = make([]dns.Question, 1) m.Opcode = dns.OpcodeQuery if op, ok := dns.StringToOpcode[strings.ToUpper(*opcode)]; ok { m.Opcode = op } m.Rcode = dns.RcodeSuccess if rc, ok := dns.StringToRcode[strings.ToUpper(*rcode)]; ok { m.Rcode = rc } if *dnssec || *nsid || *client != "" { o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT if *dnssec { o.SetDo() o.SetUDPSize(dns.DefaultMsgSize) } if *nsid { e := new(dns.EDNS0_NSID) e.Code = dns.EDNS0NSID o.Option = append(o.Option, e) // NSD will not return nsid when the udp message size is too small o.SetUDPSize(dns.DefaultMsgSize) } if *client != "" { e := new(dns.EDNS0_SUBNET) e.Code = dns.EDNS0SUBNET if *clientdraftcode { e.DraftOption = true } e.SourceScope = 0 e.Address = net.ParseIP(*client) if e.Address == nil { fmt.Fprintf(os.Stderr, "Failure to parse IP address: %s\n", *client) return } e.Family = 1 // IP4 e.SourceNetmask = net.IPv4len * 8 if e.Address.To4() == nil { e.Family = 2 // IP6 e.SourceNetmask = net.IPv6len * 8 } o.Option = append(o.Option, e) } m.Extra = append(m.Extra, o) } if *tcp { co := new(dns.Conn) tcp := "tcp" if *six { tcp = "tcp6" } var err error if co.Conn, err = net.DialTimeout(tcp, nameserver, 2*time.Second); err != nil { fmt.Fprintf(os.Stderr, "Dialing "+nameserver+" failed: "+err.Error()+"\n") return } defer co.Close() qt := dns.TypeA qc := uint16(dns.ClassINET) for i, v := range qname { if i < len(qtype) { qt = qtype[i] } if i < len(qclass) { qc = qclass[i] } m.Question[0] = dns.Question{dns.Fqdn(v), qt, qc} m.Id = dns.Id() if *tsig != "" { if algo, name, secret, ok := tsigKeyParse(*tsig); ok { m.SetTsig(name, algo, 300, time.Now().Unix()) c.TsigSecret = map[string]string{name: secret} t.TsigSecret = map[string]string{name: secret} } else { fmt.Fprintf(os.Stderr, ";; TSIG key data error\n") continue } } co.SetReadDeadline(time.Now().Add(2 * time.Second)) co.SetWriteDeadline(time.Now().Add(2 * time.Second)) if *query { fmt.Printf("%s", m.String()) fmt.Printf("\n;; size: %d bytes\n\n", m.Len()) } then := time.Now() if e := co.WriteMsg(m); e != nil { fmt.Fprintf(os.Stderr, ";; %s\n", e.Error()) continue } r, e := co.ReadMsg() if e != nil { fmt.Fprintf(os.Stderr, ";; %s\n", e.Error()) continue } rtt := time.Since(then) if r.Id != m.Id { fmt.Fprintf(os.Stderr, "Id mismatch\n") continue } if *check { sigCheck(r, nameserver, true) denialCheck(r) fmt.Println() } if *short { r = shortMsg(r) } fmt.Printf("%v", r) fmt.Printf("\n;; query time: %.3d µs, server: %s(%s), size: %d bytes\n", rtt/1e3, nameserver, tcp, r.Len()) } return } qt := dns.TypeA qc := uint16(dns.ClassINET) Query: for i, v := range qname { if i < len(qtype) { qt = qtype[i] } if i < len(qclass) { qc = qclass[i] } m.Question[0] = dns.Question{dns.Fqdn(v), qt, qc} m.Id = dns.Id() if *tsig != "" { if algo, name, secret, ok := tsigKeyParse(*tsig); ok { m.SetTsig(name, algo, 300, time.Now().Unix()) c.TsigSecret = map[string]string{name: secret} t.TsigSecret = map[string]string{name: secret} } else { fmt.Fprintf(os.Stderr, "TSIG key data error\n") continue } } if *query { fmt.Printf("%s", m.String()) fmt.Printf("\n;; size: %d bytes\n\n", m.Len()) } if qt == dns.TypeAXFR || qt == dns.TypeIXFR { env, err := t.In(m, nameserver) if err != nil { fmt.Printf(";; %s\n", err.Error()) continue } envelope := 0 record := 0 for e := range env { if e.Error != nil { fmt.Printf(";; %s\n", e.Error.Error()) continue Query } for _, r := range e.RR { fmt.Printf("%s\n", r) } record += len(e.RR) envelope++ } fmt.Printf("\n;; xfr size: %d records (envelopes %d)\n", record, envelope) continue } r, rtt, e := c.Exchange(m, nameserver) Redo: if e != nil { fmt.Printf(";; %s\n", e.Error()) continue } if r.Id != m.Id { fmt.Fprintf(os.Stderr, "Id mismatch\n") return } if r.MsgHdr.Truncated && *fallback { if !*dnssec { fmt.Printf(";; Truncated, trying %d bytes bufsize\n", dns.DefaultMsgSize) o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT o.SetUDPSize(dns.DefaultMsgSize) m.Extra = append(m.Extra, o) r, rtt, e = c.Exchange(m, nameserver) *dnssec = true goto Redo } else { // First EDNS, then TCP fmt.Printf(";; Truncated, trying TCP\n") c.Net = "tcp" r, rtt, e = c.Exchange(m, nameserver) goto Redo } } if r.MsgHdr.Truncated && !*fallback { fmt.Printf(";; Truncated\n") } if *check { sigCheck(r, nameserver, *tcp) denialCheck(r) fmt.Println() } if *short { r = shortMsg(r) } fmt.Printf("%v", r) fmt.Printf("\n;; query time: %.3d µs, server: %s(%s), size: %d bytes\n", rtt/1e3, nameserver, c.Net, r.Len()) } }