Documentation ¶
Overview ¶
Package dns implements a full featured interface to the Domain Name System. Both server- and client-side programming is supported. The package allows complete control over what is sent out to the DNS. The API follows the less-is-more principle, by presenting a small, clean interface.
It supports (asynchronous) querying/replying, incoming/outgoing zone transfers, TSIG, EDNS0, dynamic updates, notifies and DNSSEC validation/signing.
Note that domain names MUST be fully qualified before sending them, unqualified names in a message will result in a packing failure.
Resource records are native types. They are not stored in wire format. Basic usage pattern for creating a new resource record:
r := new(dns.MX) r.Hdr = dns.RR_Header{Name: "miek.nl.", Rrtype: dns.TypeMX, Class: dns.ClassINET, Ttl: 3600} r.Preference = 10 r.Mx = "mx.miek.nl."
Or directly from a string:
mx, err := dns.NewRR("miek.nl. 3600 IN MX 10 mx.miek.nl.")
Or when the default origin (.) and TTL (3600) and class (IN) suit you:
mx, err := dns.NewRR("miek.nl MX 10 mx.miek.nl")
Or even:
mx, err := dns.NewRR("$ORIGIN nl.\nmiek 1H IN MX 10 mx.miek")
In the DNS messages are exchanged, these messages contain resource records (sets). Use pattern for creating a message:
m := new(dns.Msg) m.SetQuestion("miek.nl.", dns.TypeMX)
Or when not certain if the domain name is fully qualified:
m.SetQuestion(dns.Fqdn("miek.nl"), dns.TypeMX)
The message m is now a message with the question section set to ask the MX records for the miek.nl. zone.
The following is slightly more verbose, but more flexible:
m1 := new(dns.Msg) m1.Id = dns.Id() m1.RecursionDesired = true m1.Question = make([]dns.Question, 1) m1.Question[0] = dns.Question{"miek.nl.", dns.TypeMX, dns.ClassINET}
After creating a message it can be sent. Basic use pattern for synchronous querying the DNS at a server configured on 127.0.0.1 and port 53:
c := new(dns.Client) in, rtt, err := c.Exchange(m1, "127.0.0.1:53")
Suppressing multiple outstanding queries (with the same question, type and class) is as easy as setting:
c.SingleInflight = true
More advanced options are available using a net.Dialer and the corresponding API. For example it is possible to set a timeout, or to specify a source IP address and port to use for the connection:
c := new(dns.Client) laddr := net.UDPAddr{ IP: net.ParseIP("[::1]"), Port: 12345, Zone: "", } c.Dialer := &net.Dialer{ Timeout: 200 * time.Millisecond, LocalAddr: &laddr, } in, rtt, err := c.Exchange(m1, "8.8.8.8:53")
If these "advanced" features are not needed, a simple UDP query can be sent, with:
in, err := dns.Exchange(m1, "127.0.0.1:53")
When this functions returns you will get dns message. A dns message consists out of four sections. The question section: in.Question, the answer section: in.Answer, the authority section: in.Ns and the additional section: in.Extra.
Each of these sections (except the Question section) contain a []RR. Basic use pattern for accessing the rdata of a TXT RR as the first RR in the Answer section:
if t, ok := in.Answer[0].(*dns.TXT); ok { // do something with t.Txt }
Domain Name and TXT Character String Representations ¶
Both domain names and TXT character strings are converted to presentation form both when unpacked and when converted to strings.
For TXT character strings, tabs, carriage returns and line feeds will be converted to \t, \r and \n respectively. Back slashes and quotations marks will be escaped. Bytes below 32 and above 127 will be converted to \DDD form.
For domain names, in addition to the above rules brackets, periods, spaces, semicolons and the at symbol are escaped.
DNSSEC ¶
DNSSEC (DNS Security Extension) adds a layer of security to the DNS. It uses public key cryptography to sign resource records. The public keys are stored in DNSKEY records and the signatures in RRSIG records.
Requesting DNSSEC information for a zone is done by adding the DO (DNSSEC OK) bit to a request.
m := new(dns.Msg) m.SetEdns0(4096, true)
Signature generation, signature verification and key generation are all supported.
DYNAMIC UPDATES ¶
Dynamic updates reuses the DNS message format, but renames three of the sections. Question is Zone, Answer is Prerequisite, Authority is Update, only the Additional is not renamed. See RFC 2136 for the gory details.
You can set a rather complex set of rules for the existence of absence of certain resource records or names in a zone to specify if resource records should be added or removed. The table from RFC 2136 supplemented with the Go DNS function shows which functions exist to specify the prerequisites.
3.2.4 - Table Of Metavalues Used In Prerequisite Section CLASS TYPE RDATA Meaning Function -------------------------------------------------------------- ANY ANY empty Name is in use dns.NameUsed ANY rrset empty RRset exists (value indep) dns.RRsetUsed NONE ANY empty Name is not in use dns.NameNotUsed NONE rrset empty RRset does not exist dns.RRsetNotUsed zone rrset rr RRset exists (value dep) dns.Used
The prerequisite section can also be left empty. If you have decided on the prerequisites you can tell what RRs should be added or deleted. The next table shows the options you have and what functions to call.
3.4.2.6 - Table Of Metavalues Used In Update Section CLASS TYPE RDATA Meaning Function --------------------------------------------------------------- ANY ANY empty Delete all RRsets from name dns.RemoveName ANY rrset empty Delete an RRset dns.RemoveRRset NONE rrset rr Delete an RR from RRset dns.Remove zone rrset rr Add to an RRset dns.Insert
TRANSACTION SIGNATURE ¶
An TSIG or transaction signature adds a HMAC TSIG record to each message sent. The supported algorithms include: HmacMD5, HmacSHA1, HmacSHA256 and HmacSHA512.
Basic use pattern when querying with a TSIG name "axfr." (note that these key names must be fully qualified - as they are domain names) and the base64 secret "so6ZGir4GPAqINNh9U5c3A==":
If an incoming message contains a TSIG record it MUST be the last record in the additional section (RFC2845 3.2). This means that you should make the call to SetTsig last, right before executing the query. If you make any changes to the RRset after calling SetTsig() the signature will be incorrect.
c := new(dns.Client) c.TsigSecret = map[string]string{"axfr.": "so6ZGir4GPAqINNh9U5c3A=="} m := new(dns.Msg) m.SetQuestion("miek.nl.", dns.TypeMX) m.SetTsig("axfr.", dns.HmacMD5, 300, time.Now().Unix()) ... // When sending the TSIG RR is calculated and filled in before sending
When requesting an zone transfer (almost all TSIG usage is when requesting zone transfers), with TSIG, this is the basic use pattern. In this example we request an AXFR for miek.nl. with TSIG key named "axfr." and secret "so6ZGir4GPAqINNh9U5c3A==" and using the server 176.58.119.54:
t := new(dns.Transfer) m := new(dns.Msg) t.TsigSecret = map[string]string{"axfr.": "so6ZGir4GPAqINNh9U5c3A=="} m.SetAxfr("miek.nl.") m.SetTsig("axfr.", dns.HmacMD5, 300, time.Now().Unix()) c, err := t.In(m, "176.58.119.54:53") for r := range c { ... }
You can now read the records from the transfer as they come in. Each envelope is checked with TSIG. If something is not correct an error is returned.
Basic use pattern validating and replying to a message that has TSIG set.
server := &dns.Server{Addr: ":53", Net: "udp"} server.TsigSecret = map[string]string{"axfr.": "so6ZGir4GPAqINNh9U5c3A=="} go server.ListenAndServe() dns.HandleFunc(".", handleRequest) func handleRequest(w dns.ResponseWriter, r *dns.Msg) { m := new(dns.Msg) m.SetReply(r) if r.IsTsig() != nil { if w.TsigStatus() == nil { // *Msg r has an TSIG record and it was validated m.SetTsig("axfr.", dns.HmacMD5, 300, time.Now().Unix()) } else { // *Msg r has an TSIG records and it was not valided } } w.WriteMsg(m) }
PRIVATE RRS ¶
RFC 6895 sets aside a range of type codes for private use. This range is 65,280 - 65,534 (0xFF00 - 0xFFFE). When experimenting with new Resource Records these can be used, before requesting an official type code from IANA.
See https://miek.nl/2014/September/21/idn-and-private-rr-in-go-dns/ for more information.
EDNS0 ¶
EDNS0 is an extension mechanism for the DNS defined in RFC 2671 and updated by RFC 6891. It defines an new RR type, the OPT RR, which is then completely abused.
Basic use pattern for creating an (empty) OPT RR:
o := new(dns.OPT) o.Hdr.Name = "." // MUST be the root zone, per definition. o.Hdr.Rrtype = dns.TypeOPT
The rdata of an OPT RR consists out of a slice of EDNS0 (RFC 6891) interfaces. Currently only a few have been standardized: EDNS0_NSID (RFC 5001) and EDNS0_SUBNET (draft-vandergaast-edns-client-subnet-02). Note that these options may be combined in an OPT RR. Basic use pattern for a server to check if (and which) options are set:
// o is a dns.OPT for _, s := range o.Option { switch e := s.(type) { case *dns.EDNS0_NSID: // do stuff with e.Nsid case *dns.EDNS0_SUBNET: // access e.Family, e.Address, etc. } }
SIG(0)
From RFC 2931:
SIG(0) provides protection for DNS transactions and requests .... ... protection for glue records, DNS requests, protection for message headers on requests and responses, and protection of the overall integrity of a response.
It works like TSIG, except that SIG(0) uses public key cryptography, instead of the shared secret approach in TSIG. Supported algorithms: DSA, ECDSAP256SHA256, ECDSAP384SHA384, RSASHA1, RSASHA256 and RSASHA512.
Signing subsequent messages in multi-message sessions is not implemented.
Index ¶
- Constants
- Variables
- func ActivateAndServe(l net.Listener, p net.PacketConn, handler Handler) error
- func CertificateToDANE(selector, matchingType uint8, cert *x509.Certificate) (string, error)
- func CompareDomainName(s1, s2 string) (n int)
- func CountLabel(s string) (labels int)
- func Field(r RR, i int) string
- func Fqdn(s string) string
- func Handle(pattern string, handler Handler)
- func HandleFailed(w ResponseWriter, r *Msg)
- func HandleFunc(pattern string, handler func(ResponseWriter, *Msg))
- func HandleRemove(pattern string)
- func HashName(label string, ha uint8, iter uint16, salt string) string
- func IsDomainName(s string) (labels int, ok bool)
- func IsDuplicate(r1, r2 RR) bool
- func IsFqdn(s string) bool
- func IsMsg(buf []byte) error
- func IsRRset(rrset []RR) bool
- func IsSubDomain(parent, child string) bool
- func Len(r RR) int
- func ListenAndServe(addr string, network string, handler Handler) error
- func ListenAndServeTLS(addr, certFile, keyFile string, handler Handler) error
- func NextLabel(s string, offset int) (i int, end bool)
- func NumField(r RR) int
- func PackDomainName(s string, msg []byte, off int, compression map[string]int, compress bool) (off1 int, err error)
- func PackRR(rr RR, msg []byte, off int, compression map[string]int, compress bool) (off1 int, err error)
- func ParseZone(r io.Reader, origin, file string) chan *Tokendeprecated
- func PrevLabel(s string, n int) (i int, start bool)
- func PrivateHandle(rtypestr string, rtype uint16, generator func() PrivateRdata)
- func PrivateHandleRemove(rtype uint16)
- func ReverseAddr(addr string) (arpa string, err error)
- func SMIMEAName(email, domain string) (string, error)
- func Split(s string) []int
- func SplitDomainName(s string) (labels []string)
- func StringToTime(s string) (uint32, error)
- func TLSAName(name, service, network string) (string, error)
- func TimeToString(t uint32) string
- func TsigGenerate(m *Msg, secret, requestMAC string, timersOnly bool) ([]byte, string, error)
- func TsigVerify(msg []byte, secret, requestMAC string, timersOnly bool) error
- func UnpackDomainName(msg []byte, off int) (string, int, error)
- func WriteToSessionUDP(conn *net.UDPConn, b []byte, session *SessionUDP) (int, error)
- type A
- type AAAA
- type AFSDB
- type ANY
- type AVC
- type CAA
- type CDNSKEY
- type CDS
- type CERT
- type CNAME
- type CSYNC
- type Class
- type Client
- type ClientConfig
- type Conn
- func Dial(network, address string) (conn *Conn, err error)
- func DialTimeout(network, address string, timeout time.Duration) (conn *Conn, err error)
- func DialTimeoutWithTLS(network, address string, tlsConfig *tls.Config, timeout time.Duration) (conn *Conn, err error)
- func DialWithTLS(network, address string, tlsConfig *tls.Config) (conn *Conn, err error)
- type ConnectionStater
- type DHCID
- type DLV
- type DNAME
- type DNSKEY
- func (k *DNSKEY) Generate(bits int) (crypto.PrivateKey, error)
- func (rr *DNSKEY) Header() *RR_Header
- func (k *DNSKEY) KeyTag() uint16
- func (k *DNSKEY) NewPrivateKey(s string) (crypto.PrivateKey, error)
- func (r *DNSKEY) PrivateKeyString(p crypto.PrivateKey) string
- func (k *DNSKEY) ReadPrivateKey(q io.Reader, file string) (crypto.PrivateKey, error)
- func (rr *DNSKEY) String() string
- func (k *DNSKEY) ToCDNSKEY() *CDNSKEY
- func (k *DNSKEY) ToDS(h uint8) *DS
- type DS
- type DecorateReader
- type DecorateWriter
- type EDNS0
- type EDNS0_COOKIE
- type EDNS0_DAU
- type EDNS0_DHU
- type EDNS0_EXPIRE
- type EDNS0_LLQ
- type EDNS0_LOCAL
- type EDNS0_N3U
- type EDNS0_NSID
- type EDNS0_PADDING
- type EDNS0_SUBNET
- type EDNS0_TCP_KEEPALIVE
- type EDNS0_UL
- type EID
- type EUI48
- type EUI64
- type Envelope
- type Error
- type GID
- type GPOS
- type HINFO
- type HIP
- type Handler
- type HandlerFunc
- type Header
- type KEY
- type KX
- type L32
- type L64
- type LOC
- type LP
- type MB
- type MD
- type MF
- type MG
- type MINFO
- type MR
- type MX
- type Msg
- func (dns *Msg) Copy() *Msg
- func (dns *Msg) CopyTo(r1 *Msg) *Msg
- func (u *Msg) Insert(rr []RR)
- func (dns *Msg) IsEdns0() *OPT
- func (dns *Msg) IsTsig() *TSIG
- func (dns *Msg) Len() int
- func (u *Msg) NameNotUsed(rr []RR)
- func (u *Msg) NameUsed(rr []RR)
- func (dns *Msg) Pack() (msg []byte, err error)
- func (dns *Msg) PackBuffer(buf []byte) (msg []byte, err error)
- func (u *Msg) RRsetNotUsed(rr []RR)
- func (u *Msg) RRsetUsed(rr []RR)
- func (u *Msg) Remove(rr []RR)
- func (u *Msg) RemoveName(rr []RR)
- func (u *Msg) RemoveRRset(rr []RR)
- func (dns *Msg) SetAxfr(z string) *Msg
- func (dns *Msg) SetEdns0(udpsize uint16, do bool) *Msg
- func (dns *Msg) SetIxfr(z string, serial uint32, ns, mbox string) *Msg
- func (dns *Msg) SetNotify(z string) *Msg
- func (dns *Msg) SetQuestion(z string, t uint16) *Msg
- func (dns *Msg) SetRcode(request *Msg, rcode int) *Msg
- func (dns *Msg) SetRcodeFormatError(request *Msg) *Msg
- func (dns *Msg) SetReply(request *Msg) *Msg
- func (dns *Msg) SetTsig(z, algo string, fudge uint16, timesigned int64) *Msg
- func (dns *Msg) SetUpdate(z string) *Msg
- func (dns *Msg) String() string
- func (dns *Msg) Truncate(size int)
- func (dns *Msg) Unpack(msg []byte) (err error)
- func (u *Msg) Used(rr []RR)
- type MsgAcceptAction
- type MsgAcceptFunc
- type MsgHdr
- type NAPTR
- type NID
- type NIMLOC
- type NINFO
- type NS
- type NSAPPTR
- type NSEC
- type NSEC3
- type NSEC3PARAM
- type NULL
- type Name
- type OPENPGPKEY
- type OPT
- func (rr *OPT) Do() bool
- func (rr *OPT) ExtendedRcode() int
- func (rr *OPT) Header() *RR_Header
- func (rr *OPT) SetDo(do ...bool)
- func (rr *OPT) SetExtendedRcode(v uint16)
- func (rr *OPT) SetUDPSize(size uint16)
- func (rr *OPT) SetVersion(v uint8)
- func (rr *OPT) String() string
- func (rr *OPT) UDPSize() uint16
- func (rr *OPT) Version() uint8
- type PTR
- type PX
- type ParseError
- type PrivateRR
- type PrivateRdata
- type Question
- type RFC3597
- type RKEY
- type RP
- type RR
- type RRSIG
- type RR_Header
- type RT
- type Reader
- type ResponseWriter
- type SIG
- type SMIMEA
- type SOA
- type SPF
- type SRV
- type SSHFP
- type ServeMux
- type Server
- type SessionUDP
- type TA
- type TALINK
- type TKEY
- type TLSA
- type TSIG
- type TXT
- type Token
- type Transfer
- type Type
- type UID
- type UINFO
- type URI
- type V
- type Writer
- type X25
- type ZoneParser
Examples ¶
Constants ¶
const ( // DefaultMsgSize is the standard default for messages larger than 512 bytes. DefaultMsgSize = 4096 // MinMsgSize is the minimal size of a DNS packet. MinMsgSize = 512 // MaxMsgSize is the largest possible DNS packet. MaxMsgSize = 65535 )
const ( RSAMD5 uint8 DH DSA RSASHA1 DSANSEC3SHA1 RSASHA1NSEC3SHA1 RSASHA256 RSASHA512 ECCGOST ECDSAP256SHA256 ECDSAP384SHA384 ED25519 ED448 INDIRECT uint8 = 252 PRIVATEDNS uint8 = 253 // Private (experimental keys) PRIVATEOID uint8 = 254 )
DNSSEC encryption algorithm codes.
const ( SHA1 uint8 // RFC 4034 SHA256 // RFC 4509 GOST94 // RFC 5933 SHA384 // Experimental SHA512 // Experimental )
DNSSEC hashing algorithm codes.
const ( SEP = 1 REVOKE = 1 << 7 ZONE = 1 << 8 )
DNSKEY flag values.
const ( EDNS0LLQ = 0x1 // long lived queries: http://tools.ietf.org/html/draft-sekar-dns-llq-01 EDNS0UL = 0x2 // update lease draft: http://files.dns-sd.org/draft-sekar-dns-ul.txt EDNS0NSID = 0x3 // nsid (See RFC 5001) EDNS0DAU = 0x5 // DNSSEC Algorithm Understood EDNS0DHU = 0x6 // DS Hash Understood EDNS0N3U = 0x7 // NSEC3 Hash Understood EDNS0SUBNET = 0x8 // client-subnet (See RFC 7871) EDNS0EXPIRE = 0x9 // EDNS0 expire EDNS0COOKIE = 0xa // EDNS0 Cookie EDNS0TCPKEEPALIVE = 0xb // EDNS0 tcp keep alive (See RFC 7828) EDNS0PADDING = 0xc // EDNS0 padding (See RFC 7830) EDNS0LOCALSTART = 0xFDE9 // Beginning of range reserved for local/experimental use (See RFC 6891) EDNS0LOCALEND = 0xFFFE // End of range reserved for local/experimental use (See RFC 6891) )
EDNS0 Option codes.
const ( HmacMD5 = "hmac-md5.sig-alg.reg.int." HmacSHA1 = "hmac-sha1." HmacSHA256 = "hmac-sha256." HmacSHA512 = "hmac-sha512." )
HMAC hashing codes. These are transmitted as domain names.
const ( TypeNone uint16 = 0 TypeA uint16 = 1 TypeNS uint16 = 2 TypeMD uint16 = 3 TypeMF uint16 = 4 TypeCNAME uint16 = 5 TypeSOA uint16 = 6 TypeMB uint16 = 7 TypeMG uint16 = 8 TypeMR uint16 = 9 TypeNULL uint16 = 10 TypePTR uint16 = 12 TypeHINFO uint16 = 13 TypeMINFO uint16 = 14 TypeMX uint16 = 15 TypeTXT uint16 = 16 TypeRP uint16 = 17 TypeAFSDB uint16 = 18 TypeX25 uint16 = 19 TypeISDN uint16 = 20 TypeRT uint16 = 21 TypeNSAPPTR uint16 = 23 TypeSIG uint16 = 24 TypeKEY uint16 = 25 TypePX uint16 = 26 TypeGPOS uint16 = 27 TypeAAAA uint16 = 28 TypeLOC uint16 = 29 TypeNXT uint16 = 30 TypeEID uint16 = 31 TypeNIMLOC uint16 = 32 TypeSRV uint16 = 33 TypeATMA uint16 = 34 TypeNAPTR uint16 = 35 TypeKX uint16 = 36 TypeCERT uint16 = 37 TypeDNAME uint16 = 39 TypeOPT uint16 = 41 // EDNS TypeDS uint16 = 43 TypeSSHFP uint16 = 44 TypeRRSIG uint16 = 46 TypeNSEC uint16 = 47 TypeDNSKEY uint16 = 48 TypeDHCID uint16 = 49 TypeNSEC3 uint16 = 50 TypeNSEC3PARAM uint16 = 51 TypeTLSA uint16 = 52 TypeSMIMEA uint16 = 53 TypeHIP uint16 = 55 TypeNINFO uint16 = 56 TypeRKEY uint16 = 57 TypeTALINK uint16 = 58 TypeCDS uint16 = 59 TypeCDNSKEY uint16 = 60 TypeOPENPGPKEY uint16 = 61 TypeCSYNC uint16 = 62 TypeSPF uint16 = 99 TypeUINFO uint16 = 100 TypeUID uint16 = 101 TypeGID uint16 = 102 TypeUNSPEC uint16 = 103 TypeNID uint16 = 104 TypeL32 uint16 = 105 TypeL64 uint16 = 106 TypeLP uint16 = 107 TypeEUI48 uint16 = 108 TypeEUI64 uint16 = 109 TypeURI uint16 = 256 TypeCAA uint16 = 257 TypeAVC uint16 = 258 TypeTKEY uint16 = 249 TypeTSIG uint16 = 250 // valid Question.Qtype only TypeIXFR uint16 = 251 TypeAXFR uint16 = 252 TypeMAILB uint16 = 253 TypeMAILA uint16 = 254 TypeANY uint16 = 255 TypeTA uint16 = 32768 TypeDLV uint16 = 32769 TypeReserved uint16 = 65535 // valid Question.Qclass ClassINET = 1 ClassCSNET = 2 ClassCHAOS = 3 ClassHESIOD = 4 ClassNONE = 254 ClassANY = 255 // Message Response Codes, see https://www.iana.org/assignments/dns-parameters/dns-parameters.xhtml RcodeSuccess = 0 // NoError - No Error [DNS] RcodeFormatError = 1 // FormErr - Format Error [DNS] RcodeServerFailure = 2 // ServFail - Server Failure [DNS] RcodeNameError = 3 // NXDomain - Non-Existent Domain [DNS] RcodeNotImplemented = 4 // NotImp - Not Implemented [DNS] RcodeRefused = 5 // Refused - Query Refused [DNS] RcodeYXDomain = 6 // YXDomain - Name Exists when it should not [DNS Update] RcodeYXRrset = 7 // YXRRSet - RR Set Exists when it should not [DNS Update] RcodeNXRrset = 8 // NXRRSet - RR Set that should exist does not [DNS Update] RcodeNotAuth = 9 // NotAuth - Server Not Authoritative for zone [DNS Update] RcodeNotZone = 10 // NotZone - Name not contained in zone [DNS Update/TSIG] RcodeBadSig = 16 // BADSIG - TSIG Signature Failure [TSIG] RcodeBadVers = 16 // BADVERS - Bad OPT Version [EDNS0] RcodeBadKey = 17 // BADKEY - Key not recognized [TSIG] RcodeBadTime = 18 // BADTIME - Signature out of time window [TSIG] RcodeBadMode = 19 // BADMODE - Bad TKEY Mode [TKEY] RcodeBadName = 20 // BADNAME - Duplicate key name [TKEY] RcodeBadAlg = 21 // BADALG - Algorithm not supported [TKEY] RcodeBadTrunc = 22 // BADTRUNC - Bad Truncation [TSIG] RcodeBadCookie = 23 // BADCOOKIE - Bad/missing Server Cookie [DNS Cookies] // Message Opcodes. There is no 3. OpcodeQuery = 0 OpcodeIQuery = 1 OpcodeStatus = 2 OpcodeNotify = 4 OpcodeUpdate = 5 )
Wire constants and supported types.
const ( LOC_EQUATOR = 1 << 31 // RFC 1876, Section 2. LOC_PRIMEMERIDIAN = 1 << 31 // RFC 1876, Section 2. LOC_HOURS = 60 * 1000 LOC_DEGREES = 60 * LOC_HOURS LOC_ALTITUDEBASE = 100000 )
Various constants used in the LOC RR, See RFC 1887.
const ( CertPKIX = 1 + iota CertSPKI CertPGP CertIPIX CertISPKI CertIPGP CertACPKIX CertIACPKIX CertURI = 253 CertOID = 254 )
Different Certificate Types, see RFC 4398, Section 2.1
Variables ¶
var ( ErrAlg error = &Error{err: "bad algorithm"} // ErrAlg indicates an error with the (DNSSEC) algorithm. ErrAuth error = &Error{err: "bad authentication"} // ErrAuth indicates an error in the TSIG authentication. ErrBuf error = &Error{err: "buffer size too small"} // ErrBuf indicates that the buffer used is too small for the message. ErrConnEmpty error = &Error{err: "conn has no connection"} // ErrConnEmpty indicates a connection is being used before it is initialized. ErrExtendedRcode error = &Error{err: "bad extended rcode"} // ErrExtendedRcode ... ErrFqdn error = &Error{err: "domain must be fully qualified"} // ErrFqdn indicates that a domain name does not have a closing dot. ErrId error = &Error{err: "id mismatch"} // ErrId indicates there is a mismatch with the message's ID. ErrKeyAlg error = &Error{err: "bad key algorithm"} // ErrKeyAlg indicates that the algorithm in the key is not valid. ErrKey error = &Error{err: "bad key"} ErrKeySize error = &Error{err: "bad key size"} ErrLongDomain error = &Error{err: fmt.Sprintf("domain name exceeded %d wire-format octets", maxDomainNameWireOctets)} ErrNoSig error = &Error{err: "no signature found"} ErrPrivKey error = &Error{err: "bad private key"} ErrRcode error = &Error{err: "bad rcode"} ErrRdata error = &Error{err: "bad rdata"} ErrRRset error = &Error{err: "bad rrset"} ErrSecret error = &Error{err: "no secrets defined"} ErrShortRead error = &Error{err: "short read"} ErrSig error = &Error{err: "bad signature"} // ErrSig indicates that a signature can not be cryptographically validated. ErrSoa error = &Error{err: "no SOA"} // ErrSOA indicates that no SOA RR was seen when doing zone transfers. ErrTime error = &Error{err: "bad time"} // ErrTime indicates a timing error in TSIG authentication. )
Errors defined in this package.
var AlgorithmToHash = map[uint8]crypto.Hash{ RSAMD5: crypto.MD5, DSA: crypto.SHA1, RSASHA1: crypto.SHA1, RSASHA1NSEC3SHA1: crypto.SHA1, RSASHA256: crypto.SHA256, ECDSAP256SHA256: crypto.SHA256, ECDSAP384SHA384: crypto.SHA384, RSASHA512: crypto.SHA512, ED25519: crypto.Hash(0), }
AlgorithmToHash is a map of algorithm crypto hash IDs to crypto.Hash's.
var AlgorithmToString = map[uint8]string{ RSAMD5: "RSAMD5", DH: "DH", DSA: "DSA", RSASHA1: "RSASHA1", DSANSEC3SHA1: "DSA-NSEC3-SHA1", RSASHA1NSEC3SHA1: "RSASHA1-NSEC3-SHA1", RSASHA256: "RSASHA256", RSASHA512: "RSASHA512", ECCGOST: "ECC-GOST", ECDSAP256SHA256: "ECDSAP256SHA256", ECDSAP384SHA384: "ECDSAP384SHA384", ED25519: "ED25519", ED448: "ED448", INDIRECT: "INDIRECT", PRIVATEDNS: "PRIVATEDNS", PRIVATEOID: "PRIVATEOID", }
AlgorithmToString is a map of algorithm IDs to algorithm names.
var CertTypeToString = map[uint16]string{ CertPKIX: "PKIX", CertSPKI: "SPKI", CertPGP: "PGP", CertIPIX: "IPIX", CertISPKI: "ISPKI", CertIPGP: "IPGP", CertACPKIX: "ACPKIX", CertIACPKIX: "IACPKIX", CertURI: "URI", CertOID: "OID", }
CertTypeToString converts the Cert Type to its string representation. See RFC 4398 and RFC 6944.
var ClassToString = map[uint16]string{
ClassINET: "IN",
ClassCSNET: "CS",
ClassCHAOS: "CH",
ClassHESIOD: "HS",
ClassNONE: "NONE",
ClassANY: "ANY",
}
ClassToString is a maps Classes to strings for each CLASS wire type.
var DefaultServeMux = NewServeMux()
DefaultServeMux is the default ServeMux used by Serve.
var HashToString = map[uint8]string{ SHA1: "SHA1", SHA256: "SHA256", GOST94: "GOST94", SHA384: "SHA384", SHA512: "SHA512", }
HashToString is a map of hash IDs to names.
var Id = id
Id by default, returns a 16 bits random number to be used as a message id. The random provided should be good enough. This being a variable the function can be reassigned to a custom function. For instance, to make it return a static value:
dns.Id = func() uint16 { return 3 }
var OpcodeToString = map[int]string{
OpcodeQuery: "QUERY",
OpcodeIQuery: "IQUERY",
OpcodeStatus: "STATUS",
OpcodeNotify: "NOTIFY",
OpcodeUpdate: "UPDATE",
}
OpcodeToString maps Opcodes to strings.
var RcodeToString = map[int]string{
RcodeSuccess: "NOERROR",
RcodeFormatError: "FORMERR",
RcodeServerFailure: "SERVFAIL",
RcodeNameError: "NXDOMAIN",
RcodeNotImplemented: "NOTIMP",
RcodeRefused: "REFUSED",
RcodeYXDomain: "YXDOMAIN",
RcodeYXRrset: "YXRRSET",
RcodeNXRrset: "NXRRSET",
RcodeNotAuth: "NOTAUTH",
RcodeNotZone: "NOTZONE",
RcodeBadSig: "BADSIG",
RcodeBadKey: "BADKEY",
RcodeBadTime: "BADTIME",
RcodeBadMode: "BADMODE",
RcodeBadName: "BADNAME",
RcodeBadAlg: "BADALG",
RcodeBadTrunc: "BADTRUNC",
RcodeBadCookie: "BADCOOKIE",
}
RcodeToString maps Rcodes to strings.
var StringToAlgorithm = reverseInt8(AlgorithmToString)
StringToAlgorithm is the reverse of AlgorithmToString.
var StringToCertType = reverseInt16(CertTypeToString)
StringToCertType is the reverseof CertTypeToString.
var StringToClass = reverseInt16(ClassToString)
StringToClass is the reverse of ClassToString, needed for string parsing.
var StringToHash = reverseInt8(HashToString)
StringToHash is a map of names to hash IDs.
var StringToOpcode = reverseInt(OpcodeToString)
StringToOpcode is a map of opcodes to strings.
var StringToRcode = reverseInt(RcodeToString)
StringToRcode is a map of rcodes to strings.
var StringToType = reverseInt16(TypeToString)
StringToType is the reverse of TypeToString, needed for string parsing.
var TypeToRR = map[uint16]func() RR{ TypeA: func() RR { return new(A) }, TypeAAAA: func() RR { return new(AAAA) }, TypeAFSDB: func() RR { return new(AFSDB) }, TypeANY: func() RR { return new(ANY) }, TypeAVC: func() RR { return new(AVC) }, TypeCAA: func() RR { return new(CAA) }, TypeCDNSKEY: func() RR { return new(CDNSKEY) }, TypeCDS: func() RR { return new(CDS) }, TypeCERT: func() RR { return new(CERT) }, TypeCNAME: func() RR { return new(CNAME) }, TypeCSYNC: func() RR { return new(CSYNC) }, TypeDHCID: func() RR { return new(DHCID) }, TypeDLV: func() RR { return new(DLV) }, TypeDNAME: func() RR { return new(DNAME) }, TypeDNSKEY: func() RR { return new(DNSKEY) }, TypeDS: func() RR { return new(DS) }, TypeEID: func() RR { return new(EID) }, TypeEUI48: func() RR { return new(EUI48) }, TypeEUI64: func() RR { return new(EUI64) }, TypeGID: func() RR { return new(GID) }, TypeGPOS: func() RR { return new(GPOS) }, TypeHINFO: func() RR { return new(HINFO) }, TypeHIP: func() RR { return new(HIP) }, TypeKEY: func() RR { return new(KEY) }, TypeKX: func() RR { return new(KX) }, TypeL32: func() RR { return new(L32) }, TypeL64: func() RR { return new(L64) }, TypeLOC: func() RR { return new(LOC) }, TypeLP: func() RR { return new(LP) }, TypeMB: func() RR { return new(MB) }, TypeMD: func() RR { return new(MD) }, TypeMF: func() RR { return new(MF) }, TypeMG: func() RR { return new(MG) }, TypeMINFO: func() RR { return new(MINFO) }, TypeMR: func() RR { return new(MR) }, TypeMX: func() RR { return new(MX) }, TypeNAPTR: func() RR { return new(NAPTR) }, TypeNID: func() RR { return new(NID) }, TypeNIMLOC: func() RR { return new(NIMLOC) }, TypeNINFO: func() RR { return new(NINFO) }, TypeNS: func() RR { return new(NS) }, TypeNSAPPTR: func() RR { return new(NSAPPTR) }, TypeNSEC: func() RR { return new(NSEC) }, TypeNSEC3: func() RR { return new(NSEC3) }, TypeNSEC3PARAM: func() RR { return new(NSEC3PARAM) }, TypeNULL: func() RR { return new(NULL) }, TypeOPENPGPKEY: func() RR { return new(OPENPGPKEY) }, TypeOPT: func() RR { return new(OPT) }, TypePTR: func() RR { return new(PTR) }, TypePX: func() RR { return new(PX) }, TypeRKEY: func() RR { return new(RKEY) }, TypeRP: func() RR { return new(RP) }, TypeRRSIG: func() RR { return new(RRSIG) }, TypeRT: func() RR { return new(RT) }, TypeSIG: func() RR { return new(SIG) }, TypeSMIMEA: func() RR { return new(SMIMEA) }, TypeSOA: func() RR { return new(SOA) }, TypeSPF: func() RR { return new(SPF) }, TypeSRV: func() RR { return new(SRV) }, TypeSSHFP: func() RR { return new(SSHFP) }, TypeTA: func() RR { return new(TA) }, TypeTALINK: func() RR { return new(TALINK) }, TypeTKEY: func() RR { return new(TKEY) }, TypeTLSA: func() RR { return new(TLSA) }, TypeTSIG: func() RR { return new(TSIG) }, TypeTXT: func() RR { return new(TXT) }, TypeUID: func() RR { return new(UID) }, TypeUINFO: func() RR { return new(UINFO) }, TypeURI: func() RR { return new(URI) }, TypeX25: func() RR { return new(X25) }, }
TypeToRR is a map of constructors for each RR type.
var TypeToString = map[uint16]string{
TypeA: "A",
TypeAAAA: "AAAA",
TypeAFSDB: "AFSDB",
TypeANY: "ANY",
TypeATMA: "ATMA",
TypeAVC: "AVC",
TypeAXFR: "AXFR",
TypeCAA: "CAA",
TypeCDNSKEY: "CDNSKEY",
TypeCDS: "CDS",
TypeCERT: "CERT",
TypeCNAME: "CNAME",
TypeCSYNC: "CSYNC",
TypeDHCID: "DHCID",
TypeDLV: "DLV",
TypeDNAME: "DNAME",
TypeDNSKEY: "DNSKEY",
TypeDS: "DS",
TypeEID: "EID",
TypeEUI48: "EUI48",
TypeEUI64: "EUI64",
TypeGID: "GID",
TypeGPOS: "GPOS",
TypeHINFO: "HINFO",
TypeHIP: "HIP",
TypeISDN: "ISDN",
TypeIXFR: "IXFR",
TypeKEY: "KEY",
TypeKX: "KX",
TypeL32: "L32",
TypeL64: "L64",
TypeLOC: "LOC",
TypeLP: "LP",
TypeMAILA: "MAILA",
TypeMAILB: "MAILB",
TypeMB: "MB",
TypeMD: "MD",
TypeMF: "MF",
TypeMG: "MG",
TypeMINFO: "MINFO",
TypeMR: "MR",
TypeMX: "MX",
TypeNAPTR: "NAPTR",
TypeNID: "NID",
TypeNIMLOC: "NIMLOC",
TypeNINFO: "NINFO",
TypeNS: "NS",
TypeNSEC: "NSEC",
TypeNSEC3: "NSEC3",
TypeNSEC3PARAM: "NSEC3PARAM",
TypeNULL: "NULL",
TypeNXT: "NXT",
TypeNone: "None",
TypeOPENPGPKEY: "OPENPGPKEY",
TypeOPT: "OPT",
TypePTR: "PTR",
TypePX: "PX",
TypeRKEY: "RKEY",
TypeRP: "RP",
TypeRRSIG: "RRSIG",
TypeRT: "RT",
TypeReserved: "Reserved",
TypeSIG: "SIG",
TypeSMIMEA: "SMIMEA",
TypeSOA: "SOA",
TypeSPF: "SPF",
TypeSRV: "SRV",
TypeSSHFP: "SSHFP",
TypeTA: "TA",
TypeTALINK: "TALINK",
TypeTKEY: "TKEY",
TypeTLSA: "TLSA",
TypeTSIG: "TSIG",
TypeTXT: "TXT",
TypeUID: "UID",
TypeUINFO: "UINFO",
TypeUNSPEC: "UNSPEC",
TypeURI: "URI",
TypeX25: "X25",
TypeNSAPPTR: "NSAP-PTR",
}
TypeToString is a map of strings for each RR type.
var Version = V{1, 1, 15}
Version is current version of this library.
Functions ¶
func ActivateAndServe ¶
ActivateAndServe activates a server with a listener from systemd, l and p should not both be non-nil. If both l and p are not nil only p will be used. Invoke handler for incoming queries.
func CertificateToDANE ¶
func CertificateToDANE(selector, matchingType uint8, cert *x509.Certificate) (string, error)
CertificateToDANE converts a certificate to a hex string as used in the TLSA or SMIMEA records.
func CompareDomainName ¶
CompareDomainName compares the names s1 and s2 and returns how many labels they have in common starting from the *right*. The comparison stops at the first inequality. The names are downcased before the comparison.
www.miek.nl. and miek.nl. have two labels in common: miek and nl www.miek.nl. and www.bla.nl. have one label in common: nl
s1 and s2 must be syntactically valid domain names.
func CountLabel ¶
CountLabel counts the the number of labels in the string s. s must be a syntactically valid domain name.
func Field ¶
Field returns the rdata field i as a string. Fields are indexed starting from 1. RR types that holds slice data, for instance the NSEC type bitmap will return a single string where the types are concatenated using a space. Accessing non existing fields will cause a panic.
func Fqdn ¶
Fqdn return the fully qualified domain name from s. If s is already fully qualified, it behaves as the identity function.
func Handle ¶
Handle registers the handler with the given pattern in the DefaultServeMux. The documentation for ServeMux explains how patterns are matched.
func HandleFailed ¶
func HandleFailed(w ResponseWriter, r *Msg)
HandleFailed returns a HandlerFunc that returns SERVFAIL for every request it gets.
func HandleFunc ¶
func HandleFunc(pattern string, handler func(ResponseWriter, *Msg))
HandleFunc registers the handler function with the given pattern in the DefaultServeMux.
func HandleRemove ¶
func HandleRemove(pattern string)
HandleRemove deregisters the handle with the given pattern in the DefaultServeMux.
func HashName ¶
HashName hashes a string (label) according to RFC 5155. It returns the hashed string in uppercase.
func IsDomainName ¶
IsDomainName checks if s is a valid domain name, it returns the number of labels and true, when a domain name is valid. Note that non fully qualified domain name is considered valid, in this case the last label is counted in the number of labels. When false is returned the number of labels is not defined. Also note that this function is extremely liberal; almost any string is a valid domain name as the DNS is 8 bit protocol. It checks if each label fits in 63 characters and that the entire name will fit into the 255 octet wire format limit.
func IsDuplicate ¶ added in v1.0.9
IsDuplicate checks of r1 and r2 are duplicates of each other, excluding the TTL. So this means the header data is equal *and* the RDATA is the same. Return true is so, otherwise false. It's is a protocol violation to have identical RRs in a message.
func IsMsg ¶
IsMsg sanity checks buf and returns an error if it isn't a valid DNS packet. The checking is performed on the binary payload.
func IsRRset ¶
IsRRset checks if a set of RRs is a valid RRset as defined by RFC 2181. This means the RRs need to have the same type, name, and class. Returns true if the RR set is valid, otherwise false.
func IsSubDomain ¶
IsSubDomain checks if child is indeed a child of the parent. If child and parent are the same domain true is returned as well.
func ListenAndServe ¶
ListenAndServe Starts a server on address and network specified Invoke handler for incoming queries.
func ListenAndServeTLS ¶
ListenAndServeTLS acts like http.ListenAndServeTLS, more information in http://golang.org/pkg/net/http/#ListenAndServeTLS
func NextLabel ¶
NextLabel returns the index of the start of the next label in the string s starting at offset. The bool end is true when the end of the string has been reached. Also see PrevLabel.
func PackDomainName ¶
func PackDomainName(s string, msg []byte, off int, compression map[string]int, compress bool) (off1 int, err error)
PackDomainName packs a domain name s into msg[off:]. If compression is wanted compress must be true and the compression map needs to hold a mapping between domain names and offsets pointing into msg.
func PackRR ¶
func PackRR(rr RR, msg []byte, off int, compression map[string]int, compress bool) (off1 int, err error)
PackRR packs a resource record rr into msg[off:]. See PackDomainName for documentation about the compression.
func ParseZone
deprecated
ParseZone reads a RFC 1035 style zonefile from r. It returns *Tokens on the returned channel, each consisting of either a parsed RR and optional comment or a nil RR and an error. The channel is closed by ParseZone when the end of r is reached.
The string file is used in error reporting and to resolve relative $INCLUDE directives. The string origin is used as the initial origin, as if the file would start with an $ORIGIN directive.
The directives $INCLUDE, $ORIGIN, $TTL and $GENERATE are all supported.
Basic usage pattern when reading from a string (z) containing the zone data:
for x := range dns.ParseZone(strings.NewReader(z), "", "") { if x.Error != nil { // log.Println(x.Error) } else { // Do something with x.RR } }
Comments specified after an RR (and on the same line!) are returned too:
foo. IN A 10.0.0.1 ; this is a comment
The text "; this is comment" is returned in Token.Comment. Comments inside the RR are returned concatenated along with the RR. Comments on a line by themselves are discarded.
To prevent memory leaks it is important to always fully drain the returned channel. If an error occurs, it will always be the last Token sent on the channel.
Deprecated: New users should prefer the ZoneParser API.
func PrevLabel ¶
PrevLabel returns the index of the label when starting from the right and jumping n labels to the left. The bool start is true when the start of the string has been overshot. Also see NextLabel.
func PrivateHandle ¶
func PrivateHandle(rtypestr string, rtype uint16, generator func() PrivateRdata)
PrivateHandle registers a private resource record type. It requires string and numeric representation of private RR type and generator function as argument.
Example ¶
package main import ( "errors" "fmt" "log" "net" "github.com/miekg/dns" ) const TypeAPAIR = 0x0F99 type APAIR struct { addr [2]net.IP } func NewAPAIR() dns.PrivateRdata { return new(APAIR) } func (rd *APAIR) String() string { return rd.addr[0].String() + " " + rd.addr[1].String() } func (rd *APAIR) Parse(txt []string) error { if len(txt) != 2 { return errors.New("two addresses required for APAIR") } for i, s := range txt { ip := net.ParseIP(s) if ip == nil { return errors.New("invalid IP in APAIR text representation") } rd.addr[i] = ip } return nil } func (rd *APAIR) Pack(buf []byte) (int, error) { b := append([]byte(rd.addr[0]), []byte(rd.addr[1])...) n := copy(buf, b) if n != len(b) { return n, dns.ErrBuf } return n, nil } func (rd *APAIR) Unpack(buf []byte) (int, error) { ln := net.IPv4len * 2 if len(buf) != ln { return 0, errors.New("invalid length of APAIR rdata") } cp := make([]byte, ln) copy(cp, buf) rd.addr[0] = net.IP(cp[:3]) rd.addr[1] = net.IP(cp[4:]) return len(buf), nil } func (rd *APAIR) Copy(dest dns.PrivateRdata) error { cp := make([]byte, rd.Len()) _, err := rd.Pack(cp) if err != nil { return err } d := dest.(*APAIR) d.addr[0] = net.IP(cp[:3]) d.addr[1] = net.IP(cp[4:]) return nil } func (rd *APAIR) Len() int { return net.IPv4len * 2 } func main() { dns.PrivateHandle("APAIR", TypeAPAIR, NewAPAIR) defer dns.PrivateHandleRemove(TypeAPAIR) rr, err := dns.NewRR("miek.nl. APAIR (1.2.3.4 1.2.3.5)") if err != nil { log.Fatal("could not parse APAIR record: ", err) } fmt.Println(rr)
Output:
func PrivateHandleRemove ¶
func PrivateHandleRemove(rtype uint16)
PrivateHandleRemove removes definitions required to support private RR type.
func ReverseAddr ¶
ReverseAddr returns the in-addr.arpa. or ip6.arpa. hostname of the IP address suitable for reverse DNS (PTR) record lookups or an error if it fails to parse the IP address.
func SMIMEAName ¶
SMIMEAName returns the ownername of a SMIMEA resource record as per the format specified in RFC 'draft-ietf-dane-smime-12' Section 2 and 3
func Split ¶
Split splits a name s into its label indexes. www.miek.nl. returns []int{0, 4, 9}, www.miek.nl also returns []int{0, 4, 9}. The root name (.) returns nil. Also see SplitDomainName. s must be a syntactically valid domain name.
func SplitDomainName ¶
SplitDomainName splits a name string into it's labels. www.miek.nl. returns []string{"www", "miek", "nl"} .www.miek.nl. returns []string{"", "www", "miek", "nl"}, The root label (.) returns nil. Note that using strings.Split(s) will work in most cases, but does not handle escaped dots (\.) for instance. s must be a syntactically valid domain name, see IsDomainName.
func StringToTime ¶
StringToTime translates the RRSIG's incep. and expir. times from string values like "20110403154150" to an 32 bit integer. It takes serial arithmetic (RFC 1982) into account.
func TLSAName ¶
TLSAName returns the ownername of a TLSA resource record as per the rules specified in RFC 6698, Section 3.
func TimeToString ¶
TimeToString translates the RRSIG's incep. and expir. times to the string representation used when printing the record. It takes serial arithmetic (RFC 1982) into account.
func TsigGenerate ¶
TsigGenerate fills out the TSIG record attached to the message. The message should contain a "stub" TSIG RR with the algorithm, key name (owner name of the RR), time fudge (defaults to 300 seconds) and the current time The TSIG MAC is saved in that Tsig RR. When TsigGenerate is called for the first time requestMAC is set to the empty string and timersOnly is false. If something goes wrong an error is returned, otherwise it is nil.
func TsigVerify ¶
TsigVerify verifies the TSIG on a message. If the signature does not validate err contains the error, otherwise it is nil.
func UnpackDomainName ¶
UnpackDomainName unpacks a domain name into a string. It returns the name, the new offset into msg and any error that occurred.
When an error is encountered, the unpacked name will be discarded and len(msg) will be returned as the offset.
func WriteToSessionUDP ¶
WriteToSessionUDP acts just like net.UDPConn.WriteTo(), but uses a *SessionUDP instead of a net.Addr.
Types ¶
type ANY ¶
type ANY struct {
Hdr RR_Header
}
ANY is a wildcard record. See RFC 1035, Section 3.2.3. ANY is named "*" there.
type AVC ¶
AVC RR. See https://www.iana.org/assignments/dns-parameters/AVC/avc-completed-template.
type CERT ¶
type CERT struct { Hdr RR_Header Type uint16 KeyTag uint16 Algorithm uint8 Certificate string `dns:"base64"` }
CERT RR. See RFC 4398.
type Client ¶
type Client struct { Net string // if "tcp" or "tcp-tls" (DNS over TLS) a TCP query will be initiated, otherwise an UDP one (default is "" for UDP) UDPSize uint16 // minimum receive buffer for UDP messages TLSConfig *tls.Config // TLS connection configuration Dialer *net.Dialer // a net.Dialer used to set local address, timeouts and more // Timeout is a cumulative timeout for dial, write and read, defaults to 0 (disabled) - overrides DialTimeout, ReadTimeout, // WriteTimeout when non-zero. Can be overridden with net.Dialer.Timeout (see Client.ExchangeWithDialer and // Client.Dialer) or context.Context.Deadline (see the deprecated ExchangeContext) Timeout time.Duration DialTimeout time.Duration // net.DialTimeout, defaults to 2 seconds, or net.Dialer.Timeout if expiring earlier - overridden by Timeout when that value is non-zero ReadTimeout time.Duration // net.Conn.SetReadTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero WriteTimeout time.Duration // net.Conn.SetWriteTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero TsigSecret map[string]string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2) SingleInflight bool // if true suppress multiple outstanding queries for the same Qname, Qtype and Qclass // contains filtered or unexported fields }
A Client defines parameters for a DNS client.
func (*Client) Exchange ¶
Exchange performs a synchronous query. It sends the message m to the address contained in a and waits for a reply. Basic use pattern with a *dns.Client:
c := new(dns.Client) in, rtt, err := c.Exchange(message, "127.0.0.1:53")
Exchange does not retry a failed query, nor will it fall back to TCP in case of truncation. It is up to the caller to create a message that allows for larger responses to be returned. Specifically this means adding an EDNS0 OPT RR that will advertise a larger buffer, see SetEdns0. Messages without an OPT RR will fallback to the historic limit of 512 bytes To specify a local address or a timeout, the caller has to set the `Client.Dialer` attribute appropriately
func (*Client) ExchangeContext ¶
func (c *Client) ExchangeContext(ctx context.Context, m *Msg, a string) (r *Msg, rtt time.Duration, err error)
ExchangeContext acts like Exchange, but honors the deadline on the provided context, if present. If there is both a context deadline and a configured timeout on the client, the earliest of the two takes effect.
type ClientConfig ¶
type ClientConfig struct { Servers []string // servers to use Search []string // suffixes to append to local name Port string // what port to use Ndots int // number of dots in name to trigger absolute lookup Timeout int // seconds before giving up on packet Attempts int // lost packets before giving up on server, not used in the package dns }
ClientConfig wraps the contents of the /etc/resolv.conf file.
func ClientConfigFromFile ¶
func ClientConfigFromFile(resolvconf string) (*ClientConfig, error)
ClientConfigFromFile parses a resolv.conf(5) like file and returns a *ClientConfig.
func ClientConfigFromReader ¶
func ClientConfigFromReader(resolvconf io.Reader) (*ClientConfig, error)
ClientConfigFromReader works like ClientConfigFromFile but takes an io.Reader as argument
func (*ClientConfig) NameList ¶
func (c *ClientConfig) NameList(name string) []string
NameList returns all of the names that should be queried based on the config. It is based off of go's net/dns name building, but it does not check the length of the resulting names.
type Conn ¶
type Conn struct { net.Conn // a net.Conn holding the connection UDPSize uint16 // minimum receive buffer for UDP messages TsigSecret map[string]string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2) // contains filtered or unexported fields }
A Conn represents a connection to a DNS server.
func DialTimeout ¶
DialTimeout acts like Dial but takes a timeout.
func DialTimeoutWithTLS ¶
func DialTimeoutWithTLS(network, address string, tlsConfig *tls.Config, timeout time.Duration) (conn *Conn, err error)
DialTimeoutWithTLS acts like DialWithTLS but takes a timeout.
func DialWithTLS ¶
DialWithTLS connects to the address on the named network with TLS.
func (*Conn) ReadMsg ¶
ReadMsg reads a message from the connection co. If the received message contains a TSIG record the transaction signature is verified. This method always tries to return the message, however if an error is returned there are no guarantees that the returned message is a valid representation of the packet read.
func (*Conn) ReadMsgHeader ¶
ReadMsgHeader reads a DNS message, parses and populates hdr (when hdr is not nil). Returns message as a byte slice to be parsed with Msg.Unpack later on. Note that error handling on the message body is not possible as only the header is parsed.
type ConnectionStater ¶ added in v1.0.10
type ConnectionStater interface {
ConnectionState() *tls.ConnectionState
}
A ConnectionStater interface is used by a DNS Handler to access TLS connection state when available.
type DNSKEY ¶
type DNSKEY struct { Hdr RR_Header Flags uint16 Protocol uint8 Algorithm uint8 PublicKey string `dns:"base64"` }
DNSKEY RR. See RFC 4034 and RFC 3755.
func (*DNSKEY) Generate ¶
func (k *DNSKEY) Generate(bits int) (crypto.PrivateKey, error)
Generate generates a DNSKEY of the given bit size. The public part is put inside the DNSKEY record. The Algorithm in the key must be set as this will define what kind of DNSKEY will be generated. The ECDSA algorithms imply a fixed keysize, in that case bits should be set to the size of the algorithm.
func (*DNSKEY) NewPrivateKey ¶
func (k *DNSKEY) NewPrivateKey(s string) (crypto.PrivateKey, error)
NewPrivateKey returns a PrivateKey by parsing the string s. s should be in the same form of the BIND private key files.
func (*DNSKEY) PrivateKeyString ¶
func (r *DNSKEY) PrivateKeyString(p crypto.PrivateKey) string
PrivateKeyString converts a PrivateKey to a string. This string has the same format as the private-key-file of BIND9 (Private-key-format: v1.3). It needs some info from the key (the algorithm), so its a method of the DNSKEY It supports rsa.PrivateKey, ecdsa.PrivateKey and dsa.PrivateKey
func (*DNSKEY) ReadPrivateKey ¶
ReadPrivateKey reads a private key from the io.Reader q. The string file is only used in error reporting. The public key must be known, because some cryptographic algorithms embed the public inside the privatekey.
type DS ¶
type DS struct { Hdr RR_Header KeyTag uint16 Algorithm uint8 DigestType uint8 Digest string `dns:"hex"` }
DS RR. See RFC 4034 and RFC 3658.
Example ¶
Retrieve the DNSKEY records of a zone and convert them to DS records for SHA1, SHA256 and SHA384.
package main import ( "fmt" "github.com/miekg/dns" ) func main() { config, _ := dns.ClientConfigFromFile("/etc/resolv.conf") c := new(dns.Client) m := new(dns.Msg) zone := "miek.nl" m.SetQuestion(dns.Fqdn(zone), dns.TypeDNSKEY) m.SetEdns0(4096, true) r, _, err := c.Exchange(m, config.Servers[0]+":"+config.Port) if err != nil { return } if r.Rcode != dns.RcodeSuccess { return } for _, k := range r.Answer { if key, ok := k.(*dns.DNSKEY); ok { for _, alg := range []uint8{dns.SHA1, dns.SHA256, dns.SHA384} { fmt.Printf("%s; %d\n", key.ToDS(alg).String(), key.Flags) } } } }
Output:
type DecorateReader ¶
DecorateReader is a decorator hook for extending or supplanting the functionality of a Reader. Implementations should never return a nil Reader.
type DecorateWriter ¶
DecorateWriter is a decorator hook for extending or supplanting the functionality of a Writer. Implementations should never return a nil Writer.
Example ¶
// instrument raw DNS message writing wf := DecorateWriter(func(w Writer) Writer { return &ExampleFrameLengthWriter{w} }) // simple UDP server pc, err := net.ListenPacket("udp", ":0") if err != nil { fmt.Println(err.Error()) return } server := &Server{ PacketConn: pc, DecorateWriter: wf, ReadTimeout: time.Hour, WriteTimeout: time.Hour, } waitLock := sync.Mutex{} waitLock.Lock() server.NotifyStartedFunc = waitLock.Unlock defer server.Shutdown() go func() { server.ActivateAndServe() pc.Close() }() waitLock.Lock() HandleFunc("miek.nl.", HelloServer) c := new(Client) m := new(Msg) m.SetQuestion("miek.nl.", TypeTXT) _, _, err = c.Exchange(m, pc.LocalAddr().String()) if err != nil { fmt.Println("failed to exchange", err.Error()) return }
Output: writing raw DNS message of length 56
type EDNS0 ¶
type EDNS0 interface { // Option returns the option code for the option. Option() uint16 // String returns the string representation of the option. String() string // contains filtered or unexported methods }
EDNS0 defines an EDNS0 Option. An OPT RR can have multiple options appended to it.
type EDNS0_COOKIE ¶
type EDNS0_COOKIE struct { Code uint16 // Always EDNS0COOKIE Cookie string // Hex-encoded cookie data }
The EDNS0_COOKIE option is used to add a DNS Cookie to a message.
o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT e := new(dns.EDNS0_COOKIE) e.Code = dns.EDNS0COOKIE e.Cookie = "24a5ac.." o.Option = append(o.Option, e)
The Cookie field consists out of a client cookie (RFC 7873 Section 4), that is always 8 bytes. It may then optionally be followed by the server cookie. The server cookie is of variable length, 8 to a maximum of 32 bytes. In other words:
cCookie := o.Cookie[:16] sCookie := o.Cookie[16:]
There is no guarantee that the Cookie string has a specific length.
func (*EDNS0_COOKIE) Option ¶
func (e *EDNS0_COOKIE) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_COOKIE) String ¶
func (e *EDNS0_COOKIE) String() string
type EDNS0_DAU ¶
EDNS0_DUA implements the EDNS0 "DNSSEC Algorithm Understood" option. See RFC 6975.
type EDNS0_DHU ¶
EDNS0_DHU implements the EDNS0 "DS Hash Understood" option. See RFC 6975.
type EDNS0_EXPIRE ¶
EDNS0_EXPIRE implementes the EDNS0 option as described in RFC 7314.
func (*EDNS0_EXPIRE) Option ¶
func (e *EDNS0_EXPIRE) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_EXPIRE) String ¶
func (e *EDNS0_EXPIRE) String() string
type EDNS0_LLQ ¶
type EDNS0_LLQ struct { Code uint16 // Always EDNS0LLQ Version uint16 Opcode uint16 Error uint16 Id uint64 LeaseLife uint32 }
EDNS0_LLQ stands for Long Lived Queries: http://tools.ietf.org/html/draft-sekar-dns-llq-01 Implemented for completeness, as the EDNS0 type code is assigned.
type EDNS0_LOCAL ¶
The EDNS0_LOCAL option is used for local/experimental purposes. The option code is recommended to be within the range [EDNS0LOCALSTART, EDNS0LOCALEND] (RFC6891), although any unassigned code can actually be used. The content of the option is made available in Data, unaltered. Basic use pattern for creating a local option:
o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT e := new(dns.EDNS0_LOCAL) e.Code = dns.EDNS0LOCALSTART e.Data = []byte{72, 82, 74} o.Option = append(o.Option, e)
func (*EDNS0_LOCAL) Option ¶
func (e *EDNS0_LOCAL) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_LOCAL) String ¶
func (e *EDNS0_LOCAL) String() string
type EDNS0_N3U ¶
EDNS0_N3U implements the EDNS0 "NSEC3 Hash Understood" option. See RFC 6975.
type EDNS0_NSID ¶
type EDNS0_NSID struct { Code uint16 // Always EDNS0NSID Nsid string // This string needs to be hex encoded }
EDNS0_NSID option is used to retrieve a nameserver identifier. When sending a request Nsid must be set to the empty string The identifier is an opaque string encoded as hex. Basic use pattern for creating an nsid option:
o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT e := new(dns.EDNS0_NSID) e.Code = dns.EDNS0NSID e.Nsid = "AA" o.Option = append(o.Option, e)
func (*EDNS0_NSID) Option ¶
func (e *EDNS0_NSID) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_NSID) String ¶
func (e *EDNS0_NSID) String() string
type EDNS0_PADDING ¶
type EDNS0_PADDING struct {
Padding []byte
}
EDNS0_PADDING option is used to add padding to a request/response. The default value of padding SHOULD be 0x0 but other values MAY be used, for instance if compression is applied before encryption which may break signatures.
func (*EDNS0_PADDING) Option ¶
func (e *EDNS0_PADDING) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_PADDING) String ¶
func (e *EDNS0_PADDING) String() string
type EDNS0_SUBNET ¶
type EDNS0_SUBNET struct { Code uint16 // Always EDNS0SUBNET Family uint16 // 1 for IP, 2 for IP6 SourceNetmask uint8 SourceScope uint8 Address net.IP }
EDNS0_SUBNET is the subnet option that is used to give the remote nameserver an idea of where the client lives. See RFC 7871. It can then give back a different answer depending on the location or network topology. Basic use pattern for creating an subnet option:
o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT e := new(dns.EDNS0_SUBNET) e.Code = dns.EDNS0SUBNET e.Family = 1 // 1 for IPv4 source address, 2 for IPv6 e.SourceNetmask = 32 // 32 for IPV4, 128 for IPv6 e.SourceScope = 0 e.Address = net.ParseIP("127.0.0.1").To4() // for IPv4 // e.Address = net.ParseIP("2001:7b8:32a::2") // for IPV6 o.Option = append(o.Option, e)
This code will parse all the available bits when unpacking (up to optlen). When packing it will apply SourceNetmask. If you need more advanced logic, patches welcome and good luck.
func (*EDNS0_SUBNET) Option ¶
func (e *EDNS0_SUBNET) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_SUBNET) String ¶
func (e *EDNS0_SUBNET) String() (s string)
type EDNS0_TCP_KEEPALIVE ¶
type EDNS0_TCP_KEEPALIVE struct { Code uint16 // Always EDNSTCPKEEPALIVE Length uint16 // the value 0 if the TIMEOUT is omitted, the value 2 if it is present; Timeout uint16 // an idle timeout value for the TCP connection, specified in units of 100 milliseconds, encoded in network byte order. }
EDNS0_TCP_KEEPALIVE is an EDNS0 option that instructs the server to keep the TCP connection alive. See RFC 7828.
func (*EDNS0_TCP_KEEPALIVE) Option ¶
func (e *EDNS0_TCP_KEEPALIVE) Option() uint16
Option implements the EDNS0 interface.
func (*EDNS0_TCP_KEEPALIVE) String ¶
func (e *EDNS0_TCP_KEEPALIVE) String() (s string)
type EDNS0_UL ¶
The EDNS0_UL (Update Lease) (draft RFC) option is used to tell the server to set an expiration on an update RR. This is helpful for clients that cannot clean up after themselves. This is a draft RFC and more information can be found at http://files.dns-sd.org/draft-sekar-dns-ul.txt
o := new(dns.OPT) o.Hdr.Name = "." o.Hdr.Rrtype = dns.TypeOPT e := new(dns.EDNS0_UL) e.Code = dns.EDNS0UL e.Lease = 120 // in seconds o.Option = append(o.Option, e)
type EID ¶
EID RR. See http://ana-3.lcs.mit.edu/~jnc/nimrod/dns.txt.
type Envelope ¶
type Envelope struct { RR []RR // The set of RRs in the answer section of the xfr reply message. Error error // If something went wrong, this contains the error. }
Envelope is used when doing a zone transfer with a remote server.
type Error ¶
type Error struct {
// contains filtered or unexported fields
}
Error represents a DNS error.
type HIP ¶
type HIP struct { Hdr RR_Header HitLength uint8 PublicKeyAlgorithm uint8 PublicKeyLength uint16 Hit string `dns:"size-hex:HitLength"` PublicKey string `dns:"size-base64:PublicKeyLength"` RendezvousServers []string `dns:"domain-name"` }
HIP RR. See RFC 8005.
type Handler ¶
type Handler interface {
ServeDNS(w ResponseWriter, r *Msg)
}
Handler is implemented by any value that implements ServeDNS.
type HandlerFunc ¶
type HandlerFunc func(ResponseWriter, *Msg)
The HandlerFunc type is an adapter to allow the use of ordinary functions as DNS handlers. If f is a function with the appropriate signature, HandlerFunc(f) is a Handler object that calls f.
func (HandlerFunc) ServeDNS ¶
func (f HandlerFunc) ServeDNS(w ResponseWriter, r *Msg)
ServeDNS calls f(w, r).
type LOC ¶
type LOC struct { Hdr RR_Header Version uint8 Size uint8 HorizPre uint8 VertPre uint8 Latitude uint32 Longitude uint32 Altitude uint32 }
LOC RR. See RFC RFC 1876.
type MINFO ¶
type MINFO struct { Hdr RR_Header Rmail string `dns:"cdomain-name"` Email string `dns:"cdomain-name"` }
MINFO RR. See RFC 1035.
type MX ¶
MX RR. See RFC 1035.
Example ¶
Retrieve the MX records for miek.nl.
package main import ( "fmt" "github.com/miekg/dns" ) func main() { config, _ := dns.ClientConfigFromFile("/etc/resolv.conf") c := new(dns.Client) m := new(dns.Msg) m.SetQuestion("miek.nl.", dns.TypeMX) m.RecursionDesired = true r, _, err := c.Exchange(m, config.Servers[0]+":"+config.Port) if err != nil { return } if r.Rcode != dns.RcodeSuccess { return } for _, a := range r.Answer { if mx, ok := a.(*dns.MX); ok { fmt.Printf("%s\n", mx.String()) } } }
Output:
type Msg ¶
type Msg struct { MsgHdr Compress bool `json:"-"` // If true, the message will be compressed when converted to wire format. Question []Question // Holds the RR(s) of the question section. Answer []RR // Holds the RR(s) of the answer section. Ns []RR // Holds the RR(s) of the authority section. Extra []RR // Holds the RR(s) of the additional section. }
Msg contains the layout of a DNS message.
func Exchange ¶
Exchange performs a synchronous UDP query. It sends the message m to the address contained in a and waits for a reply. Exchange does not retry a failed query, nor will it fall back to TCP in case of truncation. See client.Exchange for more information on setting larger buffer sizes.
func ExchangeConn ¶
ExchangeConn performs a synchronous query. It sends the message m via the connection c and waits for a reply. The connection c is not closed by ExchangeConn. Deprecated: This function is going away, but can easily be mimicked:
co := &dns.Conn{Conn: c} // c is your net.Conn co.WriteMsg(m) in, _ := co.ReadMsg() co.Close()
func ExchangeContext ¶
ExchangeContext performs a synchronous UDP query, like Exchange. It additionally obeys deadlines from the passed Context.
func (*Msg) CopyTo ¶
CopyTo copies the contents to the provided message using a deep-copy and returns the copy.
func (*Msg) Insert ¶
Insert creates a dynamic update packet that adds an complete RRset, see RFC 2136 section 2.5.1.
func (*Msg) IsEdns0 ¶
IsEdns0 checks if the message has a EDNS0 (OPT) record, any EDNS0 record in the additional section will do. It returns the OPT record found or nil.
func (*Msg) IsTsig ¶
IsTsig checks if the message has a TSIG record as the last record in the additional section. It returns the TSIG record found or nil.
func (*Msg) Len ¶
Len returns the message length when in (un)compressed wire format. If dns.Compress is true compression it is taken into account. Len() is provided to be a faster way to get the size of the resulting packet, than packing it, measuring the size and discarding the buffer.
func (*Msg) NameNotUsed ¶
NameNotUsed sets the RRs in the prereq section to "Name is in not use" RRs. RFC 2136 section 2.4.5.
func (*Msg) NameUsed ¶
NameUsed sets the RRs in the prereq section to "Name is in use" RRs. RFC 2136 section 2.4.4.
func (*Msg) Pack ¶
Pack packs a Msg: it is converted to to wire format. If the dns.Compress is true the message will be in compressed wire format.
func (*Msg) PackBuffer ¶
PackBuffer packs a Msg, using the given buffer buf. If buf is too small a new buffer is allocated.
func (*Msg) RRsetNotUsed ¶
RRsetNotUsed sets the RRs in the prereq section to "RRset does not exist" RRs. RFC 2136 section 2.4.3.
func (*Msg) RRsetUsed ¶
RRsetUsed sets the RRs in the prereq section to "RRset exists (value independent -- no rdata)" RRs. RFC 2136 section 2.4.1.
func (*Msg) Remove ¶
Remove creates a dynamic update packet deletes RR from a RRSset, see RFC 2136 section 2.5.4
func (*Msg) RemoveName ¶
RemoveName creates a dynamic update packet that deletes all RRsets of a name, see RFC 2136 section 2.5.3
func (*Msg) RemoveRRset ¶
RemoveRRset creates a dynamic update packet that deletes an RRset, see RFC 2136 section 2.5.2.
func (*Msg) SetEdns0 ¶
SetEdns0 appends a EDNS0 OPT RR to the message. TSIG should always the last RR in a message.
func (*Msg) SetNotify ¶
SetNotify creates a notify message, it sets the Question section, generates an Id and sets the Authoritative (AA) bit to true.
func (*Msg) SetQuestion ¶
SetQuestion creates a question message, it sets the Question section, generates an Id and sets the RecursionDesired (RD) bit to true.
func (*Msg) SetRcodeFormatError ¶
SetRcodeFormatError creates a message with FormError set.
func (*Msg) SetTsig ¶
SetTsig appends a TSIG RR to the message. This is only a skeleton TSIG RR that is added as the last RR in the additional section. The Tsig is calculated when the message is being send.
func (*Msg) SetUpdate ¶
SetUpdate makes the message a dynamic update message. It sets the ZONE section to: z, TypeSOA, ClassINET.
func (*Msg) Truncate ¶ added in v1.1.8
Truncate ensures the reply message will fit into the requested buffer size by removing records that exceed the requested size.
It will first check if the reply fits without compression and then with compression. If it won't fit with compression, Truncate then walks the record adding as many records as possible without exceeding the requested buffer size.
The TC bit will be set if any records were excluded from the message. This indicates to that the client should retry over TCP.
According to RFC 2181, the TC bit should only be set if not all of the "required" RRs can be included in the response. Unfortunately, we have no way of knowing which RRs are required so we set the TC bit if any RR had to be omitted from the response.
The appropriate buffer size can be retrieved from the requests OPT record, if present, and is transport specific otherwise. dns.MinMsgSize should be used for UDP requests without an OPT record, and dns.MaxMsgSize for TCP requests without an OPT record.
func (*Msg) Used ¶
Used sets the RRs in the prereq section to "RRset exists (value dependent -- with rdata)" RRs. RFC 2136 section 2.4.2.
type MsgAcceptAction ¶ added in v1.1.0
type MsgAcceptAction int
MsgAcceptAction represents the action to be taken.
const ( MsgAccept MsgAcceptAction = iota // Accept the message MsgReject // Reject the message with a RcodeFormatError MsgIgnore // Ignore the error and send nothing back. MsgRejectNotImplemented // Reject the message with a RcodeNotImplemented )
type MsgAcceptFunc ¶ added in v1.1.0
type MsgAcceptFunc func(dh Header) MsgAcceptAction
MsgAcceptFunc is used early in the server code to accept or reject a message with RcodeFormatError. It returns a MsgAcceptAction to indicate what should happen with the message.
var DefaultMsgAcceptFunc MsgAcceptFunc = defaultMsgAcceptFunc
DefaultMsgAcceptFunc checks the request and will reject if:
* isn't a request (don't respond in that case). * opcode isn't OpcodeQuery or OpcodeNotify * Zero bit isn't zero * has more than 1 question in the question section * has more than 1 RR in the Answer section * has more than 0 RRs in the Authority section * has more than 2 RRs in the Additional section
type MsgHdr ¶
type MsgHdr struct { Id uint16 Response bool Opcode int Authoritative bool Truncated bool RecursionDesired bool RecursionAvailable bool Zero bool AuthenticatedData bool CheckingDisabled bool Rcode int }
MsgHdr is a a manually-unpacked version of (id, bits).
type NAPTR ¶
type NAPTR struct { Hdr RR_Header Order uint16 Preference uint16 Flags string Service string Regexp string Replacement string `dns:"domain-name"` }
NAPTR RR. See RFC 2915.
type NIMLOC ¶
NIMLOC RR. See http://ana-3.lcs.mit.edu/~jnc/nimrod/dns.txt.
type NINFO ¶
NINFO RR. See https://www.iana.org/assignments/dns-parameters/NINFO/ninfo-completed-template.
type NSEC ¶
type NSEC3 ¶
type NSEC3 struct { Hdr RR_Header Hash uint8 Flags uint8 Iterations uint16 SaltLength uint8 Salt string `dns:"size-hex:SaltLength"` HashLength uint8 NextDomain string `dns:"size-base32:HashLength"` TypeBitMap []uint16 `dns:"nsec"` }
NSEC3 RR. See RFC 5155.
type NSEC3PARAM ¶
type NSEC3PARAM struct { Hdr RR_Header Hash uint8 Flags uint8 Iterations uint16 SaltLength uint8 Salt string `dns:"size-hex:SaltLength"` }
NSEC3PARAM RR. See RFC 5155.
func (*NSEC3PARAM) Header ¶
func (rr *NSEC3PARAM) Header() *RR_Header
func (*NSEC3PARAM) String ¶
func (rr *NSEC3PARAM) String() string
type OPENPGPKEY ¶
OPENPGPKEY RR. See RFC 7929.
func (*OPENPGPKEY) Header ¶
func (rr *OPENPGPKEY) Header() *RR_Header
func (*OPENPGPKEY) String ¶
func (rr *OPENPGPKEY) String() string
type OPT ¶
OPT is the EDNS0 RR appended to messages to convey extra (meta) information. See RFC 6891.
func (*OPT) ExtendedRcode ¶
ExtendedRcode returns the EDNS extended RCODE field (the upper 8 bits of the TTL).
func (*OPT) SetDo ¶
SetDo sets the DO (DNSSEC OK) bit. If we pass an argument, set the DO bit to that value. It is possible to pass 2 or more arguments. Any arguments after the 1st is silently ignored.
func (*OPT) SetExtendedRcode ¶
SetExtendedRcode sets the EDNS extended RCODE field.
If the RCODE is not an extended RCODE, will reset the extended RCODE field to 0.
func (*OPT) SetUDPSize ¶
SetUDPSize sets the UDP buffer size.
func (*OPT) SetVersion ¶
SetVersion sets the version of EDNS. This is usually zero.
type PX ¶
type PX struct { Hdr RR_Header Preference uint16 Map822 string `dns:"domain-name"` Mapx400 string `dns:"domain-name"` }
PX RR. See RFC 2163.
type ParseError ¶
type ParseError struct {
// contains filtered or unexported fields
}
ParseError is a parsing error. It contains the parse error and the location in the io.Reader where the error occurred.
func (*ParseError) Error ¶
func (e *ParseError) Error() (s string)
type PrivateRR ¶
type PrivateRR struct { Hdr RR_Header Data PrivateRdata // contains filtered or unexported fields }
PrivateRR represents an RR that uses a PrivateRdata user-defined type. It mocks normal RRs and implements dns.RR interface.
type PrivateRdata ¶
type PrivateRdata interface { // String returns the text presentaton of the Rdata of the Private RR. String() string // Parse parses the Rdata of the private RR. Parse([]string) error // Pack is used when packing a private RR into a buffer. Pack([]byte) (int, error) // Unpack is used when unpacking a private RR from a buffer. // TODO(miek): diff. signature than Pack, see edns0.go for instance. Unpack([]byte) (int, error) // Copy copies the Rdata into the PrivateRdata argument. Copy(PrivateRdata) error // Len returns the length in octets of the Rdata. Len() int }
PrivateRdata is an interface used for implementing "Private Use" RR types, see RFC 6895. This allows one to experiment with new RR types, without requesting an official type code. Also see dns.PrivateHandle and dns.PrivateHandleRemove.
type Question ¶
type Question struct { Name string `dns:"cdomain-name"` // "cdomain-name" specifies encoding (and may be compressed) Qtype uint16 Qclass uint16 }
Question holds a DNS question. There can be multiple questions in the question section of a message. Usually there is just one.
type RKEY ¶
type RKEY struct { Hdr RR_Header Flags uint16 Protocol uint8 Algorithm uint8 PublicKey string `dns:"base64"` }
RKEY RR. See https://www.iana.org/assignments/dns-parameters/RKEY/rkey-completed-template.
type RP ¶
RP RR. See RFC 1138, Section 2.2.
type RR ¶
type RR interface { // Header returns the header of an resource record. The header contains // everything up to the rdata. Header() *RR_Header // String returns the text representation of the resource record. String() string // contains filtered or unexported methods }
An RR represents a resource record.
func Dedup ¶
Dedup removes identical RRs from rrs. It preserves the original ordering. The lowest TTL of any duplicates is used in the remaining one. Dedup modifies rrs. m is used to store the RRs temporary. If it is nil a new map will be allocated.
func NewRR ¶
NewRR reads the RR contained in the string s. Only the first RR is returned. If s contains no records, NewRR will return nil with no error.
The class defaults to IN and TTL defaults to 3600. The full zone file syntax like $TTL, $ORIGIN, etc. is supported.
All fields of the returned RR are set, except RR.Header().Rdlength which is set to 0.
func ReadRR ¶
ReadRR reads the RR contained in r.
The string file is used in error reporting and to resolve relative $INCLUDE directives.
See NewRR for more documentation.
type RRSIG ¶
type RRSIG struct { Hdr RR_Header TypeCovered uint16 Algorithm uint8 Labels uint8 OrigTtl uint32 Expiration uint32 Inception uint32 KeyTag uint16 SignerName string `dns:"domain-name"` Signature string `dns:"base64"` }
RRSIG RR. See RFC 4034 and RFC 3755.
func (*RRSIG) Sign ¶
Sign signs an RRSet. The signature needs to be filled in with the values: Inception, Expiration, KeyTag, SignerName and Algorithm. The rest is copied from the RRset. Sign returns a non-nill error when the signing went OK. There is no check if RRSet is a proper (RFC 2181) RRSet. If OrigTTL is non zero, it is used as-is, otherwise the TTL of the RRset is used as the OrigTTL.
func (*RRSIG) ValidityPeriod ¶
ValidityPeriod uses RFC1982 serial arithmetic to calculate if a signature period is valid. If t is the zero time, the current time is taken other t is. Returns true if the signature is valid at the given time, otherwise returns false.
type RR_Header ¶
type RR_Header struct { Name string `dns:"cdomain-name"` Rrtype uint16 Class uint16 Ttl uint32 Rdlength uint16 // Length of data after header. }
RR_Header is the header all DNS resource records share.
type RT ¶
type RT struct { Hdr RR_Header Preference uint16 Host string `dns:"domain-name"` // RFC 3597 prohibits compressing records not defined in RFC 1035. }
RT RR. See RFC 1183, Section 3.3.
type Reader ¶
type Reader interface { // ReadTCP reads a raw message from a TCP connection. Implementations may alter // connection properties, for example the read-deadline. ReadTCP(conn net.Conn, timeout time.Duration) ([]byte, error) // ReadUDP reads a raw message from a UDP connection. Implementations may alter // connection properties, for example the read-deadline. ReadUDP(conn *net.UDPConn, timeout time.Duration) ([]byte, *SessionUDP, error) }
Reader reads raw DNS messages; each call to ReadTCP or ReadUDP should return an entire message.
type ResponseWriter ¶
type ResponseWriter interface { // LocalAddr returns the net.Addr of the server LocalAddr() net.Addr // RemoteAddr returns the net.Addr of the client that sent the current request. RemoteAddr() net.Addr // WriteMsg writes a reply back to the client. WriteMsg(*Msg) error // Write writes a raw buffer back to the client. Write([]byte) (int, error) // Close closes the connection. Close() error // TsigStatus returns the status of the Tsig. TsigStatus() error // TsigTimersOnly sets the tsig timers only boolean. TsigTimersOnly(bool) // Hijack lets the caller take over the connection. // After a call to Hijack(), the DNS package will not do anything with the connection. Hijack() }
A ResponseWriter interface is used by an DNS handler to construct an DNS response.
type SIG ¶
type SIG struct {
RRSIG
}
SIG RR. See RFC 2535. The SIG RR is identical to RRSIG and nowadays only used for SIG(0), See RFC 2931.
type SMIMEA ¶
type SMIMEA struct { Hdr RR_Header Usage uint8 Selector uint8 MatchingType uint8 Certificate string `dns:"hex"` }
SMIMEA RR. See RFC 8162.
type SOA ¶
type SOA struct { Hdr RR_Header Ns string `dns:"cdomain-name"` Mbox string `dns:"cdomain-name"` Serial uint32 Refresh uint32 Retry uint32 Expire uint32 Minttl uint32 }
SOA RR. See RFC 1035.
type SPF ¶
SPF RR. See RFC 4408, Section 3.1.1.
type SRV ¶
type SRV struct { Hdr RR_Header Priority uint16 Weight uint16 Port uint16 Target string `dns:"domain-name"` }
SRV RR. See RFC 2782.
type ServeMux ¶
type ServeMux struct {
// contains filtered or unexported fields
}
ServeMux is an DNS request multiplexer. It matches the zone name of each incoming request against a list of registered patterns add calls the handler for the pattern that most closely matches the zone name.
ServeMux is DNSSEC aware, meaning that queries for the DS record are redirected to the parent zone (if that is also registered), otherwise the child gets the query.
ServeMux is also safe for concurrent access from multiple goroutines.
The zero ServeMux is empty and ready for use.
func (*ServeMux) HandleFunc ¶
func (mux *ServeMux) HandleFunc(pattern string, handler func(ResponseWriter, *Msg))
HandleFunc adds a handler function to the ServeMux for pattern.
func (*ServeMux) HandleRemove ¶
HandleRemove deregisters the handler specific for pattern from the ServeMux.
func (*ServeMux) ServeDNS ¶
func (mux *ServeMux) ServeDNS(w ResponseWriter, req *Msg)
ServeDNS dispatches the request to the handler whose pattern most closely matches the request message.
ServeDNS is DNSSEC aware, meaning that queries for the DS record are redirected to the parent zone (if that is also registered), otherwise the child gets the query.
If no handler is found, or there is no question, a standard SERVFAIL message is returned
type Server ¶
type Server struct { // Address to listen on, ":dns" if empty. Addr string // if "tcp" or "tcp-tls" (DNS over TLS) it will invoke a TCP listener, otherwise an UDP one Net string // TCP Listener to use, this is to aid in systemd's socket activation. Listener net.Listener // TLS connection configuration TLSConfig *tls.Config // UDP "Listener" to use, this is to aid in systemd's socket activation. PacketConn net.PacketConn // Handler to invoke, dns.DefaultServeMux if nil. Handler Handler // Default buffer size to use to read incoming UDP messages. If not set // it defaults to MinMsgSize (512 B). UDPSize int // The net.Conn.SetReadTimeout value for new connections, defaults to 2 * time.Second. ReadTimeout time.Duration // The net.Conn.SetWriteTimeout value for new connections, defaults to 2 * time.Second. WriteTimeout time.Duration // TCP idle timeout for multiple queries, if nil, defaults to 8 * time.Second (RFC 5966). IdleTimeout func() time.Duration // Secret(s) for Tsig map[<zonename>]<base64 secret>. The zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2). TsigSecret map[string]string // If NotifyStartedFunc is set it is called once the server has started listening. NotifyStartedFunc func() // DecorateReader is optional, allows customization of the process that reads raw DNS messages. DecorateReader DecorateReader // DecorateWriter is optional, allows customization of the process that writes raw DNS messages. DecorateWriter DecorateWriter // Maximum number of TCP queries before we close the socket. Default is maxTCPQueries (unlimited if -1). MaxTCPQueries int // Whether to set the SO_REUSEPORT socket option, allowing multiple listeners to be bound to a single address. // It is only supported on go1.11+ and when using ListenAndServe. ReusePort bool // AcceptMsgFunc will check the incoming message and will reject it early in the process. // By default DefaultMsgAcceptFunc will be used. MsgAcceptFunc MsgAcceptFunc // contains filtered or unexported fields }
A Server defines parameters for running an DNS server.
func (*Server) ActivateAndServe ¶
ActivateAndServe starts a nameserver with the PacketConn or Listener configured in *Server. Its main use is to start a server from systemd.
func (*Server) ListenAndServe ¶
ListenAndServe starts a nameserver on the configured address in *Server.
func (*Server) Shutdown ¶
Shutdown shuts down a server. After a call to Shutdown, ListenAndServe and ActivateAndServe will return.
func (*Server) ShutdownContext ¶ added in v1.0.9
ShutdownContext shuts down a server. After a call to ShutdownContext, ListenAndServe and ActivateAndServe will return.
A context.Context may be passed to limit how long to wait for connections to terminate.
type SessionUDP ¶
type SessionUDP struct {
// contains filtered or unexported fields
}
SessionUDP holds the remote address and the associated out-of-band data.
func ReadFromSessionUDP ¶
ReadFromSessionUDP acts just like net.UDPConn.ReadFrom(), but returns a session object instead of a net.UDPAddr.
func (*SessionUDP) RemoteAddr ¶
func (s *SessionUDP) RemoteAddr() net.Addr
RemoteAddr returns the remote network address.
type TA ¶
type TA struct { Hdr RR_Header KeyTag uint16 Algorithm uint8 DigestType uint8 Digest string `dns:"hex"` }
TA RR. See http://www.watson.org/~weiler/INI1999-19.pdf.
type TALINK ¶
type TALINK struct { Hdr RR_Header PreviousName string `dns:"domain-name"` NextName string `dns:"domain-name"` }
TALINK RR. See https://www.iana.org/assignments/dns-parameters/TALINK/talink-completed-template.
type TKEY ¶
type TKEY struct { Hdr RR_Header Algorithm string `dns:"domain-name"` Inception uint32 Expiration uint32 Mode uint16 Error uint16 KeySize uint16 Key string `dns:"size-hex:KeySize"` OtherLen uint16 OtherData string `dns:"size-hex:OtherLen"` }
TKEY RR. See RFC 2930.
type TLSA ¶
type TLSA struct { Hdr RR_Header Usage uint8 Selector uint8 MatchingType uint8 Certificate string `dns:"hex"` }
TLSA RR. See RFC 6698.
type TSIG ¶
type TSIG struct { Hdr RR_Header Algorithm string `dns:"domain-name"` TimeSigned uint64 `dns:"uint48"` Fudge uint16 MACSize uint16 MAC string `dns:"size-hex:MACSize"` OrigId uint16 Error uint16 OtherLen uint16 OtherData string `dns:"size-hex:OtherLen"` }
TSIG is the RR the holds the transaction signature of a message. See RFC 2845 and RFC 4635.
type Token ¶
type Token struct { // The scanned resource record when error is not nil. RR // When an error occurred, this has the error specifics. Error *ParseError // A potential comment positioned after the RR and on the same line. Comment string }
Token holds the token that are returned when a zone file is parsed.
type Transfer ¶
type Transfer struct { *Conn DialTimeout time.Duration // net.DialTimeout, defaults to 2 seconds ReadTimeout time.Duration // net.Conn.SetReadTimeout value for connections, defaults to 2 seconds WriteTimeout time.Duration // net.Conn.SetWriteTimeout value for connections, defaults to 2 seconds TsigSecret map[string]string // Secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2) // contains filtered or unexported fields }
A Transfer defines parameters that are used during a zone transfer.
func (*Transfer) In ¶
In performs an incoming transfer with the server in a. If you would like to set the source IP, or some other attribute of a Dialer for a Transfer, you can do so by specifying the attributes in the Transfer.Conn:
d := net.Dialer{LocalAddr: transfer_source} con, err := d.Dial("tcp", master) dnscon := &dns.Conn{Conn:con} transfer = &dns.Transfer{Conn: dnscon} channel, err := transfer.In(message, master)
func (*Transfer) Out ¶
func (t *Transfer) Out(w ResponseWriter, q *Msg, ch chan *Envelope) error
Out performs an outgoing transfer with the client connecting in w. Basic use pattern:
ch := make(chan *dns.Envelope) tr := new(dns.Transfer) go tr.Out(w, r, ch) ch <- &dns.Envelope{RR: []dns.RR{soa, rr1, rr2, rr3, soa}} close(ch) w.Hijack() // w.Close() // Client closes connection
The server is responsible for sending the correct sequence of RRs through the channel ch.
type X25 ¶
X25 RR. See RFC 1183, Section 3.1.
type ZoneParser ¶ added in v1.0.14
type ZoneParser struct {
// contains filtered or unexported fields
}
ZoneParser is a parser for an RFC 1035 style zonefile.
Each parsed RR in the zone is returned sequentially from Next. An optional comment can be retrieved with Comment.
The directives $INCLUDE, $ORIGIN, $TTL and $GENERATE are all supported. Although $INCLUDE is disabled by default.
Basic usage pattern when reading from a string (z) containing the zone data:
zp := NewZoneParser(strings.NewReader(z), "", "") for rr, ok := zp.Next(); ok; rr, ok = zp.Next() { // Do something with rr } if err := zp.Err(); err != nil { // log.Println(err) }
Comments specified after an RR (and on the same line!) are returned too:
foo. IN A 10.0.0.1 ; this is a comment
The text "; this is comment" is returned from Comment. Comments inside the RR are returned concatenated along with the RR. Comments on a line by themselves are discarded.
func NewZoneParser ¶ added in v1.0.14
func NewZoneParser(r io.Reader, origin, file string) *ZoneParser
NewZoneParser returns an RFC 1035 style zonefile parser that reads from r.
The string file is used in error reporting and to resolve relative $INCLUDE directives. The string origin is used as the initial origin, as if the file would start with an $ORIGIN directive.
func (*ZoneParser) Comment ¶ added in v1.0.14
func (zp *ZoneParser) Comment() string
Comment returns an optional text comment that occurred alongside the RR.
func (*ZoneParser) Err ¶ added in v1.0.14
func (zp *ZoneParser) Err() error
Err returns the first non-EOF error that was encountered by the ZoneParser.
func (*ZoneParser) Next ¶ added in v1.0.14
func (zp *ZoneParser) Next() (RR, bool)
Next advances the parser to the next RR in the zonefile and returns the (RR, true). It will return (nil, false) when the parsing stops, either by reaching the end of the input or an error. After Next returns (nil, false), the Err method will return any error that occurred during parsing.
func (*ZoneParser) SetDefaultTTL ¶ added in v1.0.14
func (zp *ZoneParser) SetDefaultTTL(ttl uint32)
SetDefaultTTL sets the parsers default TTL to ttl.
func (*ZoneParser) SetIncludeAllowed ¶ added in v1.0.14
func (zp *ZoneParser) SetIncludeAllowed(v bool)
SetIncludeAllowed controls whether $INCLUDE directives are allowed. $INCLUDE directives are not supported by default.
The $INCLUDE directive will open and read from a user controlled file on the system. Even if the file is not a valid zonefile, the contents of the file may be revealed in error messages, such as:
/etc/passwd: dns: not a TTL: "root:x:0:0:root:/root:/bin/bash" at line: 1:31 /etc/shadow: dns: not a TTL: "root:$6$<redacted>::0:99999:7:::" at line: 1:125
Source Files ¶
- acceptfunc.go
- client.go
- clientconfig.go
- dane.go
- defaults.go
- dns.go
- dnssec.go
- dnssec_keygen.go
- dnssec_keyscan.go
- dnssec_privkey.go
- doc.go
- duplicate.go
- edns.go
- format.go
- generate.go
- labels.go
- listen_go111.go
- msg.go
- msg_helpers.go
- msg_truncate.go
- nsecx.go
- privaterr.go
- reverse.go
- sanitize.go
- scan.go
- scan_rr.go
- serve_mux.go
- server.go
- sig0.go
- singleinflight.go
- smimea.go
- tlsa.go
- tsig.go
- types.go
- udp.go
- update.go
- version.go
- xfr.go
- zduplicate.go
- zmsg.go
- ztypes.go