DNS resource records (RRs) describe the characteristics of a zone (or domain) and have a binary or wire-format, which is used in queries and responses, and a text format used in zone files and which is described in this chapter.
A DNS zone file is constructed using Resource Records (RRs) and Directives. The text representation of these records are stored in zone files.
; zone file for example.com $TTL 2d ; 172800 secs default TTL for zone $ORIGIN example.com. @ IN SOA ns1.example.com. hostmaster.example.com. ( 2003080800 ; se = serial number 12h ; ref = refresh 15m ; ret = update retry 3w ; ex = expiry 3h ; min = minimum ) IN NS ns1.example.com. IN MX 10 mail.example.net. joe IN A 192.168.254.3 www IN CNAME joe
The above example shows a very simple but fairly normal zone file. The following notes apply to zone files:
Resource Records have two representations. A textual format described in this chapter and a binary or wire-format described in Chapter 15.
The textual format has the following generic form:
owner-name ttl class type type-specific-data
Where:
owner-name | The owner-name (or label) of the node in the zone file to which this record belongs. Sometimes referred to as the left-hand name to differentiate it from any name that may appear in the type-specific-data (such as for NS or MX RRs) which is sometimes, surprisingly, called the right-hand name or the target-name. The owner-name field may also take one of the following values:
@ ; replace with the current value of $ORIGIN ; blank/space or tab in which case the last ; owner-name used or the value of $ORIGIN ; (or its default value) is substituted |
ttl | 32 bit value. The Time to Live in seconds (range is 1 to 2147483647) and indicates how long the RR may be cached. The value zero indicates the data should not be cached. |
class | A 16 bit value which defines the protocol family or an instance of the protocol. The normal value is IN = Internet protocol (other values are HS and CH both historic MIT protocols). |
types | The resource record type which determines the value(s) of the type-specific-data field. Type takes one of the values below. |
type-specific-data | Data content of each record is defined by the type and class values. |
The generic binary or wire-format is:
name ttl class type rdlen rdata
The binary format is described in chapter 15 RR format
This is an incomplete list but does consist of the main RR types used in forward and reverse map zone together with links to other RR types that are useful, fun, complex or have interesting names. A full list of DNS Resource Record (RR) types may be obtained from IANA DNS Parameters.
RR | Value | RFC | Description |
A | 1 | RFC 1035 | IPv4 Address record. An IPv4 address for a host. |
AAAA | 28 | RFC 3596 | IPv6 Address record. An IPv6 address for a host. Current IETF recommendation for IPv6 forward-mapped zones. |
A6 | 38 | RFC 6563 | Obsolete. AAAA is the recommended IPv6 address record. Historical status. |
AFSDB | 18 | RFC 1183 | Location of AFS servers. Experimental - special apps only. |
CNAME | 5 | RFC 1035 | Canonical Name. An alias name for a host. Causes redirection for a single RR at the owner-name. |
DNAME | 39 | RFC 6672 | Redirection in DNS. Like CNAME but affects all RRs below the address space of owner-name. |
DNSKEY | 48 | RFC 4034 | DNSSEC. DNS public key RR. |
DS | 43 | RFC 4034 | DNSSEC. Delegated Signer RR. |
EUI48 | 108 | RFC 7043 | Method of storing EUI (Extended Unique Identifier) 48-bit addresses in the DNS. EUI-48 addresses are used by IEEE defined networks such as Ethernet, Bluetooth and many others. Due to security concerns (discovery of local configuration details that may be used to mount DDoS attacks) it is recommended that EUI48 address are stored only in private namespace DNS. Supported from BIND 9.10+. |
EUI64 | 109 | RFC 7043 | Method of storing EUI (Extended Unique Identifier) 64-bit addresses in the DNS. EUI-64 addresses are used by IEEE defined networks such as Firewire, 802.15 (WPAN) and others. It is also used by IPv6 as the low order 64 bits of the address in stateless configurations. Due to security concerns (discovery of local configuration details that may be used to mount DDoS attacks) it is recommended that EUI64 address are stored only in private namespace DNS. Supported from BIND 9.10+. |
HINFO | 13 | RFC 1035 | Host Information - optional text data about a host. |
ISDN | 20 | RFC 1183 | ISDN address. Experimental = special applications only. |
KEY | 25 | RFC 2535 | Public key associated with a DNS name. |
LOC | 29 | RFC 1876 | Stores GPS data. Experimental - security considerations have mitigated usage. |
MX | 15 | RFC 1035 | Mail Exchanger. A preference value and the host name for a mail server/exchanger that will service this zone. RFC 974 defines valid names. |
NAPTR | 35 | RFC 3403 | Naming Authority Pointer Record. Gross misnomer. General purpose definition of rule set to be used by applications for Dynamic Delegation Discovery System (DDDS), for example, VoIP or ENUM. Complex but interesting RR. |
NS | 2 | RFC 1035 | Name Server. Defines the authoritative name server(s) for the domain (defined by the SOA record) or the subdomain. |
NSEC | 47 | RFC 4034 | DNSSEC. Next Secure record. Ssed to provide proof of non-existence of a name. |
NXT | 30 | DNSSEC Next Domain record type. Obsolete use NSEC. | |
PTR | 12 | RFC 1035 | IP address (IPv4 or IPv6) to host. Used in reverse maps. |
RP | 17 | RFC 1183 | Information about responsible person. Experimental - special apps only. |
RRSIG | 46 | RFC 4034 | DNSSEC. Signed RRset. |
RT | 21 | RFC 1183 | Through-route binding. Experimental - special apps only. |
SIG | 24 | RFC 2535 | DNSSEC. Obsolete use RRSIG. SIG(0) is synthesised as a special meta RR in DDNS and zone transfer security. |
SOA | 6 | RFC 1035 | Start of Authority. Defines the zone name, an e-mail contact and various time and refresh values applicable to the zone. |
SPF | 99 | RFC 4408 | The Sender Policy Framework (v1). RFC 7208 deprecated the use of the SPF RR. The TXT RR is now the only method used to define an SPF configuration. |
SRV | 33 | RFC 2872 | Defines services available in the zone, for example, ldap, http, sip etc.. Allows for discovery of domain servers providing specific services. |
TXT | 16 | RFC 1035 | Text information associated with a name. An SPF record should be defined using a TXT record. DKIM (RFC 4871 also makes use of the TXT RR for authenticaing email. Related: How to define DKIM/ADSP RRs. |
URI | 256 | RFC 7553 | An alternative to the SRV record whereby the full URI string is returned for the required service. Unlike the SRV RR where the final URI string must be assembled from a mixture of search and result strings. |
WKS | 11 | RFC 1035 | Well Known Services. Deprecated in favour of SRV. |
X25 | 19 | RFC 1183 | X.25 address. Experimental - special apps only. |
Value is the decimal value of the RR type in binary or wire-format.
Directives start with '$' and are standardized - $ORIGIN and $INCLUDE (defined in RFC 1035) and $TTL (defined in RFC 2308). BIND additionally provides the non-standard $GENERATE directive.
Directive | Description |
$INCLUDE | Includes the defined file in-line. |
$ORIGIN | Defines the base name (aka label) to be used for 'unqualified' name substitution. |
$TTL | Defines the default Resource Record TTL value, used if no TTL is defined in a resource record. |
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