Szerkesztő:Pi70/sablonok/táblázatsablon
DNS resource records
[szerkesztés]Sablon:Further A Resource Record (RR) is the basic data element in the domain name system. Each record has a type (A, MX, etc.), an expiration time limit, a class, and some type-specific data. Resource records of the same type define a resource record set (RRset). The order of resource records in a set, returned by a resolver to an application, is undefined, but often servers implement round-robin ordering to achieve load balancing. DNSSEC, however, works on complete resource record sets in a canonical order.
When sent over an IP network, all records use the common format specified in RFC 1035:[1]
Field | Description | Length (octets) |
---|---|---|
NAME | Name of the node to which this record pertains | (variable) |
TYPE | Type of RR in numeric form (e.g. 15 for MX RRs) | 2 |
CLASS | Class code | 2 |
TTL | Count of seconds that the RR stays valid (The maximum is 231-1, which is about 68 years.) | 4 |
RDLENGTH | Length of RDATA field | 2 |
RDATA | Additional RR-specific data | (variable) |
NAME is the fully qualified domain name of the node in the tree. On the wire, the name may be shortened using label compression where ends of domain names mentioned earlier in the packet can be substituted for the end of the current domain name.
TYPE is the record type. It indicates the format of the data and it gives a hint of its intended use. For example, the A record is used to translate from a domain name to an IPv4 address, the NS record lists which name servers can answer lookups on a DNS zone, and the MX record specifies the mail server used to handle mail for a domain specified in an e-mail address (see also List of DNS record types).
RDATA is data of type-specific relevance, such as the IP address for address records, or the priority and hostname for MX records. Well known record types may use label compression in the RDATA field, but "unknown" record types must not (RFC 3597).
The CLASS of a record is set to IN (for Internet) for common DNS records involving Internet hostnames, servers, or IP addresses. In addition, the classes Chaos (CH) and Hesiod (HS) exist.[2] Each class is an independent name space with potentially different delegations of DNS zones.
In addition to resource records defined in a zone file, the domain name system also defines several request types that are used only in communication with other DNS nodes (on the wire), such as when performing zone transfers (AXFR/IXFR) or for EDNS (OPT).
Wildcard DNS records
[szerkesztés]The domain name system supports wildcard domain names which are names that start with the asterisk label, '*', e.g., *.example.[3][4] DNS records belonging to wildcard domain names specify rules for generating resource records within a single DNS zone by substituting whole labels with matching components of the query name, including any specified descendants. For example, in the DNS zone x.example, the following configuration specifies that all subdomains (including subdomains of subdomains) of x.example use the mail exchanger a.x.example. The records for a.x.example are needed to specify the mail exchanger. As this has the result of excluding this domain name and its subdomains from the wildcard matches, all subdomains of a.x.example must be defined in a separate wildcard statement.
The role of wildcard records was refined in RFC 4592, because the original definition in RFC 1034 was incomplete and resulted in misinterpretations by implementers.[4]
- ↑ RFC 5395, Domain Name System (DNS) IANA Considerations, D. Eastlake 3rd (November 2008), Section 3
- ↑ RFC 5395, Domain Name System (DNS) IANA Considerations, D. Eastlake 3rd (November 2008), p. 11
- ↑ Forráshivatkozás-hiba: Érvénytelen
<ref>
címke; nincs megadva szöveg a(z)rfc1034
nevű lábjegyzeteknek - ↑ a b RFC 4592, The Role of Wildcards in the Domain Name System, E. Lewis (July 2006)