Domain Name System Operations | Sonoda, Ed. |
Internet-Draft | Internet Initiative Japan Inc. |
Intended status: Informational | January 23, 2018 |
Expires: July 27, 2018 |
DNS load balancing
draft-sonoda-dnsop-dnslb-00
This document defines a new DNS base load balancing function.
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This document defines a new DNS load balance function that is able to transfer information in zone transfer and not need online signing.
DNS base load balance is popluer technology. It provides weight base response and location base response. It have become an indispensable part of traffic engineering.
However, DNS base load balance can't transfer load balance information in zone transfer and need online sigining because it is not standardized.
This document defines a new DNS resource record called "LB" and new EDNS option bit called "LS". LB RR provides the balancing information wieght, location and target domain name. LS bit provides the change response mechanism in name servers.
1. Stub resolver sends A or AAAA query to full resolver.
2. Full Resolver sends A or AAAA query with LS bit to authoritative server.
3. Authoritative Server responses LB RRset.
4. Full Resolver selects target domaoin name using location information and weight information.
5. Full Resolver resolv target domaoin name.
6. Full Resolver response target domaoin name and LB RRSet to stub resolver.
The LB RR has mnemonic LB. LB RR define load balancing information.
LB format below.
<owner> <ttl> <class> LB <weight> <location> <target>
The format is not class-sensitive. All fields are required.
<weight> field is a 2 octets, 1 or more natural number.
<location> field is a "<character-string>" [RFC1035].
<target> field is a "<domain-name>" [RFC1035]. It has A or AAAA RR or CNAME RR or DNAME RR.
<location> ::= "*" | <continental code> | <country code> | <subdivision code> | <asn code> | <private code>
<continental code> ::= "AF" | "AN" | "AS" | "EU" | "NA" | "OC" | "SA"
<country code> ::= ISO 3166-1 alpha-2 Country code.
<subdivision code> ::= ISO 3166-2 Codes for the representation of names of countries and their subdivisions.
<asn code> ::= "AS" <asn> [ ":" <asn>]
<private code> ::= "+" <let>
<ans> ::= <nonzero digit> <digit>
<nonzero digit> ::= any one of the ten digits 1 through 9
<digit> ::= any one of the ten digits 0 through 9
<let> ::= any one of the 26 alphabetic characters A through Z in upper case or any one of the ten digits 0 through 9.
; for any region. example.jp. 3600 IN LB 1 * www.example.com. ; for AP region. example.jp. 3600 IN LB 1 AP ap.example.com. ; for JP region, weight 1. example.jp. 3600 IN LB 1 JP jp1.example.jp. ; for JP region, weight 3. example.jp. 3600 IN LB 3 JP jp2.example.jp. ; for tokyo region. (JP-13 is tokyo region ISO 3166-2:JP) example.jp. 3600 IN LB 1 JP-13 tokyo.example.jp. ; for AS2497 example.jp. 3600 IN LB 1 AS2496 as2497.example.jp. ; for AS2497 example.jp. 3600 IN LB 1 AS2496:1 as2497.example.jp. ; private use example.jp. 3600 IN LB 1 +BEER beer.example.jp.
Defines a new ”EDNS Header Flags” [RFC6891] call LB Support Flag(LS) using full resolver sends LB RR supported to authoritative server.
LS bit provides change response mechanism in authoritative name server. If LS bit is flagged, Authoritative name server can response LB RR for A,AAAA query.
When authoritative name server receives a query of type A or AAAA with LS bit and LB record is present at a sname, The authoritative server returns the LB RRSet in the answer section with LS bit.
Example zone data:
example.jp. 3600 IN SOA ( ns1.example.com. postmaster.example.com. 1 3600 900 1814400 900 ) example.jp. 3600 IN NS ns1.example.com. example.jp. 3600 IN NS ns2.example.com. example.jp. 3600 IN A 198.51.100.1 example.jp. 3600 IN LB 1 * www.example.com. example.jp. 3600 IN LB 1 JP jp1.example.com. example.jp. 3600 IN LB 3 JP jp2.example.com.
Incomming query with LS bit:
query: qtype = example.jp. qtype=A, LS=1
Response for include LS:
query: qtype = example.jp. qtype=A response: LS=1 answer: example.jp. 3600 IN LB 1 * www.example.com. example.jp. 3600 IN LB 1 JP jp1.example.com. example.jp. 3600 IN LB 3 JP jp2.example.com. authority: example.jp. 3600 IN NS ns1.example.com. example.jp. 3600 IN NS ns2.example.com.
Incomming query without LS bit (normal query):
query: qtype = example.jp. qtype=A, LS=0
Response for not include LS:
query: qtype = example.jp. qtype=A response: LS=0 answer: example.jp. 3600 IN A 198.51.100.1 authority: example.jp. 3600 IN NS ns1.example.com. example.jp. 3600 IN NS ns2.example.com.
When a full resulver sends a query of type A or AAAA with LS bit and recives a response with a LB RRset in the answer section with LS bit, Full resolver MUST re-resolv the either LB <target> of type "STYPE" [RFC1034]. <target> be selected by <location> and <weight>.
Location selection needs full resolver or stub resolver location information. Full resolver location informations with priority value SHOULD gets from config file. Full resolver MUST setting '*' location with lowest priority. Full resolver select location that match either LB RR <location> and highest priority resolver location. if all LB RRs don't matche all resolver locations, resolver selects a location randomly.
Full resolver selects <target> using <weight> from LB RR whose location matches.
1. Full resolver's location is configured "JP-13" "JP" "AS" "*".
2. Stub resolver query comming:
query: qtype = example.jp. qtype=A
3. Full resolver send query:
query: qtype = example.jp. qtype=A, LS=1
3. If response include LB RRSets:
query: qtype = example.jp. qtype=A response: LS=1 answer: example.jp. 3600 IN LB 1 * www.example.com. example.jp. 3600 IN LB 1 JP jp1.example.com. example.jp. 3600 IN LB 3 JP jp2.example.com. authority: example.jp. 3600 IN NS ns1.example.com. example.jp. 3600 IN NS ns2.example.com.
4. select LB RR that's location include resolver location:
example.jp. 3600 IN LB 1 JP jp1.example.com. example.jp. 3600 IN LB 3 JP jp2.example.com.
5. Select one <target> using <weight>:
example.jp. 3600 IN LB 3 JP jp2.example.com.
5. Name resolution <target>:
query: qtype = jp2.example.com. qtype=A, LS=1 response: answer: jp2.example.com. 3600 IN A 192.0.2.2 authority: example.com. 3600 IN NS ns1.example.com. example.com. 3600 IN NS ns2.example.com.
6. Make response message:
query: qtype = example.jp. qtype=A, LS=1 response: answer: example.jp. 3600 IN LB 1 * www.example.com. example.jp. 3600 IN LB 1 JP jp1.example.com. example.jp. 3600 IN LB 3 JP jp2.example.com. jp2.example.com. 3600 IN A 192.0.2.2 authority: example.jp. 3600 IN NS ns1.example.com. example.jp. 3600 IN NS ns2.example.com.
7. Stub resolver uses 192.0.2.2
IANA is requested to assign a DNS RR data type value for the LB RR type under the "Resource Record (RR) TYPEs" subregistry and a EDNS Header Flag value for the LB Support Flag under the "EDNS Header Flags (16 bits)" subregistry under the "Domain Name System (DNS) Parameters" registry.
Both authoritative server and resolvers that implement LB SHOUD carefully check for loops.
[RFC1034] | Mockapetris, P., "Domain names - concepts and facilities", STD 13, RFC 1034, DOI 10.17487/RFC1034, November 1987. |
[RFC1035] | Mockapetris, P., "Domain names - implementation and specification", STD 13, RFC 1035, DOI 10.17487/RFC1035, November 1987. |
[RFC6891] | Damas, J., Graff, M. and P. Vixie, "Extension Mechanisms for DNS (EDNS(0))", STD 75, RFC 6891, DOI 10.17487/RFC6891, April 2013. |