RFC1995 Incremental Zone Transfer in DNS

1995 Incremental Zone Transfer in DNS. M. Ohta. August 1996. (Format: TXT=16810 bytes) (Updates RFC1035) (Status: PROPOSED STANDARD)

日本語訳
RFC一覧

参照

Network Working Group                                            M. Ohta
Request for Comments: 1995                 Tokyo Institute of Technology
Updates: 1035                                                August 1996
Category: Standards Track


                    Incremental Zone Transfer in DNS

Status of this Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

Abstract

   This document proposes extensions to the DNS protocols to provide an
   incremental zone transfer (IXFR) mechanism.

1. Introduction

   For rapid propagation of changes to a DNS database [STD13], it is
   necessary to reduce latency by actively notifying servers of the
   change.  This is accomplished by the NOTIFY extension of the DNS
   [NOTIFY].

   The current full zone transfer mechanism (AXFR) is not an efficient
   means to propagate changes to a small part of a zone, as it transfers
   the entire zone file.

   Incremental transfer (IXFR) as proposed is a more efficient
   mechanism, as it transfers only the changed portion(s) of a zone.

   In this document, a secondary name server which requests IXFR is
   called an IXFR client and a primary or secondary name server which
   responds to the request is called an IXFR server.

2. Brief Description of the Protocol

   If an IXFR client, which likely has an older version of a zone,
   thinks it needs new information about the zone (typically through SOA
   refresh timeout or the NOTIFY mechanism), it sends an IXFR message
   containing the SOA serial number of its, presumably outdated, copy of
   the zone.





Ohta                        Standards Track                     [Page 1]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


   An IXFR server should keep record of the newest version of the zone
   and the differences between that copy and several older versions.
   When an IXFR request with an older version number is received, the
   IXFR server needs to send only the differences required to make that
   version current.  Alternatively, the server may choose to transfer
   the entire zone just as in a normal full zone transfer.

   When a zone has been updated, it should be saved in stable storage
   before the new version is used to respond to IXFR (or AXFR) queries.
   Otherwise, if the server crashes, data which is no longer available
   may have been distributed to secondary servers, which can cause
   persistent database inconsistencies.

   If an IXFR query with the same or newer version number than that of
   the server is received, it is replied to with a single SOA record of
   the server's current version, just as in AXFR.

   Transport of a query may be by either UDP or TCP.  If an IXFR query
   is via UDP, the IXFR server may attempt to reply using UDP if the
   entire response can be contained in a single DNS packet.  If the UDP
   reply does not fit, the query is responded to with a single SOA
   record of the server's current version to inform the client that a
   TCP query should be initiated.

   Thus, a client should first make an IXFR query using UDP.  If the
   query type is not recognized by the server, an AXFR (preceded by a
   UDP SOA query) should be tried, ensuring backward compatibility.  If
   the query response is a single packet with the entire new zone, or if
   the server does not have a newer version than the client, everything
   is done.  Otherwise, a TCP IXFR query should be tried.

   To ensure integrity, servers should use UDP checksums for all UDP
   responses.  A cautious client which receives a UDP packet with a
   checksum value of zero should ignore the result and try a TCP IXFR
   instead.

   The query type value of IXFR assigned by IANA is 251.

3. Query Format

   The IXFR query packet format is the same as that of a normal DNS
   query, but with the query type being IXFR and the authority section
   containing the SOA record of client's version of the zone.








Ohta                        Standards Track                     [Page 2]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


4. Response Format

   If incremental zone transfer is not available, the entire zone is
   returned.  The first and the last RR of the response is the SOA
   record of the zone.  I.e. the behavior is the same as an AXFR
   response except the query type is IXFR.

   If incremental zone transfer is available, one or more difference
   sequences is returned.  The list of difference sequences is preceded
   and followed by a copy of the server's current version of the SOA.

   Each difference sequence represents one update to the zone (one SOA
   serial change) consisting of deleted RRs and added RRs.  The first RR
   of the deleted RRs is the older SOA RR and the first RR of the added
   RRs is the newer SOA RR.

   Modification of an RR is performed first by removing the original RR
   and then adding the modified one.

   The sequences of differential information are ordered oldest first
   newest last.  Thus, the differential sequences are the history of
   changes made since the version known by the IXFR client up to the
   server's current version.

   RRs in the incremental transfer messages may be partial.  That is, if
   a single RR of multiple RRs of the same RR type changes, only the
   changed RR is transferred.

   An IXFR client, should only replace an older version with a newer
   version after all the differences have been successfully processed.

   An incremental response is different from that of a non-incremental
   response in that it begins with two SOA RRs, the server's current SOA
   followed by the SOA of the client's version which is about to be
   replaced.

   5. Purging Strategy

   An IXFR server can not be required to hold all previous versions
   forever and may delete them anytime. In general, there is a trade-off
   between the size of storage space and the possibility of using IXFR.

   Information about older versions should be purged if the total length
   of an IXFR response would be longer than that of an AXFR response.
   Given that the purpose of IXFR is to reduce AXFR overhead, this
   strategy is quite reasonable.  The strategy assures that the amount
   of storage required is at most twice that of the current zone
   information.



Ohta                        Standards Track                     [Page 3]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


   Information older than the SOA expire period may also be purged.

6. Optional Condensation of Multiple Versions

   An IXFR server may optionally condense multiple difference sequences
   into a single difference sequence, thus, dropping information on
   intermediate versions.

   This may be beneficial if a lot of versions, not all of which are
   useful, are generated. For example, if multiple ftp servers share a
   single DNS name and the IP address associated with the name is
   changed once a minute to balance load between the ftp servers, it is
   not so important to keep track of all the history of changes.

   But, this feature may not be so useful if an IXFR client has access
   to two IXFR servers: A and B, with inconsistent condensation results.
   The current version of the IXFR client, received from server A, may
   be unknown to server B. In such a case, server B can not provide
   incremental data from the unknown version and a full zone transfer is
   necessary.

   Condensation is completely optional. Clients can't detect from the
   response whether the server has condensed the reply or not.

   For interoperability, IXFR servers, including those without the
   condensation feature, should not flag an error even if it receives a
   client's IXFR request with a unknown version number and should,
   instead, attempt to perform a full zone transfer.

7. Example

   Given the following three generations of data with the current serial
   number of 3,

      JAIN.AD.JP.         IN SOA NS.JAIN.AD.JP. mohta.jain.ad.jp. (
                                        1 600 600 3600000 604800)
                          IN NS  NS.JAIN.AD.JP.
      NS.JAIN.AD.JP.      IN A   133.69.136.1
      NEZU.JAIN.AD.JP.    IN A   133.69.136.5

   NEZU.JAIN.AD.JP. is removed and JAIN-BB.JAIN.AD.JP. is added.

      jain.ad.jp.         IN SOA ns.jain.ad.jp. mohta.jain.ad.jp. (
                                        2 600 600 3600000 604800)
                          IN NS  NS.JAIN.AD.JP.
      NS.JAIN.AD.JP.      IN A   133.69.136.1
      JAIN-BB.JAIN.AD.JP. IN A   133.69.136.4
                          IN A   192.41.197.2



Ohta                        Standards Track                     [Page 4]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


   One of the IP addresses of JAIN-BB.JAIN.AD.JP. is changed.

      JAIN.AD.JP.         IN SOA ns.jain.ad.jp. mohta.jain.ad.jp. (
                                        3 600 600 3600000 604800)
                          IN NS  NS.JAIN.AD.JP.
      NS.JAIN.AD.JP.      IN A   133.69.136.1
      JAIN-BB.JAIN.AD.JP. IN A   133.69.136.3
                          IN A   192.41.197.2

   The following IXFR query

                 +---------------------------------------------------+
      Header     | OPCODE=SQUERY                                     |
                 +---------------------------------------------------+
      Question   | QNAME=JAIN.AD.JP., QCLASS=IN, QTYPE=IXFR          |
                 +---------------------------------------------------+
      Answer     |                                            |
                 +---------------------------------------------------+
      Authority  | JAIN.AD.JP.         IN SOA serial=1               |
                 +---------------------------------------------------+
      Additional |                                            |
                 +---------------------------------------------------+

   could be replied to with the following full zone transfer message:

                 +---------------------------------------------------+
      Header     | OPCODE=SQUERY, RESPONSE                           |
                 +---------------------------------------------------+
      Question   | QNAME=JAIN.AD.JP., QCLASS=IN, QTYPE=IXFR          |
                 +---------------------------------------------------+
      Answer     | JAIN.AD.JP.         IN SOA serial=3               |
                 | JAIN.AD.JP.         IN NS  NS.JAIN.AD.JP.         |
                 | NS.JAIN.AD.JP.      IN A   133.69.136.1           |
                 | JAIN-BB.JAIN.AD.JP. IN A   133.69.136.3           |
                 | JAIN-BB.JAIN.AD.JP. IN A   192.41.197.2           |
                 | JAIN.AD.JP.         IN SOA serial=3               |
                 +---------------------------------------------------+
      Authority  |                                            |
                 +---------------------------------------------------+
      Additional |                                            |
                 +---------------------------------------------------+










Ohta                        Standards Track                     [Page 5]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


   or with the following incremental message:

                 +---------------------------------------------------+
      Header     | OPCODE=SQUERY, RESPONSE                           |
                 +---------------------------------------------------+
      Question   | QNAME=JAIN.AD.JP., QCLASS=IN, QTYPE=IXFR          |
                 +---------------------------------------------------+
      Answer     | JAIN.AD.JP.         IN SOA serial=3               |
                 | JAIN.AD.JP.         IN SOA serial=1               |
                 | NEZU.JAIN.AD.JP.    IN A   133.69.136.5           |
                 | JAIN.AD.JP.         IN SOA serial=2               |
                 | JAIN-BB.JAIN.AD.JP. IN A   133.69.136.4           |
                 | JAIN-BB.JAIN.AD.JP. IN A   192.41.197.2           |
                 | JAIN.AD.JP.         IN SOA serial=2               |
                 | JAIN-BB.JAIN.AD.JP. IN A   133.69.136.4           |
                 | JAIN.AD.JP.         IN SOA serial=3               |
                 | JAIN-BB.JAIN.AD.JP. IN A   133.69.136.3           |
                 | JAIN.AD.JP.         IN SOA serial=3               |
                 +---------------------------------------------------+
      Authority  |                                            |
                 +---------------------------------------------------+
      Additional |                                            |
                 +---------------------------------------------------+

   or with the following condensed incremental message:

                 +---------------------------------------------------+
      Header     | OPCODE=SQUERY, RESPONSE                           |
                 +---------------------------------------------------+
      Question   | QNAME=JAIN.AD.JP., QCLASS=IN, QTYPE=IXFR          |
                 +---------------------------------------------------+
      Answer     | JAIN.AD.JP.         IN SOA serial=3               |
                 | JAIN.AD.JP.         IN SOA serial=1               |
                 | NEZU.JAIN.AD.JP.    IN A   133.69.136.5           |
                 | JAIN.AD.JP.         IN SOA serial=3               |
                 | JAIN-BB.JAIN.AD.JP. IN A   133.69.136.3           |
                 | JAIN-BB.JAIN.AD.JP. IN A   192.41.197.2           |
                 | JAIN.AD.JP.         IN SOA serial=3               |
                 +---------------------------------------------------+
      Authority  |                                            |
                 +---------------------------------------------------+
      Additional |                                            |
                 +---------------------------------------------------+








Ohta                        Standards Track                     [Page 6]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


   or, if UDP packet overflow occurs, with the following message:

                 +---------------------------------------------------+
      Header     | OPCODE=SQUERY, RESPONSE                           |
                 +---------------------------------------------------+
      Question   | QNAME=JAIN.AD.JP., QCLASS=IN, QTYPE=IXFR          |
                 +---------------------------------------------------+
      Answer     | JAIN.AD.JP.         IN SOA serial=3               |
                 +---------------------------------------------------+
      Authority  |                                            |
                 +---------------------------------------------------+
      Additional |                                            |
                 +---------------------------------------------------+

8. Acknowledgements

   The original idea of IXFR was conceived by Anant Kumar, Steve Hotz
   and Jon Postel.

   For the refinement of the protocol and documentation, many people
   have contributed including, but not limited to, Anant Kumar, Robert
   Austein, Paul Vixie, Randy Bush, Mark Andrews, Robert Elz and the
   members of the IETF DNSIND working group.

9. References

   [NOTIFY] Vixie, P., "DNS NOTIFY: A Mechanism for Prompt
   Notification of Zone Changes", RFC 1996, August 1996.

   [STD13] Mockapetris, P., "Domain Name System", STD 13, RFC 1034 and
   RFC 1035), November 1987.

10. Security Considerations

   Though DNS is related to several security problems, no attempt is
   made to fix them in this document.

   This document is believed to introduce no additional security
   problems to the current DNS protocol.












Ohta                        Standards Track                     [Page 7]

RFC 1995            Incremental Zone Transfer in DNS         August 1996


11. Author's Address

   Masataka Ohta
   Computer Center
   Tokyo Institute of Technology
   2-12-1, O-okayama, Meguro-ku, Tokyo 152, JAPAN

   Phone: +81-3-5734-3299
   Fax: +81-3-5734-3415
   EMail: mohta@necom830.hpcl.titech.ac.jp









































Ohta                        Standards Track                     [Page 8]

一覧

 RFC 1〜100  RFC 1401〜1500  RFC 2801〜2900  RFC 4201〜4300 
 RFC 101〜200  RFC 1501〜1600  RFC 2901〜3000  RFC 4301〜4400 
 RFC 201〜300  RFC 1601〜1700  RFC 3001〜3100  RFC 4401〜4500 
 RFC 301〜400  RFC 1701〜1800  RFC 3101〜3200  RFC 4501〜4600 
 RFC 401〜500  RFC 1801〜1900  RFC 3201〜3300  RFC 4601〜4700 
 RFC 501〜600  RFC 1901〜2000  RFC 3301〜3400  RFC 4701〜4800 
 RFC 601〜700  RFC 2001〜2100  RFC 3401〜3500  RFC 4801〜4900 
 RFC 701〜800  RFC 2101〜2200  RFC 3501〜3600  RFC 4901〜5000 
 RFC 801〜900  RFC 2201〜2300  RFC 3601〜3700  RFC 5001〜5100 
 RFC 901〜1000  RFC 2301〜2400  RFC 3701〜3800  RFC 5101〜5200 
 RFC 1001〜1100  RFC 2401〜2500  RFC 3801〜3900  RFC 5201〜5300 
 RFC 1101〜1200  RFC 2501〜2600  RFC 3901〜4000  RFC 5301〜5400 
 RFC 1201〜1300  RFC 2601〜2700  RFC 4001〜4100  RFC 5401〜5500 
 RFC 1301〜1400  RFC 2701〜2800  RFC 4101〜4200 

スポンサーリンク

speak-numeral 数字の読み方を指定する

ホームページ製作・web系アプリ系の製作案件募集中です。

上に戻る