Network Working Group P. Vixie

Request for Comments: 2671 ISC

Category: Standards Track August 1999

Extension Mechanisms for DNS (EDNS0)

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.

Copyright Notice

Copyright (C) The Internet Society (1999). All Rights Reserved.

Abstract

The Domain Name System's wire protocol includes a number of fixed

fields whose range has been or soon will be exhausted and does not

allow clients to advertise their capabilities to servers. This

document describes backward compatible mechanisms for allowing the

protocol to grow.

1 - Rationale and Scope

1.1. DNS (see [RFC1035]) specifies a Message Format and within such

messages there are standard formats for encoding options, errors,

and name compression. The maximum allowable size of a DNS Message

is fixed. Many of DNS's protocol limits are too small for uses

which are or which are desired to become common. There is no way

for implementations to advertise their capabilities.

1.2. Existing clients will not know how to interpret the protocol

extensions detailed here. In practice, these clients will be

upgraded when they have need of a new feature, and only new

features will make use of the extensions. We must however take

account of client behaviour in the face of extra fields, and design

a fallback scheme for interoperability with these clients.

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2 - Affected Protocol Elements

2.1. The DNS Message Header's (see [RFC1035 4.1.1]) second full 16-bit

word is divided into a 4-bit OPCODE, a 4-bit RCODE, and a number of

1-bit flags. The original reserved Z bits have been allocated to

various purposes, and most of the RCODE values are now in use.

More flags and more possible RCODEs are needed.

2.2. The first two bits of a wire format domain label are used to denote

the type of the label. [RFC1035 4.1.4] allocates two of the four

possible types and reserves the other two. Proposals for use of

the remaining types far outnumber those available. More label

types are needed.

2.3. DNS Messages are limited to 512 octets in size when sent over UDP.

While the minimum maximum reassembly buffer size still allows a

limit of 512 octets of UDP payload, most of the hosts now connected

to the Internet are able to reassemble larger datagrams. Some

mechanism must be created to allow requestors to advertise larger

buffer sizes to responders.

3 - Extended Label Types

3.1. The "0 1" label type will now indicate an extended label type,

whose value is encoded in the lower six bits of the first octet of

a label. All subsequently developed label types should be encoded

using an extended label type.

3.2. The "1 1 1 1 1 1" extended label type will be reserved for future

expansion of the extended label type code space.

4 - OPT pseudo-RR

4.1. One OPT pseudo-RR can be added to the additional data section of

either a request or a response. An OPT is called a pseudo-RR

because it pertains to a particular transport level message and not

to any actual DNS data. OPT RRs shall never be cached, forwarded,

or stored in or loaded from master files. The quantity of OPT

pseudo-RRs per message shall be either zero or one, but not

greater.

4.2. An OPT RR has a fixed part and a variable set of options expressed

as {attribute, value} pairs. The fixed part holds some DNS meta

data and also a small collection of new protocol elements which we

expect to be so popular that it would be a waste of wire space to

encode them as {attribute, value} pairs.

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4.3. The fixed part of an OPT RR is structured as follows:

Field Name Field Type Description

------------------------------------------------------

NAME domain name empty (root domain)

TYPE u_int16_t OPT

CLASS u_int16_t sender's UDP payload size

TTL u_int32_t extended RCODE and flags

RDLEN u_int16_t describes RDATA

RDATA octet stream {attribute,value} pairs

4.4. The variable part of an OPT RR is encoded in its RDATA and is

structured as zero or more of the following:

+0 (MSB) +1 (LSB)

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

0: | OPTION-CODE |

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

2: | OPTION-LENGTH |

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

4: | |

/ OPTION-DATA /

/ /

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

OPTION-CODE (Assigned by IANA.)

OPTION-LENGTH Size (in octets) of OPTION-DATA.

OPTION-DATA Varies per OPTION-CODE.

4.5. The sender's UDP payload size (which OPT stores in the RR CLASS

field) is the number of octets of the largest UDP payload that can

be reassembled and delivered in the sender's network stack. Note

that path MTU, with or without fragmentation, may be smaller than

this.

4.5.1. Note that a 512-octet UDP payload requires a 576-octet IP

reassembly buffer. Choosing 1280 on an Ethernet connected

requestor would be reasonable. The consequence of choosing too

large a value may be an ICMP message from an intermediate

gateway, or even a silent drop of the response message.

4.5.2. Both requestors and responders are advised to take account of the

path's discovered MTU (if already known) when considering message

sizes.

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4.5.3. The requestor's maximum payload size can change over time, and

should therefore not be cached for use beyond the transaction in

which it is advertised.

4.5.4. The responder's maximum payload size can change over time, but

can be reasonably expected to remain constant between two

sequential transactions; for example, a meaningless QUERY to

discover a responder's maximum UDP payload size, followed

immediately by an UPDATE which takes advantage of this size.

(This is considered preferrable to the outright use of TCP for

oversized requests, if there is any reason to suspect that the

responder implements EDNS, and if a request will not fit in the

default 512 payload size limit.)

4.5.5. Due to transaction overhead, it is unwise to advertise an

architectural limit as a maximum UDP payload size. Just because

your stack can reassemble 64KB datagrams, don't assume that you

want to spend more than about 4KB of state memory per ongoing

transaction.

4.6. The extended RCODE and flags (which OPT stores in the RR TTL field)

are structured as follows:

+0 (MSB) +1 (LSB)

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

0: | EXTENDED-RCODE | VERSION |

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

2: | Z |

+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+

EXTENDED-RCODE Forms upper 8 bits of extended 12-bit RCODE. Note

that EXTENDED-RCODE value "0" indicates that an

unextended RCODE is in use (values "0" through "15").

VERSION Indicates the implementation level of whoever sets

it. Full conformance with this specification is

indicated by version "0." Requestors are encouraged

to set this to the lowest implemented level capable

of expressing a transaction, to minimize the

responder and network load of discovering the

greatest common implementation level between

requestor and responder. A requestor's version

numbering strategy should ideally be a run time

configuration option.

If a responder does not implement the VERSION level

of the request, then it answers with RCODE=BADVERS.

All responses will be limited in format to the

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VERSION level of the request, but the VERSION of each

response will be the highest implementation level of

the responder. In this way a requestor will learn

the implementation level of a responder as a side

effect of every response, including error responses,

including RCODE=BADVERS.

Z Set to zero by senders and ignored by receivers,

unless modified in a subsequent specification.

5 - Transport Considerations

5.1. The presence of an OPT pseudo-RR in a request should be taken as an

indication that the requestor fully implements the given version of

EDNS, and can correctly understand any response that conforms to

that feature's specification.

5.2. Lack of use of these features in a request must be taken as an

indication that the requestor does not implement any part of this

specification and that the responder may make no use of any

protocol extension described here in its response.

5.3. Responders who do not understand these protocol extensions are

expected to send a response with RCODE NOTIMPL, FORMERR, or

SERVFAIL. Therefore use of extensions should be "probed" such that

a responder who isn't known to support them be allowed a retry with

no extensions if it responds with such an RCODE. If a responder's

capability level is cached by a requestor, a new probe should be

sent periodically to test for changes to responder capability.

6 - Security Considerations

Requestor-side specification of the maximum buffer size may open a

new DNS denial of service attack if responders can be made to send

messages which are too large for intermediate gateways to forward,

thus leading to potential ICMP storms between gateways and

responders.

7 - IANA Considerations

The IANA has assigned RR type code 41 for OPT.

It is the recommendation of this document and its working group

that IANA create a registry for EDNS Extended Label Types, for EDNS

Option Codes, and for EDNS Version Numbers.

This document assigns label type 0b01xxxxxx as "EDNS Extended Label

Type." We request that IANA record this assignment.

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This document assigns extended label type 0bxx111111 as "Reserved

for future extended label types." We request that IANA record this

assignment.

This document assigns option code 65535 to "Reserved for future

expansion."

This document expands the RCODE space from 4 bits to 12 bits. This

will allow IANA to assign more than the 16 distinct RCODE values

allowed in [RFC1035].

This document assigns EDNS Extended RCODE "16" to "BADVERS".

IESG approval should be required to create new entries in the EDNS

Extended Label Type or EDNS Version Number registries, while any

published RFC (including Informational, Experimental, or BCP)

should be grounds for allocation of an EDNS Option Code.

8 - Acknowledgements

Paul Mockapetris, Mark Andrews, Robert Elz, Don Lewis, Bob Halley,

Donald Eastlake, Rob Austein, Matt Crawford, Randy Bush, and Thomas

Narten were each instrumental in creating and refining this

specification.

9 - References

[RFC1035] Mockapetris, P., "Domain Names - Implementation and

Specification", STD 13, RFC 1035, November 1987.

10 - Author's Address

Paul Vixie

Internet Software Consortium

950 Charter Street

Redwood City, CA 94063

Phone: +1 650 779 7001

EMail: vixie@isc.org

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11 - Full Copyright Statement

Copyright (C) The Internet Society (1999). All Rights Reserved.

This document and translations of it may be copied and furnished to

others, and derivative works that comment on or otherwise explain it

or assist in its implementation may be prepared, copied, published

and distributed, in whole or in part, without restriction of any

kind, provided that the above copyright notice and this paragraph are

included on all such copies and derivative works. However, this

document itself may not be modified in any way, such as by removing

the copyright notice or references to the Internet Society or other

Internet organizations, except as needed for the purpose of

developing Internet standards in which case the procedures for

copyrights defined in the Internet Standards process must be

followed, or as required to translate it into languages other than

English.

The limited permissions granted above are perpetual and will not be

revoked by the Internet Society or its successors or assigns.

This document and the information contained herein is provided on an

"AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING

TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING

BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION

HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF

MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

Acknowledgement

Funding for the RFC Editor function is currently provided by the

Internet Society.

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