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Versions: 00 01 02 03 04 rfc2538                         Standards Track
INTERNET-DRAFT                                          CERTs in the DNS
                                                           December 1998
                                                       Expires June 1999

          Storing Certificates in the Domain Name System (DNS)
          ------- ------------ -- --- ------ ---- ------ -----

               Donald E. Eastlake 3rd, Olafur Gudmundsson

                        Status of This Document

   This draft, file name draft-ietf-dnssec-certs-04.txt, is intended to
   become a Proposed Standard RFC.  Distribution of this document is
   unlimited. Comments should be sent to the DNSSEC mailing list <dns-
   security@tis.com> or to the authors.

   This document is an Internet-Draft.  Internet-Drafts are working
   documents of the Internet Engineering Task Force (IETF), its areas,
   and its working groups.  Note that other groups may also distribute
   working documents as Internet-Drafts.

   Internet-Drafts are draft documents valid for a maximum of six
   months.  Internet-Drafts may be updated, replaced, or obsoleted by
   other documents at any time.  It is not appropriate to use Internet-
   Drafts as reference material or to cite them other than as a
   ``working draft'' or ``work in progress.''

   To view the entire list of current Internet-Drafts, please check the
   "1id-abstracts.txt" listing contained in the Internet-Drafts Shadow
   Directories on ftp.is.co.za (Africa), ftp.nordu.net (Northern
   Europe), ftp.nis.garr.it (Southern Europe), munnari.oz.au (Pacific
   Rim), ftp.ietf.org (US East Coast), or ftp.isi.edu (US West Coast).

   [changes from draft 2 to 3: update author info, add RFC 2119
   reference, change dates, add IANA Considerations] [[changes from
   draft 3 to 4: update author info, change dates, tweak IANA
   Considerations including adding reference to RFC 2434, update URL
   references [RFC 1738] to absolute URI references [RFC 2396], update
   PGP references to new RFC 2440 ]]


   Cryptographic public key are frequently published and their
   authenticity demonstrated by certificates.  A CERT resource record
   (RR) is defined so that such certificates and related certificate
   revocation lists can be stored in the Domain Name System (DNS).

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Table of Contents

      Status of This Document....................................1

      Table of Contents..........................................2

      1. Introduction............................................3
      2. The CERT Resource Record................................3
      2.1 Certificate Type Values................................4
      2.2 Text Representation of CERT RRs........................5
      2.3 X.509 OIDs.............................................5
      3. Appropriate Owner Names for CERT RRs....................6
      3.1 X.509 CERT RR Names....................................6
      3.2 PGP CERT RR Names......................................7
      4. Performance Considerations..............................8
      5. IANA Considerations.....................................8
      6. Security Considerations.................................8

      Authors Addresses..........................................9
      Expiration and File Name..................................10

D. Eastlake, O. Gudmundsson                                     [Page 2]

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1. Introduction

   Public keys are frequently published in the form of a certificate and
   their authenticity is commonly demonstrated by certificates and
   related certificate revocation lists (CRLs).  A certificate is a
   binding, through a cryptographic digital signature, of a public key,
   a validity interval and/or conditions, and identity, authorization,
   or other information. A certificate revocation list is a list of
   certificates that are revoked, and incidental information, all signed
   by the signer (issuer) of the revoked certificates. Examples are
   X.509 certificates/CRLs in the X.500 directory system or PGP
   certificates/revocations used by PGP software.

   Section 2 below specifies a CERT resource record (RR) for the storage
   of certificates in the Domain Name System.

   Section 3 discusses appropriate owner names for CERT RRs.

   Sections 4, 5, and 6 below cover performance, IANA, and security
   considerations, respectively.

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   document are to be interpreted as described in [RFC2119].

2. The CERT Resource Record

   The CERT resource record (RR) has the structure given below.  Its RR
   type code is 37.

                        1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3
    0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
   |             type              |             key tag           |
   |   algorithm   |                                               /
   +---------------+            certificate or CRL                 /
   /                                                               /

   The type field is the certificate type as define in section 2.1

   The algorithm field has the same meaning as the algorithm field in
   KEY and SIG RRs [draft-ietf-dnssec-secext2-*.txt] except that a zero
   algorithm field indicates the algorithm is unknown to a secure DNS,
   which may simply be the result of the algorithm not having been
   standardized for secure DNS.

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   The key tag field is the 16 bit value computed for the key embedded
   in the certificate as specified in the DNSSEC Standard [draft-ietf-
   dnssec-secext2-*.txt].  This field is used as an efficiency measure
   to pick which CERT RRs may be applicable to a particular key.  The
   key tag can be calculated for the key in question and then only CERT
   RRs with the same key tag need be examined. However, the key must
   always be transformed to the format it would have as the public key
   portion of a KEY RR before the key tag is computed.  This is only
   possible if the key is applicable to an algorithm (and limits such as
   key size limits) defined for DNS security.  If it is not, the
   algorithm field MUST BE zero and the tag field is meaningless and
   SHOULD BE zero.

2.1 Certificate Type Values

   The following values are defined or reserved:

        Value  Mnemonic  Certificate Type
        -----  --------  ----------- ----
            0            reserved
            1   PKIX     X.509 as per PKIX
            2   SPKI     SPKI cert
            3   PGP      PGP cert
        4-252            available for IANA assignment
          253   URI      URI private
          254   OID      OID private
        255-65534        available for IANA assignment
        65535            reserved

   The PKIX type is reserved to indicate an X.509 certificate conforming
   to the profile being defined by the IETF PKIX working group.  The
   certificate section will start with a one byte unsigned OID length
   and then an X.500 OID indicating the nature of the remainder of the
   certificate section (see 2.3 below).  (NOTE: X.509 certificates do
   not include their X.500 directory type designating OID as a prefix.)

   The SPKI type is reserved to indicate a certificate formated as to be
   specified by the IETF SPKI working group.

   The PGP type indicates a Pretty Good Privacy certificate as described
   in RFC 2440 and its extensions and successors.

   The URI private type indicates a certificate format defined by an
   absolute URI.  The certificate portion of the CERT RR MUST begin with
   a null terminated URI [RFC 2396] and the data after the null is the
   private format certificate itself.  The URI SHOULD be such that a
   retrieval from it will lead to documentation on the format of the
   certificate.  Recognition of private certificate types need not be

D. Eastlake, O. Gudmundsson                                     [Page 4]

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   based on URI equality but can use various forms of pattern matching
   so that, for example, subtype or version information can also be
   encoded into the URI.

   The OID private type indicates a private format certificate specified
   by a an ISO OID prefix.  The certificate section will start with a
   one byte unsigned OID length and then a BER encoded OID indicating
   the nature of the remainder of the certificate section.  This can be
   an X.509 certificate format or some other format.  X.509 certificates
   that conform to the IETF PKIX profile SHOULD be indicated by the PKIX
   type, not the OID private type.  Recognition of private certificate
   types need not be based on OID equality but can use various forms of
   pattern matching such as OID prefix.

2.2 Text Representation of CERT RRs

   The RDATA portion of a CERT RR has the type field as an unsigned
   integer or as a mnemonic symbol as listed in section 2.1 above.

   The key tag field is represented as an unsigned integer.

   The algorithm field is represented as an unsigned integer or a
   mnemonic symbol as listed in [draft-ietf-dnssec-secext2-*.txt].

   The certificate / CRL portion is represented in base 64 and may be
   divided up into any number of white space separated substrings, down
   to single base 64 digits, which are concatenated to obtain the full
   signature.  These substrings can span lines using the standard

   Note that the certificate / CRL portion may have internal sub-fields
   but these do not appear in the master file representation.  For
   example, with type 254, there will be an OID size, an OID, and then
   the certificate / CRL proper. But only a single logical base 64
   string will appear in the text representation.

2.3 X.509 OIDs

   OIDs have been defined in connection with the X.500 directory for
   user certificates, certification authority certificates, revocations
   of certification authority, and revocations of user certificates.
   The following table lists the OIDs, their BER encoding, and their
   length prefixed hex format for use in CERT RRs:

D. Eastlake, O. Gudmundsson                                     [Page 5]

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            = { joint-iso-ccitt(2) ds(5) at(4) 36 }
               == 0x 03 55 04 24
            = { joint-iso-ccitt(2) ds(5) at(4) 37 }
               == 0x 03 55 04 25
            = { joint-iso-ccitt(2) ds(5) at(4) 38 }
               == 0x 03 55 04 26
            = { joint-iso-ccitt(2) ds(5) at(4) 39 }
               == 0x 03 55 04 27

3. Appropriate Owner Names for CERT RRs

   It is recommended that certificate CERT RRs be stored under a domain
   name related to their subject, i.e., the name of the entity intended
   to control the private key corresponding to the public key being
   certified.  It is recommended that certificate revocation list CERT
   RRs be stored under a domain name related to their issuer.

   Following some of the guidelines below may result in the use in DNS
   names of characters that require DNS quoting which is to use a
   backslash followed by the octal representation of the ASCII code for
   the character such as \000 for NULL.

3.1 X.509 CERT RR Names

   Some X.509 versions permit multiple names to be associated with
   subjects and issuers under "Subject Alternate Name" and "Issuer
   Alternate Name".  For example, x.509v3 has such Alternate Names with
   an ASN.1 specification as follows:

      GeneralName ::= CHOICE {
         otherName                  [0] INSTANCE OF OTHER-NAME,
         rfc822Name                 [1] IA5String,
         dNSName                    [2] IA5String,
         x400Address                [3] EXPLICIT OR-ADDRESS.&Type,
         directoryName              [4] EXPLICIT Name,
         ediPartyName               [5] EDIPartyName,
         uniformResourceIdentifier  [6] IA5String,
         iPAddress                  [7] OCTET STRING,
         registeredID               [8] OBJECT IDENTIFIER

   The recommended locations of CERT storage are as follows, in priority

D. Eastlake, O. Gudmundsson                                     [Page 6]

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   (1) If a domain name is included in the identification in the
      certificate or CRL, that should be used.
   (2) If a domain name is not included but an IP address is included,
      then the translation of that IP address into the appropriate
      inverse domain name should be used.
   (3) If neither of the above it used but a URI containing a domain
      name is present, that domain name should be used.
   (4) If none of the above is included but a character string name is
      included, then it should be treated as described for PGP names in
      3.2 below.
   (5) If none of the above apply, then the distinguished name (DN)
      should be mapped into a domain name as specified in RFC 2247.

   Example 1:  Assume that an X.509v3 certificate is issued to /CN=John
   Doe/DC=Doe/DC=com/DC=xy/O=Doe Inc/C=XY/ with Subject Alternative
   names of (a) string "John (the Man) Doe", (b) domain name john-
   doe.com, and (c) uri <https://www.secure.john-doe.com:8080/>.  Then
   the storage locations recommended, in priority order, would be
      (1) john-doe.com,
      (2) www.secure.john-doe.com, and
      (3) Doe.com.xy.

   Example 2:  Assume that an X.509v3 certificate is issued to /CN=James
   Hacker/L=Basingstoke/O=Widget Inc/C=GB/ with Subject Alternate names
   of (a) domain name widget.foo.example, (b) IPv4 address, and (c) string "James Hacker
   <hacker@mail.widget.foo.example>".  Then the storage locations
   recommended, in priority order, would be
      (1) widget.foo.example,
      (2), and
      (3) hacker.mail.widget.foo.example.

3.2 PGP CERT RR Names

   PGP signed keys (certificates) use a general character string User ID
   [RFC 2440]. However, it is recommended by PGP that such names include
   the RFC 822 email address of the party, as in "Leslie Example
   <Leslie@host.example>".  If such a format is used, the CERT should be
   under the standard translation of the email address into a domain
   name, which would be leslie.host.example in this case.  If no RFC 822
   name can be extracted from the string name no specific domain name is

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4. Performance Considerations

   Current Domain Name System (DNS) implementations are optimized for
   small transfers, typically not more than 512 bytes including
   overhead.  While larger transfers will perform correctly and work is
   underway to make larger transfers more efficient, it is still
   advisable at this time to make every reasonable effort to minimize
   the size of certificates stored within the DNS.  Steps that can be
   taken may include using the fewest possible optional or extensions
   fields and using short field values for variable length fields that
   must be included.

5. IANA Considerations

   Certificate types 0x0000 through 0x00FF and 0xFF00 through 0xFFFF can
   only be assigned by an IETF standards action [RFC 2434] (and this
   document assigns 0x0001 through 0x0003 and 0x00FD and 0x00FE).
   Certificate types 0x0100 through 0xFEFF are assigned through IETF
   Consensus [RFC 2434] based on RFC documentation of the certificate
   type.  The availability of private types under 0x00FD and 0x00FE
   should satisfy most requirements for proprietary or private types.

6. Security Considerations

   By definition, certificates contain their own authenticating
   signature.  Thus it is reasonable to store certificates in non-secure
   DNS zones or to retrieve certificates from DNS with DNS security
   checking not implemented or deferred for efficiency.  The results MAY
   be trusted if the certificate chain is verified back to a known
   trusted key and this conforms with the user's security policy.

   Alternatively, if certificates are retrieved from a secure DNS zone
   with DNS security checking enabled and are verified by DNS security,
   the key within the retrieved certificate MAY be trusted without
   verifying the certificate chain if this conforms with the user's
   security policy.

   CERT RRs are not used in connection with securing the DNS security
   additions so there are no security considerations related to CERT RRs
   and securing the DNS itself.

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   RFC 1034 - P. Mockapetris, "Domain Names - Concepts and Facilities",
   STD 13, November 1987.

   RFC 1035 - P. Mockapetris, "Domain Names - Implementation and
   Specifications", STD 13, November 1987.

   RFC 2119 - S.  Bradner, "Key words for use in RFCs to Indicate
   Requirement Levels", March 1997.

   RFC 2247 - S. Kille, M. Wahl, A. Grimstad, R. Huber, S. Sataluri,
   "Using Domains in LDAP/X.500 Distinguished Names", January 1998.

   RFC 2396 - T.  Berners-Lee, R. Fielding, L. Masinter, "Uniform
   Resource Identifiers (URI): Generic Syntax", August 1998.

   RFC 2440 - J. Callas, L. Donnerhacke, H. Finney, R.  Thayer, "OpenPGP
   Message Format", November 1998

   RFC 2434 - T.  Narten, H. Alvestrand, "Guidelines for Writing an IANA
   Considerations Section in RFCs", October 1998.

   draft-ietf-dnssec-secext2-*.txt - D. Eastlake, "Domain Name System
   (DNS) Security Extensions".

Authors Addresses

   Donald E. Eastlake 3rd
   65 Shindegan Hill Road
   Carmel, NY 10512 USA

   Telephone:   +1-914-784-7913 (w)
                +1-914-276-2668 (h)
   FAX:         +1-914-784-3833 (w-fax)
   email:       dee3@us.ibm.com

   Olafur Gudmundsson
   TIS Labs at Network Associates
   3060 Washington Rd, Route 97
   Glenwood MD 21738

   Telephone: +1 443-259-2389
   email: ogud@tis.com

D. Eastlake, O. Gudmundsson                                     [Page 9]

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Expiration and File Name

   This draft expires June 1999.

   Its file name is draft-ietf-dnssec-certs-04.txt.

D. Eastlake, O. Gudmundsson                                    [Page 10]