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RFC 4307 - Cryptographic Algorithms for Use in the Internet Key


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Network Working Group                                        J. Schiller
Request for Comments: 4307         Massachusetts Institute of Technology
Category: Standards Track                                  December 2005

                Cryptographic Algorithms for Use in the
                Internet Key Exchange Version 2 (IKEv2)

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 (2005).

Abstract

   The IPsec series of protocols makes use of various cryptographic
   algorithms in order to provide security services.  The Internet Key
   Exchange (IKE (RFC 2409) and IKEv2) provide a mechanism to negotiate
   which algorithms should be used in any given association.  However,
   to ensure interoperability between disparate implementations, it is
   necessary to specify a set of mandatory-to-implement algorithms to
   ensure that there is at least one algorithm that all implementations
   will have available.  This document defines the current set of
   algorithms that are mandatory to implement as part of IKEv2, as well
   as algorithms that should be implemented because they may be promoted
   to mandatory at some future time.

1.  Introduction

   The Internet Key Exchange protocol provides for the negotiation of
   cryptographic algorithms between both endpoints of a cryptographic

   association.  Different implementations of IPsec and IKE may provide
   different algorithms.  However, the IETF desires that all
   implementations should have some way to interoperate.  In particular,
   this requires that IKE define a set of mandatory-to-implement
   algorithms because IKE itself uses such algorithms as part of its own
   negotiations.  This requires that some set of algorithms be specified
   as "mandatory-to-implement" for IKE.

   The nature of cryptography is that new algorithms surface
   continuously and existing algorithms are continuously attacked.  An
   algorithm believed to be strong today may be demonstrated to be weak
   tomorrow.  Given this, the choice of mandatory-to-implement algorithm
   should be conservative so as to minimize the likelihood of it being
   compromised quickly.  Thought should also be given to performance
   considerations as many uses of IPsec will be in environments where
   performance is a concern.

   Finally, we need to recognize that the mandatory-to-implement
   algorithm(s) may need to change over time to adapt to the changing
   world.  For this reason, the selection of mandatory-to-implement
   algorithms was removed from the main IKEv2 specification and placed
   in this document.  As the choice of algorithm changes, only this
   document should need to be updated.

   Ideally, the mandatory-to-implement algorithm of tomorrow should
   already be available in most implementations of IPsec by the time it
   is made mandatory.  To facilitate this, we will attempt to identify
   those algorithms (that are known today) in this document.  There is
   no guarantee that the algorithms we believe today may be mandatory in
   the future will in fact become so.  All algorithms known today are
   subject to cryptographic attack and may be broken in the future.

2.  Requirements Terminology

   Keywords "MUST", "MUST NOT", "REQUIRED", "SHOULD", "SHOULD NOT", and
   "MAY" that appear in this document are to be interpreted as described
   in [RFC2119].

   We define some additional terms here:

   SHOULD+    This term means the same as SHOULD.  However, it is likely
              that an algorithm marked as SHOULD+ will be promoted at
              some future time to be a MUST.

   SHOULD-    This term means the same as SHOULD.  However, an algorithm
              marked as SHOULD- may be deprecated to a MAY in a future
              version of this document.

   MUST-      This term means the same as MUST.  However, we expect at
              some point that this algorithm will no longer be a MUST in
              a future document.  Although its status will be determined
              at a later time, it is reasonable to expect that if a
              future revision of a document alters the status of a MUST-
              algorithm, it will remain at least a SHOULD or a SHOULD-.

3.  Algorithm Selection

3.1.  IKEv2 Algorithm Selection

3.1.1.  Encrypted Payload Algorithms

   The IKEv2 Encrypted Payload requires both a confidentiality algorithm
   and an integrity algorithm.  For confidentiality, implementations
   MUST- implement 3DES-CBC and SHOULD+ implement AES-128-CBC.  For
   integrity, HMAC-SHA1 MUST be implemented.

3.1.2.  Diffie-Hellman Groups

   There are several Modular Exponential (MODP) groups that are defined
   for use in IKEv2.  They are defined in both the [IKEv2] base document
   and in the MODP extensions document.  They are identified by group
   number.  Any groups not listed here are considered as "MAY be
   implemented".

      Group Number        Bit Length            Status     Defined
      2                   1024 MODP Group       MUST-      [RFC2409]
      14                  2048 MODP Group       SHOULD+    [RFC3526]

3.1.3.  IKEv2 Transform Type 1 Algorithms

   IKEv2 defines several possible algorithms for Transfer Type 1
   (encryption).  These are defined below with their implementation
   status.

      Name                     Number    Defined In      Status
      RESERVED                 0
      ENCR_3DES                3         [RFC2451]       MUST-
      ENCR_NULL                11        [RFC2410]       MAY
      ENCR_AES_CBC             12        [AES-CBC]       SHOULD+
      ENCR_AES_CTR             13        [AES-CTR]       SHOULD

3.1.4.  IKEv2 Transform Type 2 Algorithms

   Transfer Type 2 Algorithms are pseudo-random functions used to
   generate random values when needed.

      Name                Number     Defined In   Status
      RESERVED            0
      PRF_HMAC_MD5        1          [RFC2104]    MAY
      PRF_HMAC_SHA1       2          [RFC2104]    MUST
      PRF_AES128_CBC      4          [AESPRF]     SHOULD+

3.1.5.  IKEv2 Transform Type 3 Algorithms

   Transfer Type 3 Algorithms are Integrity algorithms used to protect
   data against tampering.

      Name                     Number       Defined In           Status
      NONE                     0
      AUTH_HMAC_MD5_96         1            [RFC2403]            MAY
      AUTH_HMAC_SHA1_96        2            [RFC2404]            MUST
      AUTH_AES_XCBC_96         5            [AES-MAC]            SHOULD+

4.  Security Considerations

   The security of cryptographic-based systems depends on both the
   strength of the cryptographic algorithms chosen and the strength of
   the keys used with those algorithms.  The security also depends on
   the engineering of the protocol used by the system to ensure that
   there are no non-cryptographic ways to bypass the security of the
   overall system.

   This document concerns itself with the selection of cryptographic
   algorithms for the use of IKEv2, specifically with the selection of
   "mandatory-to-implement" algorithms.  The algorithms identified in
   this document as "MUST implement" or "SHOULD implement" are not known
   to be broken at the current time, and cryptographic research so far
   leads us to believe that they will likely remain secure into the
   foreseeable future.  However, this isn't necessarily forever.  We
   would therefore expect that new revisions of this document will be
   issued from time to time that reflect the current best practice in
   this area.

5.  Normative References

   [RFC2409]    Harkins, D. and D. Carrel, "The Internet Key Exchange
                (IKE)", RFC 2409, November 1998.

   [IKEv2]      Kaufman, C., Ed., "Internet Key Exchange (IKEv2)
                Protocol", RFC 4306, December 2005.

   [RFC2119]    Bradner, S., "Key words for use in RFCs to Indicate
                Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC3526]    Kivinen, T. and M. Kojo, "More Modular Exponential
                (MODP) Diffie-Hellman groups for Internet Key Exchange
                (IKE)", RFC 3526, May 2003.

   [RFC2451]    Pereira, R. and R. Adams, "The ESP CBC-Mode Cipher
                Algorithms", RFC 2451, November 1998.

   [RFC2410]    Glenn, R. and S. Kent, "The NULL Encryption Algorithm
                and Its Use With IPsec", RFC 2410, November 1998.

   [AES-CBC]    Frankel, S., Glenn, R., and S. Kelly, "The AES-CBC
                Cipher Algorithm and Its Use with IPsec", RFC 3602,
                September 2003.

   [AES-CTR]    Housley, R., "Using Advanced Encryption Standard (AES)
                Counter Mode With IPsec Encapsulating Security Payload
                (ESP)", RFC 3686, January 2004.

   [RFC2104]    Krawczyk, H., Bellare, M., and R. Canetti, "HMAC:
                Keyed-Hashing for Message Authentication", RFC 2104,
                February 1997.

   [AESPRF]     Hoffman, P., "The AES-XCBC-PRF-128 Algorithm for the
                Internet Key Exchange Protocol (IKE)", RFC 3664, January
                2004.

   [RFC2403]    Madson, C. and R. Glenn, "The Use of HMAC-MD5-96 within
                ESP and AH", RFC 2403, November 1998.

   [RFC2404]    Madson, C. and R. Glenn, "The Use of HMAC-SHA-1-96
                within ESP and AH", RFC 2404, November 1998.

   [AES-MAC]    Frankel, S. and H. Herbert, "The AES-XCBC-MAC-96
                Algorithm and Its Use With IPsec", RFC 3566, September
                2003.

Author's Address

   Jeffrey I. Schiller
   Massachusetts Institute of Technology
   Room W92-190
   77 Massachusetts Avenue
   Cambridge, MA 02139-4307
   USA

   Phone: +1 (617) 253-0161
   EMail: jis@mit.edu

Full Copyright Statement

   Copyright (C) The Internet Society (2005).

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Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.

 

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