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Versions: 00 01 03 04 RFC 3567

Network Working Group                                                 Tony Li
INTERNET DRAFT                                               Procket Networks
draft-ietf-isis-hmac-03.txt                                       RJ Atkinson
                                                             Extreme Networks
                                                                  4 July 2001




                   IS-IS Cryptographic Authentication






STATUS OF THIS MEMO

   This document is an Internet-Draft and is in full conformance with all
   provisions of Section 10 of RFC2026 except that the right to produce
   derivative works is not granted.

   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 and
   may be updated, replaced, or obsoleted by other documents at any time.  It
   is inappropriate to use Internet-Drafts as reference material or to cite
   them other than as "work in progress."

   The list of current Internet-Drafts can be accessed at
   http://www.ietf.org/ietf/1id-abstracts.txt

   The list of Internet-Draft Shadow Directories can be accessed at
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ABSTRACT

      This document describes the authentication of IS-IS PDUs using the
   HMAC-MD5 algorithm [1].  IS-IS is specified in [2],  with  extensions
   to support IPv4 described in [3].  The base specification includes an
   authentication mechanism  that  allows  for  multiple  authentication
   algorithms.   The base specification only specifies the algorithm for
   cleartext passwords.

        This document proposes an extension to that  specification  that



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   allows the use of the HMAC-MD5 authentication algorithm to be used in
   conjunction with the existing authentication mechanisms.



1. Introduction

        The IS-IS protocol, as specified in ISO 10589, provides for  the
   authentication  of  Link  State  PDUs (LSPs) through the inclusion of
   authentication information as part of the LSP.   This  authentication
   information is encoded as a Type-Length-Value (TLV) tuple.

        The  type  of the TLV is specified as 10.  The length of the TLV
   is variable.  The value of the  TLV  depends  on  the  authentication
   algorithm  and  related  secrets  being used.  The first octet of the
   value is  used  to  specify  the  authentication  type.   Type  0  is
   reserved, type 1 indicates a cleartext password, and type 255 is used
   for routing domain private authentication methods.  The remainder  of
   the TLV value is known as the Authentication Value.

        This  document  extends  the above situation by allocating a new
   authentication type for HMAC-MD5 and specifying  the  algorithms  for
   the  computation  of  the  Authentication  Value.  This document also
   describes modifications to the  base  protocol  to  insure  that  the
   authentication mechanisms described in this document are effective.

      This  document  is a publication of the IS-IS Working Group within
   the IETF, and is a contribution to ISO  IEC  JTC1/SC6,  for  eventual
   inclusion with ISO 10589.



2. Authentication Procedures

        The  authentication  type  used  for HMAC-MD5 is 54 (0x36).  The
   length of the Authentication Value for HMAC-MD5 is 16, and the length
   field in the TLV is 17.

        The  HMAC-MD5  algorithm  requires  a key K and text T as input.
   The key K is the password for the  PDU  type,  as  specified  in  ISO
   10589.   The  text  T  is  the IS-IS PDU to be authenticated with the
   Authentication Value field inside of the  Authentication  Information
   TLV  set to zero.  Note that the Authentication Type is set to 54 and
   the length of the TLV is set to 17 before authentication is computed.
   When  LSPs  are  authenticated,  the  Checksum and Remaining Lifetime
   fields are set to zero (0) before authentication  is  computed.   The
   result  of the algorithm is placed in the Authentication Value field.




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        When calculating the HMAC-MD5 result for  Sequence  Number  PDUs
   and IS-IS HELLO PDUs, Level 1 Sequence Number PDUs SHALL use the Area
   Authentication string as  in  Level  1  Link  State  PDUs.   Level  2
   Sequence Number PDUs shall use the domain authentication string as in
   Level 2 Link State PDUs.  IS-IS HELLO PDUs SHALL use the  Link  Level
   Authentication String, which MAY be different from that of Link State
   PDUs.  The  HMAC-MD5  result  for  the  IS-IS  HELLO  PDUs  SHALL  be
   calculated  after the Packet is padded to the MTU size, if padding is
   not disabled.  Implementations that support the optional checksum for
   the  Sequence  Number  PDUs and IS-IS HELLO PDUs MUST NOT include the
   Checksum TLV.

      An implementation  that  implements  HMAC-MD5  authentication  and
   receives  HMAC-MD5 Authentication Information MUST discard the PDU if
   the Authentication Value is incorrect.

      An implementation MAY have a transition  mode  where  it  includes
   HMAC-MD5  Authentication  Information in PDUs but does not verify the
   HMAC-MD5 authentication information.  This is a  transition  aid  for
   networks in the process of deploying authentication.

      An  implementation MAY check a set of passwords when verifying the
   Authentication Value.  This provides a  mechanism  for  incrementally
   changing passwords in a network.

      An  implementation that does not implement HMAC-MD5 authentication
   MAY accept a PDU that  contains  the  HMAC-MD5  Authentication  Type.
   ISes  (routers)  that  implement HMAC-MD5 authentication and initiate
   LSP purges MUST remove the body of the LSP and add the authentication
   TLV.   ISes  implementing  HMAC-MD5  authentication  MUST  NOT accept
   unauthenticated purges.  ISes MUST NOT  accept  purges  that  contain
   TLVs  other  than  the  authentication  TLV.   These restrictions are
   necessary to prevent a hostile system from receiving an LSP,  setting
   the  Remaining  Lifetime  field  to  zero,  and  flooding it, thereby
   initiating a purge without knowing the authentication password.

2.1 Implementation Considerations

        There is an implementation issue just after password rollover on
   an  IS-IS  router  that  might  benefit  from  additional commentary.
   Immediately after password rollover on the router, the router or  IS-
   IS  process  may  restart.   If  this  happens,  this  causes the LSP
   Sequence Number restarts from the value 1  using  the  new  password.
   However,  neighbors  will  reject those new LSPs because the Sequence
   Number is smaller.  The router can not increase its own LSP  Sequence
   Number  because  it  fails  to  authenticate  its  own  old  LSP that
   neighbors keep sending to it.  So the router can not update  its  LSP
   Sequence Number to its neighbors until all the neighbors time out all



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   of the original LSPs.  One possible solution to this problem  is  for
   the IS-IS process to detect if any inbound LSP with an authentication
   failure has the local System ID and also has a higher Sequence Number
   than  the IS-IS process has.  In this event, the IS-IS process SHOULD
   increase its own LSP Sequence Number  accordingly  and  re-flood  the
   LSPs.  However, as this scenario could also be triggered by an active
   attack by an adversary, it is recommended that a counter also be kept
   on this case to mitigate the risk from such an active attack.



3. Security Considerations

        This  document  enhances  the  security  of  the  IS-IS  routing
   protocol.  Because a routing protocol contains information that  need
   not   be  kept  secret,  privacy  is  not  a  requirement.   However,
   authentication of the messages within the protocol is of interest, to
   reduce  the  risk  of an adversary compromising the routing system by
   deliberately injecting false information into the routing system.

        The technology  in  this  document  provides  an  authentication
   mechanism for IS-IS.  The mechanism described here is not perfect and
   does not need to be perfect.  Instead, this  mechanism  represents  a
   significant  increase  in the work function of an adversary attacking
   the  IS-IS  protocol,  while  not   causing   undue   implementation,
   deployment, or operational complexity.

        This  mechanism  does  not  prevent replay attacks, however such
   attacks would trigger existing mechanisms in the IS-IS protocol  that
   would  effectively reject old information.  Denial of service attacks
   are not generally preventable in a useful networking protocol [4].

        Changes  to  the   authentication   mechanism   described   here
   (primarily: to add a Key-ID field such as OSPFv2 and RIPv2 have) were
   considered  at  some  length,  but  ultimately  were  rejected.   The
   mechanism  here  was  already widely implemented in 1999.  As of this
   writing, this mechanism is fairly widely deployed  within  the  users
   interested in cryptographic authentication of IS-IS.  The improvement
   provided by the proposed revised mechanism was not  large  enough  to
   justify  the  change,  given  the installed base and lack of operator
   interest in deploying the proposed revised mechanism.

        If and when a key  management  protocol  appears  that  is  both
   widely  implemented  and  easily deployed to secure routing protocols
   such as IS-IS, a different authentication mechanism that is  designed
   for use with that key management schema could be added if desired.

        If  a stronger authentication were believed to be required, then



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   the use of a full digital signature [5] would  be  an  approach  that
   should  be seriously considered.  It was rejected for this purpose at
   this time because the computational burden of full digital signatures
   is  believed  to  be much higher than is reasonable given the current
   threat environment in operational commercial networks.

ACKNOWLEDGMENTS

        The author would like  to  thank  (in  alphabetical  order)  Ran
   Atkinson,  Dave  Katz,  Steven Luong, Tony Przygienda, Nai-Ming Shen,
   and Henk Smit for their comments and suggestions on this document.

REFERENCES

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

   [2] ISO, "Intermediate System to Intermediate System Intra- Domain Routing
   Exchange Protocol for use in Conjunction with the Protocol for Providing
   the Connectionless-mode Network Service (ISO 8473)", International Standard
   10589 [Also republished as RFC 1142].

   [3] R. Callon, "Use of OSI IS-IS for Routing in TCP/IP and Dual
   environments", RFC-1195, December 1990.

   [4] V.L. Voydock & S. T. Kent, "Security Mechanisms in High-level
   Networks", ACM Computing Surveys, Vol. 15, No. 2, June 1983.

   [5] S. Murphy, M. Badger, & B. Wellington, "OSPF with Digital Signatures",
   RFC-2154, June 1997.

Author's Address

   Tony Li
   Procket Networks
   1100 Cadillac Ct.
   Milpitas, California
   95035  USA

   Email: tli@procket.net
   Phone: +1 (408) 635-7903

   RJ Atkinson
   Extreme Networks
   3585 Monroe Street
   Santa Clara, CA
   95051  USA




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   Email: rja@extremenetworks.com
   Phone: +1 (408) 579-2800

















































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