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draft-ietf-sigtran-security-00

Description: Request For Comments

You can download source copies of the file as follows:

draft-ietf-sigtran-security-00.txt in text format.

Listed below is the contents of file draft-ietf-sigtran-security-00.txt.




Network Working Group                                        J. Loughney
Internet-Draft                                     Nokia Research Center
Expires: April 28, 2003                                        M. Tuexen
                                                              Siemens AG
                                                        J. Pastor-Balbas
                                                                Ericsson
                                                        October 28, 2002

             Security Considerations for SIGTRAN Protocols
                   draft-ietf-sigtran-security-00.txt

Status of this Memo

   This document is an Internet-Draft and is in full conformance with
   all provisions of Section 10 of RFC2026.

   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
   http://www.ietf.org/shadow.html.

   This Internet-Draft will expire on April 28, 2003.

Copyright Notice

   Copyright (C) The Internet Society (2002).  All Rights Reserved.

Abstract

   This documents discusses how TLS and IPSec can be used to secure the
   communication which is based on SIGTRAN protocols.

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Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  3
   1.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . .  3
   1.2 Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .  3
   1.3 Abbreviations  . . . . . . . . . . . . . . . . . . . . . . . .  3
   2.  Security in telephony networks . . . . . . . . . . . . . . . .  5
   3.  Threats  . . . . . . . . . . . . . . . . . . . . . . . . . . .  6
   4.  Protecting Confidentiality . . . . . . . . . . . . . . . . . .  7
   5.  IPSec Usage  . . . . . . . . . . . . . . . . . . . . . . . . .  8
   6.  TLS Usage  . . . . . . . . . . . . . . . . . . . . . . . . . . 10
   7.  Peer-to-Peer Considerations  . . . . . . . . . . . . . . . . . 11
   8.  Security Considerations  . . . . . . . . . . . . . . . . . . . 13
   9.  IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 14
   10. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 15
       References . . . . . . . . . . . . . . . . . . . . . . . . . . 16
       Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . 17
       Full Copyright Statement . . . . . . . . . . . . . . . . . . . 18

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1. Introduction

1.1 Overview

   The SIGTRAN protocols are designed to carry signaling messages for
   telephony services.  These protocols will be used between

   o  customer premise and service provider equipment in case of IUA

   o  service provider equipment only.  This is the case for M2UA, M2PA,
      M3UA and SUA.  The carriers may be different and may use other
      transport network providers.

   The security requirements for these situations may be different.

   SIGTRAN protocols involve the security needs of several parties: the
   end-users of the services; the service providers and the applications
   involved.  Additional security requirements may come from local
   regulation.  While having some overlapping security needs, any
   security solution should fulfill all of the different parties' needs.

   The SIGTRAN protocols assume that messages are secured by using
   either IPSec or TLS.

1.2 Terminology

   This document uses the following terms:

   TBD: TDB.

1.3 Abbreviations

   This document uses the following abbreviations:

   CA: Certificate Authority.

   DOI: Domain Of Interpretation.

   ESP: Encapsulating Security Payload.

   FQDN: Full-Qualified Domain Names.

   IPSec: IP Security Protocol.

   IKE: Internet Key Exchange Protocol.

   IUA: ISDN Q.921 User Adaptation Layer.

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   M2PA: SS7 MTP2 Peer-to-Peer User Adaptation Layer.

   M2UA: SS7 MTP2 User Adaptation Layer.

   M3UA: SS7 MTP3 User Adaptation Layer.

   SA: Security Association.

   SCTP: Stream Control Transmission Protocol.

   SS7: Signaling System No.  7.

   SUA: SS7 SCCP User Adaptation Layer.

   TLS: Transport Layer Security.

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2. Security in telephony networks

   The security in telephony networks is mainly based on the trusted
   network principle.  There are two totally different protocol used:
   The ISDN access protocol is used for signaling in the access network
   and the SS7 protocol stack in the core network.

   As SS7 networks are often physically remoter and/or inacessable, it
   is assumed that they are protected from malicious users.  Often,
   equipment is under lock and key.  At network boundaries between SS7
   networks, packet filtering is sometimes used.  End-users are not
   directly connected to SS7 networks.

   The ISDN access protocol is the separate protocol stack for end-user
   signaling.  End-user signaling protocols are translated to SS7 based
   protocols by telephone switches run by network operators.

   Often Regulatory Authorities require SS7 switches with connections to
   different SS7 to be conformant to national and/or international test
   specifications.

   There are no standardized ways of using encryption technologies for
   providing confidentiality or using technologies for authentication.

   This description applies to telephony networks operated by a single
   operator but also to multiple telephony networks being connected and
   operated by different operators.

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3. Threats

   There is no quick fix, one-size-fits-all solution for security.  All
   SIGTRAN protocols have the following security objectives:

   o  Availability of reliable and timely user data transport.

   o  Authentication of peers.

   o  Integrity of user data transport.

   o  Confidentiality of user data.

   All SIGTRAN protocols use the Stream Control Transmission Protocol
   (SCTP) being defined in [7] and [9] as its transport protocol.  SCTP
   provides certain transport related security features, such as:

   o  Blind Denial of Service Attacks

   o  Flooding

   o  Masquerade

   o  Improper Monopolization of Services

   When SIGTRAN protocols are running in professionally managed
   corporate or service provider network, it is reasonable to expect
   that this network include an appropriate security policy framework.
   The "Site Security Handbook" [1] should be consulted for guidance.

   When the network in which SIGTRAN protocols are used involves more
   than one party, it may not be reasonable to expect that all parties
   have implemented security in a sufficient manner.  End-to-end
   security should be the goal; therefore, it is recommended that IPSec
   or TLS is used to ensure confidentiality of user payload.  Consult
   [3] for more information on configuring IPSec services.

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4. Protecting Confidentiality

   If SIGTRAN information has to be protected either IPSec ESP in
   transport mode or TLS can be used.  In both cases the IP header
   information is neither encrypted nor protected.  If IPSec ESP is
   chosen the SCTP control information is encrypted and protected
   whereas if the TLS based solution the SCTP control information is not
   encrypted and only protected by SCTP procedures.

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5. IPSec Usage

   This section is relevant only for SIGTRAN nodes using IPSec to secure
   communication between SIGTRAN node.

   All SIGTRAN nodes using IPSec MUST support IPsec ESP [4] in transport
   mode with non-null encryption and authentication algorithms to
   provide per-packet authentication, integrity protection and
   confidentiality, and MUST support the replay protection mechanisms of
   IPSec.

   These nodes MUST support IKE for peer authentication, negotiation of
   security associations, and key management, using the IPsec DOI [5].
   The IPSec implementations MUST support peer authentication using a
   pre-shared key, and MAY support certificate-based peer authentication
   using digital signatures.  Peer authentication using the public key
   encryption methods outlined in IKE's sections 5.2 and 5.3 [6] SHOULD
   NOT be used.

   Conformant implementations MUST support both IKE Main Mode and
   Aggressive Mode.  When pre-shared keys are used for authentication,
   IKE Aggressive Mode SHOULD be used, and IKE Main Mode SHOULD NOT be
   used.  When digital signatures are used for authentication, either
   IKE Main Mode or IKE Aggressive Mode MAY be used.

   When digital signatures are used to achieve authentication, an IKE
   negotiator SHOULD use IKE Certificate Request Payload(s) to specify
   the certificate authority (or authorities) that are trusted in
   accordance with its local policy.  IKE negotiators SHOULD use
   pertinent certificate revocation checks before accepting a PKI
   certificate for use in IKE's authentication procedures.

   The Phase 2 Quick Mode exchanges used to negotiate protection for
   SIGTRAN sessions MUST explicitly carry the Identity Payload fields
   (IDci and IDcr).  The DOI provides for several types of
   identification data.  However, when used in conformant
   implementations, each ID Payload MUST carry a single IP address and a
   single non-zero port number, and MUST NOT use the IP Subnet or IP
   Address Range formats.  This allows the Phase 2 security association
   to correspond to specific TCP and SCTP connections.

   Since IPsec acceleration hardware may only be able to handle a
   limited number of active IKE Phase 2 SAs, Phase 2 delete messages may
   be sent for idle SAs, as a means of keeping the number of active
   Phase 2 SAs to a minimum.  The receipt of an IKE Phase 2 delete
   message SHOULD NOT be interpreted as a reason for tearing down a
   SIGTRAN session.  Rather, it is preferable to leave the connection
   up, and if additional traffic is sent on it, to bring up another IKE

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   Phase 2 SA to protect it.  This avoids the potential for continually
   bringing connections up and down.

   It should be noted that SCTP supports multi-homed hosts and this
   results in the need for having multiple security associations for one
   SCTP association.  This disadvantage of IPSec has been addressed by
   [14].  So IPSec implementations used by SIGTRAN nodes SHOULD support
   the IPSec feature described in [14].

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6. TLS Usage

   This section is relevant only for SIGTRAN nodes using TLS to secure
   the communication between SIGTRAN nodes.

   A SIGTRAN node that initiates a SCTP association to another SIGTRAN
   node acts as a TLS client according to [2], and a SIGTRAN node that
   accepts a connection acts as a TLS server.  SIGTRAN peers
   implementing TLS for security MUST mutually authenticate as part of
   TLS session establishment.  In order to ensure mutual authentication,
   the SIGTRAN node acting as TLS server must request a certificate from
   the SIGTRAN node acting as TLS client, and the SIGTRAN node acting as
   TLS client MUST be prepared to supply a certificate on request.

   [13] requires the support of the cipher suite
   TLS_RSA_WITH_AES_128_CBC_SHA.  SIGTRAN nodes MAY negotiate other TLS
   cipher suites.

   TLS MUST be used on all bi-directional streams and the other uni-
   directional streams MUST NOT be used.

   It should also be noted that a SCTP implementation used for TLS over
   SCTP MUST support fragmentation of user data and might also need to
   support the partial delivery API.  This holds even if all SIGTRAN
   messages are small.  See [13] for more details.

   The SIGTRAN protocols use separate SCTP port numbers and payload
   protocol identifiers when run over TLS.  These numbers are given in
   Section 9.  A SIGTRAN session MUST be aborted if the port number or
   payload protocol identifier indicates the use of TLS and it is not
   used.

   As an alternative to a separate port number, a session upgrade
   procedure can be used.  This needs an extension  for all adaptation
   layers allowing the SIGTRAN protocols to use the same port number in
   the case where TLS is used or not.  This needs further discussions.

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7. Peer-to-Peer Considerations

   M2PA, M3UA and SUA support the peer-to-peer model as a generalization
   to the client-server model which is supported by IUA and M2UA.  A
   SIGTRAN node running M2PA, M3UA or SUA and operating in the peer-to-
   peer mode is called a SIGTRAN peer.

   As with any peer-to-peer protocol, proper configuration of the trust
   model within a peer is essential to security.  When certificates are
   used, it is necessary to configure the root certificate authorities
   trusted by the peer.  These root CAs are likely to be unique to
   SIGTRAN usage and distinct from the root CAs that might be trusted
   for other purposes such as Web browsing.  In general, it is expected
   that those root CAs will be configured so as to reflect the business
   relationships between the organization hosting the peer and other
   organizations.  As a result, a peer will typically not be configured
   to allow connectivity with any arbitrary peer.  When certificate
   authentication peers may not be known beforehand, and therefore peer
   discovery may be required.

   Note that IPsec is considerably less flexible than TLS when it comes
   to configuring root CAs.  Since use of Port identifiers is prohibited
   within IKE Phase 1, within IPsec it is not possible to uniquely
   configure trusted root CAs for each application individually; the
   same policy must be used for all applications.  This implies, for
   example, that a root CA trusted for use with a SIGTRAN protocol must
   also be trusted to protect SNMP.  These restrictions can be awkward
   at best.  Since TLS supports application-level granularity in
   certificate policy, TLS SHOULD be used to protect SIGTRAN sessions
   between administrative domains.  IPsec is most appropriate for intra-
   domain usage when pre-shared keys are used as a security mechanism.

   When pre-shared key authentication is used with IPSec to protect
   SIGTRAN based communication, unique pre-shared keys are configured
   with peers, who are identified by their IP address (Main Mode), or
   possibly their FQDN (AggressivenMode).  As a result, it is necessary
   for the set of peers to be known beforehand.  Therefore, peer
   discovery is typically not necessary.

   The following is intended to provide some guidance on the issue.

   It is recommended that SIGTRAN peers use the same security mechanism
   (IPSec or TLS) across all its sessions with other SIGTRAN peers.
   Inconsistent use of security mechanisms can result in redundant
   security mechanisms being used (e.g.  TLS over IPsec) or worse,
   potential security vulnerabilities.  When IPsec is used with a
   SIGTRAN protocol, a typical security policy for outbound traffic is
   "Initiate IPsec, from me to any, destination port P"; for inbound

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   traffic, the policy would be "Require IPsec, from any to me,
   destination port P".  Here P denotes one of the registered port
   numbers for a SIGTRAN protocol.

   This policy causes IPSec to be used whenever a SIGTRAN peer initiates
   a session to another SIGTRAN peer, and to be required whenever an
   inbound SIGTRAN session occurs.  This policy is attractive, since it
   does not require policy to be set for each peer or dynamically
   modified each time a new SIGTRAN session is created; an IPSec SA is
   automatically created based on a simple static policy.  Since IPSec
   extensions are typically not available to the sockets API on most
   platforms, and IPsec policy functionality is implementation
   dependent, use of a simple static policy is the often the simplest
   route to IPSec-enabling a SIGTRAN peer.

   If IPSec is used to secure SIGTRAN peer-to-peer session, IPSec policy
   SHOULD be set so as to require IPsec protection for inbound
   connections, and to initiate IPsec protection for outbound
   connections.  This can be accomplished via use of inbound and
   outbound filter policy.

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8. Security Considerations

   This documents discusses the usage of IPSec and TLS for securing
   SIGTRAN traffic.

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9. IANA Considerations

   SCTP port numbers and SCTP payload protocol identifiers have to be
   registered for:

   o  IUA over TLS

   o  M2UA over TLS

   o  M2PA over TLS

   o  M3UA over TLS

   o  SUA over TLS

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10. Acknowledgements

   The authors would like to thank K.  Morneau and many others for their
   invaluable comments and suggestions.

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References

   [1]   Fraser, B., "Site Security Handbook", RFC 2196, September 1997.

   [2]   Dierks, T., Allen, C., Treese, W., Karlton, P., Freier, A. and
         P. Kocher, "The TLS Protocol Version 1.0", RFC 2246, January
         1999.

   [3]   Kent, S. and R. Atkinson, "Security Architecture for the
         Internet Protocol", RFC 2401, November 1998.

   [4]   Kent, S. and R. Atkinson, "IP Encapsulating Security Payload
         (ESP)", RFC 2406, November 1998.

   [5]   Piper, D., "The Internet IP Security Domain of Interpretation
         for ISAKMP", RFC 2407, November 1998.

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

   [7]   Stewart, R., Xie, Q., Morneault, K., Sharp, C., Schwarzbauer,
         H., Taylor, T., Rytina, I., Kalla, M., Zhang, L. and V. Paxson,
         "Stream Control Transmission Protocol", RFC 2960, October 2000.

   [8]   Morneault, K., Rengasami, S., Kalla, M. and G. Sidebottom,
         "ISDN Q.921-User Adaptation Layer", RFC 3057, February 2001.

   [9]   Stone, J., Stewart, R. and D. Otis, "Stream Control
         Transmission Protocol (SCTP) Checksum Change", RFC 3309,
         September 2002.

   [10]  Morneault, K., Dantu, R., Sidebottom, G., Bidulock, B. and J.
         Heitz, "Signaling System 7 (SS7) Message Transfer Part 2 (MTP2)
         - User Adaptation Layer", RFC 3331, September 2002.

   [11]  Sidebottom, G., Morneault, K. and J. Pastor-Balbas, "Signaling
         System 7 (SS7) Message Transfer Part 3 (MTP3) - User Adaptation
         Layer (M3UA)", RFC 3332, September 2002.

   [12]  George, T., "SS7 MTP2-User Peer-to-Peer Adaptation Layer",
         draft-ietf-sigtran-m2pa-06 (work in progress), August 2002.

   [13]  Rescorla, E., Tuexen, M. and A. Jungmaier, "TLS over SCTP",
         draft-ietf-tsvwg-tls-over-sctp-00 (work in progress), November
         2001.

   [14]  Bellovin, S., "On the Use of SCTP with IPsec", draft-ietf-
         ipsec-sctp-04 (work in progress), October 2002.

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Authors' Addresses

   John Loughney
   Nokia Research Center
   PO Box 407
   FIN-00045 Nokia Group
   Finland

   EMail: john.loughney@nokia.com

   Michael Tuexen
   Siemens AG
   Hofmannstr. 51
   81359 Munich
   Germany

   EMail: Michael.Tuexen@siemens.com

   Javier Pastor-Balbas
   Ericsson
   ?
   Madrid
   Spain

   EMail: javier.pastor-balbas@ece.ericsson.se

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Full Copyright Statement

   Copyright (C) The Internet Society (2002).  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.

Loughney, et al.         Expires April 28, 2003                [Page 18]



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Home TopIndex FirstPrev Next LastMore Download Info FAQ Mail  Home -> Documentation -> SIGTRAN -> draft-ietf-sigtran-security-00
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© Copyright 1997-2007 OpenSS7 Corporation All Rights Reserved.