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Versions: (draft-madi-sidr-rp) 00

SIDROPS                                                            D. Ma
Internet-Draft                                                      ZDNS
Intended status: Informational                                   S. Kent
Expires: December 28, 2017                                           BBN
                                                           June 26, 2017


   Requirements for Resource Public Key Infrastructure (RPKI) Relying
                                Parties
                        draft-madi-sidrops-rp-00

Abstract

   This document provides a single reference point for requirements for
   Relying Party (RP) software for use in the Resource Public Key
   Infrastructure (RPKI).  It cites requirements that appear in several
   RPKI RFCs, making it easier for implementers to become aware of these
   requirements that are segmented with orthogonal functionalities.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

   Internet-Drafts are working documents of the Internet Engineering
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   time.  It is inappropriate to use Internet-Drafts as reference
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   This Internet-Draft will expire on December 28, 2017.

Copyright Notice

   Copyright (c) 2017 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
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   include Simplified BSD License text as described in Section 4.e of



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   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.

Table of Contents

   1.  Introduction  . . . . . . . . . . . . . . . . . . . . . . . .   2
   2.  Fetching and Caching RPKI Repository Objects  . . . . . . . .   3
     2.1.  TAL Acquisition and Processing  . . . . . . . . . . . . .   4
     2.2.  Locating RPKI Objects Using Authority and Subject
           Information Extensions  . . . . . . . . . . . . . . . . .   4
     2.3.  Dealing with Key Rollover . . . . . . . . . . . . . . . .   4
     2.4.  Dealing with Algorithm Transition . . . . . . . . . . . .   4
     2.5.  Strategies for Efficient Cache Maintenance  . . . . . . .   5
   3.  Certificate and CRL Processing  . . . . . . . . . . . . . . .   5
     3.1.  Verifying Resource Certificate and Syntax . . . . . . . .   5
     3.2.  Certificate Path Validation . . . . . . . . . . . . . . .   5
     3.3.  CRL Processing  . . . . . . . . . . . . . . . . . . . . .   5
   4.  Processing RPKI Repository Signed Objects . . . . . . . . . .   6
     4.1.  Basic Signed Object Syntax Checks . . . . . . . . . . . .   6
     4.2.  Syntax and Validation for Each Type of Signed Object  . .   6
       4.2.1.  Manifest  . . . . . . . . . . . . . . . . . . . . . .   6
       4.2.2.  ROA . . . . . . . . . . . . . . . . . . . . . . . . .   6
       4.2.3.  Ghostbusters  . . . . . . . . . . . . . . . . . . . .   7
       4.2.4.  Verifying BGPsec Router Certificate . . . . . . . . .   7
     4.3.  How to Make Use of Manifest Data  . . . . . . . . . . . .   7
     4.4.  What to Do with Ghostbusters Information  . . . . . . . .   8
   5.  Delivering Validated Cache to BGP Speakers  . . . . . . . . .   8
   6.  Security considerations . . . . . . . . . . . . . . . . . . .   8
   7.  IANA Considerations . . . . . . . . . . . . . . . . . . . . .   8
   8.  Acknowledgements  . . . . . . . . . . . . . . . . . . . . . .   8
   9.  References  . . . . . . . . . . . . . . . . . . . . . . . . .   8
     9.1.  Normative References  . . . . . . . . . . . . . . . . . .   8
     9.2.  Informative References  . . . . . . . . . . . . . . . . .  10
   Authors' Addresses  . . . . . . . . . . . . . . . . . . . . . . .  10

1.  Introduction

   The RPKI RP software is used by network operators and others to
   acquire and verify Internet Number Resource (INR) data stored in the
   RPKI repository system.  RPKI data, when verified, allow an RP to
   verify assertions about which Autonomous Systems (ASes) are
   authorized to originate routes for IP address prefixes.  RPKI data
   also establishes binding between public keys and BGP routers, and
   indicates the AS numbers that each router is authorized to represent.

   Noting that the essential requirements imposed on RPs are scattered
   throughout numerous RFC documents that are protocol specific or
   provide best practices, as follows:



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   RFC 6481 (Repository Structure)
   RFC 6482 (ROA format)
   RFC 6486 (Manifests)
   RFC 6487 (Certificate and CRL profile)
   RFC 6488 (RPKI Signed Objects)
   RFC 6489 (Key Rollover)
   RFC 6810 (RPKI to Router Protocol)
   RFC 6916 (Algorithm Agility)
   RFC 7730 (Trust Anchor Locator)
   RFC 7935 (Algorithms)
   RFC XXXX (Router Certificates)[ID.sidr-bgpsec-pki-profiles]

   This makes it hard for an implementer to be confident that he/she has
   addressed all of these generalized requirements.  Besides, software
   engineering calls for how to segment the RP system into components
   with orthogonal functionalities, so that those components could be
   distributed across the operational timeline of the user.  Taxonomy of
   generalized RP requirements is going to help have 'RP role' well
   framed.

   To consolidate RP requirements in one document, with pointers to all
   the relevant RFCs, this document outlines a set of baseline
   requirements imposed on RPs and provides a single reference point for
   requirements for RP software for use in the RPKI, as segmented with
   orthogonal functionalities:

   o Fetching and Caching RPKI Repository Objects
   o Processing Certificates and CRLs
   o Processing RPKI Repository Signed Objects
   o Delivering Validated Cache Data to BGP Speakers

   This document will be update to reflect new or changed requirements
   as these RFCs are updated, or new RFCs are written.

2.  Fetching and Caching RPKI Repository Objects

   RP software uses synchronization mechanisms supported by targeted
   repositories (e.g., [rsync]) to download all RPKI changed data
   objects in the repository system and cache them locally.  The
   software validates the RPKI data and uses it to generate
   authenticated data identifying which ASes are authorized to originate
   routes for address prefixes, and which routers are authorized to sign
   BGP updates on behalf of ASes.








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2.1.  TAL Acquisition and Processing

   In the RPKI, each relying party (RP) chooses its own set of trust
   anchors (TAs).  Consistent with the extant INR allocation hierarchy,
   the IANA and/or the five RIRs are obvious candidates to be default
   TAs for the RP.

   An RP does not retrieve TAs directly.  A set of Trust Anchor Locators
   (TALs) is used by each RP to retrieve and verify the authenticity of
   each trust anchor.

   TAL acquisition and processing are specified in Section 3 of
   [RFC7730].

2.2.  Locating RPKI Objects Using Authority and Subject Information
      Extensions

   The RPKI repository system is a distributed one, consisting of
   multiple repository instances.  Each repository instance contains one
   or more repository publication points.  An RP discovers publication
   points using the SIA and AIA extensions from (validated)
   certificates.

   Section 5 of [RFC6481] specifies how an RP locates all RPKI objects
   by using the SIA and AIA extensions.  Detailed specifications of SIA
   and AIA extensions in a resource certificate are described in section
   4 of [RFC6487].

2.3.  Dealing with Key Rollover

   An RP takes the key rollover period into account with regard to its
   frequency of synchronization with RPKI repository system.

   RP requirements in dealing with key rollover are described in section
   3 of [RFC6489].

2.4.  Dealing with Algorithm Transition

   The set of cryptographic algorithms used with the RPKI is expected to
   change over time.  Each RP is expected to be aware of the milestones
   established for the algorithm transition and what actions are
   required at every juncture.

   RP requirements for dealing with algorithm transition are specified
   in section 4 of [RFC6916].






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2.5.  Strategies for Efficient Cache Maintenance

   Each RP is expected to maintain a local cache of RPKI objects.  The
   cache needs to be as up to date and consistent with repository
   publication point data as the RP's frequency of checking permits.

   The last paragraph of section 5 of [RFC6481] provides guidance for
   maintenance of a local cache.

3.  Certificate and CRL Processing

   The RPKI make use of X.509 certificates and CRLs, but it profiles
   these standard formats [RFC6487].  The major change to the profile
   established in [RFC5280] is the mandatory use of a new extension to
   X.509 certificate [RFC3779].

3.1.  Verifying Resource Certificate and Syntax

   Certificates in the RPKI are called resource certificates, and they
   are required to conform to the profile [RFC6487].  An RP is required
   to verify that a resource certificate adheres to the profile
   established by [RFC6487].  This means that all extensions mandated by
   [RFC6487] must be present and value of each extension must be within
   the range specified by this RFC.  Moreover, any extension excluded by
   [RFC6487] must be omitted.

   Section 7.1 of [RFC6487] gives the procedure that the RP should
   follow to verify resource certificate and syntax.

3.2.  Certificate Path Validation

   In the RPKI, issuer can only assign and/or allocate public INRs
   belong to it, thus the INRs in issuer's certificate are required to
   encompass the INRs in the subject's certificate.  This is one of
   necessary principles of certificate path validation in addition to
   cryptographic verification i.e., verification of the signature on
   each certificate using the public key of the parent certificate).

   Section 7.2 of [RFC6487] gives the procedure that the RP should
   follow to perform certificate path validation.

3.3.  CRL Processing

   The CRL processing requirements imposed on CAs and RP are described
   in [RFC6487].  CRLs in the RPKI are tightly constrained; only the
   AuthorityKeyIndetifier and CRLNumber extensions are allowed, and they
   MUST be present.  No other CRL extensions are allowed, and no
   CRLEntry extensions are permitted.  RPs are required to verify that



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   these constraints have been met.  Each CRL in the RPI MUST be
   verified using the public key from the certificate of the CA that
   issued the CRL.

   In the RPKI, RPs are expected to pay extra attention when dealing
   with a CRL that is not consistent with the Manifest associated with
   the publication point associated with the CRL.

   Processing of a CRL that is not consistent with a manifest is a
   matter of local policy, as described in the fourth paragraph of
   Section 6.6 of [RFC6486].

4.  Processing RPKI Repository Signed Objects

4.1.  Basic Signed Object Syntax Checks

   Before an RP can use a signed object from the RPKI repository, the RP
   is required to check the signed object syntax.

   Section 3 of [RFC6488] lists all the steps that the RP is required to
   execute in order to validate the top level syntax of a repository
   signed object.

   Note that these checks are necessary, but not sufficient.  Additional
   validation checks must be performed based on the specific type of
   signed object.

4.2.  Syntax and Validation for Each Type of Signed Object

4.2.1.  Manifest

   To determine whether a manifest is valid, the RP is required to
   perform manifest-specific checks in addition to those specified in
   [RFC6488].

   Specific checks for a Manifest are described in section 4 of
   [RFC6486].  If any of these checks fails, indicating that the
   manifest is invalid, then the manifest will be discarded and treated
   as though no manifest were present.

4.2.2.  ROA

   To validate a ROA, the RP is required perform all the checks
   specified in [RFC6488] as well as the additional ROA-specific
   validation steps.  The IP address delegation extension [RFC3779]
   present in the end-entity (EE) certificate (contained within the
   ROA), must encompass each of the IP address prefix(es) in the ROA.




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   More details for ROA validation are specified in section 2 of
   [RFC6482].

4.2.3.  Ghostbusters

   The Ghostbusters Record is optional; a publication point in the RPKI
   can have zero or more associated Ghostbuster Records.  If a CA has at
   least one Ghostbuster Record, RP is required to verify that this
   Ghostbusters Record conforms to the syntax of signed object defined
   in [RFC6488].

   The payload of this signed object is a (severely) profiled vCard.  An
   RP is required to verify that the payload of Ghostbusters conforms to
   format as profiled in [RFC6493].

4.2.4.  Verifying BGPsec Router Certificate

   A BGPsec Router Certificate is a resource certificate, so it is
   required to comply with [RFC6487].  Additionally, the certificate
   must contain an AS Identifier Delegation extension, and must not
   contain an IP Address Delegation extension.  The validation procedure
   used for BGPsec Router Certificates is identical to the validation
   procedure described in Section 7 of [RFC6487], but using the
   constraints applied come from specification of section 7 of
   [ID.sidr-bgpsec-pki-profiles].

   Note that the cryptographic algorithms used by BGPsec routers are
   found in [ID.sidr-bgpsec-algs].  Currently, the algorithms specified
   in [ID.sidr-bgpsec-algs] and [RFC7935] are different.  BGPsec RPs
   will need to support algorithms that are used to validate BGPsec
   signatures as well as the algorithms that are needed to validate
   signatures on BGPsec certificates, RPKI CA certificates, and RPKI
   CRLs.

4.3.  How to Make Use of Manifest Data

   For a given publication point, the RP ought to perform tests to
   determine the state of the Manifest at the publication point.  A
   Manifest can be classified as either valid or invalid, and a valid
   Manifest is either current and stale.  An RP decides how to make use
   of a Manifest based on its state, according to local (RP) policy.

   If there are valid objects in a publication point that are not
   present on a Manifest, [RFC6486] does not mandate specific RP
   behavior with respect to such objects.  However, most RP software
   ignores such objects and this document recommends that this behavior
   be adopted uniformly.




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   In the absence of a Manifest, an RP is expected to accept all valid
   signed objects present in the publication point.  If a Manifest is
   stale (see [RFC6486]) and an RP has no way to acquire a more recent
   Manifest, the RP is expected to (TBD).

4.4.  What to Do with Ghostbusters Information

   An RP may encounter a stale Manifest or CRL, or an expired CA
   certificate or ROA at a publication point.  An RP is expected to use
   the information from the Ghostbusters record to contact the
   maintainer of the publication point where any stale/expired objects
   were encountered.  The intent here is to encourage the relevant CA
   and/or repository manager to update the slate or expired objects.

5.  Delivering Validated Cache to BGP Speakers

   On a periodic basis, BGP speakers within an AS request updated
   validated origin AS data and router/ASN data from the RP's cache.
   The RP passes this information to BGP speakers to enable them to
   verify the authenticity of routing announcements.  The specification
   of the protocol designed to deliver validated cache data from an RP
   to a BGP Speaker is provided in [RFC6810].

6.  Security considerations

   TBD

7.  IANA Considerations

   This document has no actions for IANA.

8.  Acknowledgements

   The authors thank David Mandelberg and Wei Wang for their review,
   feedback and editorial assistance in preparing this document.

9.  References

9.1.  Normative References

   [ID.sidr-bgpsec-algs]
              Turner, S., "BGPsec Algorithms, Key Formats and Signature
              Formats", work-in-progress, <draft-ietf-sidr-bgpsec-algs>.








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   [ID.sidr-bgpsec-pki-profiles]
              Reynolds, M., Turner, S., and S. Kent, "A Profile for
              BGPsec Router Certificates, Certificate Revocation Lists,
              and Certification Requests", work-in-progress, <draft-
              ietf-sidr-bgpsec-pki-profiles>.

   [RFC3779]  Lynn, C., Kent, S., and K. Seo, "X.509 Extensions for IP
              Addresses and AS Identifiers", RFC 3779,
              DOI 10.17487/RFC3779, June 2004,
              <http://www.rfc-editor.org/info/rfc3779>.

   [RFC5280]  Cooper, D., Santesson, S., Farrell, S., Boeyen, S.,
              Housley, R., and W. Polk, "Internet X.509 Public Key
              Infrastructure Certificate and Certificate Revocation List
              (CRL) Profile", RFC 5280, DOI 10.17487/RFC5280, May 2008,
              <http://www.rfc-editor.org/info/rfc5280>.

   [RFC6481]  Huston, G., Loomans, R., and G. Michaelson, "A Profile for
              Resource Certificate Repository Structure", RFC 6481,
              DOI 10.17487/RFC6481, February 2012,
              <http://www.rfc-editor.org/info/rfc6481>.

   [RFC6482]  Lepinski, M., Kent, S., and D. Kong, "A Profile for Route
              Origin Authorizations (ROAs)", RFC 6482,
              DOI 10.17487/RFC6482, February 2012,
              <http://www.rfc-editor.org/info/rfc6482>.

   [RFC6486]  Austein, R., Huston, G., Kent, S., and M. Lepinski,
              "Manifests for the Resource Public Key Infrastructure
              (RPKI)", RFC 6486, DOI 10.17487/RFC6486, February 2012,
              <http://www.rfc-editor.org/info/rfc6486>.

   [RFC6487]  Huston, G., Michaelson, G., and R. Loomans, "A Profile for
              X.509 PKIX Resource Certificates", RFC 6487,
              DOI 10.17487/RFC6487, February 2012,
              <http://www.rfc-editor.org/info/rfc6487>.

   [RFC6488]  Lepinski, M., Chi, A., and S. Kent, "Signed Object
              Template for the Resource Public Key Infrastructure
              (RPKI)", RFC 6488, DOI 10.17487/RFC6488, February 2012,
              <http://www.rfc-editor.org/info/rfc6488>.

   [RFC6489]  Huston, G., Michaelson, G., and S. Kent, "Certification
              Authority (CA) Key Rollover in the Resource Public Key
              Infrastructure (RPKI)", BCP 174, RFC 6489,
              DOI 10.17487/RFC6489, February 2012,
              <http://www.rfc-editor.org/info/rfc6489>.




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   [RFC6493]  Bush, R., "The Resource Public Key Infrastructure (RPKI)
              Ghostbusters Record", RFC 6493, DOI 10.17487/RFC6493,
              February 2012, <http://www.rfc-editor.org/info/rfc6493>.

   [RFC6810]  Bush, R. and R. Austein, "The Resource Public Key
              Infrastructure (RPKI) to Router Protocol", RFC 6810,
              DOI 10.17487/RFC6810, January 2013,
              <http://www.rfc-editor.org/info/rfc6810>.

   [RFC6916]  Gagliano, R., Kent, S., and S. Turner, "Algorithm Agility
              Procedure for the Resource Public Key Infrastructure
              (RPKI)", BCP 182, RFC 6916, DOI 10.17487/RFC6916, April
              2013, <http://www.rfc-editor.org/info/rfc6916>.

   [RFC7730]  Huston, G., Weiler, S., Michaelson, G., and S. Kent,
              "Resource Public Key Infrastructure (RPKI) Trust Anchor
              Locator", RFC 7730, DOI 10.17487/RFC7730, January 2016,
              <http://www.rfc-editor.org/info/rfc7730>.

   [RFC7935]  Huston, G. and G. Michaelson, Ed., "The Profile for
              Algorithms and Key Sizes for Use in the Resource Public
              Key Infrastructure", RFC 7935, DOI 10.17487/RFC7935,
              August 2016, <http://www.rfc-editor.org/info/rfc7935>.

9.2.  Informative References

   [RFC6480]  Lepinski, M. and S. Kent, "An Infrastructure to Support
              Secure Internet Routing", RFC 6480, DOI 10.17487/RFC6480,
              February 2012, <http://www.rfc-editor.org/info/rfc6480>.

   [rsync]    "rsync web page", <http://rsync.samba.org/>.

Authors' Addresses

   Di Ma
   ZDNS
   4 South 4th St. Zhongguancun
   Haidian, Beijing  100190
   China

   Email: madi@zdns.cn










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   Stephen Kent
   BBN
   10 Moulton St
   Cambridge, MA  02138-1119
   USA

   Email: kent@alum.mit.edu












































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