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INTERNET-DRAFT                                              R. Gieben
DNSEXT Working Group                                        NLnet Labs
Expires September 2001                                      T. Lindgreen
                                                            NLnet Labs

                         Parent's SIG over child's KEY

                      draft-ietf-dnsext-parent-sig-00.txt


Status of This Document

   This document is an Internet-Draft and is in full conformance with
   all provisions of Section 10 of RFC 2026.  Internet-Drafts are
   working documents of the Internet Engineering Task Force (IETF), its
   areas, and its working groups.  Note that other groups may also
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   Internet-Drafts are draft documents valid for a maximum of six
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   Comments should be sent to the authors or the DNSEXT WG mailing
   list namedroppers@ops.ietf.org.

Copyright Notice

   Copyright (C) The Internet Society (2001).  All rights reserved.


Abstract

   When dealing with large amounts of keys the procedures to update a
   zone and to sign a zone need to be clearly defined and practically
   possible.  The current idea is to have the KEY RR and the parent's
   SIG to reside in the child's zone and perhaps also in the parent's
   zone. We feel that this would lead to very complicated procedures for
   large TLDs. We propose an alternative scheme in which the parent zone
   stores the parent's signature over the child's key and also a copy of
   the child's key itself.

   The advantage of this proposal is that all signatures signed by a
   key are in the same zone file as the producing key. This allows for a
   simple key rollover and resigning mechanism. For large TLDs this is
   extremely important.




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   We further discuss the impact on a secure aware resolver/forwarder
   and the impact on the authority of KEYs and the NXT record.

Table of Contents

      Status of This Document....................................2
      Abstract...................................................2

      Table of Contents..........................................3
      1 Introduction.............................................3
      2 Proposal.................................................4
      3 Impact on a secure aware resolver/forwarder..............4
      3.1 Impact of key rollovers on resolver/forwarder..........4
      4 Key rollovers............................................5
      4.1 Scheduled key rollover.................................5
      4.2 Unscheduled key rollover...............................5
      5 Zone resigning...........................................6
      6. Consequences for KEY and NXT records....................6
      6.1. KEY bit in NXT records................................6
      6.2. Authority of KEY records..............................6
      7. Security Considerations.................................6

      Authors' Addresses.........................................7
      References.................................................7
      Full Copyright Statement...................................7


1. Introduction
   Within a CENTR working group NLnet Labs is researching the impact
   of DNSSEC on the ccTLDs and gTLDs.

   In this document we are considering a secure zone, somewhere under
   a secure entry point and on-tree [1] validation between the secure
   entry point and the zone in question.  The resolver we are
   considering is security aware and is preconfigured with the KEY of
   the secure entry point.

   RFC 2535 [3] states that a zone key must be present in the apex of
   a zone.  This can be in the at the delegation point in the parent's
   zonefile (normally the case for null keys), or in the child's
   zonefile, or in both.  This key is only valid if it is signed by the
   parent, so there is also the question where this signature is
   located.

   The original idea was to have the KEY RR and the parent's SIG to
   reside in the child's zone and perhaps also in the parent's zone.
   There is a draft proposal [4], that describes how a keyrollover can
   be handled.

   At NLnet Labs we found that storing the parent's signature over
   the child's key in the child's zone:
       - makes resigning a KEY by the parent difficult



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       - makes a scheduled keyrollover very complicated
       - makes an unscheduled keyrollover virtually impossible

   We propose an alternative scheme in which the parent's signature
   over the child's key is only stored in the parent's zone, i.e. where
   the signing key resides. This would solve the above problems.

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL
   NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED",  "MAY", and "OPTIONAL"
   in this document are to be interpreted as described in [2].


2. Proposal
   The core of the new proposal is that the parent zone stores the
   parent's signature over the child's key and also a copy of the
   child's key itself.  The child zone also contains its zonekey, where
   it is selfsigned.

   The advantage of this proposal is that all signatures signed by a
   key are in the same zone file as the producing key. This allows for a
   simple key rollover and resigning mechanism. For large TLD's this is
   extremely important.  A disadvantage would be that not all the
   information concerning one zone is stored at that zone, namely the
   (parent) SIG RR. Note that the same argument can be applied to a
   zone's NULL key, which is also stored at the parent.


3. Impact on a secure aware resolver/forwarder
   The resolver must be aware of the fact that the parent is more
   authoritative than a child when it comes to deciding whether a zone
   is secured or not.

   Without caching and with on-tree validation, a resolver will
   always start its search at a secure entry point. In this way it can
   determine whether it must expect SIG records or not.

   Considering caching in a secure aware resolver or forwarder. If
   information of a secure zone is cached, its validated KEY should also
   be cached.

   If the KEY record expires, because the KEY TTL expires or because
   the SIG is no longer valid, the KEY should be discarded. The resolver
   or forwarder should then also discard other data concerning the zone
   because it is no longer validated and possible bad data should not be
   cached.

3.1. Impact of key rollovers on resolver/forwarder

   When a zone is in the process of a key rollover, there could be a
   discrepancy between the KEY and the SIG in the apex of the zone and
   the KEY and SIG that are stored in the cache of a resolver.




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   Suppose a resolver has cached the NS, KEY and SIG records of a
   zone.  Next a request comes for an A record in that zone. Also the
   zone is in the process of a keyrollover and already has new keys in
   its zone.  The resolver receives an answer consisting of the A record
   and a SIG over the A record.  It uses the tag field in the SIG to
   determine if it has a KEY which is suitable to validate the SIG.  If
   it does not has such a KEY the resolver must ask the parent of the
   zone for a new KEY and then try it again.  Now the resolver has 2
   keys for the zone, according to the tag field in the SIG it can use
   either one.

   If the new key also does not validate the SIG the zone is marked
   bad.  If the KEY found at the parent is the NULL key the resolver
   knows that the child is considered insecure. This could for instance
   be in the case the private key of the zone is stolen.


4. Key rollovers
   Private keys can be stolen or a key can become over used. In both
   cases a new key must be signed and distributed.  This event is called
   keyrollover. We further distinguish between a scheduled and an
   unscheduled key rollover. A scheduled rollover is announced before
   hand.  An unscheduled key rollover is needed when a private key is
   compromised.

4.1. Scheduled key rollover
   When the signatures, produced by the key to be rolled over, are
   all in one zone file, there are two parties involved.  Let us look at
   an example where a TLD rolls over its zone key. The new key needs to
   be signed with the root's key before it can be used to sign the TLD
   zone and the zone keys of the TLD's children. The steps that need to
   be taken by TLD and root are:
      - the TLD adds the new key to its keyset in its zonefile. This
        zone and keyset are signed with the old zonekey
      - then the TLD signals the parent
      - the root copies the new keyset, consisting of the both new
        and the old key, in its zonefile, resigns it and signals the
        TLD
      - the TLD removes the old key from its keyset, resigns its zone
        with the new key, and signals the the root
      - the root copies the new keyset, now consisting of the new key
        only, and resigns it

4.2. Unscheduled key rollover
   Although nobody hopes that this will ever happen, we must be able
   to cope with possible key compromises. When such an event occurs, an
   immediate keyrollover is needed and must be completed in the shortest
   possible time.  With two parties involved, it will still be awkward,
   but not impossible to update two zonefiles overnight. "Out-of-band"
   communication between the two parties will be necessary, since the
   compromised old key can not be trusted. We think that between two



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   parties this is doable, but this complicated procedure is beyond the
   scope of this document. [5]


5. Zone resigning
   Resigning a TLD is necessary before the current signatures expire.
   When all SIG records, produced by the TLD's zone key are kept in the
   TLD's zonefile, and only there, such a resign session is trivial, as
   only one party (the TLD) and one zonefile is involved.


6. Consequences for KEY and NXT records
   A key record is only present in a child zone to facilitate a key
   rollover. A resolver should therefore be aware that the zonekey of a
   child zone is actually stored in the parent's zone. This also affects
   the NXT record and the authority of KEY resource records.

6.1. KEY bit in NXT records
   RFC 2535 [3], section 5.2 states:

   " The NXT RR type bit map format currently defined is one bit per
     RR type present for the owner name.  A one bit indicates that at
     least one RR of that type is present for the owner name.  A zero
     indicates that no such RR is present. [....] "

   With a KEY still present in a child zone we do not see a compelling
   reason to change this default behavior.

6.2. Authority of KEY records
   The parent of a zone generates the signature for the key belonging
   to that zone. By making that signature available the parent publicly
   states that the child zone is trustworthy: when it comes to security
   in DNSSEC the parent is more authoritative than the child.

   From this we conclude that a parent zone MUST set the authority
   bit to 1 and child zones MUST set this bit to 0 when dealing with
   KEYs from that child zone.

   A secure entry point has a selfsigned key and thus has no parent who
   is more authoritative on that key. This is not a problem. If a
   resolver knows that a secure entry point is a secure entry point it
   must have its key preconfigured. There is no need for a parent in
   this scenario, because the resolver itself can check the security of
   that zone. A interesting consequence of this is that nobody, but the
   resolver is authoritative for a key belonging to a secure entry
   point. This authority must established via some out of band
   mechanism, like publishing keys in a newspaper.


7. Security Considerations
   This whole document is about security.




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Authors' Addresses

   R. Gieben
   Stichting NLnet Labs
   Kruislaan 419
   1098 VA Amsterdam
   miek@nlnetlabs.nl

   T. Lindgreen
   Stichting NLnet Labs
   Kruislaan 419
   1098 VA Amsterdam
   ted@nlnetlabs.nl


References

   [1] Lewis, E. "DNS Security Extension Clarification on Zone Status",
       www.ietf.org/internet-drafts/draft-ietf-dnsext-zone-status-04.txt
   [2] Bradner, S. "Key words for use in RFCs to Indicate Requirement
          Levels", RFC 2119
       www.ietf.org/rfc/rfc2119.txt
   [3] Eastlake, D. "DNS Security Extensions", RFC 2535
       www.ietf.org/rfc/rfc2535.txt
   [4] Andrews, M., Eastlake, D. "Domain Name System (DNS) Security Key Rollover"
       www.ietf.org/internet-drafts/draft-ietf-dnsop-rollover-01.txt
   [5] Gieben, R. "Chain of trust"
       secnl.nlnetlabs.nl/thesis/thesis.html


Full Copyright Statement

   Copyright (C) The Internet Society (2001).  All Rights Reserved.

   This document and translations of it may be copied and furnished
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   it or assist in its implementation may be prepared, copied, published
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   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.



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   This document and the information contained herein is provided on
   an "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET
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