Internetworking Over NBMA Working Group James V. Luciani
INTERNET-DRAFT (Bay Networks)
<draft-ietf-ion-transition-00.txt> Expires March 1997
Classical IP to NHRP Transition
Status of this Memo
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Abstract
This document describes methods and procedures for the graceful
transition from an ATMARP LIS[1] to an NHRP LIS[2] network model over
ATM.
1. Introduction
ATMARP defines an initial application of classical IP and ARP in an
ATM network environment configured as a LIS[1]. ATMARP only
considers application of ATM as a direct replacement for the "wires"
and local LAN segments connecting IP end-stations and routers
operating in the "classical" LAN-based paradigm.
The NBMA Next Hop Resolution Protocol (NHRP) allows a source station
(a host or router), wishing to communicate over a Non-Broadcast,
Multi-Access (NBMA) subnetwork, to determine the internetworking
layer addresses and NBMA addresses of suitable "NBMA next hops"
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toward a destination station. If the destination is connected to the
NBMA subnetwork and direct communication is administratively allowed,
then the NBMA next hop is the destination station itself. Otherwise,
the NBMA next hop is the egress router from the NBMA subnetwork that
is "nearest" to the destination station. For the purposes of this
document, the NBMA network is of type ATM.
It is reasonable to expect that ATMARP Clients and NHRP Clients will
initially coexist within a LIS. Thus, it is necessary to define a
graceful transition, including a period of coexistance, from the use
of ATMARP to the use of NHRP for address resolution in the LIS
[1][2]. In short, NHSs will be required to respond to ATMARP Client
queries in a fashion which will permit continued use of the ATMARP
Client within the LIS during the ATMARP to NHRP transition period.
Note that this document places no protocol requirements upon
ATMARP[1] servers.
For the following, it will be assumed that the reader is familiar
with the terminology as described in [1][2][3].
2. Service Requirements
If NHRP is to be used in a LIS then only NHSs will be used in the
LIS; that is, there will not be a mixture of NHSs and ATMARP servers
within the same LIS. Since ATMARP servers will not be able to
understand NHCs and since since, as described below, NHSs will
respond to ATMARP Clients, this is a reasonable simplifying
restriction.
This document will only address SVC based environments and will not
address PVC environments. This document will refer only to ATM AAL5
as the NBMA and IP as the protocol layer since ATMARP only addresses
these protocols.
2.1 NHRP Server Requirements
If NHRP Servers (NHS) are to be deployed in a LIS which contains both
ATMARP Clients and NHRP Clients then NHSs MUST respond to
ATMARP_Requests sent by ATMARP Clients in the same fashion that an
ATMARP Server would respond as described in [1]. To do this, the NHS
MUST first recognize the LLC/SNAP ATMARP code point with LLC=0xAA-
AA-03, OUI=0x00-00-00, and ethertype=0x08-06. Further, the NHS MUST
recognize the packet formats described in Section 8.7 of [1].
However, since this document does not extend to PVC environments,
NHSs MUST only receive/respond to values of ar$op of 1,2,10
(Decimal). If an NHS receives an ATMARP message with ar$op values
other than those previously noted then the NHS MUST discard the
packet and MUST NOT take any further action.
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When an NHS receives a valid (as defined in the previous paragraph)
ATMARP_Request packet, the NHS MUST follow the rules described in
Section 8.4 of [1] with the following additional processing:
1) When an ATMARP_Request causes a new table entry in the NHS for an ATMARP Client,
that table entry MUST be marked as being of type "ATMARP" so that it can be
differentiated from an NHRP sourced entry.
2) An ATMARP_Request MUST NOT cause an ATMARP_Reply to be sent if that ATMARP_Request
contains an off-LIS protocol address. This should never happen because the IP stack
on the requesting machine should automatically send the packet to the default
router. If this does occur then the ATMARP_Request MUST cause an ATMARP_NAK to
be sent to the originator.
In [1], an ATMARP_Request packet also serves as a
registraion/registration-update packet which would cause a server to
add an entry to a server's cache or to update a previously existing
entry. When an NHS receives an ATMARP_Request which causes the
creation of a new cache entry in the NHS or updates an existing entry
then that cache entry will have a holding time of 20 minutes (this is
the default value in [1]).
An NHS receiving an NHRP Resolution Request MUST NOT send a positive
NHRP Resolution Reply for a station which registered via ATMARP if
the station sending the NHRP Resolution Request is outside the LIS of
the station which registered itself via ATMARP. This is because the
station which registered via ATMARP is almost certainly not prepared
to accept a cut-through. When this occurs, the replying NHS must
send NHRP Resolution Reply which contains a CIE code of "12 - No
Internetworking Layer Address to NBMA Address Binding Exists" as
described in [2]. This type of reply does not preclude the station
sending the NHRP Resolution Request from sending its data packets
along the routed path but it does preclude that station from setting
up a cut-through VC.
2.2 Multi-server environments
Since NHRP works in a multi-server environment on a per LIS basis, it
is useful to make a few comments about the cache synchronization
necessary in a hybrid ATMARP/NHRP LIS. ATMARP and NHRP have
different cache overwrite rules. An NHC is permitted to register its
addresses with multiple NHSs while ATMARP Clients are not. The cache
over-write rules are described in [1][2].
A simple rule of thumb for the synchronization of ATMARP initiated
entries in an NHS is as follows:
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if it were the case that the LIS contained only a single NHRP
server acting as an ATMARP server and, as a result of an
ATMARP_Request, a cache update would occur in that single server
then in a multi-server environment the resultant cache update MUST
be propagated to all NHSs in the LIS.
Further information on cache over-write strategies for ATMARP and
NHRP servers can be found in [3].
3. Security Considerations
Not all of the security issues relating to IP over ATM are clearly
understood at this time, due to the fluid state of ATM
specifications, newness of the technology, and other factors.
It is believed that ATM and IP facilities for authenticated call
management, authenticated end-to-end communications, and data
encryption will be needed in globally connected ATM networks. Such
future security facilities and their use by IP networks are beyond
the scope of this memo.
There are known security issues relating to host impersonation via
the address resolution protocols used in the Internet [4]. No
special security mechanisms have been added to ATMARP. While NHRP
supplies some mechanisms for authentication, ATMARP does not. Since
any security mechanism is only as good as its weakest link, it should
be assumed that when NHRP and ATMARP exist with a given LIS, the
security of a combination is only as good as that supplied by ATMARP.
References
[1] Classical IP and ARP over ATM, Laubach, Halpern,
draft-ietf-ion-classic2-00.txt
[2] NBMA Next Hop Resolution Protocol (NHRP), Luciani, Katz, Piscitello,
Cole, draft-ietf-rolc-nhrp-10.txt.
[3] Server Cache Synchronization Protocol (SCSP) - NBMA,
J. Luciani, G. Armitage, J. Halpern, Work In Progress.
[4] Security Problems in the TCP/IP Protocol Suite, Bellovin,
ACM Computer Communications Review, Vol. 19, Issue 2, pp. 32-48,
1989.
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Acknowledgments
Thanks to Andy Malis for his input on this draft.
Author's Addresses
James V. Luciani
Bay Networks
3 Federal Street
Mail Stop: BL3-04
Billerica, MA 01821
Phone: +1 508 916 4734
Email: luciani@baynetworks.com
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