Internet DRAFT - draft-krishnan-dna-simple
draft-krishnan-dna-simple
Network Working Group S. Krishnan
Internet-Draft Ericsson
Intended status: Standards Track G. Daley
Expires: August 28, 2008 NetStar Networks
February 25, 2008
Simple procedures for Detecting Network Attachment in IPv6
draft-krishnan-dna-simple-03
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Copyright (C) The IETF Trust (2008).
Abstract
Detecting Network Attachment allows hosts to assess if its existing
addressing or routing configuration is valid for a newly connected
network.
This document provides simple procedures for detecting network
attachment in IPv6 hosts, and procedures for routers to support such
services.
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Table of Contents
1. Requirements notation . . . . . . . . . . . . . . . . . . . . 3
2. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2.1. DNA Roles . . . . . . . . . . . . . . . . . . . . . . . . 3
2.2. Applicability . . . . . . . . . . . . . . . . . . . . . . 4
3. Host Operations . . . . . . . . . . . . . . . . . . . . . . . 4
3.1. Host data structures . . . . . . . . . . . . . . . . . . . 5
3.2. Link-Layer Indication . . . . . . . . . . . . . . . . . . 5
3.3. Optimistic DAD . . . . . . . . . . . . . . . . . . . . . . 5
3.4. Sending RS and NS probes . . . . . . . . . . . . . . . . . 6
3.5. Response Gathering . . . . . . . . . . . . . . . . . . . . 6
3.6. Further Host Operations . . . . . . . . . . . . . . . . . 7
3.7. Recommended retransmission behavior . . . . . . . . . . . 7
4. Router Operations . . . . . . . . . . . . . . . . . . . . . . 8
5. Constants . . . . . . . . . . . . . . . . . . . . . . . . . . 8
6. Open Issues . . . . . . . . . . . . . . . . . . . . . . . . . 9
7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 9
8. Security Considerations . . . . . . . . . . . . . . . . . . . 9
9. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 10
10. References . . . . . . . . . . . . . . . . . . . . . . . . . . 11
10.1. Normative References . . . . . . . . . . . . . . . . . . . 11
10.2. Informative References . . . . . . . . . . . . . . . . . . 11
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 11
Intellectual Property and Copyright Statements . . . . . . . . . . 13
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1. Requirements notation
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 [1].
2. Introduction
Hosts require procedures to simply and reliably identify if they have
moved to a different IP network to the one which they have been
recently connected. In order to detect change, router and neighbour
discovery messages are used to collect reachability and configuration
information. This information is used to detect whether the existing
router and address prefixes are likely to be present.
This document incorporates feedback from host and router operating
systems implementors, which seeks to make implementation and adoption
of IPv6 change detection procedures simple for general use.
The goal of this document is to specify a simple procedure for
detecting network attachment (Simple DNA) that has the following
characteristics.
o Routers do not have to be modified to support this scheme.
o Handle only the simplest and most likely use cases.
o Work at least as quickly as standard neighbor discovery.
o False positives are not acceptable. A host should not conclude
that there is no link change when there is one
o False negatives are acceptable. A host can conclude that there is
a link change when there is none
2.1. DNA Roles
Detecting Network Attachment is performed by hosts by sending IPv6
neighbour discovery and router discovery messages to routers after
connecting to a network.
It is desirable that routers adopt procedures which allow for fast
unicast Router Advertisement (RA) messages. Routers that follow the
standard neighbor discovery procedure described in [2] will delay the
router advertisement by a random period between 0 and
MAX_RA_DELAY_TIME (defined to be 500ms) as described in Section 6.2.6
of [2]. This delay can be significant and may result in service
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disruption. Please note that support for fast unicast RAs is not
necessary since the simple dna procedure can continue to work using
the NS/NA exchange, which will complete earlier than the RA arrives.
The host detects that the link-layer may have changed, and then
simultaneously probes the network with Router Solicitations (RSs) and
Neighbour Solicitations (NSs). The host uses advertisements to
determine if the routers it currently has configured are still
available.
2.2. Applicability
There are a series of assumptions about the network environment which
underpin these procedures.
o The combination of the link layer address and the link local IPv6
address of a router is unique across links.
o Hosts receive indications when a link-layer comes up. Without
this, they would not know when to commence the DNA procedure.
If these assumptions do not hold, host change detection systems will
not function optimally. In that case, they may occasionally detect
change spuriously, or experience some delay in detecting network
attachment. The delays so experienced will be no longer than those
caused by following the standard neighbor discovery procedure
described in [2].
If systems do not meet these assumptions or if systems seek
deterministic change detection operations they are directed to follow
the complete dna procedure as defined in [6].
3. Host Operations
When a host has an existing configuration for IP address prefixes and
next hop routing, it may be disconnected from its link-layer, and
then subsequently reconnect the link-layer on the same interface.
When the link-layer becomes available again, it is important to
determine whether the existing addressing and routing configuration
are still valid.
In order to determine this, the host performs the detecting network
attachment procedure.
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3.1. Host data structures
In order to correctly perform the procedure described in this
document the host needs to maintain a data structure called the
Simple DNA address table (SDAT). Each entry in the SDAT table
consists of at least the following parameters
o IPv6 address and its related parameters like valid lifetime
o Prefix from which the address was formed
o Link local IPv6 address of the router that advertised the prefix
o Link layer (MAC) address of the router that advertised the prefix
o DHCP Unique IDentifier (DUID) in case DHCPv6 was used to acquire
the address
The steps involved in basic detection of network attachment are:
o Link-Layer Indication
o Optimistic DAD
o Sending RS and NS probes
o Response gathering and assessment
These steps are described below.
3.2. Link-Layer Indication
In order to start Detection of network attachment procedures, a host
typically requires a link-layer indication that the medium has become
available [7].
When the indication is received, the host marks all currently
configured (non-tentative) IP addresses to Optimistic state [5].
3.3. Optimistic DAD
All Router Solicitations and unicast Neighbour Solicitations sent for
DNA purposes while addresses are in optimistic state SHOULD include
the Tentative Option [4].
This allows for DAD-safe transmission of unicast response to
solicitation, even if the router has no existing Neighbour Cache
entry for the solicitor.
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3.4. Sending RS and NS probes
When a host receives a link-layer "up" indication, it SHOULD
immediately send both a Router Solicitation and if it retains at
least one valid IPv6 address, one or more unicast Neighbor
Solicitations. The Router Solicitation is sent to the All-routers
multicast address containing one of the host's optimistic unicast
source address [2][5]. If the host is in possession of more than one
valid IPv6 address, it MUST send only one router solicitation using
any one of its valid IPv6 addresses as the source address..
For the purpose of sending neighbor solicitations to previous
routers, the host first needs to pick a subset of operable IPv6
addresses (candidate set) that it wishes to use. How this subset of
addresses is picked is based on host configuration. e.g. The host
may select configured addresses from each of zero, one or two
previously connected links. If the addresses obtained from a
previous router are no longer valid, the host does include these
addresses in the candidate set for NS based probing.
For each of the addresses in the candidate set, the host looks up the
SDAT to find out the link local and MAC addresses of the router that
advertised the prefix used to form the address. It then sends an
unicast Neighbor Solicitations to each router's link local address it
obtained from the lookup on the SDAT. The host SHOULD NOT send
unicast Neighbor Solicitations to a test node corresponding to an
IPv6 address that is no longer valid.
Please note that the Neighbour Solicitations SHOULD be sent in
parallel with the Router Solicitations. Since sending NSs is just an
optimization, doing the NSs and RSs in parallel ensures that the
procedure does not run slower than it would if it only used an RS.
Be aware that each unicast solicitation which is not successful may
cause packet flooding in bridged networks, if the networks are not
properly configured. This is further described in Section 6. Where
flooding may cause performance issues within the LAN, host SHOULD
limit the number of unicast solicitations.
3.5. Response Gathering
When a responding Neighbour Advertisement is received from a test
node, the host MUST verify that both the IPv6 and link layer (MAC)
addresses of the test node match the expected values before utilizing
the configuration associated with the detected network (prefixes, MTU
etc.).
On reception of a Router Advertisement which contains prefixes which
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intersect with those previously advertised by a known router, the
host utilizes the configuration associated with the detected network.
When the host receives a router advertisement containing only
prefixes which are disjoint from known advertised prefixes, the host
MUST determine whether the solicited router advertisement corresponds
to any of the routers probed via NS. If it does, then the host
SHOULD conclude that the IPv6 addresses corresponding to that router
are no longer valid. Since any NS probes to that router will no
longer provide useful information, probing of that router SHOULD be
aborted.
Where the conclusions obtained from the Neighbor Solicitation/
Advertisement from a given router and the RS/RA exchange with the
same router differ, the results obtained from the RS/RA will be
considered definitive.
3.6. Further Host Operations
Operations subsequent to detecting network attachment depend upon
whether change was detected.
After confirming the reachability of the associated router using an
NS/NA pair, the host should assess whether it can use the existing
configured addresses using Optimistic Duplicate Address Detection
[5].
Also, the host SHOULD rejoin any solicited nodes' multicast groups
for addresses it continues to use, and select a default router [2].
If the NS based probe with a router did not complete or if the RS
based probe on the same router completed with different prefixes than
the ones in the SDAT the host MUST unconfigure all the existing
addresses received from the given router, and MUST begin address
configuration techniques, as indicated in the received Router
Advertisement [2] [8] .
3.7. Recommended retransmission behavior
In situations where Neighbor Solicitation probes and Router
Solicitation probes are used on the same link, it is possible that
the NS probe will complete successfully, and then the RS probe will
complete later with a different result. If this happens, the
implementation SHOULD abandon the results obtained from the NS probe
of the router that responded to the RS and the implementation SHOULD
behave as if the NS probe did not successfully complete. If the
confirmed address was assigned manually, the implementation SHOULD
NOT unconfigure the manually assigned address and SHOULD log an error
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about the mismatching prefix.
Where the NS probe does not complete successfully, it usually implies
that the host is not attached to the network whose configuration is
being tested. In such circumstances, there is typically little value
in aggressively retransmitting unicast neighbor solicitations that do
not elicit a response.
Where unicast Neighbor Solicitations and Router Solicitations are
sent in parallel, one strategy is to forsake retransmission of
Neighbor Solicitations and to allow retransmission only of Router
Solicitations or DHCPv6. In order to reduce competition between
unicast Neighbor Solicitations and Router Solicitations and DHCPv6
retransmissions, a DNAv6 implementation that retransmits may utilize
the retransmission strategy described in the DHCPv6 specification
[RFCDHCPv6], scheduling DNAv6 retransmissions between Router
Solicitation or DHCPv6 retransmissions.
If a response is received to any unicast Neighbor Solicitation,
Router Solicitation or DHCPv6 message, pending retransmissions MUST
be canceled. A Simple DNA implementation SHOULD NOT retransmit a
Neighbor Solicitation more than twice. To provide damping in the
case of spurious Link Up indications, the host SHOULD NOT perform the
the Simple DNA procedure more than once a second.
4. Router Operations
Hosts checking their network attachment are unsure of their address
status, and may be using Tentative link-layer addressing information
in their router or neighbour solicitations.
A router which desires to support hosts' DNA operations MUST process
Tentative Options from unicast source addressed Router and Neighbour
Solicitations, as described in [4] .
5. Constants
These constants are described as in [6].
UNICAST_RA_INTERVAL
Definition: The interval corresponding to the maximum average
rate of Router Solicitations that the router is prepared to
service with unicast responses. This is the interval at which
the token bucket controlling the unicast responses is
replenished.
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Value: 50 milliseconds
MAX_UNICAST_RA_BURST
Definition: The maximum size burst of Router Solicitations that
the router is prepared to service with unicast responses. This
is the maximum number of tokens allowed in the token bucket
controlling the unicast responses.
Value: 20
SEND_NA_GRACE_TIME
Definition: An optional period to wait after Neighbour
Solicitation before adopting a non-SEND RA's link change
information.
Value: 40 milliseconds
6. Open Issues
This section documents issues that are still outstanding within the
document, and the simple DNA solution in general.
Rate limitation for solicitations.
Hosts MAY implement hysteresis mechanisms to pace solicitations
where necessary to prevent damage to a particular medium.
Implementors should be aware that when such hysteresis is
triggered, Detecting Network Attachment may be slowed, which may
affect application traffic.
7. IANA Considerations
There are no changes to IANA registries required in this document
8. Security Considerations
When providing fast responses to router solicitations, it is possible
to cause collisions with other signaling packets on contention based
media. This can cause repeated packet loss or delay when multiple
routers are present on the link.
As such the fast router advertisement system is NOT RECOMMENDED in
this form for media which are susceptible to collision loss. Such
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environments may be better served using the procedures defined in
[6].
A host may receive Router Advertisements from non SEND devices, after
receiving a link-layer indications. While it is necessary to assess
quickly whether a host has moved to another network, it is important
that the host's current secured SEND [3] router information is not
replaced by an attacker which spoofs an RA and purports to change the
link.
As such, the host SHOULD send a Neighbour Solicitation to the
existing SEND router upon link-up indication as described above in
Section 3.2. The host SHOULD then ensure that unsecured router
information does not cause deletion of existing SEND state, within
MIN_DELAY_BETWEEN_RAS, in order to allow for a present SEND router to
respond.
The host MAY delay SEND_NA_GRACE_TIME after transmission before
adopting a new default router, if it is operating on a network where
there is significant threat of RA spoofing.
Even if SEND signatures on RAs are used, it may not be immediately
clear if the router is authorized to make such advertisements. As
such, a host SHOULD NOT treat such devices as secure until and unless
authorization delegation discovery is successful.
It is easy for hosts soliciting without SEND to deplete a SEND
router's fast advertisement token buckets, and consume additional
bandwidth. As such, a router MAY choose to preserve a portion of
their token bucket to serve solicitations with SEND signatures.
9. Acknowledgments
This document is the product of a discussion between the authors had
with Bernard Aboba, Thomas Narten, Erik Nordmark and Dave Thaler at
IETF 69. The authors would like to thank them for clearly detailing
the requirements of the solution and the goals it needed to meet and
for helping to explore the solution space. The authors would like to
thank the authors and editors of the complete DNA specification for
detailing the overall problem space and solutions. The authors would
like to thank Jari Arkko for driving the evolution of a simple and
probabilistic DNA solution. The authors would like to thank Bernard
Aboba, Thomas Narten, Sathya Narayan and Frederic Rossi for
performing reviews on the document and providing valuable comments to
drive the document forward.
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10. References
10.1. Normative References
[1] Bradner, S., "Key words for use in RFCs to Indicate Requirement
Levels", BCP 14, RFC 2119, March 1997.
[2] Narten, T., Nordmark, E., and W. Simpson, "Neighbor Discovery
for IP Version 6 (IPv6)", RFC 4861, December 1998.
[3] Arkko, J., Kempf, J., Zill, B., and P. Nikander, "SEcure
Neighbor Discovery (SEND)", RFC 3971, March 2005.
[4] Daley, G., Nordmark, E., and N. Moore, "Tentative Options for
IPv6 Neighbour Discovery", draft-ietf-dna-tentative-01 (work in
progress), July 2007.
[5] Moore, N., "Optimistic Duplicate Address Detection for IPv6",
RFC RFC4429, April 2006.
[6] Narayanan, S., "Detecting Network Attachment in IPv6 Networks
(DNAv6)", draft-ietf-dna-protocol (work in progress), June 2007.
10.2. Informative References
[7] Krishnan, S., Montavont, N., Njedjou, E., Veerepalli, S., and A.
Yegin, "Link-Layer Event Notifications for Detecting Network
Attachments", RFC 4957, August 2007.
[8] Thomson, S., Narten, T., and T. Jinmei, "IPv6 Stateless Address
Autoconfiguration", RFC 4862, September 2007.
Authors' Addresses
Suresh Krishnan
Ericsson
8400 Decarie Blvd.
Town of Mount Royal, QC
Canada
Phone: +1 514 345 7900 x42871
Email: suresh.krishnan@ericsson.com
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Greg Daley
NetStar Networks
Level 9/636 St Kilda Rd
Melbourne, Victoria 3004
Australia
Phone: +61 405 494849
Email: gdaley@netstarnetworks.com
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