Network Working Group R. Atarashi
Internet-Draft Communications Research Laboratory
Expires: December 23, 2002 F. Baker
Cisco Systems
June 24, 2002
Diffserv Reflexive DSCP
draft-ietf-ieprep-reflexive-dscp-00
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Copyright Notice
Copyright (C) The Internet Society (2001). All Rights Reserved.
Abstract
In reviewing the specific use of the Differentiated Services
Architecture for supporting the Internet Emergency Preparedness
System, we found what we believe is a general issue. This is that
even though a client or peer can connect to a server or peer with a
predictable DSCP value, the response does not have a predictable DSCP
value. We consider the issues, and recommend an approach to
application policy regarding the DSCP.
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1. Introduction
In reviewing the specific use of the Differentiated Services
Architecture for supporting the Internet Emergency Preparedness
System, we found what we believe is a general issue. This is that
even though a client or peer can connect to a server or peer with a
predictable DSCP value, the response does not have a predictable DSCP
value. We consider the issues, and recommend an approach to
application policy regarding the DSCP.
As such, we will make specific recommendations for all applications.
In doing so, we will use the language described in RFC 2119 [1]. 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 RFC 2119 [1].
1.1 Problem Statement
Figure 1 presents a connection being placed between two applications
across a differentiated services network.
. . . . . . . . . . . . . . .
. . . . . .
. Client . . . . Server .
. /-----------/ . . /------------/ . . /---------------/.
. Router -----/----- Router Router -----/----- Router .
. . . . . .
. . . . . .
. . . . . . . . . . . . . . .
Figure 1: Connection across a network
A behavior aggregate originated in part by a certain client toward a
given server in a remote network may have certain application
requirements, such as requiring service appropriate to an ERP
application, videostream or voice. One application may use different
aggregates for different purposes, and therefore have different
requirements. So the application may not be able to tell a priori
what DSCP it should use or respond with.
In addition, DSCPs have local significance in the Differentiated
Services Architecture. It is possible and perhaps likely that a
behavior aggregate might use different code points in different
networks.
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2. Policy recommendations
We consider that there are a number of possible approaches to this
issue. The simplest, which we fear is currently standard in
Differentiated Services hosts, is to simply select a default value,
such as "always make TCP applications use AF11". For some
applications, such as voice (EF), this approach is appropriate, but
for many it is not.
2.1 Default DSCP policy in a responder
When a system accepts sessions initiated from another system, and
there is no specific local policy, the responder SHOULD use the same
DSCP Group as its request. Thus, if a TCP SYN arrives using any of
AF11, AF12, or AF13, the TCP SYN-ACK and subsequent messages SHOULD
use AF11 as the DSCP. When in doubt as to the set of DSCP code
points comprising a DSCP Group, it SHOULD respond with exactly the
same DSCP.
There has been interest of late in changing the quality of service
behavior for different portions of the same session, such as on a
per-URL basis. The requester could initiate this. Thus, if the DSCP
received on one TCP segment differs from the TCP used on a prior TCP
segment in a session, the new DSCP SHOULD be reflected unless local
policy prevents this.
One way to implement this requires the receiving transport (TCP,
SCTP, etc) to save the received DSCP and use an API to determine the
correct responding DSCP from a configuration file. The configuration
file lists the 64 possible DSCP values and the correct response. In
most cases, the two SHOULD be the same, but the twelve AFxy code
points map to AFx1. Local policy MAY update this mapping.
2.2 Application-directed DSCP policy
The originator of a session, which is to say the application that
opens it, SHOULD normally select the DSCP value used. This, of
course, needs to be consistent with local network policy, and may be
dictated entirely by that policy.
The application would do this through an API, ideally one that maps
the application to a DSCP value through local administrative policy.
Thus, the API could set the DSCP for signaling of voice calls to a
specific value, such as AF31. It would be better, though, if the API
were to set it to a key word such as "VoiceSignaling" or
"DatabaseAccess", and enable the network administration to interpret
the key word to an appropriate code point. One way to implement this
would be for the API code to look the key word up in a file or an
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LDAP Policy.
It is possible for the responding application to use this same API.
For example, separate policies might apply to database records of one
type and database records of another type, something that only the
database access application could determine. It is also possible for
the application exchange to communicate a desired DSCP, and the
responding application to use the API accordingly. In such a case,
the application exchange MUST specify the key word rather than the
specific DSCP, as it cannot know the applicable policy in the
responder's network.
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3. IANA Considerations
No action has been requested of IANA.
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4. Security Considerations
This document discusses policy, and describes a recommended default
policy, for the use of a Differentiated Services Code Point by
transports and applications. If implemented as described, it should
ask the network to do nothing that the network has not already
allowed. If that is the case, no new security issues should arise
from the use of such a policy.
It is possible, however, for the policy to be applied incorrectly, or
for another policy to be applied, which would be incorrect in the
network. In that case, a policy issue exists which the network must
detect, assess, and deal with. This is a known security issue in any
network dependent on policy-directed behavior.
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5. Acknowledgements
The authors would like to thank Hiroyuki Ohno, Toshio Shimojo,
Shigeru Miyake and Yoshifumi Atarashi for their suggetions.
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References
[1] Bradner, S., "Key words for use in RFCs to Indicate Requirement
Levels", BCP 14, RFC 2119, March 1997.
[2] Nichols, K., Blake, S., Baker, F. and D. Black, "Definition of
the Differentiated Services Field (DS Field) in the IPv4 and
IPv6 Headers", RFC 2474, December 1998.
[3] Blake, S., Black, D., Carlson, M., Davies, E., Wang, Z. and W.
Weiss, "An Architecture for Differentiated Services", RFC 2475,
December 1998.
[4] Heinanen, J., Baker, F., Weiss, W. and J. Wroclawski, "Assured
Forwarding PHB Group", RFC 2597, June 1999.
[5] Bernet, Y., Ford, P., Yavatkar, R., Baker, F., Zhang, L., Speer,
M., Braden, R., Davie, B., Wroclawski, J. and E. Felstaine, "A
Framework for Integrated Services Operation over Diffserv
Networks", RFC 2998, November 2000.
[6] ITU-T, "Service Description for an International Emergency
Multimedia Service", ITU-T Draft Recommendation F.706, August
2001.
Authors' Addresses
Rei S. Atarashi
Communications Research Laboratory
4-2-1 Nukui-Kitamachi
Koganei, Tokyo 184-8795
JP
Phone: +81-42-327-6243
Fax: +81-42-327-7941
EMail: ray@crl.go.jp
Fred Baker
Cisco Systems
1121 Via Del Rey
Santa Barbara, CA 93117
US
Phone: +1-408-526-4257
Fax: +1-413-473-2403
EMail: fred@cisco.com
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