Diameter Maintanence and V. Fajardo, Ed.
Extensions (DIME) Toshiba America Research Inc.
Internet-Draft T. Asveren
Intended status: Informational Sonus Network
Expires: December 8, 2007 H. Tschofenig
Nokia Siemens Networks
G. McGregor
Alcatel-Lucent
J. Loughney
Nokia Research Center
June 6, 2007
Diameter Applications Design Guidelines
draft-ietf-dime-app-design-guide-01.txt
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Abstract
The Diameter Base protocol provides rules on how to extend Diameter
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and to create new Diameter applications. This is a companion
document to clarify these rules. This document does not intended to
add, remove or change these rules, rather it helps protocol designers
to extend Diameter.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 3
3. Diameter Application Model . . . . . . . . . . . . . . . . . . 3
4. Rules on Diameter Extensibility . . . . . . . . . . . . . . . 4
4.1. Rules on Extending Existing Applications . . . . . . . . . 5
5. Design Considerations . . . . . . . . . . . . . . . . . . . . 7
5.1. Diameter Accounting Support . . . . . . . . . . . . . . . 7
5.2. Generic Diameter Extensions . . . . . . . . . . . . . . . 8
5.3. Updating an existing Application . . . . . . . . . . . . . 9
5.4. Use of optional AVPs . . . . . . . . . . . . . . . . . . . 10
5.5. Deleting AVPs from a Command ABNF . . . . . . . . . . . . 10
5.6. Justifying the Allocation of Application-Id . . . . . . . 11
5.7. Use of Application-Id in a Message . . . . . . . . . . . . 11
5.8. Application Specific Session Statemachine . . . . . . . . 11
5.9. System Architecture and Deployment . . . . . . . . . . . . 12
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 13
7. Security Considerations . . . . . . . . . . . . . . . . . . . 13
8. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 13
9. References . . . . . . . . . . . . . . . . . . . . . . . . . . 13
9.1. Normative References . . . . . . . . . . . . . . . . . . . 13
9.2. Informative References . . . . . . . . . . . . . . . . . . 14
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 14
Intellectual Property and Copyright Statements . . . . . . . . . . 16
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1. Introduction
The Diameter Base protocol document defines rules on how one would
extend Diameter (see Section 1.2 of [1]). In the context of this
document, extending Diameter means that a new Diameter application is
being defined which may or may not be based on an existing Diameter
application. A decision to define a new application would mean
allocation of a new application ID.
By themselves, the rules defined in the Diameter Base protocol are
not necessarily comprehensive enough that one can easily derive good
design decisions from them. The effect of this can be seen in
various attempts to extend Diameter where protocol designers have no
clear answer on whether to even define a new application or not. At
worst, some existing Diameter applications that had purposely been
derived from another existing application resulted in some in-
appropriate design decision in which both applications are no longer
interoperable in certain conditions.
The intent of this document is to influence ongoing and future
Diameter application design by providing the following content:
o Clarify existing Diameter extensibility rules present in the
Diameter Base Protocol.
o Clarify usage of certain Diameter functionality which are not
explicitly described in the Diameter Base specification.
o Discuss design choices when defining new applications.
o Present tradeoffs of design choices.
Note that it is not always possible to offer a complete and concise
answer to certain design choices. There is, however, the belief that
at a minimum, this document can be used as a guide to Diameter
extensibility.
2. Terminology
This document reuses the terminology used in [1].
3. Diameter Application Model
As it is currently interpreted and practiced, the Diameter Base
protocol is a two-layer protocol. The lower layer is mainly
responsible for managing connections between neighboring peers and
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for message routing. The upper layer is where the Diameter
applications reside. This model is inline with a Diameter node
having an application layer and a peer-to-peer delivery layer. The
Diameter Base protocol document completely defines the architecture
and behavior of the message delivery layer and then provides the
framework for designing Diameter applications on the application
layer. This framework includes definitions of application sessions
and accounting support (see Section 8 and 9 of [1]). The remainder
of this document also treats a Diameter node as a single instance of
a Diameter message delivery layer and one or more Diameter
applications using it.
4. Rules on Diameter Extensibility
The general theme of Diameter extensibility is to reuse AVPs, AVP
values, commands and applications as much as possible. However,
there are also rules for extending Diameter as specified in Section
1.2 of [1]. As is, the rules apply to the scenario where one is
trying to define a new Diameter application. Defining a new Diameter
application can be done by:
Defining a completely new application
This case applies to applications which have requirements that
cannot be filled by existing applications and would require
definition of new command(s), AVPs and AVP values. Typically,
there is little ambiguity about the decision to create these types
of applications. Some examples are the interfaces defined for the
IP Multimedia Subsystem of 3GPP, i.e.; Cx/Dx ([2] and [3]), Sh
([4] and [5]) etc . Though some decisions may be clear, designers
should also consider certain aspects of the application itself.
Some of these are described in Section 5. Applications design
should also follow the theme of Diameter extensibility which
advocates reuse of AVPs and AVP values as much as possible even in
newly defined commands. In certain cases where accounting will be
used, the models described in Section 5.1 should be considered.
Extending an existing application
In this case, the requirements of the new applications are not
completely unique and there are existing application's that can be
reused to solve some or all of the application requirements.
Thus, there is a greater likelihood of ambiguity on how much of
the existing application can be reused, to what extent and what
the implications for both the new and existing application.
Section 4.1 discusses some of the issues in this case.
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4.1. Rules on Extending Existing Applications
The Diameter base protocol provides a clear set of rules on when one
should define a new Diameter application. In the context of this
document, the rules are:
Adding an AVP to a command ABNF of an existing application
The rules are strict in the case where the AVP(s) to be added is
mandatory. As defined in [1], a mandatory AVP is an AVP that has
its M-bit flag set which requires a receiver to understand,
correctly interpret and process the AVP when it is present in a
message. This rule is independent of whether the AVP is defined
as required or optional to exist in a message. As long as the AVP
will added to a messages' ABNF then this rule will apply.
The mandatory AVP rules applies to AVP(s) that either already
exist in the same or in another application or the AVP(s) are yet
to be defined. The ambiguity arises when trying to decide whether
the AVP(s) should be mandatory or not. There are several
questions that application designers should contemplate when
trying to decide:
* Does the AVP(s) change the state machine of the application ?
* Would the presence of the AVP(s) cause additional message
round-trips; effectively changing the state machine of the
application ?
* Will the AVP be used to fulfill new required functionality ?
* Would the AVP be used to differentiate between old and new
versions of the same application ?
* Will it have duality in meaning; i.e., be used to carry
application related information as well as be used to indicate
that the message is for a new application ?
These questions are not comprehensive in any way but in all cases
the semantics of the application must change to justify the use of
mandatory AVPs.
However, care should also be taken when opting for optional AVPs
instead of mandatory AVPs simply to avoid allocating new
applications. Optional AVPs that fall into any of the categorical
questions above would have consequences. See Section 5.4 for
details.
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Add a new AVP value to an to an existing AVP
In this case, the rule applies to existing mandatory AVPs already
present in a command ABNF where the semantics of the AVP changes.
This means that the meaning or usage of the AVP has changed and
significantly affects the behavior of the application. Although
this case may be less common or seem more subtle, the exact same
considerations given in the first scenario above apply here as
well.
Add a command to an existing application
In this case, the rule applies to defining a new command for an
existing application or importing an existing command from another
application so as to inherit some or all of the functionality of
that application. In the first case, the decision is straight
forward since this is typically a result of adding new
functionality that does not yet exist. The latter case would
result in a new application but it has a more subtle issue such as
deciding whether importing of commands and functionality is really
better than simply using the existing application as it is in
conjunction with any new application.
A typical example would be the Diameter MIPv6 split scenario (see
[6]) in which several application models would have been possible
during the design phase; one model would reuse existing Diameter
EAP application combined with a new Diameter MIPv6 application to
form a complete authentication and authorization scheme and
another would be to reuse Diameter EAP like commands within the
new Diameter MIPv6 application to accomplish the same result. In
this case, the latter model was chosen which would permit the
reuse of commands and/or AVPs from one application to another.
Other applications such as Diameter QoS (see [7]) would likely
face similar decisions.
In general, it is difficult to come to a hard and fast guideline
for this scenario so a case by case study of each application
requirement should be applied. Before importing a command,
application designers should consider whether:
* The existing application can be reused as is without
fundamental changes; i.e. an optional AVP is sufficient to
indicate support for new optional functionality if any. There
are pitfalls to this as well. See Section 5.4
* Reuse of existing applications would result in a distributed
environment which may not be conducive to certain requirements
of the applications; i.e. security and or deployment
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difficulties - because of Diameter routing, messages for
different applications providing service to the same user may
end up in different servers would then need to be co-related.
This could mean extra signaling between application servers. A
typical example would be the initial proposal for Diameter
MIPv6 split scenario (see [6]) where authorization and
authentication is separated.
5. Design Considerations
The following are some of the design considerations that apply to a
Diameter application.
5.1. Diameter Accounting Support
Accounting can be treated as an auxiliary application which is used
in support of other applications. In most cases, accounting support
is required when defining new applications. However, the lack of
clarity in the base protocol document has prevented easy use the base
accounting messages (ACR/ACA). This document provides two(2)
possible models for using accounting:
Split Accounting Model
In this model, the accounting messages will use the Diameter base
accounting application ID (value of 3). The design implication
for this is that the accounting is treated as an independent
application, especially during routing. This means that
accounting commands emanating from an application may be routed
separately from the rest of the other application messages. This
also implies that the messages generally end up in a central
accounting server. A split accounting model is a good design
choice when:
* The application itself will not define its own unique
accounting commands.
* The overall system architecture permits the use of centralized
accounting for one or more Diameter applications.
From a Diameter architecture perspective, this model should be the
typical design choice. Note that when using this model, the
accounting server must use the Acct-Application-Id AVP to
determine which application is being accounted for. Therefore,
the application designer should specify the proper values used in
Acct-Application-Id AVP when sending ACR messages.
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Coupled Accounting Model
In this model, the accounting messages will use the application ID
of the application using the accounting service. The design
implication for this is that the accounting messages is tightly
coupled with the application itself; meaning that accounting
messages will be routed like any other application messages. It
would then be the responsibility of the application server
(application entity receiving the ACR message) to send the
accounting records carried by the accounting messages to the
proper accounting server. The application server is also
responsible for formulating a proper response (ACA). A coupled
accounting model is a good design choice when:
* The system architecture or deployment will not provide an
accounting server that supports Diameter.
* The system architecture or deployment requires that the
accounting service for the specific application should be
handled by the application itself.
* The application server is provisioned to use a different
protocol to access the accounting server; i.e., via LDAP, XML
etc. This includes attempting to supporting older accounting
systems that are not Diameter aware.
In all cases above, there will generally be no direct Diameter
access to the accounting server.
These models provide a basis for using accounting messages.
Application designers may obviously deviate from these models
provided that the factors being addressed here have also been taken
into account. Though it is not recommended, examples of other
methods would be defining a new set of commands to carry application
specific accounting records.
Additionally, the application ID in the message header and
Accounting-Application-Id AVP are populated depending on the
accounting model used for a specific application, as described in
[1]. Therefore, application designers have to specify the accounting
model used to guarantee proper routing of accounting requests.
5.2. Generic Diameter Extensions
Generic Diameter extensions are AVPs, commands or applications that
are designed to support other Diameter applications. They are
auxiliary applications meant to improve or enhance the Diameter
protocol itself or Diameter applications/functionality. Some
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examples include the extensions to support auditing and redundancy
(see [9]), improvements in duplicate detection scheme (see [10]).
Since generic extensions can cover many aspects of Diameter and
Diameter applications, it is not possible to enumerate all the
probable scenarios in this document. However, some of the most
common considerations are as follows:
o Backward compatibility: Dealing with existing applications that do
not understand the new extension. Designers also have to make
sure that new extensions do not break expected message delivery
layer behavior.
o Forward compatibility: Making sure that the design will not
introduce undue restrictions for future applications. Future
applications attempting to support this feature should not have to
go through great lengths to implement any new extensions.
o Tradeoffs in signaling: Designers may have to choose between the
use of optional AVPs piggybacked onto existing commands versus
defining new commands and applications. Optional AVPs are simpler
to implement and may not need changes to existing applications;
i.e., use of proxy agents. However, the drawback is that the
timing of sending extension data will be tied to when the
application would be sending a message. This has consequences if
the application and the extensions have different timing
requirements. The use of commands and applications solves this
issue but the tradeoff is the additional complexity of defining
and deploying a new application. It is left up to the designer to
find a good balance among these tradeoffs based on the
requirements of the extension.
5.3. Updating an existing Application
An application that is being upgraded must follow the same rules
mentioned Section 4. Even if the new version is fundamentally the
same application, allocation of a new application ID is possible if
it meets those criteria.
Optional AVPs can also be used to indicate version differences. If
this approach is chosen, it is recommended that the optional AVP is
used specifically to indicate version information only and nothing
else. Additionally, the use of too many optional AVPs to carry
application enhancements should be avoided since such approach has a
tendency to become unmanageable and introduce interoperability
issues. These pitfalls are discussed in Section 5.4
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For the same reason, care should be taken in attempting to justify
allocation of new application ID for every change. The pitfalls of
this approach is discussed in Section 5.6.
5.4. Use of optional AVPs
Problems arise when there is a tendency by applications designers to
keep adding optional AVPs to an existing command so they can
circumvent the extension rules in Section 4. Some of the pitfalls
that application designers should avoid are:
o Use of optional AVPs with intersecting meaning; one AVP has
partially the same usage and/or meaning as another AVP. The
presence of both can lead to confusion.
o Optional AVPs with dual purpose; i.e.; to carry applications data
as well as to indicate support for one or more features. This has
a tendency to introduce interpretation issues.
o Use of optional AVPs with a minimum occurrence of one(1) in the
command ABNF. This is generally contradictory. Application
designers should not use this scheme to circumvent definition of
mandatory AVPs.
All of these practices generally result in interoperability problems
so they should be avoided as much as possible.
5.5. Deleting AVPs from a Command ABNF
Although this scenario is not as common, the deletion of AVPs from a
command ABNF is significant when trying to extend an existing
application. Deletion can be categorized between deletion of
mandatory and optional AVPs.
In the unlikely event that an application designer would require that
mandatory AVPs must be deleted then it constitutes a fundamental
change to an existing application. Though not specified in [1],
deletion of mandatory would most likely require the allocation of a
new application since it dictates changes in the behavior and
semantics of an application.
Additionally, it is highly recommended that a new command code be
defined that would represent the new behavior. Reusing the same
command code would lead to more confusion since the command will have
different semantics depending usage or context. This applies
especially to some of the base protocol commands (session related
commands defined in [1]) where they are being used by many different
applications.
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The deletion of an optional AVP may not necessarily indicate
allocation of a new application. An optional AVP with a minimum
occurrence of at least one(1) in the command ABNF would mean that the
AVP is required and that if deleted, there would effectively be
changes to the behavior of the application as well. Such cases are
highly dubious to begin with since those AVPs already exhibits
properties of mandatory AVPs. It should therefore fall into the
category of deleting mandatory AVPs.
In other cases, it is recommended that application designers reuse
the command ABNF as is and safely ignore (but not delete) any
optional AVP that will not be used. This is to maintain
compatibility with existing applications that will not know about the
new functionality as well as maintain the integrity of existing
dictionaries.
5.6. Justifying the Allocation of Application-Id
Application designers should avoid justifying the allocation of
application IDs for every change that is made to an existing
application. Proliferation of application ID can lead to confusion
and an in-efficient use of the application ID namespaces.
Application designers should always use Section 4 as a basis for
justifying allocation of a new application ID.
5.7. Use of Application-Id in a Message
When designing new applications, designers should specify that the
application ID carried in all session level messages must be the
application ID of the application using those messages. This
includes the session level messages defined in base protocol, i.e.,
RAR/RAA, STR/STA, ASR/ASA and possibly ACR/ACA in the coupled
accounting model, see Section 5.1. Existing specifications may not
adhere to this rule for historical or other reasons. However, this
scheme is followed to avoid possible routing problems for these
messages.
Additionally, application designers using the Vendor-Specific-
Application-Id AVP should note that the Vendor-Id AVP will not be
used in any way by the Diameter message delivery layer. Therefore
its meaning and usage should be segregated only within the
application.
5.8. Application Specific Session Statemachine
Section 8 of [1] provides session statemachines for authentication,
authorization and accounting (AAA) services. When a new application
is being defined that cannot clearly be categorized into any of these
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services it is recommended that the application itself defines its
own session statemachine. The existing session statemachines defined
by [1] is not intended for general use beyond AAA services therefore
any new behavior would most likely not fit well. Support for server
initiated request is a clear example where an application specific
session statemachine would be needed; i.e. Rw interface for ITU-T
push model.
5.9. System Architecture and Deployment
The following are some of the architecture considerations that
applications designers should contemplate when defining new
applications:
o For general AAA applications, Diameter requires more message
exchanges for the same set of services compared to RADIUS.
Therefore, application designers should consider scalability
issues during the design process.
o Application design should be agnostic to any Diameter topology.
Application designers should not always assume a particular
Diameter topology; i.e., assume that there will always be
application proxies in the path or assume that only intra-domain
routing is applicable.
o Security Considerations. Application designers should take into
account that there is no end-to-end authentication built into
Diameter.
o Application design should consider some form of redundancy.
Session state information is the primary data necessary for
backup/recovering endpoints to continue processing for an
previously existing session. Carrying enough information in the
messages to reconstruct session state facilitates redundant
implementations and is highly recommended.
o Application design should segregate message delivery layer
processing from application level processing. An example is the
use of timers to detect lack of a response for a previously sent
requests. Although the Diameter base protocol defines a watchdog
timer Tw, its use on application level is discouraged since Tw is
a hop-by-hop timer and it would not be relevant for end-to-end
message delivery error detection. In such a case, it is
recommended that applications should define their own set of
timers for such purpose.
o Applications should specify AVPs which could be used to further
aid in duplication detection. In some cases, when extending an
application, existing AVPs can be reused to provide additional
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duplication detection indicators; i.e., combination of Session-Id
and CC-Request-Number AVPs in the Diameter Credit Control
application [8]. In cases where the extensions needs to define
new AVPs, it is recommended that the new AVPs be used only for
this purpose.
6. IANA Considerations
This document does not require actions by IANA.
7. Security Considerations
This document does provides guidelines and considerations for
extending Diameter and Diameter applications. It does not define nor
address security related protocols or schemes.
8. Acknowledgments
We greatly appreciate the insight provided by Diameter implementers
who have highlighted the issues and concerns being addressed by this
document.
9. References
9.1. Normative References
[1] Calhoun, P., Loughney, J., Guttman, E., Zorn, G., and J. Arkko,
"Diameter Base Protocol", RFC 3588, September 2003.
[2] 3GPP, "IMS Cx and Dx interfaces : signalling flows and message
contents", 3GPP TS 29.228 Version 7.0.0 2006.
[3] 3GPP, "IMS Cx and Dx interfaces based on the Diameter protocol;
Protocol details", 3GPP TS 29.229 Version 7.0.0 2006.
[4] 3GPP, "IMS Sh interface : signalling flows and message
content", 3GPP TS 29.328 Version 6.8.0 2005.
[5] 3GPP, "IMS Sh interface based on the Diameter protocol;
Protocol details", 3GPP TS 29.329 Version 6.6.0 2005.
[6] Bournelle, J., "Diameter Mobile IPv6: HA <-> HAAA Support",
draft-ietf-dime-mip6-split-02 (work in progress), May 2007.
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[7] Zorn, G., "Diameter Quality of Service Application",
draft-ietf-dime-diameter-qos-00 (work in progress),
February 2007.
[8] Hakala, H., Mattila, L., Koskinen, J-P., Stura, M., and J.
Loughney, "Diameter Credit-Control Application", RFC 4006,
August 2005.
9.2. Informative References
[9] Calhoun, P., "Diameter Resource Management Extensions",
draft-calhoun-diameter-res-mgmt-08.txt (work in progress),
March 2001.
[10] Asveren, T., "Diameter Duplicate Detection Cons.",
draft-asveren-dime-dupcons-00 (work in progress), August 2006.
Authors' Addresses
Victor Fajardo (editor)
Toshiba America Research Inc.
One Telcordia Drive
Piscataway, NJ 08854
USA
Email: vfajardo@tari.toshiba.com
Tolga Asveren
Sonus Network
4400 Route 9 South
Freehold, NJ, 07728
USA
Email: tasveren@sonusnet.com
Hannes Tschofenig
Nokia Siemens Networks
Otto-Hahn-Ring 6
Munich, Bavaria 81739
Germany
Phone: +49 89 636 40390
Email: Hannes.Tschofenig@nsn.com
URI: http://www.tschofenig.com
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Glenn McGregor
Alcatel-Lucent
USA
Email: glenn@aaa.lucent.com
John Loughney
Nokia Research Center
USA
Email: john.loughney@nokia.com
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