One document matched: draft-calhoun-diameter-framework-02.txt
Differences from draft-calhoun-diameter-framework-01.txt
INTERNET DRAFT Pat R. Calhoun
Category: Standards Track Sun Microsystems, Inc.
Title: draft-calhoun-diameter-framework-02.txt Glen Zorn
Date: December 1998 Microsoft Corporation
Ping Pan
Bell Labs
DIAMETER Framework Document
<draft-calhoun-diameter-framework-02.txt>
Status of this Memo
This document is an Internet-Draft. Internet-Drafts are working docu-
ments of the Internet Engineering Task Force (IETF), its areas, and
its working groups. Note that other groups may also distribute work-
ing documents as Internet-Drafts.
Internet-Drafts are draft documents valid for a maximum of six
months. Internet-Drafts may be updated, replaced, or obsoleted by
other documents at any time. It is not appropriate to use Internet-
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ing draft'' or ``work in progress.''
To learn the current status of any Internet-Draft, please check the
1id-abstracts.txt listing contained in the Internet-Drafts Shadow
Directories on ds.internic.net, nic.nordu.net, ftp.nisc.sri.com, or
munnari.oz.au.
Abstract
As the number of new internet services has increased in the past cou-
ple of years, routers and network access servers (NAS) have had to
undergo re-engineering to support them.
These new services could often benefit from an Authentication,
Authorization and Accounting (AAA) protocol to facilitate off-loading
policy information to an external server.
The DIAMETER protocol defines a policy protocol used by clients to
perform Policy, AAA and Resource Control. This allows a single server
to handle policies for many services.
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Table of Contents
1.0 Introduction
1.1 Terminology
2.0 DIAMETER Architecture
2.1 DIAMETER Base Protocol
2.1.1 Proxy Support
2.1.2 DIAMETER Brokers
2.1.3 DIAMETER Security
2.2 Resource Management Extension
2.3 Authentication/Authorization Mechanism
2.4 Accounting Extension
2.5 DIAMETER Command Naming Conventions
2.5.1 Request/Response
2.5.2 Query/Response
2.5.3 Indication
3.0 Why not LDAP?
4.0 References
5.0 Acknowledgements
6.0 Author's Address
Appendix A. "Drinks" Policy Extension
1.0 Introduction
As the number of new internet services has increased in the past cou-
ple of years, routers and network access servers (NAS) have had to
undergo re-engineering to support them.
These new services could often benefit from an Authentication,
Authorization and Accounting (AAA) protocol to facilitate off-loading
policy information to an external server.
An example of such a service is dial-up PPP Internet access. Large
ISPs cannot bear the administrative burden to configure all of their
users on each NAS everytime a new device is deployed. In this case
RADIUS [1] has been used successfully by many such ISPs.
New services such as Voice over IP, Fax over IP [6], Mobile IP [7]
and RAP [5] also require similar services in order to be able to
authenticate, retrieve authorization information, and generate
accounting records for billing purposes.
The current trend is for each working groups to define its own policy
protocol for a specific service, each with their own nuances. This
requires requires customers to deploy several policy servers, which
increases the cost of administration and complicates deployment.
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DIAMETER offers a common solution by defining a base protocol that
defines the header formats, security extensions and requirements as
well as a small number of mandatory commands and AVPs. A new service
can extend DIAMETER by extending the base protocol to support new
functionality.
1.1 Terminology
AAA
Authentication, Authorization and Accounting.
AVP
The DIAMETER protocol consists of a header followed by objects.
Each object is encapsulated in a header known as an Attribute-
Value-Pair.
Commands
The DIAMETER Protocol is a request/response protocol. Each DIAME-
TER message includes a Command AVP that is used to identify the
type of request or response.
Integrity Check Vector (ICV)
An Integrity Check Vector is an unforgeable or secure hash of the
packet with a shared secret.
2.0 DIAMETER Architecture
The Base DIAMETER Architecture consists of three modules, which
defines a small set of primitives that MUST be implemented by all
DIAMETER entities.
Many applications require that the policy server maintain session
state information. The Resource Management extension provides this
capability between client and a server as well as between two
servers.
Most services using DIAMETER require accounting. The current IETF's
standard protocol for accounting is SNMP, but experience indicates
that SNMP often is not the correct protocol for service accounting.
Many applications and services use RADIUS Accounting [4] as their
accounting protocol, however RADIUS accounting is not a standard pro-
tocol and is informational only. A standard accounting protocol is
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required.
The following diagram provides a representation of the DIAMETER
Architecture. As an example, a fictional Policy Extension has been
added to the architecture. This fictional service is described here
in order to to illustrate how a service could make use of DIAMETER.
+------------+
| Policy |
| |
| Extension |
+------------+
+------------+ / \ +------------+
| Resource | | | Accounting |
| | | | |
| Management | | | Extension |
+------------+ | +------------+
/ \ | / \
| | |
\ / \ / \ /
+--------------------------------------------------+
| |
| DIAMETER Base Protocol |
| |
+--------------------------------------------------+
Figure 1: DIAMETER Protocol Architecture
Design direction for more extensions will be taken from the user (ISP
and network operations) community.
2.1 DIAMETER Base Protocol
The Base Protocol defines a set of primitives and the security model
used between DIAMETER peers. The following goals motivate the defini-
tion of the base protocol:
- lightweight and simple to implement.
- Support unsolicited messages.
- Feature discovery.
- Version negotiation.
- unsupported extension notification.
- Efficient encoding of Attributes.
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- Large AVP address space.
- Support for vendor specific AVPs and Commands.
- The protocol MUST support both TCP and UDP.
- Reliable over non-reliable protocols.
- Inter-Server communication.
- Authentication and privacy for policy messages.
- End-to-End Security.
- Session Oriented Protocol.
The DIAMETER base protocol is intended to provide a transport for all
extensions. It is therefore imperative that the protocol be light-
weight and simple to implement.
One design goal behind DIAMETER is to allow a "server" to send unsol-
icited messages to a "client". DIAMETER's predecessor, RADIUS, was a
client/server protocol that required the client to initiate a
request. This limitation restricted RADIUS to a small set of applica-
tions and will be handled in DIAMETER.
Feature Discovery is intended to dramatically reduce the administra-
tive overhead associated with Policy Server configuration. A DIAMETER
client can use the a DIAMETER service-type request over SLP [2] to
locate Policy Servers within the network, and then a set of DIAMETER
messages to retrieve the supported extensions.
DIAMETER version negotiation will also reduce the administrative
overhead in policy server configuration. DIAMETER entities SHOULD
agree to use the higher DIAMETER protocol version number that they
commonly support.
In order to ensure future extensibility does not break current imple-
mentations, the protocol must provide a mechanism that allows an
indication to be sent to a peer when a DIAMETER message with an
unrecognized command is received.
Information is carried in a DIAMETER message through the use of AVPs.
These AVPs consists of three parts; The AVP Identifier, the length
and the data. The AVP Identifier which assigns a unique value to
each object. The AVP Identifier address space must be sufficiently
large to ensure that future extensibility is not limited to the size
of the address space. Vendors wishing to add "proprietary" extensions
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to the protocol must be allowed to do so by using a vendor specific
address space.
The AVP data (or object) length must be large enough to carry infor-
mation without requiring that the object be fragmented across many
AVPs. In order to ensure that AVP encoding/decoding is processor
efficient, the protocol will require 32-bit alignment which is con-
sistent with most new IETF protocols.
UDP is preferable for policy applications that require "fine tuned"
retransmission strategies. For applications that require support for
larger messages and are not as concerned with the retransmission pol-
icy, TCP can be used. Each individual extension may specify the
underlying transport requirements.
For implementations using DIAMETER over UDP, the DIAMETER protocol
MUST provide a reliable transport and a well defined retransmission
scheme. This include support of windowing as well as a mechanism to
detect that communication with the peer is still possible.
The DIAMETER protocol is a session oriented protocol, meaning that
each authentication/authorization request must belong to a session,
which is identified through a Session Identifier. All subsequent
DIAMETER transactions done on behalf of the session must include the
Session Identifier.
2.1.1 Proxy Support
One key differentiator with DIAMETER is its inherent support for
Inter-Server communication. Although this can be achieved in a
variety of ways, the most useful feature is the ability to "proxy"
messages across a set of DIAMETER servers (known as a proxy chain).
One key application for DIAMETER is ROAMOPS [3], which defines a
method for Service Providers to provide inter-domain Dial-Up Internet
access. An example would be a user has an internet account with some
local provider in the San Francisco bay area and the user travels to
Rome. This user would like to be able to access the internet, but the
cost of International long distance prohibits the user from doing so.
If the user's ISP provides roaming capabilities, the user can dial
any one of many ISPs that have a roaming agreement with his home ISP.
If there are such ISPs in Rome, the user will be able to access the
Internet through a local call and keep the costs down significantly.
Although all DIAMETER servers in the proxy chain may belong to the
same administrative domain, the protocol must be designed to allow
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these servers to reside within different domains.
Rome ISP Bay-Area ISP
+--------+ +--------+
| proxy | | policy |
| policy |<--------------->| |
| server | server-server | server |
+--------+ communication +--------+
/ /|\
/ | client-server
/ | communication
|/_ \|/
+--------+ +--------+
| Dial-Up| | Dial-Up|
| router | | router |
+--------+ +--------+
Figure 2: Client communication through a proxy server
2.1.2 DIAMETER Brokers
As mentioned in the previous section, the DIAMETER protocol was
designed to support "proxying" of messages through a set of AAA
servers. The protocol must also support a new business model that is
increasing in popularity in the Internet, which is the broker or
"clearing house". Brokers are settlement agents, and are very similar
to the EDI Clearing Houses described in [14]. They establish business
relationships with providers and proxy authentication and accounting
requests to the appropriate destination. The security requirements of
this business model can be very different from the previous section,
since it may require such features as non-repudiation and end-to-end
integrity.
+----------+ +----------+
| AAA |<--------------->|Settlement|
| ISPA.Net | server-server | Agent |
+----------+ communication +----------+
|\- /|\
\ | server-server
\ | communication
\ \|/
End-to-End \ +----------+
Security \ | AAA |
\| | ISPB.Net |
- +----------+
Figure 3: DIAMETER Settlement Agent
It is envisioned that in this environment public key cryptography
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will be used to provide end-to-end security. The Broker, or Settle-
ment Agent, is in a good position to act as a Certificate Authority.
Further research is required to determine how secure communication
can be achieved across more than one broker.
2.1.2 DIAMETER Security
There are two different requirements for security. One is the case
where two DIAMETER peers communicate directly, also known as hop-by-
hop and one where two DIAMETER entities need to communicate through a
proxy chain.
In the case of hop-by-hop security, two different methods are defined
in DIAMETER. One, and the most obvious method, is to provide no secu-
rity at the application (DIAMETER) level, and rely on some underlying
security service, such as IP Security.
The second method, which is backward compatible with RADIUS and
requires no changes to the infrastructure, is to make use of shared
secrets between two DIAMETER entities. In this case the protocol
could include an HMAC-MD5-96 [8] Integrity Check Vector (ICV) within
an AVP to provide integrity of the message. This method should allow
both long lived shared secrets, and the use of out-of-band key nego-
tiation, such as the Internet Key Exchange (IKE) [16]. In order to
allow the use of IKE for DIAMETER, a a new AAA Domain of Interpreta-
tion (DOI) must be defined.
Figure 4 depicts an example of Hop-by-Hop security where Policy
Server 1 (PS1) and Proxy Server 2 (PS2) share a secret as well as PS2
and Policy Server 3 (PS3). In this example PS1 sends a message to PS3
through PS2 with an ICV that is computed using the secret it shares
with PS2. Upon receipt of the message, PS2 validates the ICV, removes
it and adds an ICV that is computed using the secret it shares with
PS3. This is commonly called Hop-by-Hop security since it does not
provide message integrity between PS1 and PS3.
The third method, called End-to-End security, allows DIAMETER end
nodes to securely communicate through a proxy chain. This method pro-
vides end-to-end integrity, confidentiality and non-repudiation on a
set of AVPs within a message. This method allows that only a portion
of the AVPs be covered by the authentication, known as the protected
AVPs, in order to allow proxy DIAMETER nodes to add information in
transit. This method may be used with the Hop-by-Hop method, where
this option would provide end to end security and the later would
allow for the message to be protected through each hop.
Using the example in figure 4, the message initiator, PS1, would
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digitally sign the DIAMETER message and add the Hop-by-Hop ICV infor-
mation using the secret it shares with PS2. PS2 would authenticate
the ICV, and forward the message to PS3, adding its own ICV using the
secret it shares with PS3. Upon receipt of the message, PS3 would
authenticate the ICV and the digital signature added by PS1.
+----------+ +----------+
| policy |<--------------->| proxy | Settlement
| server 1 | server-server | server 2 | Agent
+----------+ communication +----------+
/|\
| server-server
| communication
\|/
+----------+
| policy |
| server 3 |
+----------+
Figure 4: Proxy Server Communication
If certificates are not statically configured or retrieved through
some other means (i.e. Certificate Authority), it requires that both
the client and the server exchange certificates as part of the DIAME-
TER bootstrap protocol.
2.2 Resource Management Extension
The Resource Management extension allows two DIAMETER entities to
share session information. When the server grants authorization of
some resources to a DIAMETER node on behalf of some user, the server
maintains state information about the session which is identified
through the use of a session identifier (aka Session-Id).
The Session-Id is generated by the DIAMETER node requesting authori-
zation and is used in subsequent Resource Management messages to keep
the server up to date on the current state of the session. However
the Resource Management extension also provides messages for distri-
buted back-end servers to share session state information.
The Resource Management extension does not provide the ability to
create a session. This is handled through another extension's author-
ization message.
An example of the use of Resource Management is in the Quality of
Service area. In the case where a router receives a request from a
user to reserve bandwidth on the network, a DIAMETER Bandwidth
request is issued to the DIAMETER Server. In the request is a
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Session-Id along with information about the reservation being
requested.
The server first authenticates the user, then authorizes the request.
If successfully authorized the server keeps a snapshot of the session
and generates a token. Then token contains information about the
resources allocated and is signed by the server. The token is essen-
tially an opaque blob and is not meant to be interpreted by the
client.
When the user decides to free the bandwidth, the router issues a
request to the DIAMETER server to release the resources associated
with the Session Identifier.
The following capabilities are required for a robust Resource Manage-
ment extension:
- Associating resources with clients.
- Identifying when a session is terminated.
- Session termination request by servers.
- State update/refresh from the client or other servers.
Since the server must keep an accurate state of each active session,
it is necessary to have a messages that is sent by the DIAMETER
client to notify the server when a session is terminated.
State update and refresh is very important in the case where the
server has lost state information (i.e. reboot). The server must be
able to request information about a specific session as well as a
generic request to retrieve all state information. For services that
require fault tolerance, servers should share state information.
The server must be able to request that a client terminate a session.
This is required in services where policy can pre-empt a low priority
session.
As discussed above, upon authorization of a session the server gen-
erates and returns to the DIAMETER client a resource token. Upon
receipt of a state update request by the server, the client must send
resource tokens for the requested sessions. Therefore the token must
contain enough information about the session to allow the server to
rebuild session state information.
Furthermore since state information is shared amongst servers it is
required that each session have a universally unique session
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identifier associated with it that is assigned by the client.
2.3 Authentication/Authorization Mechanism
DIAMETER was designed to be a flexible AAA protocol that can be used
for a wide variety of services and applications. Historically, these
applications and services have designed their own authentication
mechanisms, ignoring previous IETF work.
The DIAMETER protocol will support a set of authentication mechanisms
in hopes that most new protocols will attempt to use one of them. In
cases where these mechanisms do not fit within the protocol require-
ments, or framework, a new authentication mechanism will have to be
defined for the protocol, and a method to carry it within the DIAME-
TER protocol. The following authentication mechanism must be sup-
ported by DIAMETER:
- Extensible Authentication protocol (EAP) [10]
- Simple Authentication Security Layer (SASL) [11]
- Generic Security Service Authentication Program Interface
(GSSAPI) [12]
- IKE's Extended Authentication (XAUTH) [13] (proposed)
It is envisioned that when an authentication request is issued to a
DIAMETER server, it also includes a service/application identifier.
The DIAMETER server uses the identifier to determine the service or
application, which is used to look up the authorization information
for the user.
This mechanism allows the re-use of existing, standard IETF authenti-
cation mechanism for multiple services. Any service or application
that makes use of one of these methods needs to specify its DIAMETER
Extension identifier as well as the authorization information that
must be present in the request and the response.
As previously mentioned, other protocols that must create their own
authentication mechanisms must define how the authentication is car-
ried in the DIAMETER protocol, and how it is handled by the server.
An example is the Mobile IP protocol [7]. A separate authentication
method was designed for this protocol because it required minimal
traversals through the internet [15]. The document [13] defines how
this is carried within the DIAMETER protocol, as well as the authori-
zation information that is required.
2.4 Accounting Extension
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The Accounting Extension defines the messages used for service
accounting. The accounting extension MUST provide the following func-
tionality (a separate effort is in place to define the exact require-
ments of the accounting extension):
- Negotiable transfer mechanism.
- Provide general purpose AVPs.
- Flexible to allows new extensions to use the accounting exten-
sion.
- Scalable to allows millions to users and thousands of sites.
- Secure accounting data transfer.
The accounting extension must be able to transfer accounting records
in an event-driven or batch manner. The selected transfer mechanism
must be negotiable, and it must be possible to initiate batch
transfer from either peer.
Other detailed requirements call for supporting service name/id,
amount and length of attributes.
It must also be flexible to work in many applications areas. This
requires extensibility, application defined level of security,
minimal storage and code size requirements, and the ability to work
in both real-time and non-real time situations.
The accounting protocol must be scalable to the size of global
shared-use networks with millions of users and thousands of sites and
accounting systems. Transmission, header, and security overhead MUST
be amortized over several accounting records. Only a per-entity state
needs to be held by the accounting systems (as opposed to a per-
session state).
The accounting protocol must be secure. End-to-end and hop-by-hop
integrity and confidentiality, data-based access control are all
needed. Standard Internet security protocols are to be used where
possible.
2.5 DIAMETER Command Naming Conventions
The following conventions are proposed for the naming of Diameter
messages.
Diameter commands typically start with an object name, and end with
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one of the following verbs:
2.5.1 Request/Response
Request is used when the command is asking the peer to do something
for it, for example, set up a session, or reconfigure some parame-
ters. The Response usually contains either a positive or negative
result code, telling the requester whether or not the request suc-
cessfully occurred. Other information can also be returned in the
Response.
For example, AA-Request asks the peer device to authorize and/or
authenticate a user in order to set up a session. The request may
fail, thus the response may be positive or negative.
2.5.2 Query/Response
Query is used when the command is asking for information that it
expects the peer to have. An example would be querying for current
configuration information, or querying for information on resources
or sessions in use. The Response usually contains a positive result
code and the information, or a negative result code with the reason
for not answering the query.
For example, Resource-Query requests the peer device to return
specific information about one or more resources. The answer is
returned in a Resource-Response.
2.5.3 Indication
Indication is used when the command is giving information on some-
thing that is about to or has already occurred. The peer receiving
the message does not respond to the message, but a transport level
acknowledgement must be done in order to ensure that the message was
reliably delivered.
For example the base draft defines a message that is used to ensure
that a peer is still active. This is achieve with the Watchdog-Ind
message, which is acknowledged either by TCP, or using a DIAMETER
message acknowledgement as defined in [17].
3.0 Why not LDAP?
One common question is whether LDAP would provide the functionality
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required.
A Server MAY wish to access policies using LDAP, but the use of LDAP
between the client and the server is not possible. The use of LDAP in
this case would require that all routers have read/write access to
the directory. Most customers would not accept this requirements and
it is not efficient.
In the case of roaming, customers would have to open up their direc-
tory so outside routers have writeable access. The security implica-
tions set aside, having 1000's of routers constantly read/write to
the directory would cause some additional problems to the Directory
Service.
Finally, LDAP does not provide server initiated messages which is a
requirement for an AAA protocol.
4.0 References
[1] Rigney, et alia, "RADIUS", RFC-2138, Livingston, April 1997
[2] Veizades, Guttman, Perkins, Kaplan, "Service Location
Protocol", RFC-2165, June 1997.
[3] Aboba, Zorn, "Roaming Requirements", draft-ietf-roamops-
roamreq-08.txt, March 1998.
[4] Rigney, "RADIUS Accounting", RFC-2139, April 1997.
[5] Yavatkar, Pendarakis, Guerin, "A Framework for Policy-based
Admission Control", draft-ietf-rap-framework-00.txt, IETF
Work in Progress, November 1997.
[6] Masinter, "Terminology and Goals for Internet Fax",
draft-ietf-fax-goals-02.txt, IETF Work in Progress,
March 1998.
[7] C. Perkins, Editor. IP Mobility Support. RFC 2002, October
1996.
[8] Krawczyk, Bellare, Canetti, "HMAC: Keyed-Hashing for
Message Authentication", RFC 2104, January 1997.
[9] Bradner, "Key words for use in RFCs to Indicate Requirements
Levels", BCP 14, RFC 2119, March 1997.
[10] L. Blunk, J. Vollbrecht, "Extensible Authentication Protocol
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(EAP)", RFC 2284, March 1998.
[11] J. Meyes, "Simple Authentication and Security Layer (SASL)",
RFC 2222, October 1997.
[12] J. Linn, "Generic Security Service Application Program
Interface, Version 2", RFC 2078, January 1997.
[13] P. Calhoun, C. Perkins, "DIAMETER Mobile IP Extensions",
draft-calhoun-diameter-mobileip-01.txt, IETF Work in
Prgress, November 1998.
[14] M. Baum, H. Perritt, "Electronic Contracting, Publishing and
EDI Law", Prentice-Hall, ISBN 0-471-53135-9.
[15] P. Calhoun, C. Perkins "Mobile IP Foreign Agent
Challenge/Response Extension",
draft-ietf-mobileip-challenge-00.txt, IETF Work in progress,
November 1998.
[16] D. Harkins, D. Carrell, "The Internet Key Exchange (IKE)"
RFC 1409, November 1998.
[17] P. Calhoun, A. Rubens, "Reliable Transport Extensions",
draft-calhoun-diameter-reliable-00.txt, IETF Work in
Progress, November 1998.
5.0 Acknowledgements
The Authors would like to thanks Bernard Aboba and Jari Arkko for
their Accounting Requirements contribution. Thanks also goes to Erik
Guttman for some very useful comments in helping make this draft more
readable.
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6.0 Author's Address
Questions about this memo can be directed to:
Pat R. Calhoun
Sun Laboratories, Network and Security
Sun Microsystems, Inc.
15 Network Circle
Menlo Park, California, 94025
USA
Phone: 1-650-786-7733
Fax: 1-650-786-6445
E-mail: pcalhoun@eng.sun.com
Glen Zorn
Microsoft Corporation
One Microsoft Way
Redmond, WA 98052
USA
Phone: 1-425-703-1559
E-Mail: glennz@microsoft.com
Ping Pan
Bell Laboratories
Lucent Technologies
101 Crawfords Corner Road
Holmdel, NJ 07733
USA
Phone: 1-732-332-6744
E-mail: pingpan@dnrc.bell-labs.com.fi
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Appendix A. "Drinks" Policy Extension
This section is provided as an example only and is intended to provide
the reader with a better understanding of how DIAMETER could be used
by services.
This protocol will provide authentication, authorization and accounting
services for bar customers. Each user will be provided with a smart card
that contains the user's identity and private key.
When a user enters a bar he may use the automated facility by inserting
his card into a card slot and wait for the appropriate retina scan to be
performed. The user also selects a drink, and may simply hit the "favorite
drink" button on the machine.
The DIAMETER Client then issues the authentication request to the Server
which authenticates the user. The message MUST contain a unique session
identifier that will be used while the user is present in the bar. The
authentication phase consists of a check that the key and retina scan
matches the user's identity and that the user is of age (this is a local
decision since each state has different minimum age requirements).
If the user is successfully authenticated the server adds authorization
information. Authorization information MAY include the user's favorite
drinks, whether the user's martini should be shaken or stirred, any
known allergic reactions to peanuts or other assorted snacks, etc.
Upon receipt of the response, the DIAMETER client dispenses the drink
to the customer and generates and accounting request to the DIAMETER
accounting server (which MAY be different from the authentication and
authorization server).
Since the Policy server adapts itself according to the user's drinking
habits, it knows how often to send a message to the DIAMETER Client to
offer another drink to the customer. Since the policy server also knows
about the user's favorite drinks, it may even "suggest" a list of
drinks to the user periodically. This is achieved using the Resource
Management extensions defined earlier.
When the user wishes to order a new drink, the same mechanism occurs as
defined above, but the Session Identifier is constant. When the user
leaves the bar, the DIAMETER Client sends a message to the server
stating that it is terminating a session (based on the Session Id).
Calhoun et al. expires May 1999 [Page 17]
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