Network Working Group K. Carlberg
Request for Comments: 4375 G11
Category: Informational January 2006
Emergency Telecommunications Services (ETS) Requirements
for a Single Administrative Domain
Status of This Memo
This memo provides information for the Internet community. It does
not specify an Internet standard of any kind. Distribution of this
memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (2006).
Abstract
This document presents a list of requirements in support of Emergency
Telecommunications Service (ETS) within a single administrative
domain. This document focuses on a specific set of administrative
constraints and scope. Solutions to these requirements are not
presented in this document.
1. Introduction
The objective of this document is to define a set of requirements
that support ETS within a single domain. There have been a number of
discussions in the IEPREP mailing list, as well as working group
meetings, that have questioned the utility of a given mechanism to
support ETS. Many have advocated over-provisioning, while others
have favored specific schemas to provide a quantifiable measure of
service. One constant in these discussions is that the
administrative control of the resources plays a significant role in
the effectiveness of any proposed solution. Specifically, if one
administers a set of resources, a wide variety of approaches can be
deployed upon that set. However, once the approach crosses an
administrative boundary, its effectiveness comes into question, and
at a minimum requires cooperation and trust from other administrative
domains. To avoid this question, we constrain our scenario to the
resources within a single domain.
The following provides an explanation of some key terms used in this
document.
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Resource: A resource can be a viewed from the general level as IP
nodes such as a router or host as well as the physical media
(e.g., fiber) used to connect them. A host can also be referred
to in more specific terms as a client, server, or proxy.
Resources can also be viewed more specifically in terms of the
elements within a node (e.g., CPU, buffer, memory). However,
this document shall focus its attention at the node level.
Domain: This term has been used in many ways. We constrain its
usage in this document to the perspective of the network layer,
and view it as being synonymous with an administrative domain.
A domain may span large geographic regions and may consist of
many types of physical subnetworks.
Administrative Domain: The collection of resources under the
control of a single administrative authority. This authority
establishes the design and operation of a set of resources
(i.e., the network).
Transit Domain: This is an administrative domain used to forward
traffic from one domain to another. An Internet Service Provider
(ISP) is an example of a transit domain.
Stub Domain: This is an administrative domain that is either the
source or the destination of a flow of IP packets. As a general
rule, it does not forward traffic that is destined for other
domains. The odd exception to this statement is the case of
Mobile IP and its use of "dog-leg" routing to visiting hosts
located in foreign networks. An enterprise network is an example
of a stub domain.
1.1. Previous Work
A list of general requirements for support of ETS is presented in
[RFC3689]. The document articulates requirements when considering
the broad case of supporting ETS over the Internet. Since that
document is not constrained to specific applications, administrative
boundaries, or scenarios, the requirements contained within it tend
to be quite general in their description and scope. This follows the
philosophy behind its inception in that the general requirements are
meant to be a baseline followed (if necessary) by more specific
requirements that pertain to a more narrow scope.
The requirements presented below in Section 3 are representative of
the more narrow scope of a single administrative domain. As in the
case of [RFC3689], the requirements articulated in this document
represent aspects to be taken into consideration when solutions are
being designed, specified, and deployed. Key words such as "MUST",
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"MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT",
"RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be
interpreted as described in [RFC2119].
2. Scope
IETF standards that cover the resources within an administrative
domain are within the scope of this document. This includes
gateways, routers, servers, etc., that are located and administered
within the domain. This document also does not restrict itself to a
specific type of application such as Voice over IP.
Quality of Service (QoS) mechanisms are also within the scope of this
document. These mechanisms may reside at the application, transport,
or IP network layer. While QoS mechanisms may exist at the
link/physical layer, this document only considers potential mappings
of labels or code points.
Finally, since this document focuses on a single administrative
domain, we do not make any further distinction between transit and
stub domains within this document.
2.1. Out of Scope
Resources owned or operated by other administrative authorities are
outside the scope of this document. One example is a SIP server that
operates in other domains. Another example is an access link
connecting the stub domain and its provider. Controlling only 1/2 of
a link (the egress traffic from the stub) is considered insufficient
for including inter-domain access links as a subject for this
document.
3. Requirements
It must be understood that all of the following requirements pertain
to mechanisms chosen by a domain's administrative authority to
specifically support ETS. If that authority chooses not to support
ETS or if these mechanisms exist within the domain exclusively for a
different purpose, then the associated requirement does not apply.
3.1. Label Mechanisms
Application or transport layer label mechanisms used for ETS MUST be
extensible such that they can support more than one label. These
mechanism MUST avoid a single off/on type of label (e.g., a single
bit). In addition, designers of such a mechanism MUST assume that
there may be more than one set of ETS users.
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Network layer label mechanisms used for ETS SHOULD be extensible such
that they can support more than one label. We make this distinction
in requirements because there may be fewer bits (a smaller field)
available at the network layer than in the transport or application
layer.
3.2. Proxies
Proxies MAY set ETS labels on behalf of the source of a flow. This
may involve removing labels that have been set by upstream node(s).
If proxies take such action, then the security measures discussed in
[RFC3689] MUST be considered. More information about security in the
single-domain context is found below in Section 5.
3.3. QoS mechanisms
[RFC3689] defines a label as an identifier, and the set of
characteristics associated with the label as policy. However, QoS in
the traditional sense of delay or bandwidth is not automatically
bound to a label. MPLS [RFC3031] is an example of a labeling
mechanism that can provide specific QoS or simply traffic engineering
of labeled flows.
In the context of ETS, QoS mechanisms, at either the network or
application layer, SHOULD be used when networks cannot be over-
provisioned to satisfy high bursts of traffic load. Examples can
involve bridging fiber networks to wireless subnetworks, or remote
subnetworks connected over expensive bandwidth-constrained wide area
links.
Note well. Over-provisioning is a normal cost-effective practice
amongst network administrators/engineers. The amount of over-
provisioning can be a topic of debate. More in-depth discussion on
this topic is presented in the companion Framework document [FRAME].
3.4. Users
Regarding existing IETF-specified applications, augmentations in the
form of labeling mechanisms to support ETS MUST NOT adversely affect
its legacy usage by non-ETS users. With respect to future
applications, such labeling mechanisms SHOULD allow the application
to support a "normal" (non-emergency) condition.
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3.5. Policy
Policy MUST be used to determine the percentage of resources of a
mechanism used to support the various (ETS and non-ETS) users. Under
certain conditions, this percentage MAY reach 100% for a specific set
of users. However, we recommend that this "all-or-nothing" approach
be considered with great care.
3.6. Discovery
There should be a means of forwarding ETS labeled flows to those
mechanisms within the domain used to support ETS. Discovery
mechanisms SHOULD be used to determine where ETS labeled flows
(either data or control) are to be forwarded.
3.7. MIB
Management Information Bases (MIBs) SHOULD be defined for mechanisms
specifically in place to support ETS. These MIBs MAY include objects
representing accounting, policy, and authorization.
4. Issues
This section presents issues that arise in considering solutions for
the requirements that have been defined for stub domains that support
ETS. This section does not specify solutions nor is it to be
confused with requirements. Subsequent documents that articulate a
more specific set of requirements for a particular service may make a
statement about the following issues.
4.1. Alternative Services
The form of the service provided to ETS users and articulated in the
form of policies may be realized in one of several forms. Better
than best effort is probably the service that most ETS users would
expect when the communication system is stressed and overall quality
has degraded. However, the concept of best available service should
also be considered under such stressed conditions. Further, a
measure of degraded service may also be desirable to ensure a measure
of communication versus none. These services may be made available
at the network or application layer.
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4.2. Redundancy
The issue of making networks fault tolerant is important and yet not
one that can be easily articulated in terms of requirements of
protocols. Redundancy in connectivity and nodes (be it routers or
servers) is probably the most common approach taken by network
administrators, and it can be assumed that administrative domains
apply this approach in various degrees to their own resources.
5. Security Considerations
This document recommends that readers review and follow the comments
and requirements about security presented in [RFC3689]. Having said
that, there tend to be many instances where intra-domain security is
held at a lower standard (i.e., less stringent) that inter-domain
security. For example, while administrators may allow telnet service
between resources within an administrative domain, they would only
allow SSH access from other domains.
The disparity in security policy can be problematic when domains
offer services other than best effort for ETS users. Therefore, any
support within a domain for ETS should be accompanied by a detailed
security policy for users and administrators.
Given the "SHOULD" statement in Section 3.8 concerning MIBs, there
are a number of related security considerations that need to be
brought to attention to the reader. Specifically, the following:
- Most current deployments of Simple Network Management Protocol
(SNMP) are of versions prior to SNMPv3, even though there are
well-known security vulnerabilities in those versions of SNMP.
- SNMP versions prior to SNMPv3 cannot support cryptographic
security mechanisms. Hence, any use of SNMP prior to version 3
to write or modify MIB objects do so in a non-secure manner. As
a result, it may be best to constrain the use of these objects to
read-only by MIB managers.
- Finally, any MIB defining writable objects should carefully
consider the security implications of an SNMP compromise on the
mechanism(s) being controlled by those writable MIB objects.
6. Acknowledgements
Thanks to Ran Atkinson, James Polk, Scott Bradner, Jon Peterson, and
Ian Brown for comments on previous versions of this document.
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7. Informative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC3031] Rosen, E., Viswanathan, A., and R. Callon, "Multiprotocol
Label Switching Architecture", RFC 3031, January 2001.
[RFC3689] Carlberg, K. and R. Atkinson, "General Requirements for
Emergency Telecommunication Service (ETS)", RFC 3689,
February 2004.
[FRAME] Carlberg, K., "A Framework for Supporting Emergency
Telecommunications Services (ETS) Within a Single
Administrative Domain", Work in Progress, December 2005.
Author's Address
Ken Carlberg
G11
123a Versailles Circle
Baltimore, MD
USA
EMail: carlberg@g11.org.uk
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