ANIMA WG Z. Du
Internet-Draft S. Jiang
Intended status: Informational Huawei Technologies Co., Ltd
Expires: January 7, 2016 J. Nobre
Federal University of Rio Grande do Sul
L. Ciavaglia
Alcatel Lucent
July 6, 2015
Autonomic Network Intent and Format
draft-du-anima-an-intent-01
Abstract
This document describes the concept and consideration of the
Autonomic Network Intent, and proposes a uniform format for the
Autonomic Network Intent.
Status of This Memo
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This Internet-Draft will expire on January 7, 2016.
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the Trust Legal Provisions and are provided without warranty as
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Requirements Language and Terminology . . . . . . . . . . . . 3
3. Intervention of the Network Running by Autonomic Network
Intent . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
3.1. Use Cases for Autonomic Network Intent . . . . . . . . . 4
3.2. Administrative Intent and Service Intent . . . . . . . . 4
4. Uniform Format of the Autonomic Network Intent . . . . . . . 5
5. Security Considerations . . . . . . . . . . . . . . . . . . . 6
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 6
7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 6
8. Change log [RFC Editor: Please remove] . . . . . . . . . . . 6
9. References . . . . . . . . . . . . . . . . . . . . . . . . . 7
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 7
1. Introduction
This document describes the concept and consideration of the
Autonomic Network Intent, which is used to operate the Autonomic
Nodes within Autonomic Networks. The background to Autonomic Network
(AN) is described in [RFC7575] and [RFC7576]. A generic discovery
and negotiation protocol (GDNP) is proposed by
[I-D.carpenter-anima-gdn-protocol], which would be used in the
propagation of the Autonomic Network Intent.
The Autonomic Network Intent should be able to be unscrambled by all
Autonomic Nodes, although certain parts of contents may not be
relevant to a specific Autonomic Node. The Autonomic Network Intent
gives operational guidance for every Autonomic Node.
This document also proposes a generic format for Autonomic Network
Intent.
The interface to receive or configure the Autonomic Network Intent is
out of scope. The distribution mechanism of the Autonomic Network
Intent is introduced in [I-D.liu-anima-intent-distribution].
Note in draft: This version is preliminary. In particular, many
design details may be subject to change until the anima
specifications become agreed.
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2. Requirements Language and Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
[RFC2119] when they appear in ALL CAPS. When these words are not in
ALL CAPS (such as "should" or "Should"), they have their usual
English meanings, and are not to be interpreted as [RFC2119] key
words.
Autonomic Function: A feature or function which requires no
configuration, and can derive all required information either
through self-knowledge, discovery or through Intent.
Autonomic Node: A node which employs exclusively Autonomic
Functions.
Legacy Node: A non-autonomic node, i.e., a node which employs some
non-autonomic functions.
Autonomic Network: A network containing exclusively Autonomic Nodes.
It may contain one or several Autonomic Domains.
Autonomic Service Agent: An agent implemented on an Autonomic Node
which implements an Autonomic Function.
Intent: An abstract, high level policy used to operate the network,
quoted from [RFC7575].
Autonomic Network Intent: Intent that is used to intervene the
running status of the Autonomic Network.
Administrative Intent: Intent that is used to manage the network
infrastructure.
Service Intent: Intent that is used to intervene the network
services running over the network infrastructure.
3. Intervention of the Network Running by Autonomic Network Intent
The Autonomic Network is supposed to work with minimum intervention
from human operators. However, it is still needed to receive some
form of guidance/information/orders in order to meet specific
requirements.
Upon receiving the Autonomic Network Intent, the Autonomic Node
should be able to unscramble the meaning of the intent with no
ambiguity, and act accordingly.
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Using this intent approach, the operator can manage the network as a
whole, and does not need to configure specific node(s) in the network
like what happens in the traditional NMS system. In other words, the
operator communicates with the Autonomic Network using an abstract or
high lever intent, and the configurations of the nodes take place
automatically. By replacing most of the NMS jobs, intent-based
management makes the network management work much easier than before.
On the other sides, the intent-based and NMS-based management may co-
exist for a long time, because autonomic behavior will be defined
function by function. Similarly, at the beginning of defining the
Autonomic Network Intents, the intent-based method cannot be assumed
to cover every aspect of network management.
3.1. Use Cases for Autonomic Network Intent
An example of the intent can be found in
[I-D.jiang-anima-prefix-management]. Other examples include what
kind of IGP (such as OSPF) or what kind of transport layer technology
(such as MPLS) should be used for the autonomic domain.
After these configurations in the network level, detailed
configurations in every node are not needed; whereas, policy-based
method will need detailed configurations for every specific node.
An Intent should contains some common information that are needed by
every intent and some specific information that influence the
configuration of the nodes, and the detailed content and format of
the specific part should be defined under its specific application
environment by other documents, such as the prefix management intent
defined in [I-D.jiang-anima-prefix-management].
{Editor Notes: as autonomic functions are defined one by one, the
intent should be developed at a per need basis.}
{Editor Notes: the intents introduced here look like not that
abstract, however, it does help to make the network more autonomic,
and reduce the configuration jobs. Maybe in future, when the
autonomic node becomes more intelligent, some of the intents defined
will disappear or be replaced.}
3.2. Administrative Intent and Service Intent
The Autonomic Networks are supposed to be self-managed. It includes
managing the network infrastructure, and also the network services
that are running over the network infrastructure. However, the
network services have different features against network
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administration, as listed below. Hence, it may be better to organize
them into separated Administrative Intent and Service Intent.
o A Service Intent may have a smaller scope than the Administrative
Intent because only the nodes related to the service need to know
this intent. Although it may only affect a few nodes, the Service
Intent may also be propagated domain wide.
o A Service Intent may have a limited lifetime, while the
Administrative Intents are normally permanent although the content
of the Administrative Intent may be updated from time to time.
o There maybe are many Service Intents in the autonomic domain,
while only one Administrative Intent for a giving Autonomic
Service Agent.
{Editor notes: one possibility is to treat the Service Intent as a
normal Intent for a certain Autonomic Service Agent, such as a
Autonomic Service Provision Agent.}
4. Uniform Format of the Autonomic Network Intent
{Editor Notes: It is still remaining an open issue for the way that
intent may be organized. Should the intent be a single one in a
given AN domain with a hierarchical version, or multiple intents,
each of which targets different Autonomic Service Agent? For now,
the below text takes the later approach.}
This section proposes a uniform intent format. It uses the tag-based
format.
Autonomic intent: The root tag for the Autonomic Network Intent.
Intent type: It indicates the intent type, which is associated with
a specific Autonomic Service Agent.
Autonomic domain: It indicates the domain of the Autonomic Network.
It is also the scope of the Autonomic Network Intent.
Intent version: It indicates the version of the Autonomic Network
Intent. This is an important feature for synchronization.
Model version: The version of the model used to define the intent.
Name: The name of the intent which describes the intent for human
operators.
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Signature: The signature is used as a security mechanism to provide
authentication, integrity, and non-repudiation.
Timestamp: The timestamp of the creation of the intent using the
format supported by the IETF [TBC].
Lifetime: The lifetime in which the intent may be observed. A
special case of the lifetime is the definition of permanent
intents.
Content: It contains the main information of the intent. It may
include objects, policies, goals and configuration data. The
detailed contents and formats should be defined under their
specific situations by documents that specifies the Autonomic
Service Agent. Within the content, there may be sub_intents.
{Editor Notes: JSON is one of the term candidates for the Autonomic
Network Intent format.}
5. Security Considerations
Relevant security issues are discussed in
[I-D.carpenter-anima-gdn-protocol]. The Autonomic Network Intent
requires strong security environment from the start, because it would
be great risk if the Autonomic Network Intent had been maliciously
tampered. The Autonomic Intent should employ a signature scheme to
provide authentication, integrity, and non-repudiation.
6. IANA Considerations
This document defines one new format. The IANA is requested to
establish a new assigned list for it.
7. Acknowledgements
Valuable comments were received from Bing Liu and Brian Carpenter.
This document was produced using the xml2rfc tool [RFC2629].
8. Change log [RFC Editor: Please remove]
draft-du-anima-an-intent-00: original version, 2015-06-11.
draft-du-anima-an-intent-01: add intent use case section, add some
elements for the format section, and coauthor Jeferson Campos Nobre
and Laurent Ciavaglia, 2015-07-06.
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9. References
[I-D.behringer-anima-autonomic-control-plane]
Behringer, M., Bjarnason, S., BL, B., and T. Eckert, "An
Autonomic Control Plane", draft-behringer-anima-autonomic-
control-plane-03 (work in progress), June 2015.
[I-D.carpenter-anima-gdn-protocol]
Carpenter, B. and B. Liu, "A Generic Discovery and
Negotiation Protocol for Autonomic Networking", draft-
carpenter-anima-gdn-protocol-04 (work in progress), June
2015.
[I-D.jiang-anima-prefix-management]
Jiang, S., Du, Z., Carpenter, B., and Q. Qiong, "Autonomic
Prefix Management in Large-scale Networks", draft-jiang-
anima-prefix-management-01 (work in progress), May 2015.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2629] Rose, M., "Writing I-Ds and RFCs using XML", RFC 2629,
June 1999.
[RFC7575] Behringer, M., Pritikin, M., Bjarnason, S., Clemm, A.,
Carpenter, B., Jiang, S., and L. Ciavaglia, "Autonomic
Networking: Definitions and Design Goals", RFC 7575, June
2015.
[RFC7576] Jiang, S., Carpenter, B., and M. Behringer, "General Gap
Analysis for Autonomic Networking", RFC 7576, June 2015.
Authors' Addresses
Zongpeng Du
Huawei Technologies Co., Ltd
Q14, Huawei Campus, No.156 Beiqing Road
Hai-Dian District, Beijing, 100095
P.R. China
Email: duzongpeng@huawei.com
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Sheng Jiang
Huawei Technologies Co., Ltd
Q14, Huawei Campus, No.156 Beiqing Road
Hai-Dian District, Beijing, 100095
P.R. China
Email: jiangsheng@huawei.com
Jeferson Campos Nobre
Federal University of Rio Grande do Sul
Porto Alegre
Brazil
Email: jcnobre@inf.ufrgs.br
Laurent Ciavaglia
Alcatel Lucent
Route de Villejust
Nozay 91620
France
Email: laurent.ciavaglia@alcatel-lucent.com
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