ICN Research Group J. Hong
Internet-Draft T. You
Intended status: Informational Y-G. Hong
Expires: May 7, 2020 ETRI
V. Kafle
NICT
November 04, 2019

Architectural Considerations of ICN using Name Resolution Service
draft-irtf-icnrg-nrsarch-considerations-03

Abstract

This document discusses architectural considerations and implications of Information-Centric Networking (ICN) related to the usage of the Name Resolution Service (NRS). It describes how ICN architectures may change and what implications are introduced within the ICN routing system when NRS is integrated into ICN.

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Table of Contents

1. Introduction

Information-Centric Networking (ICN) is an approach to evolve the Internet infrastructure to directly access Named Data Objects (NDOs) by its name, i.e., the name of NDO is directly used to route the request to the data object. Such name-based routing in ICN has inherent challenges in supporting globally scalable routing system, producer mobility, off-path caching, etc. In order to address these challenges, the Name Resolution Service (NRS) has been integrated into several ICN projects and literature [Afanasyev] [Zhang2] [Ravindran] [SAIL] [MF] [Bayhan].

This document describes how ICN architectures may change and what implications are introduced within the ICN routing system when NRS is integrated into ICN. It also discusses ICN architectural considerations for an NRS. In other words, the scope of this document includes considerations in the veiw of the ICN architecture and routing system when NRS is integrated into ICN. The NRS itself discussion is provided in the NRS design guidelines [NRSguidelines] document.

2. Terminology

3. Background

The name-based routing in ICN has inherent challenges in supporting globally scalable routing system, producer mobility, off-path caching, etc. In order to address these challenges, an NRS has been integrated into several ICN projects and literature as follows:

This document discusses architectural considerations and implications of ICN when NRS is integrated into ICN to solve such challenges due to the name-based routing in ICN.

4. Implications of NRS in ICN

The majority of ICN projects use the name-based routing which omits the name resolution. So, NRS would not be mandatory in an ICN architecture. The integration of NRS would change the ICN architecture at least with respect to procedures, latency, and security, as follows:

5. ICN Architectural Considerations for NRS

This section discusses the various items that have to be considered from the point of view of ICN architecture when ICN utilizes an NRS. These items are related with the name mapping records registration, resolution, and update, protocols and messages, and integration with the routing system.

5.1. Name mapping records registration, resolution, and update

When an NRS is integrated in an ICN architecture, the functions related with the registration, resolution and update of name mapping records have to be considered. The NRS nodes maintain the name mapping records and may exist in an overlay network over the ICN routers, that is, they communicate to each other through ICN routers. The NRS nodes exist in a distributed manner so that an NRS node is always available closer to an ICN node and communication latency for the name registration and resolution performed by the ICN node remains very low.

5.2. Protocols and Semantics

In order to develop an NRS system within a local ICN network domain or global ICN network domain, new protocols and semantics should be designed to manage and resolve names among different name spaces.

One way of implementing an NRS is by extending the basic ICN TLV format and semantics [RFC8609] [RFC8569]. For instance, name resolution and response messages can be implemented by defining new type fields in the Interest and Content Object messages [CCNxNRS]. Then it allows the ICN architecture to minimize implication of ICN architectural changes. But NRS system cannot support more flexible and scalable designs cause to restrict basic ICN protocol and semantics.

On the other hand, an NRS system can be implemented by using its own protocol and semantics like existing NRS systems, such as [Hong]. For instance, the NRS protocol and messages can be implemented by using a RESTful API. Then an NRS as application protocol can be operated independently from a basic ICN architecture, but an ICN architecture cannot be assisted with the routing protocol itself effectively.

5.3. Routing System

It has to be considered how to process the information resolved by an NRS lookup. The results of an NRS operation can be intended to be used just to construct tunnels resulting in NRS identifying tunnel endpoints.

Another way to process the information resolved by an NRS lookup is to use it as routing hints in request messages. In this case, request message needs to be re-written with the resolved information including the original name that was requested by a consumer to check the data integrity.

6. IANA Considerations

There are no IANA considerations related to this document.

7. Security Considerations

When NRS is integrated into an ICN architecture, security threats will be increased in various aspects as follows:

8. References

8.1. Normative References

[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997.
[RFC7927] Kutscher, D., Eum, S., Pentikousis, K., Psaras, I., Corujo, D., Saucez, D., Schmidt, T. and M. Waehlisch, "Information-Centric Networking (ICN) Research Challenges", RFC 7927, DOI 10.17487/RFC7927, July 2016.

8.2. Informative References

[Afanasyev] Afanasyev, A. et al., "SNAMP: Secure Namespace Mapping to Scale NDN Forwarding", IEEE Global Internet Symposium , April 2015.
[Zhang2] Zhang, Y., "A Survey of Mobility Support in Named Data Networking", NAMED-ORIENTED MOBILITY: ARCHITECTURES, ALGORITHMS, AND APPLICATIONS(NOM) , 2016.
[Ravindran] Ravindran, R. et al., "Forwarding-Label support in CCN Protocol", draft-ravi-icnrg-ccn-forwarding-label-01 , July 2017.
[SAIL] , "FP7 SAIL project.", http://www.sail-project.eu/
[MF] , "NSF Mobility First project.", http://mobilityfirst.winlab.rutgers.edu/
[Bayhan] Bayhan, S. et al., "On Content Indexing for Off-Path Caching in Information-Centric Networks", ACM ICN , September 2016.
[RFC8569] Mosko, M., Solis, I. and C. Wood, "Content-Centric Networking (CCNx) Semantics", https://www.rfc-editor.org/info/rfc8569 , July 2019.
[RFC8609] Mosko, M., Solis, I. and C. Wood, "CCNx Messages in TLV Format", https://www.rfc-editor.org/info/rfc8609 , July 2019.
[CCNxNRS] Hong, J. et al., "CCNx Extension for Name Resolution Service", draft-hong-icnrg-ccnx-nrs-02 , July 2018.
[Hong] Hong, J., Chun, W. and H. Jung, "Demonstrating a Scalable Name Resolution System for Information-Centric Networking", ACM ICN , September 2015.
[NRSguidelines] Hong, J. et al., "Design Guidelines for Name Resolution Service in ICN", draft-irtf-icnrg-nrs-requirements-03 , November 2019.
[Dannewitz] Dannewitz, C. et al., "Network of Information (NetInf)-An information centric networking architecture", Computer Communications vol. 36, no. 7, April 2013.
[Dannewitz2] Dannewitz, C., DAmbrosio, M. and V. Vercellone, "Hierarchical DHT-based name resolution for Information-Centric Networks", Computer Communications vol. 36, no. 7, April 2013.

Authors' Addresses

Jungha Hong ETRI 218 Gajeong-ro, Yuseung-Gu Daejeon, 34129 Korea EMail: jhong@etri.re.kr
Tae-Wan You ETRI 218 Gajeong-ro, Yuseung-Gu Daejeon, 34129 Korea EMail: twyou@etri.re.kr
Yong-Geun Hong ETRI 218 Gajeong-ro, Yuseung-Gu Daejeon, 34129 Korea EMail: yghong@etri.re.kr
Ved Kafle NICT 4-2-1 Nukui-Kitamachi Koganei, Tokyo 184-8795 Japan EMail: kafle@nict.go.jp