ICN Research Group J. Hong Internet-Draft T. You Intended status: Informational Y-G. Hong Expires: January 9, 2020 ETRI V. Kafle NICT B. Wissingh TNO July 08, 2019 Architectural Considerations of ICN using Name Resolution Service draft-irtf-icnrg-nrsarch-considerations-02 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. Status of This Memo This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at https://datatracker.ietf.org/drafts/current/. 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Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 2. Conventions and Terminology . . . . . . . . . . . . . . . . . 3 3. Background . . . . . . . . . . . . . . . . . . . . . . . . . 4 4. Implications of NRS in ICN . . . . . . . . . . . . . . . . . 5 5. ICN Architectural Considerations for NRS . . . . . . . . . . 5 5.1. Name mapping records registration, resolution, and update 6 5.2. Protocols and Semantics . . . . . . . . . . . . . . . . . 7 5.3. Routing System . . . . . . . . . . . . . . . . . . . . . 7 6. Security Considerations . . . . . . . . . . . . . . . . . . . 7 7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 8 8. References . . . . . . . . . . . . . . . . . . . . . . . . . 8 8.1. Normative References . . . . . . . . . . . . . . . . . . 8 8.2. Informative References . . . . . . . . . . . . . . . . . 8 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 10 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 introduces 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 integrating NRS into ICN. However, it does not include the NRS discussion, itself, which is presented in [NRSguidelines]. Hong, et al. Expires January 9, 2020 [Page 2] Internet-Draft Arch Considerations of ICN using NRS July 2019 2. Conventions and Terminology The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC2119]. o Name Resolution Service (NRS): NRS in ICN is defined as the service that provides the name resolution function for translating an object name into some other information such as a locator and another name that is used for forwarding the object request [NRSguidelines]. o NRS server: The NRS is a service maintained by a distributed mapping database system. The NRS consists of the distributed NRS servers storing the mapping records in database. NRS servers store and maintain the mapping records that keep the bindings of name to other information that is used for forwarding content request. o NRS resolver: The client side of the NRS is called an NRS resolver. The resolver is responsible for initiating and sequencing the name resolution request queries that ultimately lead to a name resolution of the data objects. NRS resolvers can be located in the consumer (or client) nodes and ICN routers. NRS resolver can also store the mapping records obtained through the name for later usage. o Name registration: In order to create the NRS, the content names and their mapping records must be registered in NRS system by a publisher who has at least one authoritative NRS server or by a producer who generates named data objects. The mapping information is the binding of a name to some information such as another names and locators, which are used for forwarding the content request. Thus, a publisher or producer creates an NRS registration request and send to an NRS server. On registration, the NRS server stores the mapping record in the database and sends back an ACK as a response back to the producer or publisher. o Name resolution: Name resolution is the main process of the NRS. It is performed by an NRS resolver which can be deployed on a consumer node or an ICN router. When the required name mapping record has not been stored in the cache of a NRS resolver, it sends a name resolution request toward the NRS server. The NRS server searches the content name in its mapping record database, retrieves and sends the mapping record in the name resolution response message to the NRS resolver. Hong, et al. Expires January 9, 2020 [Page 3] Internet-Draft Arch Considerations of ICN using NRS July 2019 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: o Routing scalability : In ICN, application names identifying contents are used directly for packet delivery, so ICN routers run a name-based routing protocol to build namebased routing and forwarding tables. Similar to the scalability challenge of IP routing, if non-aggregatable name prefixes are injected to the Default Route Free Zone (DFZ) of ICN, they would be driving the growth of the DFZ routing table size. Thus, integrating an NRS with ICN can be a feasible solution to keep the routing table size under control, where the NRS resolves name prefixes which do not exist in the DFZ forwarding table into globally routable prefixes such as one proposed in NDN [Afanasyev]. Another approach deal with routing scalability is the Multi-level Distributed Hash Table (MDHT) used in NetInf [Dannewitz]. It provides name-based anycast routing that can support a non-hierarchical namespace can be adopted on a global scale [Dannewitz2]. o Producer mobility : In ICN, if a producer moves into a different authority domain or network location, the request for a content produced by the moving producer with the origin name would be hardly forwarded to the moving producer's new location. Especially, in a hierarchical name scheme, producer mobility support is much harder than in a flat name scheme since the routing tables in broader area need to be updated according to the producer movement. Therefore, various ICN architectures such as NetInf [Dannewitz] and MobilityFirst [MF] have adopted NRS to tackle the producer's location. o Off-path caching : In-network caching is a feature of an ICN architecture. Caching approaches can be categorized into on-path caching and off-path caching according to the location of caches in relation to the forwarding path from the original server to a consumer. Off-path caching, also referred as content replication or content storing, aims at replicating content in various locations within a network in order to increase availability, where the caching locations may not be lying along the content forwarding path. Thus, finding off-path cached objects is not trivial in name-based routing of ICN. In order to support off- path caches, the locations of replicas are usually advertised into a name-based routing system or into NRS such as in [Bayhan]. Hong, et al. Expires January 9, 2020 [Page 4] Internet-Draft Arch Considerations of ICN using NRS July 2019 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 In general, NRS would not be mandatory in an ICN architecture if the name-based routing system can be scalable enough to timely reflect the optimal location of requested content in the routing table. However, due to the unlimited size of content namespace, it is not easy to achieve such a scalable routing system in near future. Therefore, the adoption of an NRS is a design choice for making ICN routing and forwarding scalable. Integration of NRS would change the ICN architecture at least with respect to procedures, latency, and security, as follows: o Procedure : When NRS is adopted into an ICN architecture, the procedure of the name resolution has to be integrated into ICN overall procedures. For NRS integration, there are certain things that have to be decided such as where and how the name resolution task is performed. o Latency : When NRS is adopted into an ICN architecture, the additional latency of the resolution obviously occurs in the routing and forwarding system. Although the latency of the resolution is added, the total latency could be minimized if the nearest copies or off-path caches can be located by the NRS lookup procedure. Additionally, there might be a trade-off between the resolution latency and inter-domain traffic reduction. o Security : When NRS is adopted into an ICN architecture, security threats may increase. Protection of the NRS system against attacks such as Distributed Denial of Service (DDoS) and authentication of name mapping records and related signaling messages would be challenging. 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. Hong, et al. Expires January 9, 2020 [Page 5] Internet-Draft Arch Considerations of ICN using NRS July 2019 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. o Name registration: Name registration is performed by the producer when it creates a new content and an ICN router when it stores the content in its cache. When a producer creates a content and assigns a name to it from the name prefix space assigned to it, the producer performs the name registration in an NRS node. When an ICN router caches the content in its content store, it performs name registration with a nearby NRS node. As the content gets cached in many ICN routers, all of them may register the same content names in the same NRS node multiple times. In this case, the NRS node adds the new location of the content to the name record together with the previous locations. In this way, each of the name records stored in the NRS node may contain multiple locations of the content. o Name resolution: Name resolution is performed to obtain the name record from an NRS node by sending a name resolution request message and getting the response containing the record. Regarding the name-based ICN routing context, the name resolution will be mostly performed by an ICN router that does not contain the name in its FIB table. The name resolution may also be performed by the consumer (in case the consumer is multihomed) to make decision to forward the content request in a better direction so that it obtains the content from the nearest cache. If the consumer is single homed, it may not perform the name resolution. It creates the content request packet containing the content name and forwards to the nearest ICN router. The ICN router checks its FIB table to know if the content name exists. If the content name does not exist, it performs name resolution to obtain the name mapping record and adds to FIB table. The ICN router may also perform name resolution even before the arrival of the content request time to time to use the name mapping record to configure the FIB table. o Name record update: Name record update is carried out when a content name mapping record changes, e.g. the content is not available in one or more of previous locations. Hong, et al. Expires January 9, 2020 [Page 6] Internet-Draft Arch Considerations of ICN using NRS July 2019 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 between different name spaces. One way of implementing an NRS is by extending the basic ICN TLV format and semantics [CCNxMessages] [CCNxSemantics]. 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. Security Considerations When NRS is integrated into an ICN architecture, security threats will be increased in various aspects as follows: o Name Space Separation: In order to deploy an NRS on ICN architecture, ICN name spaces are separated into more than two name spaces. Thus these name spaces should be mapped and managed securely. According to the ICN research challenge [RFC7927], new name space can also provide an integrity verification function to authenticate its publishers. In addition to the verification, binding two different name spaces should be securely required. Hong, et al. Expires January 9, 2020 [Page 7] Internet-Draft Arch Considerations of ICN using NRS July 2019 o NRS System: NRS enables deployment of new entities to build distributed and scalable NRS systems. Thus, the entities, e.g., mapping server that can be a mapping database, could be a single point of failure receiving malicious requests from innumerable adversaries like Denial of Service or Distributed Denial of service attacks. Additionally, in order to communicate with the entities to build a NRS system, an initiator should rely on other NRS entities that are designed to be distributed deployed mapping servers in each network domain. Because malicious entities should be involved in this communication to impersonate control functions. Thus, NRS entities should trust each other and communications with them should be protected securely. o NRS Protocols and Messages: Regarding NRS messages, such as lookup, update, etc., if these messages are transported unauthenticated, an adversary can manipulate them and hijack the important communication to response or to store fake data. Thus, the adversary can generate malicious traffic to be redirected to victim hosts. Therefore, security requirements for NRS should be considered to protect the ICN architecture as well as the NRS. 7. Acknowledgements [TBD] 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., Ed., 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. Hong, et al. Expires January 9, 2020 [Page 8] Internet-Draft Arch Considerations of ICN using NRS July 2019 [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. [CCNxSemantics] Mosko, M., Solis, I., and C. Wood, "CCNx Semantics", draft-irtf-icnrg-ccnxsemantics-06 , October 2017. [CCNxMessages] Mosko, M., Solis, I., and C. Wood, "CCNx Messages in TLV Format", draft-irtf-icnrg-ccnxmessages-06 , October 2017. [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-guidelines-02 , July 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. Hong, et al. Expires January 9, 2020 [Page 9] Internet-Draft Arch Considerations of ICN using NRS July 2019 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 Bastiaan Wissingh TNO Email: bastiaan.wissingh@tno.nl Hong, et al. Expires January 9, 2020 [Page 10]