PIM Working Group LM. Contreras Internet-Draft Telefonica Intended status: Experimental CJ. Bernardos Expires: January 8, 2017 Universidad Carlos III de Madrid H. Asaeda NICT July 7, 2016 Requirements for the extension of the IGMP/MLD proxy functionality to support multiple upstream interfaces draft-ietf-pim-multiple-upstreams-reqs-02 Abstract The purpose of this document is to define the requirements for a MLD (for IPv6) or IGMP (for IPv4) proxy with multiple interfaces covering a variety of applicability scenarios. 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 http://datatracker.ietf.org/drafts/current/. 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Expires January 8, 2017 [Page 1] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 2 3. Problem statement . . . . . . . . . . . . . . . . . . . . . . 3 4. Scenarios of applicability . . . . . . . . . . . . . . . . . 4 4.1. Fixed network scenarios . . . . . . . . . . . . . . . . . 5 4.1.1. Multicast wholesale offer for residential services . 5 4.1.1.1. Requirements . . . . . . . . . . . . . . . . . . 5 4.1.2. Multicast resiliency . . . . . . . . . . . . . . . . 5 4.1.2.1. Requirements . . . . . . . . . . . . . . . . . . 6 4.1.3. Load balancing for multicast traffic in the metro segment . . . . . . . . . . . . . . . . . . . . . . . 6 4.1.3.1. Requirements . . . . . . . . . . . . . . . . . . 6 4.1.4. Network merging with different multicast services . . 6 4.1.4.1. Requirements . . . . . . . . . . . . . . . . . . 7 4.1.5. Summary of the requirements needed for fixed network scenarios . . . . . . . . . . . . . . . . . . . . . . 7 4.2. Mobile network scenarios . . . . . . . . . . . . . . . . 8 5. Security Considerations . . . . . . . . . . . . . . . . . . . 8 6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 8 7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 9 8. References . . . . . . . . . . . . . . . . . . . . . . . . . 9 8.1. Normative References . . . . . . . . . . . . . . . . . . 9 8.2. Informative References . . . . . . . . . . . . . . . . . 9 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 9 1. Introduction The aim of this document is to define the functionality that an IGMP/ MLD proxy with multiple upstream interfaces should have in order to support different scenarios of applicability in both fixed and mobile networks. This compatibility is needed in order to simplify node functionality and to ensure an easier deployment of multicast capabilities in all the use cases described in this document. 2. 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 [RFC2119]. This document uses the terminology defined in RFC4605 [RFC4605]. Specifically, the definition of Upstream and Downstream interfaces, which are reproduced here for completeness. Contreras, et al. Expires January 8, 2017 [Page 2] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 Upstream interface: A proxy device's interface in the direction of the root of the tree. Also called the "Host interface". Downstream interface: Each of a proxy device's interfaces that is not in the direction of the root of the tree. Also called the "Router interfaces". 3. Problem statement The concept of IGMP/MLD proxy with several upstream interfaces has emerged as a way of optimizing (and in some cases enabling) service delivery scenarios where separate multicast service providers are reachable through the same access network infrastructure. Figure 1 presents the conceptual model under consideration. downstream upstream interface interface A | | | | _______________ | +-------+ v / \ | | O-------( Multicast Set 1 ) +----------+ v | IGMP/ | \_______________/ | Listener |------| MLD | _______________ +----------+ | Proxy | / \ | O-------( Multicast Set 2 ) +-------+ ^ \_______________/ | | upstream interface B Figure 1: Concept of IGMP/MLD proxy with multiple upstream interfaces The current version of this document is focused on fixed network scenarios. Applicability of IGMP/MLD proxies with multiple upstream interfaces in mobile environments has been previously described in RFC7287 [RFC7287]. Mobile network scenarios will be covered in future versions of this document. In the case of fixed networks, multicast wholesale services in a competitive residential market require an efficient distribution of multicast traffic from different operators or content providers, i.e. the incumbent operator and a number of alternative providers, on the network infrastructure of the former. Existing proposals are based on the use of PIM routing from the metro/core network, and multicast traffic aggregation on the same tree. A different approach could be achieved with the use of an IGMP/MLD proxy with multiple upstream Contreras, et al. Expires January 8, 2017 [Page 3] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 interfaces, each of them pointing to a distinct multicast router in the metro/core border which is part of separated multicast trees deep in the network. Figure 2 graphically describes this scenario. downstream upstream interface interface A | | | | _______________ | +--------+ v / \ | | Aggr. O-------( Multicast Set 1 ) | | Switch | \_______________/ +----+ v | | (e.g. from the Incumbent | AN |-------| (IGMP | Operator) +----+ | /MLD | _______________ (e.g. | Proxy) | / \ DSLAM | O-------( Multicast Set 2 ) /OLT) +--------+ ^ \_______________/ | (e.g. from an Alternative | Provider) | upstream interface B Figure 2: Example of usage of an IGMP/MLD proxy with multiple upstream interfaces in a fixed network scenario Since those scenarios can motivate distinct needs in terms of IGMP/ MLD proxy functionality, it is necessary to consider a comprehensive approach, looking at the possible scenarios, and establishing a minimum set of requirements which can allow the operation of a versatile IGMP/MLD proxy with multiple upstream interfaces as a common entity to all of them (i.e., no different kinds of proxies depending on the scenario, but a common proxy applicable to all the potential scenarios). 4. Scenarios of applicability Having multiple upstream interfaces creates a new decision space for delivering the proper multicast content to the subscriber. Basically it is now possible to implement channel-based or subscriber-based upstream selection, according to mechanisms or policies that could be defined for the multicast service provision. This section describes in detail a number of scenarios of applicability of an IGMP/MLD proxy with multiple upstream interfaces in place. A number of requirements for the IGMP/MLD proxy functionality are identified from those scenarios. Contreras, et al. Expires January 8, 2017 [Page 4] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 4.1. Fixed network scenarios Residential broadband users get access to multiple IP services through fixed network infrastructures. End user's equipment is connected to an access node, and the traffic of a number of access nodes is collected in aggregation switches. For the multicast service, the use of an IGMP/MLD proxy with multiple upstream interfaces in those switches can provide service flexibility in a lightweight and simpler manner if compared with PIM-routing based alternatives. 4.1.1. Multicast wholesale offer for residential services This scenario has been already introduced in the previous section, and can be seen in Figure 2. There are two different operators, the one operating the fixed network where the end user is connected (e.g., typically an incumbent operator), and the one providing the Internet service to the end user (e.g., an alternative Internet service provider). Both can offer multicast streams that can be subscribed by the end user, independently of which provider contributes with the content. Note that it is assumed that both providers offer distinct multicast groups. However, more than one subscription to multicast channels of different providers could take place simultaneously. 4.1.1.1. Requirements o The IGMP/MLD proxy should be able to deliver multicast control messages sent by the end user to the corresponding provider's multicast router. o The IGMP/MLD proxy should be able to deliver multicast control messages sent by each of the providers to the corresponding end user. 4.1.2. Multicast resiliency In current PIM-based solutions, the resiliency of the multicast distribution relays on the routing capabilities provided by protocols like PIM and VRRP RFC5798 [RFC5798]. A simpler scheme could be achieved by implementing different upstream interfaces on IGMP/MLD proxies, providing path diversity through the connection to distinct leaves of a given multicast tree. Contreras, et al. Expires January 8, 2017 [Page 5] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 It is assumed that only one of the upstream interfaces is active in receiving the multicast content, while the other is up and in standby mode for fast switching. 4.1.2.1. Requirements o The IGMP/MLD proxy should be able to deliver multicast control messages sent by the end user to the corresponding active upstream interface. o The IGMP/MLD proxy should be able to deliver multicast control messages received in the active upstream to the end users, while ignoring the control messages of the standby upstream interface. o The IGMP/MLD proxy should be able of rapidly switching from the active to the standby upstream interface in case of network failure, transparently to the end user. 4.1.3. Load balancing for multicast traffic in the metro segment A single upstream interface in existing IGMP/MLD proxy functionality typically forces the distribution of all the channels on the same path in the last segment of the network. Multiple upstream interfaces could naturally split the demand, alleviating the bandwidth requirements in the metro segment. 4.1.3.1. Requirements o The IGMP/MLD proxy should be able to deliver multicast control messages sent by the end user to the corresponding multicast router which provides the channel of interest. o The IGMP/MLD proxy should be able to deliver multicast control messages sent by each of the multicast routers to the corresponding end user. o The IGMP/MLD proxy should be able to decide which upstream interface is selected for any new channel request according to defined criteria (e.g., load balancing). 4.1.4. Network merging with different multicast services In some network merging situations, the multicast services provided before in each of the merged networks are maintained for the respective customer base (usually in a temporal fashion until the multicast service is redifined in a new single offer, but not necessarily, or not in short term, e.g. because of commercial agreements for each of the previous service offers). Contreras, et al. Expires January 8, 2017 [Page 6] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 In order to assists that network merging situations, IGMP/MLD proxies with multiple upstream interfaces can help in the transition simplifying the service provision and facilitating service continuity. 4.1.4.1. Requirements o The IGMP/MLD proxy should be able to deliver multicast control messages sent by the end user to the corresponding multicast router which provides the channel of interest, according to the service subscription. o The IGMP/MLD proxy should be able to deliver multicast control messages sent by each of the multicast routers to the corresponding end user, according to the service subscription. o The IGMP/MLD proxy should be able to decide which upstream interface is selected for any new channel request according to defined criteria (e.g., service subscription). 4.1.5. Summary of the requirements needed for fixed network scenarios Following the analysis above, a number of different requirements can be identified by the IGMP/MLD proxy to support multiple upstream interfaces in fixed network scenarios. The following table summarizes these requirements. Contreras, et al. Expires January 8, 2017 [Page 7] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 +-----------------------------------------------+ | Fixed Network Scenarios | +---------+-----------+-----------+-----------+-----------+ |Functio- | Multicast | Multicast | Load | Network | |nality | Wholesale | Resiliency| Balancing | Merging | +---------+-----------+-----------+-----------+-----------+ |Upstream | | | | | |Control | X | X | X | X | |Delivery | | | | | +---------+-----------+-----------+-----------+-----------+ |Downstr. | | | | | |Control | X | X | X | X | |Delivery | | | | | +---------+-----------+-----------+-----------+-----------+ |Active / | | | | | |Standby | | X | | | |Upstream | | | | | +---------+-----------+-----------+-----------+-----------+ |Upstr i/f| | | | | |selection| | | X | X | |per group| | | | | +---------+-----------+-----------+-----------+-----------+ |Upstr i/f| | | | | |selection| | X | | | |all group| | | | | +---------+-----------+-----------+-----------+-----------+ Figure 3: Functionality needed on IGMP/MLD proxy with multiple upstream interfaces per application scenario in fixed networks 4.2. Mobile network scenarios To be done. 5. Security Considerations All the security considerations in RFC4605 [RFC4605] are directly applicable to this proposal. Apart from that, if proper mechanisms (i.e., implementation practices) are in place for channel-based or subscriber-based upstream interface selection, Denial of Service attacks can be prevented. 6. IANA Considerations To be completed Contreras, et al. Expires January 8, 2017 [Page 8] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 7. Acknowledgements The authors would like to thank (in alphabetical order) Thomas C. Schmidt and Dirk von Hugo for their comments and suggestions. 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, . [RFC4605] Fenner, B., He, H., Haberman, B., and H. Sandick, "Internet Group Management Protocol (IGMP) / Multicast Listener Discovery (MLD)-Based Multicast Forwarding ("IGMP/MLD Proxying")", RFC 4605, DOI 10.17487/RFC4605, August 2006, . 8.2. Informative References [RFC5798] Nadas, S., Ed., "Virtual Router Redundancy Protocol (VRRP) Version 3 for IPv4 and IPv6", RFC 5798, DOI 10.17487/RFC5798, March 2010, . [RFC7287] Schmidt, T., Ed., Gao, S., Zhang, H., and M. Waehlisch, "Mobile Multicast Sender Support in Proxy Mobile IPv6 (PMIPv6) Domains", RFC 7287, DOI 10.17487/RFC7287, June 2014, . Authors' Addresses Luis M. Contreras Telefonica Ronda de la Comunicacion, s/n Sur-3 building, 3rd floor Madrid 28050 Spain Email: luismiguel.contrerasmurillo@telefonica.com URI: http://people.tid.es/LuisM.Contreras/ Contreras, et al. Expires January 8, 2017 [Page 9] Internet-Draft Reqs for MLD proxy with multiple upstream July 2016 Carlos J. Bernardos Universidad Carlos III de Madrid Av. Universidad, 30 Leganes, Madrid 28911 Spain Phone: +34 91624 6236 Email: cjbc@it.uc3m.es URI: http://www.it.uc3m.es/cjbc/ Hitoshi Asaeda National Institute of Information and Communications Technology 4-2-1 Nukui-Kitamachi Koganei, Tokyo 184-8795 Japan Email: asaeda@nict.go.jp Contreras, et al. Expires January 8, 2017 [Page 10]