IETF 81 th Multicast Extensions to DS-Lite Technique in Broadband Deployments draft-qin-softwire-dslite-multicast-04 Wang, Q., Qin, J., Boucadair, M.,

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Presentation transcript:

IETF 81 th Multicast Extensions to DS-Lite Technique in Broadband Deployments draft-qin-softwire-dslite-multicast-04 Wang, Q., Qin, J., Boucadair, M., Jacquenet, C., and Y. Lee

IETF 81 th Context & Use Cases Context – Deliver multicast-based service offerings to DS-Lite serviced customers in ASM and SSM modes Use Cases – IPv4 receiver accessing IPv4-framed multicast content – Dual-Stack receiver accessing IPv4-framed multicast content

IETF 81 th Foundations Address Building – Use [I-D.boucadair-behave-64-multicast-address-format] to build multicast IPv4-embedded IPv6 addresses – Use [RFC6052] to build unicast IPv4-embedded IPv6 addresses representing IPv4 sources in the IPv6 realm The underlying network delivers encapsulated packets in standard multicast fashion – Bandwidth optimization is ensured All involved interworking functions are stateless

IETF 81 th IPv4 Source IPv4 Receiver mAFTR mB4 IGMPMLD QR MLD Querier IPv6 PIMIPv4 PIM IPv4 Flows IPv4-in-IPv6 Flows Stateless IPv4-IPv6 PIM Interworking Function Stateless IGMP-MLD Interworking Function Stateless encapsulation & IPv4 -> IPv6 header mapping of multicast flows Overall procedures with involved interworking functions: Need to provision the mB4 with mPREFIX64 and uPREFIX64 IPv4 Realm IPv6 Realm IPv4 Flows DR R S IPv4 Realm Stateless de-encapsulation of multicast flows CPE

IETF 81 th ASM/SSM Discussion Shared tree computation (ASM) – Transparent in the IPv4 side – In the IPv6 side For the sake of simplicity, it is RECOMMENDED to configure an mAFTR as the RP for IPv4-embedded IPv6 multicast groups If some other IPv6 multicast router wants to become the RP of the IPv4-embedded IPv6 multicast groups, it may require an mAFTR to emulate the PIM Source Register procedure on behalf of IPv4- embedded IPv6 sources with the RP – The PIM Source Register procedure in the IPv4 domain is not altered – Switching to a SPT tree computation is natively supported where the mAFTR would become the source of the IPv6 MDT and perform the translation SSM Mode is supported

IETF 81 th Difference to -03 “Fall-Back” mode removed – There is another draft discussing this mode I-D-sarikaya-softwire-dslitemulticast – Which relies on the original design of DS-Lite (i.e., Unicast-based tunnel) to deliver multicast traffic – The efficiency of multicast traffic forwarding between B4 and AFTR will be lost in this mode

IETF 81 th Next Step Adopt this I-D as a Working Group document