Xiaohu Xu (Huawei) Stewart Bryant (Huawei) Hamid Assarpour (Broadcom)

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Presentation transcript:

Service Chaining using Unified Source Routing Instructions draft-xu-mpls-service-chaining-03 Xiaohu Xu (Huawei) Stewart Bryant (Huawei) Hamid Assarpour (Broadcom) Himanshu Shah (Ciena) Luis M. Contreras (Telefonica I+D) Daniel Bernier (Bell Canada) Jeff Tantsura (Individual) Shaowen Ma (Juniper) Martin Vigoureux (Nokia) IETF100, Singapore

Unified SR: Source-Routing as Overlay UDP as example, GRE and other tunnels also work Unified-SR-Capable Non-Unified-SR Unified SR leverages MPLS-SR by MPLS-in-UDP or MPLS-in-GRE and therefore it works across IPv4 and IPv6 underlying networks. Combines the best of two worlds (e.g., the simplicity of IP and the flexible programming capability of MPLS).

Service Chain with Unified MPLS and NSH The Unified SR can be leveraged to realize an transport-independent SFC encapsulation. Since the Unified SR works across different networks including IPv4, IPv6 and MPLS, the SFC built on the Unified SR is transport-independent accordingly.

Leverage both SR and NSH for SFC NSH as a metadata container The NSH spec has comprehensively defined the metadata format. Why not use the NSH directly as a metadata container: The functionality of the Service Path Identifier (SPI) will indicate and mapping to a Label/UDP stack The Service Index (SI) could be used to determine when to strip the metadata (i.e., the NSH). Combined SPI/SI will add back the Unified MPLS label stack. More details would be specified in future versions.

Detail between SFF/SF with NSH

Advantages over NSH Less states on SFF nodes. Leverage the efficient MPLS network programming capability. Built on the existing MPLS forwarding capabilities (e.g., MPLS forwarding capability and MPLS-in-UDP tunneling capability).

Next Steps WG adoption?