English

Logical peering for interdomain networking on testbeds

Networking and Internet Architecture 2020-10-12 v1

Abstract

Research testbed fabrics have potential to support long-lived, evolving, interdomain experiments, including opt-in application traffic across multiple campuses and edge sites. We propose abstractions and security infrastructure to facilitate multi-domain networking, and a reusable controller toolkit (ExoPlex) for network service providers (NSPs) running in testbed-hosted virtual network slices. We demonstrate the idea on the ExoGENI testbed, which allows slices to interconnect and exchange traffic over peering links by mutual consent. Each ExoPlex NSP runs a peering controller that manages its interactions with its linked peers and controls the NSP's dataplane network via SDN. Our approach expresses policies for secure peering and routing in a declarative language---logical peering. The prototype uses logic rules to verify IP prefix ownership, filter and validate route advertisements, and implement user-specified policies for connectivity and path control in networks with multiple transit NSPs.

Keywords

Cite

@article{arxiv.2010.04707,
  title  = {Logical peering for interdomain networking on testbeds},
  author = {Yuanjun Yao and Qiang Cao and Paul Ruth and Mert Cevik and Cong Wang and Jeff Chase},
  journal= {arXiv preprint arXiv:2010.04707},
  year   = {2020}
}

Comments

16 pages

R2 v1 2026-06-23T19:13:03.303Z