15th USENIX Security Symposium Abstract
Pp. 137151 of the Proceedings
SANE: A Protection Architecture for Enterprise Networks
Martin Casado and Tal Garfinkel, Stanford University; Aditya Akella, Carnegie Mellon University; Michael J. Freedman, Dan Boneh, and Nick McKeown, Stanford University; Scott Shenker, University of California, Berkeley
Connectivity in today's enterprise networks is regulated by a combination of complex routing and bridging policies, along with various interdiction mechanisms such as ACLs, packet filters, and other middleboxes that attempt to retrofit access control onto an otherwise permissive network architecture. This leads to enterprise networks that are inflexible, fragile, and difficult to manage.
To address these limitations, we offer SANE, a protection architecture for enterprise networks. SANE defines a single protection layer that governs all connectivity within the enterprise. All routing and access control decisions are made by a logically-centralized server that grants access to services by handing out capabilities (encrypted source routes) according to declarative access control policies (e.g., "Alice can access http server foo"). Capabilities are enforced at each switch, which are simple and only minimally trusted. SANE offers strong attack resistance and containment in the face of compromise, yet is practical for everyday use. Our prototype implementation shows that SANE could be deployed in current networks with only a few modifications, and it can easily scale to networks of tens of thousands of nodes.
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