Visible to the public Ravel: A Database-Defined NetworkConflict Detection Enabled

TitleRavel: A Database-Defined Network
Publication TypeConference Paper
Year of Publication2016
AuthorsAnduo Wang, University of Illinois at Urbana-Champaign, Xueyan Mei, University of Illinois at Urbana-Champaign, Jason Croft, University of Illinois at Urbana-Champaign, Matthew Caesar, University of Illinois at Urbana-Champaign, Brighten Godfrey, University of Illinois at Urbana-Champaign
Conference NameACM SIGCOMM Symposium on Software Defined Networking Research (SOSR 2016)
Date PublishedMarch 2016
Conference LocationSanta Clara, CA
KeywordsA Hypothesis Testing Framework for Network Security, Architectures, centralized networks, network management, Network security, NSA SoS Lablets Materials, Programming Abstraction, science of security, Software-Defined Networks, SQL Database, UIUC, Views
Abstract

SDN's logically centralized control provides an insertion point for programming the network. While it is generally agreed that higherlevel abstractions are needed to make that programming easy, there is little consensus on what are the "right" abstractions. Indeed, as SDN moves beyond its initial specialized deployments to broader use cases, it is likely that network control applications will require diverse abstractions that evolve over time. To this end, we champion a perspective that SDN control fundamentally revolves around data representation. We discard any application-specific structure that might be outgrown by new demands. Instead, we adopt a plain data representation of the entire network -- network topology, forwarding, and control applications -- and seek a universal data language that allows application programmers to transform the primitive representation into any high-level representations presented to applications or network operators. Driven by this insight, we present a system, Ravel, that implements an entire SDN network control infrastructure within a standard SQL database. In Ravel, network abstractions take the form of user-defined SQL views expressed by SQL queries that can be added on the fly. A key challenge in realizing this approach is to orchestrate multiple simultaneous abstractions that collectively affect the same underlying data. To achieve this, Ravel enhances the database with novel data integration mechanisms that merge the multiple views into a coherent forwarding behavior. Moreover, Ravel is exposed to applications through the one simple, familiar and highly interoperable SQL interface. While this is an ambitious long-term goal, our prototype built on the PostgreSQL database exhibits promising performance even for large scale networks.

Citation Keynode-25901
Refereed DesignationRefereed

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Ravel A Database Defined Network