Rethinking Enterprise Network Control

Author

Casado, Martín ; Freedman, Michael J. ; Pettit, Justin ; Luo, Jianying ; Gude, Natasha ; McKeown, Nick ; Shenker, Scott

Author_Institution

Stanford Univ., Stanford, CA, USA

Volume

17

Issue

4

fYear

2009

Firstpage

1270

Lastpage

1283

Abstract

This paper presents Ethane, a new network architecture for the enterprise. Ethane allows managers to define a single network-wide fine-grain policy and then enforces it directly. Ethane couples extremely simple flow-based Ethernet switches with a centralized controller that manages the admittance and routing of flows. While radical, this design is backwards-compatible with existing hosts and switches. We have implemented Ethane in both hardware and software, supporting both wired and wireless hosts. We also show that it is compatible with existing high-fanout switches by porting it to popular commodity switching chipsets. We have deployed and managed two operational Ethane networks, one in the Stanford University Computer Science Department supporting over 300 hosts, and another within a small business of 30 hosts. Our deployment experiences have significantly affected Ethane´s design.

Keywords

local area networks; switches; telecommunication control; telecommunication network management; telecommunication network reliability; telecommunication network routing; Ethane; centralized controller; commodity switching chipsets; enterprise network control; fine-grain policy; flow admittance; flow routing; flow-based Ethernet switches; high-fanout switches; network architecture; network management; network security; single network-wide policy; Architecture; management; network; security;

fLanguage

English

Journal_Title

Networking, IEEE/ACM Transactions on

Publisher

ieee

ISSN

1063-6692

Type

jour

DOI

10.1109/TNET.2009.2026415

Filename

5169973