Access control lists (ACLs) are the core of many networking and security devices. As new threats and vulnerabilities emerge, ACLs on routers and firewalls are getting larger. Therefore, compressing ACLs is an important problem. In this paper, we propose a new approach, called Diplomat, to ACL compression. The key idea is to transform higher dimensional target patterns into lower dimensional patterns by dividing the original pattern into a series of hyperplanes and then resolving differences between two adjacent hyperplanes by adding rules that specify the differences. This approach is fundamentally different from prior ACL compression algorithms and is shown to be very effective. We implemented Diplomat and conducted side-by-side comparison with the prior Firewall Compressor, TCAM Razor, and ACL Compressor algorithms on real life classifiers. Our experimental results show that Diplomat outperforms all of them on most of our real-life classifiers, often by a considerable margin, particularly as classifier size and complexity increases. In particular, on our largest ACLs, Diplomat has an average improvement ratio of 34.9% over Firewall Compressor on range-ACLs, of 14.1% over TCAM Razor on prefix-ACLs, and 8.9% over ACL Compressor on mixed-ACLs.

• 出版日期2016-2