Two decades after the first distributed denial-of-service (DDoS) attack, the Internet remains challenged by DDoS attacks as they evolve. Not only is the scale of attacks larger than ever, but they are also harder to detect and mitigate. Nevertheless, the Internet's fundamental design, based on which machines are free to send traffic to any other machines, remains the same. This thesis reinvestigates the prior DDoS defense solutions to find less studied but critical issues in existing defense solutions. It proposes solutions to improve the input, design, and evaluation of DDoS defense. Specifically, we show why DDoS defense systems need a better view of the Internet's traffic at the autonomous system (AS) level. We use a novel attack to expose the inefficiencies in the existing defense systems. Finally, we reason why a defense solution needs a sound empirical evaluation and provide a framework that mimics real-world networks to facilitate DDoS defense evaluation.
This dissertation includes published and unpublished co-authored materials
