@misc{WichtlhuberStrehleKoppetal., author = {Wichtlhuber, Matthias and Strehle, Eric and Kopp, Daniel and Prepens, Lars and Stegmueller, Stefan and Rubina, Alina and Dietzel, Christoph and Hohlfeld, Oliver}, title = {IXP Scrubber: Learning from Blackholing Traffic for ML-Driven DDoS Detection at Scale}, series = {ACM SIGCOMM 2022 Conference, 2022}, journal = {ACM SIGCOMM 2022 Conference, 2022}, pages = {707 -- 722}, abstract = {Distributed Denial of Service (DDoS) attacks are among the most critical cybersecurity threats, jeopardizing the stability of even the largest networks and services. The existing range of mitigation services predominantly filters at the edge of the Internet, thus creating unnecessary burden for network infrastructures. Consequently, we present IXP Scrubber, a Machine Learning (ML) based system for detecting and filtering DDoS traffic at the core of the Internet at Internet Exchange Points (IXPs) which see large volumes and varieties of DDoS. IXP Scrubber continuously learns DDoS traffic properties from neighboring Autonomous Systems (ASes). It utilizes BGP signals to drop traffic for certain routes (blackholing) to sample DDoS and can thus learn new attack vectors without the operator's intervention and on unprecedented amounts of training data. We present three major contributions: i) a method to semi-automatically generate arbitrarily large amounts of labeled DDoS training data from IXPs' sampled packet traces, ii) the novel, controllable, locally explainable and highly precise two-step IXP Scrubber ML model, and iii) an evaluation of the IXP Scrubber ML model, including its temporal and geographical drift, based on data from 5 IXPs covering a time span of up to two years.}, language = {en} }