Protecting a Moving Target: Addressing Web Application Concept Drift


Federico Maggi, William Robertson, Christopher Kruegel, Giovanni Vigna


Proceedings of the 12th International Symposium on Recent Advances in Intrusion Detection (RAID), September 2011


Because of the ad hoc nature of web applications, intrusion detection systems that leverage machine learning techniques are particularly well-suited for protecting websites. The reason is that these systems are able to characterize the applications' normal behavior in an automated fashion. However, anomaly-based detectors for web applications suffer from false positives that are generated whenever the applications being protected change. These false positives need to be analyzed by the security officer who then has to interact with the web application developers to confirm that the reported alerts were indeed erroneous detections. In this paper, we propose a novel technique for the automatic detection of changes in web applications, which allows for the selective retraining of the affected anomaly detection models. We demonstrate that, by correctly identifying legitimate changes in web applications, we can reduce false positives and allow for the automated retraining of the anomaly models. We have evaluated our approach by analyzing a number of real-world applications. Our analysis shows that web applications indeed change substantially over time, and that our technique is able to effectively detect changes and automatically adapt the anomaly detection models to the new structure of the changed web applications.


  title     = {{Protecting a Moving Target: Addressing Web Application Concept Drift}},
  author    = {Maggi, Federico and Robertson, William and Kruegel, Christopher and Vigna, Giovanni},
  booktitle = {Proceedings of the 12th International Symposium on Recent Advances in Intrusion Detection},
  series    = {RAID},
  month     = {September},
  year      = {2009}