Abstract:In recent years, there have been many works that use website fingerprinting techniques to enable a local adversary to determine which website a Tor user is visiting. However, most of these works rely on manually extracted features, and thus are fragile: a small change in the protocol or a simple defense often renders these attacks useless. In this work, we leverage deep learning techniques to create a more robust attack that does not require any manually extracted features. Specifically, we propose Var-CNN, an attack that uses model variations on convolutional neural networks with both the packet sequence and packet timing data. In open-world settings, Var-CNN attains higher true positive rate and lower false positive rate than any prior work at 90.9% and 0.3%, respectively. Moreover, these improvements are observed even with low amounts of training data, where deep learning techniques often suffer. Given the severity of our attacks, we also introduce a new countermeasure, DynaFlow, based on dynamically adjusting flows to protect against website fingerprinting attacks. DynaFlow provides a similar level of security as current state-of-the-art and defeats all attacks, including our own, while being over 40% more efficient than existing defenses. Moreover, unlike many prior defenses, DynaFlow can protect dynamically generated websites as well.