Title:
Database Reconstruction from Noisy Volumes: A Cache Side-Channel Attack on
SQLite
Abstract:
We demonstrate the feasibility of database reconstruction under a cache side-channel attack on SQLite. Specifically, we present a Flush+Reload attack on SQLite that obtains approximate (or "noisy") volumes of range queries made to a private database. We then present several algorithms that, taken together, reconstruct nearly the exact database in varied experimental conditions, given these approximate volumes. Our reconstruction algorithms employ novel techniques for the approximate/noisy setting, including a noise-tolerant clique-finding algorithm, a "Match & Extend" algorithm for extrapolating volumes that are omitted from the clique, and a "Noise Reduction Step" that makes use of the closest vector problem (CVP) solver to improve the overall accuracy of the reconstructed database. The time complexity of our attacks grows quickly with the size of the range of the queried attribute but scales well to large databases. Experimental results show that we can reconstruct databases of size 100,000 and ranges of size 12 with an error percentage of 0.11 % in under 12 hours on a personal laptop.
Speaker:
Aria Shahverdi, M. Sc.
Ph.D. candidate
ECE
University of Maryland
Bio:
Aria Shahverdi received the bachelor's degree from Sharif University of Technology, Iran, in 2013, and the master's degree in electrical and computer engineering from Worcester Polytechnic Institute, Massachusetts, in 2015 under the supervision of Prof. Thomas Eisenbarth. He is currently a Ph.D. candidate in the ECE Department at the University of Maryland, College Park, MD, and also a member of Maryland Cybersecurity Center, where he is advised by Prof. Dana Dachman-Soled. His studies are about the implementation and analysis of cryptographic schemes against leakage and side-channel attacks.
Dienstag, 11. Januar 2022
16:00 - 17:00 CET
Raum: Online (Webex)
Das Meeting liegt in der Vergangenheit.