Turn on, Tune in, Listen up: Maximizing Side-Channel Recovery in Time-to-Digital Converters
Colin Drewes, Olivia Weng, Keegan Ryan, Bill Hunter, Christopher McCarty, Ryan Kastner, Dustin Richmond
Abstract
Voltage fluctuation sensors measure minute changes in an FPGA power distribution network, allowing attackers to extract information from concurrently executing computations. Previous voltage fluctuation sensors make assumptions about the co-tenant computation and require the attacker have a priori access or system knowledge to tune the sensor parameters statically. We present the open-source design of the Tunable Dual-Polarity Time-to-Digital Converter, which introduces three dynamically tunable parameters that optimize signal measurement, including the transition polarity, sample window, frequency, and phase. We show that a properly tuned sensor improves co-tenant classification accuracy by 2.5× over prior work and increases the ability to identify the co-tenant computation and its microarchitectural implementation. Across 13 varying applications, our techniques yield an 80% classification accuracy that generalizes beyond a single board. Finally, our sensor improves the ability of a correlation power analysis attack to rank correct subkey values by 2×.