Power Wasting Circuits for Cloud FPGA Attacks
George Provelengios, Daniel Holcomb, Russell Tessier
Abstract
Recent research has exposed a number of security issues related to the use of FPGAs in cloud computing environments. Circuits that deliberately waste power can be carefully crafted by a malicious cloud FPGA user and deployed to cause denial-of-service and fault injection attacks. The main defense strategy used by FPGA cloud services involves checking user-submitted designs for circuit structures that are known to aggressively consume power. In this work, we evaluate a variety of circuit power wasting techniques that typically are not flagged by design rule checks imposed by FPGA cloud computing vendors. We demonstrate that a multi-stage circuit based on standard logic operations can be exploited to induce delay faults in co-located circuits. The efficiency of five power wasting circuits, including our new design, is evaluated in terms of power consumed per logic resource.