Leaking Control Flow Information via the Hardware Prefetcher
Modern processor designs use a variety of microarchitectural methods to achieve high performance. Unfortunately, new side-channels have often been uncovered that exploit these enhanced designs. One area that has received little attention from a security perspective is the processor's hard-ware prefetcher, a critical component used to mitigate DRAM latency in today's systems. Prefetchers, like branch predictors, hold critical state related to the execution of the application, and have the potential to leak secret information. But up to now, there has not been a demonstration of a generic prefetcher side-channel that could be actively exploited in today's hardware. In this paper, we present AfterImage, a new side-channel that exploits the Intel Instruction Pointer-based stride prefetcher. We observe that, when the execution of the processor switches between different private domains, the prefetcher trained by one domain can be triggered in another. To the best of our knowledge, this work is the first to publicly demonstrate a methodology that is both algorithm-agnostic and also able to leak kernel data into userspace. AfterImage is different from previous works, as it leaks data on the non-speculative path of execution. Because of this, a large class of work that has focused on protecting transient, branch-outcome-based data will be unable to block this side-channel. By reverse-engineering the IP-stride prefetcher in modern Intel processors, we have successfully developed three variants of AfterImage to leak control flow information across code regions, processes and the user-kernel boundary. We find a high level of accuracy in leaking information with our methodology (from 91 mitigation techniques to block this side-channel, one of which can be used on hardware systems today.
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