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Hauptverfasser: Woo, Jeonghyun, Nair, Prashant J.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2501.18857
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author Woo, Jeonghyun
Nair, Prashant J.
author_facet Woo, Jeonghyun
Nair, Prashant J.
contents RowHammer vulnerabilities pose a significant threat to modern DRAM-based systems, where rapid activation of DRAM rows can induce bit-flips in neighboring rows. To mitigate this, state-of-the-art host-side RowHammer mitigations typically rely on shared counters or tracking structures. While these optimizations benefit benign applications, they are vulnerable to Performance Attacks (Perf-Attacks), where adversaries exploit shared structures to reduce DRAM bandwidth for co-running benign applications by increasing DRAM accesses for RowHammer counters or triggering repetitive refreshes required for the early reset of structures, significantly degrading performance. In this paper, we propose secure hashing mechanisms to thwart adversarial attempts to capture the mapping of shared structures. We propose DAPPER, a novel low-cost tracker resilient to Perf-Attacks even at ultra-low RowHammer thresholds. We first present a secure hashing template in the form of DAPPER-S. We then develop DAPPER-H, an enhanced version of DAPPER-S, incorporating double-hashing, novel reset strategies, and mitigative refresh techniques. Our security analysis demonstrates the effectiveness of DAPPER-H against both RowHammer and Perf-Attacks. Experiments with 57 workloads from SPEC2006, SPEC2017, TPC, Hadoop, MediaBench, and YCSB show that, even at an ultra-low RowHammer threshold of 500, DAPPER-H incurs only a 0.9% slowdown in the presence of Perf-Attacks while using only 96KB of SRAM per 32GB of DRAM memory.
format Preprint
id arxiv_https___arxiv_org_abs_2501_18857
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle DAPPER: A Performance-Attack-Resilient Tracker for RowHammer Defense
Woo, Jeonghyun
Nair, Prashant J.
Cryptography and Security
RowHammer vulnerabilities pose a significant threat to modern DRAM-based systems, where rapid activation of DRAM rows can induce bit-flips in neighboring rows. To mitigate this, state-of-the-art host-side RowHammer mitigations typically rely on shared counters or tracking structures. While these optimizations benefit benign applications, they are vulnerable to Performance Attacks (Perf-Attacks), where adversaries exploit shared structures to reduce DRAM bandwidth for co-running benign applications by increasing DRAM accesses for RowHammer counters or triggering repetitive refreshes required for the early reset of structures, significantly degrading performance. In this paper, we propose secure hashing mechanisms to thwart adversarial attempts to capture the mapping of shared structures. We propose DAPPER, a novel low-cost tracker resilient to Perf-Attacks even at ultra-low RowHammer thresholds. We first present a secure hashing template in the form of DAPPER-S. We then develop DAPPER-H, an enhanced version of DAPPER-S, incorporating double-hashing, novel reset strategies, and mitigative refresh techniques. Our security analysis demonstrates the effectiveness of DAPPER-H against both RowHammer and Perf-Attacks. Experiments with 57 workloads from SPEC2006, SPEC2017, TPC, Hadoop, MediaBench, and YCSB show that, even at an ultra-low RowHammer threshold of 500, DAPPER-H incurs only a 0.9% slowdown in the presence of Perf-Attacks while using only 96KB of SRAM per 32GB of DRAM memory.
title DAPPER: A Performance-Attack-Resilient Tracker for RowHammer Defense
topic Cryptography and Security
url https://arxiv.org/abs/2501.18857