C3APSULe:通过电源单元泄漏的跨fpga转换通道攻击

Ilias Giechaskiel, Kasper Bonne Rasmussen, Jakub Szefer
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引用次数: 50

摘要

现场可编程门阵列(fpga)是通用的、可重构的集成电路,可以用作硬件加速器来处理高度敏感的数据。然而,泄露这些数据和相关的加密密钥可能会破坏系统的安全性。为了防止可能破坏不同数据中心租户之间特权分离的潜在无意交互,云环境中的fpga目前是基于每个用户专用的。然而,虽然fpga本身不会在不同的用户之间共享,但数据中心基础设施的其他部分是共享的。本文首次明确表明,通过相同的电源单元(PSU)为fpga、cpu和gpu供电可以在独立板之间的fpga到fpga、cpu到fpga和gpu到fpga隐蔽通道中被利用。这些隐蔽通道可以远程操作,而不需要物理访问或修改电路板。为了演示攻击,本文使用“传感”和“应力”环振荡器的新组合作为接收器上的FPGA。此外,环形振荡器被用作源FPGA上的发射器。发射和接收电路用于确定含有Artix 7和Kintex 7 FPGA芯片的现成Xilinx板上是否存在泄漏。实验采用了两家厂商的psu,以及不同世代的cpu和gpu。此外,还对不同尺寸和类型的环形振荡器进行了测试。此外,本工作还讨论了减轻跨板泄漏影响的潜在对策。本文的结果强调了本地和云FPGA中共享电源单元的危险,因此需要重新考虑共享基础设施的FPGA安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
C3APSULe: Cross-FPGA Covert-Channel Attacks through Power Supply Unit Leakage
Field-Programmable Gate Arrays (FPGAs) are versatile, reconfigurable integrated circuits that can be used as hardware accelerators to process highly-sensitive data. Leaking this data and associated cryptographic keys, however, can undermine a system’s security. To prevent potentially unintentional interactions that could break separation of privilege between different data center tenants, FPGAs in cloud environments are currently dedicated on a per-user basis. Nevertheless, while the FPGAs themselves are not shared among different users, other parts of the data center infrastructure are. This paper specifically shows for the first time that powering FPGAs, CPUs, and GPUs through the same power supply unit (PSU) can be exploited in FPGA-to-FPGA, CPU-to-FPGA, and GPU-to-FPGA covert channels between independent boards. These covert channels can operate remotely, without the need for physical access to, or modifications of, the boards. To demonstrate the attacks, this paper uses a novel combination of "sensing" and "stressing" ring oscillators as receivers on the sink FPGA. Further, ring oscillators are used as transmitters on the source FPGA. The transmitting and receiving circuits are used to determine the presence of the leakage on off-the-shelf Xilinx boards containing Artix 7 and Kintex 7 FPGA chips. Experiments are conducted with PSUs by two vendors, as well as CPUs and GPUs of different generations. Moreover, different sizes and types of ring oscillators are also tested. In addition, this work discusses potential countermeasures to mitigate the impact of the cross-board leakage. The results of this paper highlight the dangers of shared power supply units in local and cloud FPGAs, and therefore a fundamental need to re-think FPGA security for shared infrastructures.
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