设计基于 RISC-V 处理器的轻量级内存保护解决方案

Kai Nie, Rongcai Zhao, Xiao Zhang, Shuyu Li
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摘要

随着现代处理器技术的飞速发展,外部设备对处理器内存安全性的潜在威胁要求建立强大的内存保护机制。为确保处理器的稳定性和安全性,通常采用输入输出(IO)物理内存保护机制来防止对处理器内存的非法访问。然而,传统 IO 物理内存保护机制中模块间映射关系的冗余会导致处理器运行时间的增加。本文以 RISC-V 处理器为重点,通过研究传统的 IO 物理内存保护方法,提出了一种名为 L-OPT 的高效内存保护方案。L-OPT 优化了传统内存保护方案中内部模块之间的映射关系。在内存测试场景中,与未经优化的处理器状态相比,L-OPT 的效率提高了 112%,验证了它在提高处理器运行效率方面的有效性。
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Design of lightweight memory protection solution based on RISC-V processor
With the rapid advancement of modern processor technologies, the potential threat to processor memory security from external devices necessitates robust memory protection mechanisms. To ensure the stability and security of processors, Input-Output (IO) physical memory protection mechanisms are commonly employed to prevent unauthorized access to processor memory. However, the redundancy in the mapping relationships between modules in traditional IO physical memory protection mechanisms leads to an increase in processor runtime. This paper, focusing on RISC-V processors, presents an efficient memory protection scheme, named L-OPT, by investigating traditional IO physical memory protection approaches. L-OPT optimizes the mapping relationships between internal modules in conventional memory protection schemes. In comparison with the unoptimized state of the processor in memory testing scenarios, L-OPT demonstrates a 112% efficiency improvement, validating its effectiveness in enhancing processor runtime efficiency.
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