Memory Safety for Embedded Devices with nesCheck

Daniele Midi, Mathias Payer, E. Bertino
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引用次数: 24

Abstract

Applications for TinyOS, a popular operating system for embedded systems and wireless sensor networks, are written in nesC, a C dialect prone to the same type and memory safety vulnerabilities as C. While availability and integrity are critical requirements, the distributed and concurrent nature of such applications, combined with the intrinsic unsafety of the language, makes those security goals hard to achieve. Traditional memory safety techniques cannot be applied, due to the strict platform constraints and hardware differences of embedded systems. We design nesCheck, an approach that combines static analysis and dynamic checking to automatically enforce memory safety on nesC programs without requiring source modifications. nesCheck analyzes the source code, identifies the minimal conservative set of vulnerable pointers, finds static memory bugs, and instruments the code with the required dynamic runtime checks. Our prototype extends the existing TinyOS compiler toolchain with LLVM-based passes. Our evaluation shows that nesCheck effectively and efficiently enforces memory protection, catching all memory errors with an overhead of 0.84% on energy, 5.3% on code size, up to 8.4% on performance, and 16.7% on RAM.
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使用nesCheck的嵌入式设备的内存安全性
TinyOS是一种流行的嵌入式系统和无线传感器网络操作系统,它的应用程序是用nesC编写的,nesC是一种C语言,容易出现与C相同的类型和内存安全漏洞。尽管可用性和完整性是关键要求,但这种应用程序的分布式和并发性,再加上语言本身的不安全性,使得这些安全目标很难实现。由于嵌入式系统严格的平台约束和硬件差异,传统的内存安全技术无法应用。我们设计了nesCheck,这是一种结合了静态分析和动态检查的方法,可以在不需要修改源代码的情况下自动执行nesC程序的内存安全。nesCheck分析源代码,识别最小保守的易受攻击的指针集,发现静态内存错误,并使用所需的动态运行时检查来检测代码。我们的原型扩展了现有的TinyOS编译器工具链,使用基于llvm的通道。我们的评估表明,nesCheck有效地执行内存保护,捕获所有内存错误,能耗为0.84%,代码大小为5.3%,性能为8.4%,RAM为16.7%。
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