OSPREY: Recovery of Variable and Data Structure via Probabilistic Analysis for Stripped Binary

Zhuo Zhang, Yapeng Ye, Wei You, Guanhong Tao, Wen-Chuan Lee, Yonghwi Kwon, Yousra Aafer, X. Zhang
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引用次数: 16

Abstract

Recovering variables and data structure information from stripped binary is a prominent challenge in binary program analysis. While various state-of-the-art techniques are effective in specific settings, such effectiveness may not generalize. This is mainly because the problem is inherently uncertain due to the information loss in compilation. Most existing techniques are deterministic and lack a systematic way of handling such uncertainty. We propose a novel probabilistic technique for variable and structure recovery. Random variables are introduced to denote the likelihood of an abstract memory location having various types and structural properties such as being a field of some data structure. These random variables are connected through probabilistic constraints derived through program analysis. Solving these constraints produces the posterior probabilities of the random variables, which essentially denote the recovery results. Our experiments show that our technique substantially outperforms a number of state-of-the-art systems, including IDA, Ghidra, Angr, and Howard. Our case studies demonstrate the recovered information improves binary code hardening and binary decompilation.
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OSPREY:通过剥离二进制的概率分析恢复变量和数据结构
从被剥离的二进制数据中恢复变量和数据结构信息是二进制程序分析中的一个突出挑战。虽然各种最先进的技术在特定情况下是有效的,但这种有效性可能不会普遍化。这主要是因为由于编译过程中的信息丢失,问题具有固有的不确定性。大多数现有技术都是确定性的,缺乏处理这种不确定性的系统方法。我们提出了一种新的概率技术用于变量和结构的恢复。引入随机变量来表示具有各种类型和结构属性的抽象内存位置的可能性,例如作为某些数据结构的字段。这些随机变量通过程序分析得到的概率约束联系起来。求解这些约束条件产生随机变量的后验概率,它本质上表示恢复结果。我们的实验表明,我们的技术实质上优于许多最先进的系统,包括IDA、Ghidra、Angr和Howard。我们的案例研究表明,恢复的信息改善了二进制代码加固和二进制反编译。
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