使用参数定时模型检查保证定时不透明度

É. André, D. Lime, Dylan Marinho, Junbo Sun
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引用次数: 4

摘要

信息泄露会对系统安全造成严重后果。在有害的信息泄露中,定时信息泄露发生在攻击者成功推断出内部机密信息的时候。在这项工作中,我们认为攻击者(仅)有权访问系统执行时间。我们解决了以下时间不透明问题:给定一个定时系统,一个私有位置和一个最终位置,综合从初始位置到最终位置的执行时间,其中无法推断系统是否经过了私有位置。我们还考虑了全时间不透明问题,询问系统是否在所有执行时间都是不透明的。我们证明了这些问题对于时间自动机(TAs)是可确定的,但当一个人增加参数时,产生参数时间自动机(pta),这些问题就变得不可确定了。我们用一些可判定的结果来确定一个子类。然后,我们设计了一种算法来合成pta参数估值,保证结果TA是不透明的。结果表明,该方法同样适用于程序分析。
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Guaranteeing Timed Opacity using Parametric Timed Model Checking
Information leakage can have dramatic consequences on systems security. Among harmful information leaks, the timing information leakage occurs whenever an attacker successfully deduces confidential internal information. In this work, we consider that the attacker has access (only) to the system execution time. We address the following timed opacity problem: given a timed system, a private location and a final location, synthesize the execution times from the initial location to the final location for which one cannot deduce whether the system went through the private location. We also consider the full timed opacity problem, asking whether the system is opaque for all execution times. We show that these problems are decidable for timed automata (TAs) but become undecidable when one adds parameters, yielding parametric timed automata (PTAs). We identify a subclass with some decidability results. We then devise an algorithm for synthesizing PTAs parameter valuations guaranteeing that the resulting TA is opaque. We finally show that our method can also apply to program analysis.
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