动态流敏感浮动标签系统

Pablo Buiras, D. Stefan, Alejandro Russo
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引用次数: 24

摘要

信息流控制(IFC)的流敏感分析允许数据结构具有可变的安全标签,即可以在计算过程中更改的标签。该特性通常用于通过拒绝更少的程序来提高IFC监视器的容错性,并减少显式标签注释的负担。但是,如果在纯动态设置中天真地添加可变标签,则可能会暴露高带宽隐蔽通道。在这项工作中,我们提出了一个扩展的lio -一个基于语言的浮动标签系统,安全处理流敏感引用。安全操作引用标签的关键在于,不仅要考虑存储在引用中的数据上的标签,即引用标签,还要考虑引用标签本身上的标签。考虑到这一点,我们提供了一个升级原语,可用于以安全的方式更改引用的标签。为了消除确定何时应该升级引用的负担,我们还提供了自动升级的机制。我们的方法自然地扩展到并发设置,以前没有考虑到动态流量敏感系统。对于我们的顺序演算和并发演算,我们通过将流量敏感系统嵌入到流量不敏感的LIO演算中来证明不干扰,这本身就是一个令人惊讶的结果。
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On Dynamic Flow-Sensitive Floating-Label Systems
Flow-sensitive analysis for information-flow control (IFC) allows data structures to have mutable security labels, i.e., labels that can change over the course of the computation. This feature is often used to boost the permissiveness of the IFC monitor, by rejecting fewer programs, and to reduce the burden of explicit label annotations. However, when added naively, in a purely dynamic setting, mutable labels can expose a high bandwidth covert channel. In this work, we present an extension for LIO-a language-based floating-label system-that safely handles flow-sensitive references. The key insight to safely manipulating the label of a reference is to not only consider the label on the data stored in the reference, i.e., the reference label, but also the label on the reference label itself. Taking this into consideration, we provide an upgrade primitive that can be used to change the label of a reference in a safe manner. To eliminate the burden of determining when a reference should be upgraded, we additionally provide a mechanism for automatic upgrades. Our approach naturally extends to a concurrent setting, not previously considered by dynamic flow-sensitive systems. For both our sequential and concurrent calculi, we prove non-interference by embedding the flow-sensitive system into the flow-insensitive LIO calculus, a surprising result on its own.
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