为安全加载智能卡小程序而进行的组合验证

Proceedings. Second ACM and IEEE International Conference on Formal Methods and Models for Co-Design, 2004. MEMOCODE '04. Pub Date : 2004-06-23 DOI:10.1109/MEMCOD.2004.1459857

C. Sprenger, D. Gurov, M. Huisman

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引用次数: 8

摘要

我们提出了一种智能卡小程序和控制流的算法组合验证方法，该方法基于具有同时最大不动点的模态逻辑表示的安全特性。我们的方法建立在Grumberg和Long提出的技术的基础上，他们使用最大模型将有限状态并行过程的组成验证减少到标准模型检查。我们将这种技术应用于applet，这是一类无限状态顺序过程。这需要改进方法，因为对于给定的applet接口和行为公式，最大的applet并不总是存在。因此，我们提出了一种两级方法，其中局部假设限制了小程序的控制流结构，而全局保证限制了系统的控制流行为。我们提出了一种新的逻辑最大模型结构，并将其应用于applet。通过分离验证全局属性和本地属性的任务，我们的方法支持将applet在发行后安全地加载到智能卡上。

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Compositional verification for secure loading of smart card applets

We present an algorithmic compositional verification method for smart card applets and control flow based safety properties expressed in a modal logic with simultaneous greatest fixed points. Our method builds on a technique proposed by Grumberg and Long who use maximal models to reduce compositional verification of finite-state parallel processes to standard model checking. We adapt this technique to applets, a class of infinite-state sequential processes. This requires a refinement of the method, since for a given applet interface and behavioural formula a maximal applet does not always exist. We therefore propose a two-level approach, where local assumptions restrict the control flow structure of applets, while the global guarantee restricts the control flow behaviour of the system. We present a novel maximal model construction for our logic and then adapt it to applets. By separating the tasks of verifying global and local properties our method supports secure post-issuance loading of applets onto a smart card.

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来源期刊

Proceedings. Second ACM and IEEE International Conference on Formal Methods and Models for Co-Design, 2004. MEMOCODE '04.

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