Countering IPC Threats in Multiserver Operating Systems (A Fundamental Requirement for Dependability)

机译：对MultiServer操作系统的反对IPC威胁（可靠性的基本要求）

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Multiserver operating systems have great potential to improve dependability, but, paradoxically, are paired with inherently more complex interprocess communication (IPC). Several projects have attempted to run drivers and extensions in isolated protection domains, but a systematic way to deal with IPC threats posed by untrusted parties is not yet available in the literature. IPC is fundamental to the dependability of multiserver systems.In this paper, we present a classification of IPC threats in multiserver systems with unreliable and hostile senders and receivers, such as resource exhaustion, spoofing, and unauthorized access. We also introduce an extended asymmetric trust model, describing two new IPC vulnerabilities relating to caller blockage. Based on our classification of IPC threats we present the IPC defense mechanisms and architecture of MINIX 3.

机译：多功能器操作系统具有提高可靠性的巨大潜力，但是，矛盾的是与固有更复杂的进程通信（IPC）配对。几个项目已经尝试在孤立的保护域中运行驱动程序和扩展，但是在文献中尚未提供不受信任的各方提出的IPC威胁的系统化方式。 IPC是MultiServer Systems的可靠性的基础。在本文中，我们在多功能系统中展示了具有不可靠和敌对的发件人和接收器的MultiServer系统中的IPC威胁的分类，例如资源耗尽，欺骗和未经授权的访问。我们还介绍了一个扩展的不对称信任模型，描述了与呼叫者阻塞有关的两个新的IPC漏洞。根据我们的IPC威胁的分类，我们介绍了MINIX 3的IPC防御机制和架构。

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《IEEE Pacific Rim International Symposium on Dependable Computing》|2008年||共10页
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中图分类安全保密;
关键词
Classification of IPC Threats; Dependable IPC Architecture; Multiserver Operating Systems;

机译：IPC威胁的分类;可靠的IPC架构;多功能操作系统;

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Countering IPC Threats in Multiserver Operating Systems (A Fundamental Requirement for Dependability)

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