微内核操作系统中的自适应监控

2010 International Conference on Dependable Systems and Networks Workshops (DSN-W) Pub Date : 2010-06-28 DOI:10.1109/DSNW.2010.5542619

Domenico Cotroneo, Domenico Di Leo, R. Natella

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引用次数: 4

摘要

为了开发可靠的操作系统，工业界和学术界都对微内核体系结构进行了研究。这项工作处理了该体系结构的一个相关问题，即由于死锁和无限循环而导致的无响应组件。特别是，监控器将心跳消息发送到应该在超时内回复的组件。超时选择很棘手，因为它应该动态地适应系统的负载条件。因此，我们的方法基于自适应心跳机制，其中超时是根据过去的响应时间估计的。在Minix 3操作系统环境下，我们实现并比较了三种选择超时的估计算法。从分析中，我们得出了根据系统需求选择最佳算法的有用指南。

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Adaptive monitoring in microkernel OSs

The microkernel architecture has been investigated by both industries and the academia for the development of dependable Operating Systems (OSs). This work copes with a relevant issue for this architecture, namely unresponsive components because of deadlocks and infinite loops. In particular, a monitor sends heartbeat messages to a component that should reply within a timeout. The timeout choice is tricky, since it should be dynamically adapted to the load conditions of the system. Therefore, our approach is based on an adaptive heartbeat mechanism, in which the timeout is estimated from past response times. We implement and compare three estimation algorithms for the choice of the timeout in the context of the Minix 3 OS. From the analysis we derive useful guidelines for choosing the best algorithm with respect to system requirements.

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2010 International Conference on Dependable Systems and Networks Workshops (DSN-W)

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