Scapegoat: An Adaptive Monitoring Framework for Component-Based Systems

I. Gonzalez-Herrera, Johann Bourcier, Erwan Daubert, Walter Rudametkin, Olivier Barais, François Fouquet, J. Jézéquel
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引用次数: 11

Abstract

Modern component frameworks support continuous deployment and simultaneous execution of multiple software components on top of the same virtual machine. However, isolation between the various components is limited. A faulty version of any one of the software components can compromise the whole system by consuming all available resources. In this paper, we address the problem of efficiently identifying faulty software components running simultaneously in a single virtual machine. Current solutions that perform permanent and extensive monitoring to detect anomalies induce high overhead on the system, and can, by themselves, make the system unstable. In this paper we present an optimistic adaptive monitoring system to determine the faulty components of an application. Suspected components are finely instrumented for deeper analysis by the monitoring system, but only when required. Unsuspected components are left untouched and execute normally. Thus, we perform localized just-in-time monitoring that decreases the accumulated overhead of the monitoring system. We evaluate our approach against a state-of-the-art monitoring system and show that our technique correctly detects faulty components, while reducing overhead by an average of 80%.
替罪羊:基于组件的系统的自适应监控框架
现代组件框架支持在同一虚拟机上连续部署和同时执行多个软件组件。然而,各个组件之间的隔离是有限的。任何一个软件组件的错误版本都可能消耗所有可用资源,从而危及整个系统。在本文中,我们解决了有效识别在单个虚拟机中同时运行的故障软件组件的问题。当前的解决方案执行永久和广泛的监控来检测异常,这会导致系统的高开销,并且本身会使系统不稳定。在本文中,我们提出了一种乐观自适应监控系统来确定应用程序的故障组件。监测系统会对可疑组件进行精细的仪器检测,以便进行更深入的分析,但只在需要时进行。未被怀疑的组件保持不变并正常执行。因此,我们执行本地化的实时监视,以减少监视系统的累积开销。我们根据最先进的监控系统评估了我们的方法,并表明我们的技术可以正确检测故障组件,同时平均减少80%的开销。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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