Journal
JOURNAL OF SYSTEMS AND SOFTWARE
Volume 186, Issue -, Pages -Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.jss.2021.111181
Keywords
Software aging; Software rejuvenation; Android operating system
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The article introduces a configurable micro-rejuvenation technique to counter software aging in Android-based mobile devices, focusing on fine-grained manipulation of system data structures. Experimental results demonstrate significant improvements in responsiveness and time to failure of mobile operating systems.
Software aging - the phenomenon affecting many long-running systems, causing performance degradation or an increasing failure rate over mission time, and eventually leading to failure - is known to affect mobile devices and their operating systems, too. Software rejuvenation - the technique typically used to counteract aging - may compromise the user's perception of availability and reliability of the personal device, if applied at a coarse grain, e.g., by restarting applications or, worse, rebooting the entire device. This article proposes a configurable micro-rejuvenation technique to counteract software aging in Android-based mobile devices, acting at a fine-grained level, namely on in-memory system data structures. The technique is engineered in two phases. Before releasing the (customized) Android version, a heap profiling facility is used by the manufacturer's developers to identify potentially bloating data structures in Android services and to instrument their code. After release, an aging detection and rejuvenation service will safely clean up the bloating data structures, with a negligible impact on user perception and device availability, as neither the device nor operating system's processes are restarted. The results of experiments show the ability of the technique to provide significant gains in aging mobile operating system responsiveness and time to failure. (c) 2021 Elsevier Inc. All rights reserved.
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