Title :
Formalizing consistent dynamic updates for component-based software
Author :
Xiaohui Xu ; Yi Zhang
Author_Institution :
CISDI R&D Co. Ltd., Chongqing, China
Abstract :
To enable the updated system to run correctly, it is very important to reason about some meaning and possible effects of updates. In this paper, we propose a formal calculus update π, a variant extension of higher-order π calculus, to model dynamic updates of component-based software, which is language and technology independent. This calculus focuses on some main aspects which include granularity of update, timing of update, state transformation and update failure recovery. Some applications of this formal method to those general dynamic update processes and the relational analysis of property and verification show that the update π calculus can reasonably reason about and ensure the safety and consistency of dynamic updates.
Keywords :
formal languages; formal verification; object-oriented programming; pi calculus; component-based software; consistent dynamic update formalization; dynamic update consistency; dynamic update safety; formal calculus update; formal method; higher-order π calculus; language independent software; relational analysis; state transformation; technology independent software; update failure recovery; verification analysis; Calculus; Educational institutions; Runtime; Safety; Semantics; Software; Timing; component-based software; dynamic update; formal method; higher-order process calculus;
Conference_Titel :
Computer Science and Network Technology (ICCSNT), 2013 3rd International Conference on
Conference_Location :
Dalian
DOI :
10.1109/ICCSNT.2013.6967115
