Middleware specialization using aspect oriented programming

Abstract

Standardized middleware is used to build large distributed real-time and enterprise (DRE) systems. These middleware are highly flexible and support a large number of features since they have to be applicable to a wide range of domains and applications. This generality and flexibility, however, often causes many performance and footprint overheads par-ticularly for product line architectures, which have a well-defined scope smaller than that of the middleware yet must leverage its benefits, such as reusability. To alleviate this tension thus a key objective is to specialize the middleware, which comprises removing the sources of excessive general-ity while simultaneously optimizing the required features of middleware functionality. To meet this objective this paper describes how we have applied Aspect-Oriented Program-ming (AOP) in a novel manner to address these challenges. Although AOP is primarily used for separation of concerns, we use it to specialize middleware. Aspects are used to se-lect the specific set of features needed by the product line. Aspect weaving is subsequently used to specialize the mid-dleware. This paper describes the key motivation for our research, identifies the challenges developing middleware-based product lines and shows how to resolve those using aspects. The results applying our AOP-based specialization techniques to event demultiplexing middleware for the case of single threaded implementation showed 3 % decrease in latency and 2 % increase in throughput, while in the thread pool implementation showed 4 % decrease in latency and 3% increase in throughput

    Similar works

    Full text

    thumbnail-image

    Available Versions

    Last time updated on 05/06/2019