On the database/network interface in large-scale publish/subscribe systems

The work performed by a publish/subscribe system can conceptually be divided into subscription processing and notification dissemination. Traditionally, research in the database and networking communities has focused on these aspects in isolation. The interface between the database server and the network is often overlooked by previous research. At one extreme, database servers are directly responsible for notifying individual subscribers; at the other extreme, updates are injected directly into the network, and the network is solely responsible for processing subscriptions and forwarding notifications. These extremes are unsuitable for complex and stateful subscription queries. A primary goal of this paper is to explore the design space between the two extremes, and to devise solutions that incorporate both database-side and network-side considerations in order to reduce the communication and server load and maintain system scalability. Our techniques apply to a broad range of stateful query types, and we present solutions for several of them. Our detailed experiments based on real and synthetic workloads with varying characteristics and link-level network simulation show that by exploiting the query semantics and building an appropriate interface between the database and the network, it is possible to achieve orders-of-magnitude savings in network traffic at low server-side processing cost.