Hybrid-Hierarchical Synchronization for Resilient Large-Scale SDN Architectures

This
paper presents a hybrid synchronization model combining a hierarchical design with established resilient cluster mechanisms. In this way, high-level control over large-scale networks can be guaranteed even with failures affecting every level of the management plane. Specifically, two applications are developed for the ONOS controller to share topology events using low-latency channels from child clusters to parent clusters. The performance of both applications is measured under different cluster configurations, topology sizes and number of generated topology updates. The results show that the proposed approach offers high performance while being fully compliant with the platform for which it is designed. This makes the solution easily extendable to heterogeneous child controllers. In fact, events are propagated from children to parents using gRPC, achieving end-to-end latency of less than 10ms under normal conditions and 40-60ms under high-rate event conditions. Consistency of network views is also guaranteed by strong event ordering and delivery mechanisms. Failures are handled seamlessly at both cluster levels (i.e. parent and child controllers) with a maximum synchronization delay of 2 seconds, which is quickly recovered.