1 research outputs found
A Survey on Data Plane Flexibility and Programmability in Software-Defined Networking
Software-defined networking (SDN) attracts the attention of the research
community in recent years, as evidenced by a large number of survey and review
papers. The architecture of SDN clearly recognizes three planes: application,
control, and data plane. The application plane executes network applications;
control plane regulates the rules for the entire network based on the requests
generated by network applications; and based on the set rules, the controller
configures the switches in the data plane. The role of the switch in the data
plane is to simply forward packets based on the instructions given by the
controller. By analyzing SDN-related research papers, it is observed that
research, from the very beginning, is insufficiently focused on the data plane.
Therefore, this paper gives a comprehensive overview of the data plane survey
with particular emphasis on the problem of programmability and flexibility. The
first part of the survey is dedicated to the evaluation of actual data plane
architectures through several definitions and aspects of data plane flexibility
and programmability. Then, an overview of SDN-related research was presented
with the aim of identifying key factors influencing the gradual deviation from
the original data plane architectures given with ForCES and OpenFlow
specifications, which we called the data plane evolution. By establishing a
correlation between the treated problem and the problem-solving approaches, the
limitations of ForCES and OpenFlow data plane architectures were identified.
Based on identified limitations, a generalization of approaches to addressing
the problem of data plane flexibility and programmability is made. By examining
generalized approaches, open issues have been identified, establishing the
grounds for future research directions proposal.Comment: Accepted versio