par Sharma, Gaurav 
;Ellinidou, Soultana ;Vanspouwen, Tristan;Rigas, Théo;Dricot, Jean-Michel ;Markowitch, Olivier
Référence International Conference on Information Systems Security and Privacy, page (44-54)
Publication Publié, 2019-02-01
;Ellinidou, Soultana ;Vanspouwen, Tristan;Rigas, Théo;Dricot, Jean-Michel ;Markowitch, Olivier Référence International Conference on Information Systems Security and Privacy, page (44-54)
Publication Publié, 2019-02-01
Article révisé par les pairs
| Résumé : | In this work, we implement an identity-based Transport Layer Security (ID-TLS) protocol and integrate it on scalable multiprocessor system-on-chip (MPSoC), namely Cloud-of-Chips (CoC), in order to secure the SDN communication on this platform. We select two identity-based encryption schemes that are more likely to meet the performance and resource constraints on the target platform. The schemes are Sakai-Kasahara's identity-based encryption (SK-IBE) and the optimized identity-based encryption (OIBE) for lightweight devices by Guo et al. The results assert that both the schemes have their computation vs storage trade-off. The SK-IBE algorithm is significantly more computationally efficient than its OIBE counterpart while SK-IBE uses around 30 percent more memory than OIBE. However, the performance results of ID-TLS favor SK-IBE over OIBE. Finally, ID-TLS is integrated in the existing Open Flow switch and controller implementations. This brings us to a fully functional and secure ID-TLS implementation on CoC, keeping the platform constraints in consideration. |
