SurfNoC: a low latency and provably non-interfering approach to secure networks-on-chip
Proceedings of the 40th Annual International Symposium on Computer Architecture
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On-chip network is often dynamically shared among applications that are concurrently running on a chip-multiprocessor (CMP). In general, such shared resources imply that applications can affect each other's timing characteristics through interference in shared resources. For example, in on-chip networks, multiple flows can compete for links and buffers. We show that this interference is an attack vector through which a malicious application may be able to infer data-dependent information about other applications (side channel attacks), or two applications can exchange information covertly when direct communications are prohibited (covert channel attacks). To prevent these timing channel attacks, we propose an efficient scheme which uses priority-based arbitration and a static limit mechanism to provide one-way information-leak protection. The proposed technique requires minimal changes to the router hardware. The simulation results show that the protection scheme effectively eliminates a timing channel from high-security to low-security domains with minimal performance overheads for realistic traffic patterns.