Title :
Cryptographic implementation of RSA for ion fault injection attack
Author :
Cuiping Shao ; Huiyun Li ; Xiaolong Zhang
Author_Institution :
Shenzhen Inst. of Adv. Technol., Chinese Univ. of Hong Kong, Shenzhen, China
Abstract :
Nowadays the RSA cryptographic algorithm is widely used to protect Big Data security and privacy. Fault injection has been proved effective against RSA implementations. Although heavy ions have been long known as a source to cause single event effect (SEE), there is few publication about how the RSA implementations could be compromised by ion strikes. This paper proposes an RSA implementation specifically designed for the ion strike experiment. The design includes the handshake protocol with the microbeam facility, SEE response module, recovery module, fault detection module. This design paves the way to discover to what extend the ion attack will compromise the RSA implementations.
Keywords :
cryptographic protocols; field programmable gate arrays; public key cryptography; RSA cryptographic algorithm; RSA implementations; SEE response module; cryptographic implementation; fault detection module; handshake protocol; heavy ions; ion fault injection attack; ion strike experiment; microbeam facility; recovery module; single-event effect; Big data; Circuit faults; Field programmable gate arrays; Ions; Random access memory; Security; Semiconductor lasers; FPGA; Heavy ions; RSA; fault injection attack; microbeam;
Conference_Titel :
Consumer Communications and Networking Conference (CCNC), 2014 IEEE 11th
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4799-2356-4
DOI :
10.1109/CCNC.2014.6994410
