Title :
A New Efficient Property-Based Attestation Protocol Based on Elliptic Curves
Author :
Chu, Xiaobo ; Yu, Qin
Author_Institution :
Inst. of Software, Beijing, China
Abstract :
"Binary remote attestation", originally designed by Trusted Computing Group(TCG), is severely criticized for its leaking of configuration and poor scalability. Property-based attestation(PBA) is a promising remote attestation method to solve the above problem, in which security property has replaced binary integrity measurement value as the measure of trustworthiness. Nevertheless, current PBA schemes have their own limitations, mainly on performance and implementation cost. The protocol computations are rather complex for participants, especially for Trusted Platform Module(TPM). Contribution in this paper is a new PBA protocol, which significantly raises PBA protocol efficiency, meanwhile requires less resource for TPM. In random oracle model, our protocol is provable secure under q-SDH assumption and discrete logarithm assumption.
Keywords :
cryptographic protocols; public key cryptography; random processes; trusted computing; PBA protocol; TPM; binary integrity measurement value; binary remote attestation method; discrete logarithm assumption; elliptic curves; property-based attestation protocol; q-SDH assumption; random oracle model; security property; trusted computing group; trusted platform module; trustworthiness measure; Computational modeling; Elliptic curves; Games; Polynomials; Privacy; Protocols; Security; property-based attestation; remote attesatation; trusted computing; trusted platform module;
Conference_Titel :
Trust, Security and Privacy in Computing and Communications (TrustCom), 2012 IEEE 11th International Conference on
Conference_Location :
Liverpool
Print_ISBN :
978-1-4673-2172-3
DOI :
10.1109/TrustCom.2012.43
