Secure Scan: A Design-for-Test Architecture for Crypto Chips 论文

摘要

Scan-based design for test (DFT) is a powerful testing scheme, but it can be used to retrieve the secrets stored in a crypto chip, thus compromising its security. On one hand, sacrificing the security for testability by using a traditional scan-based DFT restricts its use in privacy sensitive applications. On the other hand, sacrificing the testability for security by abandoning the scan-based DFT hurts the product quality. The security of a crypto chip comes from the small secret key stored in a few registers, and the testability of a crypto chip comes from the data path and control path implementing the crypto algorithm. Based on this key observation, the authors propose a novel scan DFT architecture called secure scan that maintains the high test quality of traditional scan DFT without compromising the security. They used a hardware implementation of the advanced encryption standard to show that the traditional scan DFT scheme can compromise the secret key. They then showed that by using secure-scan DFT, neither the secret key nor the testability of the AES implementation is compromised