[cs-talks] Upcoming BUSec Seminar, May 6th - Speaker: Ryo Nishimaki

Greenwald, Faith fgreen1 at bu.edu
Mon May 4 12:05:16 EDT 2015

BUSec Seminar
Watermarking Cryptographic Programs Against Arbitrary Removal Strategies
Ryo Nishimaki (NTT and Northeastern University)
Wednesday, May 6, 2015 at 10am in MCS 180- Hariri Seminar Room

Abstract: A watermarking scheme for programs embeds some information called a mark into a program while preserving its functionality. No adversary can remove the mark without damaging the functionality of the program. In this work, we study the problem of watermarking various cryptographic programs such as pseudorandom function (PRF) evaluation, decryption, and signing. For example, given a PRF key $K$, we create a marked program $\widetilde{C}$ that evaluates the PRF $F(K,\cdot)$. An adversary that gets $\widetilde{C}$ cannot come up with any program $C^*$ in which the mark is removed but which still evaluates the PRF correctly on even a small fraction of the inputs.

The work of Barak et al. (CRYPTO'01 and J.ACM, 59(2)) shows that, assuming indistinguishability obfuscation (iO), such watermarking is impossible if the marked program $\widetilde{C}$ evaluates the original program with perfect correctness. In this work we show that, assuming iO, such watermarking is possible if the marked program $\widetilde{C}$ is allowed to err with even a negligible probability, which would be undetectable to the user.

We construct such a watermarking scheme with a secret-marking key used to embed marks in programs, and a public-detection key that allows anyone to detect marks in programs. For our security definition, we assume that the adversary can get oracle access to the marking functionality.

We emphasize that our security notion of watermark non-removability considers arbitrary adversarial strategies to modify the marked program -- for example, an adversary could obfuscate the marked program and this should not remove the mark. This is in contrast to the prior works, such as that of Nishimaki (EUROCRYPT '13), which only consider restricted removal strategies that preserve the original structure of the marked program (e.g., as a vector of group elements), but do not provide security against arbitrary strategies.

Joint work with Daniel Wichs. Available at http://eprint.iacr.org/2015/344.
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