Committed Private Information Retrieval
A private information retrieval (PIR) scheme allows a client to retrieve a data item x_i among n items x_1,x_2,...,x_n from k servers, without revealing what i is even when t < k servers collude and try to learn i. Such a PIR scheme is said to be t-private. A PIR scheme is v-verifiable if the client can verify the correctness of the retrieved x_i even when v ≤ k servers collude and try to fool the client by sending manipulated data. Most of the previous works in the literature on PIR assumed that v < k, leaving the case of all-colluding servers open. We propose a generic construction that combines a linear map commitment (LMC) and an arbitrary linear PIR scheme to produce a k-verifiable PIR scheme, termed a committed PIR scheme. Such a scheme guarantees that even in the worst scenario, when all servers are under the control of an attacker, although the privacy is unavoidably lost, the client won't be fooled into accepting an incorrect x_i. We demonstrate the practicality of our proposal by implementing the committed PIR schemes based on the Lai-Malavolta LMC and three well-known PIR schemes using the GMP library and , the current fastest C library for elliptic curve pairings.
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