Paper 2000/017

Lower Bounds on the Efficiency of Generic Cryptographic Constructions

Rosario Gennaro and Luca Trevisan

Abstract

We present lower bounds on the efficiency of constructions for Pseudo-Random Generators (PRGs) and Universal One-Way Hash Functions (UOWHFs) based on black-box access to one-way permutations. Our lower bounds are tight as they match the efficiency of known constructions. A PRG (resp. UOWHF) construction based on black-box access is a machine that is given oracle access to a permutation. Whenever the permutation is hard to invert, the construction is hard to break. In this paper we give lower bounds on the number of invocations to the oracle by the construction. If $S$ is the assumed security of the oracle permutation $\pi$ (i.e. no adversary of size $S$ can invert $\pi$ on a fraction larger than $1/S$ of its inputs) then a PRG (resp. UOWHF) construction that stretches (resp. compresses) its input by $k$ bits must query $\pi$ in $q=\Omega(k/\log S)$ points. This matches known constructions. Our results are given in an extension of the Impagliazzo-Rudich model. That is, we prove that a proof of the existence of PRG (resp. UOWHF) black-box constructions that beat our lower bound would imply a proof of the unconditional existence of such construction (which would also imply $P \neq NP$).

Metadata
Available format(s)
PDF PS
Category
Foundations
Publication info
Published elsewhere. Unknown where it was published
Keywords
complexity theoryone-way functionspseudo-randomnesshash functionslower bounds
Contact author(s)
rosario @ watson ibm com
History
2000-05-02: received
Short URL
https://ia.cr/2000/017
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2000/017,
      author = {Rosario Gennaro and Luca Trevisan},
      title = {Lower Bounds on the Efficiency of Generic Cryptographic Constructions},
      howpublished = {Cryptology {ePrint} Archive, Paper 2000/017},
      year = {2000},
      url = {https://eprint.iacr.org/2000/017}
}
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