Security of the Most Significant Bits of the Shamir Message Passing Scheme

Maria Isabel Gonzalez Vasco; Igor E. Shparlinski

Electronic Colloquium on Computational Complexity

Under the auspices of the Computational Complexity Foundation (CCF)

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Paper:

TR00-040 | 19th May 2000 00:00

Security of the Most Significant Bits of the Shamir Message Passing Scheme

TR00-040 Authors: Maria Isabel Gonzalez Vasco, Igor E. Shparlinski
Publication: 22nd June 2000 14:21
Downloads: 4036

Keywords:

cryptography, exponential sums, hidden number problem, Shamir message passing scheme

Abstract:

Boneh and Venkatesan have recently proposed a polynomial time
algorithm for recovering a ``hidden'' element $\alpha$ of a
finite field $\F_p$ of $p$ elements from rather short
strings of the most significant bits of the remainder
mo\-du\-lo $p$ of $\alpha t$ for several values of $t$ selected uniformly
at random from $\F_p^*$. Unfortunately the applications to the
computational security of most significant bits
of private keys of some finite field exponentiation based cryptosystems
given by Boneh and Venkatesan are not quite correct. For the Diffie-Hellman
cryptosystem the
result of Boneh and Venkatesan has been corrected and
generalized in our recent paper by Gonz{\'a}lez Vasco and Shparlinski.
Here a similar analysis is given for the Shamir message passing scheme.
The results depend on some bounds
of exponential sums.

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