Boneh-Boyen Signatures and the Strong Diffie-Hellman Problem

Yoshida, Kayo

January 2009

The Boneh-Boyen signature scheme is a short signature scheme which is provably secure in the standard model under the q-Strong Diffie-Hellman (SDH) assumption. The primary objective of this thesis is to examine the relationship between the Boneh-Boyen signature scheme and SDH. The secondary objective is to survey surrounding topics such as the generic group model, related signature schemes, intractability assumptions, and the relationship to identity-based encryption (IBE) schemes. Along these lines, we analyze the plausibility of the SDH assumption using the generic bilinear group model. We present the security proofs for the Boneh-Boyen signature scheme, with the addition of a small improvement in one of the probability bounds. Our main contribution is to give the reduction in the reverse direction; that is, to show that if the SDH problem can be solved then the Boneh-Boyen signature scheme can be forged. This contribution represents the first known proof of equivalence between the SDH problem and Boneh-Boyen signatures. We also discuss the algorithm of Cheon for solving the SDH problem. We analyze the implications of Cheon's algorithm for the security of the Boneh-Boyen signature scheme, accompanied by a brief discussion on how to counter the attack.

cryptography

digital signatures

signature scheme

Diffie-Hellman

Strong Diffie-Hellman

SDH

Boneh-Boyen signatures

Pollard rho

Pollard lambda

baby-step giant-step

assumptions

short signatures

random oracle

generic group

BLS

Waters

Okamoto

identity-based encryption

IBE

Cheon's algorithm

partial fraction

security

existential forgery

Combinatorics and Optimization

Boneh-Boyen Signatures and the Strong Diffie-Hellman Problem

Yoshida, Kayo

January 2009

The Boneh-Boyen signature scheme is a short signature scheme which is provably secure in the standard model under the q-Strong Diffie-Hellman (SDH) assumption. The primary objective of this thesis is to examine the relationship between the Boneh-Boyen signature scheme and SDH. The secondary objective is to survey surrounding topics such as the generic group model, related signature schemes, intractability assumptions, and the relationship to identity-based encryption (IBE) schemes. Along these lines, we analyze the plausibility of the SDH assumption using the generic bilinear group model. We present the security proofs for the Boneh-Boyen signature scheme, with the addition of a small improvement in one of the probability bounds. Our main contribution is to give the reduction in the reverse direction; that is, to show that if the SDH problem can be solved then the Boneh-Boyen signature scheme can be forged. This contribution represents the first known proof of equivalence between the SDH problem and Boneh-Boyen signatures. We also discuss the algorithm of Cheon for solving the SDH problem. We analyze the implications of Cheon's algorithm for the security of the Boneh-Boyen signature scheme, accompanied by a brief discussion on how to counter the attack.

cryptography

digital signatures

signature scheme

Diffie-Hellman

Strong Diffie-Hellman

SDH

Boneh-Boyen signatures

Pollard rho

Pollard lambda

baby-step giant-step

assumptions

short signatures

random oracle

generic group

BLS

Waters

Okamoto

identity-based encryption

IBE

Cheon's algorithm

partial fraction

security

existential forgery

Combinatorics and Optimization