Keita Emura
, Kanazawa University, National Institute of Advanced Industrial Science and Technology
To enhance the security of stealth addresses and protect user privacy, Liu et al. (EuroS&P 2019) proposed a Key-Insulated and Privacy-Preserving Signature Scheme with Publicly Derived Public Keys (PDPKS). In this scheme, the payee generates a master public/secret key pair, and the payer derives a public key from the payee's master public key and binds the cryptocurrency asset to the resulting derived public key. The payee then verifies, using the master secret key, whether the derived public key has been correctly generated from the master public key. In this paper, we show that a public-key encryption (PKE) scheme secure against chosen-ciphertext attacks (CCA) can be generically constructed from PDPKS. Specifically, we utilize unlinkability, which hides the master public key from which a derived public key originates, to conceal plaintext information from ciphertexts. We also simulate the decryption oracle by leveraging the derived public key checking algorithm. In addition, to guarantee the correctness of the proposed PKE scheme, we rely on the consistency of PDPKS introduced by Emura (IACR CiC 2025). Given the motivation behind PDPKS, namely the construction of stealth addresses in a provably secure manner, unlinkability is regarded as the core security property of PDPKS. Our result shows that achieving this core security property essentially requires CCA-secure PKE, or cryptographic primitives of equivalent strength, and that such primitives are indispensable for constructing PDPKS.
BibTeX
@misc{cryptoeprint:2026/922,
author = {Ryo Mizuno and Keita Emura},
title = {Generic Construction of {CCA}-Secure {PKE} from Key-Insulated and Privacy-Preserving Signatures with Publicly Derived Public Key},
howpublished = {Cryptology {ePrint} Archive, Paper 2026/922},
year = {2026},
url = {https://eprint.iacr.org/2026/922}
}
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