Paper 2025/362

Adaptively Secure Fully Homomorphic Message Authentication Code with Pre-processable Verification

Abstract

There has been remarkable progress in fully homomorphic encryption, ever since Gentry's first scheme. In contrast, fully homomorphic authentication primitives received relatively less attention, despite existence of some previous constructions. While there exist various schemes with different functionalities for fully homomorphic encryption, there are only a few options for fully homomorphic authentication. Moreover, there are even fewer options when considering two of the most important properties: adaptive security, and pre-processable verification. To our knowledge, except for some concurrent works, achieving both properties requires the use of nested construction, which involves homomorphically authenticating a homomorphic authentication tag of a message, making the scheme costly and complicated. In this work, we propose a dedicated scheme for (leveled) fully homomorphic message authentication code that is adaptively secure and has pre-processable verification. Leveraging the secrecy of the primitive, we demonstrate that a slight modification of a selectively secure (leveled) fully homomorphic signature scheme yields an adaptively secure (leveled) fully homomorphic message authentication code with pre-processable verification. Additionally, we introduce a novel notion and generic transform to enhance the security of a homomorphic message authentication code, which also exploits the secrecy of the primitive.