Predicate inner product functional encryption (P-IPFE) is essentially attribute-based IPFE (AB-IPFE) which additionally hides attributes associated to ciphertexts. In a P-IPFE, a message $${\textbf {x}}$$ x is encrypted under an attribute $${\textbf {w}}$$ w and a secret key is generated for a pair $$({\textbf {y}}, {\textbf {v}})$$ ( y , v ) such that recovery of $$\langle {{\textbf {x}}}, {{\textbf {y}}}\rangle $$ ⟨ x , y ⟩ requires the vectors $${\textbf {w}}, {\textbf {v}}$$ w , v to satisfy a linear relation. We call a P-IPFE unbounded if it can encrypt unbounded length attributes and message vectors. $$\bullet $$ ∙ zero predicate IPFE. We construct the first unbounded zero predicate IPFE (UZP-IPFE) which recovers $$\langle {{\textbf {x}}}, {{\textbf {y}}}\rangle $$ ⟨ x , y ⟩ if $$\langle {{\textbf {w}}}, {{\textbf {v}}}\rangle =0$$ ⟨ w , v ⟩ = 0 . This construction is inspired by the unbounded IPFE of Tomida and Takashima (ASIACRYPT 2018) and the unbounded zero inner product encryption of Okamoto and Takashima (ASIACRYPT 2012). The UZP-IPFE stands secure against general attackers capable of decrypting the challenge ciphertext. Concretely, it provides full attribute-hiding security in the indistinguishability-based semi-adaptive model under the standard symmetric external Diffie–Hellman assumption. $$\bullet $$ ∙ non-zero predicate IPFE. We present the first unbounded non-zero predicate IPFE (UNP-IPFE) that successfully recovers $$\langle {{\textbf {x}}}, {{\textbf {y}}}\rangle $$ ⟨ x , y ⟩ if $$\langle {{\textbf {w}}}, {{\textbf {v}}}\rangle \ne 0$$ ⟨ w , v ⟩ ≠ 0 . We generically transform an unbounded quadratic FE (UQFE) scheme to weak attribute-hiding UNP-IPFE in both public and secret key setting. Interestingly, our secret key simulation secure UNP-IPFE has succinct secret keys and is constructed from a novel succinct UQFE that we build in the random oracle model. We leave the problem of constructing a succinct public key UNP-IPFE or UQFE in the standard model as an important open problem.
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