Pseudorandom Function (PRF): Difference between revisions
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* <math>F_k(x) \to y</math>, is a deterministic algorithm that takes a key <math>k\in \mathcal{K}</math> and input <math>x\in \mathcal{D}</math>, and outputs an element <math>y\in \mathcal{R}</math>. | * <math>F_k(x) \to y</math>, is a deterministic algorithm that takes a key <math>k\in \mathcal{K}</math> and input <math>x\in \mathcal{D}</math>, and outputs an element <math>y\in \mathcal{R}</math>. | ||
Generally, we assume that <math>|\mathcal{D}|</math> is "large," in the sense that it grows exponentially with the security parameter. If instead <math>|\mathcal{D}|</math> bounded by some polynomial in the security parameter, then the primitive is a "small-domain" PRF. | Generally, we assume that <math>|\mathcal{D}|</math> is "large," in the sense that it grows exponentially with the security parameter. If instead <math>|\mathcal{D}|</math> is bounded by some polynomial in the security parameter, then the primitive is a "small-domain" PRF. | ||
=== Security === | === Security === | ||
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== Variations == | == Variations == | ||
* [[Puncturable PRF]] | * [[Puncturable PRF]] | ||
* [[Invertible PRF]] | * [[Invertible PRF (iPRF)]] | ||
* [[Pseudorandom Permutation (PRP)]] | * [[Pseudorandom Permutation (PRP)]] | ||
* [[Oblivious PRF (OPRF)]] | * [[Oblivious PRF (OPRF)]] | ||
== Other Notes == | == Other Notes == | ||
Latest revision as of 02:32, 5 July 2024
A Pseudorandom Function (PRF) is a primitive that allows someone to succinctly represent a function that is indistinguishable from a random function. A user of a PRF generates a key, which it can use to evaluate a function at many points. Any efficient adversary, who only sees these inputs and outputs of the keyed function, cannot distinguish them from a random function.
PRFs were originally defined by [GGM84] and are a basic building block for many more complex primitives such as Symmetric Encryption (SE).
Formal Definition
Syntax
A Pseudorandom Function (PRF) is a tuple of efficient functions , with respect to a keyspace , domain , and range , such that:
- , is a randomized algorithm that takes a security parameter, and outputs a key ,
- , is a deterministic algorithm that takes a key and input , and outputs an element .
Generally, we assume that is "large," in the sense that it grows exponentially with the security parameter. If instead is bounded by some polynomial in the security parameter, then the primitive is a "small-domain" PRF.
Security
A PRF is secure if for all efficient , there exists a negligible function , such that
![{\displaystyle {\big |}\Pr[D^{F_{k}}(1^{\lambda })=1:k\gets {\mathsf {Gen}}(1^{\lambda })]-\Pr[D^{R}(1^{\lambda })=1:R\gets {\mathcal {F}}[{\mathcal {D}},{\mathcal {R}}]]{\big |}\leq \nu (\lambda ).}](https://wikimedia.org/api/rest_v1/media/math/render/svg/33c26bd1a22085f5a482696908e61cc13ab3b175)
Weak Security
A PRF is weakly secure if for all efficient , and all polynomials , there exists a negligible function , such that
![{\displaystyle {\big |}\Pr _{x_{i}\gets {\mathcal {D}}}[D((x_{i},F_{k}(x_{i}))_{i\in [s(\lambda )]})=1]-\Pr _{x_{i}\gets {\mathcal {D}}}[D((x_{i},R(x_{i}))_{i\in [s(\lambda )]})=1]{\big |}\leq \nu (\lambda ).}](https://wikimedia.org/api/rest_v1/media/math/render/svg/f80c34f0309fab9b2b6262cd6d74c461984f3189)
The difference in this definition is that we sample inputs at random instead of allowing a distinguisher to choose them. This is strictly weaker, as a distinguisher could always query their oracle at random locations in the stronger definition.
Relationship to other primitives
- PRGs imply the existence of PRFs, due to [GGM84] (this means that OWFs imply the existence of PRFs, in combination with [HILL99])
- PRFs imply the existence of PRPs, due to [LR88]
There are also many folklore results surrounding pseudorandom functions: