Distributions Attaining Secret Key at a Rate of the Conditional Mutual Information

Abstract

In this paper we consider the problem of extracting secret key from an eavesdropped source pXYZ at a rate given by the conditional mutual information. We investigate this question under three different scenarios: (i) Alice (X) and Bob (Y) are unable to communicate but share common randomness with the eavesdropper Eve (Z), (ii) Alice and Bob are allowed one-way public communication, and (iii) Alice and Bob are allowed two-way public communication. Distributions having a key rate of the conditional mutual information are precisely those in which a "helping" Eve offers Alice and Bob no greater advantage for obtaining secret key than a fully adversarial one. For each of the above scenarios, strong necessary conditions are derived on the structure of distributions attaining a secret key rate of I(X:Y|Z). In obtaining our results, we completely solve the problem of secret key distillation under scenario (i) and identify H(S|Z) to be the optimal key rate using shared randomness, where S is the G\'acs-K\"orner Common Information. We thus provide an operational interpretation of the conditional G\'acs-K\"orner Common Information. Additionally, we introduce simple example distributions in which the rate I(X:Y|Z) is achievable if and only if two-way communication is allowed.