On the gold standard for security of universal steganography

Abstract

While symmetric-key steganography is quite well understood both in the information-theoretic and in the computational setting, many fundamental questions about its public-key counterpart resist persistent attempts to solve them. The computational model for public-key steganography was proposed by von Ahn and Hopper in EUROCRYPT2004. At TCC2005, Backes and Cachin gave the first universal public-key stegosystem–i.e. one that works on all channels–achieving security against replayable chosen-covertext attacks (ss-rcca) and asked whether security against non-replayable chosen-covertext attacks (ss-cca) is achievable. Later, Hopper (ICALP2005) provided such a stegosystem for every efficiently sampleable channel, but did not achieve universality. He posed the question whether universality and ss-cca-security can be achieved simultaneously. No progress on this question has been achieved since more than a decade. In our work we solve Hopper’s problem in a somehow complete manner: As our main positive result we design an ss-cca-secure stegosystem that works for every memoryless channel. On the other hand, we prove that this result is the best possible in the context of universal steganography. We provide a family of 0-memoryless channels – where the already sent documents have only marginal influence on the current distribution – and prove that no ss-cca-secure steganography for this family exists in the standard non-look-ahead model.