2 research outputs found
PROPYLA: Privacy Preserving Long-Term Secure Storage
An increasing amount of sensitive information today is stored electronically
and a substantial part of this information (e.g., health records, tax data,
legal documents) must be retained over long time periods (e.g., several decades
or even centuries). When sensitive data is stored, then integrity and
confidentiality must be protected to ensure reliability and privacy. Commonly
used cryptographic schemes, however, are not designed for protecting data over
such long time periods. Recently, the first storage architecture combining
long-term integrity with long-term confidentiality protection was proposed
(AsiaCCS'17). However, the architecture only deals with a simplified storage
scenario where parts of the stored data cannot be accessed and verified
individually. If this is allowed, however, not only the data content itself,
but also the access pattern to the data (i.e., the information which data items
are accessed at which times) may be sensitive information. Here we present the
first long-term secure storage architecture that provides long-term access
pattern hiding security in addition to long-term integrity and long-term
confidentiality protection. To achieve this, we combine information-theoretic
secret sharing, renewable timestamps, and renewable commitments with an
information-theoretic oblivious random access machine. Our performance analysis
of the proposed architecture shows that achieving long-term integrity,
confidentiality, and access pattern hiding security is feasible.Comment: Few changes have been made compared to proceedings versio