Virtual Trusted Platform modules (TPMs) were proposed as a software-based
alternative to the hardware-based TPMs to allow the use of their cryptographic
functionalities in scenarios where multiple TPMs are required in a single
platform, such as in virtualized environments. However, virtualizing TPMs,
especially virutalizing the Platform Configuration Registers (PCRs), strikes
against one of the core principles of Trusted Computing, namely the need for a
hardware-based root of trust. In this paper we show how strength of
hardware-based security can be gained in virtual PCRs by binding them to their
corresponding hardware PCRs. We propose two approaches for such a binding. For
this purpose, the first variant uses binary hash trees, whereas the other
variant uses incremental hashing. In addition, we present an FPGA-based
implementation of both variants and evaluate their performance