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A Trustworthy Proof Checker
 IN ILIANO CERVESATO, EDITOR, WORKSHOP ON THE FOUNDATIONS OF COMPUTER SECURITY
, 2002
"... ProofCarrying Code (PCC) and other applications in computer security require machinecheckable proofs of properties of machinelanguage programs. The main advantage of the PCC approach is that the amount of code that must be explicitly trusted is very small: it consists of the logic in which predic ..."
Abstract

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ProofCarrying Code (PCC) and other applications in computer security require machinecheckable proofs of properties of machinelanguage programs. The main advantage of the PCC approach is that the amount of code that must be explicitly trusted is very small: it consists of the logic in which predicates and proofs are expressed, the safety predicate, and the proof checker. We have built a minimal proof checker, and we explain its design principles, and the representation issues of the logic, safety predicate, and safety proofs. We show that the trusted computing base (TCB) in such a system can indeed be very small. In our current system the TCB is less than 2,700 lines of code (an order of magnitude smaller even than other PCC systems) which adds to our confidence of its correctness.