This paper describes CCured, a program transformation system that adds type safety guarantees to existing C programs. CCured attempts to verify statically that memory errors cannot occur, and it inserts run-time checks where static verification is insufficient.

CCured extends C’s type system by separating pointer types according to their usage, and it uses a surprisingly simple type inference algorithm that is able to infer the appropriate pointer kinds for existing C programs. CCured uses physical subtyping to recognize and verify a large number of type casts at compile time. Additional type casts are verified using run-time type information. CCured uses two instrumentation schemes, one that is optimized for performance and one in which metadata is stored in a separate data structure whose shape mirrors that of the original user data. This latter scheme allows instrumented programs to invoke external functions directly on the program’s data without the use of a wrapper function.

We have used CCured on real-world security-critical network daemons to produce instrumented versions without memory-safety vulnerabilities, and we have found several bugs in these programs. The instrumented code is efficient enough to be used in day-to-day operations.

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In: Transactions on Programming Languages and Systems (TOPLAS)

Publisher: Association for Computing Machinery, Inc.
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