Date of Original Version
Abstract or Description
Buffer overflows continue to be the source of a vast majority of software vulnerabilities. Solutions based on runtime checks incur performance overhead, and are inappropriate for safety-critical and mission-critical systems requiring static—that is, prior to deployment—guarantees. Thus, finding overflows statically and effectively remains an important challenge. This report presents COVERT, an automated application framework aimed at finding buffer overflows in C programs using state-of-the-art software verification tools and techniques. Broadly, COVERT works in two phases: INSTRUMENTATION and ANALYSIS. The INSTRUMENTATION phase is the core phase of COVERT. During INSTRUMENTATION, the target C program is instrumented such that buffer overflows are transformed to assertion violations. In the ANALYSIS phase, a static software verification tool is used to check for assertion violations in the instrumented code, and to generate error reports. COVERT was implemented and then evaluated on a set of benchmarks derived from real programs. For the ANALYSIS phase, experiments were conducted with three software verification tools—BLAST, COPPER, and PANA. Results indicate that the COVERT framework is effective in reducing the number of false warnings, while remaining scalable.