Effective Analysis of C Programs by Rewriting Variability
Research output: Journal Article or Conference Article in Journal › Journal article › Research › peer-review
Inquiry. Verification of program families is challenging since the number of variants is exponential in the number of features. Existing single-program analysis and verification tools cannot be applied directly to program families, and designing and implementing the corresponding variability-aware versions is tedious and laborious.
Approach. In this work, we propose a range of variability-related transformations for translating program families into single programs by replacing compile-time variability with run-time variability (non-determinism). The obtained transformed programs can be subsequently analyzed using the conventional off- the-shelf single-program analysis tools such as type checkers, symbolic executors, model checkers, and static analyzers.
Knowledge. Our variability-related transformations are outcome-preserving, which means that the relation between the outcomes in the transformed single program and the union of outcomes of all variants derived from the original program family is equality.
Grounding. We show our transformation rules and their correctness with respect to a minimal core imperative language IMP. Then, we discuss our experience of implementing and using the transformations for efficient and effective analysis and verification of real-world C program families.
Importance. We report some interesting variability-related bugs that we discovered using various state-of-the-art single-program C verification tools, such as Frama-C, Clang, LLBMC.
|Journal||The Art, Science, and Engineering of Programming|
|Number of pages||25|
|Publication status||Published - 27 Jan 2017|
|Event||The Art, Science, and Engineering of Programming: ‹Programming› 2017 - Vrije Universiteit Brussel, Brussels, Belgium|
Duration: 3 Apr 2017 → 6 Apr 2017
|Conference||The Art, Science, and Engineering of Programming|
|Location||Vrije Universiteit Brussel|
|Period||03/04/2017 → 06/04/2017|
- ProgramFamilies, Variability-related Transformations, StaticAnalysis, Verification