Feng, Xinyu

Title: Progress of Concurrent Objects with Partial Methods

Abstract: Various progress properties have been proposed for concurrent objects, such as wait-freedom, lock-freedom, starvation-freedom and deadlock-freedom. However, none of them applies to concurrent objects with partial methods, i.e., methods that are supposed not to return under certain circumstances. A typical example is the lock_acquire method, which must not return when the lock has already been acquired. In this work we propose two new progress properties, partial starvation-freedom (PSF) and partial deadlockfreedom (PDF), for concurrent objects with partial methods. We also design four patterns to write abstract specifications for PSF or PDF objects under strongly or weakly fair scheduling, so that these objects contextually refine the abstract specifications. Our Abstraction Theorem shows the equivalence between PSF (or PDF) and the progress-aware contextual refinement. Finally, we generalize the program logic LiLi to have a new logic to verify the PSF (or PDF) property and linearizability of concurrent objects. This is joint work with Hongjin Liang. The paper has been published at POPL 2018.