A randomized scheduler with probabilistic guarantees of finding bugs

Author:

Burckhardt Sebastian1,Kothari Pravesh2,Musuvathi Madanlal3,Nagarakatte Santosh4

Affiliation:

1. Microsoft Research, Redmond, WA, USA

2. Indian Institute of Technology, Kanpur, India

3. Microsoft Research, Redmond, India

4. University of Pennsylvania, Philadelphia, PA, USA

Abstract

This paper presents a randomized scheduler for finding concurrency bugs. Like current stress-testing methods, it repeatedly runs a given test program with supplied inputs. However, it improves on stress-testing by finding buggy schedules more effectively and by quantifying the probability of missing concurrency bugs. Key to its design is the characterization of the depth of a concurrency bug as the minimum number of scheduling constraints required to find it. In a single run of a program with n threads and k steps, our scheduler detects a concurrency bug of depth d with probability at least 1/ nk d-1 . We hypothesize that in practice, many concurrency bugs (including well-known types such as ordering errors, atomicity violations, and deadlocks) have small bug-depths, and we confirm the efficiency of our schedule randomization by detecting previously unknown and known concurrency bugs in several production-scale concurrent programs.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Graphics and Computer-Aided Design,Software

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