One of the challenges of analyzing, testing and debugging Android apps is
that the potential execution orders of callbacks are missing from the apps'
source code. However, bugs, vulnerabilities and refactoring transformations
have been found to be related to callback sequences. Existing work on control
flow analysis of Android apps have mainly focused on analyzing GUI events. GUI
events, although being a key part of determining control flow of Android apps,
do not offer a complete picture. Our observation is that orthogonal to GUI
events, the Android API calls also play an important role in determining the
order of callbacks. In the past, such control flow information has been modeled
manually. This paper presents a complementary solution of constructing program
paths for Android apps. We proposed a specification technique, called Predicate
Callback Summary (PCS), that represents the callback control flow information
(including callback sequences as well as the conditions under which the
callbacks are invoked) in Android API methods and developed static analysis
techniques to automatically compute and apply such summaries to construct apps'
callback sequences. Our experiments show that by applying PCSs, we are able to
construct Android apps' control flow graphs, including inter-callback
relations, and also to detect infeasible paths involving multiple callbacks.
Such control flow information can help program analysis and testing tools to
report more precise results. Our detailed experimental data is available at:
http://goo.gl/NBPrKsComment: 11 page