Memory Safe Languages in Android 13 (Google security blog)
Over on the Google security blog, Jeffrey Vander Stoep writes about the impact of focusing on using memory-safe languages for new code in Android.
As the amount of new memory-unsafe code entering Android has decreased, so too has the number of memory safety vulnerabilities. From 2019 to 2022 it has dropped from 76% down to 35% of Android's total vulnerabilities. 2022 is the first year where memory safety vulnerabilities do not represent a majority of Android's vulnerabilities.While correlation doesn't necessarily mean causation, it's interesting to note that the percent of vulnerabilities caused by memory safety issues seems to correlate rather closely with the development language that's used for new code. This matches the expectations published in our blog post 2 years ago about the age of memory safety vulnerabilities and why our focus should be on new code, not rewriting existing components. Of course there may be other contributing factors or alternative explanations. However, the shift is a major departure from industry-wide trends that have persisted for more than a decade (and likely longer) despite substantial investments in improvements to memory unsafe languages.
(Thanks to Rahul Sundaram.)