Security Blog
The latest news and insights from Google on security and safety on the Internet
Helping Developers with Permission Requests
27 febbraio 2020
Posted by Sai Teja Peddinti, Nina Taft and Igor Bilogrevic from PDPO Applied Privacy Research, and Pauline Anthonysamy from Android Security and Privacy.
User trust is critical to the success of developers of every size. On the Google Play Store, we aim to help developers boost the trust of their users, by surfacing signals in the Developer Console about how to improve their privacy posture. Towards this aim, we surface a message to developers when we think their app is asking for permission that is likely unnecessary.
This is important because numerous studies have shown that user trust can be affected when the purpose of a permission is not clear.
1
In addition, research has shown that when users are given a choice between similar apps, and one of them requests fewer permissions than the other, they choose the app with fewer permissions.
2
Determining whether or not a permission request is necessary can be challenging. Android developers request permissions in their apps for many reasons - some related to core functionality, and others related to personalization, testing, advertising, and other factors. To do this, we identify a peer set of apps with similar functionality and compare a developer’s permission requests to that of their peers. If a very large percentage of these similar apps are not asking for a permission, and the developer is, we then let the developer know that their permission request is unusual compared to their peers. Our determination of the peer set is more involved than simply using Play Store categories. Our algorithm combines multiple signals that feed Natural Language Processing (NLP) and deep learning technology to determine this set. A full explanation of our method is outlined in our recent publication, entitled “
Reducing Permissions Requests in Mobile Apps
” that appeared in the Internet Measurement Conference (IMC) in October 2019.
3
(Note that the threshold for surfacing the warning signal, as stated in this paper, is subject to change.)
We surface this information to developers in the Play Console and we let the developer make the final call as to whether or not the permission is truly necessary. It is possible that the developer has a feature unlike all of its peers. Once a developer removes a permission, they won’t see the warning any longer. Note that the warning is based on our computation of the set of peer apps similar to the developers. This is an evolving set, frequently recomputed, so the message may go away if there is an underlying change to the set of peers apps and their behavior. Similarly, even if a developer is not currently seeing a warning about a permission, they might in the future if the underlying peer set and its behavior changes. An example warning is depicted below.
This warning also helps to remind developers that they are not obligated to include all of the permission requests occurring within the libraries they include inside their apps. We are pleased to say that in the first year after deployment of this advice signal nearly 60% of warned apps removed permissions. Moreover, this occurred across all Play Store categories and all app popularity levels. The breadth of this developer response impacted over 55 billion app installs.
3
This warning is one component of Google’s larger strategy to help protect users and help developers achieve good security and privacy practices, such as
Project Strobe
,
our guidelines on permissions best practices
, and
our requirements around safe traffic handling
.
Acknowledgements
Giles Hogben, Android Play Dashboard and Pre-Launch Report teams
References
[1] Modeling Users’ Mobile App Privacy Preferences: Restoring Usability in a Sea of Permission Settings, by J. Lin B. Liu, N. Sadeh and J. Hong. In Proceedings of Usenix Symposium on Privacy & Security (SOUPS) 2014.
[2] Using Personal Examples to Improve Risk Communication for Security & Privacy Decisions, by M. Harbach, M. Hettig, S. Weber, and M. Smith. In Proceedings of the SIGCHI Conference on Human Computing Factors in Computing Systems, 2014.
[3] Reducing Permission Requests in Mobile Apps, by S. T. Peddinti, I. Bilogrevic, N. Taft, M Pelikan, U. Erlingsson, P. Anthonysamy and G. Hogben. In Proceedings of ACM Internet Measurement Conference (IMC) 2019.
Nessun commento :
Posta un commento
Etichette
#sharethemicincyber
#supplychain #security #opensource
android
android security
android tr
app security
big data
biometrics
blackhat
C++
chrome
chrome enterprise
chrome security
connected devices
CTF
diversity
encryption
federated learning
fuzzing
Gboard
google play
google play protect
hacking
interoperability
iot security
kubernetes
linux kernel
memory safety
Open Source
pha family highlights
pixel
privacy
private compute core
Rowhammer
rust
Security
security rewards program
sigstore
spyware
supply chain
targeted spyware
tensor
Titan M2
VDP
vulnerabilities
workshop
Archive
2024
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2023
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2022
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2021
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2020
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2019
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2018
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2017
dic
nov
ott
set
lug
giu
mag
apr
mar
feb
gen
2016
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2015
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
gen
2014
dic
nov
ott
set
ago
lug
giu
apr
mar
feb
gen
2013
dic
nov
ott
ago
giu
mag
apr
mar
feb
gen
2012
dic
set
ago
giu
mag
apr
mar
feb
gen
2011
dic
nov
ott
set
ago
lug
giu
mag
apr
mar
feb
2010
nov
ott
set
ago
lug
mag
apr
mar
2009
nov
ott
ago
lug
giu
mar
2008
dic
nov
ott
ago
lug
mag
feb
2007
nov
ott
set
lug
giu
mag
Feed
Follow @google
Follow
Give us feedback in our
Product Forums
.
Nessun commento :
Posta un commento