Visible to the public SMS Goes Nuclear: Fortifying SMS-Based MFA in Online Account Ecosystem

TitleSMS Goes Nuclear: Fortifying SMS-Based MFA in Online Account Ecosystem
Publication TypeConference Paper
Year of Publication2021
AuthorsJin, Weizhao, Ji, Xiaoyu, He, Ruiwen, Zhuang, Zhou, Xu, Wenyuan, Tian, Yuan
Conference Name2021 51st Annual IEEE/IFIP International Conference on Dependable Systems and Networks Workshops (DSN-W)
KeywordsConferences, Ecosystems, Human Behavior, human factors, Metrics, Multi-factor authentication, multifactor authentication, pubcrawl, resilience, Resiliency, security, Systematics, Virtual assistants, Web and internet services
AbstractWith the rapid growth of online services, the number of online accounts proliferates. The security of a single user account no longer depends merely on its own service provider but also the accounts on other service platforms (We refer to this online account environment as Online Account Ecosystem). In this paper, we first uncover the vulnerability of Online Account Ecosystem, which stems from the defective multi-factor authentication (MFA), specifically the ones with SMS-based verification, and dependencies among accounts on different platforms. We propose Chain Reaction Attack that exploits the weakest point in Online Account Ecosystem and can ultimately compromise the most secure platform. Furthermore, we design and implement ActFort, a systematic approach to detect the vulnerability of Online Account Ecosystem by analyzing the authentication credential factors and sensitive personal information as well as evaluating the dependency relationships among online accounts. We evaluate our system on hundreds of representative online services listed in Alexa in diversified fields. Based on the analysis from ActFort, we provide several pragmatic insights into the current Online Account Ecosystem and propose several feasible countermeasures including the online account exposed information protection mechanism and the built-in authentication to fortify the security of Online Account Ecosystem.
DOI10.1109/DSN-W52860.2021.00013
Citation Keyjin_sms_2021