Anomaly-based exploratory analysis and detection of exploits in android mediaserver

Smartphone platforms are becoming increasingly complex, which gives way to software vulnerabilities difficult to identify and that might allow malware developers to gain unauthorised privileges through technical exploitation. However, the authors maintain that these types of attacks indirectly renders a number of unexpected behaviours in the system that can be profiled. In this work, the authors present CoME , an anomaly-based methodology aiming at detecting software exploitation in Android systems. CoME models the normal behaviour of a given software component or service and it is capable of identifying any unanticipated behaviour. To this end, they first monitor the normal operation of a given exploitable component through lightweight virtual introspection. Then, they use a multivariate analysis approach to estimate the normality model and detect anomalies. They evaluate their system against one of the most critical vulnerable and widely exploited services in Android, i.e. the mediaserver. Results show that the proposed approach can not only provide a meaningful explanatory of discriminant features for illegitimate activities, but can also be used to accurately detect malicious software exploitations at runtime

Anomaly-based Exploratory Analysis and Detection of Exploits in Android Mediaserver

Smartphone platforms are becoming increasingly complex, which gives way to software vulnerabilities difficult to identify and that might allow malware developers to gain unauthorised privileges through technical exploitation. However, the authors maintain that these types of attacks indirectly renders a number of unexpected behaviours in the system that can be profiled. In this work, the authors present CoME , an anomaly-based methodology aiming at detecting software exploitation in Android systems. CoME models the normal behaviour of a given software component or service and it is capable of identifying any unanticipated behaviour. To this end, they first monitor the normal operation of a given exploitable component through lightweight virtual introspection. Then, they use a multivariate analysis approach to estimate the normality model and detect anomalies. They evaluate their system against one of the most critical vulnerable and widely exploited services in Android, i.e. the mediaserver. Results show that the proposed approach can not only provide a meaningful explanatory of discriminant features for illegitimate activities, but can also be used to accurately detect malicious software exploitations at runtime