Abstract
Conference Title: GLOBECOM 2018 - 2018 IEEE Global Communications Conference Conference Start Date: 2018, Dec. 9 Conference End Date: 2018, Dec. 13 Conference Location: Abu Dhabi, United Arab Emirates Malicious coresidency is a precursor to side-channel attacks that target information leakage. In this paper, we seek to understand the interactions between a defender (the cloud service provider) who tries to detect malicious coresidency by an attacker, who in turn attempts to co-reside its VM with a victim VM on the same physical machine by exploiting the VM allocation policy employed by the cloud service provider while at the same time, trying to evade detection. The problem is modeled as a two-player game. Specifically, the attacker chooses how long to keep its VM operational before terminating and relaunching it to increase its odds of success. On the other hand, the defender attempts to detect and penalize malicious VMs based on their activity in a given time window. The defender estimates a maliciousness measure for all active VMs which then modulates the likelihood of a specific VM being migrated to a different physical machine. We study the equilibrium strategies for both players for different ranges of environment parameters and show the non-existence of equilibrium with pure strategies. Subsequently, we characterize the equilibrium of the game with mixed strategies.