On the Feasibility of an Open-Implementation Cloud Infrastructure: A Game Theoretic Analysis

Abstract

Trusting a cloud infrastructure is a hard problem, which urgently needs effective solutions. There are increasing demands for switching to the cloud in the sectors of financial, healthcare, or government etc., where data security protections are among the highest priorities. But most of them are left unsatisfied, due to the current cloud infrastructures' lack of provable trustworthiness. Trusted Computing (TC) technologies implement effective mechanisms for attesting to the genuine behaviors of a software platform. Integrating TC with cloud infrastructure shows a promising method for verifying the cloud's behaviors, which may in turn facilitate provable trustworthiness. However, the side effect of TC also brings concerns: exhibiting genuine behaviors might attract targeted attacks. Consequently, current Trusted Cloud proposals only integrate limited TC capabilities, which hampers the effective and practical trust establishment. In this paper, we aim to justify the benefits of a fully Open-Implementation cloud infrastructure, which means that the cloud's implementation and configuration details can be inspected by both the legitimate and malicious cloud users. We applied game theoretic analysis to discover the new dynamics formed between the Cloud Service Provider (CSP) and cloud users, when the Open-Implementation strategy is introduced. We conclude that, even though Open-Implementation cloud may facilitate attacks, vulnerabilities or misconfiguration are easier to discover, which in turn reduces the total security threats. Also, cyber threat monitoring and sharing are made easier in an Open-Implementation cloud. More importantly, the cloud's provable trustworthiness will attract more legitimate users, which increases CSP's revenue and helps lowering the price. This eventually creates a virtuous cycle, which will benefit both the CSP and legitimate users.