Hardware-Assisted Secure Resource Accounting under a Vulnerable Hypervisor

Abstract

With the proliferation of cloud computing to outsource computation in remote servers, the accountability of computational resources has emerged as an important new challenge for both cloud users and providers. Among the cloud resources, CPU and memory are difficult to verify their actual allocation, since the current virtualization techniques attempt to hide the discrepancy between physical and virtual allocations for the two resources. This paper proposes an online verifiable resource accounting technique for CPU and memory allocation for cloud computing. Unlike prior approaches for cloud resource accounting, the proposed accounting mechanism, called Hardware-assisted Resource Accounting (HRA), uses the hardware support for system management mode (SMM) and virtualization to provide secure resource accounting, even if the hypervisor is compromised. Using a secure isolated execution support of SMM, this study investigates two aspects of verifiable resource accounting for cloud systems. First, this paper presents how the hardware-assisted SMM and virtualization techniques can be used to implement the secure resource accounting mechanism even under a compromised hypervisor. Second, the paper investigates a sample-based resource accounting technique to minimize performance overheads. Using a statistical random sampling method, the technique estimates the overall CPU and memory allocation status with 99% similar to 100% accuracies and performance degradations of 0.1% similar to 0.5%.