[PDF][PDF] CAGE: Complementing Arm CCA with GPU Extensions

C Wang, F Zhang, Y Deng, K Leach… - Network and …, 2024 - ningzhenyu.github.io
C Wang, F Zhang, Y Deng, K Leach, J Cao, Z Ning, S Yan, Z He
Network and Distributed System Security (NDSS) Symposium, 2024ningzhenyu.github.io
Confidential computing is an emerging technique that provides users and third-party
developers with an isolated and transparent execution environment. To support this
technique, Arm introduced the Confidential Computing Architecture (CCA), which creates
multiple isolated address spaces, known as realms, to ensure data confidentiality and
integrity in securitysensitive tasks. Arm recently proposed the concept of confidential
computing on GPU hardware, which is widely used in generalpurpose, high-performance …
Abstract
Confidential computing is an emerging technique that provides users and third-party developers with an isolated and transparent execution environment. To support this technique, Arm introduced the Confidential Computing Architecture (CCA), which creates multiple isolated address spaces, known as realms, to ensure data confidentiality and integrity in securitysensitive tasks. Arm recently proposed the concept of confidential computing on GPU hardware, which is widely used in generalpurpose, high-performance, and artificial intelligence computing scenarios. However, hardware and firmware supporting confidential GPU workloads remain unavailable. Existing studies leverage Trusted Execution Environments (TEEs) to secure GPU computing on Arm-or Intel-based platforms, but they are not suitable for CCA’s realm-style architecture, such as using incompatible hardware or introducing a large trusted computing base (TCB). Therefore, there is a need to complement existing Arm CCA capabilities with GPU acceleration.
To address this challenge, we present CAGE to support confidential GPU computing for Arm CCA. By leveraging the existing security features in Arm CCA, CAGE ensures data security during confidential computing on unified-memory GPUs, the mainstream accelerators in Arm devices. To adapt the GPU workflow to CCA’s realm-style architecture, CAGE proposes a novel shadow task mechanism to manage confidential GPU applications flexibly. Additionally, CAGE leverages the memory isolation mechanism in Arm CCA to protect data confidentiality and integrity from the strong adversary. Based on this, CAGE also optimizes security operations in memory isolation to mitigate performance overhead. Without hardware changes, our approach uses the generic hardware security primitives in Arm CCA to defend against a privileged adversary. We present two prototypes to verify CAGE’s functionality and evaluate performance, respectively. Results show that CAGE effectively provides GPU support for Arm CCA with an average of 2.45% performance overhead.
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