Secure Namespaced Kernel Audit for Containers

Proceedings of the ... ACM Symposium on Cloud Computing [electronic resource] : SOCC ... ... SoCC (Conference) Pub Date : 2021-11-01 DOI:10.1145/3472883.3486976

S. Lim, Bogdan Stelea, Xueyuan Han, Thomas Pasquier

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引用次数: 6

Abstract

Despite the wide usage of container-based cloud computing, container auditing for security analysis relies mostly on built-in host audit systems, which often lack the ability to capture high-fidelity container logs. State-of-the-art reference-monitor-based audit techniques greatly improve the quality of audit logs, but their system-wide architecture is too costly to be adapted for individual containers. Moreover, these techniques typically require extensive kernel modifications, making it difficult to deploy in practical settings. In this paper, we present saBPF (secure audit BPF), an extension of the eBPF framework capable of deploying secure system-level audit mechanisms at the container granularity. We demonstrate the practicality of saBPF in Kubernetes by designing an audit framework, an intrusion detection system, and a lightweight access control mechanism. We evaluate saBPF and show that it is comparable in performance and security guarantees to audit systems from the literature that are implemented directly in the kernel.

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容器的安全命名空间内核审计

尽管基于容器的云计算被广泛使用，但用于安全分析的容器审计主要依赖于内置的主机审计系统，而这些系统通常缺乏捕获高保真容器日志的能力。最先进的基于参考监视器的审计技术极大地提高了审计日志的质量，但是它们的系统范围架构成本太高，无法适应于单个容器。此外，这些技术通常需要对内核进行大量修改，因此难以在实际环境中部署。在本文中，我们介绍了saBPF(安全审计BPF)，它是eBPF框架的扩展，能够在容器粒度上部署安全的系统级审计机制。我们通过设计一个审计框架、一个入侵检测系统和一个轻量级访问控制机制来演示saBPF在Kubernetes中的实用性。我们对saBPF进行了评估，并表明它在性能和安全保证方面与直接在内核中实现的审计系统相当。

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Proceedings of the ... ACM Symposium on Cloud Computing [electronic resource] : SOCC ... ... SoCC (Conference)

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