Declarative Policies for Capability Control

Christos Dimoulas, Scott Moore, Aslan Askarov, Stephen Chong
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引用次数: 30

Abstract

In capability-safe languages, components can access a resource only if they possess a capability for that resource. As a result, a programmer can prevent an untrusted component from accessing a sensitive resource by ensuring that the component never acquires the corresponding capability. In order to reason about which components may use a sensitive resource it is necessary to reason about how capabilities propagate through a system. This may be difficult, or, in the case of dynamically composed code, impossible to do before running the system. To counter this situation, we propose extensions to capability-safe languages that restrict the use of capabilities according to declarative policies. We introduce two independently useful semantic security policies to regulate capabilities and describe language-based mechanisms that enforce them. Access control policies restrict which components may use a capability and are enforced using higher-order contracts. Integrity policies restrict which components may influence (directly or indirectly) the use of a capability and are enforced using an information-flow type system. Finally, we describe how programmers can dynamically and soundly combine components that enforce access control or integrity policies with components that enforce different policies or even no policy at all.
用于能力控制的声明性策略
在功能安全的语言中,组件只有在拥有该资源的功能时才能访问该资源。因此,程序员可以通过确保组件永远不会获得相应的功能来防止不受信任的组件访问敏感资源。为了推断哪些组件可能使用敏感资源,有必要推断功能如何在系统中传播。这可能很困难,或者在动态组合代码的情况下,在运行系统之前不可能这样做。为了应对这种情况,我们建议对功能安全语言进行扩展,这些语言根据声明性策略限制功能的使用。我们引入两个独立的有用的语义安全策略来规范功能,并描述基于语言的执行机制。访问控制策略限制哪些组件可以使用某个功能,并使用高阶契约强制执行。完整性策略限制哪些组件可能(直接或间接)影响功能的使用,并使用信息流类型系统强制执行。最后,我们描述了程序员如何动态地、合理地将执行访问控制或完整性策略的组件与执行不同策略甚至根本不执行策略的组件组合在一起。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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