缓存行事务:由aspectc++支持的持久内核数据结构的构建块

Proceedings of the 10th Workshop on Programming Languages and Operating Systems Pub Date : 2019-10-27 DOI:10.1145/3365137.3365396

Marcel Köppen, J. Traue, C. Borchert, J. Nolte, O. Spinczyk

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引用次数: 5

摘要

随着包含大量字节可寻址非易失性内存(NVRAM)的系统的出现，越来越需要可以映射到进程地址空间的数据结构，并且可以在不进行数据(反)序列化的情况下使用这些数据结构。虽然NVRAM能够在系统故障和断电期间保留内存内容，但必须通过使用事务性操作进行数据操作来保持数据一致性。本文描述了一种用于内存映射NVRAM中小数据结构的轻量级高效事务处理机制。每个数据结构的大小被限制在半个缓存行，因此该方法不能作为任意应用程序的通用机制，但可以在操作系统中用作更复杂数据结构的低级构建块。通过在aspectc++中使用面向方面的编程，可以以一种几乎透明的方式使用该机制，这有助于避免许多可能的bug来源。

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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Cache-Line Transactions: Building Blocks for Persistent Kernel Data Structures Enabled by AspectC++

With the availability of systems that contain large amounts of byte-addressable non-volatile memory (NVRAM), there is a growing need for data structures that can be mapped into a process's address space and be used without data (de-)serialization. While NVRAM is able to retain memory contents during system failure and power loss, data consistency has to be preserved by using transactional operations for data manipulation. This paper describes a lightweight and efficient transaction mechanism for small data structures in memory-mapped NVRAM. The size per data structure is limited to half a cache-line, so that the approach cannot serve as a general purpose mechanism for arbitrary applications, but could be used within an operating system as a low-level building block for more complex data structures. By using aspect-oriented programming with AspectC++, the mechanism can be used in an almost transparent manner, which helps to avoid many possible sources for bugs.

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Proceedings of the 10th Workshop on Programming Languages and Operating Systems

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