一个快速和正确的用户空间文件系统访问接口

James Lembke, Pierre-Louis Roman, P. Eugster
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引用次数: 1

摘要

传统上,开发人员的唯一选择是通过操作系统内核中的驱动程序实现文件系统(fs)。然而,存在越来越多的文件系统(FS),特别是用于云的分布式FS,其接口仅在用户空间中实现,以(i)隔离FS逻辑,(ii)利用用户空间库,和/或(iii)快速FS原型。存在用于在用户空间中实现fs的通用接口,但是它们不能保证在所有情况下都符合POSIX,或者由于内核和用户空间进程之间的大量等待上下文切换而遭受相当大的性能损失。我们提出了一个用户空间fs的接口,它提供快速访问,同时确保访问正确性,并且不需要修改应用程序。由于其新颖的设计,大大减少了FS访问的等待上下文切换的数量,因此与现有的用户空间FS界面相比,实现了显著的性能改进。此外,为了确保访问的正确性,通过三个新颖的概念:绕过文件描述符(FD)查找、FD存储和用户空间分页,可以维护FS访问的POSIX遵从性。我们对各种工作负载的评估表明,通过将每个工作负载的等待上下文切换次数从用户空间中的文件系统的16,000或41,000次减少到平均9次,在典型工作负载下,与现有接口相比,性能提高了2倍,在某些情况下提高了10倍。
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DEFUSE: An Interface for Fast and Correct User Space File System Access
Traditionally, the only option for developers was to implement file systems (FSs) via drivers within the operating system kernel. However, there exists a growing number of file systems (FSs), notably distributed FSs for the cloud, whose interfaces are implemented solely in user space to (i) isolate FS logic, (ii) take advantage of user space libraries, and/or (iii) for rapid FS prototyping. Common interfaces for implementing FSs in user space exist, but they do not guarantee POSIX compliance in all cases, or suffer from considerable performance penalties due to high amounts of wait context switchs between kernel and user space processes. We propose DEFUSE: an interface for user space FSs that provides fast accesses while ensuring access correctness and requiring no modifications to applications. DEFUSE: achieves significant performance improvements over existing user space FS interfaces thanks to its novel design that drastically reduces the number of wait context switchs for FS accesses. Additionally, to ensure access correctness, DEFUSE: maintains POSIX compliance for FS accesses thanks to three novel concepts of bypassed file descriptor (FD) lookup, FD stashing, and user space paging. Our evaluation spanning a variety of workloads shows that by reducing the number of wait context switchs per workload from as many as 16,000 or 41,000 with filesystem in user space down to 9 on average, DEFUSE: increases performance 2× over existing interfaces for typical workloads and by as many as 10× in certain instances.
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