USENIX Annual Technical Conference (NO 98), 1998
Abstract
Fast Consistency Checking for the Solaris File System
J. Kent Peacock, Ashvin Kamaraju, and Sanjay Agrawal
Sun Microsystems Computer Company
Abstract
Our Netra NFS group at Sun set out to solve the challenging problem of providing remote
Network File System (NFS) service with high performance and availability. An NFS server must
guarantee the permanence of changes to the file system before acknowledging an NFS request.
Thus, the serveršs underlying local file system must perform update operations synchronously to
stable storage with potentially high latency. Our solution to this problem involves using the
Solaris Unix File System (UFS), derived from the Berkeley Fast File System (FFS), in
conjunction with nonvolatile RAM (NVRAM) as fast stable storage. We evaluated the system
using the LADDIS benchmark and as a result, developed a cacheing technique for block-mapping
information that gav e us a 23% increase in measured server throughput in our standard
RAID-5 server configuration. With recent increases in disk capacity and RAID technology, file-system
sizes have reached a point not imagined by the FFS designers, requiring an approach to
checking file-system consistency that does not grow proportionately with file-system size. We
examined several log-based solutions to providing fast crash recovery, but none could use the
NVRAM effectively and meet our performance requirements. As an alternative, we dev eloped
an approach that uses UFS but maintains file-system working-set information, so that the
consistency checker needs to examine only the active portions of a file system. This approach
met our performance goals and also reduced file-system consistency-checking times to between
3% and 25% of those in the original UFS implementation.
- View the full text of this paper in
PDF form.
- If you need the latest Adobe Acrobat Reader, you can download it from Adobe's site.
- To become a USENIX Member, please see our Membership Information.
|