Conventional File Systems
- ext2, ext3
- ext2 was introduced with Linux. ext3 is a journaled version of ext2 which allows for speedy disk recovery after a crash.
- The Fast File System used by some BSD versions of UNIX and from which UFS was derived supporting faster disk access and symbolic links like ffs.
- IBM's Journaled File System introduced with their flavor of UNIX (AIX)
- The New Technology File System, introduced by Microsoft with Windows NT 4.0. Now used on Windows XP.
- A journaling filesystem for Linux.
- SGI’s high performance journaling filesystem that originated on their IRIX (flavor of UNIX) platform. XFS supports variable blocking sizes, is extent based, and makes extensive use of Btrees to facilitate both performance and scalability. Additionally, support is also provided for real-time environments.
Cryptographic File Systems
Cryptographic file systems encrypt information before it is stored on the media. Some of these file systems store encrypted files directly. Others are better thought of as device drivers, which are then used to store some of the file systems discussed above.
- File Vault
- A clever user interface to Apple's encrypted disk images. Uses the ".sparseimage" extension on disk files.
- Matt Blaze's Cryptographic File System for Unix.
- http://www.crypto.com/papers/cfskey.pdf Key Management in an Encrypting File System], Matt Blaze, USENIX Summer 1994 Technical Conference, Boston, MA, June 1994.
- http://www.crypto.com/papers/cfs.pdf A Cryptographic File System for Unix], Matt Blaze, Proceedings of the First ACM Conference on Computer and Communications Security, Fairfax, VA, November 1993.
- http://www.fsl.cs.sunysb.edu/docs/ncryptfs/ncryptfs.pdf NCryptfs: A Secure and Convenient Cryptographic File System], Charles P. Wright, Michael C. Martino, and Erez Zadok, Stony Brook University ,USENIX 2003 Annual Technical Conference.
See also Full Disk Encryption, which are disk- or applicance-based cryptographic file systems.