1. Truly Distributed File Systems Paul Timmins CS 535

2. Centralized Network File Systems NFS, AFS, CIFS provide distributed access to a centralized file system. Primary storage resides on one server. Data may be redundant and possibly replicated. Metadata is maintained by server

3. Problems in Centralized Systems Scalability: Each client adds a fixed overhead Performance: Server becomes the bottleneck Reliability: Data resides with a single server

4. Centralized Network File Systems Server Client

5. Distributed File Systems Physical data resides on the disks of multiple servers Metadata is maintained by multiple servers, although one may be elected as master Cooperative Caching Disconnected Operation Cache Coherency

6. xFS Clusters of clients Log-structured File System, striped with parity Block level exclusive locks for writes Server sends cache invalidations Cooperative Caching, clients serve clients Ownership based

7. JetFile Versioning file system, allows simultaneous writes Clients can serve data to other clients Modified data can be cached at the client Invalidation notices are sent from client to multiple clients Coherency is dependant on multicast reliability

8. Coda Replicated (mirrored) servers, with one elected as lock manager. Servers replicate on file access Versioning file system Disconnected operation allowed Simultaneous or divergent writes which conflict and cannot be resolved automatically must be manually resolved

9. Cache Invalidation Invalidations are transmitted to clients upon changes, as opposed to NFS-style validate upon request Coda and xFS track clients caches, which consumes some server resources JetFile uses multicast from one client to all other clients to invalidate their cache

10. Cooperative Caching Server Client BClient A 1. Client A requests and reads Foo 2. Client B requests Foo, but is referred to Client A 3. Client B reads Foo from Client A

11. Cache Coherency Most: xFS (Ownership Based) AFS (Stateful server invalidation) JetFile (Multicast client invalidation) NFS (Stateless) Least:Coda (Disconnected)

12. Applications WWW Replication FTP Sites Network Computers Corporate file system

13. Current Status xFS and Berkeley NOW project is dead, unclear whether any continued xFS work will be done JetFile seems to be under continued research, no significant new work Coda is in use by developers at CMU. No significant new research, focus is on stabilizing. Recent work includes a Solaris port and bug fixing.

14. Summary Naming: location independent Migration: Moving the location of data is transparent in all cases Directories: Handled the same as in local file Sharing Semantics: JetFile and Coda are unix-style, xFS is session-based Caching: Clients cache, and can serve from their cache Locking: JetFile and Coda don’t allow locking, xFS locks

15. Summary Replication/Reliability: All provide server replication Scalability: Should scale to thousands and tens of thousands Homogeneity: Not required File system interface: Unix style semantics Security: xFS provides encryption, but marginal authentication, Jetfile provides none, Coda provides authentication and encryption State/Stateless: xFS and Coda are statefull, JetFile is stateless but still sends cache invalidation