freebsd-skq

History

Poul-Henning Kamp 20a92a18f1 The remaining part of nmount/omount/rootfs mount changes. I cannot sensibly split the conversion of the remaining three filesystems out from the root mounting changes, so in one go: cd9660: Convert to nmount. Add omount compat shims. Remove dedicated rootfs mounting code. Use vfs_mountedfrom() Rely on vfs_mount.c calling VFS_STATFS() nfs(client): Convert to nmount (the simple way, mount_nfs(8) is still necessary). Add omount compat shims. Drop COMPAT_PRELITE2 mount arg compatibility. ffs: Convert to nmount. Add omount compat shims. Remove dedicated rootfs mounting code. Use vfs_mountedfrom() Rely on vfs_mount.c calling VFS_STATFS() Remove vfs_omount() method, all filesystems are now converted. Remove MNTK_WANTRDWR, handling RO/RW conversions is a filesystem task, and they all do it now. Change rootmounting to use DEVFS trampoline: vfs_mount.c: Mount devfs on /. Devfs needs no 'from' so this is clean. symlink /dev to /. This makes it possible to lookup /dev/foo. Mount "real" root filesystem on /. Surgically move the devfs mountpoint from under the real root filesystem onto /dev in the real root filesystem. Remove now unnecessary getdiskbyname(). kern_init.c: Don't do devfs mounting and rootvnode assignment here, it was already handled by vfs_mount.c. Remove now unused bdevvp(), addaliasu() and addalias(). Put the few necessary lines in devfs where they belong. This eliminates the second-last source of bogo vnodes, leaving only the lemming-syncer. Remove rootdev variable, it doesn't give meaning in a global context and was not trustworth anyway. Correct information is provided by statfs(/).		2004-12-07 08:15:41 +00:00
..
ffs_alloc.c	Move UFS from DEVFS backing to GEOM backing.	2004-10-29 10:15:56 +00:00
ffs_balloc.c	Explicitly break out NETA license from Berkeley license to clearly	2004-10-20 08:05:02 +00:00
ffs_extern.h	Back when VOP_* was introduced, we did not have new-style struct	2004-12-01 23:16:38 +00:00
ffs_inode.c	Loose the v_dirty* and v_clean* alias macros.	2004-10-25 09:14:03 +00:00
ffs_rawread.c	Move UFS from DEVFS backing to GEOM backing.	2004-10-29 10:15:56 +00:00
ffs_snapshot.c	Move UFS from DEVFS backing to GEOM backing.	2004-10-29 10:15:56 +00:00
ffs_softdep_stub.c	Use __FBSDID().	2003-06-11 06:34:30 +00:00
ffs_softdep.c	Move UFS from DEVFS backing to GEOM backing.	2004-10-29 10:15:56 +00:00
ffs_subr.c	Update for the KDB debugger framework:	2004-07-10 20:45:47 +00:00
ffs_tables.c	Remove advertising clause from University of California Regent's	2004-04-07 03:47:21 +00:00
ffs_vfsops.c	The remaining part of nmount/omount/rootfs mount changes. I cannot sensibly	2004-12-07 08:15:41 +00:00
ffs_vnops.c	Back when VOP_* was introduced, we did not have new-style struct	2004-12-01 23:16:38 +00:00
fs.h	Fix fsbtodb() for UFS1. This fixes an overflow for file sizes >1 TB,	2004-10-09 20:16:06 +00:00
README.snapshot	Remove the comment about dump(8) not working properly with snapshots.	2002-12-12 00:31:45 +00:00
README.softupdates
softdep.h

README.softupdates

$FreeBSD$

Using Soft Updates

To enable the soft updates feature in your kernel, add option
SOFTUPDATES to your kernel configuration.

Once you are running a kernel with soft update support, you need to enable
it for whichever filesystems you wish to run with the soft update policy.
This is done with the -n option to tunefs(8) on the UNMOUNTED filesystems,
e.g. from single-user mode you'd do something like:

	tunefs -n enable /usr

To permanently enable soft updates on the /usr filesystem (or at least
until a corresponding ``tunefs -n disable'' is done).


Soft Updates Copyright Restrictions

As of June 2000 the restrictive copyright has been removed and 
replaced with a `Berkeley-style' copyright. The files implementing
soft updates now reside in the sys/ufs/ffs directory and are
compiled into the generic kernel by default.


Soft Updates Status

The soft updates code has been running in production on many
systems for the past two years generally quite successfully.
The two current sets of shortcomings are:

1) On filesystems that are chronically full, the two minute lag
   from the time a file is deleted until its free space shows up
   will result in premature filesystem full failures. This
   failure mode is most evident in small filesystems such as
   the root. For this reason, use of soft updates is not
   recommended on the root filesystem.

2) If your system routines runs parallel processes each of which
   remove many files, the kernel memory rate limiting code may
   not be able to slow removal operations to a level sustainable
   by the disk subsystem. The result is that the kernel runs out
   of memory and hangs.

Both of these problems are being addressed, but have not yet
been resolved. There are no other known problems at this time.


How Soft Updates Work

For more general information on soft updates, please see:
	http://www.mckusick.com/softdep/
	http://www.ece.cmu.edu/~ganger/papers/CSE-TR-254-95/

--
Marshall Kirk McKusick <mckusick@mckusick.com>
July 2000