freebsd-skq/sys/ufs/ufs
Kirk McKusick 824009a16a This bug fix is in a code path in rename taken when there is a
collision between a rename and an open system call for the same
target file. Here, rename releases its vnode references, waits for
the open to finish, and then restarts by reacquiring its needed
vnode locks. In this case, rename was unlocking but failing to
release its reference to one of its held vnodes. The effect was
that even after all the actual references to the vnode had gone,
the vnode still showed active references. For files that had been
removed, their space was not reclaimed until the filesystem was
forcibly unmounted.

This bug manifested itself in the Postgres server which would
leak/lose hundreds of files per day amounting to many gigabytes of
disk space. This bug required shutting down Postgres, forcibly
unmounting its filesystem, remounting its filesystem and restarting
Postgres every few days to recover the lost space.

Reported by: Dan Thomas and Palle Girgensohn
Bug-fix by:  kib
Tested by:   Dan Thomas and Palle Girgensohn
MFC after:   2 weeks
2013-08-06 16:50:05 +00:00
..
acl.h
dinode.h Change i_gen in UFS to an unsigned type. 2013-07-01 03:00:15 +00:00
dir.h
dirhash.h
extattr.h
gjournal.h
inode.h Change i_gen in UFS to an unsigned type. 2013-07-10 18:19:48 +00:00
quota.h This update uses the MNT_VNODE_FOREACH_ACTIVE interface that loops 2012-04-20 07:00:28 +00:00
README.acls
README.extattr
ufs_acl.c Fix up kernel sources to be ready for a 64-bit ino_t. 2012-09-27 23:30:49 +00:00
ufs_bmap.c Remove unused member of struct indir (in_exists) from UFS and EXT2 code. 2012-08-17 17:45:27 +00:00
ufs_dirhash.c
ufs_extattr.c Don't assume that UFS on-disk format of a directory is the same as 2013-07-01 04:06:40 +00:00
ufs_extern.h UFS support of the unmapped i/o for the user data buffers. 2013-03-19 15:08:15 +00:00
ufs_gjournal.c
ufs_inode.c Fix build. 2012-04-23 17:54:49 +00:00
ufs_lookup.c When renaming a directory from one parent directory to another, 2013-03-20 17:57:00 +00:00
ufs_quota.c The softdep freeblks workitem might hold a reference on the dquot. 2013-02-27 07:32:39 +00:00
ufs_vfsops.c
ufs_vnops.c This bug fix is in a code path in rename taken when there is a 2013-08-06 16:50:05 +00:00
ufsmount.h Add UFS writesuspension mechanism, designed to allow userland processes 2012-11-18 18:57:19 +00:00

$FreeBSD$

  UFS Extended Attributes Copyright

The UFS Extended Attributes implementation is copyright Robert Watson, and
is made available under a Berkeley-style license.

  About UFS Extended Attributes

Extended attributes allow the association of additional arbitrary
meta-data with files and directories.  Extended attributes are defined in
the form name=value, where name is an nul-terminated string in the style
of a filename, and value is a binary blob of zero or more bytes. The UFS
extended attribute service layers support for extended attributes onto a
backing file, in the style of the quota implementation, meaning that it
requires no underlying format changes in the filesystem.  This design
choice exchanges simplicity, usability and easy deployment for
performance.  When defined, extended attribute names exist in a series of
disjoint namespaces: currently, two namespaces are defined:
EXTATTR_NAMESPACE_SYSTEM and EXTATTR_NAMESPACE_USER.  The primary
distinction lies in the protection model: USER EAs are protected using the
normal inode protections, whereas SYSTEM EAs require privilege to access
or modify.

  Using UFS Extended Attributes

Support for UFS extended attributes is natively available in UFS2, and
requires no special configuration.  For reliability, administrative,
and performance reasons, if you plan to use extended attributes, it
is recommended that you use UFS2 in preference to UFS1.

Support for UFS extended attributes may be enabled for UFS1 by adding:

	options UFS_EXTATTR

to your kernel configuration file.  This allows UFS-based filesystems to
support extended attributes, but requires manual administration of EAs
using the extattrctl tool, including the starting of EA support for each
filesystem, and the enabling of individual attributes for the file
system.  The extattrctl utility may be used to initialize backing files
before first use, to start and stop EA service on a filesystem, and to
enable and disable named attributes.  The command lines for extattrctl
take the following forms:

  extattrctl start [path]
  extattrctl stop [path]
  extattrctl initattr [-f] [-p path] [attrsize] [attrfile]
  extattrctl enable [path] [attrnamespace] [attrname] [attrfile]
  extattrctl disable [path] [attrnamespace] [attrname]

In each case, [path] is used to indicate the mounted filesystem on which
to perform the operation.  [attrnamespace] refers to the namespace in
which the attribute is being manipulated, and may be "system" or "user".  
The [attrname] is the attribute name to use for the operation. The
[attrfile] argument specifies the attribute backing file to use. When
using the "initattr" function to initialize a backing file, the maximum
size of attribute data must be defined in bytes using the [attrsize]
field.  Optionally, the [-p path] argument may be used to indicate to
extattrctl that it should pre-allocate space for EA data, rather than
creating a sparse backing file.  This prevents attribute operations from
failing in low disk-space conditions (which can be important when EAs are
used for security purposes), but pre-allocation will consume space
proportional to the product of the defined maximum attribute size and
number of attributes on the specified filesystem.

Manual configuration increases administrative overhead, but also
introduces the possibility of race conditions during filesystem mount, if
EAs are used to support other features, as starting the EAs manually is
not atomic with the mount operation.  To address this problem, an
additional kernel option may be defined to auto-start EAs on a UFS file
system based on special directories at mount-time:

	options UFS_EXTATTR_AUTOSTART

If this option is defined, UFS will search for a ".attribute"
sub-directory of the filesystem root during the mount operation.  If it
is found, EA support will be started for the filesystem.  UFS will then
search for "system" and "user" sub-directories of the ".attribute"
directory for any potential backing files, and enable an EA for each valid
backing file with the name of the backing file as the attribute name.  
For example, by creating the following tree, the two EAs,
posix1e.acl_access and posix1e.acl_default will be enabled in the system
namespace of the root filesystem, reserving space for attribute data:

  mkdir -p /.attribute/system
  cd /.attribute/system
  extattrctl initattr -p / 388 posix1e.acl_access
  extattrctl initattr -p / 388 posix1e.acl_default

On the next mount of the root filesystem, the attributes will be
automatically started.