Clean up deleted files.

1994-11-30 20:30:18 +00:00 · 1994-11-30 20:30:18 +00:00 · 821f29c84a
parent cae9130ef6
commit 821f29c84a
1 changed files with 0 additions and 114 deletions
--- a/share/man/man5/pcfs.5
+++ b/share/man/man5/pcfs.5
@ -1,114 +0,0 @@
-PCFS quirks file	$Id: pcfs.5,v 1.2 1993/08/02 17:51:42 mycroft Exp $
-
-PCFS filesystems on floppy disks only are supported in this release.
-And, only high density floppy disks are supported.  This is because
-the floppy disk driver only supports high density disks. 
-
-Created files use only the user permissions bits.  And of these
-only the write bit is meaningful.  DOS files always have the
-execute and read bits on.
-
-PCFS does not turn on or off the DOS archive attribute bit.
-
-The timestamp on dos files is updated when ever the file is modified.
-There is no inode time or create time stamp.
-
-The timestamp placed on a dos file does not have corrections for
-daylight savings time included.  It does have the correction for
-timezone though.
-
-Unix times before 1980 will have their year set to 1980 in dos file
-timestamps.  This is because dos's idea of time starts in 1980.
-
-PCFS filesystems do not support sparse files.  Any attempt to seek
-past the end of a file results in the blocks being allocated and
-cleared.
-
-When read() is used to examine pcfs directories you will get dos
-directory contents.  Note that the root directory does not contain
-a "." or ".." entry.  Only the readdir() system call simulates these
-entries in the root directory of a dos filesystem.  readdir() returns
-directory entries as described in getdirentries(2).
-
-Using read() and write() to manipulate the contents of dos directories
-is unwise on an active dos filesystem since a more up to date copy of
-their contents may reside in data structures in the kernel.  It is
-probably safe to examine the filename field of dos directory entries.
-The filesystem code keeps this up to date at all times.
-
-The cluster allocation algorithm is very simplistic.  It starts at
-cluster 2 and searchs until the last cluster of the filesystem and
-takes the first available cluster.
-
-The fsync() system call does not work on file descriptors open on
-directories.  This isn't a terrible thing since very few programs
-open directories for writing.
-
-The pcfs filesystem truncates filenames quietly.  If a filename has
-more than 8 characters before the 1st period only the 1st eigth are
-used.  It only uses the 1st three characters after the period if
-they exist.  The filenames "abc" and "abc." are the same to pcfs.
-Filenames that begin with a "." are considered to be dos filenames
-with an extension only and so are limited to 3 characters after the
-leading ".".  For example ".imlost" would be seen as ".iml" by pcfs.
-PCFS folds filenames to upper case before writing them to disk or
-looking up filenames, and folds them to lower case when reading them
-from disk for presentation to the user (for example by readdir()).
-
-Directory entries for the DOS filesystem label are quietly ignored.
-
-This is probably going to be a problem.  This implementation expects
-the length of the root directory to be a multiple of the size of
-a cluster.  If this is not true a warning message is printed when
-the filesystem is mounted.
-
-PCFS supports DOS filesystems with 12 bit or 16 bit FATs.  It supports
-both regular and huge filesystems ( > 32 megabytes).  It supports
-both version 3.3 and 5.0 BPB's.  Don't know about version 4.x and
-less than 3.3.  It has not been tested with 16 bit fats or huge
-filesystems. This is because the hard disk drivers need to support
-dos partitions to do these things. 
-
-PCFS does not support symbolic links or hard links.  It does not
-support quotas.  How could it, pcfs files have no owners.  PCFS
-files have a simulated owner and group of 0.  PCFS does not support
-file locking.  Though it may in the future.  PCFS filesystems are
-not remote mountable, but they will be in the future.
-
-This is the first release and as such has performance problems.
-Reading large files is very slow because the read ahead code in pcfs_read()
-doesn't read far enough ahead for filesystems with small blocksizes.
-Performance and dos hard disk paritions are the next areas to be
-worked on.  Unless someone else does it.
-
-
-Operational Details
-------------------
-
-To mount a pcfs filesystem:
-	mount -t pcfs /dev/fd0a /mnt
-
-To unmount a pcfs filesystem:
-	umount /mnt
-
-If you want to be sure the fat is ALWAYS up to date, mount the
-filesystem with the synchronous option:
-	mount -t pcfs -o synchronous /dev/fd0a /mnt
-This reasults in very slow file write performance because it turns
-off write behind of fst disk blocks.
-
-
-Configuring PCFS into your kernel
---------------------------------
-
-Add the following statements to your configuration file in /sys/i386/conf/BLOT.
-Or whatever you call your config file.
-
-	options PCFS
-
-PCFS consumes approximately 24000 bytes of kernel code space and
-approximately 4000 bytes of bss.
-
-PCFS has some debug printf's that can be turned on by defining PCFSDEBUG.
-It produces lots of output.  If you use it be sure to kill syslogd before
-using a PCFS filesystem with debug.