Read/Write HPFS 2.09
1998-2004, Mikulas Patocka
email: mikulas@artax.karlin.mff.cuni.cz
homepage: http://artax.karlin.mff.cuni.cz/~mikulas/vyplody/hpfs/index-e.cgi
CREDITS:
Chris Smith, 1993, original read-only HPFS, some code and hpfs structures file
is taken from it
Jacques Gelinas, MSDos mmap, Inspired by fs/nfs/mmap.c (Jon Tombs 15 Aug 1993)
Werner Almesberger, 1992, 1993, MSDos option parser & CR/LF conversion
Mount options
uid=xxx,gid=xxx,umask=xxx (default uid=gid=0 umask=default_system_umask)
Set owner/group/mode for files that do not have it specified in extended
attributes. Mode is inverted umask - for example umask 027 gives owner
all permission, group read permission and anybody else no access. Note
that for files mode is anded with 0666. If you want files to have ‘x’
rights, you must use extended attributes.
case=lower,asis (default asis)
File name lowercasing in readdir.
conv=binary,text,auto (default binary)
CR/LF -> LF conversion, if auto, decision is made according to extension
- there is a list of text extensions (I thing it’s better to not convert
text file than to damage binary file). If you want to change that list,
change it in the source. Original readonly HPFS contained some strange
heuristic algorithm that I removed. I thing it’s danger to let the
computer decide whether file is text or binary. For example, DJGPP
binaries contain small text message at the beginning and they could be
misidentified and damaged under some circumstances.
check=none,normal,strict (default normal)
Check level. Selecting none will cause only little speedup and big
danger. I tried to write it so that it won’t crash if check=normal on
corrupted filesystems. check=strict means many superfluous checks -
used for debugging (for example it checks if file is allocated in
bitmaps when accessing it).
errors=continue,remount-ro,panic (default remount-ro)
Behaviour when filesystem errors found.
chkdsk=no,errors,always (default errors)
When to mark filesystem dirty so that OS/2 checks it.
eas=no,ro,rw (default rw)
What to do with extended attributes. ‘no’ - ignore them and use always
values specified in uid/gid/mode options. ‘ro’ - read extended
attributes but do not create them. ‘rw’ - create extended attributes
when you use chmod/chown/chgrp/mknod/ln -s on the filesystem.
timeshift=(-)nnn (default 0)
Shifts the time by nnn seconds. For example, if you see under linux
one hour more, than under os/2, use timeshift=-3600.
File names
As in OS/2, filenames are case insensitive. However, shell thinks that names
are case sensitive, so for example when you create a file FOO, you can use
‘cat FOO’, ‘cat Foo’, ‘cat foo’ or ‘cat F*’ but not ‘cat f*’. Note, that you
also won’t be able to compile linux kernel (and maybe other things) on HPFS
because kernel creates different files with names like bootsect.S and
bootsect.s. When searching for file thats name has characters >= 128, codepages
are used - see below.
OS/2 ignores dots and spaces at the end of file name, so this driver does as
well. If you create ‘a. …’, the file ‘a’ will be created, but you can still
access it under names ‘a.’, ‘a..’, ‘a . . . ‘ etc.
Extended attributes
On HPFS partitions, OS/2 can associate to each file a special information called
extended attributes. Extended attributes are pairs of (key,value) where key is
an ascii string identifying that attribute and value is any string of bytes of
variable length. OS/2 stores window and icon positions and file types there. So
why not use it for unix-specific info like file owner or access rights? This
driver can do it. If you chown/chgrp/chmod on a hpfs partition, extended
attributes with keys “UID”, “GID” or “MODE” and 2-byte values are created. Only
that extended attributes those value differs from defaults specified in mount
options are created. Once created, the extended attributes are never deleted,
they’re just changed. It means that when your default uid=0 and you type
something like ‘chown luser file; chown root file’ the file will contain
extended attribute UID=0. And when you umount the fs and mount it again with
uid=luser_uid, the file will be still owned by root! If you chmod file to 444,
extended attribute “MODE” will not be set, this special case is done by setting
read-only flag. When you mknod a block or char device, besides “MODE”, the
special 4-byte extended attribute “DEV” will be created containing the device
number. Currently this driver cannot resize extended attributes - it means
that if somebody (I don’t know who?) has set “UID”, “GID”, “MODE” or “DEV”
attributes with different sizes, they won’t be rewritten and changing these
values doesn’t work.
Symlinks
You can do symlinks on HPFS partition, symlinks are achieved by setting extended
attribute named “SYMLINK” with symlink value. Like on ext2, you can chown and
chgrp symlinks but I don’t know what is it good for. chmoding symlink results
in chmoding file where symlink points. These symlinks are just for Linux use and
incompatible with OS/2. OS/2 PmShell symlinks are not supported because they are
stored in very crazy way. They tried to do it so that link changes when file is
moved … sometimes it works. But the link is partly stored in directory
extended attributes and partly in OS2SYS.INI. I don’t want (and don’t know how)
to analyze or change OS2SYS.INI.
Codepages
HPFS can contain several uppercasing tables for several codepages and each
file has a pointer to codepage its name is in. However OS/2 was created in
America where people don’t care much about codepages and so multiple codepages
support is quite buggy. I have Czech OS/2 working in codepage 852 on my disk.
Once I booted English OS/2 working in cp 850 and I created a file on my 852
partition. It marked file name codepage as 850 - good. But when I again booted
Czech OS/2, the file was completely inaccessible under any name. It seems that
OS/2 uppercases the search pattern with its system code page (852) and file
name it’s comparing to with its code page (850). These could never match. Is it
really what IBM developers wanted? But problems continued. When I created in
Czech OS/2 another file in that directory, that file was inaccessible too. OS/2
probably uses different uppercasing method when searching where to place a file
(note, that files in HPFS directory must be sorted) and when searching for
a file. Finally when I opened this directory in PmShell, PmShell crashed (the
funny thing was that, when rebooted, PmShell tried to reopen this directory
again :-). chkdsk happily ignores these errors and only low-level disk
modification saved me. Never mix different language versions of OS/2 on one
system although HPFS was designed to allow that.
OK, I could implement complex codepage support to this driver but I think it
would cause more problems than benefit with such buggy implementation in OS/2.
So this driver simply uses first codepage it finds for uppercasing and
lowercasing no matter what’s file codepage index. Usually all file names are in
this codepage - if you don’t try to do what I described above :-)
Known bugs
HPFS386 on OS/2 server is not supported. HPFS386 installed on normal OS/2 client
should work. If you have OS/2 server, use only read-only mode. I don’t know how
to handle some HPFS386 structures like access control list or extended perm
list, I don’t know how to delete them when file is deleted and how to not
overwrite them with extended attributes. Send me some info on these structures
and I’ll make it. However, this driver should detect presence of HPFS386
structures, remount read-only and not destroy them (I hope).
When there’s not enough space for extended attributes, they will be truncated
and no error is returned.
OS/2 can’t access files if the path is longer than about 256 chars but this
driver allows you to do it. chkdsk ignores such errors.
Sometimes you won’t be able to delete some files on a very full filesystem
(returning error ENOSPC). That’s because file in non-leaf node in directory tree
(one directory, if it’s large, has dirents in tree on HPFS) must be replaced
with another node when deleted. And that new file might have larger name than
the old one so the new name doesn’t fit in directory node (dnode). And that
would result in directory tree splitting, that takes disk space. Workaround is
to delete other files that are leaf (probability that the file is non-leaf is
about 1/50) or to truncate file first to make some space.
You encounter this problem only if you have many directories so that
preallocated directory band is full i.e.
number_of_directories / size_of_filesystem_in_mb > 4.
You can’t delete open directories.
You can’t rename over directories (what is it good for?).
Renaming files so that only case changes doesn’t work. This driver supports it
but vfs doesn’t. Something like ‘mv file FILE’ won’t work.
All atimes and directory mtimes are not updated. That’s because of performance
reasons. If you extremely wish to update them, let me know, I’ll write it (but
it will be slow).
When the system is out of memory and swap, it may slightly corrupt filesystem
(lost files, unbalanced directories). (I guess all filesystem may do it).
When compiled, you get warning: function declaration isn’t a prototype. Does
anybody know what does it mean?
What does “unbalanced tree” message mean?
Old versions of this driver created sometimes unbalanced dnode trees. OS/2
chkdsk doesn’t scream if the tree is unbalanced (and sometimes creates
unbalanced trees too :-) but both HPFS and HPFS386 contain bug that it rarely
crashes when the tree is not balanced. This driver handles unbalanced trees
correctly and writes warning if it finds them. If you see this message, this is
probably because of directories created with old version of this driver.
Workaround is to move all files from that directory to another and then back
again. Do it in Linux, not OS/2! If you see this message in directory that is
whole created by this driver, it is BUG - let me know about it.
Bugs in OS/2
When you have two (or more) lost directories pointing each to other, chkdsk
locks up when repairing filesystem.
Sometimes (I think it’s random) when you create a file with one-char name under
OS/2, OS/2 marks it as ‘long’. chkdsk then removes this flag saying “Minor fs
error corrected”.
File names like “a .b” are marked as ‘long’ by OS/2 but chkdsk “corrects” it and
marks them as short (and writes “minor fs error corrected”). This bug is not in
HPFS386.
Codepage bugs described above.
If you don’t install fixpacks, there are many, many more…
History
0.90 First public release
0.91 Fixed bug that caused shooting to memory when write_inode was called on
open inode (rarely happened)
0.92 Fixed a little memory leak in freeing directory inodes
0.93 Fixed bug that locked up the machine when there were too many filenames
with first 15 characters same
Fixed write_file to zero file when writing behind file end
0.94 Fixed a little memory leak when trying to delete busy file or directory
0.95 Fixed a bug that i_hpfs_parent_dir was not updated when moving files
1.90 First version for 2.1.1xx kernels
1.91 Fixed a bug that chk_sectors failed when sectors were at the end of disk
Fixed a race-condition when write_inode is called while deleting file
Fixed a bug that could possibly happen (with very low probability) when
using 0xff in filenames
Rewritten locking to avoid race-conditions
Mount option ‘eas’ now works
Fsync no longer returns error
Files beginning with ‘.’ are marked hidden
Remount support added
Alloc is not so slow when filesystem becomes full
Atimes are no more updated because it slows down operation
Code cleanup (removed all commented debug prints)
1.92 Corrected a bug when sync was called just before closing file
1.93 Modified, so that it works with kernels >= 2.1.131, I don’t know if it
works with previous versions
Fixed a possible problem with disks > 64G (but I don’t have one, so I can’t
test it)
Fixed a file overflow at 2G
Added new option ‘timeshift’
Changed behaviour on HPFS386: It is now possible to operate on HPFS386 in
read-only mode
Fixed a bug that slowed down alloc and prevented allocating 100% space
(this bug was not destructive)
1.94 Added workaround for one bug in Linux
Fixed one buffer leak
Fixed some incompatibilities with large extended attributes (but it’s still
not 100% ok, I have no info on it and OS/2 doesn’t want to create them)
Rewritten allocation
Fixed a bug with i_blocks (du sometimes didn’t display correct values)
Directories have no longer archive attribute set (some programs don’t like
it)
Fixed a bug that it set badly one flag in large anode tree (it was not
destructive)
1.95 Fixed one buffer leak, that could happen on corrupted filesystem
Fixed one bug in allocation in 1.94
1.96 Added workaround for one bug in OS/2 (HPFS locked up, HPFS386 reported
error sometimes when opening directories in PMSHELL)
Fixed a possible bitmap race
Fixed possible problem on large disks
You can now delete open files
Fixed a nondestructive race in rename
1.97 Support for HPFS v3 (on large partitions)
Fixed a bug that it didn’t allow creation of files > 128M (it should be 2G)
1.97.1 Changed names of global symbols
Fixed a bug when chmoding or chowning root directory
1.98 Fixed a deadlock when using old_readdir
Better directory handling; workaround for “unbalanced tree” bug in OS/2
1.99 Corrected a possible problem when there’s not enough space while deleting
file
Now it tries to truncate the file if there’s not enough space when deleting
Removed a lot of redundant code
2.00 Fixed a bug in rename (it was there since 1.96)
Better anti-fragmentation strategy
2.01 Fixed problem with directory listing over NFS
Directory lseek now checks for proper parameters
Fixed race-condition in buffer code - it is in all filesystems in Linux;
when reading device (cat /dev/hda) while creating files on it, files
could be damaged
2.02 Workaround for bug in breada in Linux. breada could cause accesses beyond
end of partition
2.03 Char, block devices and pipes are correctly created
Fixed non-crashing race in unlink (Alexander Viro)
Now it works with Japanese version of OS/2
2.04 Fixed error when ftruncate used to extend file
2.05 Fixed crash when got mount parameters without =
Fixed crash when allocation of anode failed due to full disk
Fixed some crashes when block io or inode allocation failed
2.06 Fixed some crash on corrupted disk structures
Better allocation strategy
Reschedule points added so that it doesn’t lock CPU long time
It should work in read-only mode on Warp Server
2.07 More fixes for Warp Server. Now it really works
2.08 Creating new files is not so slow on large disks
An attempt to sync deleted file does not generate filesystem error
2.09 Fixed error on extremely fragmented files
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