/*
* linux/fs/umsdos/dir.c
*
* Written 1993 by Jacques Gelinas
* Inspired from linux/fs/msdos/... : Werner Almesberger
*
* Extended MS-DOS directory handling functions
*/
#include <linux/sched.h>
#include <linux/string.h>
#include <linux/fs.h>
#include <linux/msdos_fs.h>
#include <linux/errno.h>
#include <linux/stat.h>
#include <linux/limits.h>
#include <linux/umsdos_fs.h>
#include <linux/malloc.h>
#include <asm/segment.h>
#define PRINTK(x)
#define Printk(x) printk x
#define UMSDOS_SPECIAL_DIRFPOS 3
extern struct inode *pseudo_root;
/*
So grep * doesn't complain in the presence of directories.
*/
int UMSDOS_dir_read(struct inode *inode,struct file *filp,char *buf,
int count)
{
return -EISDIR;
}
struct UMSDOS_DIR_ONCE {
void *dirbuf;
filldir_t filldir;
int count;
int stop;
};
/*
Record a single entry the first call.
Return -EINVAL the next one.
*/
static int umsdos_dir_once(
void * buf,
const char * name,
int name_len,
off_t offset,
ino_t ino)
{
int ret = -EINVAL;
struct UMSDOS_DIR_ONCE *d = (struct UMSDOS_DIR_ONCE *)buf;
if (d->count == 0){
#if 0
char zname[100];
memcpy (zname,name,name_len);
zname[name_len] = '\0';
Printk (("dir_once :%s: offset %Ld\n",zname,offset));
#endif
ret = d->filldir (d->dirbuf,name,name_len,offset,ino);
d->stop = ret < 0;
d->count = 1;
}
return ret;
}
/*
Read count directory entries from directory filp
Return a negative value from linux/errno.h.
Return > 0 if success (The amount of byte written by filldir).
This function is used by the normal readdir VFS entry point and by
some function who try to find out info on a file from a pure MSDOS
inode. See umsdos_locate_ancestor() below.
*/
static int umsdos_readdir_x(
struct inode *dir, /* Point to a description of the super block */
struct file *filp, /* Point to a directory which is read */
void *dirbuf, /* Will hold count directory entry */
/* but filled by the filldir function */
int internal_read, /* Called for internal purpose */
struct umsdos_dirent *u_entry, /* Optional umsdos entry */
int follow_hlink,
filldir_t filldir)
{
int ret = 0;
umsdos_startlookup(dir);
if (filp->f_pos == UMSDOS_SPECIAL_DIRFPOS
&& dir == pseudo_root
&& !internal_read){
/*
We don't need to simulate this pseudo directory
when umsdos_readdir_x is called for internal operation
of umsdos. This is why dirent_in_fs is tested
*/
/* #Specification: pseudo root / directory /DOS
When umsdos operates in pseudo root mode (C:\linux is the
linux root), it simulate a directory /DOS which points to
the real root of the file system.
*/
if (filldir (dirbuf,"DOS",3,UMSDOS_SPECIAL_DIRFPOS
,dir->i_sb->s_mounted->i_ino) == 0){
filp->f_pos++;
}
}else if (filp->f_pos < 2
|| (dir != dir->i_sb->s_mounted && filp->f_pos == 32)){
/* #Specification: readdir / . and ..
The msdos filesystem manage the . and .. entry properly
so the EMD file won't hold any info about it.
In readdir, we assume that for the root directory
the read position will be 0 for ".", 1 for "..". For
a non root directory, the read position will be 0 for "."
and 32 for "..".
*/
/*
This is a trick used by the msdos file system (fs/msdos/dir.c)
to manage . and .. for the root directory of a file system.
Since there is no such entry in the root, fs/msdos/dir.c
use the following:
if f_pos == 0, return ".".
if f_pos == 1, return "..".
So let msdos handle it
Since umsdos entries are much larger, we share the same f_pos.
if f_pos is 0 or 1 or 32, we are clearly looking at . and
..
As soon as we get f_pos == 2 or f_pos == 64, then back to
0, but this time we are reading the EMD file.
Well, not so true. The problem, is that UMSDOS_REC_SIZE is
also 64, so as soon as we read the first record in the
EMD, we are back at offset 64. So we set the offset
to UMSDOS_SPECIAL_DIRFPOS(3) as soon as we have read the
.. entry from msdos.
Now (linux 1.3), umsdos_readdir can read more than one
entry even if we limit (umsdos_dir_once) to only one:
It skips over hidden file. So we switch to
UMSDOS_SPECIAL_DIRFPOS as soon as we have read successfully
the .. entry.
*/
int last_f_pos = filp->f_pos;
struct UMSDOS_DIR_ONCE bufk;
bufk.dirbuf = dirbuf;
bufk.filldir = filldir;
bufk.count = 0;
ret = fat_readdir(dir,filp,&bufk,umsdos_dir_once);
if (last_f_pos > 0 && filp->f_pos > last_f_pos) filp->f_pos = UMSDOS_SPECIAL_DIRFPOS;
if (u_entry != NULL) u_entry->flags = 0;
}else{
struct inode *emd_dir = umsdos_emd_dir_lookup(dir,0);
if (emd_dir != NULL){
off_t start_fpos = filp->f_pos;
if (filp->f_pos <= UMSDOS_SPECIAL_DIRFPOS+1) filp->f_pos = 0;
PRINTK (("f_pos %lu i_size %ld\n",filp->f_pos,emd_dir->i_size));
ret = 0;
while (filp->f_pos < emd_dir->i_size){
struct umsdos_dirent entry;
off_t cur_f_pos = filp->f_pos;
if (umsdos_emd_dir_readentry (emd_dir,filp,&entry)!=0){
ret = -EIO;
break;
}else if (entry.name_len != 0){
/* #Specification: umsdos / readdir
umsdos_readdir() should fill a struct dirent with
an inode number. The cheap way to get it is to
do a lookup in the MSDOS directory for each
entry processed by the readdir() function.
This is not very efficient, but very simple. The
other way around is to maintain a copy of the inode
number in the EMD file. This is a problem because
this has to be maintained in sync using tricks.
Remember that MSDOS (the OS) does not update the
modification time (mtime) of a directory. There is
no easy way to tell that a directory was modified
during a DOS session and synchronise the EMD file.
Suggestion welcome.
So the easy way is used!
*/
struct umsdos_info info;
struct inode *inode;
int lret;
umsdos_parse (entry.name,entry.name_len,&info);
info.f_pos = cur_f_pos;
umsdos_manglename (&info);
lret = umsdos_real_lookup (dir,info.fake.fname
,info.fake.len,&inode);
PRINTK (("Cherche inode de %s lret %d flags %d\n"
,info.fake.fname,lret,entry.flags));
if (lret == 0
&& (entry.flags & UMSDOS_HLINK)
&& follow_hlink){
struct inode *rinode;
lret = umsdos_hlink2inode (inode,&rinode);
inode = rinode;
}
if (lret == 0){
/* #Specification: pseudo root / reading real root
The pseudo root (/linux) is logically
erased from the real root. This mean that
ls /DOS, won't show "linux". This avoids
infinite recursion /DOS/linux/DOS/linux while
walking the file system.
*/
if (inode != pseudo_root
&& (internal_read
|| !(entry.flags & UMSDOS_HIDDEN))){
if (filldir (dirbuf
,entry.name,entry.name_len
,cur_f_pos, inode->i_ino) < 0){
filp->f_pos = cur_f_pos;
}
PRINTK (("Trouve ino %ld ",inode->i_ino));
if (u_entry != NULL) *u_entry = entry;
iput (inode);
break;
}
iput (inode);
}else{
/* #Specification: umsdos / readdir / not in MSDOS
During a readdir operation, if the file is not
in the MSDOS directory anymore, the entry is
removed from the EMD file silently.
*/
ret = umsdos_writeentry (dir,emd_dir,&info,1);
if (ret != 0){
break;
}
}
}
}
/*
If the fillbuf has failed, f_pos is back to 0.
To avoid getting back into the . and .. state
(see comments at the beginning), we put back
the special offset.
*/
if (filp->f_pos == 0) filp->f_pos = start_fpos;
iput(emd_dir);
}
}
umsdos_endlookup(dir);
PRINTK (("read dir %p pos %Ld ret %d\n",dir,filp->f_pos,ret));
return ret;
}
/*
Read count directory entries from directory filp
Return a negative value from linux/errno.h.
Return 0 or positive if successful
*/
static int UMSDOS_readdir(
struct inode *dir, /* Point to a description of the super block */
struct file *filp, /* Point to a directory which is read */
void *dirbuf, /* Will hold directory entries */
filldir_t filldir)
{
int ret = 0;
int count = 0;
struct UMSDOS_DIR_ONCE bufk;
bufk.dirbuf = dirbuf;
bufk.filldir = filldir;
bufk.stop = 0;
PRINTK (("UMSDOS_readdir in\n"));
while (ret == 0 && bufk.stop == 0){
struct umsdos_dirent entry;
bufk.count = 0;
ret = umsdos_readdir_x (dir,filp,&bufk,0,&entry,1,umsdos_dir_once);
if (bufk.count == 0) break;
count += bufk.count;
}
PRINTK (("UMSDOS_readdir out %d count %d pos %Ld\n",ret,count
,filp->f_pos));
return count?:ret;
}
/*
Complete the inode content with info from the EMD file
*/
void umsdos_lookup_patch (
struct inode *dir,
struct inode *inode,
struct umsdos_dirent *entry,
off_t emd_pos)
{
/*
This function modify the state of a dir inode. It decides
if the dir is a umsdos dir or a dos dir. This is done
deeper in umsdos_patch_inode() called at the end of this function.
umsdos_patch_inode() may block because it is doing disk access.
At the same time, another process may get here to initialise
the same dir inode. There is 3 cases.
1-The inode is already initialised. We do nothing.
2-The inode is not initialised. We lock access and do it.
3-Like 2 but another process has lock the inode, so we try
to lock it and right after check if initialisation is still
needed.
Thanks to the mem option of the kernel command line, it was
possible to consistently reproduce this problem by limiting
my mem to 4 meg and running X.
*/
/*
Do this only if the inode is freshly read, because we will lose
the current (updated) content.
*/
/*
A lookup of a mount point directory yield the inode into
the other fs, so we don't care about initialising it. iget()
does this automatically.
*/
if (inode->i_sb == dir->i_sb && !umsdos_isinit(inode)){
if (S_ISDIR(inode->i_mode)) umsdos_lockcreate(inode);
if (!umsdos_isinit(inode)){
/* #Specification: umsdos / lookup / inode info
After successfully reading an inode from the MSDOS
filesystem, we use the EMD file to complete it.
We update the following field.
uid, gid, atime, ctime, mtime, mode.
We rely on MSDOS for mtime. If the file
was modified during an MSDOS session, at least
mtime will be meaningful. We do this only for regular
file.
We don't rely on MSDOS for mtime for directory because
the MSDOS directory date is creation time (strange
MSDOS behavior) which fit nowhere in the three UNIX
time stamp.
*/
if (S_ISREG(entry->mode)) entry->mtime = inode->i_mtime;
inode->i_mode = entry->mode;
inode->i_rdev = to_kdev_t(entry->rdev);
inode->i_atime = entry->atime;
inode->i_ctime = entry->ctime;
inode->i_mtime = entry->mtime;
inode->i_uid = entry->uid;
inode->i_gid = entry->gid;
/* #Specification: umsdos / conversion mode
The msdos fs can do some inline conversion
of the data of a file. It can translate
silently from MsDOS text file format to Unix
one (crlf -> lf) while reading, and the reverse
while writing. This is activated using the mount
option conv=....
This is not useful for Linux file in promoted
directory. It can even be harmful. For this
reason, the binary (no conversion) mode is
always activated.
*/
/* #Specification: umsdos / conversion mode / todo
A flag could be added to file and directories
forcing an automatic conversion mode (as
done with the msdos fs).
This flag could be setup on a directory basis
(instead of file) and all file in it would
logically inherited. If the conversion mode
is active (conv=) then the i_binary flag would
be left untouched in those directories.
It was proposed that the sticky bit was used
to set this. The problem is that new file would
be written incorrectly. The other problem is that
the sticky bit has a meaning for directories. So
another bit should be used (there is some space
in the EMD file for it) and a special utilities
would be used to assign the flag to a directory).
I don't think it is useful to assign this flag
on a single file.
*/
MSDOS_I(inode)->i_binary = 1;
/* #Specification: umsdos / i_nlink
The nlink field of an inode is maintain by the MSDOS file system
for directory and by UMSDOS for other file. The logic is that
MSDOS is already figuring out what to do for directories and
does nothing for other files. For MSDOS, there are no hard link
so all file carry nlink==1. UMSDOS use some info in the
EMD file to plug the correct value.
*/
if (!S_ISDIR(entry->mode)){
if (entry->nlink > 0){
inode->i_nlink = entry->nlink;
}else{
printk ("UMSDOS: lookup_patch entry->nlink < 1 ???\n");
}
}
umsdos_patch_inode(inode,dir,emd_pos);
}
if (S_ISDIR(inode->i_mode)) umsdos_unlockcreate(inode);
if (inode->u.umsdos_i.i_emd_owner==0) printk ("emd_owner still 0 ???\n");
}
}
struct UMSDOS_DIRENT_K{
off_t f_pos; /* will hold the offset of the entry in EMD */
ino_t ino;
};
/*
Just to record the offset of one entry.
*/
static int umsdos_filldir_k(
void * buf,
const char * name,
int name_len,
off_t offset,
ino_t ino)
{
struct UMSDOS_DIRENT_K *d = (struct UMSDOS_DIRENT_K *)buf;
d->f_pos = offset;
d->ino = ino;
return 0;
}
struct UMSDOS_DIR_SEARCH{
struct umsdos_dirent *entry;
int found;
ino_t search_ino;
};
static int umsdos_dir_search (
void * buf,
const char * name,
int name_len,
off_t offset,
ino_t ino)
{
int ret = 0;
struct UMSDOS_DIR_SEARCH *d = (struct UMSDOS_DIR_SEARCH *)buf;
if (d->search_ino == ino){
d->found = 1;
memcpy (d->entry->name,name,name_len);
d->entry->name[name_len] = '\0';
d->entry->name_len = name_len;
ret = 1; /* So fat_readdir will terminate */
}
return ret;
}
/*
Locate entry of an inode in a directory.
Return 0 or a negative error code.
Normally, this function must succeed. It means a strange corruption
in the file system if not.
*/
int umsdos_inode2entry (
struct inode *dir,
struct inode *inode,
struct umsdos_dirent *entry) /* Will hold the entry */
{
int ret = -ENOENT;
if (inode == pseudo_root){
/*
Quick way to find the name.
Also umsdos_readdir_x won't show /linux anyway
*/
memcpy (entry->name,UMSDOS_PSDROOT_NAME,UMSDOS_PSDROOT_LEN+1);
entry->name_len = UMSDOS_PSDROOT_LEN;
ret = 0;
}else{
struct inode *emddir = umsdos_emd_dir_lookup(dir,0);
iput (emddir);
if (emddir == NULL){
/* This is a DOS directory */
struct UMSDOS_DIR_SEARCH bufk;
struct file filp;
filp.f_reada = 1;
filp.f_pos = 0;
bufk.entry = entry;
bufk.search_ino = inode->i_ino;
fat_readdir (dir,&filp,&bufk,umsdos_dir_search);
if (bufk.found){
ret = 0;
inode->u.umsdos_i.i_dir_owner = dir->i_ino;
inode->u.umsdos_i.i_emd_owner = 0;
umsdos_setup_dir_inode(inode);
}
}else{
/* skip . and .. see umsdos_readdir_x() */
struct file filp;
filp.f_reada = 1;
filp.f_pos = UMSDOS_SPECIAL_DIRFPOS;
while (1){
struct UMSDOS_DIRENT_K bufk;
if (umsdos_readdir_x(dir,&filp,&bufk
,1,entry,0,umsdos_filldir_k) < 0){
printk ("UMSDOS: can't locate inode %ld in EMD file???\n"
,inode->i_ino);
break;
}else if (bufk.ino == inode->i_ino){
ret = 0;
umsdos_lookup_patch (dir,inode,entry,bufk.f_pos);
break;
}
}
}
}
return ret;
}
/*
Locate the parent of a directory and the info on that directory
Return 0 or a negative error code.
*/
static int umsdos_locate_ancestor (
struct inode *dir,
struct inode **result,
struct umsdos_dirent *entry)
{
int ret;
umsdos_patch_inode (dir,NULL,0);
ret = umsdos_real_lookup (dir,"..",2,result);
PRINTK (("result %d %p ",ret,*result));
if (ret == 0){
struct inode *adir = *result;
ret = umsdos_inode2entry (adir,dir,entry);
}
PRINTK (("\n"));
return ret;
}
/*
Build the path name of an inode (relative to the file system.
This function is need to set (pseudo) hard link.
It uses the same strategy as the standard getcwd().
*/
int umsdos_locate_path (
struct inode *inode,
char *path)
{
int ret = 0;
struct inode *dir = inode;
char *bpath = (char*)kmalloc(PATH_MAX,GFP_KERNEL);
if (bpath == NULL){
ret = -ENOMEM;
}else{
struct umsdos_dirent entry;
char *ptbpath = bpath+PATH_MAX-1;
*ptbpath = '\0';
PRINTK (("locate_path mode %x ",inode->i_mode));
if (!S_ISDIR(inode->i_mode)){
ret = umsdos_get_dirowner (inode,&dir);
PRINTK (("locate_path ret %d ",ret));
if (ret == 0){
ret = umsdos_inode2entry (dir,inode,&entry);
if (ret == 0){
ptbpath -= entry.name_len;
memcpy (ptbpath,entry.name,entry.name_len);
PRINTK (("ptbpath :%s: ",ptbpath));
}
}
}else{
dir->i_count++;
}
if (ret == 0){
while (dir != dir->i_sb->s_mounted){
struct inode *adir;
ret = umsdos_locate_ancestor (dir,&adir,&entry);
iput (dir);
dir = NULL;
PRINTK (("ancestor %d ",ret));
if (ret == 0){
*--ptbpath = '/';
ptbpath -= entry.name_len;
memcpy (ptbpath,entry.name,entry.name_len);
dir = adir;
PRINTK (("ptbpath :%s: ",ptbpath));
}else{
break;
}
}
}
strcpy (path,ptbpath);
kfree (bpath);
}
PRINTK (("\n"));
iput (dir);
return ret;
}
/*
Return != 0 if an entry is the pseudo DOS entry in the pseudo root.
*/
int umsdos_is_pseudodos (
struct inode *dir,
const char *name,
int len)
{
/* #Specification: pseudo root / DOS hard coded
The pseudo sub-directory DOS in the pseudo root is hard coded.
The name is DOS. This is done this way to help standardised
the umsdos layout. The idea is that from now on /DOS is
a reserved path and nobody will think of using such a path
for a package.
*/
return dir == pseudo_root
&& len == 3
&& name[0] == 'D' && name[1] == 'O' && name[2] == 'S';
}
/*
Check if a file exist in the current directory.
Return 0 if ok, negative error code if not (ex: -ENOENT).
*/
static int umsdos_lookup_x (
struct inode *dir,
const char *name,
int len,
struct inode **result, /* Will hold inode of the file, if successful */
int nopseudo) /* Don't care about pseudo root mode */
{
int ret = -ENOENT;
*result = NULL;
umsdos_startlookup(dir);
if (len == 1 && name[0] == '.'){
*result = dir;
dir->i_count++;
ret = 0;
}else if (len == 2 && name[0] == '.' && name[1] == '.'){
if (pseudo_root != NULL && dir == pseudo_root->i_sb->s_mounted){
/* #Specification: pseudo root / .. in real root
Whenever a lookup is those in the real root for
the directory .., and pseudo root is active, the
pseudo root is returned.
*/
ret = 0;
*result = pseudo_root;
pseudo_root->i_count++;
}else{
/* #Specification: locating .. / strategy
We use the msdos filesystem to locate the parent directory.
But it is more complicated than that.
We have to step back even further to
get the parent of the parent, so we can get the EMD
of the parent of the parent. Using the EMD file, we can
locate all the info on the parent, such a permissions
and owner.
*/
ret = umsdos_real_lookup (dir,"..",2,result);
PRINTK (("ancestor ret %d dir %p *result %p ",ret,dir,*result));
if (ret == 0
&& *result != dir->i_sb->s_mounted
&& *result != pseudo_root){
struct inode *aadir;
struct umsdos_dirent entry;
ret = umsdos_locate_ancestor (*result,&aadir,&entry);
iput (aadir);
}
}
}else if (umsdos_is_pseudodos(dir,name,len)){
/* #Specification: pseudo root / lookup(DOS)
A lookup of DOS in the pseudo root will always succeed
and return the inode of the real root.
*/
*result = dir->i_sb->s_mounted;
(*result)->i_count++;
ret = 0;
}else{
struct umsdos_info info;
ret = umsdos_parse (name,len,&info);
if (ret == 0) ret = umsdos_findentry (dir,&info,0);
PRINTK (("lookup %s pos %lu ret %d len %d ",info.fake.fname,info.f_pos,ret
,info.fake.len));
if (ret == 0){
/* #Specification: umsdos / lookup
A lookup for a file is done in two step. First, we locate
the file in the EMD file. If not present, we return
an error code (-ENOENT). If it is there, we repeat the
operation on the msdos file system. If this fails, it means
that the file system is not in sync with the emd file.
We silently remove this entry from the emd file,
and return ENOENT.
*/
struct inode *inode;
ret = umsdos_real_lookup (dir,info.fake.fname,info.fake.len,result);
inode = *result;
if (inode == NULL){
printk ("UMSDOS: Erase entry %s, out of sync with MsDOS\n"
,info.fake.fname);
umsdos_delentry (dir,&info,S_ISDIR(info.entry.mode));
}else{
umsdos_lookup_patch (dir,inode,&info.entry,info.f_pos);
PRINTK (("lookup ino %ld flags %d\n",inode->i_ino
,info.entry.flags));
if (info.entry.flags & UMSDOS_HLINK){
ret = umsdos_hlink2inode (inode,result);
}
if (*result == pseudo_root && !nopseudo){
/* #Specification: pseudo root / dir lookup
For the same reason as readdir, a lookup in /DOS for
the pseudo root directory (linux) will fail.
*/
/*
This has to be allowed for resolving hard link
which are recorded independently of the pseudo-root
mode.
*/
iput (pseudo_root);
*result = NULL;
ret = -ENOENT;
}
}
}
}
umsdos_endlookup(dir);
iput (dir);
return ret;
}
/*
Check if a file exist in the current directory.
Return 0 if ok, negative error code if not (ex: -ENOENT).
*/
int UMSDOS_lookup (
struct inode *dir,
const char *name,
int len,
struct inode **result) /* Will hold inode of the file, if successful */
{
return umsdos_lookup_x(dir,name,len,result,0);
}
/*
Locate the inode pointed by a (pseudo) hard link
Return 0 if ok, a negative error code if not.
*/
int umsdos_hlink2inode (struct inode *hlink, struct inode **result)
{
int ret = -EIO;
char *path = (char*)kmalloc(PATH_MAX,GFP_KERNEL);
*result = NULL;
if (path == NULL){
ret = -ENOMEM;
iput (hlink);
}else{
struct file filp;
filp.f_reada = 1;
filp.f_pos = 0;
PRINTK (("hlink2inode "));
if (umsdos_file_read_kmem (hlink,&filp,path,hlink->i_size)
==hlink->i_size){
struct inode *dir;
char *pt = path;
dir = hlink->i_sb->s_mounted;
path[hlink->i_size] = '\0';
iput (hlink);
dir->i_count++;
while (1){
char *start = pt;
int len;
while (*pt != '\0' && *pt != '/') pt++;
len = (int)(pt - start);
if (*pt == '/') *pt++ = '\0';
if (dir->u.umsdos_i.i_emd_dir == 0){
/* This is a DOS directory */
ret = umsdos_rlookup_x(dir,start,len,result,1);
}else{
ret = umsdos_lookup_x(dir,start,len,result,1);
}
PRINTK (("h2n lookup :%s: -> %d ",start,ret));
if (ret == 0 && *pt != '\0'){
dir = *result;
}else{
break;
}
}
}else{
iput (hlink);
}
PRINTK (("hlink2inode ret = %d %p -> %p\n",ret,hlink,*result));
kfree (path);
}
return ret;
}
static struct file_operations umsdos_dir_operations = {
NULL, /* lseek - default */
UMSDOS_dir_read, /* read */
NULL, /* write - bad */
UMSDOS_readdir, /* readdir */
NULL, /* select - default */
UMSDOS_ioctl_dir, /* ioctl - default */
NULL, /* mmap */
NULL, /* no special open code */
NULL, /* no special release code */
NULL /* fsync */
};
struct inode_operations umsdos_dir_inode_operations = {
&umsdos_dir_operations, /* default directory file-ops */
UMSDOS_create, /* create */
UMSDOS_lookup, /* lookup */
UMSDOS_link, /* link */
UMSDOS_unlink, /* unlink */
UMSDOS_symlink, /* symlink */
UMSDOS_mkdir, /* mkdir */
UMSDOS_rmdir, /* rmdir */
UMSDOS_mknod, /* mknod */
UMSDOS_rename, /* rename */
NULL, /* readlink */
NULL, /* follow_link */
NULL, /* readpage */
NULL, /* writepage */
NULL, /* bmap */
NULL, /* truncate */
NULL /* permission */
};
