mc/vfs/direntry.c

1262 lines
29 KiB
C

/** \file
* \brief Source: directory cache support
*
* So that you do not have copy of this in each and every filesystem.
*
* Very loosely based on tar.c from midnight and archives.[ch] from
* avfs by Miklos Szeredi (mszeredi@inf.bme.hu)
*
* Unfortunately, I was unable to keep all filesystems
* uniform. tar-like filesystems use tree structure where each
* directory has pointers to its subdirectories. We can do this
* because we have full information about our archive.
*
* At ftp-like filesystems, situation is a little bit different. When
* you cd /usr/src/linux/drivers/char, you do _not_ want /usr,
* /usr/src, /usr/src/linux and /usr/src/linux/drivers to be
* listed. That means that we do not have complete information, and if
* /usr is symlink to /4, we will not know. Also we have to time out
* entries and things would get messy with tree-like approach. So we
* do different trick: root directory is completely special and
* completely fake, it contains entries such as 'usr', 'usr/src', ...,
* and we'll try to use custom find_entry function.
*
* \author Pavel Machek <pavel@ucw.cz>, distribute under LGPL.
* \date 1998
*
* \warning Paths here do _not_ begin with '/', so root directory of
* archive/site is simply "".
*/
#include <config.h>
#include <errno.h>
#include <sys/fcntl.h>
#include <time.h>
#include <sys/time.h> /* gettimeofday() */
#include "../src/global.h"
#include "../src/tty.h" /* enable/disable interrupt key */
#include "../src/wtools.h" /* message() */
#include "../src/main.h" /* print_vfs_message */
#include "utilvfs.h"
#include "vfs-impl.h"
#include "gc.h" /* vfs_rmstamp */
#include "xdirentry.h"
#define CALL(x) if (MEDATA->x) MEDATA->x
static volatile int total_inodes = 0, total_entries = 0;
struct vfs_s_inode *
vfs_s_new_inode (struct vfs_class *me, struct vfs_s_super *super, struct stat *initstat)
{
struct vfs_s_inode *ino;
ino = g_new0 (struct vfs_s_inode, 1);
if (!ino)
return NULL;
if (initstat)
ino->st = *initstat;
ino->super = super;
ino->st.st_nlink = 0;
ino->st.st_ino = MEDATA->inode_counter++;
ino->st.st_dev = MEDATA->rdev;
super->ino_usage++;
total_inodes++;
CALL (init_inode) (me, ino);
return ino;
}
struct vfs_s_entry *
vfs_s_new_entry (struct vfs_class *me, const char *name, struct vfs_s_inode *inode)
{
struct vfs_s_entry *entry;
entry = g_new0 (struct vfs_s_entry, 1);
total_entries++;
if (name)
entry->name = g_strdup (name);
entry->ino = inode;
entry->ino->ent = entry;
CALL (init_entry) (me, entry);
return entry;
}
static void
vfs_s_free_inode (struct vfs_class *me, struct vfs_s_inode *ino)
{
if (!ino)
vfs_die ("Don't pass NULL to me");
/* ==0 can happen if freshly created entry is deleted */
if (ino->st.st_nlink <= 1){
while (ino->subdir){
vfs_s_free_entry (me, ino->subdir);
}
CALL (free_inode) (me, ino);
g_free (ino->linkname);
if (ino->localname){
unlink (ino->localname);
g_free(ino->localname);
}
total_inodes--;
ino->super->ino_usage--;
g_free(ino);
} else ino->st.st_nlink--;
}
void
vfs_s_free_entry (struct vfs_class *me, struct vfs_s_entry *ent)
{
if (ent->prevp){ /* It is possible that we are deleting freshly created entry */
*ent->prevp = ent->next;
if (ent->next)
ent->next->prevp = ent->prevp;
}
g_free (ent->name);
ent->name = NULL;
if (ent->ino){
ent->ino->ent = NULL;
vfs_s_free_inode (me, ent->ino);
ent->ino = NULL;
}
total_entries--;
g_free(ent);
}
void
vfs_s_insert_entry (struct vfs_class *me, struct vfs_s_inode *dir, struct vfs_s_entry *ent)
{
struct vfs_s_entry **ep;
(void) me;
for (ep = &dir->subdir; *ep != NULL; ep = &((*ep)->next))
;
ent->prevp = ep;
ent->next = NULL;
ent->dir = dir;
*ep = ent;
ent->ino->st.st_nlink++;
}
struct stat *
vfs_s_default_stat (struct vfs_class *me, mode_t mode)
{
static struct stat st;
int myumask;
(void) me;
myumask = umask (022);
umask (myumask);
mode &= ~myumask;
st.st_mode = mode;
st.st_ino = 0;
st.st_dev = 0;
st.st_rdev = 0;
st.st_uid = getuid ();
st.st_gid = getgid ();
st.st_size = 0;
st.st_mtime = st.st_atime = st.st_ctime = time (NULL);
return &st;
}
struct vfs_s_entry *
vfs_s_generate_entry (struct vfs_class *me, const char *name, struct vfs_s_inode *parent, mode_t mode)
{
struct vfs_s_inode *inode;
struct stat *st;
st = vfs_s_default_stat (me, mode);
inode = vfs_s_new_inode (me, parent->super, st);
return vfs_s_new_entry (me, name, inode);
}
/* We were asked to create entries automagically */
static struct vfs_s_entry *
vfs_s_automake (struct vfs_class *me, struct vfs_s_inode *dir, char *path, int flags)
{
struct vfs_s_entry *res;
char *sep = strchr (path, PATH_SEP);
if (sep)
*sep = 0;
res = vfs_s_generate_entry (me, path, dir, flags & FL_MKDIR ? (0777 | S_IFDIR) : 0777);
vfs_s_insert_entry (me, dir, res);
if (sep)
*sep = PATH_SEP;
return res;
}
/* If the entry is a symlink, find the entry for its target */
static struct vfs_s_entry *
vfs_s_resolve_symlink (struct vfs_class *me, struct vfs_s_entry *entry,
int follow)
{
char *linkname;
char *fullname = NULL;
struct vfs_s_entry *target;
if (follow == LINK_NO_FOLLOW)
return entry;
if (follow == 0)
ERRNOR (ELOOP, NULL);
if (!entry)
ERRNOR (ENOENT, NULL);
if (!S_ISLNK (entry->ino->st.st_mode))
return entry;
linkname = entry->ino->linkname;
if (linkname == NULL)
ERRNOR (EFAULT, NULL);
/* make full path from relative */
if (*linkname != PATH_SEP) {
char *fullpath = vfs_s_fullpath (me, entry->dir);
if (fullpath) {
fullname = g_strconcat (fullpath, "/", linkname, NULL);
linkname = fullname;
g_free (fullpath);
}
}
target =
(MEDATA->find_entry) (me, entry->dir->super->root, linkname,
follow - 1, 0);
g_free (fullname);
return target;
}
/*
* Follow > 0: follow links, serves as loop protect,
* == -1: do not follow links
*/
static struct vfs_s_entry *
vfs_s_find_entry_tree (struct vfs_class *me, struct vfs_s_inode *root,
const char *a_path, int follow, int flags)
{
size_t pseg;
struct vfs_s_entry *ent = NULL;
char * const pathref = g_strdup (a_path);
char *path = pathref;
canonicalize_pathname (path);
while (root) {
while (*path == PATH_SEP) /* Strip leading '/' */
path++;
if (!path[0]) {
g_free (pathref);
return ent;
}
for (pseg = 0; path[pseg] && path[pseg] != PATH_SEP; pseg++);
for (ent = root->subdir; ent != NULL; ent = ent->next)
if (strlen (ent->name) == pseg
&& (!strncmp (ent->name, path, pseg)))
/* FOUND! */
break;
if (!ent && (flags & (FL_MKFILE | FL_MKDIR)))
ent = vfs_s_automake (me, root, path, flags);
if (!ent) {
me->verrno = ENOENT;
goto cleanup;
}
path += pseg;
/* here we must follow leading directories always;
only the actual file is optional */
ent =
vfs_s_resolve_symlink (me, ent,
strchr (path,
PATH_SEP) ? LINK_FOLLOW :
follow);
if (!ent)
goto cleanup;
root = ent->ino;
}
cleanup:
g_free (pathref);
return NULL;
}
static void
split_dir_name (struct vfs_class *me, char *path, char **dir, char **name, char **save)
{
char *s;
(void) me;
s = strrchr (path, PATH_SEP);
if (s == NULL) {
*save = NULL;
*name = path;
*dir = path + strlen(path); /* an empty string */
} else {
*save = s;
*dir = path;
*s++ = '\0';
*name = s;
}
}
static struct vfs_s_entry *
vfs_s_find_entry_linear (struct vfs_class *me, struct vfs_s_inode *root,
const char *a_path, int follow, int flags)
{
struct vfs_s_entry *ent = NULL;
char * const path = g_strdup (a_path);
struct vfs_s_entry *retval = NULL;
if (root->super->root != root)
vfs_die ("We have to use _real_ root. Always. Sorry.");
canonicalize_pathname (path);
if (!(flags & FL_DIR)) {
char *dirname, *name, *save;
struct vfs_s_inode *ino;
split_dir_name (me, path, &dirname, &name, &save);
ino =
vfs_s_find_inode (me, root->super, dirname, follow,
flags | FL_DIR);
if (save)
*save = PATH_SEP;
retval = vfs_s_find_entry_tree (me, ino, name, follow, flags);
g_free (path);
return retval;
}
for (ent = root->subdir; ent != NULL; ent = ent->next)
if (!strcmp (ent->name, path))
break;
if (ent && (!(MEDATA->dir_uptodate) (me, ent->ino))) {
#if 1
print_vfs_message (_("Directory cache expired for %s"), path);
#endif
vfs_s_free_entry (me, ent);
ent = NULL;
}
if (!ent) {
struct vfs_s_inode *ino;
ino =
vfs_s_new_inode (me, root->super,
vfs_s_default_stat (me, S_IFDIR | 0755));
ent = vfs_s_new_entry (me, path, ino);
if ((MEDATA->dir_load) (me, ino, path) == -1) {
vfs_s_free_entry (me, ent);
g_free (path);
return NULL;
}
vfs_s_insert_entry (me, root, ent);
for (ent = root->subdir; ent != NULL; ent = ent->next)
if (!strcmp (ent->name, path))
break;
}
if (!ent)
vfs_die ("find_linear: success but directory is not there\n");
#if 0
if (!vfs_s_resolve_symlink (me, ent, follow)) {
g_free (path);
return NULL;
}
#endif
g_free (path);
return ent;
}
struct vfs_s_inode *
vfs_s_find_inode (struct vfs_class *me, const struct vfs_s_super *super,
const char *path, int follow, int flags)
{
struct vfs_s_entry *ent;
if (!(MEDATA->flags & VFS_S_REMOTE) && (!*path))
return super->root;
ent = (MEDATA->find_entry) (me, super->root, path, follow, flags);
if (!ent)
return NULL;
return ent->ino;
}
/* Ook, these were functions around directory entries / inodes */
/* -------------------------------- superblock games -------------------------- */
static struct vfs_s_super *
vfs_s_new_super (struct vfs_class *me)
{
struct vfs_s_super *super;
super = g_new0 (struct vfs_s_super, 1);
super->me = me;
return super;
}
static void
vfs_s_insert_super (struct vfs_class *me, struct vfs_s_super *super)
{
super->next = MEDATA->supers;
super->prevp = &MEDATA->supers;
if (MEDATA->supers != NULL)
MEDATA->supers->prevp = &super->next;
MEDATA->supers = super;
}
static void
vfs_s_free_super (struct vfs_class *me, struct vfs_s_super *super)
{
if (super->root){
vfs_s_free_inode (me, super->root);
super->root = NULL;
}
#if 0
/* FIXME: We currently leak small ammount of memory, sometimes. Fix it if you can. */
if (super->ino_usage)
message (D_ERROR, " Direntry warning ",
"Super ino_usage is %d, memory leak",
super->ino_usage);
if (super->want_stale)
message (D_ERROR, " Direntry warning ", "Super has want_stale set");
#endif
if (super->prevp){
*super->prevp = super->next;
if (super->next)
super->next->prevp = super->prevp;
}
CALL (free_archive) (me, super);
g_free (super->name);
g_free(super);
}
/*
* Dissect the path and create corresponding superblock. Note that inname
* can be changed and the result may point inside the original string.
*/
const char *
vfs_s_get_path_mangle (struct vfs_class *me, char *inname,
struct vfs_s_super **archive, int flags)
{
const char *retval;
char *local, *op;
const char *archive_name;
int result = -1;
struct vfs_s_super *super;
void *cookie = NULL;
archive_name = inname;
vfs_split (inname, &local, &op);
retval = (local) ? local : "";
if (MEDATA->archive_check)
if (!(cookie = MEDATA->archive_check (me, archive_name, op)))
return NULL;
for (super = MEDATA->supers; super != NULL; super = super->next) {
/* 0 == other, 1 == same, return it, 2 == other but stop scanning */
int i;
if ((i =
MEDATA->archive_same (me, super, archive_name, op, cookie))) {
if (i == 1)
goto return_success;
else
break;
}
}
if (flags & FL_NO_OPEN)
ERRNOR (EIO, NULL);
super = vfs_s_new_super (me);
result = MEDATA->open_archive (me, super, archive_name, op);
if (result == -1) {
vfs_s_free_super (me, super);
ERRNOR (EIO, NULL);
}
if (!super->name)
vfs_die ("You have to fill name\n");
if (!super->root)
vfs_die ("You have to fill root inode\n");
vfs_s_insert_super (me, super);
vfs_stamp_create (me, super);
return_success:
*archive = super;
return retval;
}
/*
* Dissect the path and create corresponding superblock.
* The result should be freed.
*/
static char *
vfs_s_get_path (struct vfs_class *me, const char *inname,
struct vfs_s_super **archive, int flags)
{
char *buf, *retval;
buf = g_strdup (inname);
retval = g_strdup (vfs_s_get_path_mangle (me, buf, archive, flags));
g_free (buf);
return retval;
}
void
vfs_s_invalidate (struct vfs_class *me, struct vfs_s_super *super)
{
if (!super->want_stale){
vfs_s_free_inode (me, super->root);
super->root = vfs_s_new_inode (me, super, vfs_s_default_stat (me, S_IFDIR | 0755));
}
}
char *
vfs_s_fullpath (struct vfs_class *me, struct vfs_s_inode *ino)
{
if (!ino->ent)
ERRNOR (EAGAIN, NULL);
if (!(MEDATA->flags & VFS_S_REMOTE)) {
/* archives */
char *newpath;
char *path = g_strdup (ino->ent->name);
while (1) {
ino = ino->ent->dir;
if (ino == ino->super->root)
break;
newpath = g_strconcat (ino->ent->name, "/", path, (char *) NULL);
g_free (path);
path = newpath;
}
return path;
}
/* remote systems */
if ((!ino->ent->dir) || (!ino->ent->dir->ent))
return g_strdup (ino->ent->name);
return g_strconcat (ino->ent->dir->ent->name, PATH_SEP_STR,
ino->ent->name, (char *) NULL);
}
/* Support of archives */
/* ------------------------ readdir & friends ----------------------------- */
static struct vfs_s_inode *
vfs_s_inode_from_path (struct vfs_class *me, const char *name, int flags)
{
struct vfs_s_super *super;
struct vfs_s_inode *ino;
char *q;
if (!(q = vfs_s_get_path (me, name, &super, 0)))
return NULL;
ino =
vfs_s_find_inode (me, super, q,
flags & FL_FOLLOW ? LINK_FOLLOW : LINK_NO_FOLLOW,
flags & ~FL_FOLLOW);
if ((!ino) && (!*q))
/* We are asking about / directory of ftp server: assume it exists */
ino =
vfs_s_find_inode (me, super, q,
flags & FL_FOLLOW ? LINK_FOLLOW :
LINK_NO_FOLLOW,
FL_DIR | (flags & ~FL_FOLLOW));
g_free (q);
return ino;
}
struct dirhandle {
struct vfs_s_entry *cur;
struct vfs_s_inode *dir;
};
static void *
vfs_s_opendir (struct vfs_class *me, const char *dirname)
{
struct vfs_s_inode *dir;
struct dirhandle *info;
dir = vfs_s_inode_from_path (me, dirname, FL_DIR | FL_FOLLOW);
if (!dir)
return NULL;
if (!S_ISDIR (dir->st.st_mode))
ERRNOR (ENOTDIR, NULL);
dir->st.st_nlink++;
#if 0
if (!dir->subdir) /* This can actually happen if we allow empty directories */
ERRNOR (EAGAIN, NULL);
#endif
info = g_new (struct dirhandle, 1);
info->cur = dir->subdir;
info->dir = dir;
return info;
}
static void *
vfs_s_readdir(void *data)
{
static union vfs_dirent dir;
struct dirhandle *info = (struct dirhandle *) data;
if (!(info->cur))
return NULL;
if (info->cur->name) {
g_strlcpy (dir.dent.d_name, info->cur->name, MC_MAXPATHLEN);
} else {
vfs_die("Null in structure-cannot happen");
}
compute_namelen(&dir.dent);
info->cur = info->cur->next;
return (void *) &dir;
}
static int
vfs_s_closedir (void *data)
{
struct dirhandle *info = (struct dirhandle *) data;
struct vfs_s_inode *dir = info->dir;
vfs_s_free_inode (dir->super->me, dir);
g_free (data);
return 0;
}
static int
vfs_s_chdir (struct vfs_class *me, const char *path)
{
void *data;
if (!(data = vfs_s_opendir (me, path)))
return -1;
vfs_s_closedir (data);
return 0;
}
/* --------------------------- stat and friends ---------------------------- */
static int
vfs_s_internal_stat (struct vfs_class *me, const char *path, struct stat *buf, int flag)
{
struct vfs_s_inode *ino;
if (!(ino = vfs_s_inode_from_path (me, path, flag)))
return -1;
*buf = ino->st;
return 0;
}
static int
vfs_s_stat (struct vfs_class *me, const char *path, struct stat *buf)
{
return vfs_s_internal_stat (me, path, buf, FL_FOLLOW);
}
static int
vfs_s_lstat (struct vfs_class *me, const char *path, struct stat *buf)
{
return vfs_s_internal_stat (me, path, buf, FL_NONE);
}
static int
vfs_s_fstat (void *fh, struct stat *buf)
{
*buf = FH->ino->st;
return 0;
}
static int
vfs_s_readlink (struct vfs_class *me, const char *path, char *buf, size_t size)
{
struct vfs_s_inode *ino;
size_t len;
ino = vfs_s_inode_from_path (me, path, 0);
if (!ino)
return -1;
if (!S_ISLNK (ino->st.st_mode))
ERRNOR (EINVAL, -1);
if (ino->linkname == NULL)
ERRNOR (EFAULT, -1);
len = strlen (ino->linkname);
if (size < len)
len = size;
/* readlink() does not append a NUL character to buf */
memcpy (buf, ino->linkname, len);
return len;
}
void *
vfs_s_open (struct vfs_class *me, const char *file, int flags, int mode)
{
int was_changed = 0;
struct vfs_s_fh *fh;
struct vfs_s_super *super;
char *q;
struct vfs_s_inode *ino;
if ((q = vfs_s_get_path (me, file, &super, 0)) == NULL)
return NULL;
ino = vfs_s_find_inode (me, super, q, LINK_FOLLOW, FL_NONE);
if (ino && ((flags & (O_CREAT | O_EXCL)) == (O_CREAT | O_EXCL))) {
g_free (q);
ERRNOR (EEXIST, NULL);
}
if (!ino) {
char *dirname, *name, *save;
struct vfs_s_entry *ent;
struct vfs_s_inode *dir;
int tmp_handle;
/* If the filesystem is read-only, disable file creation */
if (!(flags & O_CREAT) || !(me->write)) {
g_free (q);
return NULL;
}
split_dir_name (me, q, &dirname, &name, &save);
/* FIXME: check if vfs_s_find_inode returns NULL */
dir = vfs_s_find_inode (me, super, dirname, LINK_FOLLOW, FL_DIR);
if (save)
*save = PATH_SEP;
ent = vfs_s_generate_entry (me, name, dir, 0755);
ino = ent->ino;
vfs_s_insert_entry (me, dir, ent);
tmp_handle = vfs_mkstemps (&ino->localname, me->name, name);
if (tmp_handle == -1) {
g_free (q);
return NULL;
}
close (tmp_handle);
was_changed = 1;
}
g_free (q);
if (S_ISDIR (ino->st.st_mode))
ERRNOR (EISDIR, NULL);
fh = g_new (struct vfs_s_fh, 1);
fh->pos = 0;
fh->ino = ino;
fh->handle = -1;
fh->changed = was_changed;
fh->linear = 0;
if (IS_LINEAR (flags)) {
if (MEDATA->linear_start) {
print_vfs_message (_("Starting linear transfer..."));
fh->linear = LS_LINEAR_PREOPEN;
}
} else if ((MEDATA->fh_open)
&& (MEDATA->fh_open (me, fh, flags, mode))) {
g_free (fh);
return NULL;
}
if (fh->ino->localname) {
fh->handle = open (fh->ino->localname, NO_LINEAR (flags), mode);
if (fh->handle == -1) {
g_free (fh);
ERRNOR (errno, NULL);
}
}
/* i.e. we had no open files and now we have one */
vfs_rmstamp (me, (vfsid) super);
super->fd_usage++;
fh->ino->st.st_nlink++;
return fh;
}
static ssize_t
vfs_s_read (void *fh, char *buffer, int count)
{
int n;
struct vfs_class *me = FH_SUPER->me;
if (FH->linear == LS_LINEAR_PREOPEN) {
if (!MEDATA->linear_start (me, FH, FH->pos))
return -1;
}
if (FH->linear == LS_LINEAR_CLOSED)
vfs_die ("linear_start() did not set linear_state!");
if (FH->linear == LS_LINEAR_OPEN)
return MEDATA->linear_read (me, FH, buffer, count);
if (FH->handle != -1){
n = read (FH->handle, buffer, count);
if (n < 0)
me->verrno = errno;
return n;
}
vfs_die ("vfs_s_read: This should not happen\n");
return -1;
}
static ssize_t
vfs_s_write (void *fh, const char *buffer, int count)
{
int n;
struct vfs_class *me = FH_SUPER->me;
if (FH->linear)
vfs_die ("no writing to linear files, please");
FH->changed = 1;
if (FH->handle != -1){
n = write (FH->handle, buffer, count);
if (n < 0)
me->verrno = errno;
return n;
}
vfs_die ("vfs_s_write: This should not happen\n");
return 0;
}
static off_t
vfs_s_lseek (void *fh, off_t offset, int whence)
{
off_t size = FH->ino->st.st_size;
if (FH->linear == LS_LINEAR_OPEN)
vfs_die ("cannot lseek() after linear_read!");
if (FH->handle != -1){ /* If we have local file opened, we want to work with it */
int retval = lseek (FH->handle, offset, whence);
if (retval == -1)
FH->ino->super->me->verrno = errno;
return retval;
}
switch (whence){
case SEEK_CUR:
offset += FH->pos; break;
case SEEK_END:
offset += size; break;
}
if (offset < 0)
FH->pos = 0;
else if (offset < size)
FH->pos = offset;
else
FH->pos = size;
return FH->pos;
}
static int
vfs_s_close (void *fh)
{
int res = 0;
struct vfs_class *me = FH_SUPER->me;
FH_SUPER->fd_usage--;
if (!FH_SUPER->fd_usage)
vfs_stamp_create (me, FH_SUPER);
if (FH->linear == LS_LINEAR_OPEN)
MEDATA->linear_close (me, fh);
if (MEDATA->fh_close)
res = MEDATA->fh_close (me, fh);
if (FH->changed && MEDATA->file_store){
char *s = vfs_s_fullpath (me, FH->ino);
if (!s)
res = -1;
else {
res = MEDATA->file_store (me, fh, s, FH->ino->localname);
g_free (s);
}
vfs_s_invalidate (me, FH_SUPER);
}
if (FH->handle != -1)
close (FH->handle);
vfs_s_free_inode (me, FH->ino);
g_free (fh);
return res;
}
static void
vfs_s_print_stats (const char *fs_name, const char *action,
const char *file_name, off_t have, off_t need)
{
static const char *i18n_percent_transf_format = NULL;
static const char *i18n_transf_format = NULL;
if (i18n_percent_transf_format == NULL) {
i18n_percent_transf_format =
_("%s: %s: %s %3d%% (%lu bytes transferred)");
i18n_transf_format = _("%s: %s: %s %lu bytes transferred");
}
if (need)
print_vfs_message (i18n_percent_transf_format, fs_name, action,
file_name, (int) ((double) have * 100 / need),
(unsigned long) have);
else
print_vfs_message (i18n_transf_format, fs_name, action, file_name,
(unsigned long) have);
}
int
vfs_s_retrieve_file (struct vfs_class *me, struct vfs_s_inode *ino)
{
/* If you want reget, you'll have to open file with O_LINEAR */
off_t total = 0;
char buffer[8192];
int handle, n;
off_t stat_size = ino->st.st_size;
struct vfs_s_fh fh;
memset (&fh, 0, sizeof (fh));
fh.ino = ino;
fh.handle = -1;
handle = vfs_mkstemps (&ino->localname, me->name, ino->ent->name);
if (handle == -1) {
me->verrno = errno;
goto error_4;
}
if (!MEDATA->linear_start (me, &fh, 0))
goto error_3;
/* Clear the interrupt status */
got_interrupt ();
enable_interrupt_key ();
while ((n = MEDATA->linear_read (me, &fh, buffer, sizeof (buffer)))) {
int t;
if (n < 0)
goto error_1;
total += n;
vfs_s_print_stats (me->name, _("Getting file"), ino->ent->name,
total, stat_size);
if (got_interrupt ())
goto error_1;
t = write (handle, buffer, n);
if (t != n) {
if (t == -1)
me->verrno = errno;
goto error_1;
}
}
MEDATA->linear_close (me, &fh);
close (handle);
disable_interrupt_key ();
return 0;
error_1:
MEDATA->linear_close (me, &fh);
error_3:
disable_interrupt_key ();
close (handle);
unlink (ino->localname);
error_4:
g_free (ino->localname);
ino->localname = NULL;
return -1;
}
/* ------------------------------- mc support ---------------------------- */
static void
vfs_s_fill_names (struct vfs_class *me, fill_names_f func)
{
struct vfs_s_super *a = MEDATA->supers;
char *name;
while (a){
name = g_strconcat ( a->name, "#", me->prefix, "/", /* a->current_dir->name, */ NULL);
(*func)(name);
g_free (name);
a = a->next;
}
}
static int
vfs_s_ferrno (struct vfs_class *me)
{
return me->verrno;
}
/*
* Get local copy of the given file. We reuse the existing file cache
* for remote filesystems. Archives use standard VFS facilities.
*/
static char *
vfs_s_getlocalcopy (struct vfs_class *me, const char *path)
{
struct vfs_s_fh *fh;
char *local;
fh = vfs_s_open (me, path, O_RDONLY, 0);
if (!fh || !fh->ino || !fh->ino->localname)
return NULL;
local = g_strdup (fh->ino->localname);
vfs_s_close (fh);
return local;
}
/*
* Return the local copy. Since we are using our cache, we do nothing -
* the cache will be removed when the archive is closed.
*/
static int
vfs_s_ungetlocalcopy (struct vfs_class *me, const char *path,
const char *local, int has_changed)
{
(void) me;
(void) path;
(void) local;
(void) has_changed;
return 0;
}
static int
vfs_s_setctl (struct vfs_class *me, const char *path, int ctlop, void *arg)
{
switch (ctlop) {
case VFS_SETCTL_STALE_DATA:
{
struct vfs_s_inode *ino = vfs_s_inode_from_path (me, path, 0);
if (!ino)
return 0;
if (arg)
ino->super->want_stale = 1;
else {
ino->super->want_stale = 0;
vfs_s_invalidate (me, ino->super);
}
return 1;
}
case VFS_SETCTL_LOGFILE:
MEDATA->logfile = fopen ((char *) arg, "w");
return 1;
case VFS_SETCTL_FLUSH:
MEDATA->flush = 1;
return 1;
}
return 0;
}
/* ----------------------------- Stamping support -------------------------- */
static vfsid
vfs_s_getid (struct vfs_class *me, const char *path)
{
struct vfs_s_super *archive;
char *p;
if (!(p = vfs_s_get_path (me, path, &archive, FL_NO_OPEN)))
return NULL;
g_free(p);
return (vfsid) archive;
}
static int
vfs_s_nothingisopen (vfsid id)
{
(void) id;
/* Our data structures should survive free of superblock at any time */
return 1;
}
static void
vfs_s_free (vfsid id)
{
vfs_s_free_super (((struct vfs_s_super *)id)->me, (struct vfs_s_super *)id);
}
static int
vfs_s_dir_uptodate (struct vfs_class *me, struct vfs_s_inode *ino)
{
struct timeval tim;
if (MEDATA->flush) {
MEDATA->flush = 0;
return 0;
}
gettimeofday(&tim, NULL);
if (tim.tv_sec < ino->timestamp.tv_sec)
return 1;
return 0;
}
/* Initialize one of our subclasses - fill common functions */
void
vfs_s_init_class (struct vfs_class *vclass, struct vfs_s_subclass *sub)
{
vclass->data = sub;
vclass->fill_names = vfs_s_fill_names;
vclass->open = vfs_s_open;
vclass->close = vfs_s_close;
vclass->read = vfs_s_read;
if (!(sub->flags & VFS_S_READONLY)) {
vclass->write = vfs_s_write;
}
vclass->opendir = vfs_s_opendir;
vclass->readdir = vfs_s_readdir;
vclass->closedir = vfs_s_closedir;
vclass->stat = vfs_s_stat;
vclass->lstat = vfs_s_lstat;
vclass->fstat = vfs_s_fstat;
vclass->readlink = vfs_s_readlink;
vclass->chdir = vfs_s_chdir;
vclass->ferrno = vfs_s_ferrno;
vclass->lseek = vfs_s_lseek;
vclass->getid = vfs_s_getid;
vclass->nothingisopen = vfs_s_nothingisopen;
vclass->free = vfs_s_free;
if (sub->flags & VFS_S_REMOTE) {
vclass->getlocalcopy = vfs_s_getlocalcopy;
vclass->ungetlocalcopy = vfs_s_ungetlocalcopy;
sub->find_entry = vfs_s_find_entry_linear;
} else {
sub->find_entry = vfs_s_find_entry_tree;
}
vclass->setctl = vfs_s_setctl;
sub->dir_uptodate = vfs_s_dir_uptodate;
}
/* ----------- Utility functions for networked filesystems -------------- */
#ifdef USE_NETCODE
int
vfs_s_select_on_two (int fd1, int fd2)
{
fd_set set;
struct timeval timeout;
int v;
int maxfd = (fd1 > fd2 ? fd1 : fd2) + 1;
timeout.tv_sec = 1;
timeout.tv_usec = 0;
FD_ZERO (&set);
FD_SET (fd1, &set);
FD_SET (fd2, &set);
v = select (maxfd, &set, 0, 0, &timeout);
if (v <= 0)
return v;
if (FD_ISSET (fd1, &set))
return 1;
if (FD_ISSET (fd2, &set))
return 2;
return -1;
}
int
vfs_s_get_line (struct vfs_class *me, int sock, char *buf, int buf_len, char term)
{
FILE *logfile = MEDATA->logfile;
int i;
char c;
for (i = 0; i < buf_len - 1; i++, buf++){
if (read (sock, buf, sizeof(char)) <= 0)
return 0;
if (logfile){
fwrite (buf, 1, 1, logfile);
fflush (logfile);
}
if (*buf == term){
*buf = 0;
return 1;
}
}
/* Line is too long - terminate buffer and discard the rest of line */
*buf = 0;
while (read (sock, &c, sizeof (c)) > 0) {
if (logfile){
fwrite (&c, 1, 1, logfile);
fflush (logfile);
}
if (c == '\n')
return 1;
}
return 0;
}
int
vfs_s_get_line_interruptible (struct vfs_class *me, char *buffer, int size, int fd)
{
int n;
int i;
(void) me;
enable_interrupt_key ();
for (i = 0; i < size-1; i++){
n = read (fd, buffer+i, 1);
disable_interrupt_key ();
if (n == -1 && errno == EINTR){
buffer [i] = 0;
return EINTR;
}
if (n == 0){
buffer [i] = 0;
return 0;
}
if (buffer [i] == '\n'){
buffer [i] = 0;
return 1;
}
}
buffer [size-1] = 0;
return 0;
}
#endif /* USE_NETCODE */