/* Directory cache support Copyright (C) 1998-2024 Free Software Foundation, Inc. Written by: Pavel Machek , 1998 Slava Zanko , 2010-2013 Andrew Borodin 2010-2022 This file is part of the Midnight Commander. The Midnight Commander is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. The Midnight Commander is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . \warning Paths here do _not_ begin with '/', so root directory of archive/site is simply "". */ /** \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 * \date 1998 * */ #include #include #include /* uintmax_t */ #include #ifdef HAVE_SYS_SELECT_H #include #endif #include #include #include "lib/global.h" #include "lib/tty/tty.h" /* enable/disable interrupt key */ #include "lib/util.h" /* canonicalize_pathname_custom() */ #if 0 #include "lib/widget.h" /* message() */ #endif #include "vfs.h" #include "utilvfs.h" #include "xdirentry.h" #include "gc.h" /* vfs_rmstamp */ /*** global variables ****************************************************************************/ /*** file scope macro definitions ****************************************************************/ #define CALL(x) \ if (VFS_SUBCLASS (me)->x != NULL) \ VFS_SUBCLASS (me)->x /*** file scope type declarations ****************************************************************/ struct dirhandle { GList *cur; struct vfs_s_inode *dir; }; /*** file scope variables ************************************************************************/ /*** forward declarations (file scope functions) *************************************************/ /* --------------------------------------------------------------------------------------------- */ /*** file scope functions ************************************************************************/ /* --------------------------------------------------------------------------------------------- */ /* 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; sep = strchr (path, PATH_SEP); if (sep != NULL) *sep = '\0'; res = vfs_s_generate_entry (me, path, dir, (flags & FL_MKDIR) != 0 ? (0777 | S_IFDIR) : 0777); vfs_s_insert_entry (me, dir, res); if (sep != NULL) *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 == NULL) 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 (!IS_PATH_SEP (*linkname)) { char *fullpath; fullpath = vfs_s_fullpath (me, entry->dir); if (fullpath != NULL) { fullname = g_strconcat (fullpath, PATH_SEP_STR, linkname, (char *) NULL); linkname = fullname; g_free (fullpath); } } target = VFS_SUBCLASS (me)->find_entry (me, entry->dir->super->root, linkname, follow - 1, FL_NONE); 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 as well, but don't remove '../' from path */ canonicalize_pathname_custom (path, CANON_PATH_ALL & (~CANON_PATH_REMDOUBLEDOTS)); while (root != NULL) { GList *iter; while (IS_PATH_SEP (*path)) /* Strip leading '/' */ path++; if (path[0] == '\0') { g_free (pathref); return ent; } for (pseg = 0; path[pseg] != '\0' && !IS_PATH_SEP (path[pseg]); pseg++) ; for (iter = g_queue_peek_head_link (root->subdir); iter != NULL; iter = g_list_next (iter)) { ent = VFS_ENTRY (iter->data); if (strlen (ent->name) == pseg && strncmp (ent->name, path, pseg) == 0) /* FOUND! */ break; } ent = iter != NULL ? VFS_ENTRY (iter->data) : NULL; if (ent == NULL && (flags & (FL_MKFILE | FL_MKDIR)) != 0) ent = vfs_s_automake (me, root, path, flags); if (ent == NULL) { 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) != NULL ? LINK_FOLLOW : follow); if (ent == NULL) goto cleanup; root = ent->ino; } cleanup: g_free (pathref); return NULL; } /* --------------------------------------------------------------------------------------------- */ 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); GList *iter; if (root->super->root != root) vfs_die ("We have to use _real_ root. Always. Sorry."); /* canonicalize as well, but don't remove '../' from path */ canonicalize_pathname_custom (path, CANON_PATH_ALL & (~CANON_PATH_REMDOUBLEDOTS)); if ((flags & FL_DIR) == 0) { char *dirname, *name; struct vfs_s_inode *ino; dirname = g_path_get_dirname (path); name = g_path_get_basename (path); ino = vfs_s_find_inode (me, root->super, dirname, follow, flags | FL_DIR); ent = vfs_s_find_entry_tree (me, ino, name, follow, flags); g_free (dirname); g_free (name); g_free (path); return ent; } iter = g_queue_find_custom (root->subdir, path, (GCompareFunc) vfs_s_entry_compare); ent = iter != NULL ? VFS_ENTRY (iter->data) : NULL; if (ent != NULL && !VFS_SUBCLASS (me)->dir_uptodate (me, ent->ino)) { #if 1 vfs_print_message (_("Directory cache expired for %s"), path); #endif vfs_s_free_entry (me, ent); ent = NULL; } if (ent == NULL) { 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 (VFS_SUBCLASS (me)->dir_load (me, ino, path) == -1) { vfs_s_free_entry (me, ent); g_free (path); return NULL; } vfs_s_insert_entry (me, root, ent); iter = g_queue_find_custom (root->subdir, path, (GCompareFunc) vfs_s_entry_compare); ent = iter != NULL ? VFS_ENTRY (iter->data) : NULL; } if (ent == NULL) vfs_die ("find_linear: success but directory is not there\n"); #if 0 if (vfs_s_resolve_symlink (me, ent, follow) == NULL) { g_free (path); return NULL; } #endif g_free (path); return ent; } /* --------------------------------------------------------------------------------------------- */ /* 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 inline void vfs_s_insert_super (struct vfs_class *me, struct vfs_s_super *super) { VFS_SUBCLASS (me)->supers = g_list_prepend (VFS_SUBCLASS (me)->supers, super); } /* --------------------------------------------------------------------------------------------- */ static void vfs_s_free_super (struct vfs_class *me, struct vfs_s_super *super) { if (super->root != NULL) { vfs_s_free_inode (me, super->root); super->root = NULL; } #if 0 /* FIXME: We currently leak small amount of memory, sometimes. Fix it if you can. */ if (super->ino_usage != 0) message (D_ERROR, "Direntry warning", "Super ino_usage is %d, memory leak", super->ino_usage); if (super->want_stale) message (D_ERROR, "Direntry warning", "%s", "Super has want_stale set"); #endif VFS_SUBCLASS (me)->supers = g_list_remove (VFS_SUBCLASS (me)->supers, super); CALL (free_archive) (me, super); #ifdef ENABLE_VFS_NET vfs_path_element_free (super->path_element); #endif g_free (super->name); g_free (super); } /* --------------------------------------------------------------------------------------------- */ static vfs_file_handler_t * vfs_s_new_fh (struct vfs_s_inode *ino, gboolean changed) { vfs_file_handler_t *fh; fh = g_new0 (vfs_file_handler_t, 1); vfs_s_init_fh (fh, ino, changed); return fh; } /* --------------------------------------------------------------------------------------------- */ static void vfs_s_free_fh (struct vfs_s_subclass *s, vfs_file_handler_t *fh) { if (s->fh_free != NULL) s->fh_free (fh); g_free (fh); } /* --------------------------------------------------------------------------------------------- */ /* Support of archives */ /* ------------------------ readdir & friends ----------------------------- */ static struct vfs_s_inode * vfs_s_inode_from_path (const vfs_path_t *vpath, int flags) { struct vfs_s_super *super; struct vfs_s_inode *ino; const char *q; struct vfs_class *me; q = vfs_s_get_path (vpath, &super, 0); if (q == NULL) return NULL; me = VFS_CLASS (vfs_path_get_last_path_vfs (vpath)); ino = vfs_s_find_inode (me, super, q, (flags & FL_FOLLOW) != 0 ? LINK_FOLLOW : LINK_NO_FOLLOW, flags & ~FL_FOLLOW); if (ino == NULL && *q == '\0') /* We are asking about / directory of ftp server: assume it exists */ ino = vfs_s_find_inode (me, super, q, (flags & FL_FOLLOW) != 0 ? LINK_FOLLOW : LINK_NO_FOLLOW, FL_DIR | (flags & ~FL_FOLLOW)); return ino; } /* --------------------------------------------------------------------------------------------- */ static void * vfs_s_opendir (const vfs_path_t *vpath) { struct vfs_s_inode *dir; struct dirhandle *info; struct vfs_class *me; dir = vfs_s_inode_from_path (vpath, FL_DIR | FL_FOLLOW); if (dir == NULL) return NULL; me = VFS_CLASS (vfs_path_get_last_path_vfs (vpath)); if (!S_ISDIR (dir->st.st_mode)) { me->verrno = ENOTDIR; return NULL; } dir->st.st_nlink++; #if 0 if (dir->subdir == NULL) /* This can actually happen if we allow empty directories */ { me->verrno = EAGAIN; return NULL; } #endif info = g_new (struct dirhandle, 1); info->cur = g_queue_peek_head_link (dir->subdir); info->dir = dir; return info; } /* --------------------------------------------------------------------------------------------- */ static struct vfs_dirent * vfs_s_readdir (void *data) { struct vfs_dirent *dir = NULL; struct dirhandle *info = (struct dirhandle *) data; const char *name; if (info->cur == NULL || info->cur->data == NULL) return NULL; name = VFS_ENTRY (info->cur->data)->name; if (name != NULL) dir = vfs_dirent_init (NULL, name, 0); else vfs_die ("Null in structure-cannot happen"); info->cur = g_list_next (info->cur); return 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 (const vfs_path_t *vpath) { void *data; data = vfs_s_opendir (vpath); if (data == NULL) return (-1); vfs_s_closedir (data); return 0; } /* --------------------------------------------------------------------------------------------- */ /* --------------------------- stat and friends ---------------------------- */ static int vfs_s_internal_stat (const vfs_path_t *vpath, struct stat *buf, int flag) { struct vfs_s_inode *ino; ino = vfs_s_inode_from_path (vpath, flag); if (ino == NULL) return (-1); *buf = ino->st; return 0; } /* --------------------------------------------------------------------------------------------- */ static int vfs_s_readlink (const vfs_path_t *vpath, char *buf, size_t size) { struct vfs_s_inode *ino; size_t len; struct vfs_class *me; ino = vfs_s_inode_from_path (vpath, 0); if (ino == NULL) return (-1); me = VFS_CLASS (vfs_path_get_last_path_vfs (vpath)); if (!S_ISLNK (ino->st.st_mode)) { me->verrno = EINVAL; return (-1); } if (ino->linkname == NULL) { me->verrno = EFAULT; return (-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; } /* --------------------------------------------------------------------------------------------- */ static ssize_t vfs_s_read (void *fh, char *buffer, size_t count) { vfs_file_handler_t *file = VFS_FILE_HANDLER (fh); struct vfs_class *me = VFS_FILE_HANDLER_SUPER (fh)->me; if (file->linear == LS_LINEAR_PREOPEN) { if (VFS_SUBCLASS (me)->linear_start (me, file, file->pos) == 0) return (-1); } if (file->linear == LS_LINEAR_CLOSED) vfs_die ("linear_start() did not set linear_state!"); if (file->linear == LS_LINEAR_OPEN) return VFS_SUBCLASS (me)->linear_read (me, file, buffer, count); if (file->handle != -1) { ssize_t n; n = read (file->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, size_t count) { vfs_file_handler_t *file = VFS_FILE_HANDLER (fh); struct vfs_class *me = VFS_FILE_HANDLER_SUPER (fh)->me; if (file->linear != LS_NOT_LINEAR) vfs_die ("no writing to linear files, please"); file->changed = TRUE; if (file->handle != -1) { ssize_t n; n = write (file->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) { vfs_file_handler_t *file = VFS_FILE_HANDLER (fh); off_t size = file->ino->st.st_size; if (file->linear == LS_LINEAR_OPEN) vfs_die ("cannot lseek() after linear_read!"); if (file->handle != -1) { /* If we have local file opened, we want to work with it */ off_t retval; retval = lseek (file->handle, offset, whence); if (retval == -1) VFS_FILE_HANDLER_SUPER (fh)->me->verrno = errno; return retval; } switch (whence) { case SEEK_CUR: offset += file->pos; break; case SEEK_END: offset += size; break; default: break; } if (offset < 0) file->pos = 0; else if (offset < size) file->pos = offset; else file->pos = size; return file->pos; } /* --------------------------------------------------------------------------------------------- */ static int vfs_s_close (void *fh) { vfs_file_handler_t *file = VFS_FILE_HANDLER (fh); struct vfs_s_super *super = VFS_FILE_HANDLER_SUPER (fh); struct vfs_class *me = super->me; struct vfs_s_subclass *sub = VFS_SUBCLASS (me); int res = 0; if (me == NULL) return (-1); super->fd_usage--; if (super->fd_usage == 0) vfs_stamp_create (me, VFS_FILE_HANDLER_SUPER (fh)); if (file->linear == LS_LINEAR_OPEN) sub->linear_close (me, fh); if (sub->fh_close != NULL) res = sub->fh_close (me, fh); if ((me->flags & VFSF_USETMP) != 0 && file->changed && sub->file_store != NULL) { char *s; s = vfs_s_fullpath (me, file->ino); if (s == NULL) res = -1; else { res = sub->file_store (me, fh, s, file->ino->localname); g_free (s); } vfs_s_invalidate (me, super); } if (file->handle != -1) { close (file->handle); file->handle = -1; } vfs_s_free_inode (me, file->ino); vfs_s_free_fh (sub, 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) { if (need != 0) vfs_print_message (_("%s: %s: %s %3d%% (%lld) bytes transferred"), fs_name, action, file_name, (int) ((double) have * 100 / need), (long long) have); else vfs_print_message (_("%s: %s: %s %lld bytes transferred"), fs_name, action, file_name, (long long) have); } /* --------------------------------------------------------------------------------------------- */ /* ------------------------------- mc support ---------------------------- */ static void vfs_s_fill_names (struct vfs_class *me, fill_names_f func) { GList *iter; for (iter = VFS_SUBCLASS (me)->supers; iter != NULL; iter = g_list_next (iter)) { const struct vfs_s_super *super = (const struct vfs_s_super *) iter->data; char *name; name = g_strconcat (super->name, PATH_SEP_STR, me->prefix, VFS_PATH_URL_DELIMITER, /* super->current_dir->name, */ (char *) NULL); func (name); g_free (name); } } /* --------------------------------------------------------------------------------------------- */ 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 vfs_path_t * vfs_s_getlocalcopy (const vfs_path_t *vpath) { vfs_file_handler_t *fh; vfs_path_t *local = NULL; if (vpath == NULL) return NULL; fh = vfs_s_open (vpath, O_RDONLY, 0); if (fh != NULL) { const struct vfs_class *me; me = vfs_path_get_last_path_vfs (vpath); if ((me->flags & VFSF_USETMP) != 0 && fh->ino != NULL) local = vfs_path_from_str_flags (fh->ino->localname, VPF_NO_CANON); 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 (const vfs_path_t *vpath, const vfs_path_t *local, gboolean has_changed) { (void) vpath; (void) local; (void) has_changed; return 0; } /* --------------------------------------------------------------------------------------------- */ static int vfs_s_setctl (const vfs_path_t *vpath, int ctlop, void *arg) { struct vfs_class *me; me = VFS_CLASS (vfs_path_get_last_path_vfs (vpath)); switch (ctlop) { case VFS_SETCTL_STALE_DATA: { struct vfs_s_inode *ino; ino = vfs_s_inode_from_path (vpath, 0); if (ino == NULL) return 0; if (arg != NULL) ino->super->want_stale = TRUE; else { ino->super->want_stale = FALSE; vfs_s_invalidate (me, ino->super); } return 1; } case VFS_SETCTL_LOGFILE: me->logfile = fopen ((char *) arg, "w"); return 1; case VFS_SETCTL_FLUSH: me->flush = TRUE; return 1; default: return 0; } } /* --------------------------------------------------------------------------------------------- */ /* ----------------------------- Stamping support -------------------------- */ static vfsid vfs_s_getid (const vfs_path_t *vpath) { struct vfs_s_super *archive = NULL; const char *p; p = vfs_s_get_path (vpath, &archive, FL_NO_OPEN); if (p == NULL) return NULL; return (vfsid) archive; } /* --------------------------------------------------------------------------------------------- */ static gboolean vfs_s_nothingisopen (vfsid id) { return (VFS_SUPER (id)->fd_usage <= 0); } /* --------------------------------------------------------------------------------------------- */ static void vfs_s_free (vfsid id) { vfs_s_free_super (VFS_SUPER (id)->me, VFS_SUPER (id)); } /* --------------------------------------------------------------------------------------------- */ static gboolean vfs_s_dir_uptodate (struct vfs_class *me, struct vfs_s_inode *ino) { gint64 tim; if (me->flush) { me->flush = FALSE; return 0; } tim = g_get_monotonic_time (); return (tim < ino->timestamp); } /* --------------------------------------------------------------------------------------------- */ /*** public functions ****************************************************************************/ /* --------------------------------------------------------------------------------------------- */ 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_try_new0 (struct vfs_s_inode, 1); if (ino == NULL) return NULL; if (initstat != NULL) ino->st = *initstat; ino->super = super; ino->subdir = g_queue_new (); ino->st.st_nlink = 0; ino->st.st_ino = VFS_SUBCLASS (me)->inode_counter++; ino->st.st_dev = VFS_SUBCLASS (me)->rdev; super->ino_usage++; CALL (init_inode) (me, ino); return ino; } /* --------------------------------------------------------------------------------------------- */ void vfs_s_free_inode (struct vfs_class *me, struct vfs_s_inode *ino) { if (ino == NULL) vfs_die ("Don't pass NULL to me"); /* ==0 can happen if freshly created entry is deleted */ if (ino->st.st_nlink > 1) { ino->st.st_nlink--; return; } while (g_queue_get_length (ino->subdir) != 0) { struct vfs_s_entry *entry; entry = VFS_ENTRY (g_queue_peek_head (ino->subdir)); vfs_s_free_entry (me, entry); } g_queue_free (ino->subdir); ino->subdir = NULL; CALL (free_inode) (me, ino); g_free (ino->linkname); if ((me->flags & VFSF_USETMP) != 0 && ino->localname != NULL) { unlink (ino->localname); g_free (ino->localname); } ino->super->ino_usage--; g_free (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); entry->name = g_strdup (name); entry->ino = inode; entry->ino->ent = entry; CALL (init_entry) (me, entry); return entry; } /* --------------------------------------------------------------------------------------------- */ void vfs_s_free_entry (struct vfs_class *me, struct vfs_s_entry *ent) { if (ent->dir != NULL) g_queue_remove (ent->dir->subdir, ent); MC_PTR_FREE (ent->name); if (ent->ino != NULL) { ent->ino->ent = NULL; vfs_s_free_inode (me, ent->ino); } g_free (ent); } /* --------------------------------------------------------------------------------------------- */ void vfs_s_insert_entry (struct vfs_class *me, struct vfs_s_inode *dir, struct vfs_s_entry *ent) { (void) me; ent->dir = dir; ent->ino->st.st_nlink++; g_queue_push_tail (dir->subdir, ent); } /* --------------------------------------------------------------------------------------------- */ int vfs_s_entry_compare (const void *a, const void *b) { const struct vfs_s_entry *e = (const struct vfs_s_entry *) a; const char *name = (const char *) b; return strcmp (e->name, name); } /* --------------------------------------------------------------------------------------------- */ struct stat * vfs_s_default_stat (struct vfs_class *me, mode_t mode) { static struct stat st; mode_t myumask; (void) me; myumask = umask (022); umask (myumask); mode &= ~myumask; st.st_mode = mode; st.st_ino = 0; st.st_dev = 0; #ifdef HAVE_STRUCT_STAT_ST_RDEV st.st_rdev = 0; #endif st.st_uid = getuid (); st.st_gid = getgid (); #ifdef HAVE_STRUCT_STAT_ST_BLKSIZE st.st_blksize = 512; #endif st.st_size = 0; st.st_mtime = st.st_atime = st.st_ctime = time (NULL); #ifdef HAVE_STRUCT_STAT_ST_MTIM st.st_atim.tv_nsec = st.st_mtim.tv_nsec = st.st_ctim.tv_nsec = 0; #endif vfs_adjust_stat (&st); return &st; } /* --------------------------------------------------------------------------------------------- */ /** * Calculate number of st_blocks using st_size and st_blksize. * In according to stat(2), st_blocks is the size in 512-byte units. * * @param s stat info */ void vfs_adjust_stat (struct stat *s) { #ifdef HAVE_STRUCT_STAT_ST_BLOCKS if (s->st_size == 0) s->st_blocks = 0; else { #ifdef HAVE_STRUCT_STAT_ST_BLKSIZE blkcnt_t ioblocks; blksize_t ioblock_size; /* 1. Calculate how many IO blocks are occupied */ ioblocks = 1 + (s->st_size - 1) / s->st_blksize; /* 2. Calculate size of st_blksize in 512-byte units */ ioblock_size = 1 + (s->st_blksize - 1) / 512; /* 3. Calculate number of blocks */ s->st_blocks = ioblocks * ioblock_size; #else /* Let IO block size is 512 bytes */ s->st_blocks = 1 + (s->st_size - 1) / 512; #endif /* HAVE_STRUCT_STAT_ST_BLKSIZE */ } #endif /* HAVE_STRUCT_STAT_ST_BLOCKS */ } /* --------------------------------------------------------------------------------------------- */ 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); } /* --------------------------------------------------------------------------------------------- */ 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 (((me->flags & VFSF_REMOTE) == 0) && (*path == '\0')) return super->root; ent = VFS_SUBCLASS (me)->find_entry (me, super->root, path, follow, flags); return (ent != NULL ? ent->ino : NULL); } /* --------------------------------------------------------------------------------------------- */ /* Ook, these were functions around directory entries / inodes */ /* -------------------------------- superblock games -------------------------- */ /** * get superlock object by vpath * * @param vpath path * @return superlock object or NULL if not found */ struct vfs_s_super * vfs_get_super_by_vpath (const vfs_path_t *vpath) { GList *iter; void *cookie = NULL; const vfs_path_element_t *path_element; struct vfs_s_subclass *subclass; struct vfs_s_super *super = NULL; vfs_path_t *vpath_archive; path_element = vfs_path_get_by_index (vpath, -1); subclass = VFS_SUBCLASS (path_element->class); vpath_archive = vfs_path_clone (vpath); vfs_path_remove_element_by_index (vpath_archive, -1); if (subclass->archive_check != NULL) { cookie = subclass->archive_check (vpath_archive); if (cookie == NULL) goto ret; } if (subclass->archive_same == NULL) goto ret; for (iter = subclass->supers; iter != NULL; iter = g_list_next (iter)) { int i; super = VFS_SUPER (iter->data); /* 0 == other, 1 == same, return it, 2 == other but stop scanning */ i = subclass->archive_same (path_element, super, vpath_archive, cookie); if (i == 1) goto ret; if (i != 0) break; super = NULL; } ret: vfs_path_free (vpath_archive, TRUE); return super; } /* --------------------------------------------------------------------------------------------- */ /** * get path from last VFS-element and create corresponding superblock * * @param vpath source path object * @param archive pointer to object for store newly created superblock * @param flags flags * * @return path from last VFS-element */ const char * vfs_s_get_path (const vfs_path_t *vpath, struct vfs_s_super **archive, int flags) { const char *retval = ""; int result = -1; struct vfs_s_super *super; const vfs_path_element_t *path_element; struct vfs_s_subclass *subclass; path_element = vfs_path_get_by_index (vpath, -1); if (path_element->path != NULL) retval = path_element->path; super = vfs_get_super_by_vpath (vpath); if (super != NULL) goto return_success; if ((flags & FL_NO_OPEN) != 0) { path_element->class->verrno = EIO; return NULL; } subclass = VFS_SUBCLASS (path_element->class); super = subclass->new_archive != NULL ? subclass->new_archive (path_element->class) : vfs_s_new_super (path_element->class); if (subclass->open_archive != NULL) { vfs_path_t *vpath_archive; vpath_archive = vfs_path_clone (vpath); vfs_path_remove_element_by_index (vpath_archive, -1); result = subclass->open_archive (super, vpath_archive, path_element); vfs_path_free (vpath_archive, TRUE); } if (result == -1) { vfs_s_free_super (path_element->class, super); path_element->class->verrno = EIO; return NULL; } if (super->name == NULL) vfs_die ("You have to fill name\n"); if (super->root == NULL) vfs_die ("You have to fill root inode\n"); vfs_s_insert_super (path_element->class, super); vfs_stamp_create (path_element->class, super); return_success: *archive = super; 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 == NULL) ERRNOR (EAGAIN, NULL); if ((me->flags & VFSF_USETMP) == 0) { /* archives */ char *path; path = g_strdup (ino->ent->name); while (TRUE) { char *newpath; ino = ino->ent->dir; if (ino == ino->super->root) break; newpath = g_strconcat (ino->ent->name, PATH_SEP_STR, path, (char *) NULL); g_free (path); path = newpath; } return path; } /* remote systems */ if (ino->ent->dir == NULL || ino->ent->dir->ent == NULL) return g_strdup (ino->ent->name); return g_strconcat (ino->ent->dir->ent->name, PATH_SEP_STR, ino->ent->name, (char *) NULL); } /* --------------------------------------------------------------------------------------------- */ void vfs_s_init_fh (vfs_file_handler_t *fh, struct vfs_s_inode *ino, gboolean changed) { fh->ino = ino; fh->handle = -1; fh->changed = changed; fh->linear = LS_NOT_LINEAR; } /* --------------------------------------------------------------------------------------------- */ /* --------------------------- stat and friends ---------------------------- */ void * vfs_s_open (const vfs_path_t *vpath, int flags, mode_t mode) { gboolean was_changed = FALSE; vfs_file_handler_t *fh; struct vfs_s_super *super; const char *q; struct vfs_s_inode *ino; struct vfs_class *me; struct vfs_s_subclass *s; q = vfs_s_get_path (vpath, &super, 0); if (q == NULL) return NULL; me = VFS_CLASS (vfs_path_get_last_path_vfs (vpath)); ino = vfs_s_find_inode (me, super, q, LINK_FOLLOW, FL_NONE); if (ino != NULL && (flags & (O_CREAT | O_EXCL)) == (O_CREAT | O_EXCL)) { me->verrno = EEXIST; return NULL; } s = VFS_SUBCLASS (me); if (ino == NULL) { char *name; struct vfs_s_entry *ent; struct vfs_s_inode *dir; /* If the filesystem is read-only, disable file creation */ if ((flags & O_CREAT) == 0 || me->write == NULL) return NULL; name = g_path_get_dirname (q); dir = vfs_s_find_inode (me, super, name, LINK_FOLLOW, FL_DIR); g_free (name); if (dir == NULL) return NULL; name = g_path_get_basename (q); ent = vfs_s_generate_entry (me, name, dir, 0755); ino = ent->ino; vfs_s_insert_entry (me, dir, ent); if ((VFS_CLASS (s)->flags & VFSF_USETMP) != 0) { int tmp_handle; vfs_path_t *tmp_vpath; tmp_handle = vfs_mkstemps (&tmp_vpath, me->name, name); ino->localname = vfs_path_free (tmp_vpath, FALSE); if (tmp_handle == -1) { g_free (name); return NULL; } close (tmp_handle); } g_free (name); was_changed = TRUE; } if (S_ISDIR (ino->st.st_mode)) { me->verrno = EISDIR; return NULL; } fh = s->fh_new != NULL ? s->fh_new (ino, was_changed) : vfs_s_new_fh (ino, was_changed); if (IS_LINEAR (flags)) { if (s->linear_start != NULL) { vfs_print_message ("%s", _("Starting linear transfer...")); fh->linear = LS_LINEAR_PREOPEN; } } else { if (s->fh_open != NULL && s->fh_open (me, fh, flags, mode) != 0) { vfs_s_free_fh (s, fh); return NULL; } } if ((VFS_CLASS (s)->flags & VFSF_USETMP) != 0 && fh->ino->localname != NULL) { fh->handle = open (fh->ino->localname, NO_LINEAR (flags), mode); if (fh->handle == -1) { vfs_s_free_fh (s, fh); me->verrno = errno; return 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; } /* --------------------------------------------------------------------------------------------- */ int vfs_s_stat (const vfs_path_t *vpath, struct stat *buf) { return vfs_s_internal_stat (vpath, buf, FL_FOLLOW); } /* --------------------------------------------------------------------------------------------- */ int vfs_s_lstat (const vfs_path_t *vpath, struct stat *buf) { return vfs_s_internal_stat (vpath, buf, FL_NONE); } /* --------------------------------------------------------------------------------------------- */ int vfs_s_fstat (void *fh, struct stat *buf) { *buf = VFS_FILE_HANDLER (fh)->ino->st; return 0; } /* --------------------------------------------------------------------------------------------- */ 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[BUF_8K]; int handle; ssize_t n; off_t stat_size = ino->st.st_size; vfs_file_handler_t *fh = NULL; vfs_path_t *tmp_vpath; struct vfs_s_subclass *s = VFS_SUBCLASS (me); if ((me->flags & VFSF_USETMP) == 0) return (-1); handle = vfs_mkstemps (&tmp_vpath, me->name, ino->ent->name); ino->localname = vfs_path_free (tmp_vpath, FALSE); if (handle == -1) { me->verrno = errno; goto error_4; } fh = s->fh_new != NULL ? s->fh_new (ino, FALSE) : vfs_s_new_fh (ino, FALSE); if (s->linear_start (me, fh, 0) == 0) goto error_3; /* Clear the interrupt status */ tty_got_interrupt (); tty_enable_interrupt_key (); while ((n = s->linear_read (me, fh, buffer, sizeof (buffer))) != 0) { 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 (tty_got_interrupt ()) goto error_1; t = write (handle, buffer, n); if (t != n) { if (t == -1) me->verrno = errno; goto error_1; } } s->linear_close (me, fh); close (handle); tty_disable_interrupt_key (); vfs_s_free_fh (s, fh); return 0; error_1: s->linear_close (me, fh); error_3: tty_disable_interrupt_key (); close (handle); unlink (ino->localname); error_4: MC_PTR_FREE (ino->localname); if (fh != NULL) vfs_s_free_fh (s, fh); return (-1); } /* --------------------------------------------------------------------------------------------- */ /* ----------------------------- Stamping support -------------------------- */ /* Initialize one of our subclasses - fill common functions */ void vfs_init_class (struct vfs_class *vclass, const char *name, vfs_flags_t flags, const char *prefix) { memset (vclass, 0, sizeof (struct vfs_class)); vclass->name = name; vclass->flags = flags; vclass->prefix = prefix; vclass->fill_names = vfs_s_fill_names; vclass->open = vfs_s_open; vclass->close = vfs_s_close; vclass->read = vfs_s_read; if ((vclass->flags & VFSF_READONLY) == 0) 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; vclass->setctl = vfs_s_setctl; if ((vclass->flags & VFSF_USETMP) != 0) { vclass->getlocalcopy = vfs_s_getlocalcopy; vclass->ungetlocalcopy = vfs_s_ungetlocalcopy; } } /* --------------------------------------------------------------------------------------------- */ void vfs_init_subclass (struct vfs_s_subclass *sub, const char *name, vfs_flags_t flags, const char *prefix) { struct vfs_class *vclass = VFS_CLASS (sub); size_t len; char *start; vfs_init_class (vclass, name, flags, prefix); len = sizeof (struct vfs_s_subclass) - sizeof (struct vfs_class); start = (char *) sub + sizeof (struct vfs_class); memset (start, 0, len); if ((vclass->flags & VFSF_USETMP) != 0) sub->find_entry = vfs_s_find_entry_linear; else if ((vclass->flags & VFSF_REMOTE) != 0) sub->find_entry = vfs_s_find_entry_linear; else sub->find_entry = vfs_s_find_entry_tree; sub->dir_uptodate = vfs_s_dir_uptodate; } /* --------------------------------------------------------------------------------------------- */ /** Find VFS id for given directory name */ vfsid vfs_getid (const vfs_path_t *vpath) { const struct vfs_class *me; me = vfs_path_get_last_path_vfs (vpath); if (me == NULL || me->getid == NULL) return NULL; return me->getid (vpath); } /* --------------------------------------------------------------------------------------------- */ /* ----------- Utility functions for networked filesystems -------------- */ #ifdef ENABLE_VFS_NET int vfs_s_select_on_two (int fd1, int fd2) { fd_set set; struct timeval time_out; int v; int maxfd = MAX (fd1, fd2) + 1; time_out.tv_sec = 1; time_out.tv_usec = 0; FD_ZERO (&set); FD_SET (fd1, &set); FD_SET (fd2, &set); v = select (maxfd, &set, 0, 0, &time_out); 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 = me->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 != NULL) { size_t ret1; int ret2; ret1 = fwrite (buf, 1, 1, logfile); ret2 = fflush (logfile); (void) ret1; (void) ret2; } 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 != NULL) { size_t ret1; int ret2; ret1 = fwrite (&c, 1, 1, logfile); ret2 = fflush (logfile); (void) ret1; (void) ret2; } if (c == '\n') return 1; } return 0; } /* --------------------------------------------------------------------------------------------- */ int vfs_s_get_line_interruptible (struct vfs_class *me, char *buffer, int size, int fd) { int i; int res = 0; (void) me; tty_enable_interrupt_key (); for (i = 0; i < size - 1; i++) { ssize_t n; n = read (fd, &buffer[i], 1); if (n == -1 && errno == EINTR) { buffer[i] = '\0'; res = EINTR; goto ret; } if (n == 0) { buffer[i] = '\0'; goto ret; } if (buffer[i] == '\n') { buffer[i] = '\0'; res = 1; goto ret; } } buffer[size - 1] = '\0'; ret: tty_disable_interrupt_key (); return res; } #endif /* ENABLE_VFS_NET */ /* --------------------------------------------------------------------------------------------- */ /** * Normalize filenames start position */ void vfs_s_normalize_filename_leading_spaces (struct vfs_s_inode *root_inode, size_t final_num_spaces) { GList *iter; for (iter = g_queue_peek_head_link (root_inode->subdir); iter != NULL; iter = g_list_next (iter)) { struct vfs_s_entry *entry = VFS_ENTRY (iter->data); if ((size_t) entry->leading_spaces > final_num_spaces) { char *source_name, *spacer; source_name = entry->name; spacer = g_strnfill ((size_t) entry->leading_spaces - final_num_spaces, ' '); entry->name = g_strconcat (spacer, source_name, (char *) NULL); g_free (spacer); g_free (source_name); } entry->leading_spaces = -1; } } /* --------------------------------------------------------------------------------------------- */