/* Tree Store Contains a storage of the file system tree representation This module has been converted to be a widget. The program load and saves the tree each time the tree widget is created and destroyed. This is required for the future vfs layer, it will be possible to have tree views over virtual file systems. Copyright (C) 1999-2024 Free Software Foundation, Inc. Written by: Janne Kukonlehto, 1994, 1996 Norbert Warmuth, 1997 Miguel de Icaza, 1996, 1999 Slava Zanko , 2013 Andrew Borodin , 2013 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 . */ /** \file treestore.c * \brief Source: tree store * * Contains a storage of the file system tree representation. */ #include #include #include #include #include #include #include #include #include "lib/global.h" #include "lib/mcconfig.h" #include "lib/vfs/vfs.h" #include "lib/fileloc.h" #include "lib/strescape.h" #include "lib/hook.h" #include "lib/util.h" #include "src/setup.h" /* setup_init() */ #include "treestore.h" /*** global variables ****************************************************************************/ /*** file scope macro definitions ****************************************************************/ #define TREE_SIGNATURE "Midnight Commander TreeStore v 2.0" /*** file scope type declarations ****************************************************************/ /*** forward declarations (file scope functions) *************************************************/ static tree_entry *tree_store_add_entry (const vfs_path_t * name); /*** file scope variables ************************************************************************/ static struct TreeStore ts; static hook_t *remove_entry_hooks; /* --------------------------------------------------------------------------------------------- */ /*** file scope functions ************************************************************************/ /* --------------------------------------------------------------------------------------------- */ static inline void tree_store_dirty (gboolean dirty) { ts.dirty = dirty; } /* --------------------------------------------------------------------------------------------- */ /** * * @return the number of common bytes in the strings. */ static size_t str_common (const vfs_path_t * s1_vpath, const vfs_path_t * s2_vpath) { size_t result = 0; const char *s1, *s2; s1 = vfs_path_as_str (s1_vpath); s2 = vfs_path_as_str (s2_vpath); while (*s1 != '\0' && *s2 != '\0' && *s1++ == *s2++) result++; return result; } /* --------------------------------------------------------------------------------------------- */ /** The directory names are arranged in a single linked list in the same * order as they are displayed. When the tree is displayed the expected * order is like this: * / * /bin * /etc * /etc/X11 * /etc/rc.d * /etc.old/X11 * /etc.old/rc.d * /usr * * i.e. the required collating sequence when comparing two directory names is * '\0' < PATH_SEP < all-other-characters-in-encoding-order * * Since strcmp doesn't fulfil this requirement we use pathcmp when * inserting directory names into the list. The meaning of the return value * of pathcmp and strcmp are the same (an integer less than, equal to, or * greater than zero if p1 is found to be less than, to match, or be greater * than p2. */ static int pathcmp (const vfs_path_t * p1_vpath, const vfs_path_t * p2_vpath) { int ret_val; const char *p1, *p2; p1 = vfs_path_as_str (p1_vpath); p2 = vfs_path_as_str (p2_vpath); for (; *p1 == *p2; p1++, p2++) if (*p1 == '\0') return 0; if (*p1 == '\0') ret_val = -1; else if (*p2 == '\0') ret_val = 1; else if (IS_PATH_SEP (*p1)) ret_val = -1; else if (IS_PATH_SEP (*p2)) ret_val = 1; else ret_val = (*p1 - *p2); return ret_val; } /* --------------------------------------------------------------------------------------------- */ static char * decode (char *buffer) { char *res, *p, *q; res = g_strdup (buffer); for (p = q = res; *p != '\0'; p++, q++) { if (*p == '\n') { *q = '\0'; return res; } if (*p != '\\') { *q = *p; continue; } p++; switch (*p) { case 'n': *q = '\n'; break; case '\\': *q = '\\'; break; default: break; } } *q = *p; return res; } /* --------------------------------------------------------------------------------------------- */ /** Loads the tree store from the specified filename */ static int tree_store_load_from (const char *name) { FILE *file; char buffer[MC_MAXPATHLEN + 20]; g_return_val_if_fail (name != NULL, 0); if (ts.loaded) return 1; file = fopen (name, "r"); if (file != NULL && (fgets (buffer, sizeof (buffer), file) == NULL || strncmp (buffer, TREE_SIGNATURE, strlen (TREE_SIGNATURE)) != 0)) { fclose (file); file = NULL; } if (file != NULL) { char oldname[MC_MAXPATHLEN] = "\0"; ts.loaded = TRUE; /* File open -> read contents */ while (fgets (buffer, MC_MAXPATHLEN, file)) { tree_entry *e; gboolean scanned; char *lc_name; /* Skip invalid records */ if (buffer[0] != '0' && buffer[0] != '1') continue; if (buffer[1] != ':') continue; scanned = buffer[0] == '1'; lc_name = decode (buffer + 2); if (!IS_PATH_SEP (lc_name[0])) { /* Clear-text decompression */ char *s; s = strtok (lc_name, " "); if (s != NULL) { char *different; int common; common = atoi (s); different = strtok (NULL, ""); if (different != NULL) { vfs_path_t *vpath; vpath = vfs_path_from_str (oldname); g_strlcpy (oldname + common, different, sizeof (oldname) - (size_t) common); if (vfs_file_is_local (vpath)) { vfs_path_t *tmp_vpath; tmp_vpath = vfs_path_from_str (oldname); e = tree_store_add_entry (tmp_vpath); vfs_path_free (tmp_vpath, TRUE); e->scanned = scanned; } vfs_path_free (vpath, TRUE); } } } else { vfs_path_t *vpath; vpath = vfs_path_from_str (lc_name); if (vfs_file_is_local (vpath)) { e = tree_store_add_entry (vpath); e->scanned = scanned; } vfs_path_free (vpath, TRUE); g_strlcpy (oldname, lc_name, sizeof (oldname)); } g_free (lc_name); } fclose (file); } /* Nothing loaded, we add some standard directories */ if (!ts.tree_first) { vfs_path_t *tmp_vpath; tmp_vpath = vfs_path_from_str (PATH_SEP_STR); tree_store_add_entry (tmp_vpath); tree_store_rescan (tmp_vpath); vfs_path_free (tmp_vpath, TRUE); ts.loaded = TRUE; } return 1; } /* --------------------------------------------------------------------------------------------- */ static char * encode (const vfs_path_t * vpath, size_t offset) { return strutils_escape (vfs_path_as_str (vpath) + offset, -1, "\n\\", FALSE); } /* --------------------------------------------------------------------------------------------- */ /** Saves the tree to the specified filename */ static int tree_store_save_to (char *name) { tree_entry *current; FILE *file; file = fopen (name, "w"); if (file == NULL) return errno; fprintf (file, "%s\n", TREE_SIGNATURE); for (current = ts.tree_first; current != NULL; current = current->next) if (vfs_file_is_local (current->name)) { int i, common; /* Clear-text compression */ if (current->prev != NULL && (common = str_common (current->prev->name, current->name)) > 2) { char *encoded; encoded = encode (current->name, common); i = fprintf (file, "%d:%d %s\n", current->scanned ? 1 : 0, common, encoded); g_free (encoded); } else { char *encoded; encoded = encode (current->name, 0); i = fprintf (file, "%d:%s\n", current->scanned ? 1 : 0, encoded); g_free (encoded); } if (i == EOF) { fprintf (stderr, _("Cannot write to the %s file:\n%s\n"), name, unix_error_string (errno)); break; } } tree_store_dirty (FALSE); fclose (file); return 0; } /* --------------------------------------------------------------------------------------------- */ static tree_entry * tree_store_add_entry (const vfs_path_t * name) { int flag = -1; tree_entry *current; tree_entry *old = NULL; tree_entry *new; int submask = 0; if (ts.tree_last != NULL && ts.tree_last->next != NULL) abort (); /* Search for the correct place */ for (current = ts.tree_first; current != NULL && (flag = pathcmp (current->name, name)) < 0; current = current->next) old = current; if (flag == 0) return current; /* Already in the list */ /* Not in the list -> add it */ new = g_new0 (tree_entry, 1); if (current == NULL) { /* Append to the end of the list */ if (ts.tree_first == NULL) { /* Empty list */ ts.tree_first = new; new->prev = NULL; } else { if (old != NULL) old->next = new; new->prev = old; } new->next = NULL; ts.tree_last = new; } else { /* Insert in to the middle of the list */ new->prev = old; if (old != NULL) { /* Yes, in the middle */ new->next = old->next; old->next = new; } else { /* Nope, in the beginning of the list */ new->next = ts.tree_first; ts.tree_first = new; } new->next->prev = new; } /* Calculate attributes */ new->name = vfs_path_clone (name); new->sublevel = vfs_path_tokens_count (new->name); { const char *new_name; new_name = vfs_path_get_last_path_str (new->name); new->subname = strrchr (new_name, PATH_SEP); if (new->subname == NULL) new->subname = new_name; else new->subname++; } if (new->next != NULL) submask = new->next->submask; submask |= 1 << new->sublevel; submask &= (2 << new->sublevel) - 1; new->submask = submask; new->mark = FALSE; /* Correct the submasks of the previous entries */ for (current = new->prev; current != NULL && current->sublevel > new->sublevel; current = current->prev) current->submask |= 1 << new->sublevel; tree_store_dirty (TRUE); return new; } /* --------------------------------------------------------------------------------------------- */ static void tree_store_notify_remove (tree_entry * entry) { hook_t *p; for (p = remove_entry_hooks; p != NULL; p = p->next) { tree_store_remove_fn r = (tree_store_remove_fn) p->hook_fn; r (entry, p->hook_data); } } /* --------------------------------------------------------------------------------------------- */ static tree_entry * remove_entry (tree_entry * entry) { tree_entry *current = entry->prev; long submask = 0; tree_entry *ret = NULL; tree_store_notify_remove (entry); /* Correct the submasks of the previous entries */ if (entry->next != NULL) submask = entry->next->submask; for (; current != NULL && current->sublevel > entry->sublevel; current = current->prev) { submask |= 1 << current->sublevel; submask &= (2 << current->sublevel) - 1; current->submask = submask; } /* Unlink the entry from the list */ if (entry->prev != NULL) entry->prev->next = entry->next; else ts.tree_first = entry->next; if (entry->next != NULL) entry->next->prev = entry->prev; else ts.tree_last = entry->prev; /* Free the memory used by the entry */ vfs_path_free (entry->name, TRUE); g_free (entry); return ret; } /* --------------------------------------------------------------------------------------------- */ static void process_special_dirs (GList ** special_dirs, const char *file) { gchar **start_buff; mc_config_t *cfg; cfg = mc_config_init (file, TRUE); if (cfg == NULL) return; start_buff = mc_config_get_string_list (cfg, "Special dirs", "list", NULL); if (start_buff != NULL) { gchar **buffers; for (buffers = start_buff; *buffers != NULL; buffers++) { *special_dirs = g_list_prepend (*special_dirs, *buffers); *buffers = NULL; } g_strfreev (start_buff); } mc_config_deinit (cfg); } /* --------------------------------------------------------------------------------------------- */ static gboolean should_skip_directory (const vfs_path_t * vpath) { static GList *special_dirs = NULL; GList *l; static gboolean loaded = FALSE; gboolean ret = FALSE; if (!loaded) { const char *profile_name; profile_name = setup_init (); process_special_dirs (&special_dirs, profile_name); process_special_dirs (&special_dirs, mc_global.profile_name); loaded = TRUE; } for (l = special_dirs; l != NULL; l = g_list_next (l)) if (strncmp (vfs_path_as_str (vpath), l->data, strlen (l->data)) == 0) { ret = TRUE; break; } return ret; } /* --------------------------------------------------------------------------------------------- */ static void queue_vpath_free (gpointer data) { vfs_path_free ((vfs_path_t *) data, TRUE); } /* --------------------------------------------------------------------------------------------- */ /*** public functions ****************************************************************************/ /* --------------------------------------------------------------------------------------------- */ /* Searches for specified directory */ tree_entry * tree_store_whereis (const vfs_path_t * name) { tree_entry *current; int flag = -1; for (current = ts.tree_first; current != NULL && (flag = pathcmp (current->name, name)) < 0; current = current->next) ; return flag == 0 ? current : NULL; } /* --------------------------------------------------------------------------------------------- */ struct TreeStore * tree_store_get (void) { return &ts; } /* --------------------------------------------------------------------------------------------- */ /** * \fn int tree_store_load(void) * \brief Loads the tree from the default location * \return 1 if success (true), 0 otherwise (false) */ int tree_store_load (void) { char *name; int retval; name = mc_config_get_full_path (MC_TREESTORE_FILE); retval = tree_store_load_from (name); g_free (name); return retval; } /* --------------------------------------------------------------------------------------------- */ /** * \fn int tree_store_save(void) * \brief Saves the tree to the default file in an atomic fashion * \return 0 if success, errno on error */ int tree_store_save (void) { char *name; int retval; name = mc_config_get_full_path (MC_TREESTORE_FILE); mc_util_make_backup_if_possible (name, ".tmp"); retval = tree_store_save_to (name); if (retval != 0) mc_util_restore_from_backup_if_possible (name, ".tmp"); else mc_util_unlink_backup_if_possible (name, ".tmp"); g_free (name); return retval; } /* --------------------------------------------------------------------------------------------- */ void tree_store_add_entry_remove_hook (tree_store_remove_fn callback, void *data) { add_hook (&remove_entry_hooks, (void (*)(void *)) callback, data); } /* --------------------------------------------------------------------------------------------- */ void tree_store_remove_entry_remove_hook (tree_store_remove_fn callback) { delete_hook (&remove_entry_hooks, (void (*)(void *)) callback); } /* --------------------------------------------------------------------------------------------- */ void tree_store_remove_entry (const vfs_path_t * name_vpath) { tree_entry *current, *base; size_t len; g_return_if_fail (name_vpath != NULL); /* Miguel Ugly hack */ { gboolean is_root; const char *name_vpath_str; name_vpath_str = vfs_path_as_str (name_vpath); is_root = (IS_PATH_SEP (name_vpath_str[0]) && name_vpath_str[1] == '\0'); if (is_root) return; } /* Miguel Ugly hack end */ base = tree_store_whereis (name_vpath); if (base == NULL) return; /* Doesn't exist */ len = vfs_path_len (base->name); current = base->next; while (current != NULL && vfs_path_equal_len (current->name, base->name, len)) { gboolean ok; tree_entry *old; const char *cname; cname = vfs_path_as_str (current->name); ok = (cname[len] == '\0' || IS_PATH_SEP (cname[len])); if (!ok) break; old = current; current = current->next; remove_entry (old); } remove_entry (base); tree_store_dirty (TRUE); } /* --------------------------------------------------------------------------------------------- */ /** This subdirectory exists -> clear deletion mark */ void tree_store_mark_checked (const char *subname) { vfs_path_t *name; tree_entry *current, *base; int flag = 1; const char *cname; if (!ts.loaded) return; if (ts.check_name == NULL) return; /* Calculate the full name of the subdirectory */ if (DIR_IS_DOT (subname) || DIR_IS_DOTDOT (subname)) return; cname = vfs_path_as_str (ts.check_name); if (IS_PATH_SEP (cname[0]) && cname[1] == '\0') name = vfs_path_build_filename (PATH_SEP_STR, subname, (char *) NULL); else name = vfs_path_append_new (ts.check_name, subname, (char *) NULL); /* Search for the subdirectory */ for (current = ts.check_start; current != NULL && (flag = pathcmp (current->name, name)) < 0; current = current->next) ; if (flag != 0) { /* Doesn't exist -> add it */ current = tree_store_add_entry (name); ts.add_queue_vpath = g_list_prepend (ts.add_queue_vpath, name); } else vfs_path_free (name, TRUE); /* Clear the deletion mark from the subdirectory and its children */ base = current; if (base != NULL) { size_t len; len = vfs_path_len (base->name); base->mark = FALSE; for (current = base->next; current != NULL && vfs_path_equal_len (current->name, base->name, len); current = current->next) { gboolean ok; cname = vfs_path_as_str (current->name); ok = (cname[len] == '\0' || IS_PATH_SEP (cname[len]) || len == 1); if (!ok) break; current->mark = FALSE; } } } /* --------------------------------------------------------------------------------------------- */ /** Mark the subdirectories of the current directory for delete */ tree_entry * tree_store_start_check (const vfs_path_t * vpath) { tree_entry *current, *retval; size_t len; if (!ts.loaded) return NULL; g_return_val_if_fail (ts.check_name == NULL, NULL); ts.check_start = NULL; /* Search for the start of subdirectories */ current = tree_store_whereis (vpath); if (current == NULL) { struct stat s; if (mc_stat (vpath, &s) == -1 || !S_ISDIR (s.st_mode)) return NULL; current = tree_store_add_entry (vpath); ts.check_name = vfs_path_clone (vpath); return current; } ts.check_name = vfs_path_clone (vpath); retval = current; /* Mark old subdirectories for delete */ ts.check_start = current->next; len = vfs_path_len (ts.check_name); for (current = ts.check_start; current != NULL && vfs_path_equal_len (current->name, ts.check_name, len); current = current->next) { gboolean ok; const char *cname; cname = vfs_path_as_str (current->name); ok = (cname[len] == '\0' || IS_PATH_SEP (cname[len]) || len == 1); if (!ok) break; current->mark = TRUE; } return retval; } /* --------------------------------------------------------------------------------------------- */ /** Delete subdirectories which still have the deletion mark */ void tree_store_end_check (void) { tree_entry *current; size_t len; GList *the_queue; if (!ts.loaded) return; g_return_if_fail (ts.check_name != NULL); /* Check delete marks and delete if found */ len = vfs_path_len (ts.check_name); current = ts.check_start; while (current != NULL && vfs_path_equal_len (current->name, ts.check_name, len)) { gboolean ok; tree_entry *old; const char *cname; cname = vfs_path_as_str (current->name); ok = (cname[len] == '\0' || IS_PATH_SEP (cname[len]) || len == 1); if (!ok) break; old = current; current = current->next; if (old->mark) remove_entry (old); } /* get the stuff in the scan order */ the_queue = g_list_reverse (ts.add_queue_vpath); ts.add_queue_vpath = NULL; vfs_path_free (ts.check_name, TRUE); ts.check_name = NULL; g_list_free_full (the_queue, queue_vpath_free); } /* --------------------------------------------------------------------------------------------- */ tree_entry * tree_store_rescan (const vfs_path_t * vpath) { DIR *dirp; struct stat buf; tree_entry *entry; if (should_skip_directory (vpath)) { entry = tree_store_add_entry (vpath); entry->scanned = TRUE; return entry; } entry = tree_store_start_check (vpath); if (entry == NULL) return NULL; dirp = mc_opendir (vpath); if (dirp != NULL) { struct vfs_dirent *dp; for (dp = mc_readdir (dirp); dp != NULL; dp = mc_readdir (dirp)) if (!DIR_IS_DOT (dp->d_name) && !DIR_IS_DOTDOT (dp->d_name)) { vfs_path_t *tmp_vpath; tmp_vpath = vfs_path_append_new (vpath, dp->d_name, (char *) NULL); if (mc_lstat (tmp_vpath, &buf) != -1 && S_ISDIR (buf.st_mode)) tree_store_mark_checked (dp->d_name); vfs_path_free (tmp_vpath, TRUE); } mc_closedir (dirp); } tree_store_end_check (); entry->scanned = TRUE; return entry; } /* --------------------------------------------------------------------------------------------- */