/* * Copyright © 2010 Codethink Limited * Copyright © 2010 Novell, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the licence, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . * * Authors: Vincent Untz * Ryan Lortie */ #include "config.h" #include #include #include "gfile.h" #include "gfileinfo.h" #include "gfilemonitor.h" #include "gsimplepermission.h" #include "gsettingsbackend.h" #define G_TYPE_KEYFILE_SETTINGS_BACKEND (g_keyfile_settings_backend_get_type ()) #define G_KEYFILE_SETTINGS_BACKEND(inst) (G_TYPE_CHECK_INSTANCE_CAST ((inst), \ G_TYPE_KEYFILE_SETTINGS_BACKEND, \ GKeyfileSettingsBackend)) #define G_IS_KEYFILE_SETTINGS_BACKEND(inst) (G_TYPE_CHECK_INSTANCE_TYPE ((inst), \ G_TYPE_KEYFILE_SETTINGS_BACKEND)) typedef GSettingsBackendClass GKeyfileSettingsBackendClass; typedef struct { GSettingsBackend parent_instance; GKeyFile *keyfile; GPermission *permission; gboolean writable; gchar *prefix; gint prefix_len; gchar *root_group; gint root_group_len; GFile *file; GFileMonitor *file_monitor; guint8 digest[32]; GFile *dir; GFileMonitor *dir_monitor; } GKeyfileSettingsBackend; static GType g_keyfile_settings_backend_get_type (void); G_DEFINE_TYPE (GKeyfileSettingsBackend, g_keyfile_settings_backend, G_TYPE_SETTINGS_BACKEND) static void compute_checksum (guint8 *digest, gconstpointer contents, gsize length) { GChecksum *checksum; gsize len = 32; checksum = g_checksum_new (G_CHECKSUM_SHA256); g_checksum_update (checksum, contents, length); g_checksum_get_digest (checksum, digest, &len); g_checksum_free (checksum); g_assert (len == 32); } static void g_keyfile_settings_backend_keyfile_write (GKeyfileSettingsBackend *kfsb) { gchar *contents; gsize length; contents = g_key_file_to_data (kfsb->keyfile, &length, NULL); g_file_replace_contents (kfsb->file, contents, length, NULL, FALSE, G_FILE_CREATE_REPLACE_DESTINATION, NULL, NULL, NULL); compute_checksum (kfsb->digest, contents, length); g_free (contents); } static gboolean group_name_matches (const gchar *group_name, const gchar *prefix) { /* sort of like g_str_has_prefix() except that it must be an exact * match or the prefix followed by '/'. * * for example 'a' is a prefix of 'a' and 'a/b' but not 'ab'. */ gint i; for (i = 0; prefix[i]; i++) if (prefix[i] != group_name[i]) return FALSE; return group_name[i] == '\0' || group_name[i] == '/'; } static gboolean convert_path (GKeyfileSettingsBackend *kfsb, const gchar *key, gchar **group, gchar **basename) { gint key_len = strlen (key); gint i; if (key_len < kfsb->prefix_len || memcmp (key, kfsb->prefix, kfsb->prefix_len) != 0) return FALSE; key_len -= kfsb->prefix_len; key += kfsb->prefix_len; for (i = key_len; i >= 0; i--) if (key[i] == '/') break; if (kfsb->root_group) { /* if a root_group was specified, make sure the user hasn't given * a path that ghosts that group name */ if (i == kfsb->root_group_len && memcmp (key, kfsb->root_group, i) == 0) return FALSE; } else { /* if no root_group was given, ensure that the user gave a path */ if (i == -1) return FALSE; } if (group) { if (i >= 0) { *group = g_memdup (key, i + 1); (*group)[i] = '\0'; } else *group = g_strdup (kfsb->root_group); } if (basename) *basename = g_memdup (key + i + 1, key_len - i); return TRUE; } static gboolean path_is_valid (GKeyfileSettingsBackend *kfsb, const gchar *path) { return convert_path (kfsb, path, NULL, NULL); } static GVariant * get_from_keyfile (GKeyfileSettingsBackend *kfsb, const GVariantType *type, const gchar *key) { GVariant *return_value = NULL; gchar *group, *name; if (convert_path (kfsb, key, &group, &name)) { gchar *str; g_assert (*name); str = g_key_file_get_value (kfsb->keyfile, group, name, NULL); if (str) { return_value = g_variant_parse (type, str, NULL, NULL, NULL); g_free (str); } g_free (group); g_free (name); } return return_value; } static gboolean set_to_keyfile (GKeyfileSettingsBackend *kfsb, const gchar *key, GVariant *value) { gchar *group, *name; if (convert_path (kfsb, key, &group, &name)) { if (value) { gchar *str = g_variant_print (value, FALSE); g_key_file_set_value (kfsb->keyfile, group, name, str); g_variant_unref (g_variant_ref_sink (value)); g_free (str); } else { if (*name == '\0') { gchar **groups; gint i; groups = g_key_file_get_groups (kfsb->keyfile, NULL); for (i = 0; groups[i]; i++) if (group_name_matches (groups[i], group)) g_key_file_remove_group (kfsb->keyfile, groups[i], NULL); g_strfreev (groups); } else g_key_file_remove_key (kfsb->keyfile, group, name, NULL); } g_free (group); g_free (name); return TRUE; } return FALSE; } static GVariant * g_keyfile_settings_backend_read (GSettingsBackend *backend, const gchar *key, const GVariantType *expected_type, gboolean default_value) { GKeyfileSettingsBackend *kfsb = G_KEYFILE_SETTINGS_BACKEND (backend); if (default_value) return NULL; return get_from_keyfile (kfsb, expected_type, key); } typedef struct { GKeyfileSettingsBackend *kfsb; gboolean failed; } WriteManyData; static gboolean g_keyfile_settings_backend_write_one (gpointer key, gpointer value, gpointer user_data) { WriteManyData *data = user_data; gboolean success; success = set_to_keyfile (data->kfsb, key, value); g_assert (success); return FALSE; } static gboolean g_keyfile_settings_backend_check_one (gpointer key, gpointer value, gpointer user_data) { WriteManyData *data = user_data; return data->failed = !path_is_valid (data->kfsb, key); } static gboolean g_keyfile_settings_backend_write_tree (GSettingsBackend *backend, GTree *tree, gpointer origin_tag) { WriteManyData data = { G_KEYFILE_SETTINGS_BACKEND (backend) }; if (!data.kfsb->writable) return FALSE; g_tree_foreach (tree, g_keyfile_settings_backend_check_one, &data); if (data.failed) return FALSE; g_tree_foreach (tree, g_keyfile_settings_backend_write_one, &data); g_keyfile_settings_backend_keyfile_write (data.kfsb); g_settings_backend_changed_tree (backend, tree, origin_tag); return TRUE; } static gboolean g_keyfile_settings_backend_write (GSettingsBackend *backend, const gchar *key, GVariant *value, gpointer origin_tag) { GKeyfileSettingsBackend *kfsb = G_KEYFILE_SETTINGS_BACKEND (backend); gboolean success; if (!kfsb->writable) return FALSE; success = set_to_keyfile (kfsb, key, value); if (success) { g_settings_backend_changed (backend, key, origin_tag); g_keyfile_settings_backend_keyfile_write (kfsb); } return success; } static void g_keyfile_settings_backend_reset (GSettingsBackend *backend, const gchar *key, gpointer origin_tag) { GKeyfileSettingsBackend *kfsb = G_KEYFILE_SETTINGS_BACKEND (backend); if (set_to_keyfile (kfsb, key, NULL)) g_keyfile_settings_backend_keyfile_write (kfsb); g_settings_backend_changed (backend, key, origin_tag); } static gboolean g_keyfile_settings_backend_get_writable (GSettingsBackend *backend, const gchar *name) { GKeyfileSettingsBackend *kfsb = G_KEYFILE_SETTINGS_BACKEND (backend); return kfsb->writable && path_is_valid (kfsb, name); } static GPermission * g_keyfile_settings_backend_get_permission (GSettingsBackend *backend, const gchar *path) { GKeyfileSettingsBackend *kfsb = G_KEYFILE_SETTINGS_BACKEND (backend); return g_object_ref (kfsb->permission); } static void keyfile_to_tree (GKeyfileSettingsBackend *kfsb, GTree *tree, GKeyFile *keyfile, gboolean dup_check) { gchar **groups; gint i; groups = g_key_file_get_groups (keyfile, NULL); for (i = 0; groups[i]; i++) { gboolean is_root_group; gchar **keys; gint j; is_root_group = g_strcmp0 (kfsb->root_group, groups[i]) == 0; /* reject group names that will form invalid key names */ if (!is_root_group && (g_str_has_prefix (groups[i], "/") || g_str_has_suffix (groups[i], "/") || strstr (groups[i], "//"))) continue; keys = g_key_file_get_keys (keyfile, groups[i], NULL, NULL); g_assert (keys != NULL); for (j = 0; keys[j]; j++) { gchar *path, *value; /* reject key names with slashes in them */ if (strchr (keys[j], '/')) continue; if (is_root_group) path = g_strdup_printf ("%s%s", kfsb->prefix, keys[j]); else path = g_strdup_printf ("%s%s/%s", kfsb->prefix, groups[i], keys[j]); value = g_key_file_get_value (keyfile, groups[i], keys[j], NULL); if (dup_check && g_strcmp0 (g_tree_lookup (tree, path), value) == 0) { g_tree_remove (tree, path); g_free (value); g_free (path); } else g_tree_insert (tree, path, value); } g_strfreev (keys); } g_strfreev (groups); } static void g_keyfile_settings_backend_keyfile_reload (GKeyfileSettingsBackend *kfsb) { guint8 digest[32]; gchar *contents; gsize length; contents = NULL; length = 0; g_file_load_contents (kfsb->file, NULL, &contents, &length, NULL, NULL); compute_checksum (digest, contents, length); if (memcmp (kfsb->digest, digest, sizeof digest) != 0) { GKeyFile *keyfiles[2]; GTree *tree; tree = g_tree_new_full ((GCompareDataFunc) strcmp, NULL, g_free, g_free); keyfiles[0] = kfsb->keyfile; keyfiles[1] = g_key_file_new (); if (length > 0) g_key_file_load_from_data (keyfiles[1], contents, length, G_KEY_FILE_KEEP_COMMENTS | G_KEY_FILE_KEEP_TRANSLATIONS, NULL); keyfile_to_tree (kfsb, tree, keyfiles[0], FALSE); keyfile_to_tree (kfsb, tree, keyfiles[1], TRUE); g_key_file_free (keyfiles[0]); kfsb->keyfile = keyfiles[1]; if (g_tree_nnodes (tree) > 0) g_settings_backend_changed_tree (&kfsb->parent_instance, tree, NULL); g_tree_unref (tree); memcpy (kfsb->digest, digest, sizeof digest); } g_free (contents); } static void g_keyfile_settings_backend_keyfile_writable (GKeyfileSettingsBackend *kfsb) { GFileInfo *fileinfo; gboolean writable; fileinfo = g_file_query_info (kfsb->dir, "access::*", 0, NULL, NULL); if (fileinfo) { writable = g_file_info_get_attribute_boolean (fileinfo, G_FILE_ATTRIBUTE_ACCESS_CAN_WRITE) && g_file_info_get_attribute_boolean (fileinfo, G_FILE_ATTRIBUTE_ACCESS_CAN_EXECUTE); g_object_unref (fileinfo); } else writable = FALSE; if (writable != kfsb->writable) { kfsb->writable = writable; g_settings_backend_path_writable_changed (&kfsb->parent_instance, "/"); } } static void g_keyfile_settings_backend_finalize (GObject *object) { GKeyfileSettingsBackend *kfsb = G_KEYFILE_SETTINGS_BACKEND (object); g_key_file_free (kfsb->keyfile); g_object_unref (kfsb->permission); g_file_monitor_cancel (kfsb->file_monitor); g_object_unref (kfsb->file_monitor); g_object_unref (kfsb->file); g_file_monitor_cancel (kfsb->dir_monitor); g_object_unref (kfsb->dir_monitor); g_object_unref (kfsb->dir); g_free (kfsb->root_group); g_free (kfsb->prefix); G_OBJECT_CLASS (g_keyfile_settings_backend_parent_class) ->finalize (object); } static void g_keyfile_settings_backend_init (GKeyfileSettingsBackend *kfsb) { } static void g_keyfile_settings_backend_class_init (GKeyfileSettingsBackendClass *class) { GObjectClass *object_class = G_OBJECT_CLASS (class); object_class->finalize = g_keyfile_settings_backend_finalize; class->read = g_keyfile_settings_backend_read; class->write = g_keyfile_settings_backend_write; class->write_tree = g_keyfile_settings_backend_write_tree; class->reset = g_keyfile_settings_backend_reset; class->get_writable = g_keyfile_settings_backend_get_writable; class->get_permission = g_keyfile_settings_backend_get_permission; /* No need to implement subscribed/unsubscribe: the only point would be to * stop monitoring the file when there's no GSettings anymore, which is no * big win. */ } static void file_changed (GFileMonitor *monitor, GFile *file, GFile *other_file, GFileMonitorEvent event_type, gpointer user_data) { GKeyfileSettingsBackend *kfsb = user_data; /* Ignore file deletions, let the GKeyFile content remain in tact. */ if (event_type != G_FILE_MONITOR_EVENT_DELETED) g_keyfile_settings_backend_keyfile_reload (kfsb); } static void dir_changed (GFileMonitor *monitor, GFile *file, GFile *other_file, GFileMonitorEvent event_type, gpointer user_data) { GKeyfileSettingsBackend *kfsb = user_data; g_keyfile_settings_backend_keyfile_writable (kfsb); } /** * g_keyfile_settings_backend_new: * @filename: the filename of the keyfile * @root_path: the path under which all settings keys appear * @root_group: (nullable): the group name corresponding to * @root_path, or %NULL * * Creates a keyfile-backed #GSettingsBackend. * * The filename of the keyfile to use is given by @filename. * * All settings read to or written from the backend must fall under the * path given in @root_path (which must start and end with a slash and * not contain two consecutive slashes). @root_path may be "/". * * If @root_group is non-%NULL then it specifies the name of the keyfile * group used for keys that are written directly below @root_path. For * example, if @root_path is "/apps/example/" and @root_group is * "toplevel", then settings the key "/apps/example/enabled" to a value * of %TRUE will cause the following to appear in the keyfile: * * |[ * [toplevel] * enabled=true * ]| * * If @root_group is %NULL then it is not permitted to store keys * directly below the @root_path. * * For keys not stored directly below @root_path (ie: in a sub-path), * the name of the subpath (with the final slash stripped) is used as * the name of the keyfile group. To continue the example, if * "/apps/example/profiles/default/font-size" were set to * 12 then the following would appear in the keyfile: * * |[ * [profiles/default] * font-size=12 * ]| * * The backend will refuse writes (and return writability as being * %FALSE) for keys outside of @root_path and, in the event that * @root_group is %NULL, also for keys directly under @root_path. * Writes will also be refused if the backend detects that it has the * inability to rewrite the keyfile (ie: the containing directory is not * writable). * * There is no checking done for your key namespace clashing with the * syntax of the key file format. For example, if you have '[' or ']' * characters in your path names or '=' in your key names you may be in * trouble. * * Returns: (transfer full): a keyfile-backed #GSettingsBackend **/ GSettingsBackend * g_keyfile_settings_backend_new (const gchar *filename, const gchar *root_path, const gchar *root_group) { GKeyfileSettingsBackend *kfsb; g_return_val_if_fail (filename != NULL, NULL); g_return_val_if_fail (root_path != NULL, NULL); g_return_val_if_fail (g_str_has_prefix (root_path, "/"), NULL); g_return_val_if_fail (g_str_has_suffix (root_path, "/"), NULL); g_return_val_if_fail (strstr (root_path, "//") == NULL, NULL); kfsb = g_object_new (G_TYPE_KEYFILE_SETTINGS_BACKEND, NULL); kfsb->keyfile = g_key_file_new (); kfsb->permission = g_simple_permission_new (TRUE); kfsb->file = g_file_new_for_path (filename); kfsb->dir = g_file_get_parent (kfsb->file); g_file_make_directory_with_parents (kfsb->dir, NULL, NULL); kfsb->file_monitor = g_file_monitor (kfsb->file, 0, NULL, NULL); kfsb->dir_monitor = g_file_monitor (kfsb->dir, 0, NULL, NULL); kfsb->prefix_len = strlen (root_path); kfsb->prefix = g_strdup (root_path); if (root_group) { kfsb->root_group_len = strlen (root_group); kfsb->root_group = g_strdup (root_group); } compute_checksum (kfsb->digest, NULL, 0); g_signal_connect (kfsb->file_monitor, "changed", G_CALLBACK (file_changed), kfsb); g_signal_connect (kfsb->dir_monitor, "changed", G_CALLBACK (dir_changed), kfsb); g_keyfile_settings_backend_keyfile_writable (kfsb); g_keyfile_settings_backend_keyfile_reload (kfsb); return G_SETTINGS_BACKEND (kfsb); }