/* * Copyright © 2010 Codethink Limited * Copyright © 2011 Canonical Limited * * 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 2.1 of the License, 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 . */ #include "config.h" #include "gsettingsschema-internal.h" #include "gsettings.h" #include "gvdb/gvdb-reader.h" #include "strinfo.c" #include #include #include /** * SECTION:gsettingsschema * @short_description: Introspecting and controlling the loading * of GSettings schemas * @include: gio/gio.h * * The #GSettingsSchemaSource and #GSettingsSchema APIs provide a * mechanism for advanced control over the loading of schemas and a * mechanism for introspecting their content. * * Plugin loading systems that wish to provide plugins a way to access * settings face the problem of how to make the schemas for these * settings visible to GSettings. Typically, a plugin will want to ship * the schema along with itself and it won't be installed into the * standard system directories for schemas. * * #GSettingsSchemaSource provides a mechanism for dealing with this by * allowing the creation of a new 'schema source' from which schemas can * be acquired. This schema source can then become part of the metadata * associated with the plugin and queried whenever the plugin requires * access to some settings. * * Consider the following example: * * |[ * typedef struct * { * ... * GSettingsSchemaSource *schema_source; * ... * } Plugin; * * Plugin * * initialise_plugin (const gchar *dir) * { * Plugin *plugin; * * ... * * plugin->schema_source = * g_settings_new_schema_source_from_directory (dir, * g_settings_schema_source_get_default (), FALSE, NULL); * * ... * * return plugin; * } * * ... * * GSettings * * plugin_get_settings (Plugin *plugin, * const gchar *schema_id) * { * GSettingsSchema *schema; * * if (schema_id == NULL) * schema_id = plugin->identifier; * * schema = g_settings_schema_source_lookup (plugin->schema_source, * schema_id, FALSE); * * if (schema == NULL) * { * ... disable the plugin or abort, etc ... * } * * return g_settings_new_full (schema, NULL, NULL); * } * ]| * * The code above shows how hooks should be added to the code that * initialises (or enables) the plugin to create the schema source and * how an API can be added to the plugin system to provide a convenient * way for the plugin to access its settings, using the schemas that it * ships. * * From the standpoint of the plugin, it would need to ensure that it * ships a gschemas.compiled file as part of itself, and then simply do * the following: * * |[ * { * GSettings *settings; * gint some_value; * * settings = plugin_get_settings (self, NULL); * some_value = g_settings_get_int (settings, "some-value"); * ... * } * ]| * * It's also possible that the plugin system expects the schema source * files (ie: .gschema.xml files) instead of a gschemas.compiled file. * In that case, the plugin loading system must compile the schemas for * itself before attempting to create the settings source. * * Since: 2.32 **/ /** * GSettingsSchemaKey: * * #GSettingsSchemaKey is an opaque data structure and can only be accessed * using the following functions. **/ /** * GSettingsSchema: * * This is an opaque structure type. You may not access it directly. * * Since: 2.32 **/ struct _GSettingsSchema { GSettingsSchemaSource *source; const gchar *gettext_domain; const gchar *path; GQuark *items; gint n_items; GvdbTable *table; gchar *id; GSettingsSchema *extends; gint ref_count; }; /** * G_TYPE_SETTINGS_SCHEMA_SOURCE: * * A boxed #GType corresponding to #GSettingsSchemaSource. * * Since: 2.32 **/ G_DEFINE_BOXED_TYPE (GSettingsSchemaSource, g_settings_schema_source, g_settings_schema_source_ref, g_settings_schema_source_unref) /** * G_TYPE_SETTINGS_SCHEMA: * * A boxed #GType corresponding to #GSettingsSchema. * * Since: 2.32 **/ G_DEFINE_BOXED_TYPE (GSettingsSchema, g_settings_schema, g_settings_schema_ref, g_settings_schema_unref) /** * GSettingsSchemaSource: * * This is an opaque structure type. You may not access it directly. * * Since: 2.32 **/ struct _GSettingsSchemaSource { GSettingsSchemaSource *parent; gchar *directory; GvdbTable *table; GHashTable **text_tables; gint ref_count; }; static GSettingsSchemaSource *schema_sources; /** * g_settings_schema_source_ref: * @source: a #GSettingsSchemaSource * * Increase the reference count of @source, returning a new reference. * * Returns: a new reference to @source * * Since: 2.32 **/ GSettingsSchemaSource * g_settings_schema_source_ref (GSettingsSchemaSource *source) { g_atomic_int_inc (&source->ref_count); return source; } /** * g_settings_schema_source_unref: * @source: a #GSettingsSchemaSource * * Decrease the reference count of @source, possibly freeing it. * * Since: 2.32 **/ void g_settings_schema_source_unref (GSettingsSchemaSource *source) { if (g_atomic_int_dec_and_test (&source->ref_count)) { if (source == schema_sources) g_error ("g_settings_schema_source_unref() called too many times on the default schema source"); if (source->parent) g_settings_schema_source_unref (source->parent); gvdb_table_unref (source->table); g_free (source->directory); if (source->text_tables) { g_hash_table_unref (source->text_tables[0]); g_hash_table_unref (source->text_tables[1]); g_free (source->text_tables); } g_slice_free (GSettingsSchemaSource, source); } } /** * g_settings_schema_source_new_from_directory: * @directory: (type filename): the filename of a directory * @parent: (nullable): a #GSettingsSchemaSource, or %NULL * @trusted: %TRUE, if the directory is trusted * @error: a pointer to a #GError pointer set to %NULL, or %NULL * * Attempts to create a new schema source corresponding to the contents * of the given directory. * * This function is not required for normal uses of #GSettings but it * may be useful to authors of plugin management systems. * * The directory should contain a file called `gschemas.compiled` as * produced by the [glib-compile-schemas][glib-compile-schemas] tool. * * If @trusted is %TRUE then `gschemas.compiled` is trusted not to be * corrupted. This assumption has a performance advantage, but can result * in crashes or inconsistent behaviour in the case of a corrupted file. * Generally, you should set @trusted to %TRUE for files installed by the * system and to %FALSE for files in the home directory. * * If @parent is non-%NULL then there are two effects. * * First, if g_settings_schema_source_lookup() is called with the * @recursive flag set to %TRUE and the schema can not be found in the * source, the lookup will recurse to the parent. * * Second, any references to other schemas specified within this * source (ie: `child` or `extends`) references may be resolved * from the @parent. * * For this second reason, except in very unusual situations, the * @parent should probably be given as the default schema source, as * returned by g_settings_schema_source_get_default(). * * Since: 2.32 **/ GSettingsSchemaSource * g_settings_schema_source_new_from_directory (const gchar *directory, GSettingsSchemaSource *parent, gboolean trusted, GError **error) { GSettingsSchemaSource *source; GvdbTable *table; gchar *filename; filename = g_build_filename (directory, "gschemas.compiled", NULL); table = gvdb_table_new (filename, trusted, error); g_free (filename); if (table == NULL) return NULL; source = g_slice_new (GSettingsSchemaSource); source->directory = g_strdup (directory); source->parent = parent ? g_settings_schema_source_ref (parent) : NULL; source->text_tables = NULL; source->table = table; source->ref_count = 1; return source; } static void try_prepend_dir (const gchar *directory) { GSettingsSchemaSource *source; source = g_settings_schema_source_new_from_directory (directory, schema_sources, TRUE, NULL); /* If we successfully created it then prepend it to the global list */ if (source != NULL) schema_sources = source; } static void try_prepend_data_dir (const gchar *directory) { const gchar *dirname = g_build_filename (directory, "glib-2.0", "schemas", NULL); try_prepend_dir (dirname); g_free (dirname); } static void initialise_schema_sources (void) { static gsize initialised; /* need a separate variable because 'schema_sources' may legitimately * be null if we have zero valid schema sources */ if G_UNLIKELY (g_once_init_enter (&initialised)) { const gchar * const *dirs; const gchar *path; gint i; /* iterate in reverse: count up, then count down */ dirs = g_get_system_data_dirs (); for (i = 0; dirs[i]; i++); while (i--) try_prepend_data_dir (dirs[i]); try_prepend_data_dir (g_get_user_data_dir ()); if ((path = g_getenv ("GSETTINGS_SCHEMA_DIR")) != NULL) try_prepend_dir (path); g_once_init_leave (&initialised, TRUE); } } /** * g_settings_schema_source_get_default: * * Gets the default system schema source. * * This function is not required for normal uses of #GSettings but it * may be useful to authors of plugin management systems or to those who * want to introspect the content of schemas. * * If no schemas are installed, %NULL will be returned. * * The returned source may actually consist of multiple schema sources * from different directories, depending on which directories were given * in `XDG_DATA_DIRS` and `GSETTINGS_SCHEMA_DIR`. For this reason, all * lookups performed against the default source should probably be done * recursively. * * Returns: (transfer none): the default schema source * * Since: 2.32 **/ GSettingsSchemaSource * g_settings_schema_source_get_default (void) { initialise_schema_sources (); return schema_sources; } /** * g_settings_schema_source_lookup: * @source: a #GSettingsSchemaSource * @schema_id: a schema ID * @recursive: %TRUE if the lookup should be recursive * * Looks up a schema with the identifier @schema_id in @source. * * This function is not required for normal uses of #GSettings but it * may be useful to authors of plugin management systems or to those who * want to introspect the content of schemas. * * If the schema isn't found directly in @source and @recursive is %TRUE * then the parent sources will also be checked. * * If the schema isn't found, %NULL is returned. * * Returns: (nullable) (transfer full): a new #GSettingsSchema * * Since: 2.32 **/ GSettingsSchema * g_settings_schema_source_lookup (GSettingsSchemaSource *source, const gchar *schema_id, gboolean recursive) { GSettingsSchema *schema; GvdbTable *table; const gchar *extends; g_return_val_if_fail (source != NULL, NULL); g_return_val_if_fail (schema_id != NULL, NULL); table = gvdb_table_get_table (source->table, schema_id); if (table == NULL && recursive) for (source = source->parent; source; source = source->parent) if ((table = gvdb_table_get_table (source->table, schema_id))) break; if (table == NULL) return NULL; schema = g_slice_new0 (GSettingsSchema); schema->source = g_settings_schema_source_ref (source); schema->ref_count = 1; schema->id = g_strdup (schema_id); schema->table = table; schema->path = g_settings_schema_get_string (schema, ".path"); schema->gettext_domain = g_settings_schema_get_string (schema, ".gettext-domain"); if (schema->gettext_domain) bind_textdomain_codeset (schema->gettext_domain, "UTF-8"); extends = g_settings_schema_get_string (schema, ".extends"); if (extends) { schema->extends = g_settings_schema_source_lookup (source, extends, TRUE); if (schema->extends == NULL) g_warning ("Schema '%s' extends schema '%s' but we could not find it", schema_id, extends); } return schema; } typedef struct { GHashTable *summaries; GHashTable *descriptions; GSList *gettext_domain; GSList *schema_id; GSList *key_name; GString *string; } TextTableParseInfo; static const gchar * get_attribute_value (GSList *list) { GSList *node; for (node = list; node; node = node->next) if (node->data) return node->data; return NULL; } static void pop_attribute_value (GSList **list) { gchar *top; top = (*list)->data; *list = g_slist_remove (*list, top); g_free (top); } static void push_attribute_value (GSList **list, const gchar *value) { *list = g_slist_prepend (*list, g_strdup (value)); } static void start_element (GMarkupParseContext *context, const gchar *element_name, const gchar **attribute_names, const gchar **attribute_values, gpointer user_data, GError **error) { TextTableParseInfo *info = user_data; const gchar *gettext_domain = NULL; const gchar *schema_id = NULL; const gchar *key_name = NULL; gint i; for (i = 0; attribute_names[i]; i++) { if (g_str_equal (attribute_names[i], "gettext-domain")) gettext_domain = attribute_values[i]; else if (g_str_equal (attribute_names[i], "id")) schema_id = attribute_values[i]; else if (g_str_equal (attribute_names[i], "name")) key_name = attribute_values[i]; } push_attribute_value (&info->gettext_domain, gettext_domain); push_attribute_value (&info->schema_id, schema_id); push_attribute_value (&info->key_name, key_name); if (info->string) { g_string_free (info->string, TRUE); info->string = NULL; } if (g_str_equal (element_name, "summary") || g_str_equal (element_name, "description")) info->string = g_string_new (NULL); } static gchar * normalise_whitespace (const gchar *orig) { /* We normalise by the same rules as in intltool: * * sub cleanup { * s/^\s+//; * s/\s+$//; * s/\s+/ /g; * return $_; * } * * $message = join "\n\n", map &cleanup, split/\n\s*\n+/, $message; * * Where \s is an ascii space character. * * We aim for ease of implementation over efficiency -- this code is * not run in normal applications. */ static GRegex *cleanup[3]; static GRegex *splitter; gchar **lines; gchar *result; gint i; if (g_once_init_enter (&splitter)) { GRegex *s; cleanup[0] = g_regex_new ("^\\s+", 0, 0, 0); cleanup[1] = g_regex_new ("\\s+$", 0, 0, 0); cleanup[2] = g_regex_new ("\\s+", 0, 0, 0); s = g_regex_new ("\\n\\s*\\n+", 0, 0, 0); g_once_init_leave (&splitter, s); } lines = g_regex_split (splitter, orig, 0); for (i = 0; lines[i]; i++) { gchar *a, *b, *c; a = g_regex_replace_literal (cleanup[0], lines[i], -1, 0, "", 0, 0); b = g_regex_replace_literal (cleanup[1], a, -1, 0, "", 0, 0); c = g_regex_replace_literal (cleanup[2], b, -1, 0, " ", 0, 0); g_free (lines[i]); g_free (a); g_free (b); lines[i] = c; } result = g_strjoinv ("\n\n", lines); g_strfreev (lines); return result; } static void end_element (GMarkupParseContext *context, const gchar *element_name, gpointer user_data, GError **error) { TextTableParseInfo *info = user_data; pop_attribute_value (&info->gettext_domain); pop_attribute_value (&info->schema_id); pop_attribute_value (&info->key_name); if (info->string) { GHashTable *source_table = NULL; const gchar *gettext_domain; const gchar *schema_id; const gchar *key_name; gettext_domain = get_attribute_value (info->gettext_domain); schema_id = get_attribute_value (info->schema_id); key_name = get_attribute_value (info->key_name); if (g_str_equal (element_name, "summary")) source_table = info->summaries; else if (g_str_equal (element_name, "description")) source_table = info->descriptions; if (source_table && schema_id && key_name) { GHashTable *schema_table; gchar *normalised; schema_table = g_hash_table_lookup (source_table, schema_id); if (schema_table == NULL) { schema_table = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, g_free); g_hash_table_insert (source_table, g_strdup (schema_id), schema_table); } normalised = normalise_whitespace (info->string->str); if (gettext_domain && normalised[0]) { gchar *translated; translated = g_strdup (g_dgettext (gettext_domain, normalised)); g_free (normalised); normalised = translated; } g_hash_table_insert (schema_table, g_strdup (key_name), normalised); } g_string_free (info->string, TRUE); info->string = NULL; } } static void text (GMarkupParseContext *context, const gchar *text, gsize text_len, gpointer user_data, GError **error) { TextTableParseInfo *info = user_data; if (info->string) g_string_append_len (info->string, text, text_len); } static void parse_into_text_tables (const gchar *directory, GHashTable *summaries, GHashTable *descriptions) { GMarkupParser parser = { start_element, end_element, text }; TextTableParseInfo info = { summaries, descriptions }; const gchar *basename; GDir *dir; dir = g_dir_open (directory, 0, NULL); while ((basename = g_dir_read_name (dir))) { gchar *filename; gchar *contents; gsize size; filename = g_build_filename (directory, basename, NULL); if (g_file_get_contents (filename, &contents, &size, NULL)) { GMarkupParseContext *context; context = g_markup_parse_context_new (&parser, G_MARKUP_TREAT_CDATA_AS_TEXT, &info, NULL); /* Ignore errors here, this is best effort only. */ if (g_markup_parse_context_parse (context, contents, size, NULL)) (void) g_markup_parse_context_end_parse (context, NULL); g_markup_parse_context_free (context); /* Clean up dangling stuff in case there was an error. */ g_slist_free_full (info.gettext_domain, g_free); g_slist_free_full (info.schema_id, g_free); g_slist_free_full (info.key_name, g_free); info.gettext_domain = NULL; info.schema_id = NULL; info.key_name = NULL; if (info.string) { g_string_free (info.string, TRUE); info.string = NULL; } g_free (contents); } g_free (filename); } g_dir_close (dir); } static GHashTable ** g_settings_schema_source_get_text_tables (GSettingsSchemaSource *source) { if (g_once_init_enter (&source->text_tables)) { GHashTable **text_tables; text_tables = g_new (GHashTable *, 2); text_tables[0] = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, (GDestroyNotify) g_hash_table_unref); text_tables[1] = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, (GDestroyNotify) g_hash_table_unref); if (source->directory) parse_into_text_tables (source->directory, text_tables[0], text_tables[1]); g_once_init_leave (&source->text_tables, text_tables); } return source->text_tables; } /** * g_settings_schema_source_list_schemas: * @source: a #GSettingsSchemaSource * @recursive: if we should recurse * @non_relocatable: (out) (transfer full) (array zero-terminated=1): the * list of non-relocatable schemas * @relocatable: (out) (transfer full) (array zero-terminated=1): the list * of relocatable schemas * * Lists the schemas in a given source. * * If @recursive is %TRUE then include parent sources. If %FALSE then * only include the schemas from one source (ie: one directory). You * probably want %TRUE. * * Non-relocatable schemas are those for which you can call * g_settings_new(). Relocatable schemas are those for which you must * use g_settings_new_with_path(). * * Do not call this function from normal programs. This is designed for * use by database editors, commandline tools, etc. * * Since: 2.40 **/ void g_settings_schema_source_list_schemas (GSettingsSchemaSource *source, gboolean recursive, gchar ***non_relocatable, gchar ***relocatable) { GHashTable *single, *reloc; GSettingsSchemaSource *s; /* We use hash tables to avoid duplicate listings for schemas that * appear in more than one file. */ single = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); reloc = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); for (s = source; s; s = s->parent) { gchar **list; gint i; list = gvdb_table_list (s->table, ""); /* empty schema cache file? */ if (list == NULL) continue; for (i = 0; list[i]; i++) { if (!g_hash_table_lookup (single, list[i]) && !g_hash_table_lookup (reloc, list[i])) { GvdbTable *table; table = gvdb_table_get_table (s->table, list[i]); g_assert (table != NULL); if (gvdb_table_has_value (table, ".path")) g_hash_table_insert (single, g_strdup (list[i]), NULL); else g_hash_table_insert (reloc, g_strdup (list[i]), NULL); gvdb_table_unref (table); } } g_strfreev (list); /* Only the first source if recursive not requested */ if (!recursive) break; } if (non_relocatable) { *non_relocatable = (gchar **) g_hash_table_get_keys_as_array (single, NULL); g_hash_table_steal_all (single); } if (relocatable) { *relocatable = (gchar **) g_hash_table_get_keys_as_array (reloc, NULL); g_hash_table_steal_all (reloc); } g_hash_table_unref (single); g_hash_table_unref (reloc); } static gchar **non_relocatable_schema_list; static gchar **relocatable_schema_list; static gsize schema_lists_initialised; static void ensure_schema_lists (void) { if (g_once_init_enter (&schema_lists_initialised)) { initialise_schema_sources (); g_settings_schema_source_list_schemas (schema_sources, TRUE, &non_relocatable_schema_list, &relocatable_schema_list); g_once_init_leave (&schema_lists_initialised, TRUE); } } /** * g_settings_list_schemas: * * * * Returns: (element-type utf8) (transfer none): a list of #GSettings * schemas that are available. The list must not be modified or * freed. * * Since: 2.26 * * Deprecated: 2.40: Use g_settings_schema_source_list_schemas() instead. * If you used g_settings_list_schemas() to check for the presence of * a particular schema, use g_settings_schema_source_lookup() instead * of your whole loop. **/ const gchar * const * g_settings_list_schemas (void) { ensure_schema_lists (); return (const gchar **) non_relocatable_schema_list; } /** * g_settings_list_relocatable_schemas: * * * * Returns: (element-type utf8) (transfer none): a list of relocatable * #GSettings schemas that are available. The list must not be * modified or freed. * * Since: 2.28 * * Deprecated: 2.40: Use g_settings_schema_source_list_schemas() instead **/ const gchar * const * g_settings_list_relocatable_schemas (void) { ensure_schema_lists (); return (const gchar **) relocatable_schema_list; } /** * g_settings_schema_ref: * @schema: a #GSettingsSchema * * Increase the reference count of @schema, returning a new reference. * * Returns: a new reference to @schema * * Since: 2.32 **/ GSettingsSchema * g_settings_schema_ref (GSettingsSchema *schema) { g_atomic_int_inc (&schema->ref_count); return schema; } /** * g_settings_schema_unref: * @schema: a #GSettingsSchema * * Decrease the reference count of @schema, possibly freeing it. * * Since: 2.32 **/ void g_settings_schema_unref (GSettingsSchema *schema) { if (g_atomic_int_dec_and_test (&schema->ref_count)) { if (schema->extends) g_settings_schema_unref (schema->extends); g_settings_schema_source_unref (schema->source); gvdb_table_unref (schema->table); g_free (schema->items); g_free (schema->id); g_slice_free (GSettingsSchema, schema); } } const gchar * g_settings_schema_get_string (GSettingsSchema *schema, const gchar *key) { const gchar *result = NULL; GVariant *value; if ((value = gvdb_table_get_raw_value (schema->table, key))) { result = g_variant_get_string (value, NULL); g_variant_unref (value); } return result; } GVariantIter * g_settings_schema_get_value (GSettingsSchema *schema, const gchar *key) { GSettingsSchema *s = schema; GVariantIter *iter; GVariant *value = NULL; g_return_val_if_fail (schema != NULL, NULL); for (s = schema; s; s = s->extends) if ((value = gvdb_table_get_raw_value (s->table, key))) break; if G_UNLIKELY (value == NULL || !g_variant_is_of_type (value, G_VARIANT_TYPE_TUPLE)) g_error ("Settings schema '%s' does not contain a key named '%s'", schema->id, key); iter = g_variant_iter_new (value); g_variant_unref (value); return iter; } /** * g_settings_schema_get_path: * @schema: a #GSettingsSchema * * Gets the path associated with @schema, or %NULL. * * Schemas may be single-instance or relocatable. Single-instance * schemas correspond to exactly one set of keys in the backend * database: those located at the path returned by this function. * * Relocatable schemas can be referenced by other schemas and can * threfore describe multiple sets of keys at different locations. For * relocatable schemas, this function will return %NULL. * * Returns: (transfer none): the path of the schema, or %NULL * * Since: 2.32 **/ const gchar * g_settings_schema_get_path (GSettingsSchema *schema) { return schema->path; } const gchar * g_settings_schema_get_gettext_domain (GSettingsSchema *schema) { return schema->gettext_domain; } /** * g_settings_schema_has_key: * @schema: a #GSettingsSchema * @name: the name of a key * * Checks if @schema has a key named @name. * * Returns: %TRUE if such a key exists * * Since: 2.40 **/ gboolean g_settings_schema_has_key (GSettingsSchema *schema, const gchar *key) { return gvdb_table_has_value (schema->table, key); } /** * g_settings_schema_list_children: * @schema: a #GSettingsSchema * * Gets the list of children in @schema. * * You should free the return value with g_strfreev() when you are done * with it. * * Returns: (transfer full) (element-type utf8): a list of the children on @settings * * Since: 2.44 */ gchar ** g_settings_schema_list_children (GSettingsSchema *schema) { const GQuark *keys; gchar **strv; gint n_keys; gint i, j; g_return_val_if_fail (schema != NULL, NULL); keys = g_settings_schema_list (schema, &n_keys); strv = g_new (gchar *, n_keys + 1); for (i = j = 0; i < n_keys; i++) { const gchar *key = g_quark_to_string (keys[i]); if (g_str_has_suffix (key, "/")) { gint length = strlen (key); strv[j] = g_memdup (key, length); strv[j][length - 1] = '\0'; j++; } } strv[j] = NULL; return strv; } /** * g_settings_schema_list_keys: * @schema: a #GSettingsSchema * * Introspects the list of keys on @schema. * * You should probably not be calling this function from "normal" code * (since you should already know what keys are in your schema). This * function is intended for introspection reasons. * * Returns: (transfer full) (element-type utf8): a list of the keys on * @schema * * Since: 2.46 */ gchar ** g_settings_schema_list_keys (GSettingsSchema *schema) { const GQuark *keys; gchar **strv; gint n_keys; gint i, j; g_return_val_if_fail (schema != NULL, NULL); keys = g_settings_schema_list (schema, &n_keys); strv = g_new (gchar *, n_keys + 1); for (i = j = 0; i < n_keys; i++) { const gchar *key = g_quark_to_string (keys[i]); if (!g_str_has_suffix (key, "/")) strv[j++] = g_strdup (key); } strv[j] = NULL; return strv; } const GQuark * g_settings_schema_list (GSettingsSchema *schema, gint *n_items) { if (schema->items == NULL) { GSettingsSchema *s; GHashTableIter iter; GHashTable *items; gpointer name; gint len; gint i; items = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); for (s = schema; s; s = s->extends) { gchar **list; list = gvdb_table_list (s->table, ""); if (list) { for (i = 0; list[i]; i++) g_hash_table_add (items, list[i]); /* transfer ownership */ g_free (list); /* free container only */ } } /* Do a first pass to eliminate child items that do not map to * valid schemas (ie: ones that would crash us if we actually * tried to create them). */ g_hash_table_iter_init (&iter, items); while (g_hash_table_iter_next (&iter, &name, NULL)) if (g_str_has_suffix (name, "/")) { GSettingsSchemaSource *source; GVariant *child_schema; GvdbTable *child_table; child_schema = gvdb_table_get_raw_value (schema->table, name); if (!child_schema) continue; child_table = NULL; for (source = schema->source; source; source = source->parent) if ((child_table = gvdb_table_get_table (source->table, g_variant_get_string (child_schema, NULL)))) break; g_variant_unref (child_schema); /* Schema is not found -> remove it from the list */ if (child_table == NULL) { g_hash_table_iter_remove (&iter); continue; } /* Make sure the schema is relocatable or at the * expected path */ if (gvdb_table_has_value (child_table, ".path")) { GVariant *path; gchar *expected; gboolean same; path = gvdb_table_get_raw_value (child_table, ".path"); expected = g_strconcat (schema->path, name, NULL); same = g_str_equal (expected, g_variant_get_string (path, NULL)); g_variant_unref (path); g_free (expected); /* Schema is non-relocatable and did not have the * expected path -> remove it from the list */ if (!same) g_hash_table_iter_remove (&iter); } gvdb_table_unref (child_table); } /* Now create the list */ len = g_hash_table_size (items); schema->items = g_new (GQuark, len); i = 0; g_hash_table_iter_init (&iter, items); while (g_hash_table_iter_next (&iter, &name, NULL)) schema->items[i++] = g_quark_from_string (name); schema->n_items = i; g_assert (i == len); g_hash_table_unref (items); } *n_items = schema->n_items; return schema->items; } /** * g_settings_schema_get_id: * @schema: a #GSettingsSchema * * Get the ID of @schema. * * Returns: (transfer none): the ID **/ const gchar * g_settings_schema_get_id (GSettingsSchema *schema) { return schema->id; } static inline void endian_fixup (GVariant **value) { #if G_BYTE_ORDER == G_BIG_ENDIAN GVariant *tmp; tmp = g_variant_byteswap (*value); g_variant_unref (*value); *value = tmp; #endif } void g_settings_schema_key_init (GSettingsSchemaKey *key, GSettingsSchema *schema, const gchar *name) { GVariantIter *iter; GVariant *data; guchar code; memset (key, 0, sizeof *key); iter = g_settings_schema_get_value (schema, name); key->schema = g_settings_schema_ref (schema); key->default_value = g_variant_iter_next_value (iter); endian_fixup (&key->default_value); key->type = g_variant_get_type (key->default_value); key->name = g_intern_string (name); while (g_variant_iter_next (iter, "(y*)", &code, &data)) { switch (code) { case 'l': /* translation requested */ g_variant_get (data, "(y&s)", &key->lc_char, &key->unparsed); break; case 'e': /* enumerated types... */ key->is_enum = TRUE; goto choice; case 'f': /* flags... */ key->is_flags = TRUE; goto choice; choice: case 'c': /* ..., choices, aliases */ key->strinfo = g_variant_get_fixed_array (data, &key->strinfo_length, sizeof (guint32)); break; case 'r': g_variant_get (data, "(**)", &key->minimum, &key->maximum); endian_fixup (&key->minimum); endian_fixup (&key->maximum); break; default: g_warning ("unknown schema extension '%c'", code); break; } g_variant_unref (data); } g_variant_iter_free (iter); } void g_settings_schema_key_clear (GSettingsSchemaKey *key) { if (key->minimum) g_variant_unref (key->minimum); if (key->maximum) g_variant_unref (key->maximum); g_variant_unref (key->default_value); g_settings_schema_unref (key->schema); } gboolean g_settings_schema_key_type_check (GSettingsSchemaKey *key, GVariant *value) { g_return_val_if_fail (value != NULL, FALSE); return g_variant_is_of_type (value, key->type); } GVariant * g_settings_schema_key_range_fixup (GSettingsSchemaKey *key, GVariant *value) { const gchar *target; if (g_settings_schema_key_range_check (key, value)) return g_variant_ref (value); if (key->strinfo == NULL) return NULL; if (g_variant_is_container (value)) { GVariantBuilder builder; GVariantIter iter; GVariant *child; g_variant_iter_init (&iter, value); g_variant_builder_init (&builder, g_variant_get_type (value)); while ((child = g_variant_iter_next_value (&iter))) { GVariant *fixed; fixed = g_settings_schema_key_range_fixup (key, child); g_variant_unref (child); if (fixed == NULL) { g_variant_builder_clear (&builder); return NULL; } g_variant_builder_add_value (&builder, fixed); g_variant_unref (fixed); } return g_variant_ref_sink (g_variant_builder_end (&builder)); } target = strinfo_string_from_alias (key->strinfo, key->strinfo_length, g_variant_get_string (value, NULL)); return target ? g_variant_ref_sink (g_variant_new_string (target)) : NULL; } GVariant * g_settings_schema_key_get_translated_default (GSettingsSchemaKey *key) { const gchar *translated; GError *error = NULL; const gchar *domain; GVariant *value; domain = g_settings_schema_get_gettext_domain (key->schema); if (key->lc_char == '\0') /* translation not requested for this key */ return NULL; if (key->lc_char == 't') translated = g_dcgettext (domain, key->unparsed, LC_TIME); else translated = g_dgettext (domain, key->unparsed); if (translated == key->unparsed) /* the default value was not translated */ return NULL; /* try to parse the translation of the unparsed default */ value = g_variant_parse (key->type, translated, NULL, NULL, &error); if (value == NULL) { g_warning ("Failed to parse translated string '%s' for " "key '%s' in schema '%s': %s", translated, key->name, g_settings_schema_get_id (key->schema), error->message); g_warning ("Using untranslated default instead."); g_error_free (error); } else if (!g_settings_schema_key_range_check (key, value)) { g_warning ("Translated default '%s' for key '%s' in schema '%s' " "is outside of valid range", key->unparsed, key->name, g_settings_schema_get_id (key->schema)); g_variant_unref (value); value = NULL; } return value; } gint g_settings_schema_key_to_enum (GSettingsSchemaKey *key, GVariant *value) { gboolean it_worked; guint result; it_worked = strinfo_enum_from_string (key->strinfo, key->strinfo_length, g_variant_get_string (value, NULL), &result); /* 'value' can only come from the backend after being filtered for validity, * from the translation after being filtered for validity, or from the schema * itself (which the schema compiler checks for validity). If this assertion * fails then it's really a bug in GSettings or the schema compiler... */ g_assert (it_worked); return result; } GVariant * g_settings_schema_key_from_enum (GSettingsSchemaKey *key, gint value) { const gchar *string; string = strinfo_string_from_enum (key->strinfo, key->strinfo_length, value); if (string == NULL) return NULL; return g_variant_new_string (string); } guint g_settings_schema_key_to_flags (GSettingsSchemaKey *key, GVariant *value) { GVariantIter iter; const gchar *flag; guint result; result = 0; g_variant_iter_init (&iter, value); while (g_variant_iter_next (&iter, "&s", &flag)) { gboolean it_worked; guint flag_value; it_worked = strinfo_enum_from_string (key->strinfo, key->strinfo_length, flag, &flag_value); /* as in g_settings_to_enum() */ g_assert (it_worked); result |= flag_value; } return result; } GVariant * g_settings_schema_key_from_flags (GSettingsSchemaKey *key, guint value) { GVariantBuilder builder; gint i; g_variant_builder_init (&builder, G_VARIANT_TYPE ("as")); for (i = 0; i < 32; i++) if (value & (1u << i)) { const gchar *string; string = strinfo_string_from_enum (key->strinfo, key->strinfo_length, 1u << i); if (string == NULL) { g_variant_builder_clear (&builder); return NULL; } g_variant_builder_add (&builder, "s", string); } return g_variant_builder_end (&builder); } G_DEFINE_BOXED_TYPE (GSettingsSchemaKey, g_settings_schema_key, g_settings_schema_key_ref, g_settings_schema_key_unref) /** * g_settings_schema_key_ref: * @key: a #GSettingsSchemaKey * * Increase the reference count of @key, returning a new reference. * * Returns: a new reference to @key * * Since: 2.40 **/ GSettingsSchemaKey * g_settings_schema_key_ref (GSettingsSchemaKey *key) { g_return_val_if_fail (key != NULL, NULL); g_atomic_int_inc (&key->ref_count); return key; } /** * g_settings_schema_key_unref: * @key: a #GSettingsSchemaKey * * Decrease the reference count of @key, possibly freeing it. * * Since: 2.40 **/ void g_settings_schema_key_unref (GSettingsSchemaKey *key) { g_return_if_fail (key != NULL); if (g_atomic_int_dec_and_test (&key->ref_count)) { g_settings_schema_key_clear (key); g_slice_free (GSettingsSchemaKey, key); } } /** * g_settings_schema_get_key: * @schema: a #GSettingsSchema * @name: the name of a key * * Gets the key named @name from @schema. * * It is a programmer error to request a key that does not exist. See * g_settings_schema_list_keys(). * * Returns: (transfer full): the #GSettingsSchemaKey for @name * * Since: 2.40 **/ GSettingsSchemaKey * g_settings_schema_get_key (GSettingsSchema *schema, const gchar *name) { GSettingsSchemaKey *key; g_return_val_if_fail (schema != NULL, NULL); g_return_val_if_fail (name != NULL, NULL); key = g_slice_new (GSettingsSchemaKey); g_settings_schema_key_init (key, schema, name); key->ref_count = 1; return key; } /** * g_settings_schema_key_get_name: * @key: a #GSettingsSchemaKey * * Gets the name of @key. * * Returns: the name of @key. * * Since: 2.44 */ const gchar * g_settings_schema_key_get_name (GSettingsSchemaKey *key) { g_return_val_if_fail (key != NULL, NULL); return key->name; } /** * g_settings_schema_key_get_summary: * @key: a #GSettingsSchemaKey * * Gets the summary for @key. * * If no summary has been provided in the schema for @key, returns * %NULL. * * The summary is a short description of the purpose of the key; usually * one short sentence. Summaries can be translated and the value * returned from this function is is the current locale. * * This function is slow. The summary and description information for * the schemas is not stored in the compiled schema database so this * function has to parse all of the source XML files in the schema * directory. * * Returns: the summary for @key, or %NULL * * Since: 2.34 **/ const gchar * g_settings_schema_key_get_summary (GSettingsSchemaKey *key) { GHashTable **text_tables; GHashTable *summaries; text_tables = g_settings_schema_source_get_text_tables (key->schema->source); summaries = g_hash_table_lookup (text_tables[0], key->schema->id); return summaries ? g_hash_table_lookup (summaries, key->name) : NULL; } /** * g_settings_schema_key_get_description: * @key: a #GSettingsSchemaKey * * Gets the description for @key. * * If no description has been provided in the schema for @key, returns * %NULL. * * The description can be one sentence to several paragraphs in length. * Paragraphs are delimited with a double newline. Descriptions can be * translated and the value returned from this function is is the * current locale. * * This function is slow. The summary and description information for * the schemas is not stored in the compiled schema database so this * function has to parse all of the source XML files in the schema * directory. * * Returns: the description for @key, or %NULL * * Since: 2.34 **/ const gchar * g_settings_schema_key_get_description (GSettingsSchemaKey *key) { GHashTable **text_tables; GHashTable *descriptions; text_tables = g_settings_schema_source_get_text_tables (key->schema->source); descriptions = g_hash_table_lookup (text_tables[1], key->schema->id); return descriptions ? g_hash_table_lookup (descriptions, key->name) : NULL; } /** * g_settings_schema_key_get_value_type: * @key: a #GSettingsSchemaKey * * Gets the #GVariantType of @key. * * Returns: (transfer none): the type of @key * * Since: 2.40 **/ const GVariantType * g_settings_schema_key_get_value_type (GSettingsSchemaKey *key) { g_return_val_if_fail (key, NULL); return key->type; } /** * g_settings_schema_key_get_default_value: * @key: a #GSettingsSchemaKey * * Gets the default value for @key. * * Note that this is the default value according to the schema. System * administrator defaults and lockdown are not visible via this API. * * Returns: (transfer full): the default value for the key * * Since: 2.40 **/ GVariant * g_settings_schema_key_get_default_value (GSettingsSchemaKey *key) { GVariant *value; g_return_val_if_fail (key, NULL); value = g_settings_schema_key_get_translated_default (key); if (!value) value = g_variant_ref (key->default_value); return value; } /** * g_settings_schema_key_get_range: * @key: a #GSettingsSchemaKey * * Queries the range of a key. * * This function will return a #GVariant that fully describes the range * of values that are valid for @key. * * The type of #GVariant returned is `(sv)`. The string describes * the type of range restriction in effect. The type and meaning of * the value contained in the variant depends on the string. * * If the string is `'type'` then the variant contains an empty array. * The element type of that empty array is the expected type of value * and all values of that type are valid. * * If the string is `'enum'` then the variant contains an array * enumerating the possible values. Each item in the array is * a possible valid value and no other values are valid. * * If the string is `'flags'` then the variant contains an array. Each * item in the array is a value that may appear zero or one times in an * array to be used as the value for this key. For example, if the * variant contained the array `['x', 'y']` then the valid values for * the key would be `[]`, `['x']`, `['y']`, `['x', 'y']` and * `['y', 'x']`. * * Finally, if the string is `'range'` then the variant contains a pair * of like-typed values -- the minimum and maximum permissible values * for this key. * * This information should not be used by normal programs. It is * considered to be a hint for introspection purposes. Normal programs * should already know what is permitted by their own schema. The * format may change in any way in the future -- but particularly, new * forms may be added to the possibilities described above. * * You should free the returned value with g_variant_unref() when it is * no longer needed. * * Returns: (transfer full): a #GVariant describing the range * * Since: 2.40 **/ GVariant * g_settings_schema_key_get_range (GSettingsSchemaKey *key) { const gchar *type; GVariant *range; if (key->minimum) { range = g_variant_new ("(**)", key->minimum, key->maximum); type = "range"; } else if (key->strinfo) { range = strinfo_enumerate (key->strinfo, key->strinfo_length); type = key->is_flags ? "flags" : "enum"; } else { range = g_variant_new_array (key->type, NULL, 0); type = "type"; } return g_variant_ref_sink (g_variant_new ("(sv)", type, range)); } /** * g_settings_schema_key_range_check: * @key: a #GSettingsSchemaKey * @value: the value to check * * Checks if the given @value is of the correct type and within the * permitted range for @key. * * It is a programmer error if @value is not of the correct type -- you * must check for this first. * * Returns: %TRUE if @value is valid for @key * * Since: 2.40 **/ gboolean g_settings_schema_key_range_check (GSettingsSchemaKey *key, GVariant *value) { if (key->minimum == NULL && key->strinfo == NULL) return TRUE; if (g_variant_is_container (value)) { gboolean ok = TRUE; GVariantIter iter; GVariant *child; g_variant_iter_init (&iter, value); while (ok && (child = g_variant_iter_next_value (&iter))) { ok = g_settings_schema_key_range_check (key, child); g_variant_unref (child); } return ok; } if (key->minimum) { return g_variant_compare (key->minimum, value) <= 0 && g_variant_compare (value, key->maximum) <= 0; } return strinfo_is_string_valid (key->strinfo, key->strinfo_length, g_variant_get_string (value, NULL)); }