/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */ /* GIO - GLib Input, Output and Streaming Library * * Copyright (C) 2006-2007 Red Hat, 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 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, write to the * Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307, USA. * * Author: Alexander Larsson */ #include "config.h" #include #include #include #include #include "gcontenttypeprivate.h" #include "gthemedicon.h" #include "gicon.h" #include "gfile.h" #include "gfileenumerator.h" #include "gfileinfo.h" #include "glibintl.h" /** * SECTION:gcontenttype * @short_description: Platform-specific content typing * @include: gio/gio.h * * A content type is a platform specific string that defines the type * of a file. On UNIX it is a mime type like "text/plain" or "image/png". * On Win32 it is an extension string like ".doc", ".txt" or a perceived * string like "audio". Such strings can be looked up in the registry at * HKEY_CLASSES_ROOT. **/ #include #define XDG_PREFIX _gio_xdg #include "xdgmime/xdgmime.h" /* We lock this mutex whenever we modify global state in this module. */ G_LOCK_DEFINE_STATIC (gio_xdgmime); gsize _g_unix_content_type_get_sniff_len (void) { gsize size; G_LOCK (gio_xdgmime); size = xdg_mime_get_max_buffer_extents (); G_UNLOCK (gio_xdgmime); return size; } gchar * _g_unix_content_type_unalias (const gchar *type) { gchar *res; G_LOCK (gio_xdgmime); res = g_strdup (xdg_mime_unalias_mime_type (type)); G_UNLOCK (gio_xdgmime); return res; } gchar ** _g_unix_content_type_get_parents (const gchar *type) { const gchar *umime; gchar **parents; GPtrArray *array; int i; array = g_ptr_array_new (); G_LOCK (gio_xdgmime); umime = xdg_mime_unalias_mime_type (type); g_ptr_array_add (array, g_strdup (umime)); parents = xdg_mime_list_mime_parents (umime); for (i = 0; parents && parents[i] != NULL; i++) g_ptr_array_add (array, g_strdup (parents[i])); free (parents); G_UNLOCK (gio_xdgmime); g_ptr_array_add (array, NULL); return (gchar **)g_ptr_array_free (array, FALSE); } /** * g_content_type_equals: * @type1: a content type string * @type2: a content type string * * Compares two content types for equality. * * Returns: %TRUE if the two strings are identical or equivalent, * %FALSE otherwise. */ gboolean g_content_type_equals (const gchar *type1, const gchar *type2) { gboolean res; g_return_val_if_fail (type1 != NULL, FALSE); g_return_val_if_fail (type2 != NULL, FALSE); G_LOCK (gio_xdgmime); res = xdg_mime_mime_type_equal (type1, type2); G_UNLOCK (gio_xdgmime); return res; } /** * g_content_type_is_a: * @type: a content type string * @supertype: a content type string * * Determines if @type is a subset of @supertype. * * Returns: %TRUE if @type is a kind of @supertype, * %FALSE otherwise. */ gboolean g_content_type_is_a (const gchar *type, const gchar *supertype) { gboolean res; g_return_val_if_fail (type != NULL, FALSE); g_return_val_if_fail (supertype != NULL, FALSE); G_LOCK (gio_xdgmime); res = xdg_mime_mime_type_subclass (type, supertype); G_UNLOCK (gio_xdgmime); return res; } /** * g_content_type_is_unknown: * @type: a content type string * * Checks if the content type is the generic "unknown" type. * On UNIX this is the "application/octet-stream" mimetype, * while on win32 it is "*". * * Returns: %TRUE if the type is the unknown type. */ gboolean g_content_type_is_unknown (const gchar *type) { g_return_val_if_fail (type != NULL, FALSE); return strcmp (XDG_MIME_TYPE_UNKNOWN, type) == 0; } typedef enum { MIME_TAG_TYPE_OTHER, MIME_TAG_TYPE_COMMENT } MimeTagType; typedef struct { int current_type; int current_lang_level; int comment_lang_level; char *comment; } MimeParser; static int language_level (const char *lang) { const char * const *lang_list; int i; /* The returned list is sorted from most desirable to least desirable and always contains the default locale "C". */ lang_list = g_get_language_names (); for (i = 0; lang_list[i]; i++) if (strcmp (lang_list[i], lang) == 0) return 1000-i; return 0; } static void mime_info_start_element (GMarkupParseContext *context, const gchar *element_name, const gchar **attribute_names, const gchar **attribute_values, gpointer user_data, GError **error) { int i; const char *lang; MimeParser *parser = user_data; if (strcmp (element_name, "comment") == 0) { lang = "C"; for (i = 0; attribute_names[i]; i++) if (strcmp (attribute_names[i], "xml:lang") == 0) { lang = attribute_values[i]; break; } parser->current_lang_level = language_level (lang); parser->current_type = MIME_TAG_TYPE_COMMENT; } else parser->current_type = MIME_TAG_TYPE_OTHER; } static void mime_info_end_element (GMarkupParseContext *context, const gchar *element_name, gpointer user_data, GError **error) { MimeParser *parser = user_data; parser->current_type = MIME_TAG_TYPE_OTHER; } static void mime_info_text (GMarkupParseContext *context, const gchar *text, gsize text_len, gpointer user_data, GError **error) { MimeParser *parser = user_data; if (parser->current_type == MIME_TAG_TYPE_COMMENT && parser->current_lang_level > parser->comment_lang_level) { g_free (parser->comment); parser->comment = g_strndup (text, text_len); parser->comment_lang_level = parser->current_lang_level; } } static char * load_comment_for_mime_helper (const char *dir, const char *basename) { GMarkupParseContext *context; char *filename, *data; gsize len; gboolean res; MimeParser parse_data = {0}; GMarkupParser parser = { mime_info_start_element, mime_info_end_element, mime_info_text }; filename = g_build_filename (dir, "mime", basename, NULL); res = g_file_get_contents (filename, &data, &len, NULL); g_free (filename); if (!res) return NULL; context = g_markup_parse_context_new (&parser, 0, &parse_data, NULL); res = g_markup_parse_context_parse (context, data, len, NULL); g_free (data); g_markup_parse_context_free (context); if (!res) return NULL; return parse_data.comment; } static char * load_comment_for_mime (const char *mimetype) { const char * const* dirs; char *basename; char *comment; int i; basename = g_strdup_printf ("%s.xml", mimetype); comment = load_comment_for_mime_helper (g_get_user_data_dir (), basename); if (comment) { g_free (basename); return comment; } dirs = g_get_system_data_dirs (); for (i = 0; dirs[i] != NULL; i++) { comment = load_comment_for_mime_helper (dirs[i], basename); if (comment) { g_free (basename); return comment; } } g_free (basename); return g_strdup_printf (_("%s type"), mimetype); } /** * g_content_type_get_description: * @type: a content type string * * Gets the human readable description of the content type. * * Returns: a short description of the content type @type. Free the * returned string with g_free() */ gchar * g_content_type_get_description (const gchar *type) { static GHashTable *type_comment_cache = NULL; gchar *comment; g_return_val_if_fail (type != NULL, NULL); G_LOCK (gio_xdgmime); type = xdg_mime_unalias_mime_type (type); if (type_comment_cache == NULL) type_comment_cache = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, g_free); comment = g_hash_table_lookup (type_comment_cache, type); comment = g_strdup (comment); G_UNLOCK (gio_xdgmime); if (comment != NULL) return comment; comment = load_comment_for_mime (type); G_LOCK (gio_xdgmime); g_hash_table_insert (type_comment_cache, g_strdup (type), g_strdup (comment)); G_UNLOCK (gio_xdgmime); return comment; } /** * g_content_type_get_mime_type: * @type: a content type string * * Gets the mime type for the content type, if one is registered. * * Returns: (allow-none): the registered mime type for the given @type, * or %NULL if unknown. */ char * g_content_type_get_mime_type (const char *type) { g_return_val_if_fail (type != NULL, NULL); return g_strdup (type); } static GIcon * g_content_type_get_icon_internal (const gchar *type, gboolean symbolic) { char *mimetype_icon; char *generic_mimetype_icon = NULL; char *q; char *xdg_mimetype_icon; char *legacy_mimetype_icon; char *xdg_mimetype_generic_icon; char *icon_names[5]; int n = 0; GIcon *themed_icon; const char *file_template; g_return_val_if_fail (type != NULL, NULL); if (symbolic) { file_template = "%s-symbolic"; } else { file_template = "%s"; } G_LOCK (gio_xdgmime); xdg_mimetype_icon = g_strdup_printf (file_template, xdg_mime_get_icon (type)); G_UNLOCK (gio_xdgmime); xdg_mimetype_generic_icon = g_content_type_get_generic_icon_name (type); mimetype_icon = g_strdup_printf (file_template, type); if (xdg_mimetype_generic_icon) generic_mimetype_icon = g_strdup_printf (file_template, xdg_mimetype_generic_icon); while ((q = strchr (mimetype_icon, '/')) != NULL) *q = '-'; /* Not all icons have migrated to the new icon theme spec, look for old names too */ legacy_mimetype_icon = g_strconcat ("gnome-mime-", mimetype_icon, NULL); if (xdg_mimetype_icon) icon_names[n++] = xdg_mimetype_icon; icon_names[n++] = mimetype_icon; icon_names[n++] = legacy_mimetype_icon; if (generic_mimetype_icon) icon_names[n++] = generic_mimetype_icon; themed_icon = g_themed_icon_new_from_names (icon_names, n); g_free (xdg_mimetype_icon); g_free (xdg_mimetype_generic_icon); g_free (mimetype_icon); g_free (legacy_mimetype_icon); g_free (generic_mimetype_icon); return themed_icon; } /** * g_content_type_get_icon: * @type: a content type string * * Gets the icon for a content type. * * Returns: (transfer full): #GIcon corresponding to the content type. Free the returned * object with g_object_unref() */ GIcon * g_content_type_get_icon (const gchar *type) { return g_content_type_get_icon_internal (type, FALSE); } /** * g_content_type_get_symbolic_icon: * @type: a content type string * * Gets the symbolic icon for a content type. * * Returns: (transfer full): symbolic #GIcon corresponding to the content type. * Free the returned object with g_object_unref() * * Since: 2.34 */ GIcon * g_content_type_get_symbolic_icon (const gchar *type) { return g_content_type_get_icon_internal (type, TRUE); } /** * g_content_type_get_generic_icon_name: * @type: a content type string * * Gets the generic icon name for a content type. * * See the shared-mime-info * specification for more on the generic icon name. * * Returns: (allow-none): the registered generic icon name for the given @type, * or %NULL if unknown. Free with g_free() * * Since: 2.34 */ gchar * g_content_type_get_generic_icon_name (const gchar *type) { const gchar *xdg_icon_name; gchar *icon_name; G_LOCK (gio_xdgmime); xdg_icon_name = xdg_mime_get_generic_icon (type); G_UNLOCK (gio_xdgmime); if (!xdg_icon_name) { const char *p; const char *suffix = "-x-generic"; p = strchr (type, '/'); if (p == NULL) p = type + strlen (type); icon_name = g_malloc (p - type + strlen (suffix) + 1); memcpy (icon_name, type, p - type); memcpy (icon_name + (p - type), suffix, strlen (suffix)); icon_name[(p - type) + strlen (suffix)] = 0; } else { icon_name = g_strdup (xdg_icon_name); } return icon_name; } /** * g_content_type_can_be_executable: * @type: a content type string * * Checks if a content type can be executable. Note that for instance * things like text files can be executables (i.e. scripts and batch files). * * Returns: %TRUE if the file type corresponds to a type that * can be executable, %FALSE otherwise. */ gboolean g_content_type_can_be_executable (const gchar *type) { g_return_val_if_fail (type != NULL, FALSE); if (g_content_type_is_a (type, "application/x-executable") || g_content_type_is_a (type, "text/plain")) return TRUE; return FALSE; } static gboolean looks_like_text (const guchar *data, gsize data_size) { gsize i; char c; for (i = 0; i < data_size; i++) { c = data[i]; if (g_ascii_iscntrl (c) && !g_ascii_isspace (c) && c != '\b') return FALSE; } return TRUE; } /** * g_content_type_from_mime_type: * @mime_type: a mime type string * * Tries to find a content type based on the mime type name. * * Returns: (allow-none): Newly allocated string with content type * or %NULL. Free with g_free() * * Since: 2.18 **/ gchar * g_content_type_from_mime_type (const gchar *mime_type) { char *umime; g_return_val_if_fail (mime_type != NULL, NULL); G_LOCK (gio_xdgmime); /* mime type and content type are same on unixes */ umime = g_strdup (xdg_mime_unalias_mime_type (mime_type)); G_UNLOCK (gio_xdgmime); return umime; } /** * g_content_type_guess: * @filename: (allow-none): a string, or %NULL * @data: (allow-none) (array length=data_size): a stream of data, or %NULL * @data_size: the size of @data * @result_uncertain: (allow-none) (out): return location for the certainty * of the result, or %NULL * * Guesses the content type based on example data. If the function is * uncertain, @result_uncertain will be set to %TRUE. Either @filename * or @data may be %NULL, in which case the guess will be based solely * on the other argument. * * Returns: a string indicating a guessed content type for the * given data. Free with g_free() */ gchar * g_content_type_guess (const gchar *filename, const guchar *data, gsize data_size, gboolean *result_uncertain) { char *basename; const char *name_mimetypes[10], *sniffed_mimetype; char *mimetype; int i; int n_name_mimetypes; int sniffed_prio; sniffed_prio = 0; n_name_mimetypes = 0; sniffed_mimetype = XDG_MIME_TYPE_UNKNOWN; if (result_uncertain) *result_uncertain = FALSE; /* our test suite and potentially other code used -1 in the past, which is * not documented and not allowed; guard against that */ g_return_val_if_fail (data_size != (gsize) -1, g_strdup (XDG_MIME_TYPE_UNKNOWN)); G_LOCK (gio_xdgmime); if (filename) { i = strlen (filename); if (filename[i - 1] == '/') { name_mimetypes[0] = "inode/directory"; name_mimetypes[1] = NULL; n_name_mimetypes = 1; if (result_uncertain) *result_uncertain = TRUE; } else { basename = g_path_get_basename (filename); n_name_mimetypes = xdg_mime_get_mime_types_from_file_name (basename, name_mimetypes, 10); g_free (basename); } } /* Got an extension match, and no conflicts. This is it. */ if (n_name_mimetypes == 1) { G_UNLOCK (gio_xdgmime); return g_strdup (name_mimetypes[0]); } if (data) { sniffed_mimetype = xdg_mime_get_mime_type_for_data (data, data_size, &sniffed_prio); if (sniffed_mimetype == XDG_MIME_TYPE_UNKNOWN && data && looks_like_text (data, data_size)) sniffed_mimetype = "text/plain"; /* For security reasons we don't ever want to sniff desktop files * where we know the filename and it doesn't have a .desktop extension. * This is because desktop files allow executing any application and * we don't want to make it possible to hide them looking like something * else. */ if (filename != NULL && strcmp (sniffed_mimetype, "application/x-desktop") == 0) sniffed_mimetype = "text/plain"; } if (n_name_mimetypes == 0) { if (sniffed_mimetype == XDG_MIME_TYPE_UNKNOWN && result_uncertain) *result_uncertain = TRUE; mimetype = g_strdup (sniffed_mimetype); } else { mimetype = NULL; if (sniffed_mimetype != XDG_MIME_TYPE_UNKNOWN) { if (sniffed_prio >= 80) /* High priority sniffing match, use that */ mimetype = g_strdup (sniffed_mimetype); else { /* There are conflicts between the name matches and we * have a sniffed type, use that as a tie breaker. */ for (i = 0; i < n_name_mimetypes; i++) { if ( xdg_mime_mime_type_subclass (name_mimetypes[i], sniffed_mimetype)) { /* This nametype match is derived from (or the same as) * the sniffed type). This is probably it. */ mimetype = g_strdup (name_mimetypes[i]); break; } } } } if (mimetype == NULL) { /* Conflicts, and sniffed type was no help or not there. * Guess on the first one */ mimetype = g_strdup (name_mimetypes[0]); if (result_uncertain) *result_uncertain = TRUE; } } G_UNLOCK (gio_xdgmime); return mimetype; } static void enumerate_mimetypes_subdir (const char *dir, const char *prefix, GHashTable *mimetypes) { DIR *d; struct dirent *ent; char *mimetype; d = opendir (dir); if (d) { while ((ent = readdir (d)) != NULL) { if (g_str_has_suffix (ent->d_name, ".xml")) { mimetype = g_strdup_printf ("%s/%.*s", prefix, (int) strlen (ent->d_name) - 4, ent->d_name); g_hash_table_replace (mimetypes, mimetype, NULL); } } closedir (d); } } static void enumerate_mimetypes_dir (const char *dir, GHashTable *mimetypes) { DIR *d; struct dirent *ent; char *mimedir; char *name; mimedir = g_build_filename (dir, "mime", NULL); d = opendir (mimedir); if (d) { while ((ent = readdir (d)) != NULL) { if (strcmp (ent->d_name, "packages") != 0) { name = g_build_filename (mimedir, ent->d_name, NULL); if (g_file_test (name, G_FILE_TEST_IS_DIR)) enumerate_mimetypes_subdir (name, ent->d_name, mimetypes); g_free (name); } } closedir (d); } g_free (mimedir); } /** * g_content_types_get_registered: * * Gets a list of strings containing all the registered content types * known to the system. The list and its data should be freed using * * g_list_free_full (list, g_free); * * * Returns: (element-type utf8) (transfer full): #GList of the registered content types */ GList * g_content_types_get_registered (void) { const char * const* dirs; GHashTable *mimetypes; GHashTableIter iter; gpointer key; int i; GList *l; mimetypes = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); enumerate_mimetypes_dir (g_get_user_data_dir (), mimetypes); dirs = g_get_system_data_dirs (); for (i = 0; dirs[i] != NULL; i++) enumerate_mimetypes_dir (dirs[i], mimetypes); l = NULL; g_hash_table_iter_init (&iter, mimetypes); while (g_hash_table_iter_next (&iter, &key, NULL)) { l = g_list_prepend (l, key); g_hash_table_iter_steal (&iter); } g_hash_table_destroy (mimetypes); return l; } /* tree magic data */ static GList *tree_matches = NULL; static gboolean need_reload = FALSE; G_LOCK_DEFINE_STATIC (gio_treemagic); typedef struct { gchar *path; GFileType type; guint match_case : 1; guint executable : 1; guint non_empty : 1; guint on_disc : 1; gchar *mimetype; GList *matches; } TreeMatchlet; typedef struct { gchar *contenttype; gint priority; GList *matches; } TreeMatch; static void tree_matchlet_free (TreeMatchlet *matchlet) { g_list_free_full (matchlet->matches, (GDestroyNotify) tree_matchlet_free); g_free (matchlet->path); g_free (matchlet->mimetype); g_slice_free (TreeMatchlet, matchlet); } static void tree_match_free (TreeMatch *match) { g_list_free_full (match->matches, (GDestroyNotify) tree_matchlet_free); g_free (match->contenttype); g_slice_free (TreeMatch, match); } static TreeMatch * parse_header (gchar *line) { gint len; gchar *s; TreeMatch *match; len = strlen (line); if (line[0] != '[' || line[len - 1] != ']') return NULL; line[len - 1] = 0; s = strchr (line, ':'); match = g_slice_new0 (TreeMatch); match->priority = atoi (line + 1); match->contenttype = g_strdup (s + 1); return match; } static TreeMatchlet * parse_match_line (gchar *line, gint *depth) { gchar *s, *p; TreeMatchlet *matchlet; gchar **parts; gint i; matchlet = g_slice_new0 (TreeMatchlet); if (line[0] == '>') { *depth = 0; s = line; } else { *depth = atoi (line); s = strchr (line, '>'); } s += 2; p = strchr (s, '"'); *p = 0; matchlet->path = g_strdup (s); s = p + 1; parts = g_strsplit (s, ",", 0); if (strcmp (parts[0], "=file") == 0) matchlet->type = G_FILE_TYPE_REGULAR; else if (strcmp (parts[0], "=directory") == 0) matchlet->type = G_FILE_TYPE_DIRECTORY; else if (strcmp (parts[0], "=link") == 0) matchlet->type = G_FILE_TYPE_SYMBOLIC_LINK; else matchlet->type = G_FILE_TYPE_UNKNOWN; for (i = 1; parts[i]; i++) { if (strcmp (parts[i], "executable") == 0) matchlet->executable = 1; else if (strcmp (parts[i], "match-case") == 0) matchlet->match_case = 1; else if (strcmp (parts[i], "non-empty") == 0) matchlet->non_empty = 1; else if (strcmp (parts[i], "on-disc") == 0) matchlet->on_disc = 1; else matchlet->mimetype = g_strdup (parts[i]); } g_strfreev (parts); return matchlet; } static gint cmp_match (gconstpointer a, gconstpointer b) { const TreeMatch *aa = (const TreeMatch *)a; const TreeMatch *bb = (const TreeMatch *)b; return bb->priority - aa->priority; } static void insert_match (TreeMatch *match) { tree_matches = g_list_insert_sorted (tree_matches, match, cmp_match); } static void insert_matchlet (TreeMatch *match, TreeMatchlet *matchlet, gint depth) { if (depth == 0) match->matches = g_list_append (match->matches, matchlet); else { GList *last; TreeMatchlet *m; last = g_list_last (match->matches); if (!last) { tree_matchlet_free (matchlet); g_warning ("can't insert tree matchlet at depth %d", depth); return; } m = (TreeMatchlet *) last->data; while (--depth > 0) { last = g_list_last (m->matches); if (!last) { tree_matchlet_free (matchlet); g_warning ("can't insert tree matchlet at depth %d", depth); return; } m = (TreeMatchlet *) last->data; } m->matches = g_list_append (m->matches, matchlet); } } static void read_tree_magic_from_directory (const gchar *prefix) { gchar *filename; gchar *text; gsize len; gchar **lines; gint i; TreeMatch *match; TreeMatchlet *matchlet; gint depth; filename = g_build_filename (prefix, "mime", "treemagic", NULL); if (g_file_get_contents (filename, &text, &len, NULL)) { if (strcmp (text, "MIME-TreeMagic") == 0) { lines = g_strsplit (text + strlen ("MIME-TreeMagic") + 2, "\n", 0); match = NULL; for (i = 0; lines[i] && lines[i][0]; i++) { if (lines[i][0] == '[') { match = parse_header (lines[i]); insert_match (match); } else { matchlet = parse_match_line (lines[i], &depth); insert_matchlet (match, matchlet, depth); } } g_strfreev (lines); } else g_warning ("%s: header not found, skipping\n", filename); g_free (text); } g_free (filename); } static void xdg_mime_reload (void *user_data) { need_reload = TRUE; } static void tree_magic_shutdown (void) { g_list_free_full (tree_matches, (GDestroyNotify) tree_match_free); tree_matches = NULL; } static void tree_magic_init (void) { static gboolean initialized = FALSE; const gchar *dir; const gchar * const * dirs; int i; if (!initialized) { initialized = TRUE; xdg_mime_register_reload_callback (xdg_mime_reload, NULL, NULL); need_reload = TRUE; } if (need_reload) { need_reload = FALSE; tree_magic_shutdown (); dir = g_get_user_data_dir (); read_tree_magic_from_directory (dir); dirs = g_get_system_data_dirs (); for (i = 0; dirs[i]; i++) read_tree_magic_from_directory (dirs[i]); } } /* a filtering enumerator */ typedef struct { gchar *path; gint depth; gboolean ignore_case; gchar **components; gchar **case_components; GFileEnumerator **enumerators; GFile **children; } Enumerator; static gboolean component_match (Enumerator *e, gint depth, const gchar *name) { gchar *case_folded, *key; gboolean found; if (strcmp (name, e->components[depth]) == 0) return TRUE; if (!e->ignore_case) return FALSE; case_folded = g_utf8_casefold (name, -1); key = g_utf8_collate_key (case_folded, -1); found = strcmp (key, e->case_components[depth]) == 0; g_free (case_folded); g_free (key); return found; } static GFile * next_match_recurse (Enumerator *e, gint depth) { GFile *file; GFileInfo *info; const gchar *name; while (TRUE) { if (e->enumerators[depth] == NULL) { if (depth > 0) { file = next_match_recurse (e, depth - 1); if (file) { e->children[depth] = file; e->enumerators[depth] = g_file_enumerate_children (file, G_FILE_ATTRIBUTE_STANDARD_NAME, G_FILE_QUERY_INFO_NONE, NULL, NULL); } } if (e->enumerators[depth] == NULL) return NULL; } while ((info = g_file_enumerator_next_file (e->enumerators[depth], NULL, NULL))) { name = g_file_info_get_name (info); if (component_match (e, depth, name)) { file = g_file_get_child (e->children[depth], name); g_object_unref (info); return file; } g_object_unref (info); } g_object_unref (e->enumerators[depth]); e->enumerators[depth] = NULL; g_object_unref (e->children[depth]); e->children[depth] = NULL; } } static GFile * enumerator_next (Enumerator *e) { return next_match_recurse (e, e->depth - 1); } static Enumerator * enumerator_new (GFile *root, const char *path, gboolean ignore_case) { Enumerator *e; gint i; gchar *case_folded; e = g_new0 (Enumerator, 1); e->path = g_strdup (path); e->ignore_case = ignore_case; e->components = g_strsplit (e->path, G_DIR_SEPARATOR_S, -1); e->depth = g_strv_length (e->components); if (e->ignore_case) { e->case_components = g_new0 (char *, e->depth + 1); for (i = 0; e->components[i]; i++) { case_folded = g_utf8_casefold (e->components[i], -1); e->case_components[i] = g_utf8_collate_key (case_folded, -1); g_free (case_folded); } } e->children = g_new0 (GFile *, e->depth); e->children[0] = g_object_ref (root); e->enumerators = g_new0 (GFileEnumerator *, e->depth); e->enumerators[0] = g_file_enumerate_children (root, G_FILE_ATTRIBUTE_STANDARD_NAME, G_FILE_QUERY_INFO_NONE, NULL, NULL); return e; } static void enumerator_free (Enumerator *e) { gint i; for (i = 0; i < e->depth; i++) { if (e->enumerators[i]) g_object_unref (e->enumerators[i]); if (e->children[i]) g_object_unref (e->children[i]); } g_free (e->enumerators); g_free (e->children); g_strfreev (e->components); if (e->case_components) g_strfreev (e->case_components); g_free (e->path); g_free (e); } static gboolean matchlet_match (TreeMatchlet *matchlet, GFile *root) { GFile *file; GFileInfo *info; gboolean result; const gchar *attrs; Enumerator *e; GList *l; e = enumerator_new (root, matchlet->path, !matchlet->match_case); do { file = enumerator_next (e); if (!file) { enumerator_free (e); return FALSE; } if (matchlet->mimetype) attrs = G_FILE_ATTRIBUTE_STANDARD_TYPE "," G_FILE_ATTRIBUTE_ACCESS_CAN_EXECUTE "," G_FILE_ATTRIBUTE_STANDARD_CONTENT_TYPE; else attrs = G_FILE_ATTRIBUTE_STANDARD_TYPE "," G_FILE_ATTRIBUTE_ACCESS_CAN_EXECUTE; info = g_file_query_info (file, attrs, G_FILE_QUERY_INFO_NONE, NULL, NULL); if (info) { result = TRUE; if (matchlet->type != G_FILE_TYPE_UNKNOWN && g_file_info_get_file_type (info) != matchlet->type) result = FALSE; if (matchlet->executable && !g_file_info_get_attribute_boolean (info, G_FILE_ATTRIBUTE_ACCESS_CAN_EXECUTE)) result = FALSE; } else result = FALSE; if (result && matchlet->non_empty) { GFileEnumerator *child_enum; GFileInfo *child_info; child_enum = g_file_enumerate_children (file, G_FILE_ATTRIBUTE_STANDARD_NAME, G_FILE_QUERY_INFO_NONE, NULL, NULL); if (child_enum) { child_info = g_file_enumerator_next_file (child_enum, NULL, NULL); if (child_info) g_object_unref (child_info); else result = FALSE; g_object_unref (child_enum); } else result = FALSE; } if (result && matchlet->mimetype) { if (strcmp (matchlet->mimetype, g_file_info_get_content_type (info)) != 0) result = FALSE; } g_object_unref (info); g_object_unref (file); } while (!result); enumerator_free (e); if (!matchlet->matches) return TRUE; for (l = matchlet->matches; l; l = l->next) { TreeMatchlet *submatchlet; submatchlet = l->data; if (matchlet_match (submatchlet, root)) return TRUE; } return FALSE; } static void match_match (TreeMatch *match, GFile *root, GPtrArray *types) { GList *l; for (l = match->matches; l; l = l->next) { TreeMatchlet *matchlet = l->data; if (matchlet_match (matchlet, root)) { g_ptr_array_add (types, g_strdup (match->contenttype)); break; } } } /** * g_content_type_guess_for_tree: * @root: the root of the tree to guess a type for * * Tries to guess the type of the tree with root @root, by * looking at the files it contains. The result is an array * of content types, with the best guess coming first. * * The types returned all have the form x-content/foo, e.g. * x-content/audio-cdda (for audio CDs) or x-content/image-dcf * (for a camera memory card). See the shared-mime-info * specification for more on x-content types. * * This function is useful in the implementation of * g_mount_guess_content_type(). * * Returns: (transfer full) (array zero-terminated=1): an %NULL-terminated * array of zero or more content types. Free with g_strfreev() * * Since: 2.18 */ gchar ** g_content_type_guess_for_tree (GFile *root) { GPtrArray *types; GList *l; types = g_ptr_array_new (); G_LOCK (gio_treemagic); tree_magic_init (); for (l = tree_matches; l; l = l->next) { TreeMatch *match = l->data; match_match (match, root, types); } G_UNLOCK (gio_treemagic); g_ptr_array_add (types, NULL); return (gchar **)g_ptr_array_free (types, FALSE); }