glib/gio/glocalfile.c

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/* 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 2.1 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
2014-01-23 12:58:29 +01:00
* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
*
* Author: Alexander Larsson <alexl@redhat.com>
*/
#include "config.h"
#include <sys/types.h>
#include <sys/stat.h>
#include <string.h>
#include <errno.h>
#include <fcntl.h>
#if G_OS_UNIX
#include <dirent.h>
#include <unistd.h>
#endif
#if HAVE_SYS_STATFS_H
#include <sys/statfs.h>
#endif
#if HAVE_SYS_STATVFS_H
#include <sys/statvfs.h>
#endif
#if HAVE_SYS_VFS_H
#include <sys/vfs.h>
#elif HAVE_SYS_MOUNT_H
#if HAVE_SYS_PARAM_H
#include <sys/param.h>
#endif
#include <sys/mount.h>
#endif
#ifndef O_BINARY
#define O_BINARY 0
#endif
#include "gfileattribute.h"
#include "glocalfile.h"
#include "glocalfileinfo.h"
#include "glocalfileenumerator.h"
#include "glocalfileinputstream.h"
#include "glocalfileoutputstream.h"
#include "glocalfileiostream.h"
#include "glocalfilemonitor.h"
Rework how volumes, drives and volume monitoring is done. Previosly the 2007-12-11 David Zeuthen <davidz@redhat.com> Rework how volumes, drives and volume monitoring is done. Previosly the model was GDrive <1-1> GVolume where a GDrive instance represented a mount point and a GVolume instance represented a mounted file system. This patch changes it the model to GDrive <1-N> GVolume <1-1> GMount where GMount now serves the purpose of the old GVolume and the new GVolume serves the purpose of the old GDrive. In addition the new GDrive interface is used to represent a collection of GVolume instances (typically partitions) and also contains utility to query the state of the physical drive the GDrive object represents (such as checking for media, polling the drive, ejecting the media etc.). Also implement mounting and unmounting in the Unix volume monitor backend. A subquent patch will introduce GDrive support for ejection of media. * Makefile.am: * gdrive.c: (g_drive_is_media_check_automatic), (g_drive_is_media_removable), (g_drive_has_media), (g_drive_can_poll_for_media), (g_drive_eject), (g_drive_eject_finish), (g_drive_poll_for_media), (g_drive_poll_for_media_finish): * gdrive.h: * gfile.c: (g_file_find_enclosing_mount): * gfile.h: * gio.symbols: * glocaldirectorymonitor.c: (g_local_directory_monitor_constructor), (mounts_changed): * glocalfile.c: (get_mount_info), (g_local_file_find_enclosing_mount), (g_local_file_file_iface_init): * gnativevolumemonitor.h: * gunionvolumemonitor.c: (get_mounts), (get_volumes), (get_connected_drives), (g_union_volume_monitor_class_init), (child_volume_added), (child_volume_removed), (child_volume_changed), (child_mount_added), (child_mount_removed), (child_mount_pre_unmount), (child_mount_changed), (child_drive_changed), (g_union_volume_monitor_add_monitor), (g_union_volume_monitor_remove_monitor), (_g_mount_get_for_mount_path): * gunixmounts.c: (g_unix_is_mount_path_system_internal), (guess_system_internal), (_g_get_unix_mounts), (_g_get_unix_mount_points), (g_get_unix_mount_at), (g_unix_mount_free), (g_unix_mount_compare), (g_unix_mount_get_mount_path), (g_unix_mount_get_device_path), (g_unix_mount_get_fs_type), (g_unix_mount_is_readonly), (g_unix_mount_is_system_internal), (g_unix_mount_guess_type), (type_to_icon), (g_unix_mount_guess_name), (g_unix_mount_guess_icon), (g_unix_mount_point_guess_name), (g_unix_mount_point_guess_icon), (_canonicalize_filename), (_resolve_symlink), (_resolve_dev_root): * gunixmounts.h: * gunixvolume.c: (g_unix_volume_finalize), (_g_unix_volume_new), (_g_unix_volume_disconnected), (_g_unix_volume_set_mount), (_g_unix_volume_unset_mount), (g_unix_volume_get_icon), (g_unix_volume_get_name), (g_unix_volume_can_mount), (g_unix_volume_get_drive), (g_unix_volume_get_mount), (_g_unix_volume_has_mount_path), (mount_cb), (mount_read_error), (g_unix_volume_mount), (g_unix_volume_mount_finish), (g_unix_volume_volume_iface_init): * gunixvolume.h: * gunixvolumemonitor.c: (g_unix_volume_monitor_finalize), (get_mounts), (get_volumes), (get_connected_drives), (get_mount_for_mount_path), (g_unix_volume_monitor_class_init), (mountpoints_changed), (mounts_changed), (g_unix_volume_monitor_init), (_g_unix_volume_monitor_lookup_volume_for_mount_path), (find_mount_by_mountpath), (update_volumes), (update_mounts): * gunixvolumemonitor.h: * gvolume.c: (g_volume_get_mount), (g_volume_can_mount), (g_volume_mount), (g_volume_mount_finish): * gvolume.h: * gvolumemonitor.c: (g_volume_monitor_class_init), (g_volume_monitor_get_connected_drives), (g_volume_monitor_get_volumes), (g_volume_monitor_get_mounts): * gvolumemonitor.h: svn path=/trunk/; revision=6095
2007-12-11 22:23:55 +01:00
#include "gmountprivate.h"
#include "gunixmounts.h"
#include "gioerror.h"
#include <glib/gstdio.h>
W32: Add a stat() implementation for private use This commit adds new W32-only functions to gstdio.c, and a new header file, gstdioprivate.h. These functions are: g_win32_stat_utf8() g_win32_lstat_utf8() g_win32_fstat() and they fill a private structure, GWin32PrivateStat, which has all the fields that normal stat has, as well as some extras. These functions are then used throughout glib and gio to get better data about the system. Specifically: * Full, 64-bit size, guaranteed (g_stat() is forced to use 32-bit st_size) * Full, 64-bit file identifier (st_ino is 0 when normal stat() is used, and still is) * W32 File attributes (which stat() doesn't report); in particular, this allows symlinks to be correctly identified * Full, 64-bit time, guaranteed (g_stat() uses 32-bit st_*time on 32-bit Windows) * Allocated file size (as a W32 replacement for the missing st_blocks) st_mode remains unchanged (thus, no S_ISLNK), so when these are given back to glib users (via g_stat(), for example, which is now implemented by calling g_win32_stat_utf8), this field does not contain anything unexpected. g_lstat() now calls g_win32_lstat_utf8(), which works on symlinks the way it's supposed to. Also adds the g_win32_readlink_utf8() function, which behaves like readlink() (including its inability to return 0-terminated strings and inability to say how large the output buffer should be; these limitations are purely for compatibility with existing glib code). Thus, symlink support should now be much better, although far from being complete. A new W32-only test in gio/tests/file.c highlights the following features: * allocated size * 64-bit time * unique file IDs https://bugzilla.gnome.org/show_bug.cgi?id=788180
2017-09-29 12:14:41 +02:00
#include <glib/gstdioprivate.h>
#include "glibintl.h"
#ifdef G_OS_UNIX
#include "glib-unix.h"
#include "gportalsupport.h"
#include "gtrashportal.h"
#endif
#include "glib-private.h"
#ifdef G_OS_WIN32
#include <windows.h>
#include <io.h>
#include <direct.h>
#ifndef FILE_READ_ONLY_VOLUME
#define FILE_READ_ONLY_VOLUME 0x00080000
#endif
#ifndef S_ISDIR
#define S_ISDIR(m) (((m) & _S_IFMT) == _S_IFDIR)
#endif
#ifndef S_ISLNK
#define S_ISLNK(m) (0)
#endif
#ifndef ECANCELED
#define ECANCELED 105
#endif
#endif
static void g_local_file_file_iface_init (GFileIface *iface);
static GFileAttributeInfoList *local_writable_attributes = NULL;
static /* GFileAttributeInfoList * */ gsize local_writable_namespaces = 0;
struct _GLocalFile
{
GObject parent_instance;
char *filename;
};
#define g_local_file_get_type _g_local_file_get_type
G_DEFINE_TYPE_WITH_CODE (GLocalFile, g_local_file, G_TYPE_OBJECT,
G_IMPLEMENT_INTERFACE (G_TYPE_FILE,
g_local_file_file_iface_init))
static char *find_mountpoint_for (const char *file, dev_t dev, gboolean resolve_basename_symlink);
#ifndef G_OS_WIN32
static gboolean is_remote_fs_type (const gchar *fsname);
#endif
static void
g_local_file_finalize (GObject *object)
{
GLocalFile *local;
local = G_LOCAL_FILE (object);
g_free (local->filename);
G_OBJECT_CLASS (g_local_file_parent_class)->finalize (object);
}
static void
g_local_file_class_init (GLocalFileClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
GFileAttributeInfoList *list;
gobject_class->finalize = g_local_file_finalize;
/* Set up attribute lists */
/* Writable attributes: */
list = g_file_attribute_info_list_new ();
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_UNIX_MODE,
G_FILE_ATTRIBUTE_TYPE_UINT32,
G_FILE_ATTRIBUTE_INFO_COPY_WITH_FILE |
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
#ifdef G_OS_UNIX
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_UNIX_UID,
G_FILE_ATTRIBUTE_TYPE_UINT32,
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_UNIX_GID,
G_FILE_ATTRIBUTE_TYPE_UINT32,
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
#endif
#ifdef HAVE_SYMLINK
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_STANDARD_SYMLINK_TARGET,
G_FILE_ATTRIBUTE_TYPE_BYTE_STRING,
0);
#endif
#ifdef HAVE_UTIMES
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_TIME_MODIFIED,
G_FILE_ATTRIBUTE_TYPE_UINT64,
G_FILE_ATTRIBUTE_INFO_COPY_WITH_FILE |
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_TIME_MODIFIED_USEC,
G_FILE_ATTRIBUTE_TYPE_UINT32,
G_FILE_ATTRIBUTE_INFO_COPY_WITH_FILE |
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
/* When copying, the target file is accessed. Replicating
* the source access time does not make sense in this case.
*/
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_TIME_ACCESS,
G_FILE_ATTRIBUTE_TYPE_UINT64,
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
g_file_attribute_info_list_add (list,
G_FILE_ATTRIBUTE_TIME_ACCESS_USEC,
G_FILE_ATTRIBUTE_TYPE_UINT32,
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
#endif
local_writable_attributes = list;
}
static void
g_local_file_init (GLocalFile *local)
{
}
const char *
_g_local_file_get_filename (GLocalFile *file)
{
return file->filename;
}
GFile *
_g_local_file_new (const char *filename)
{
GLocalFile *local;
local = g_object_new (G_TYPE_LOCAL_FILE, NULL);
local->filename = g_canonicalize_filename (filename, NULL);
return G_FILE (local);
}
/*< internal >
* g_local_file_new_from_dirname_and_basename:
* @dirname: an absolute, canonical directory name
* @basename: the name of a child inside @dirname
*
* Creates a #GFile from @dirname and @basename.
*
* This is more efficient than pasting the fields together for yourself
* and creating a #GFile from the result, and also more efficient than
* creating a #GFile for the dirname and using g_file_get_child().
*
* @dirname must be canonical, as per GLocalFile's opinion of what
* canonical means. This means that you should only pass strings that
* were returned by _g_local_file_get_filename().
*
* Returns: a #GFile
*/
GFile *
g_local_file_new_from_dirname_and_basename (const gchar *dirname,
const gchar *basename)
{
GLocalFile *local;
g_return_val_if_fail (dirname != NULL, NULL);
g_return_val_if_fail (basename && basename[0] && !strchr (basename, '/'), NULL);
local = g_object_new (G_TYPE_LOCAL_FILE, NULL);
local->filename = g_build_filename (dirname, basename, NULL);
return G_FILE (local);
}
static gboolean
g_local_file_is_native (GFile *file)
{
return TRUE;
}
static gboolean
g_local_file_has_uri_scheme (GFile *file,
const char *uri_scheme)
{
return g_ascii_strcasecmp (uri_scheme, "file") == 0;
}
static char *
g_local_file_get_uri_scheme (GFile *file)
{
return g_strdup ("file");
}
static char *
g_local_file_get_basename (GFile *file)
{
return g_path_get_basename (G_LOCAL_FILE (file)->filename);
}
static char *
g_local_file_get_path (GFile *file)
{
return g_strdup (G_LOCAL_FILE (file)->filename);
}
static char *
g_local_file_get_uri (GFile *file)
{
return g_filename_to_uri (G_LOCAL_FILE (file)->filename, NULL, NULL);
}
static gboolean
get_filename_charset (const gchar **filename_charset)
{
const gchar **charsets;
gboolean is_utf8;
is_utf8 = g_get_filename_charsets (&charsets);
if (filename_charset)
*filename_charset = charsets[0];
return is_utf8;
}
static gboolean
name_is_valid_for_display (const char *string,
gboolean is_valid_utf8)
{
char c;
if (!is_valid_utf8 &&
!g_utf8_validate (string, -1, NULL))
return FALSE;
while ((c = *string++) != 0)
{
if (g_ascii_iscntrl (c))
return FALSE;
}
return TRUE;
}
static char *
g_local_file_get_parse_name (GFile *file)
{
const char *filename;
char *parse_name;
const gchar *charset;
char *utf8_filename;
char *roundtripped_filename;
gboolean free_utf8_filename;
gboolean is_valid_utf8;
char *escaped_path;
filename = G_LOCAL_FILE (file)->filename;
if (get_filename_charset (&charset))
{
utf8_filename = (char *)filename;
free_utf8_filename = FALSE;
is_valid_utf8 = FALSE; /* Can't guarantee this */
}
else
{
utf8_filename = g_convert (filename, -1,
"UTF-8", charset, NULL, NULL, NULL);
free_utf8_filename = TRUE;
is_valid_utf8 = TRUE;
if (utf8_filename != NULL)
{
/* Make sure we can roundtrip: */
roundtripped_filename = g_convert (utf8_filename, -1,
charset, "UTF-8", NULL, NULL, NULL);
if (roundtripped_filename == NULL ||
strcmp (filename, roundtripped_filename) != 0)
{
g_free (utf8_filename);
utf8_filename = NULL;
}
g_free (roundtripped_filename);
}
}
if (utf8_filename != NULL &&
name_is_valid_for_display (utf8_filename, is_valid_utf8))
{
if (free_utf8_filename)
parse_name = utf8_filename;
else
parse_name = g_strdup (utf8_filename);
}
else
{
#ifdef G_OS_WIN32
char *dup_filename, *p, *backslash;
/* Turn backslashes into forward slashes like
* g_filename_to_uri() would do (but we can't use that because
* it doesn't output IRIs).
*/
dup_filename = g_strdup (filename);
filename = p = dup_filename;
while ((backslash = strchr (p, '\\')) != NULL)
{
*backslash = '/';
p = backslash + 1;
}
#endif
escaped_path = g_uri_escape_string (filename,
G_URI_RESERVED_CHARS_ALLOWED_IN_PATH_ELEMENT "/",
TRUE);
parse_name = g_strconcat ("file://",
(*escaped_path != '/') ? "/" : "",
escaped_path,
NULL);
g_free (escaped_path);
#ifdef G_OS_WIN32
g_free (dup_filename);
#endif
if (free_utf8_filename)
g_free (utf8_filename);
}
return parse_name;
}
static GFile *
g_local_file_get_parent (GFile *file)
{
GLocalFile *local = G_LOCAL_FILE (file);
const char *non_root;
char *dirname;
GFile *parent;
/* Check for root; local->filename is guaranteed to be absolute, so
* g_path_skip_root() should never return NULL. */
non_root = g_path_skip_root (local->filename);
g_assert (non_root != NULL);
if (*non_root == 0)
return NULL;
dirname = g_path_get_dirname (local->filename);
parent = _g_local_file_new (dirname);
g_free (dirname);
return parent;
}
static GFile *
g_local_file_dup (GFile *file)
{
GLocalFile *local = G_LOCAL_FILE (file);
return _g_local_file_new (local->filename);
}
static guint
g_local_file_hash (GFile *file)
{
GLocalFile *local = G_LOCAL_FILE (file);
return g_str_hash (local->filename);
}
static gboolean
g_local_file_equal (GFile *file1,
GFile *file2)
{
GLocalFile *local1 = G_LOCAL_FILE (file1);
GLocalFile *local2 = G_LOCAL_FILE (file2);
return g_str_equal (local1->filename, local2->filename);
}
static const char *
match_prefix (const char *path,
const char *prefix)
{
int prefix_len;
prefix_len = strlen (prefix);
if (strncmp (path, prefix, prefix_len) != 0)
return NULL;
/* Handle the case where prefix is the root, so that
* the IS_DIR_SEPRARATOR check below works */
if (prefix_len > 0 &&
G_IS_DIR_SEPARATOR (prefix[prefix_len-1]))
prefix_len--;
return path + prefix_len;
}
static gboolean
g_local_file_prefix_matches (GFile *parent,
GFile *descendant)
{
GLocalFile *parent_local = G_LOCAL_FILE (parent);
GLocalFile *descendant_local = G_LOCAL_FILE (descendant);
const char *remainder;
remainder = match_prefix (descendant_local->filename, parent_local->filename);
if (remainder != NULL && G_IS_DIR_SEPARATOR (*remainder))
return TRUE;
return FALSE;
}
static char *
g_local_file_get_relative_path (GFile *parent,
GFile *descendant)
{
GLocalFile *parent_local = G_LOCAL_FILE (parent);
GLocalFile *descendant_local = G_LOCAL_FILE (descendant);
const char *remainder;
remainder = match_prefix (descendant_local->filename, parent_local->filename);
if (remainder != NULL && G_IS_DIR_SEPARATOR (*remainder))
return g_strdup (remainder + 1);
return NULL;
}
static GFile *
g_local_file_resolve_relative_path (GFile *file,
const char *relative_path)
{
GLocalFile *local = G_LOCAL_FILE (file);
char *filename;
GFile *child;
if (g_path_is_absolute (relative_path))
return _g_local_file_new (relative_path);
filename = g_build_filename (local->filename, relative_path, NULL);
child = _g_local_file_new (filename);
g_free (filename);
return child;
}
static GFileEnumerator *
g_local_file_enumerate_children (GFile *file,
const char *attributes,
GFileQueryInfoFlags flags,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
return _g_local_file_enumerator_new (local,
attributes, flags,
cancellable, error);
}
static GFile *
g_local_file_get_child_for_display_name (GFile *file,
const char *display_name,
GError **error)
{
GFile *new_file;
char *basename;
basename = g_filename_from_utf8 (display_name, -1, NULL, NULL, NULL);
if (basename == NULL)
{
g_set_error (error, G_IO_ERROR,
G_IO_ERROR_INVALID_FILENAME,
_("Invalid filename %s"), display_name);
return NULL;
}
new_file = g_file_get_child (file, basename);
g_free (basename);
return new_file;
}
#if defined(USE_STATFS) && !defined(HAVE_STRUCT_STATFS_F_FSTYPENAME)
static const char *
get_fs_type (long f_type)
{
/* filesystem ids taken from linux manpage */
switch (f_type)
{
case 0xadf5:
return "adfs";
case 0x5346414f:
return "afs";
case 0x0187:
return "autofs";
case 0xADFF:
return "affs";
case 0x62646576:
return "bdevfs";
case 0x42465331:
return "befs";
case 0x1BADFACE:
return "bfs";
case 0x42494e4d:
return "binfmt_misc";
case 0x9123683E:
return "btrfs";
case 0x73727279:
return "btrfs_test_fs";
case 0x27e0eb:
return "cgroup";
case 0x63677270:
return "cgroup2";
case 0xFF534D42:
return "cifs";
case 0x73757245:
return "coda";
case 0x012FF7B7:
return "coh";
case 0x62656570:
return "configfs";
case 0x28cd3d45:
return "cramfs";
case 0x64626720:
return "debugfs";
case 0x1373:
return "devfs";
case 0x1cd1:
return "devpts";
case 0xf15f:
return "ecryptfs";
case 0xde5e81e4:
return "efivarfs";
case 0x00414A53:
return "efs";
case 0x137D:
return "ext";
case 0xEF51:
return "ext2";
case 0xEF53:
return "ext3/ext4";
case 0xF2F52010:
return "f2fs";
case 0x65735546:
return "fuse";
case 0x65735543:
return "fusectl";
case 0xBAD1DEA:
return "futexfs";
case 0x4244:
return "hfs";
case 0x00c0ffee:
return "hostfs";
case 0xF995E849:
return "hpfs";
case 0x958458f6:
return "hugetlbfs";
case 0x9660:
return "isofs";
case 0x72b6:
return "jffs2";
case 0x3153464a:
return "jfs";
case 0x137F:
return "minix";
case 0x138F:
return "minix2";
case 0x2468:
return "minix2";
case 0x2478:
return "minix22";
case 0x4d5a:
return "minix3";
case 0x19800202:
return "mqueue";
case 0x4d44:
return "msdos";
case 0x564c:
return "ncp";
case 0x6969:
return "nfs";
case 0x3434:
return "nilfs";
case 0x6e736673:
return "nsfs";
case 0x5346544e:
return "ntfs";
case 0x7461636f:
return "ocfs2";
case 0x9fa1:
return "openprom";
case 0x794c7630:
return "overlay";
case 0x50495045:
return "pipefs";
case 0x9fa0:
return "proc";
case 0x6165676C:
return "pstore";
case 0x002f:
return "qnx4";
case 0x68191122:
return "qnx6";
case 0x858458f6:
return "ramfs";
case 0x52654973:
return "reiserfs";
case 0x7275:
return "romfs";
case 0x67596969:
return "rpc_pipefs";
case 0x73636673:
return "securityfs";
case 0xf97cff8c:
return "selinuxfs";
case 0x43415d53:
return "smackfs";
case 0x517B:
return "smb";
case 0xfe534d42:
return "smb2";
case 0x534F434B:
return "sockfs";
case 0x73717368:
return "squashfs";
case 0x62656572:
return "sysfs";
case 0x012FF7B6:
return "sysv2";
case 0x012FF7B5:
return "sysv4";
case 0x01021994:
return "tmpfs";
case 0x74726163:
return "tracefs";
case 0x15013346:
return "udf";
case 0x00011954:
return "ufs";
case 0x9fa2:
return "usbdevice";
case 0x01021997:
return "v9fs";
case 0xa501FCF5:
return "vxfs";
case 0xabba1974:
return "xenfs";
case 0x012FF7B4:
return "xenix";
case 0x58465342:
return "xfs";
case 0x012FD16D:
return "xiafs";
case 0x52345362:
return "reiser4";
default:
return NULL;
}
}
#endif
#ifndef G_OS_WIN32
G_LOCK_DEFINE_STATIC(mount_info_hash);
static GHashTable *mount_info_hash = NULL;
static guint64 mount_info_hash_cache_time = 0;
typedef enum {
MOUNT_INFO_READONLY = 1<<0
} MountInfo;
static gboolean
device_equal (gconstpointer v1,
gconstpointer v2)
{
return *(dev_t *)v1 == *(dev_t *)v2;
}
static guint
device_hash (gconstpointer v)
{
return (guint) *(dev_t *)v;
}
static void
get_mount_info (GFileInfo *fs_info,
const char *path,
GFileAttributeMatcher *matcher)
{
GStatBuf buf;
gboolean got_info;
gpointer info_as_ptr;
guint mount_info;
char *mountpoint;
dev_t *dev;
Rework how volumes, drives and volume monitoring is done. Previosly the 2007-12-11 David Zeuthen <davidz@redhat.com> Rework how volumes, drives and volume monitoring is done. Previosly the model was GDrive <1-1> GVolume where a GDrive instance represented a mount point and a GVolume instance represented a mounted file system. This patch changes it the model to GDrive <1-N> GVolume <1-1> GMount where GMount now serves the purpose of the old GVolume and the new GVolume serves the purpose of the old GDrive. In addition the new GDrive interface is used to represent a collection of GVolume instances (typically partitions) and also contains utility to query the state of the physical drive the GDrive object represents (such as checking for media, polling the drive, ejecting the media etc.). Also implement mounting and unmounting in the Unix volume monitor backend. A subquent patch will introduce GDrive support for ejection of media. * Makefile.am: * gdrive.c: (g_drive_is_media_check_automatic), (g_drive_is_media_removable), (g_drive_has_media), (g_drive_can_poll_for_media), (g_drive_eject), (g_drive_eject_finish), (g_drive_poll_for_media), (g_drive_poll_for_media_finish): * gdrive.h: * gfile.c: (g_file_find_enclosing_mount): * gfile.h: * gio.symbols: * glocaldirectorymonitor.c: (g_local_directory_monitor_constructor), (mounts_changed): * glocalfile.c: (get_mount_info), (g_local_file_find_enclosing_mount), (g_local_file_file_iface_init): * gnativevolumemonitor.h: * gunionvolumemonitor.c: (get_mounts), (get_volumes), (get_connected_drives), (g_union_volume_monitor_class_init), (child_volume_added), (child_volume_removed), (child_volume_changed), (child_mount_added), (child_mount_removed), (child_mount_pre_unmount), (child_mount_changed), (child_drive_changed), (g_union_volume_monitor_add_monitor), (g_union_volume_monitor_remove_monitor), (_g_mount_get_for_mount_path): * gunixmounts.c: (g_unix_is_mount_path_system_internal), (guess_system_internal), (_g_get_unix_mounts), (_g_get_unix_mount_points), (g_get_unix_mount_at), (g_unix_mount_free), (g_unix_mount_compare), (g_unix_mount_get_mount_path), (g_unix_mount_get_device_path), (g_unix_mount_get_fs_type), (g_unix_mount_is_readonly), (g_unix_mount_is_system_internal), (g_unix_mount_guess_type), (type_to_icon), (g_unix_mount_guess_name), (g_unix_mount_guess_icon), (g_unix_mount_point_guess_name), (g_unix_mount_point_guess_icon), (_canonicalize_filename), (_resolve_symlink), (_resolve_dev_root): * gunixmounts.h: * gunixvolume.c: (g_unix_volume_finalize), (_g_unix_volume_new), (_g_unix_volume_disconnected), (_g_unix_volume_set_mount), (_g_unix_volume_unset_mount), (g_unix_volume_get_icon), (g_unix_volume_get_name), (g_unix_volume_can_mount), (g_unix_volume_get_drive), (g_unix_volume_get_mount), (_g_unix_volume_has_mount_path), (mount_cb), (mount_read_error), (g_unix_volume_mount), (g_unix_volume_mount_finish), (g_unix_volume_volume_iface_init): * gunixvolume.h: * gunixvolumemonitor.c: (g_unix_volume_monitor_finalize), (get_mounts), (get_volumes), (get_connected_drives), (get_mount_for_mount_path), (g_unix_volume_monitor_class_init), (mountpoints_changed), (mounts_changed), (g_unix_volume_monitor_init), (_g_unix_volume_monitor_lookup_volume_for_mount_path), (find_mount_by_mountpath), (update_volumes), (update_mounts): * gunixvolumemonitor.h: * gvolume.c: (g_volume_get_mount), (g_volume_can_mount), (g_volume_mount), (g_volume_mount_finish): * gvolume.h: * gvolumemonitor.c: (g_volume_monitor_class_init), (g_volume_monitor_get_connected_drives), (g_volume_monitor_get_volumes), (g_volume_monitor_get_mounts): * gvolumemonitor.h: svn path=/trunk/; revision=6095
2007-12-11 22:23:55 +01:00
GUnixMountEntry *mount;
guint64 cache_time;
if (g_lstat (path, &buf) != 0)
return;
G_LOCK (mount_info_hash);
if (mount_info_hash == NULL)
mount_info_hash = g_hash_table_new_full (device_hash, device_equal,
g_free, NULL);
if (g_unix_mounts_changed_since (mount_info_hash_cache_time))
g_hash_table_remove_all (mount_info_hash);
got_info = g_hash_table_lookup_extended (mount_info_hash,
&buf.st_dev,
NULL,
&info_as_ptr);
G_UNLOCK (mount_info_hash);
mount_info = GPOINTER_TO_UINT (info_as_ptr);
if (!got_info)
{
mount_info = 0;
mountpoint = find_mountpoint_for (path, buf.st_dev, FALSE);
if (mountpoint == NULL)
mountpoint = g_strdup ("/");
mount = g_unix_mount_at (mountpoint, &cache_time);
if (mount)
{
if (g_unix_mount_is_readonly (mount))
mount_info |= MOUNT_INFO_READONLY;
g_unix_mount_free (mount);
}
g_free (mountpoint);
dev = g_new0 (dev_t, 1);
*dev = buf.st_dev;
G_LOCK (mount_info_hash);
mount_info_hash_cache_time = cache_time;
g_hash_table_insert (mount_info_hash, dev, GUINT_TO_POINTER (mount_info));
G_UNLOCK (mount_info_hash);
}
if (mount_info & MOUNT_INFO_READONLY)
g_file_info_set_attribute_boolean (fs_info, G_FILE_ATTRIBUTE_FILESYSTEM_READONLY, TRUE);
}
#endif
#ifdef G_OS_WIN32
static wchar_t *
get_volume_for_path (const char *path)
{
long len;
wchar_t *wpath;
wchar_t *result;
wpath = g_utf8_to_utf16 (path, -1, NULL, NULL, NULL);
result = g_new (wchar_t, MAX_PATH);
if (!GetVolumePathNameW (wpath, result, MAX_PATH))
{
char *msg = g_win32_error_message (GetLastError ());
g_critical ("GetVolumePathName failed: %s", msg);
g_free (msg);
g_free (result);
g_free (wpath);
return NULL;
}
len = wcslen (result);
if (len > 0 && result[len-1] != L'\\')
{
result = g_renew (wchar_t, result, len + 2);
result[len] = L'\\';
result[len + 1] = 0;
}
g_free (wpath);
return result;
}
static char *
find_mountpoint_for (const char *file, dev_t dev, gboolean resolve_basename_symlink)
{
wchar_t *wpath;
char *utf8_path;
wpath = get_volume_for_path (file);
if (!wpath)
return NULL;
utf8_path = g_utf16_to_utf8 (wpath, -1, NULL, NULL, NULL);
g_free (wpath);
return utf8_path;
}
static void
get_filesystem_readonly (GFileInfo *info,
const char *path)
{
wchar_t *rootdir;
rootdir = get_volume_for_path (path);
if (rootdir)
{
DWORD flags;
if (GetVolumeInformationW (rootdir, NULL, 0, NULL, NULL, &flags, NULL, 0))
g_file_info_set_attribute_boolean (info, G_FILE_ATTRIBUTE_FILESYSTEM_READONLY,
(flags & FILE_READ_ONLY_VOLUME) != 0);
}
g_free (rootdir);
}
#endif /* G_OS_WIN32 */
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wformat-nonliteral"
static void
g_set_io_error (GError **error,
const gchar *msg,
GFile *file,
gint errsv)
{
GLocalFile *local = G_LOCAL_FILE (file);
gchar *display_name;
display_name = g_filename_display_name (local->filename);
g_set_error (error, G_IO_ERROR, g_io_error_from_errno (errsv),
msg, display_name, g_strerror (errsv));
g_free (display_name);
}
#pragma GCC diagnostic pop
static GFileInfo *
g_local_file_query_filesystem_info (GFile *file,
const char *attributes,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
GFileInfo *info;
int statfs_result = 0;
gboolean no_size;
#ifndef G_OS_WIN32
const char *fstype;
#ifdef USE_STATFS
guint64 block_size;
struct statfs statfs_buffer;
#elif defined(USE_STATVFS)
guint64 block_size;
struct statvfs statfs_buffer;
#endif /* USE_STATFS */
#endif /* G_OS_WIN32 */
GFileAttributeMatcher *attribute_matcher;
no_size = FALSE;
#ifdef USE_STATFS
#if STATFS_ARGS == 2
statfs_result = statfs (local->filename, &statfs_buffer);
#elif STATFS_ARGS == 4
statfs_result = statfs (local->filename, &statfs_buffer,
sizeof (statfs_buffer), 0);
#endif /* STATFS_ARGS == 2 */
block_size = statfs_buffer.f_bsize;
/* Many backends can't report free size (for instance the gvfs fuse
* backend for backend not supporting this), and set f_bfree to 0,
* but it can be 0 for real too. We treat the available == 0 and
* free == 0 case as "both of these are invalid", but only on file systems
* which are known to not support this (otherwise we can omit metadata for
* systems which are legitimately full). */
#if defined(__linux__)
if (statfs_result == 0 &&
statfs_buffer.f_bavail == 0 && statfs_buffer.f_bfree == 0 &&
(/* linux/ncp_fs.h: NCP_SUPER_MAGIC == 0x564c */
statfs_buffer.f_type == 0x564c ||
/* man statfs: FUSE_SUPER_MAGIC == 0x65735546 */
statfs_buffer.f_type == 0x65735546))
no_size = TRUE;
#endif /* __linux__ */
#elif defined(USE_STATVFS)
statfs_result = statvfs (local->filename, &statfs_buffer);
block_size = statfs_buffer.f_frsize;
#endif /* USE_STATFS */
if (statfs_result == -1)
{
int errsv = errno;
g_set_io_error (error,
_("Error getting filesystem info for %s: %s"),
file, errsv);
return NULL;
}
info = g_file_info_new ();
attribute_matcher = g_file_attribute_matcher_new (attributes);
if (!no_size &&
g_file_attribute_matcher_matches (attribute_matcher,
G_FILE_ATTRIBUTE_FILESYSTEM_FREE))
{
#ifdef G_OS_WIN32
gchar *localdir = g_path_get_dirname (local->filename);
wchar_t *wdirname = g_utf8_to_utf16 (localdir, -1, NULL, NULL, NULL);
ULARGE_INTEGER li;
g_free (localdir);
if (GetDiskFreeSpaceExW (wdirname, &li, NULL, NULL))
g_file_info_set_attribute_uint64 (info, G_FILE_ATTRIBUTE_FILESYSTEM_FREE, (guint64)li.QuadPart);
g_free (wdirname);
#else
#if defined(USE_STATFS) || defined(USE_STATVFS)
g_file_info_set_attribute_uint64 (info, G_FILE_ATTRIBUTE_FILESYSTEM_FREE, block_size * statfs_buffer.f_bavail);
#endif
#endif
}
if (!no_size &&
g_file_attribute_matcher_matches (attribute_matcher,
G_FILE_ATTRIBUTE_FILESYSTEM_SIZE))
{
#ifdef G_OS_WIN32
gchar *localdir = g_path_get_dirname (local->filename);
wchar_t *wdirname = g_utf8_to_utf16 (localdir, -1, NULL, NULL, NULL);
ULARGE_INTEGER li;
g_free (localdir);
if (GetDiskFreeSpaceExW (wdirname, NULL, &li, NULL))
g_file_info_set_attribute_uint64 (info, G_FILE_ATTRIBUTE_FILESYSTEM_SIZE, (guint64)li.QuadPart);
g_free (wdirname);
#else
#if defined(USE_STATFS) || defined(USE_STATVFS)
g_file_info_set_attribute_uint64 (info, G_FILE_ATTRIBUTE_FILESYSTEM_SIZE, block_size * statfs_buffer.f_blocks);
#endif
#endif /* G_OS_WIN32 */
}
if (!no_size &&
g_file_attribute_matcher_matches (attribute_matcher,
G_FILE_ATTRIBUTE_FILESYSTEM_USED))
{
#ifdef G_OS_WIN32
gchar *localdir = g_path_get_dirname (local->filename);
wchar_t *wdirname = g_utf8_to_utf16 (localdir, -1, NULL, NULL, NULL);
ULARGE_INTEGER li_free;
ULARGE_INTEGER li_total;
g_free (localdir);
if (GetDiskFreeSpaceExW (wdirname, &li_free, &li_total, NULL))
g_file_info_set_attribute_uint64 (info, G_FILE_ATTRIBUTE_FILESYSTEM_USED, (guint64)li_total.QuadPart - (guint64)li_free.QuadPart);
g_free (wdirname);
#else
g_file_info_set_attribute_uint64 (info, G_FILE_ATTRIBUTE_FILESYSTEM_USED, block_size * (statfs_buffer.f_blocks - statfs_buffer.f_bfree));
#endif /* G_OS_WIN32 */
}
#ifndef G_OS_WIN32
#ifdef USE_STATFS
#if defined(HAVE_STRUCT_STATFS_F_FSTYPENAME)
fstype = statfs_buffer.f_fstypename;
#else
fstype = get_fs_type (statfs_buffer.f_type);
#endif
#elif defined(USE_STATVFS)
#if defined(HAVE_STRUCT_STATVFS_F_FSTYPENAME)
fstype = statfs_buffer.f_fstypename;
#elif defined(HAVE_STRUCT_STATVFS_F_BASETYPE)
fstype = statfs_buffer.f_basetype;
#else
fstype = NULL;
#endif
#endif /* USE_STATFS */
if (fstype &&
g_file_attribute_matcher_matches (attribute_matcher,
G_FILE_ATTRIBUTE_FILESYSTEM_TYPE))
g_file_info_set_attribute_string (info, G_FILE_ATTRIBUTE_FILESYSTEM_TYPE, fstype);
#endif /* G_OS_WIN32 */
if (g_file_attribute_matcher_matches (attribute_matcher,
G_FILE_ATTRIBUTE_FILESYSTEM_READONLY))
{
#ifdef G_OS_WIN32
get_filesystem_readonly (info, local->filename);
#else
get_mount_info (info, local->filename, attribute_matcher);
#endif /* G_OS_WIN32 */
}
#ifndef G_OS_WIN32
if (g_file_attribute_matcher_matches (attribute_matcher,
G_FILE_ATTRIBUTE_FILESYSTEM_REMOTE))
g_file_info_set_attribute_boolean (info, G_FILE_ATTRIBUTE_FILESYSTEM_REMOTE,
is_remote_fs_type (fstype));
#endif
g_file_attribute_matcher_unref (attribute_matcher);
return info;
}
Rework how volumes, drives and volume monitoring is done. Previosly the 2007-12-11 David Zeuthen <davidz@redhat.com> Rework how volumes, drives and volume monitoring is done. Previosly the model was GDrive <1-1> GVolume where a GDrive instance represented a mount point and a GVolume instance represented a mounted file system. This patch changes it the model to GDrive <1-N> GVolume <1-1> GMount where GMount now serves the purpose of the old GVolume and the new GVolume serves the purpose of the old GDrive. In addition the new GDrive interface is used to represent a collection of GVolume instances (typically partitions) and also contains utility to query the state of the physical drive the GDrive object represents (such as checking for media, polling the drive, ejecting the media etc.). Also implement mounting and unmounting in the Unix volume monitor backend. A subquent patch will introduce GDrive support for ejection of media. * Makefile.am: * gdrive.c: (g_drive_is_media_check_automatic), (g_drive_is_media_removable), (g_drive_has_media), (g_drive_can_poll_for_media), (g_drive_eject), (g_drive_eject_finish), (g_drive_poll_for_media), (g_drive_poll_for_media_finish): * gdrive.h: * gfile.c: (g_file_find_enclosing_mount): * gfile.h: * gio.symbols: * glocaldirectorymonitor.c: (g_local_directory_monitor_constructor), (mounts_changed): * glocalfile.c: (get_mount_info), (g_local_file_find_enclosing_mount), (g_local_file_file_iface_init): * gnativevolumemonitor.h: * gunionvolumemonitor.c: (get_mounts), (get_volumes), (get_connected_drives), (g_union_volume_monitor_class_init), (child_volume_added), (child_volume_removed), (child_volume_changed), (child_mount_added), (child_mount_removed), (child_mount_pre_unmount), (child_mount_changed), (child_drive_changed), (g_union_volume_monitor_add_monitor), (g_union_volume_monitor_remove_monitor), (_g_mount_get_for_mount_path): * gunixmounts.c: (g_unix_is_mount_path_system_internal), (guess_system_internal), (_g_get_unix_mounts), (_g_get_unix_mount_points), (g_get_unix_mount_at), (g_unix_mount_free), (g_unix_mount_compare), (g_unix_mount_get_mount_path), (g_unix_mount_get_device_path), (g_unix_mount_get_fs_type), (g_unix_mount_is_readonly), (g_unix_mount_is_system_internal), (g_unix_mount_guess_type), (type_to_icon), (g_unix_mount_guess_name), (g_unix_mount_guess_icon), (g_unix_mount_point_guess_name), (g_unix_mount_point_guess_icon), (_canonicalize_filename), (_resolve_symlink), (_resolve_dev_root): * gunixmounts.h: * gunixvolume.c: (g_unix_volume_finalize), (_g_unix_volume_new), (_g_unix_volume_disconnected), (_g_unix_volume_set_mount), (_g_unix_volume_unset_mount), (g_unix_volume_get_icon), (g_unix_volume_get_name), (g_unix_volume_can_mount), (g_unix_volume_get_drive), (g_unix_volume_get_mount), (_g_unix_volume_has_mount_path), (mount_cb), (mount_read_error), (g_unix_volume_mount), (g_unix_volume_mount_finish), (g_unix_volume_volume_iface_init): * gunixvolume.h: * gunixvolumemonitor.c: (g_unix_volume_monitor_finalize), (get_mounts), (get_volumes), (get_connected_drives), (get_mount_for_mount_path), (g_unix_volume_monitor_class_init), (mountpoints_changed), (mounts_changed), (g_unix_volume_monitor_init), (_g_unix_volume_monitor_lookup_volume_for_mount_path), (find_mount_by_mountpath), (update_volumes), (update_mounts): * gunixvolumemonitor.h: * gvolume.c: (g_volume_get_mount), (g_volume_can_mount), (g_volume_mount), (g_volume_mount_finish): * gvolume.h: * gvolumemonitor.c: (g_volume_monitor_class_init), (g_volume_monitor_get_connected_drives), (g_volume_monitor_get_volumes), (g_volume_monitor_get_mounts): * gvolumemonitor.h: svn path=/trunk/; revision=6095
2007-12-11 22:23:55 +01:00
static GMount *
g_local_file_find_enclosing_mount (GFile *file,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
GStatBuf buf;
char *mountpoint;
Rework how volumes, drives and volume monitoring is done. Previosly the 2007-12-11 David Zeuthen <davidz@redhat.com> Rework how volumes, drives and volume monitoring is done. Previosly the model was GDrive <1-1> GVolume where a GDrive instance represented a mount point and a GVolume instance represented a mounted file system. This patch changes it the model to GDrive <1-N> GVolume <1-1> GMount where GMount now serves the purpose of the old GVolume and the new GVolume serves the purpose of the old GDrive. In addition the new GDrive interface is used to represent a collection of GVolume instances (typically partitions) and also contains utility to query the state of the physical drive the GDrive object represents (such as checking for media, polling the drive, ejecting the media etc.). Also implement mounting and unmounting in the Unix volume monitor backend. A subquent patch will introduce GDrive support for ejection of media. * Makefile.am: * gdrive.c: (g_drive_is_media_check_automatic), (g_drive_is_media_removable), (g_drive_has_media), (g_drive_can_poll_for_media), (g_drive_eject), (g_drive_eject_finish), (g_drive_poll_for_media), (g_drive_poll_for_media_finish): * gdrive.h: * gfile.c: (g_file_find_enclosing_mount): * gfile.h: * gio.symbols: * glocaldirectorymonitor.c: (g_local_directory_monitor_constructor), (mounts_changed): * glocalfile.c: (get_mount_info), (g_local_file_find_enclosing_mount), (g_local_file_file_iface_init): * gnativevolumemonitor.h: * gunionvolumemonitor.c: (get_mounts), (get_volumes), (get_connected_drives), (g_union_volume_monitor_class_init), (child_volume_added), (child_volume_removed), (child_volume_changed), (child_mount_added), (child_mount_removed), (child_mount_pre_unmount), (child_mount_changed), (child_drive_changed), (g_union_volume_monitor_add_monitor), (g_union_volume_monitor_remove_monitor), (_g_mount_get_for_mount_path): * gunixmounts.c: (g_unix_is_mount_path_system_internal), (guess_system_internal), (_g_get_unix_mounts), (_g_get_unix_mount_points), (g_get_unix_mount_at), (g_unix_mount_free), (g_unix_mount_compare), (g_unix_mount_get_mount_path), (g_unix_mount_get_device_path), (g_unix_mount_get_fs_type), (g_unix_mount_is_readonly), (g_unix_mount_is_system_internal), (g_unix_mount_guess_type), (type_to_icon), (g_unix_mount_guess_name), (g_unix_mount_guess_icon), (g_unix_mount_point_guess_name), (g_unix_mount_point_guess_icon), (_canonicalize_filename), (_resolve_symlink), (_resolve_dev_root): * gunixmounts.h: * gunixvolume.c: (g_unix_volume_finalize), (_g_unix_volume_new), (_g_unix_volume_disconnected), (_g_unix_volume_set_mount), (_g_unix_volume_unset_mount), (g_unix_volume_get_icon), (g_unix_volume_get_name), (g_unix_volume_can_mount), (g_unix_volume_get_drive), (g_unix_volume_get_mount), (_g_unix_volume_has_mount_path), (mount_cb), (mount_read_error), (g_unix_volume_mount), (g_unix_volume_mount_finish), (g_unix_volume_volume_iface_init): * gunixvolume.h: * gunixvolumemonitor.c: (g_unix_volume_monitor_finalize), (get_mounts), (get_volumes), (get_connected_drives), (get_mount_for_mount_path), (g_unix_volume_monitor_class_init), (mountpoints_changed), (mounts_changed), (g_unix_volume_monitor_init), (_g_unix_volume_monitor_lookup_volume_for_mount_path), (find_mount_by_mountpath), (update_volumes), (update_mounts): * gunixvolumemonitor.h: * gvolume.c: (g_volume_get_mount), (g_volume_can_mount), (g_volume_mount), (g_volume_mount_finish): * gvolume.h: * gvolumemonitor.c: (g_volume_monitor_class_init), (g_volume_monitor_get_connected_drives), (g_volume_monitor_get_volumes), (g_volume_monitor_get_mounts): * gvolumemonitor.h: svn path=/trunk/; revision=6095
2007-12-11 22:23:55 +01:00
GMount *mount;
if (g_lstat (local->filename, &buf) != 0)
goto error;
mountpoint = find_mountpoint_for (local->filename, buf.st_dev, FALSE);
if (mountpoint == NULL)
goto error;
mount = _g_mount_get_for_mount_path (mountpoint, cancellable);
g_free (mountpoint);
Rework how volumes, drives and volume monitoring is done. Previosly the 2007-12-11 David Zeuthen <davidz@redhat.com> Rework how volumes, drives and volume monitoring is done. Previosly the model was GDrive <1-1> GVolume where a GDrive instance represented a mount point and a GVolume instance represented a mounted file system. This patch changes it the model to GDrive <1-N> GVolume <1-1> GMount where GMount now serves the purpose of the old GVolume and the new GVolume serves the purpose of the old GDrive. In addition the new GDrive interface is used to represent a collection of GVolume instances (typically partitions) and also contains utility to query the state of the physical drive the GDrive object represents (such as checking for media, polling the drive, ejecting the media etc.). Also implement mounting and unmounting in the Unix volume monitor backend. A subquent patch will introduce GDrive support for ejection of media. * Makefile.am: * gdrive.c: (g_drive_is_media_check_automatic), (g_drive_is_media_removable), (g_drive_has_media), (g_drive_can_poll_for_media), (g_drive_eject), (g_drive_eject_finish), (g_drive_poll_for_media), (g_drive_poll_for_media_finish): * gdrive.h: * gfile.c: (g_file_find_enclosing_mount): * gfile.h: * gio.symbols: * glocaldirectorymonitor.c: (g_local_directory_monitor_constructor), (mounts_changed): * glocalfile.c: (get_mount_info), (g_local_file_find_enclosing_mount), (g_local_file_file_iface_init): * gnativevolumemonitor.h: * gunionvolumemonitor.c: (get_mounts), (get_volumes), (get_connected_drives), (g_union_volume_monitor_class_init), (child_volume_added), (child_volume_removed), (child_volume_changed), (child_mount_added), (child_mount_removed), (child_mount_pre_unmount), (child_mount_changed), (child_drive_changed), (g_union_volume_monitor_add_monitor), (g_union_volume_monitor_remove_monitor), (_g_mount_get_for_mount_path): * gunixmounts.c: (g_unix_is_mount_path_system_internal), (guess_system_internal), (_g_get_unix_mounts), (_g_get_unix_mount_points), (g_get_unix_mount_at), (g_unix_mount_free), (g_unix_mount_compare), (g_unix_mount_get_mount_path), (g_unix_mount_get_device_path), (g_unix_mount_get_fs_type), (g_unix_mount_is_readonly), (g_unix_mount_is_system_internal), (g_unix_mount_guess_type), (type_to_icon), (g_unix_mount_guess_name), (g_unix_mount_guess_icon), (g_unix_mount_point_guess_name), (g_unix_mount_point_guess_icon), (_canonicalize_filename), (_resolve_symlink), (_resolve_dev_root): * gunixmounts.h: * gunixvolume.c: (g_unix_volume_finalize), (_g_unix_volume_new), (_g_unix_volume_disconnected), (_g_unix_volume_set_mount), (_g_unix_volume_unset_mount), (g_unix_volume_get_icon), (g_unix_volume_get_name), (g_unix_volume_can_mount), (g_unix_volume_get_drive), (g_unix_volume_get_mount), (_g_unix_volume_has_mount_path), (mount_cb), (mount_read_error), (g_unix_volume_mount), (g_unix_volume_mount_finish), (g_unix_volume_volume_iface_init): * gunixvolume.h: * gunixvolumemonitor.c: (g_unix_volume_monitor_finalize), (get_mounts), (get_volumes), (get_connected_drives), (get_mount_for_mount_path), (g_unix_volume_monitor_class_init), (mountpoints_changed), (mounts_changed), (g_unix_volume_monitor_init), (_g_unix_volume_monitor_lookup_volume_for_mount_path), (find_mount_by_mountpath), (update_volumes), (update_mounts): * gunixvolumemonitor.h: * gvolume.c: (g_volume_get_mount), (g_volume_can_mount), (g_volume_mount), (g_volume_mount_finish): * gvolume.h: * gvolumemonitor.c: (g_volume_monitor_class_init), (g_volume_monitor_get_connected_drives), (g_volume_monitor_get_volumes), (g_volume_monitor_get_mounts): * gvolumemonitor.h: svn path=/trunk/; revision=6095
2007-12-11 22:23:55 +01:00
if (mount)
return mount;
error:
g_set_io_error (error,
/* Translators: This is an error message when trying to find
* the enclosing (user visible) mount of a file, but none
* exists.
*/
_("Containing mount for file %s not found"),
file, 0);
return NULL;
}
static GFile *
g_local_file_set_display_name (GFile *file,
const char *display_name,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local, *new_local;
GFile *new_file, *parent;
GStatBuf statbuf;
GVfsClass *class;
GVfs *vfs;
int errsv;
parent = g_file_get_parent (file);
if (parent == NULL)
{
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_FAILED,
_("Cant rename root directory"));
return NULL;
}
new_file = g_file_get_child_for_display_name (parent, display_name, error);
g_object_unref (parent);
if (new_file == NULL)
return NULL;
local = G_LOCAL_FILE (file);
new_local = G_LOCAL_FILE (new_file);
if (g_lstat (new_local->filename, &statbuf) == -1)
{
errsv = errno;
if (errsv != ENOENT)
{
g_set_io_error (error, _("Error renaming file %s: %s"), new_file, errsv);
return NULL;
}
}
else
{
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_EXISTS,
_("Cant rename file, filename already exists"));
return NULL;
}
if (g_rename (local->filename, new_local->filename) == -1)
{
errsv = errno;
if (errsv == EINVAL)
/* We can't get a rename file into itself error here,
* so this must be an invalid filename, on e.g. FAT
*/
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_INVALID_FILENAME,
_("Invalid filename"));
else
g_set_io_error (error,
_("Error renaming file %s: %s"),
file, errsv);
g_object_unref (new_file);
return NULL;
}
vfs = g_vfs_get_default ();
class = G_VFS_GET_CLASS (vfs);
if (class->local_file_moved)
class->local_file_moved (vfs, local->filename, new_local->filename);
return new_file;
}
static GFileInfo *
g_local_file_query_info (GFile *file,
const char *attributes,
GFileQueryInfoFlags flags,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
GFileInfo *info;
GFileAttributeMatcher *matcher;
char *basename, *dirname;
GLocalParentFileInfo parent_info;
matcher = g_file_attribute_matcher_new (attributes);
basename = g_path_get_basename (local->filename);
dirname = g_path_get_dirname (local->filename);
_g_local_file_info_get_parent_info (dirname, matcher, &parent_info);
g_free (dirname);
info = _g_local_file_info_get (basename, local->filename,
matcher, flags, &parent_info,
error);
_g_local_file_info_free_parent_info (&parent_info);
g_free (basename);
g_file_attribute_matcher_unref (matcher);
return info;
}
static GFileAttributeInfoList *
g_local_file_query_settable_attributes (GFile *file,
GCancellable *cancellable,
GError **error)
{
return g_file_attribute_info_list_ref (local_writable_attributes);
}
static GFileAttributeInfoList *
g_local_file_query_writable_namespaces (GFile *file,
GCancellable *cancellable,
GError **error)
{
GFileAttributeInfoList *list;
GVfsClass *class;
GVfs *vfs;
if (g_once_init_enter (&local_writable_namespaces))
{
/* Writable namespaces: */
list = g_file_attribute_info_list_new ();
#ifdef HAVE_XATTR
g_file_attribute_info_list_add (list,
"xattr",
G_FILE_ATTRIBUTE_TYPE_STRING,
G_FILE_ATTRIBUTE_INFO_COPY_WITH_FILE |
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
g_file_attribute_info_list_add (list,
"xattr-sys",
G_FILE_ATTRIBUTE_TYPE_STRING,
G_FILE_ATTRIBUTE_INFO_COPY_WHEN_MOVED);
#endif
vfs = g_vfs_get_default ();
class = G_VFS_GET_CLASS (vfs);
if (class->add_writable_namespaces)
class->add_writable_namespaces (vfs, list);
g_once_init_leave (&local_writable_namespaces, (gsize)list);
}
list = (GFileAttributeInfoList *)local_writable_namespaces;
return g_file_attribute_info_list_ref (list);
}
static gboolean
g_local_file_set_attribute (GFile *file,
const char *attribute,
GFileAttributeType type,
gpointer value_p,
GFileQueryInfoFlags flags,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
return _g_local_file_info_set_attribute (local->filename,
attribute,
type,
value_p,
flags,
cancellable,
error);
}
static gboolean
g_local_file_set_attributes_from_info (GFile *file,
GFileInfo *info,
GFileQueryInfoFlags flags,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
int res, chained_res;
GFileIface *default_iface;
res = _g_local_file_info_set_attributes (local->filename,
info, flags,
cancellable,
error);
if (!res)
error = NULL; /* Don't write over error if further errors */
default_iface = g_type_default_interface_peek (G_TYPE_FILE);
chained_res = (default_iface->set_attributes_from_info) (file, info, flags, cancellable, error);
return res && chained_res;
}
static GFileInputStream *
g_local_file_read (GFile *file,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
int fd, ret;
GLocalFileStat buf;
fd = g_open (local->filename, O_RDONLY|O_BINARY, 0);
if (fd == -1)
{
int errsv = errno;
#ifdef G_OS_WIN32
if (errsv == EACCES)
{
W32: Add a stat() implementation for private use This commit adds new W32-only functions to gstdio.c, and a new header file, gstdioprivate.h. These functions are: g_win32_stat_utf8() g_win32_lstat_utf8() g_win32_fstat() and they fill a private structure, GWin32PrivateStat, which has all the fields that normal stat has, as well as some extras. These functions are then used throughout glib and gio to get better data about the system. Specifically: * Full, 64-bit size, guaranteed (g_stat() is forced to use 32-bit st_size) * Full, 64-bit file identifier (st_ino is 0 when normal stat() is used, and still is) * W32 File attributes (which stat() doesn't report); in particular, this allows symlinks to be correctly identified * Full, 64-bit time, guaranteed (g_stat() uses 32-bit st_*time on 32-bit Windows) * Allocated file size (as a W32 replacement for the missing st_blocks) st_mode remains unchanged (thus, no S_ISLNK), so when these are given back to glib users (via g_stat(), for example, which is now implemented by calling g_win32_stat_utf8), this field does not contain anything unexpected. g_lstat() now calls g_win32_lstat_utf8(), which works on symlinks the way it's supposed to. Also adds the g_win32_readlink_utf8() function, which behaves like readlink() (including its inability to return 0-terminated strings and inability to say how large the output buffer should be; these limitations are purely for compatibility with existing glib code). Thus, symlink support should now be much better, although far from being complete. A new W32-only test in gio/tests/file.c highlights the following features: * allocated size * 64-bit time * unique file IDs https://bugzilla.gnome.org/show_bug.cgi?id=788180
2017-09-29 12:14:41 +02:00
/* Exploit the fact that on W32 the glib filename encoding is UTF8 */
ret = GLIB_PRIVATE_CALL (g_win32_stat_utf8) (local->filename, &buf);
if (ret == 0 && S_ISDIR (buf.st_mode))
errsv = EISDIR;
}
#endif
g_set_io_error (error,
_("Error opening file %s: %s"),
file, errsv);
return NULL;
}
#ifdef G_OS_WIN32
W32: Add a stat() implementation for private use This commit adds new W32-only functions to gstdio.c, and a new header file, gstdioprivate.h. These functions are: g_win32_stat_utf8() g_win32_lstat_utf8() g_win32_fstat() and they fill a private structure, GWin32PrivateStat, which has all the fields that normal stat has, as well as some extras. These functions are then used throughout glib and gio to get better data about the system. Specifically: * Full, 64-bit size, guaranteed (g_stat() is forced to use 32-bit st_size) * Full, 64-bit file identifier (st_ino is 0 when normal stat() is used, and still is) * W32 File attributes (which stat() doesn't report); in particular, this allows symlinks to be correctly identified * Full, 64-bit time, guaranteed (g_stat() uses 32-bit st_*time on 32-bit Windows) * Allocated file size (as a W32 replacement for the missing st_blocks) st_mode remains unchanged (thus, no S_ISLNK), so when these are given back to glib users (via g_stat(), for example, which is now implemented by calling g_win32_stat_utf8), this field does not contain anything unexpected. g_lstat() now calls g_win32_lstat_utf8(), which works on symlinks the way it's supposed to. Also adds the g_win32_readlink_utf8() function, which behaves like readlink() (including its inability to return 0-terminated strings and inability to say how large the output buffer should be; these limitations are purely for compatibility with existing glib code). Thus, symlink support should now be much better, although far from being complete. A new W32-only test in gio/tests/file.c highlights the following features: * allocated size * 64-bit time * unique file IDs https://bugzilla.gnome.org/show_bug.cgi?id=788180
2017-09-29 12:14:41 +02:00
ret = GLIB_PRIVATE_CALL (g_win32_fstat) (fd, &buf);
#else
ret = fstat (fd, &buf);
#endif
if (ret == 0 && S_ISDIR (buf.st_mode))
{
(void) g_close (fd, NULL);
g_set_io_error (error,
_("Error opening file %s: %s"),
file, EISDIR);
return NULL;
}
return _g_local_file_input_stream_new (fd);
}
static GFileOutputStream *
g_local_file_append_to (GFile *file,
GFileCreateFlags flags,
GCancellable *cancellable,
GError **error)
{
return _g_local_file_output_stream_append (G_LOCAL_FILE (file)->filename,
flags, cancellable, error);
}
static GFileOutputStream *
g_local_file_create (GFile *file,
GFileCreateFlags flags,
GCancellable *cancellable,
GError **error)
{
return _g_local_file_output_stream_create (G_LOCAL_FILE (file)->filename,
FALSE, flags, NULL,
cancellable, error);
}
static GFileOutputStream *
g_local_file_replace (GFile *file,
const char *etag,
gboolean make_backup,
GFileCreateFlags flags,
GCancellable *cancellable,
GError **error)
{
return _g_local_file_output_stream_replace (G_LOCAL_FILE (file)->filename,
FALSE,
etag, make_backup, flags, NULL,
cancellable, error);
}
static GFileIOStream *
g_local_file_open_readwrite (GFile *file,
GCancellable *cancellable,
GError **error)
{
GFileOutputStream *output;
GFileIOStream *res;
output = _g_local_file_output_stream_open (G_LOCAL_FILE (file)->filename,
TRUE,
cancellable, error);
if (output == NULL)
return NULL;
res = _g_local_file_io_stream_new (G_LOCAL_FILE_OUTPUT_STREAM (output));
g_object_unref (output);
return res;
}
static GFileIOStream *
g_local_file_create_readwrite (GFile *file,
GFileCreateFlags flags,
GCancellable *cancellable,
GError **error)
{
GFileOutputStream *output;
GFileIOStream *res;
output = _g_local_file_output_stream_create (G_LOCAL_FILE (file)->filename,
TRUE, flags, NULL,
cancellable, error);
if (output == NULL)
return NULL;
res = _g_local_file_io_stream_new (G_LOCAL_FILE_OUTPUT_STREAM (output));
g_object_unref (output);
return res;
}
static GFileIOStream *
g_local_file_replace_readwrite (GFile *file,
const char *etag,
gboolean make_backup,
GFileCreateFlags flags,
GCancellable *cancellable,
GError **error)
{
GFileOutputStream *output;
GFileIOStream *res;
output = _g_local_file_output_stream_replace (G_LOCAL_FILE (file)->filename,
TRUE,
etag, make_backup, flags, NULL,
cancellable, error);
if (output == NULL)
return NULL;
res = _g_local_file_io_stream_new (G_LOCAL_FILE_OUTPUT_STREAM (output));
g_object_unref (output);
return res;
}
static gboolean
g_local_file_delete (GFile *file,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
GVfsClass *class;
GVfs *vfs;
if (g_remove (local->filename) == -1)
{
int errsv = errno;
/* Posix allows EEXIST too, but the clearer error
is G_IO_ERROR_NOT_FOUND, and it's what nautilus
expects */
if (errsv == EEXIST)
errsv = ENOTEMPTY;
g_set_io_error (error,
_("Error removing file %s: %s"),
file, errsv);
return FALSE;
}
vfs = g_vfs_get_default ();
class = G_VFS_GET_CLASS (vfs);
if (class->local_file_removed)
class->local_file_removed (vfs, local->filename);
return TRUE;
}
#ifndef G_OS_WIN32
static char *
strip_trailing_slashes (const char *path)
{
char *path_copy;
int len;
path_copy = g_strdup (path);
len = strlen (path_copy);
while (len > 1 && path_copy[len-1] == '/')
path_copy[--len] = 0;
return path_copy;
}
static char *
expand_symlink (const char *link)
{
char *resolved, *canonical, *parent, *link2;
char symlink_value[4096];
#ifdef G_OS_WIN32
#else
gssize res;
#endif
#ifdef G_OS_WIN32
#else
res = readlink (link, symlink_value, sizeof (symlink_value) - 1);
if (res == -1)
return g_strdup (link);
symlink_value[res] = 0;
#endif
if (g_path_is_absolute (symlink_value))
return g_canonicalize_filename (symlink_value, NULL);
else
{
link2 = strip_trailing_slashes (link);
parent = g_path_get_dirname (link2);
g_free (link2);
resolved = g_build_filename (parent, symlink_value, NULL);
g_free (parent);
canonical = g_canonicalize_filename (resolved, NULL);
g_free (resolved);
return canonical;
}
}
static char *
expand_symlinks (const char *path,
dev_t *dev)
{
char *tmp, *target;
GStatBuf target_stat;
int num_recursions;
target = g_strdup (path);
num_recursions = 0;
do
{
if (g_lstat (target, &target_stat) != 0)
{
g_free (target);
return NULL;
}
if (S_ISLNK (target_stat.st_mode))
{
tmp = target;
target = expand_symlink (target);
g_free (tmp);
}
num_recursions++;
#ifdef MAXSYMLINKS
if (num_recursions > MAXSYMLINKS)
#else
/* 40 is used in kernel sources currently:
* https://github.com/torvalds/linux/include/linux/namei.h
*/
if (num_recursions > 40)
#endif
{
g_free (target);
return NULL;
}
}
while (S_ISLNK (target_stat.st_mode));
if (dev)
*dev = target_stat.st_dev;
return target;
}
static char *
get_parent (const char *path,
dev_t *parent_dev)
{
char *parent, *res;
char *path_copy;
path_copy = strip_trailing_slashes (path);
parent = g_path_get_dirname (path_copy);
if (strcmp (parent, ".") == 0)
{
g_free (parent);
g_free (path_copy);
return NULL;
}
g_free (path_copy);
res = expand_symlinks (parent, parent_dev);
g_free (parent);
return res;
}
static char *
expand_all_symlinks (const char *path)
{
char *parent, *parent_expanded;
char *basename, *res;
dev_t parent_dev;
parent = get_parent (path, &parent_dev);
if (parent == NULL)
return NULL;
if (g_strcmp0 (parent, "/") != 0)
{
parent_expanded = expand_all_symlinks (parent);
basename = g_path_get_basename (path);
res = g_build_filename (parent_expanded, basename, NULL);
g_free (basename);
g_free (parent_expanded);
}
else
res = g_strdup (path);
g_free (parent);
return res;
}
static char *
find_mountpoint_for (const char *file,
dev_t dev,
gboolean resolve_basename_symlink)
{
char *dir, *parent;
dev_t dir_dev, parent_dev;
if (resolve_basename_symlink)
{
dir = expand_symlinks (file, NULL);
if (dir == NULL)
return NULL;
}
else
dir = g_strdup (file);
dir_dev = dev;
while (g_strcmp0 (dir, "/") != 0)
{
parent = get_parent (dir, &parent_dev);
if (parent == NULL)
{
g_free (dir);
return NULL;
}
if (parent_dev != dir_dev)
{
g_free (parent);
return dir;
}
g_free (dir);
dir = parent;
}
return dir;
}
char *
_g_local_file_find_topdir_for (const char *file)
{
char *dir;
char *mountpoint = NULL;
dev_t dir_dev;
dir = get_parent (file, &dir_dev);
if (dir == NULL)
return NULL;
mountpoint = find_mountpoint_for (dir, dir_dev, TRUE);
g_free (dir);
return mountpoint;
}
static char *
get_unique_filename (const char *basename,
int id)
{
const char *dot;
if (id == 1)
return g_strdup (basename);
dot = strchr (basename, '.');
if (dot)
return g_strdup_printf ("%.*s.%d%s", (int)(dot - basename), basename, id, dot);
else
return g_strdup_printf ("%s.%d", basename, id);
}
static gboolean
path_has_prefix (const char *path,
const char *prefix)
{
int prefix_len;
if (prefix == NULL)
return TRUE;
prefix_len = strlen (prefix);
if (strncmp (path, prefix, prefix_len) == 0 &&
(prefix_len == 0 || /* empty prefix always matches */
prefix[prefix_len - 1] == '/' || /* last char in prefix was a /, so it must be in path too */
path[prefix_len] == 0 ||
path[prefix_len] == '/'))
return TRUE;
return FALSE;
}
static char *
try_make_relative (const char *path,
const char *base)
{
char *path2, *base2;
char *relative;
path2 = expand_all_symlinks (path);
base2 = expand_all_symlinks (base);
relative = NULL;
if (path2 != NULL && base2 != NULL && path_has_prefix (path2, base2))
{
relative = path2 + strlen (base2);
while (*relative == '/')
relative ++;
relative = g_strdup (relative);
}
g_free (path2);
g_free (base2);
if (relative)
return relative;
/* Failed, use abs path */
return g_strdup (path);
}
gboolean
_g_local_file_has_trash_dir (const char *dirname, dev_t dir_dev)
{
static gsize home_dev_set = 0;
static dev_t home_dev;
char *topdir, *globaldir, *trashdir, *tmpname;
uid_t uid;
char uid_str[32];
GStatBuf global_stat, trash_stat;
gboolean res;
GUnixMountEntry *mount;
if (g_once_init_enter (&home_dev_set))
{
GStatBuf home_stat;
g_stat (g_get_home_dir (), &home_stat);
home_dev = home_stat.st_dev;
g_once_init_leave (&home_dev_set, 1);
}
/* Assume we can trash to the home */
if (dir_dev == home_dev)
return TRUE;
topdir = find_mountpoint_for (dirname, dir_dev, TRUE);
if (topdir == NULL)
return FALSE;
mount = g_unix_mount_at (topdir, NULL);
if (mount == NULL || g_unix_mount_is_system_internal (mount))
{
g_clear_pointer (&mount, g_unix_mount_free);
g_free (topdir);
return FALSE;
}
g_clear_pointer (&mount, g_unix_mount_free);
globaldir = g_build_filename (topdir, ".Trash", NULL);
if (g_lstat (globaldir, &global_stat) == 0 &&
S_ISDIR (global_stat.st_mode) &&
(global_stat.st_mode & S_ISVTX) != 0)
{
/* got a toplevel sysadmin created dir, assume we
* can trash to it (we should be able to create a dir)
* This fails for the FAT case where the ownership of
* that dir would be wrong though..
*/
g_free (globaldir);
g_free (topdir);
return TRUE;
}
g_free (globaldir);
/* No global trash dir, or it failed the tests, fall back to $topdir/.Trash-$uid */
uid = geteuid ();
g_snprintf (uid_str, sizeof (uid_str), "%lu", (unsigned long) uid);
tmpname = g_strdup_printf (".Trash-%s", uid_str);
trashdir = g_build_filename (topdir, tmpname, NULL);
g_free (tmpname);
if (g_lstat (trashdir, &trash_stat) == 0)
{
g_free (topdir);
g_free (trashdir);
return S_ISDIR (trash_stat.st_mode) &&
trash_stat.st_uid == uid;
}
g_free (trashdir);
/* User specific trash didn't exist, can we create it? */
res = g_access (topdir, W_OK) == 0;
g_free (topdir);
return res;
}
#ifdef G_OS_UNIX
gboolean
_g_local_file_is_lost_found_dir (const char *path, dev_t path_dev)
{
gboolean ret = FALSE;
gchar *mount_dir = NULL;
size_t mount_dir_len;
GStatBuf statbuf;
if (!g_str_has_suffix (path, "/lost+found"))
goto out;
mount_dir = find_mountpoint_for (path, path_dev, FALSE);
if (mount_dir == NULL)
goto out;
mount_dir_len = strlen (mount_dir);
/* We special-case rootfs ('/') since it's the only case where
* mount_dir ends in '/'
*/
if (mount_dir_len == 1)
mount_dir_len--;
if (mount_dir_len + strlen ("/lost+found") != strlen (path))
goto out;
if (g_lstat (path, &statbuf) != 0)
goto out;
if (!(S_ISDIR (statbuf.st_mode) &&
statbuf.st_uid == 0 &&
statbuf.st_gid == 0))
goto out;
ret = TRUE;
out:
g_free (mount_dir);
return ret;
}
#endif
static gboolean
g_local_file_trash (GFile *file,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
GStatBuf file_stat, home_stat;
const char *homedir;
char *trashdir, *topdir, *infodir, *filesdir;
char *basename, *trashname, *trashfile, *infoname, *infofile;
char *original_name, *original_name_escaped;
int i;
char *data;
char *path;
gboolean is_homedir_trash;
char *delete_time = NULL;
int fd;
GStatBuf trash_stat, global_stat;
char *dirname, *globaldir;
GVfsClass *class;
GVfs *vfs;
int errsv;
if (glib_should_use_portal ())
return g_trash_portal_trash_file (file, error);
if (g_lstat (local->filename, &file_stat) != 0)
{
errsv = errno;
g_set_io_error (error,
_("Error trashing file %s: %s"),
file, errsv);
return FALSE;
}
homedir = g_get_home_dir ();
g_stat (homedir, &home_stat);
is_homedir_trash = FALSE;
trashdir = NULL;
/* On overlayfs, a file's st_dev will be different to the home directory's.
* We still want to create our trash directory under the home directory, so
* instead we should stat the directory that the file we're deleting is in as
* this will have the same st_dev.
*/
if (!S_ISDIR (file_stat.st_mode))
{
path = g_path_get_dirname (local->filename);
/* If the parent is a symlink to a different device then it might have
* st_dev equal to the home directory's, in which case we will end up
* trying to rename across a filesystem boundary, which doesn't work. So
* we use g_stat here instead of g_lstat, to know where the symlink
* points to. */
g_stat (path, &file_stat);
g_free (path);
}
if (file_stat.st_dev == home_stat.st_dev)
{
is_homedir_trash = TRUE;
errno = 0;
trashdir = g_build_filename (g_get_user_data_dir (), "Trash", NULL);
if (g_mkdir_with_parents (trashdir, 0700) < 0)
{
char *display_name;
errsv = errno;
display_name = g_filename_display_name (trashdir);
g_set_error (error, G_IO_ERROR,
g_io_error_from_errno (errsv),
_("Unable to create trash dir %s: %s"),
display_name, g_strerror (errsv));
g_free (display_name);
g_free (trashdir);
return FALSE;
}
topdir = g_strdup (g_get_user_data_dir ());
}
else
{
uid_t uid;
char uid_str[32];
GUnixMountEntry *mount;
uid = geteuid ();
g_snprintf (uid_str, sizeof (uid_str), "%lu", (unsigned long)uid);
topdir = _g_local_file_find_topdir_for (local->filename);
if (topdir == NULL)
{
g_set_io_error (error,
_("Unable to find toplevel directory to trash %s"),
file, ENOTSUP);
return FALSE;
}
mount = g_unix_mount_at (topdir, NULL);
if (mount == NULL || g_unix_mount_is_system_internal (mount))
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED,
_("Trashing on system internal mounts is not supported"));
g_clear_pointer (&mount, g_unix_mount_free);
g_free (topdir);
return FALSE;
}
g_clear_pointer (&mount, g_unix_mount_free);
/* Try looking for global trash dir $topdir/.Trash/$uid */
globaldir = g_build_filename (topdir, ".Trash", NULL);
if (g_lstat (globaldir, &global_stat) == 0 &&
S_ISDIR (global_stat.st_mode) &&
(global_stat.st_mode & S_ISVTX) != 0)
{
trashdir = g_build_filename (globaldir, uid_str, NULL);
if (g_lstat (trashdir, &trash_stat) == 0)
{
if (!S_ISDIR (trash_stat.st_mode) ||
trash_stat.st_uid != uid)
{
/* Not a directory or not owned by user, ignore */
g_free (trashdir);
trashdir = NULL;
}
}
else if (g_mkdir (trashdir, 0700) == -1)
{
g_free (trashdir);
trashdir = NULL;
}
}
g_free (globaldir);
if (trashdir == NULL)
{
gboolean tried_create;
/* No global trash dir, or it failed the tests, fall back to $topdir/.Trash-$uid */
dirname = g_strdup_printf (".Trash-%s", uid_str);
trashdir = g_build_filename (topdir, dirname, NULL);
g_free (dirname);
tried_create = FALSE;
retry:
if (g_lstat (trashdir, &trash_stat) == 0)
{
if (!S_ISDIR (trash_stat.st_mode) ||
trash_stat.st_uid != uid)
{
/* Remove the failed directory */
if (tried_create)
g_remove (trashdir);
/* Not a directory or not owned by user, ignore */
g_free (trashdir);
trashdir = NULL;
}
}
else
{
if (!tried_create &&
g_mkdir (trashdir, 0700) != -1)
{
/* Ensure that the created dir has the right uid etc.
This might fail on e.g. a FAT dir */
tried_create = TRUE;
goto retry;
}
else
{
g_free (trashdir);
trashdir = NULL;
}
}
}
if (trashdir == NULL)
{
g_free (topdir);
g_set_io_error (error,
_("Unable to find or create trash directory for %s"),
file, G_IO_ERROR_NOT_SUPPORTED);
return FALSE;
}
}
/* Trashdir points to the trash dir with the "info" and "files" subdirectories */
infodir = g_build_filename (trashdir, "info", NULL);
filesdir = g_build_filename (trashdir, "files", NULL);
g_free (trashdir);
/* Make sure we have the subdirectories */
if ((g_mkdir (infodir, 0700) == -1 && errno != EEXIST) ||
(g_mkdir (filesdir, 0700) == -1 && errno != EEXIST))
{
g_free (topdir);
g_free (infodir);
g_free (filesdir);
g_set_io_error (error,
_("Unable to find or create trash directory for %s"),
file, G_IO_ERROR_NOT_SUPPORTED);
return FALSE;
}
basename = g_path_get_basename (local->filename);
i = 1;
trashname = NULL;
infofile = NULL;
do {
g_free (trashname);
g_free (infofile);
trashname = get_unique_filename (basename, i++);
infoname = g_strconcat (trashname, ".trashinfo", NULL);
infofile = g_build_filename (infodir, infoname, NULL);
g_free (infoname);
fd = g_open (infofile, O_CREAT | O_EXCL, 0666);
errsv = errno;
} while (fd == -1 && errsv == EEXIST);
g_free (basename);
g_free (infodir);
if (fd == -1)
{
errsv = errno;
g_free (filesdir);
g_free (topdir);
g_free (trashname);
g_free (infofile);
g_set_io_error (error,
_("Unable to create trashing info file for %s: %s"),
file, errsv);
return FALSE;
}
(void) g_close (fd, NULL);
/* Write the full content of the info file before trashing to make
* sure someone doesn't read an empty file. See #749314
*/
/* Use absolute names for homedir */
if (is_homedir_trash)
original_name = g_strdup (local->filename);
else
original_name = try_make_relative (local->filename, topdir);
original_name_escaped = g_uri_escape_string (original_name, "/", FALSE);
g_free (original_name);
g_free (topdir);
{
GDateTime *now = g_date_time_new_now_local ();
if (now != NULL)
delete_time = g_date_time_format (now, "%Y-%m-%dT%H:%M:%S");
else
delete_time = g_strdup ("9999-12-31T23:59:59");
g_date_time_unref (now);
}
data = g_strdup_printf ("[Trash Info]\nPath=%s\nDeletionDate=%s\n",
original_name_escaped, delete_time);
g_free (delete_time);
g_file_set_contents_full (infofile, data, -1,
G_FILE_SET_CONTENTS_CONSISTENT | G_FILE_SET_CONTENTS_ONLY_EXISTING,
0600, NULL);
/* TODO: Maybe we should verify that you can delete the file from the trash
* before moving it? OTOH, that is hard, as it needs a recursive scan
*/
trashfile = g_build_filename (filesdir, trashname, NULL);
g_free (filesdir);
if (g_rename (local->filename, trashfile) == -1)
{
errsv = errno;
g_unlink (infofile);
g_free (trashname);
g_free (infofile);
g_free (trashfile);
if (errsv == EXDEV)
/* The trash dir was actually on another fs anyway!?
* This can happen when the same device is mounted multiple
* times, or with bind mounts of the same fs.
*/
g_set_io_error (error,
_("Unable to trash file %s across filesystem boundaries"),
file, ENOTSUP);
else
g_set_io_error (error,
_("Unable to trash file %s: %s"),
file, errsv);
return FALSE;
}
vfs = g_vfs_get_default ();
class = G_VFS_GET_CLASS (vfs);
if (class->local_file_moved)
class->local_file_moved (vfs, local->filename, trashfile);
g_free (trashfile);
/* TODO: Do we need to update mtime/atime here after the move? */
g_free (infofile);
g_free (data);
g_free (original_name_escaped);
g_free (trashname);
return TRUE;
}
#else /* G_OS_WIN32 */
gboolean
_g_local_file_has_trash_dir (const char *dirname, dev_t dir_dev)
{
return FALSE; /* XXX ??? */
}
static gboolean
g_local_file_trash (GFile *file,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
SHFILEOPSTRUCTW op = {0};
gboolean success;
wchar_t *wfilename;
long len;
wfilename = g_utf8_to_utf16 (local->filename, -1, NULL, &len, NULL);
/* SHFILEOPSTRUCT.pFrom is double-zero-terminated */
wfilename = g_renew (wchar_t, wfilename, len + 2);
wfilename[len + 1] = 0;
op.wFunc = FO_DELETE;
op.pFrom = wfilename;
op.fFlags = FOF_ALLOWUNDO;
success = SHFileOperationW (&op) == 0;
if (success && op.fAnyOperationsAborted)
{
if (cancellable && !g_cancellable_is_cancelled (cancellable))
g_cancellable_cancel (cancellable);
g_set_io_error (error,
_("Unable to trash file %s: %s"),
file, ECANCELED);
success = FALSE;
}
else if (!success)
g_set_io_error (error,
_("Unable to trash file %s"),
file, 0);
g_free (wfilename);
return success;
}
#endif /* G_OS_WIN32 */
static gboolean
g_local_file_make_directory (GFile *file,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
if (g_mkdir (local->filename, 0777) == -1)
{
int errsv = errno;
if (errsv == EINVAL)
/* This must be an invalid filename, on e.g. FAT */
g_set_error_literal (error, G_IO_ERROR,
G_IO_ERROR_INVALID_FILENAME,
_("Invalid filename"));
else
g_set_io_error (error,
_("Error creating directory %s: %s"),
file, errsv);
return FALSE;
}
return TRUE;
}
#ifdef HAVE_SYMLINK
static gboolean
g_local_file_make_symbolic_link (GFile *file,
const char *symlink_value,
GCancellable *cancellable,
GError **error)
{
GLocalFile *local = G_LOCAL_FILE (file);
if (symlink (symlink_value, local->filename) == -1)
{
int errsv = errno;
if (errsv == EINVAL)
/* This must be an invalid filename, on e.g. FAT */
g_set_error_literal (error, G_IO_ERROR,
G_IO_ERROR_INVALID_FILENAME,
_("Invalid filename"));
else if (errsv == EPERM)
g_set_error (error, G_IO_ERROR,
G_IO_ERROR_NOT_SUPPORTED,
_("Filesystem does not support symbolic links"));
else
g_set_io_error (error,
_("Error making symbolic link %s: %s"),
file, errsv);
return FALSE;
}
return TRUE;
}
#endif
static gboolean
g_local_file_move (GFile *source,
GFile *destination,
GFileCopyFlags flags,
GCancellable *cancellable,
GFileProgressCallback progress_callback,
gpointer progress_callback_data,
GError **error)
{
GLocalFile *local_source, *local_destination;
GStatBuf statbuf;
gboolean destination_exist, source_is_dir;
char *backup_name;
int res;
off_t source_size;
GVfsClass *class;
GVfs *vfs;
if (!G_IS_LOCAL_FILE (source) ||
!G_IS_LOCAL_FILE (destination))
{
/* Fall back to default move */
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED, "Move not supported");
return FALSE;
}
local_source = G_LOCAL_FILE (source);
local_destination = G_LOCAL_FILE (destination);
res = g_lstat (local_source->filename, &statbuf);
if (res == -1)
{
int errsv = errno;
g_set_io_error (error,
_("Error moving file %s: %s"),
source, errsv);
return FALSE;
}
source_is_dir = S_ISDIR (statbuf.st_mode);
source_size = statbuf.st_size;
destination_exist = FALSE;
res = g_lstat (local_destination->filename, &statbuf);
if (res == 0)
{
destination_exist = TRUE; /* Target file exists */
if (flags & G_FILE_COPY_OVERWRITE)
{
/* Always fail on dirs, even with overwrite */
if (S_ISDIR (statbuf.st_mode))
{
if (source_is_dir)
g_set_error_literal (error,
G_IO_ERROR,
G_IO_ERROR_WOULD_MERGE,
_("Cant move directory over directory"));
else
g_set_error_literal (error,
G_IO_ERROR,
G_IO_ERROR_IS_DIRECTORY,
_("Cant copy over directory"));
return FALSE;
}
}
else
{
g_set_io_error (error,
_("Error moving file %s: %s"),
source, EEXIST);
return FALSE;
}
}
if (flags & G_FILE_COPY_BACKUP && destination_exist)
{
backup_name = g_strconcat (local_destination->filename, "~", NULL);
if (g_rename (local_destination->filename, backup_name) == -1)
{
g_set_error_literal (error,
G_IO_ERROR,
G_IO_ERROR_CANT_CREATE_BACKUP,
_("Backup file creation failed"));
g_free (backup_name);
return FALSE;
}
g_free (backup_name);
destination_exist = FALSE; /* It did, but no more */
}
if (source_is_dir && destination_exist && (flags & G_FILE_COPY_OVERWRITE))
{
/* Source is a dir, destination exists (and is not a dir, because that would have failed
earlier), and we're overwriting. Manually remove the target so we can do the rename. */
res = g_unlink (local_destination->filename);
if (res == -1)
{
int errsv = errno;
g_set_error (error, G_IO_ERROR,
g_io_error_from_errno (errsv),
_("Error removing target file: %s"),
g_strerror (errsv));
return FALSE;
}
}
if (g_rename (local_source->filename, local_destination->filename) == -1)
{
int errsv = errno;
if (errsv == EXDEV)
/* This will cause the fallback code to run */
g_set_error_literal (error, G_IO_ERROR,
G_IO_ERROR_NOT_SUPPORTED,
_("Move between mounts not supported"));
else if (errsv == EINVAL)
/* This must be an invalid filename, on e.g. FAT, or
we're trying to move the file into itself...
We return invalid filename for both... */
g_set_error_literal (error, G_IO_ERROR,
G_IO_ERROR_INVALID_FILENAME,
_("Invalid filename"));
else
g_set_io_error (error,
_("Error moving file %s: %s"),
source, errsv);
return FALSE;
}
vfs = g_vfs_get_default ();
class = G_VFS_GET_CLASS (vfs);
if (class->local_file_moved)
class->local_file_moved (vfs, local_source->filename, local_destination->filename);
/* Make sure we send full copied size */
if (progress_callback)
progress_callback (source_size, source_size, progress_callback_data);
return TRUE;
}
#ifdef G_OS_WIN32
substantially rework file monitors Remove all event merging and dispatch logic from GFileMonitor. The only implementation of GFileMonitor outside of glib is in gvfs and it already does these things properly. Get rid of GLocalDirectoryMonitor. We will use a single class, GLocalFileMonitor, for both directory and file monitoring. This will prevent every single backend from having to create two objects separately (eg: ginotifydirectorymonitor.c and ginotifyfilemonitor.c). Introduce GFileMonitorSource as a thread-safe cross-context dispatch mechanism. Put it in GLocalFileMonitor. All backends will be expected to dispatch via the source and not touch the GFileMonitor object at all from the worker thread. Remove all construct properties from GLocalFileMonitor and remove the "context" construct property from GFileMonitor. All backends must now get the information about what file to monitor from the ->start() call which is mandatory to implement. Remove the implementation of rate limiting in GFileMonitor and add an implementation in GLocalFileMonitor. gvfs never did anything with this anyway, but if it wanted to, it would have to implement it for itself. This was done in order to get the rate_limit field into the GFileMonitorSource so that it could be safely accessed from the worker thread. Expose g_local_file_is_remote() internally for NFS detection. With the "is_remote" functionality exposed, we can now move all functions for creating local file monitors to a proper location in glocalfilemonitor.c Port the inotify backend to adjust to the changes above. None of the other backends are ported yet. Those will come in future commits.
2015-01-12 20:59:35 +01:00
gboolean
g_local_file_is_nfs_home (const gchar *filename)
{
return FALSE;
}
#else
static gboolean
is_remote_fs_type (const gchar *fsname)
{
if (fsname != NULL)
{
if (strcmp (fsname, "nfs") == 0)
return TRUE;
if (strcmp (fsname, "nfs4") == 0)
return TRUE;
if (strcmp (fsname, "cifs") == 0)
return TRUE;
if (strcmp (fsname, "smb") == 0)
return TRUE;
if (strcmp (fsname, "smb2") == 0)
return TRUE;
}
return FALSE;
}
substantially rework file monitors Remove all event merging and dispatch logic from GFileMonitor. The only implementation of GFileMonitor outside of glib is in gvfs and it already does these things properly. Get rid of GLocalDirectoryMonitor. We will use a single class, GLocalFileMonitor, for both directory and file monitoring. This will prevent every single backend from having to create two objects separately (eg: ginotifydirectorymonitor.c and ginotifyfilemonitor.c). Introduce GFileMonitorSource as a thread-safe cross-context dispatch mechanism. Put it in GLocalFileMonitor. All backends will be expected to dispatch via the source and not touch the GFileMonitor object at all from the worker thread. Remove all construct properties from GLocalFileMonitor and remove the "context" construct property from GFileMonitor. All backends must now get the information about what file to monitor from the ->start() call which is mandatory to implement. Remove the implementation of rate limiting in GFileMonitor and add an implementation in GLocalFileMonitor. gvfs never did anything with this anyway, but if it wanted to, it would have to implement it for itself. This was done in order to get the rate_limit field into the GFileMonitorSource so that it could be safely accessed from the worker thread. Expose g_local_file_is_remote() internally for NFS detection. With the "is_remote" functionality exposed, we can now move all functions for creating local file monitors to a proper location in glocalfilemonitor.c Port the inotify backend to adjust to the changes above. None of the other backends are ported yet. Those will come in future commits.
2015-01-12 20:59:35 +01:00
gboolean
g_local_file_is_nfs_home (const gchar *filename)
{
static gboolean remote_home = FALSE;
static gsize initialized;
const gchar *home;
home = g_get_home_dir ();
if (path_has_prefix (filename, home))
{
if (g_once_init_enter (&initialized))
{
GFile *file;
GFileInfo *info;
const gchar *fs_type = NULL;
file = _g_local_file_new (home);
info = g_local_file_query_filesystem_info (file, G_FILE_ATTRIBUTE_FILESYSTEM_TYPE, NULL, NULL);
if (info != NULL)
fs_type = g_file_info_get_attribute_string (info, G_FILE_ATTRIBUTE_FILESYSTEM_TYPE);
if (g_strcmp0 (fs_type, "nfs") == 0 || g_strcmp0 (fs_type, "nfs4") == 0)
remote_home = TRUE;
g_clear_object (&info);
g_object_unref (file);
g_once_init_leave (&initialized, TRUE);
}
return remote_home;
}
return FALSE;
}
#endif /* !G_OS_WIN32 */
static GFileMonitor*
g_local_file_monitor_dir (GFile *file,
GFileMonitorFlags flags,
GCancellable *cancellable,
GError **error)
{
substantially rework file monitors Remove all event merging and dispatch logic from GFileMonitor. The only implementation of GFileMonitor outside of glib is in gvfs and it already does these things properly. Get rid of GLocalDirectoryMonitor. We will use a single class, GLocalFileMonitor, for both directory and file monitoring. This will prevent every single backend from having to create two objects separately (eg: ginotifydirectorymonitor.c and ginotifyfilemonitor.c). Introduce GFileMonitorSource as a thread-safe cross-context dispatch mechanism. Put it in GLocalFileMonitor. All backends will be expected to dispatch via the source and not touch the GFileMonitor object at all from the worker thread. Remove all construct properties from GLocalFileMonitor and remove the "context" construct property from GFileMonitor. All backends must now get the information about what file to monitor from the ->start() call which is mandatory to implement. Remove the implementation of rate limiting in GFileMonitor and add an implementation in GLocalFileMonitor. gvfs never did anything with this anyway, but if it wanted to, it would have to implement it for itself. This was done in order to get the rate_limit field into the GFileMonitorSource so that it could be safely accessed from the worker thread. Expose g_local_file_is_remote() internally for NFS detection. With the "is_remote" functionality exposed, we can now move all functions for creating local file monitors to a proper location in glocalfilemonitor.c Port the inotify backend to adjust to the changes above. None of the other backends are ported yet. Those will come in future commits.
2015-01-12 20:59:35 +01:00
GLocalFile *local_file = G_LOCAL_FILE (file);
return g_local_file_monitor_new_for_path (local_file->filename, TRUE, flags, error);
}
static GFileMonitor*
g_local_file_monitor_file (GFile *file,
GFileMonitorFlags flags,
GCancellable *cancellable,
GError **error)
{
substantially rework file monitors Remove all event merging and dispatch logic from GFileMonitor. The only implementation of GFileMonitor outside of glib is in gvfs and it already does these things properly. Get rid of GLocalDirectoryMonitor. We will use a single class, GLocalFileMonitor, for both directory and file monitoring. This will prevent every single backend from having to create two objects separately (eg: ginotifydirectorymonitor.c and ginotifyfilemonitor.c). Introduce GFileMonitorSource as a thread-safe cross-context dispatch mechanism. Put it in GLocalFileMonitor. All backends will be expected to dispatch via the source and not touch the GFileMonitor object at all from the worker thread. Remove all construct properties from GLocalFileMonitor and remove the "context" construct property from GFileMonitor. All backends must now get the information about what file to monitor from the ->start() call which is mandatory to implement. Remove the implementation of rate limiting in GFileMonitor and add an implementation in GLocalFileMonitor. gvfs never did anything with this anyway, but if it wanted to, it would have to implement it for itself. This was done in order to get the rate_limit field into the GFileMonitorSource so that it could be safely accessed from the worker thread. Expose g_local_file_is_remote() internally for NFS detection. With the "is_remote" functionality exposed, we can now move all functions for creating local file monitors to a proper location in glocalfilemonitor.c Port the inotify backend to adjust to the changes above. None of the other backends are ported yet. Those will come in future commits.
2015-01-12 20:59:35 +01:00
GLocalFile *local_file = G_LOCAL_FILE (file);
substantially rework file monitors Remove all event merging and dispatch logic from GFileMonitor. The only implementation of GFileMonitor outside of glib is in gvfs and it already does these things properly. Get rid of GLocalDirectoryMonitor. We will use a single class, GLocalFileMonitor, for both directory and file monitoring. This will prevent every single backend from having to create two objects separately (eg: ginotifydirectorymonitor.c and ginotifyfilemonitor.c). Introduce GFileMonitorSource as a thread-safe cross-context dispatch mechanism. Put it in GLocalFileMonitor. All backends will be expected to dispatch via the source and not touch the GFileMonitor object at all from the worker thread. Remove all construct properties from GLocalFileMonitor and remove the "context" construct property from GFileMonitor. All backends must now get the information about what file to monitor from the ->start() call which is mandatory to implement. Remove the implementation of rate limiting in GFileMonitor and add an implementation in GLocalFileMonitor. gvfs never did anything with this anyway, but if it wanted to, it would have to implement it for itself. This was done in order to get the rate_limit field into the GFileMonitorSource so that it could be safely accessed from the worker thread. Expose g_local_file_is_remote() internally for NFS detection. With the "is_remote" functionality exposed, we can now move all functions for creating local file monitors to a proper location in glocalfilemonitor.c Port the inotify backend to adjust to the changes above. None of the other backends are ported yet. Those will come in future commits.
2015-01-12 20:59:35 +01:00
return g_local_file_monitor_new_for_path (local_file->filename, FALSE, flags, error);
}
/* Here is the GLocalFile implementation of g_file_measure_disk_usage().
*
* If available, we use fopenat() in preference to filenames for
* efficiency and safety reasons. We know that fopenat() is available
* based on if AT_FDCWD is defined. POSIX guarantees that this will be
* defined as a macro.
*
* We use a linked list of stack-allocated GSList nodes in order to be
* able to reconstruct the filename for error messages. We actually
* pass the filename to operate on through the top node of the list.
*
* In case we're using openat(), this top filename will be a basename
* which should be opened in the directory which has also had its fd
* passed along. If we're not using openat() then it will be a full
* absolute filename.
*/
static gboolean
g_local_file_measure_size_error (GFileMeasureFlags flags,
gint saved_errno,
GSList *name,
GError **error)
{
/* Only report an error if we were at the toplevel or if the caller
* requested reporting of all errors.
*/
if ((name->next == NULL) || (flags & G_FILE_MEASURE_REPORT_ANY_ERROR))
{
GString *filename;
GSList *node;
/* Skip some work if there is no error return */
if (!error)
return FALSE;
#ifdef AT_FDCWD
/* If using openat() we need to rebuild the filename for the message */
filename = g_string_new (name->data);
for (node = name->next; node; node = node->next)
{
gchar *utf8;
g_string_prepend_c (filename, G_DIR_SEPARATOR);
utf8 = g_filename_display_name (node->data);
g_string_prepend (filename, utf8);
g_free (utf8);
}
#else
{
gchar *utf8;
/* Otherwise, we already have it, so just use it. */
node = name;
filename = g_string_new (NULL);
utf8 = g_filename_display_name (node->data);
g_string_append (filename, utf8);
g_free (utf8);
}
#endif
g_set_error (error, G_IO_ERROR, g_io_error_from_errno (saved_errno),
_("Could not determine the disk usage of %s: %s"),
filename->str, g_strerror (saved_errno));
g_string_free (filename, TRUE);
return FALSE;
}
else
/* We're not reporting this error... */
return TRUE;
}
typedef struct
{
GFileMeasureFlags flags;
dev_t contained_on;
GCancellable *cancellable;
GFileMeasureProgressCallback progress_callback;
gpointer progress_data;
guint64 disk_usage;
guint64 num_dirs;
guint64 num_files;
guint64 last_progress_report;
} MeasureState;
static gboolean
g_local_file_measure_size_of_contents (gint fd,
GSList *dir_name,
MeasureState *state,
GError **error);
static gboolean
g_local_file_measure_size_of_file (gint parent_fd,
GSList *name,
MeasureState *state,
GError **error)
{
GLocalFileStat buf;
if (g_cancellable_set_error_if_cancelled (state->cancellable, error))
return FALSE;
#if defined (AT_FDCWD)
if (fstatat (parent_fd, name->data, &buf, AT_SYMLINK_NOFOLLOW) != 0)
{
int errsv = errno;
return g_local_file_measure_size_error (state->flags, errsv, name, error);
}
#elif defined (HAVE_LSTAT) || !defined (G_OS_WIN32)
if (g_lstat (name->data, &buf) != 0)
{
int errsv = errno;
return g_local_file_measure_size_error (state->flags, errsv, name, error);
}
W32: Add a stat() implementation for private use This commit adds new W32-only functions to gstdio.c, and a new header file, gstdioprivate.h. These functions are: g_win32_stat_utf8() g_win32_lstat_utf8() g_win32_fstat() and they fill a private structure, GWin32PrivateStat, which has all the fields that normal stat has, as well as some extras. These functions are then used throughout glib and gio to get better data about the system. Specifically: * Full, 64-bit size, guaranteed (g_stat() is forced to use 32-bit st_size) * Full, 64-bit file identifier (st_ino is 0 when normal stat() is used, and still is) * W32 File attributes (which stat() doesn't report); in particular, this allows symlinks to be correctly identified * Full, 64-bit time, guaranteed (g_stat() uses 32-bit st_*time on 32-bit Windows) * Allocated file size (as a W32 replacement for the missing st_blocks) st_mode remains unchanged (thus, no S_ISLNK), so when these are given back to glib users (via g_stat(), for example, which is now implemented by calling g_win32_stat_utf8), this field does not contain anything unexpected. g_lstat() now calls g_win32_lstat_utf8(), which works on symlinks the way it's supposed to. Also adds the g_win32_readlink_utf8() function, which behaves like readlink() (including its inability to return 0-terminated strings and inability to say how large the output buffer should be; these limitations are purely for compatibility with existing glib code). Thus, symlink support should now be much better, although far from being complete. A new W32-only test in gio/tests/file.c highlights the following features: * allocated size * 64-bit time * unique file IDs https://bugzilla.gnome.org/show_bug.cgi?id=788180
2017-09-29 12:14:41 +02:00
#else /* !AT_FDCWD && !HAVE_LSTAT && G_OS_WIN32 */
if (GLIB_PRIVATE_CALL (g_win32_lstat_utf8) (name->data, &buf) != 0)
{
int errsv = errno;
return g_local_file_measure_size_error (state->flags, errsv, name, error);
}
#endif
if (name->next)
{
/* If not at the toplevel, check for a device boundary. */
if (state->flags & G_FILE_MEASURE_NO_XDEV)
if (state->contained_on != buf.st_dev)
return TRUE;
}
else
{
/* If, however, this is the toplevel, set the device number so
* that recursive invocations can compare against it.
*/
state->contained_on = buf.st_dev;
}
W32: Add a stat() implementation for private use This commit adds new W32-only functions to gstdio.c, and a new header file, gstdioprivate.h. These functions are: g_win32_stat_utf8() g_win32_lstat_utf8() g_win32_fstat() and they fill a private structure, GWin32PrivateStat, which has all the fields that normal stat has, as well as some extras. These functions are then used throughout glib and gio to get better data about the system. Specifically: * Full, 64-bit size, guaranteed (g_stat() is forced to use 32-bit st_size) * Full, 64-bit file identifier (st_ino is 0 when normal stat() is used, and still is) * W32 File attributes (which stat() doesn't report); in particular, this allows symlinks to be correctly identified * Full, 64-bit time, guaranteed (g_stat() uses 32-bit st_*time on 32-bit Windows) * Allocated file size (as a W32 replacement for the missing st_blocks) st_mode remains unchanged (thus, no S_ISLNK), so when these are given back to glib users (via g_stat(), for example, which is now implemented by calling g_win32_stat_utf8), this field does not contain anything unexpected. g_lstat() now calls g_win32_lstat_utf8(), which works on symlinks the way it's supposed to. Also adds the g_win32_readlink_utf8() function, which behaves like readlink() (including its inability to return 0-terminated strings and inability to say how large the output buffer should be; these limitations are purely for compatibility with existing glib code). Thus, symlink support should now be much better, although far from being complete. A new W32-only test in gio/tests/file.c highlights the following features: * allocated size * 64-bit time * unique file IDs https://bugzilla.gnome.org/show_bug.cgi?id=788180
2017-09-29 12:14:41 +02:00
#if defined (G_OS_WIN32)
if (~state->flags & G_FILE_MEASURE_APPARENT_SIZE)
state->disk_usage += buf.allocated_size;
else
#elif defined (HAVE_STRUCT_STAT_ST_BLOCKS)
if (~state->flags & G_FILE_MEASURE_APPARENT_SIZE)
state->disk_usage += buf.st_blocks * G_GUINT64_CONSTANT (512);
else
#endif
state->disk_usage += buf.st_size;
if (S_ISDIR (buf.st_mode))
state->num_dirs++;
else
state->num_files++;
if (state->progress_callback)
{
/* We could attempt to do some cleverness here in order to avoid
* calling clock_gettime() so much, but we're doing stats and opens
* all over the place already...
*/
if (state->last_progress_report)
{
guint64 now;
now = g_get_monotonic_time ();
if (state->last_progress_report + 200 * G_TIME_SPAN_MILLISECOND < now)
{
(* state->progress_callback) (TRUE,
state->disk_usage, state->num_dirs, state->num_files,
state->progress_data);
state->last_progress_report = now;
}
}
else
{
/* We must do an initial report to inform that more reports
* will be coming.
*/
(* state->progress_callback) (TRUE, 0, 0, 0, state->progress_data);
state->last_progress_report = g_get_monotonic_time ();
}
}
if (S_ISDIR (buf.st_mode))
{
int dir_fd = -1;
#ifdef AT_FDCWD
int errsv;
#endif
if (g_cancellable_set_error_if_cancelled (state->cancellable, error))
return FALSE;
#ifdef AT_FDCWD
#ifdef HAVE_OPEN_O_DIRECTORY
dir_fd = openat (parent_fd, name->data, O_RDONLY|O_DIRECTORY);
#else
dir_fd = openat (parent_fd, name->data, O_RDONLY);
#endif
errsv = errno;
if (dir_fd < 0)
return g_local_file_measure_size_error (state->flags, errsv, name, error);
#endif
if (!g_local_file_measure_size_of_contents (dir_fd, name, state, error))
return FALSE;
}
return TRUE;
}
static gboolean
g_local_file_measure_size_of_contents (gint fd,
GSList *dir_name,
MeasureState *state,
GError **error)
{
gboolean success = TRUE;
const gchar *name;
GDir *dir;
#ifdef AT_FDCWD
{
/* If this fails, we want to preserve the errno from fopendir() */
DIR *dirp;
dirp = fdopendir (fd);
dir = dirp ? GLIB_PRIVATE_CALL(g_dir_new_from_dirp) (dirp) : NULL;
}
#else
dir = GLIB_PRIVATE_CALL(g_dir_open_with_errno) (dir_name->data, 0);
#endif
if (dir == NULL)
{
gint saved_errno = errno;
#ifdef AT_FDCWD
close (fd);
#endif
return g_local_file_measure_size_error (state->flags, saved_errno, dir_name, error);
}
while (success && (name = g_dir_read_name (dir)))
{
GSList node;
node.next = dir_name;
#ifdef AT_FDCWD
node.data = (gchar *) name;
#else
node.data = g_build_filename (dir_name->data, name, NULL);
#endif
success = g_local_file_measure_size_of_file (fd, &node, state, error);
#ifndef AT_FDCWD
g_free (node.data);
#endif
}
g_dir_close (dir);
return success;
}
static gboolean
g_local_file_measure_disk_usage (GFile *file,
GFileMeasureFlags flags,
GCancellable *cancellable,
GFileMeasureProgressCallback progress_callback,
gpointer progress_data,
guint64 *disk_usage,
guint64 *num_dirs,
guint64 *num_files,
GError **error)
{
GLocalFile *local_file = G_LOCAL_FILE (file);
MeasureState state = { 0, };
gint root_fd = -1;
GSList node;
state.flags = flags;
state.cancellable = cancellable;
state.progress_callback = progress_callback;
state.progress_data = progress_data;
#ifdef AT_FDCWD
root_fd = AT_FDCWD;
#endif
node.data = local_file->filename;
node.next = NULL;
if (!g_local_file_measure_size_of_file (root_fd, &node, &state, error))
return FALSE;
if (disk_usage)
*disk_usage = state.disk_usage;
if (num_dirs)
*num_dirs = state.num_dirs;
if (num_files)
*num_files = state.num_files;
return TRUE;
}
static void
g_local_file_file_iface_init (GFileIface *iface)
{
iface->dup = g_local_file_dup;
iface->hash = g_local_file_hash;
iface->equal = g_local_file_equal;
iface->is_native = g_local_file_is_native;
iface->has_uri_scheme = g_local_file_has_uri_scheme;
iface->get_uri_scheme = g_local_file_get_uri_scheme;
iface->get_basename = g_local_file_get_basename;
iface->get_path = g_local_file_get_path;
iface->get_uri = g_local_file_get_uri;
iface->get_parse_name = g_local_file_get_parse_name;
iface->get_parent = g_local_file_get_parent;
iface->prefix_matches = g_local_file_prefix_matches;
iface->get_relative_path = g_local_file_get_relative_path;
iface->resolve_relative_path = g_local_file_resolve_relative_path;
iface->get_child_for_display_name = g_local_file_get_child_for_display_name;
iface->set_display_name = g_local_file_set_display_name;
iface->enumerate_children = g_local_file_enumerate_children;
iface->query_info = g_local_file_query_info;
iface->query_filesystem_info = g_local_file_query_filesystem_info;
Rework how volumes, drives and volume monitoring is done. Previosly the 2007-12-11 David Zeuthen <davidz@redhat.com> Rework how volumes, drives and volume monitoring is done. Previosly the model was GDrive <1-1> GVolume where a GDrive instance represented a mount point and a GVolume instance represented a mounted file system. This patch changes it the model to GDrive <1-N> GVolume <1-1> GMount where GMount now serves the purpose of the old GVolume and the new GVolume serves the purpose of the old GDrive. In addition the new GDrive interface is used to represent a collection of GVolume instances (typically partitions) and also contains utility to query the state of the physical drive the GDrive object represents (such as checking for media, polling the drive, ejecting the media etc.). Also implement mounting and unmounting in the Unix volume monitor backend. A subquent patch will introduce GDrive support for ejection of media. * Makefile.am: * gdrive.c: (g_drive_is_media_check_automatic), (g_drive_is_media_removable), (g_drive_has_media), (g_drive_can_poll_for_media), (g_drive_eject), (g_drive_eject_finish), (g_drive_poll_for_media), (g_drive_poll_for_media_finish): * gdrive.h: * gfile.c: (g_file_find_enclosing_mount): * gfile.h: * gio.symbols: * glocaldirectorymonitor.c: (g_local_directory_monitor_constructor), (mounts_changed): * glocalfile.c: (get_mount_info), (g_local_file_find_enclosing_mount), (g_local_file_file_iface_init): * gnativevolumemonitor.h: * gunionvolumemonitor.c: (get_mounts), (get_volumes), (get_connected_drives), (g_union_volume_monitor_class_init), (child_volume_added), (child_volume_removed), (child_volume_changed), (child_mount_added), (child_mount_removed), (child_mount_pre_unmount), (child_mount_changed), (child_drive_changed), (g_union_volume_monitor_add_monitor), (g_union_volume_monitor_remove_monitor), (_g_mount_get_for_mount_path): * gunixmounts.c: (g_unix_is_mount_path_system_internal), (guess_system_internal), (_g_get_unix_mounts), (_g_get_unix_mount_points), (g_get_unix_mount_at), (g_unix_mount_free), (g_unix_mount_compare), (g_unix_mount_get_mount_path), (g_unix_mount_get_device_path), (g_unix_mount_get_fs_type), (g_unix_mount_is_readonly), (g_unix_mount_is_system_internal), (g_unix_mount_guess_type), (type_to_icon), (g_unix_mount_guess_name), (g_unix_mount_guess_icon), (g_unix_mount_point_guess_name), (g_unix_mount_point_guess_icon), (_canonicalize_filename), (_resolve_symlink), (_resolve_dev_root): * gunixmounts.h: * gunixvolume.c: (g_unix_volume_finalize), (_g_unix_volume_new), (_g_unix_volume_disconnected), (_g_unix_volume_set_mount), (_g_unix_volume_unset_mount), (g_unix_volume_get_icon), (g_unix_volume_get_name), (g_unix_volume_can_mount), (g_unix_volume_get_drive), (g_unix_volume_get_mount), (_g_unix_volume_has_mount_path), (mount_cb), (mount_read_error), (g_unix_volume_mount), (g_unix_volume_mount_finish), (g_unix_volume_volume_iface_init): * gunixvolume.h: * gunixvolumemonitor.c: (g_unix_volume_monitor_finalize), (get_mounts), (get_volumes), (get_connected_drives), (get_mount_for_mount_path), (g_unix_volume_monitor_class_init), (mountpoints_changed), (mounts_changed), (g_unix_volume_monitor_init), (_g_unix_volume_monitor_lookup_volume_for_mount_path), (find_mount_by_mountpath), (update_volumes), (update_mounts): * gunixvolumemonitor.h: * gvolume.c: (g_volume_get_mount), (g_volume_can_mount), (g_volume_mount), (g_volume_mount_finish): * gvolume.h: * gvolumemonitor.c: (g_volume_monitor_class_init), (g_volume_monitor_get_connected_drives), (g_volume_monitor_get_volumes), (g_volume_monitor_get_mounts): * gvolumemonitor.h: svn path=/trunk/; revision=6095
2007-12-11 22:23:55 +01:00
iface->find_enclosing_mount = g_local_file_find_enclosing_mount;
iface->query_settable_attributes = g_local_file_query_settable_attributes;
iface->query_writable_namespaces = g_local_file_query_writable_namespaces;
iface->set_attribute = g_local_file_set_attribute;
iface->set_attributes_from_info = g_local_file_set_attributes_from_info;
iface->read_fn = g_local_file_read;
iface->append_to = g_local_file_append_to;
iface->create = g_local_file_create;
iface->replace = g_local_file_replace;
iface->open_readwrite = g_local_file_open_readwrite;
iface->create_readwrite = g_local_file_create_readwrite;
iface->replace_readwrite = g_local_file_replace_readwrite;
iface->delete_file = g_local_file_delete;
iface->trash = g_local_file_trash;
iface->make_directory = g_local_file_make_directory;
#ifdef HAVE_SYMLINK
iface->make_symbolic_link = g_local_file_make_symbolic_link;
#endif
iface->move = g_local_file_move;
iface->monitor_dir = g_local_file_monitor_dir;
iface->monitor_file = g_local_file_monitor_file;
iface->measure_disk_usage = g_local_file_measure_disk_usage;
iface->supports_thread_contexts = TRUE;
}