/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */ /* GIO - GLib Input, Output and Streaming Library * * Copyright (C) 2006-2007 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General * Public License along with this library; if not, see . * * Author: Alexander Larsson */ /* Prologue {{{1 */ #include "config.h" #include #include #include #ifndef HAVE_SYSCTLBYNAME #ifdef HAVE_SYS_PARAM_H #include #endif #endif #ifdef HAVE_POLL #include #endif #include #include #include #include #include #include #include #include #if HAVE_SYS_STATFS_H #include #endif #if HAVE_SYS_STATVFS_H #include #endif #if HAVE_SYS_VFS_H #include #elif HAVE_SYS_MOUNT_H #if HAVE_SYS_PARAM_H #include #endif #include #endif #ifndef O_BINARY #define O_BINARY 0 #endif #include "gunixmounts.h" #include "glocalfileprivate.h" #include "gfile.h" #include "gfilemonitor.h" #include "glibintl.h" #include "gthemedicon.h" #include "gcontextspecificgroup.h" #ifdef HAVE_MNTENT_H static const char *_resolve_dev_root (void); #endif /** * SECTION:gunixmounts * @include: gio/gunixmounts.h * @short_description: UNIX mounts * * Routines for managing mounted UNIX mount points and paths. * * Note that `` belongs to the UNIX-specific GIO * interfaces, thus you have to use the `gio-unix-2.0.pc` pkg-config * file when using it. */ /** * GUnixMountType: * @G_UNIX_MOUNT_TYPE_UNKNOWN: Unknown UNIX mount type. * @G_UNIX_MOUNT_TYPE_FLOPPY: Floppy disk UNIX mount type. * @G_UNIX_MOUNT_TYPE_CDROM: CDROM UNIX mount type. * @G_UNIX_MOUNT_TYPE_NFS: Network File System (NFS) UNIX mount type. * @G_UNIX_MOUNT_TYPE_ZIP: ZIP UNIX mount type. * @G_UNIX_MOUNT_TYPE_JAZ: JAZZ UNIX mount type. * @G_UNIX_MOUNT_TYPE_MEMSTICK: Memory Stick UNIX mount type. * @G_UNIX_MOUNT_TYPE_CF: Compact Flash UNIX mount type. * @G_UNIX_MOUNT_TYPE_SM: Smart Media UNIX mount type. * @G_UNIX_MOUNT_TYPE_SDMMC: SD/MMC UNIX mount type. * @G_UNIX_MOUNT_TYPE_IPOD: iPod UNIX mount type. * @G_UNIX_MOUNT_TYPE_CAMERA: Digital camera UNIX mount type. * @G_UNIX_MOUNT_TYPE_HD: Hard drive UNIX mount type. * * Types of UNIX mounts. **/ typedef enum { G_UNIX_MOUNT_TYPE_UNKNOWN, G_UNIX_MOUNT_TYPE_FLOPPY, G_UNIX_MOUNT_TYPE_CDROM, G_UNIX_MOUNT_TYPE_NFS, G_UNIX_MOUNT_TYPE_ZIP, G_UNIX_MOUNT_TYPE_JAZ, G_UNIX_MOUNT_TYPE_MEMSTICK, G_UNIX_MOUNT_TYPE_CF, G_UNIX_MOUNT_TYPE_SM, G_UNIX_MOUNT_TYPE_SDMMC, G_UNIX_MOUNT_TYPE_IPOD, G_UNIX_MOUNT_TYPE_CAMERA, G_UNIX_MOUNT_TYPE_HD } GUnixMountType; struct _GUnixMountEntry { char *mount_path; char *device_path; char *root_path; char *filesystem_type; char *options; gboolean is_read_only; gboolean is_system_internal; }; G_DEFINE_BOXED_TYPE (GUnixMountEntry, g_unix_mount_entry, g_unix_mount_copy, g_unix_mount_free) struct _GUnixMountPoint { char *mount_path; char *device_path; char *filesystem_type; char *options; gboolean is_read_only; gboolean is_user_mountable; gboolean is_loopback; }; G_DEFINE_BOXED_TYPE (GUnixMountPoint, g_unix_mount_point, g_unix_mount_point_copy, g_unix_mount_point_free) static GList *_g_get_unix_mounts (void); static GList *_g_get_unix_mount_points (void); static gboolean proc_mounts_watch_is_running (void); static guint64 mount_poller_time = 0; #ifdef HAVE_SYS_MNTTAB_H #define MNTOPT_RO "ro" #endif #ifdef HAVE_MNTENT_H #include #ifdef HAVE_LIBMOUNT #include #endif #elif defined (HAVE_SYS_MNTTAB_H) #include #endif #ifdef HAVE_SYS_VFSTAB_H #include #endif #if defined(HAVE_SYS_MNTCTL_H) && defined(HAVE_SYS_VMOUNT_H) && defined(HAVE_SYS_VFS_H) #include #include #include #include #endif #if (defined(HAVE_GETVFSSTAT) || defined(HAVE_GETFSSTAT)) && defined(HAVE_FSTAB_H) && defined(HAVE_SYS_MOUNT_H) #include #include #include #include #ifdef HAVE_SYS_SYSCTL_H #include #endif #endif #ifndef HAVE_SETMNTENT #define setmntent(f,m) fopen(f,m) #endif #ifndef HAVE_ENDMNTENT #define endmntent(f) fclose(f) #endif static gboolean is_in (const char *value, const char *set[]) { int i; for (i = 0; set[i] != NULL; i++) { if (strcmp (set[i], value) == 0) return TRUE; } return FALSE; } /** * g_unix_is_mount_path_system_internal: * @mount_path: (type filename): a mount path, e.g. `/media/disk` or `/usr` * * Determines if @mount_path is considered an implementation of the * OS. This is primarily used for hiding mountable and mounted volumes * that only are used in the OS and has little to no relevance to the * casual user. * * Returns: %TRUE if @mount_path is considered an implementation detail * of the OS. **/ gboolean g_unix_is_mount_path_system_internal (const char *mount_path) { const char *ignore_mountpoints[] = { /* Includes all FHS 2.3 toplevel dirs and other specialized * directories that we want to hide from the user. */ "/", /* we already have "Filesystem root" in Nautilus */ "/bin", "/boot", "/compat/linux/proc", "/compat/linux/sys", "/dev", "/etc", "/home", "/lib", "/lib64", "/libexec", "/live/cow", "/live/image", "/media", "/mnt", "/opt", "/rescue", "/root", "/sbin", "/srv", "/tmp", "/usr", "/usr/X11R6", "/usr/local", "/usr/obj", "/usr/ports", "/usr/src", "/usr/xobj", "/var", "/var/crash", "/var/local", "/var/log", "/var/log/audit", /* https://bugzilla.redhat.com/show_bug.cgi?id=333041 */ "/var/mail", "/var/run", "/var/tmp", /* https://bugzilla.redhat.com/show_bug.cgi?id=335241 */ "/proc", "/sbin", "/net", "/sys", NULL }; if (is_in (mount_path, ignore_mountpoints)) return TRUE; if (g_str_has_prefix (mount_path, "/dev/") || g_str_has_prefix (mount_path, "/proc/") || g_str_has_prefix (mount_path, "/sys/")) return TRUE; if (g_str_has_suffix (mount_path, "/.gvfs")) return TRUE; return FALSE; } /** * g_unix_is_system_fs_type: * @fs_type: a file system type, e.g. `procfs` or `tmpfs` * * Determines if @fs_type is considered a type of file system which is only * used in implementation of the OS. This is primarily used for hiding * mounted volumes that are intended as APIs for programs to read, and system * administrators at a shell; rather than something that should, for example, * appear in a GUI. For example, the Linux `/proc` filesystem. * * The list of file system types considered ‘system’ ones may change over time. * * Returns: %TRUE if @fs_type is considered an implementation detail of the OS. * Since: 2.56 */ gboolean g_unix_is_system_fs_type (const char *fs_type) { const char *ignore_fs[] = { "adfs", "afs", "auto", "autofs", "autofs4", "cgroup", "configfs", "cxfs", "debugfs", "devfs", "devpts", "devtmpfs", "ecryptfs", "fdescfs", "fusectl", "gfs", "gfs2", "gpfs", "hugetlbfs", "kernfs", "linprocfs", "linsysfs", "lustre", "lustre_lite", "mfs", "mqueue", "ncpfs", "nfsd", "nullfs", "ocfs2", "overlay", "proc", "procfs", "pstore", "ptyfs", "rootfs", "rpc_pipefs", "securityfs", "selinuxfs", "sysfs", "tmpfs", "usbfs", "zfs", NULL }; g_return_val_if_fail (fs_type != NULL && *fs_type != '\0', FALSE); return is_in (fs_type, ignore_fs); } /** * g_unix_is_system_device_path: * @device_path: a device path, e.g. `/dev/loop0` or `nfsd` * * Determines if @device_path is considered a block device path which is only * used in implementation of the OS. This is primarily used for hiding * mounted volumes that are intended as APIs for programs to read, and system * administrators at a shell; rather than something that should, for example, * appear in a GUI. For example, the Linux `/proc` filesystem. * * The list of device paths considered ‘system’ ones may change over time. * * Returns: %TRUE if @device_path is considered an implementation detail of * the OS. * Since: 2.56 */ gboolean g_unix_is_system_device_path (const char *device_path) { const char *ignore_devices[] = { "none", "sunrpc", "devpts", "nfsd", "/dev/loop", "/dev/vn", NULL }; g_return_val_if_fail (device_path != NULL && *device_path != '\0', FALSE); return is_in (device_path, ignore_devices); } static gboolean guess_system_internal (const char *mountpoint, const char *fs, const char *device, const char *root) { if (g_unix_is_system_fs_type (fs)) return TRUE; if (g_unix_is_system_device_path (device)) return TRUE; if (g_unix_is_mount_path_system_internal (mountpoint)) return TRUE; /* It is not possible to reliably detect mounts which were created by bind * operation. mntent-based _g_get_unix_mounts() implementation blindly skips * mounts with a device path that is repeated (e.g. mounts created by bind * operation, btrfs subvolumes). This usually chooses the most important * mounts (i.e. which points to the root of filesystem), but it doesn't work * in all cases and also it is not ideal that those mounts are completely * ignored (e.g. x-gvfs-show doesn't work for them, trash backend can't handle * files on btrfs subvolumes). libmount-based _g_get_unix_mounts() * implementation provides a root path. So there is no need to completely * ignore those mounts, because e.g. our volume monitors can use the root path * to not mengle those mounts with the "regular" mounts (i.e. which points to * the root). But because those mounts usually just duplicate other mounts and * are completely ignored with mntend-based implementation, let's mark them as * system internal. Given the different approches it doesn't mean that all * mounts which were ignored will be system internal now, but this should work * in most cases. For more info, see g_unix_mount_get_root_path() annotation, * comment in mntent-based _g_get_unix_mounts() implementation and the * https://gitlab.gnome.org/GNOME/glib/issues/1271 issue. */ if (root != NULL && g_strcmp0 (root, "/") != 0) return TRUE; return FALSE; } /* GUnixMounts (ie: mtab) implementations {{{1 */ static GUnixMountEntry * create_unix_mount_entry (const char *device_path, const char *mount_path, const char *root_path, const char *filesystem_type, const char *options, gboolean is_read_only) { GUnixMountEntry *mount_entry = NULL; mount_entry = g_new0 (GUnixMountEntry, 1); mount_entry->device_path = g_strdup (device_path); mount_entry->mount_path = g_strdup (mount_path); mount_entry->root_path = g_strdup (root_path); mount_entry->filesystem_type = g_strdup (filesystem_type); mount_entry->options = g_strdup (options); mount_entry->is_read_only = is_read_only; mount_entry->is_system_internal = guess_system_internal (mount_entry->mount_path, mount_entry->filesystem_type, mount_entry->device_path, mount_entry->root_path); return mount_entry; } static GUnixMountPoint * create_unix_mount_point (const char *device_path, const char *mount_path, const char *filesystem_type, const char *options, gboolean is_read_only, gboolean is_user_mountable, gboolean is_loopback) { GUnixMountPoint *mount_point = NULL; mount_point = g_new0 (GUnixMountPoint, 1); mount_point->device_path = g_strdup (device_path); mount_point->mount_path = g_strdup (mount_path); mount_point->filesystem_type = g_strdup (filesystem_type); mount_point->options = g_strdup (options); mount_point->is_read_only = is_read_only; mount_point->is_user_mountable = is_user_mountable; mount_point->is_loopback = is_loopback; return mount_point; } /* mntent.h (Linux, GNU, NSS) {{{2 */ #ifdef HAVE_MNTENT_H #ifdef HAVE_LIBMOUNT /* For documentation on /proc/self/mountinfo see * http://www.kernel.org/doc/Documentation/filesystems/proc.txt */ #define PROC_MOUNTINFO_PATH "/proc/self/mountinfo" static GList * _g_get_unix_mounts (void) { struct libmnt_table *table = NULL; struct libmnt_iter* iter = NULL; struct libmnt_fs *fs = NULL; GUnixMountEntry *mount_entry = NULL; GList *return_list = NULL; table = mnt_new_table (); if (mnt_table_parse_mtab (table, NULL) < 0) goto out; iter = mnt_new_iter (MNT_ITER_FORWARD); while (mnt_table_next_fs (table, iter, &fs) == 0) { const char *device_path = NULL; char *mount_options = NULL; unsigned long mount_flags = 0; gboolean is_read_only = FALSE; device_path = mnt_fs_get_source (fs); if (g_strcmp0 (device_path, "/dev/root") == 0) device_path = _resolve_dev_root (); mount_options = mnt_fs_strdup_options (fs); if (mount_options) { mnt_optstr_get_flags (mount_options, &mount_flags, mnt_get_builtin_optmap (MNT_LINUX_MAP)); g_free (mount_options); } is_read_only = (mount_flags & MS_RDONLY) ? TRUE : FALSE; mount_entry = create_unix_mount_entry (device_path, mnt_fs_get_target (fs), mnt_fs_get_root (fs), mnt_fs_get_fstype (fs), mnt_fs_get_options (fs), is_read_only); return_list = g_list_prepend (return_list, mount_entry); } mnt_free_iter (iter); out: mnt_free_table (table); return g_list_reverse (return_list); } #else static const char * get_mtab_read_file (void) { #ifdef _PATH_MOUNTED # ifdef __linux__ return "/proc/mounts"; # else return _PATH_MOUNTED; # endif #else return "/etc/mtab"; #endif } #ifndef HAVE_GETMNTENT_R G_LOCK_DEFINE_STATIC(getmntent); #endif static GList * _g_get_unix_mounts (void) { #ifdef HAVE_GETMNTENT_R struct mntent ent; char buf[1024]; #endif struct mntent *mntent; FILE *file; const char *read_file; GUnixMountEntry *mount_entry; GHashTable *mounts_hash; GList *return_list; read_file = get_mtab_read_file (); file = setmntent (read_file, "r"); if (file == NULL) return NULL; return_list = NULL; mounts_hash = g_hash_table_new (g_str_hash, g_str_equal); #ifdef HAVE_GETMNTENT_R while ((mntent = getmntent_r (file, &ent, buf, sizeof (buf))) != NULL) #else G_LOCK (getmntent); while ((mntent = getmntent (file)) != NULL) #endif { const char *device_path = NULL; gboolean is_read_only = FALSE; /* ignore any mnt_fsname that is repeated and begins with a '/' * * We do this to avoid being fooled by --bind mounts, since * these have the same device as the location they bind to. * It's not an ideal solution to the problem, but it's likely that * the most important mountpoint is first and the --bind ones after * that aren't as important. So it should work. * * The '/' is to handle procfs, tmpfs and other no device mounts. */ if (mntent->mnt_fsname != NULL && mntent->mnt_fsname[0] == '/' && g_hash_table_lookup (mounts_hash, mntent->mnt_fsname)) continue; if (g_strcmp0 (mntent->mnt_fsname, "/dev/root") == 0) device_path = _resolve_dev_root (); else device_path = mntent->mnt_fsname; #if defined (HAVE_HASMNTOPT) if (hasmntopt (mntent, MNTOPT_RO) != NULL) is_read_only = TRUE; #endif mount_entry = create_unix_mount_entry (device_path, mntent->mnt_dir, NULL, mntent->mnt_type, mntent->mnt_opts, is_read_only); g_hash_table_insert (mounts_hash, mount_entry->device_path, mount_entry->device_path); return_list = g_list_prepend (return_list, mount_entry); } g_hash_table_destroy (mounts_hash); endmntent (file); #ifndef HAVE_GETMNTENT_R G_UNLOCK (getmntent); #endif return g_list_reverse (return_list); } #endif /* HAVE_LIBMOUNT */ static const char * get_mtab_monitor_file (void) { static const char *mountinfo_path = NULL; #ifdef HAVE_LIBMOUNT struct stat buf; #endif if (mountinfo_path != NULL) return mountinfo_path; #ifdef HAVE_LIBMOUNT /* The mtab file is still used by some distros, so it has to be monitored in * order to avoid races between g_unix_mounts_get and "mounts-changed" signal: * https://bugzilla.gnome.org/show_bug.cgi?id=782814 */ if (mnt_has_regular_mtab (&mountinfo_path, NULL)) { return mountinfo_path; } if (stat (PROC_MOUNTINFO_PATH, &buf) == 0) { mountinfo_path = PROC_MOUNTINFO_PATH; return mountinfo_path; } #endif #ifdef _PATH_MOUNTED # ifdef __linux__ mountinfo_path = "/proc/mounts"; # else mountinfo_path = _PATH_MOUNTED; # endif #else mountinfo_path = "/etc/mtab"; #endif return mountinfo_path; } /* mnttab.h {{{2 */ #elif defined (HAVE_SYS_MNTTAB_H) G_LOCK_DEFINE_STATIC(getmntent); static const char * get_mtab_read_file (void) { #ifdef _PATH_MOUNTED return _PATH_MOUNTED; #else return "/etc/mnttab"; #endif } static const char * get_mtab_monitor_file (void) { return get_mtab_read_file (); } static GList * _g_get_unix_mounts (void) { struct mnttab mntent; FILE *file; const char *read_file; GUnixMountEntry *mount_entry; GList *return_list; read_file = get_mtab_read_file (); file = setmntent (read_file, "r"); if (file == NULL) return NULL; return_list = NULL; G_LOCK (getmntent); while (! getmntent (file, &mntent)) { gboolean is_read_only = FALSE; #if defined (HAVE_HASMNTOPT) if (hasmntopt (&mntent, MNTOPT_RO) != NULL) is_read_only = TRUE; #endif mount_entry = create_unix_mount_entry (mntent.mnt_special, mntent.mnt_mountp, NULL, mntent.mnt_fstype, mntent.mnt_opts, is_read_only); return_list = g_list_prepend (return_list, mount_entry); } endmntent (file); G_UNLOCK (getmntent); return g_list_reverse (return_list); } /* mntctl.h (AIX) {{{2 */ #elif defined(HAVE_SYS_MNTCTL_H) && defined(HAVE_SYS_VMOUNT_H) && defined(HAVE_SYS_VFS_H) static const char * get_mtab_monitor_file (void) { return NULL; } static GList * _g_get_unix_mounts (void) { struct vfs_ent *fs_info; struct vmount *vmount_info; int vmount_number; unsigned int vmount_size; int current; GList *return_list; if (mntctl (MCTL_QUERY, sizeof (vmount_size), &vmount_size) != 0) { g_warning ("Unable to know the number of mounted volumes"); return NULL; } vmount_info = (struct vmount*)g_malloc (vmount_size); vmount_number = mntctl (MCTL_QUERY, vmount_size, vmount_info); if (vmount_info->vmt_revision != VMT_REVISION) g_warning ("Bad vmount structure revision number, want %d, got %d", VMT_REVISION, vmount_info->vmt_revision); if (vmount_number < 0) { g_warning ("Unable to recover mounted volumes information"); g_free (vmount_info); return NULL; } return_list = NULL; while (vmount_number > 0) { gboolean is_read_only = FALSE; fs_info = getvfsbytype (vmount_info->vmt_gfstype); /* is_removable = (vmount_info->vmt_flags & MNT_REMOVABLE) ? 1 : 0; */ is_read_only = (vmount_info->vmt_flags & MNT_READONLY) ? 1 : 0; mount_entry = create_unix_mount_entry (vmt2dataptr (vmount_info, VMT_OBJECT), vmt2dataptr (vmount_info, VMT_STUB), NULL, fs_info == NULL ? "unknown" : fs_info->vfsent_name, NULL, is_read_only); return_list = g_list_prepend (return_list, mount_entry); vmount_info = (struct vmount *)( (char*)vmount_info + vmount_info->vmt_length); vmount_number--; } g_free (vmount_info); return g_list_reverse (return_list); } /* sys/mount.h {{{2 */ #elif (defined(HAVE_GETVFSSTAT) || defined(HAVE_GETFSSTAT)) && defined(HAVE_FSTAB_H) && defined(HAVE_SYS_MOUNT_H) static const char * get_mtab_monitor_file (void) { return NULL; } static GList * _g_get_unix_mounts (void) { #if defined(USE_STATVFS) struct statvfs *mntent = NULL; #elif defined(USE_STATFS) struct statfs *mntent = NULL; #else #error statfs juggling failed #endif size_t bufsize; int num_mounts, i; GUnixMountEntry *mount_entry; GList *return_list; /* Pass NOWAIT to avoid blocking trying to update NFS mounts. */ #if defined(USE_STATVFS) && defined(HAVE_GETVFSSTAT) num_mounts = getvfsstat (NULL, 0, ST_NOWAIT); #elif defined(USE_STATFS) && defined(HAVE_GETFSSTAT) num_mounts = getfsstat (NULL, 0, MNT_NOWAIT); #endif if (num_mounts == -1) return NULL; bufsize = num_mounts * sizeof (*mntent); mntent = g_malloc (bufsize); #if defined(USE_STATVFS) && defined(HAVE_GETVFSSTAT) num_mounts = getvfsstat (mntent, bufsize, ST_NOWAIT); #elif defined(USE_STATFS) && defined(HAVE_GETFSSTAT) num_mounts = getfsstat (mntent, bufsize, MNT_NOWAIT); #endif if (num_mounts == -1) return NULL; return_list = NULL; for (i = 0; i < num_mounts; i++) { gboolean is_read_only = FALSE; #if defined(USE_STATVFS) if (mntent[i].f_flag & ST_RDONLY) #elif defined(USE_STATFS) if (mntent[i].f_flags & MNT_RDONLY) #else #error statfs juggling failed #endif is_read_only = TRUE; mount_entry = create_unix_mount_entry (mntent[i].f_mntfromname, mntent[i].f_mntonname, NULL, mntent[i].f_fstypename, NULL, is_read_only); return_list = g_list_prepend (return_list, mount_entry); } g_free (mntent); return g_list_reverse (return_list); } /* Interix {{{2 */ #elif defined(__INTERIX) static const char * get_mtab_monitor_file (void) { return NULL; } static GList * _g_get_unix_mounts (void) { DIR *dirp; GList* return_list = NULL; char filename[9 + NAME_MAX]; dirp = opendir ("/dev/fs"); if (!dirp) { g_warning ("unable to read /dev/fs!"); return NULL; } while (1) { struct statvfs statbuf; struct dirent entry; struct dirent* result; if (readdir_r (dirp, &entry, &result) || result == NULL) break; strcpy (filename, "/dev/fs/"); strcat (filename, entry.d_name); if (statvfs (filename, &statbuf) == 0) { GUnixMountEntry* mount_entry = g_new0(GUnixMountEntry, 1); mount_entry->mount_path = g_strdup (statbuf.f_mntonname); mount_entry->device_path = g_strdup (statbuf.f_mntfromname); mount_entry->filesystem_type = g_strdup (statbuf.f_fstypename); if (statbuf.f_flag & ST_RDONLY) mount_entry->is_read_only = TRUE; return_list = g_list_prepend(return_list, mount_entry); } } return_list = g_list_reverse (return_list); closedir (dirp); return return_list; } /* Common code {{{2 */ #else #error No _g_get_unix_mounts() implementation for system #endif /* GUnixMountPoints (ie: fstab) implementations {{{1 */ /* _g_get_unix_mount_points(): * read the fstab. * don't return swap and ignore mounts. */ static char * get_fstab_file (void) { #ifdef HAVE_LIBMOUNT return (char *) mnt_get_fstab_path (); #else #if defined(HAVE_SYS_MNTCTL_H) && defined(HAVE_SYS_VMOUNT_H) && defined(HAVE_SYS_VFS_H) /* AIX */ return "/etc/filesystems"; #elif defined(_PATH_MNTTAB) return _PATH_MNTTAB; #elif defined(VFSTAB) return VFSTAB; #else return "/etc/fstab"; #endif #endif } /* mntent.h (Linux, GNU, NSS) {{{2 */ #ifdef HAVE_MNTENT_H #ifdef HAVE_LIBMOUNT static GList * _g_get_unix_mount_points (void) { struct libmnt_table *table = NULL; struct libmnt_iter* iter = NULL; struct libmnt_fs *fs = NULL; GUnixMountPoint *mount_point = NULL; GList *return_list = NULL; table = mnt_new_table (); if (mnt_table_parse_fstab (table, NULL) < 0) goto out; iter = mnt_new_iter (MNT_ITER_FORWARD); while (mnt_table_next_fs (table, iter, &fs) == 0) { const char *device_path = NULL; const char *mount_path = NULL; const char *mount_fstype = NULL; char *mount_options = NULL; gboolean is_read_only = FALSE; gboolean is_user_mountable = FALSE; gboolean is_loopback = FALSE; mount_path = mnt_fs_get_target (fs); if ((strcmp (mount_path, "ignore") == 0) || (strcmp (mount_path, "swap") == 0) || (strcmp (mount_path, "none") == 0)) continue; mount_fstype = mnt_fs_get_fstype (fs); mount_options = mnt_fs_strdup_options (fs); if (mount_options) { unsigned long mount_flags = 0; unsigned long userspace_flags = 0; mnt_optstr_get_flags (mount_options, &mount_flags, mnt_get_builtin_optmap (MNT_LINUX_MAP)); mnt_optstr_get_flags (mount_options, &userspace_flags, mnt_get_builtin_optmap (MNT_USERSPACE_MAP)); /* We ignore bind fstab entries, as we ignore bind mounts anyway */ if (mount_flags & MS_BIND) { g_free (mount_options); continue; } is_read_only = (mount_flags & MS_RDONLY) != 0; is_loopback = (userspace_flags & MNT_MS_LOOP) != 0; if ((mount_fstype != NULL && g_strcmp0 ("supermount", mount_fstype) == 0) || ((userspace_flags & MNT_MS_USER) && (g_strstr_len (mount_options, -1, "user_xattr") == NULL)) || (g_strstr_len (mount_options, -1, "pamconsole") == NULL) || (userspace_flags & MNT_MS_USERS) || (userspace_flags & MNT_MS_OWNER)) { is_user_mountable = TRUE; } } device_path = mnt_fs_get_source (fs); if (g_strcmp0 (device_path, "/dev/root") == 0) device_path = _resolve_dev_root (); mount_point = create_unix_mount_point (device_path, mount_path, mount_fstype, mount_options, is_read_only, is_user_mountable, is_loopback); if (mount_options) g_free (mount_options); return_list = g_list_prepend (return_list, mount_point); } mnt_free_iter (iter); out: mnt_free_table (table); return g_list_reverse (return_list); } #else static GList * _g_get_unix_mount_points (void) { #ifdef HAVE_GETMNTENT_R struct mntent ent; char buf[1024]; #endif struct mntent *mntent; FILE *file; char *read_file; GUnixMountPoint *mount_point; GList *return_list; read_file = get_fstab_file (); file = setmntent (read_file, "r"); if (file == NULL) return NULL; return_list = NULL; #ifdef HAVE_GETMNTENT_R while ((mntent = getmntent_r (file, &ent, buf, sizeof (buf))) != NULL) #else G_LOCK (getmntent); while ((mntent = getmntent (file)) != NULL) #endif { const char *device_path = NULL; gboolean is_read_only = FALSE; gboolean is_user_mountable = FALSE; gboolean is_loopback = FALSE; if ((strcmp (mntent->mnt_dir, "ignore") == 0) || (strcmp (mntent->mnt_dir, "swap") == 0) || (strcmp (mntent->mnt_dir, "none") == 0)) continue; #ifdef HAVE_HASMNTOPT /* We ignore bind fstab entries, as we ignore bind mounts anyway */ if (hasmntopt (mntent, "bind")) continue; #endif if (strcmp (mntent->mnt_fsname, "/dev/root") == 0) device_path = _resolve_dev_root (); else device_path = mntent->mnt_fsname; #ifdef HAVE_HASMNTOPT if (hasmntopt (mntent, MNTOPT_RO) != NULL) is_read_only = TRUE; if (hasmntopt (mntent, "loop") != NULL) is_loopback = TRUE; #endif if ((mntent->mnt_type != NULL && strcmp ("supermount", mntent->mnt_type) == 0) #ifdef HAVE_HASMNTOPT || (hasmntopt (mntent, "user") != NULL && hasmntopt (mntent, "user") != hasmntopt (mntent, "user_xattr")) || hasmntopt (mntent, "pamconsole") != NULL || hasmntopt (mntent, "users") != NULL || hasmntopt (mntent, "owner") != NULL #endif ) is_user_mountable = TRUE; mount_point = create_unix_mount_point (device_path, mntent->mnt_dir, mntent->mnt_type, mntent->mnt_opts, is_read_only, is_user_mountable, is_loopback); return_list = g_list_prepend (return_list, mount_point); } endmntent (file); #ifndef HAVE_GETMNTENT_R G_UNLOCK (getmntent); #endif return g_list_reverse (return_list); } #endif /* HAVE_LIBMOUNT */ /* mnttab.h {{{2 */ #elif defined (HAVE_SYS_MNTTAB_H) static GList * _g_get_unix_mount_points (void) { struct mnttab mntent; FILE *file; char *read_file; GUnixMountPoint *mount_point; GList *return_list; read_file = get_fstab_file (); file = setmntent (read_file, "r"); if (file == NULL) return NULL; return_list = NULL; G_LOCK (getmntent); while (! getmntent (file, &mntent)) { gboolean is_read_only = FALSE; gboolean is_user_mountable = FALSE; gboolean is_loopback = FALSE; if ((strcmp (mntent.mnt_mountp, "ignore") == 0) || (strcmp (mntent.mnt_mountp, "swap") == 0) || (strcmp (mntent.mnt_mountp, "none") == 0)) continue; #ifdef HAVE_HASMNTOPT if (hasmntopt (&mntent, MNTOPT_RO) != NULL) is_read_only = TRUE; if (hasmntopt (&mntent, "lofs") != NULL) is_loopback = TRUE; #endif if ((mntent.mnt_fstype != NULL) #ifdef HAVE_HASMNTOPT || (hasmntopt (&mntent, "user") != NULL && hasmntopt (&mntent, "user") != hasmntopt (&mntent, "user_xattr")) || hasmntopt (&mntent, "pamconsole") != NULL || hasmntopt (&mntent, "users") != NULL || hasmntopt (&mntent, "owner") != NULL #endif ) is_user_mountable = TRUE; mount_point = create_unix_mount_point (mntent.mnt_special, mntent.mnt_mountp, mntent.mnt_fstype, mntent.mnt_mntopts, is_read_only, is_user_mountable, is_loopback); return_list = g_list_prepend (return_list, mount_point); } endmntent (file); G_UNLOCK (getmntent); return g_list_reverse (return_list); } /* mntctl.h (AIX) {{{2 */ #elif defined(HAVE_SYS_MNTCTL_H) && defined(HAVE_SYS_VMOUNT_H) && defined(HAVE_SYS_VFS_H) /* functions to parse /etc/filesystems on aix */ /* read character, ignoring comments (begin with '*', end with '\n' */ static int aix_fs_getc (FILE *fd) { int c; while ((c = getc (fd)) == '*') { while (((c = getc (fd)) != '\n') && (c != EOF)) ; } } /* eat all continuous spaces in a file */ static int aix_fs_ignorespace (FILE *fd) { int c; while ((c = aix_fs_getc (fd)) != EOF) { if (!g_ascii_isspace (c)) { ungetc (c,fd); return c; } } return EOF; } /* read one word from file */ static int aix_fs_getword (FILE *fd, char *word) { int c; aix_fs_ignorespace (fd); while (((c = aix_fs_getc (fd)) != EOF) && !g_ascii_isspace (c)) { if (c == '"') { while (((c = aix_fs_getc (fd)) != EOF) && (c != '"')) *word++ = c; else *word++ = c; } } *word = 0; return c; } typedef struct { char mnt_mount[PATH_MAX]; char mnt_special[PATH_MAX]; char mnt_fstype[16]; char mnt_options[128]; } AixMountTableEntry; /* read mount points properties */ static int aix_fs_get (FILE *fd, AixMountTableEntry *prop) { static char word[PATH_MAX] = { 0 }; char value[PATH_MAX]; /* read stanza */ if (word[0] == 0) { if (aix_fs_getword (fd, word) == EOF) return EOF; } word[strlen(word) - 1] = 0; strcpy (prop->mnt_mount, word); /* read attributes and value */ while (aix_fs_getword (fd, word) != EOF) { /* test if is attribute or new stanza */ if (word[strlen(word) - 1] == ':') return 0; /* read "=" */ aix_fs_getword (fd, value); /* read value */ aix_fs_getword (fd, value); if (strcmp (word, "dev") == 0) strcpy (prop->mnt_special, value); else if (strcmp (word, "vfs") == 0) strcpy (prop->mnt_fstype, value); else if (strcmp (word, "options") == 0) strcpy(prop->mnt_options, value); } return 0; } static GList * _g_get_unix_mount_points (void) { struct mntent *mntent; FILE *file; char *read_file; GUnixMountPoint *mount_point; AixMountTableEntry mntent; GList *return_list; read_file = get_fstab_file (); file = setmntent (read_file, "r"); if (file == NULL) return NULL; return_list = NULL; while (!aix_fs_get (file, &mntent)) { if (strcmp ("cdrfs", mntent.mnt_fstype) == 0) { mount_point = create_unix_mount_point (mntent.mnt_special, mntent.mnt_mount, mntent.mnt_fstype, mntent.mnt_options, TRUE, TRUE, FALSE); return_list = g_list_prepend (return_list, mount_point); } } endmntent (file); return g_list_reverse (return_list); } #elif (defined(HAVE_GETVFSSTAT) || defined(HAVE_GETFSSTAT)) && defined(HAVE_FSTAB_H) && defined(HAVE_SYS_MOUNT_H) static GList * _g_get_unix_mount_points (void) { struct fstab *fstab = NULL; GUnixMountPoint *mount_point; GList *return_list; #ifdef HAVE_SYS_SYSCTL_H int usermnt = 0; struct stat sb; #endif if (!setfsent ()) return NULL; return_list = NULL; #ifdef HAVE_SYS_SYSCTL_H #if defined(HAVE_SYSCTLBYNAME) { size_t len = sizeof(usermnt); sysctlbyname ("vfs.usermount", &usermnt, &len, NULL, 0); } #elif defined(CTL_VFS) && defined(VFS_USERMOUNT) { int mib[2]; size_t len = sizeof(usermnt); mib[0] = CTL_VFS; mib[1] = VFS_USERMOUNT; sysctl (mib, 2, &usermnt, &len, NULL, 0); } #elif defined(CTL_KERN) && defined(KERN_USERMOUNT) { int mib[2]; size_t len = sizeof(usermnt); mib[0] = CTL_KERN; mib[1] = KERN_USERMOUNT; sysctl (mib, 2, &usermnt, &len, NULL, 0); } #endif #endif while ((fstab = getfsent ()) != NULL) { gboolean is_read_only = FALSE; gboolean is_user_mountable = FALSE; if (strcmp (fstab->fs_vfstype, "swap") == 0) continue; if (strcmp (fstab->fs_type, "ro") == 0) is_read_only = TRUE; #ifdef HAVE_SYS_SYSCTL_H if (usermnt != 0) { uid_t uid = getuid (); if (stat (fstab->fs_file, &sb) == 0) { if (uid == 0 || sb.st_uid == uid) is_user_mountable = TRUE; } } #endif mount_point = create_unix_mount_point (fstab->fs_spec, fstab->fs_file, fstab->fs_vfstype, fstab->fs_mntops, is_read_only, is_user_mountable, FALSE); return_list = g_list_prepend (return_list, mount_point); } endfsent (); return g_list_reverse (return_list); } /* Interix {{{2 */ #elif defined(__INTERIX) static GList * _g_get_unix_mount_points (void) { return _g_get_unix_mounts (); } /* Common code {{{2 */ #else #error No g_get_mount_table() implementation for system #endif static guint64 get_mounts_timestamp (void) { const char *monitor_file; struct stat buf; monitor_file = get_mtab_monitor_file (); /* Don't return mtime for /proc/ files */ if (monitor_file && !g_str_has_prefix (monitor_file, "/proc/")) { if (stat (monitor_file, &buf) == 0) return (guint64)buf.st_mtime; } else if (proc_mounts_watch_is_running ()) { /* it's being monitored by poll, so return mount_poller_time */ return mount_poller_time; } else { /* Case of /proc/ file not being monitored - Be on the safe side and * send a new timestamp to force g_unix_mounts_changed_since() to * return TRUE so any application caches depending on it (like eg. * the one in GIO) get invalidated and don't hold possibly outdated * data - see Bug 787731 */ return (guint64) g_get_monotonic_time (); } return 0; } static guint64 get_mount_points_timestamp (void) { const char *monitor_file; struct stat buf; monitor_file = get_fstab_file (); if (monitor_file) { if (stat (monitor_file, &buf) == 0) return (guint64)buf.st_mtime; } return 0; } /** * g_unix_mounts_get: * @time_read: (out) (optional): guint64 to contain a timestamp, or %NULL * * Gets a #GList of #GUnixMountEntry containing the unix mounts. * If @time_read is set, it will be filled with the mount * timestamp, allowing for checking if the mounts have changed * with g_unix_mounts_changed_since(). * * Returns: (element-type GUnixMountEntry) (transfer full): * a #GList of the UNIX mounts. **/ GList * g_unix_mounts_get (guint64 *time_read) { if (time_read) *time_read = get_mounts_timestamp (); return _g_get_unix_mounts (); } /** * g_unix_mount_at: * @mount_path: (type filename): path for a possible unix mount. * @time_read: (out) (optional): guint64 to contain a timestamp. * * Gets a #GUnixMountEntry for a given mount path. If @time_read * is set, it will be filled with a unix timestamp for checking * if the mounts have changed since with g_unix_mounts_changed_since(). * * Returns: (transfer full): a #GUnixMountEntry. **/ GUnixMountEntry * g_unix_mount_at (const char *mount_path, guint64 *time_read) { GList *mounts, *l; GUnixMountEntry *mount_entry, *found; mounts = g_unix_mounts_get (time_read); found = NULL; for (l = mounts; l != NULL; l = l->next) { mount_entry = l->data; if (!found && strcmp (mount_path, mount_entry->mount_path) == 0) found = mount_entry; else g_unix_mount_free (mount_entry); } g_list_free (mounts); return found; } /** * g_unix_mount_for: * @file_path: (type filename): file path on some unix mount. * @time_read: (out) (optional): guint64 to contain a timestamp. * * Gets a #GUnixMountEntry for a given file path. If @time_read * is set, it will be filled with a unix timestamp for checking * if the mounts have changed since with g_unix_mounts_changed_since(). * * Returns: (transfer full): a #GUnixMountEntry. * * Since: 2.52 **/ GUnixMountEntry * g_unix_mount_for (const char *file_path, guint64 *time_read) { GUnixMountEntry *entry; g_return_val_if_fail (file_path != NULL, NULL); entry = g_unix_mount_at (file_path, time_read); if (entry == NULL) { char *topdir; topdir = _g_local_file_find_topdir_for (file_path); if (topdir != NULL) { entry = g_unix_mount_at (topdir, time_read); g_free (topdir); } } return entry; } /** * g_unix_mount_points_get: * @time_read: (out) (optional): guint64 to contain a timestamp. * * Gets a #GList of #GUnixMountPoint containing the unix mount points. * If @time_read is set, it will be filled with the mount timestamp, * allowing for checking if the mounts have changed with * g_unix_mount_points_changed_since(). * * Returns: (element-type GUnixMountPoint) (transfer full): * a #GList of the UNIX mountpoints. **/ GList * g_unix_mount_points_get (guint64 *time_read) { if (time_read) *time_read = get_mount_points_timestamp (); return _g_get_unix_mount_points (); } /** * g_unix_mounts_changed_since: * @time: guint64 to contain a timestamp. * * Checks if the unix mounts have changed since a given unix time. * * Returns: %TRUE if the mounts have changed since @time. **/ gboolean g_unix_mounts_changed_since (guint64 time) { return get_mounts_timestamp () != time; } /** * g_unix_mount_points_changed_since: * @time: guint64 to contain a timestamp. * * Checks if the unix mount points have changed since a given unix time. * * Returns: %TRUE if the mount points have changed since @time. **/ gboolean g_unix_mount_points_changed_since (guint64 time) { return get_mount_points_timestamp () != time; } /* GUnixMountMonitor {{{1 */ enum { MOUNTS_CHANGED, MOUNTPOINTS_CHANGED, LAST_SIGNAL }; static guint signals[LAST_SIGNAL]; struct _GUnixMountMonitor { GObject parent; GMainContext *context; }; struct _GUnixMountMonitorClass { GObjectClass parent_class; }; G_DEFINE_TYPE (GUnixMountMonitor, g_unix_mount_monitor, G_TYPE_OBJECT) static GContextSpecificGroup mount_monitor_group; static GFileMonitor *fstab_monitor; static GFileMonitor *mtab_monitor; static GSource *proc_mounts_watch_source; static GList *mount_poller_mounts; static guint mtab_file_changed_id; static gboolean proc_mounts_watch_is_running (void) { return proc_mounts_watch_source != NULL && !g_source_is_destroyed (proc_mounts_watch_source); } static void fstab_file_changed (GFileMonitor *monitor, GFile *file, GFile *other_file, GFileMonitorEvent event_type, gpointer user_data) { if (event_type != G_FILE_MONITOR_EVENT_CHANGED && event_type != G_FILE_MONITOR_EVENT_CREATED && event_type != G_FILE_MONITOR_EVENT_DELETED) return; g_context_specific_group_emit (&mount_monitor_group, signals[MOUNTPOINTS_CHANGED]); } static gboolean mtab_file_changed_cb (gpointer user_data) { mtab_file_changed_id = 0; g_context_specific_group_emit (&mount_monitor_group, signals[MOUNTS_CHANGED]); return G_SOURCE_REMOVE; } static void mtab_file_changed (GFileMonitor *monitor, GFile *file, GFile *other_file, GFileMonitorEvent event_type, gpointer user_data) { if (event_type != G_FILE_MONITOR_EVENT_CHANGED && event_type != G_FILE_MONITOR_EVENT_CREATED && event_type != G_FILE_MONITOR_EVENT_DELETED) return; /* Skip accumulated events from file monitor which we are not able to handle * in a real time instead of emitting mounts_changed signal several times. * This should behave equally to GIOChannel based monitoring. See Bug 792235. */ if (mtab_file_changed_id > 0) return; mtab_file_changed_id = g_idle_add (mtab_file_changed_cb, NULL); } static gboolean proc_mounts_changed (GIOChannel *channel, GIOCondition cond, gpointer user_data) { if (cond & G_IO_ERR) { mount_poller_time = (guint64) g_get_monotonic_time (); g_context_specific_group_emit (&mount_monitor_group, signals[MOUNTS_CHANGED]); } return TRUE; } static gboolean mount_change_poller (gpointer user_data) { GList *current_mounts, *new_it, *old_it; gboolean has_changed = FALSE; current_mounts = _g_get_unix_mounts (); for ( new_it = current_mounts, old_it = mount_poller_mounts; new_it != NULL && old_it != NULL; new_it = g_list_next (new_it), old_it = g_list_next (old_it) ) { if (g_unix_mount_compare (new_it->data, old_it->data) != 0) { has_changed = TRUE; break; } } if (!(new_it == NULL && old_it == NULL)) has_changed = TRUE; g_list_free_full (mount_poller_mounts, (GDestroyNotify) g_unix_mount_free); mount_poller_mounts = current_mounts; if (has_changed) { mount_poller_time = (guint64) g_get_monotonic_time (); g_context_specific_group_emit (&mount_monitor_group, signals[MOUNTPOINTS_CHANGED]); } return TRUE; } static void mount_monitor_stop (void) { if (fstab_monitor) { g_file_monitor_cancel (fstab_monitor); g_object_unref (fstab_monitor); } if (proc_mounts_watch_source != NULL) { g_source_destroy (proc_mounts_watch_source); proc_mounts_watch_source = NULL; } if (mtab_monitor) { g_file_monitor_cancel (mtab_monitor); g_object_unref (mtab_monitor); } g_list_free_full (mount_poller_mounts, (GDestroyNotify) g_unix_mount_free); } static void mount_monitor_start (void) { GFile *file; if (get_fstab_file () != NULL) { file = g_file_new_for_path (get_fstab_file ()); fstab_monitor = g_file_monitor_file (file, 0, NULL, NULL); g_object_unref (file); g_signal_connect (fstab_monitor, "changed", (GCallback)fstab_file_changed, NULL); } if (get_mtab_monitor_file () != NULL) { const gchar *mtab_path; mtab_path = get_mtab_monitor_file (); /* Monitoring files in /proc/ is special - can't just use GFileMonitor. * See 'man proc' for more details. */ if (g_str_has_prefix (mtab_path, "/proc/")) { GIOChannel *proc_mounts_channel; GError *error = NULL; proc_mounts_channel = g_io_channel_new_file (mtab_path, "r", &error); if (proc_mounts_channel == NULL) { g_warning ("Error creating IO channel for %s: %s (%s, %d)", mtab_path, error->message, g_quark_to_string (error->domain), error->code); g_error_free (error); } else { proc_mounts_watch_source = g_io_create_watch (proc_mounts_channel, G_IO_ERR); g_source_set_callback (proc_mounts_watch_source, (GSourceFunc) proc_mounts_changed, NULL, NULL); g_source_attach (proc_mounts_watch_source, g_main_context_get_thread_default ()); g_source_unref (proc_mounts_watch_source); g_io_channel_unref (proc_mounts_channel); } } else { file = g_file_new_for_path (mtab_path); mtab_monitor = g_file_monitor_file (file, 0, NULL, NULL); g_object_unref (file); g_signal_connect (mtab_monitor, "changed", (GCallback)mtab_file_changed, NULL); } } else { proc_mounts_watch_source = g_timeout_source_new_seconds (3); mount_poller_mounts = _g_get_unix_mounts (); mount_poller_time = (guint64)g_get_monotonic_time (); g_source_set_callback (proc_mounts_watch_source, mount_change_poller, NULL, NULL); g_source_attach (proc_mounts_watch_source, g_main_context_get_thread_default ()); g_source_unref (proc_mounts_watch_source); } } static void g_unix_mount_monitor_finalize (GObject *object) { GUnixMountMonitor *monitor; monitor = G_UNIX_MOUNT_MONITOR (object); g_context_specific_group_remove (&mount_monitor_group, monitor->context, monitor, mount_monitor_stop); G_OBJECT_CLASS (g_unix_mount_monitor_parent_class)->finalize (object); } static void g_unix_mount_monitor_class_init (GUnixMountMonitorClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); gobject_class->finalize = g_unix_mount_monitor_finalize; /** * GUnixMountMonitor::mounts-changed: * @monitor: the object on which the signal is emitted * * Emitted when the unix mounts have changed. */ signals[MOUNTS_CHANGED] = g_signal_new (I_("mounts-changed"), G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0, NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * GUnixMountMonitor::mountpoints-changed: * @monitor: the object on which the signal is emitted * * Emitted when the unix mount points have changed. */ signals[MOUNTPOINTS_CHANGED] = g_signal_new (I_("mountpoints-changed"), G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0, NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); } static void g_unix_mount_monitor_init (GUnixMountMonitor *monitor) { } /** * g_unix_mount_monitor_set_rate_limit: * @mount_monitor: a #GUnixMountMonitor * @limit_msec: a integer with the limit in milliseconds to * poll for changes. * * This function does nothing. * * Before 2.44, this was a partially-effective way of controlling the * rate at which events would be reported under some uncommon * circumstances. Since @mount_monitor is a singleton, it also meant * that calling this function would have side effects for other users of * the monitor. * * Since: 2.18 * * Deprecated:2.44:This function does nothing. Don't call it. */ void g_unix_mount_monitor_set_rate_limit (GUnixMountMonitor *mount_monitor, gint limit_msec) { } /** * g_unix_mount_monitor_get: * * Gets the #GUnixMountMonitor for the current thread-default main * context. * * The mount monitor can be used to monitor for changes to the list of * mounted filesystems as well as the list of mount points (ie: fstab * entries). * * You must only call g_object_unref() on the return value from under * the same main context as you called this function. * * Returns: (transfer full): the #GUnixMountMonitor. * * Since: 2.44 **/ GUnixMountMonitor * g_unix_mount_monitor_get (void) { return g_context_specific_group_get (&mount_monitor_group, G_TYPE_UNIX_MOUNT_MONITOR, G_STRUCT_OFFSET(GUnixMountMonitor, context), mount_monitor_start); } /** * g_unix_mount_monitor_new: * * Deprecated alias for g_unix_mount_monitor_get(). * * This function was never a true constructor, which is why it was * renamed. * * Returns: a #GUnixMountMonitor. * * Deprecated:2.44:Use g_unix_mount_monitor_get() instead. */ GUnixMountMonitor * g_unix_mount_monitor_new (void) { return g_unix_mount_monitor_get (); } /* GUnixMount {{{1 */ /** * g_unix_mount_free: * @mount_entry: a #GUnixMountEntry. * * Frees a unix mount. */ void g_unix_mount_free (GUnixMountEntry *mount_entry) { g_return_if_fail (mount_entry != NULL); g_free (mount_entry->mount_path); g_free (mount_entry->device_path); g_free (mount_entry->root_path); g_free (mount_entry->filesystem_type); g_free (mount_entry->options); g_free (mount_entry); } /** * g_unix_mount_copy: * @mount_entry: a #GUnixMountEntry. * * Makes a copy of @mount_entry. * * Returns: (transfer full): a new #GUnixMountEntry * * Since: 2.54 */ GUnixMountEntry * g_unix_mount_copy (GUnixMountEntry *mount_entry) { GUnixMountEntry *copy; g_return_val_if_fail (mount_entry != NULL, NULL); copy = g_new0 (GUnixMountEntry, 1); copy->mount_path = g_strdup (mount_entry->mount_path); copy->device_path = g_strdup (mount_entry->device_path); copy->root_path = g_strdup (mount_entry->root_path); copy->filesystem_type = g_strdup (mount_entry->filesystem_type); copy->options = g_strdup (mount_entry->options); copy->is_read_only = mount_entry->is_read_only; copy->is_system_internal = mount_entry->is_system_internal; return copy; } /** * g_unix_mount_point_free: * @mount_point: unix mount point to free. * * Frees a unix mount point. */ void g_unix_mount_point_free (GUnixMountPoint *mount_point) { g_return_if_fail (mount_point != NULL); g_free (mount_point->mount_path); g_free (mount_point->device_path); g_free (mount_point->filesystem_type); g_free (mount_point->options); g_free (mount_point); } /** * g_unix_mount_point_copy: * @mount_point: a #GUnixMountPoint. * * Makes a copy of @mount_point. * * Returns: (transfer full): a new #GUnixMountPoint * * Since: 2.54 */ GUnixMountPoint* g_unix_mount_point_copy (GUnixMountPoint *mount_point) { GUnixMountPoint *copy; g_return_val_if_fail (mount_point != NULL, NULL); copy = g_new0 (GUnixMountPoint, 1); copy->mount_path = g_strdup (mount_point->mount_path); copy->device_path = g_strdup (mount_point->device_path); copy->filesystem_type = g_strdup (mount_point->filesystem_type); copy->options = g_strdup (mount_point->options); copy->is_read_only = mount_point->is_read_only; copy->is_user_mountable = mount_point->is_user_mountable; copy->is_loopback = mount_point->is_loopback; return copy; } /** * g_unix_mount_compare: * @mount1: first #GUnixMountEntry to compare. * @mount2: second #GUnixMountEntry to compare. * * Compares two unix mounts. * * Returns: 1, 0 or -1 if @mount1 is greater than, equal to, * or less than @mount2, respectively. */ gint g_unix_mount_compare (GUnixMountEntry *mount1, GUnixMountEntry *mount2) { int res; g_return_val_if_fail (mount1 != NULL && mount2 != NULL, 0); res = g_strcmp0 (mount1->mount_path, mount2->mount_path); if (res != 0) return res; res = g_strcmp0 (mount1->device_path, mount2->device_path); if (res != 0) return res; res = g_strcmp0 (mount1->root_path, mount2->root_path); if (res != 0) return res; res = g_strcmp0 (mount1->filesystem_type, mount2->filesystem_type); if (res != 0) return res; res = g_strcmp0 (mount1->options, mount2->options); if (res != 0) return res; res = mount1->is_read_only - mount2->is_read_only; if (res != 0) return res; return 0; } /** * g_unix_mount_get_mount_path: * @mount_entry: input #GUnixMountEntry to get the mount path for. * * Gets the mount path for a unix mount. * * Returns: (type filename): the mount path for @mount_entry. */ const gchar * g_unix_mount_get_mount_path (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, NULL); return mount_entry->mount_path; } /** * g_unix_mount_get_device_path: * @mount_entry: a #GUnixMount. * * Gets the device path for a unix mount. * * Returns: (type filename): a string containing the device path. */ const gchar * g_unix_mount_get_device_path (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, NULL); return mount_entry->device_path; } /** * g_unix_mount_get_root_path: * @mount_entry: a #GUnixMountEntry. * * Gets the root of the mount within the filesystem. This is useful e.g. for * mounts created by bind operation, or btrfs subvolumes. * * For example, the root path is equal to "/" for mount created by * "mount /dev/sda1 /mnt/foo" and "/bar" for * "mount --bind /mnt/foo/bar /mnt/bar". * * Returns: (nullable): a string containing the root, or %NULL if not supported. * * Since: 2.60 */ const gchar * g_unix_mount_get_root_path (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, NULL); return mount_entry->root_path; } /** * g_unix_mount_get_fs_type: * @mount_entry: a #GUnixMount. * * Gets the filesystem type for the unix mount. * * Returns: a string containing the file system type. */ const gchar * g_unix_mount_get_fs_type (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, NULL); return mount_entry->filesystem_type; } /** * g_unix_mount_get_options: * @mount_entry: a #GUnixMountEntry. * * Gets a comma-separated list of mount options for the unix mount. For example, * `rw,relatime,seclabel,data=ordered`. * * This is similar to g_unix_mount_point_get_options(), but it takes * a #GUnixMountEntry as an argument. * * Returns: (nullable): a string containing the options, or %NULL if not * available. * * Since: 2.58 */ const gchar * g_unix_mount_get_options (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, NULL); return mount_entry->options; } /** * g_unix_mount_is_readonly: * @mount_entry: a #GUnixMount. * * Checks if a unix mount is mounted read only. * * Returns: %TRUE if @mount_entry is read only. */ gboolean g_unix_mount_is_readonly (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, FALSE); return mount_entry->is_read_only; } /** * g_unix_mount_is_system_internal: * @mount_entry: a #GUnixMount. * * Checks if a Unix mount is a system mount. This is the Boolean OR of * g_unix_is_system_fs_type(), g_unix_is_system_device_path() and * g_unix_is_mount_path_system_internal() on @mount_entry’s properties. * * The definition of what a ‘system’ mount entry is may change over time as new * file system types and device paths are ignored. * * Returns: %TRUE if the unix mount is for a system path. */ gboolean g_unix_mount_is_system_internal (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, FALSE); return mount_entry->is_system_internal; } /* GUnixMountPoint {{{1 */ /** * g_unix_mount_point_compare: * @mount1: a #GUnixMount. * @mount2: a #GUnixMount. * * Compares two unix mount points. * * Returns: 1, 0 or -1 if @mount1 is greater than, equal to, * or less than @mount2, respectively. */ gint g_unix_mount_point_compare (GUnixMountPoint *mount1, GUnixMountPoint *mount2) { int res; g_return_val_if_fail (mount1 != NULL && mount2 != NULL, 0); res = g_strcmp0 (mount1->mount_path, mount2->mount_path); if (res != 0) return res; res = g_strcmp0 (mount1->device_path, mount2->device_path); if (res != 0) return res; res = g_strcmp0 (mount1->filesystem_type, mount2->filesystem_type); if (res != 0) return res; res = g_strcmp0 (mount1->options, mount2->options); if (res != 0) return res; res = mount1->is_read_only - mount2->is_read_only; if (res != 0) return res; res = mount1->is_user_mountable - mount2->is_user_mountable; if (res != 0) return res; res = mount1->is_loopback - mount2->is_loopback; if (res != 0) return res; return 0; } /** * g_unix_mount_point_get_mount_path: * @mount_point: a #GUnixMountPoint. * * Gets the mount path for a unix mount point. * * Returns: (type filename): a string containing the mount path. */ const gchar * g_unix_mount_point_get_mount_path (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, NULL); return mount_point->mount_path; } /** * g_unix_mount_point_get_device_path: * @mount_point: a #GUnixMountPoint. * * Gets the device path for a unix mount point. * * Returns: (type filename): a string containing the device path. */ const gchar * g_unix_mount_point_get_device_path (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, NULL); return mount_point->device_path; } /** * g_unix_mount_point_get_fs_type: * @mount_point: a #GUnixMountPoint. * * Gets the file system type for the mount point. * * Returns: a string containing the file system type. */ const gchar * g_unix_mount_point_get_fs_type (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, NULL); return mount_point->filesystem_type; } /** * g_unix_mount_point_get_options: * @mount_point: a #GUnixMountPoint. * * Gets the options for the mount point. * * Returns: a string containing the options. * * Since: 2.32 */ const gchar * g_unix_mount_point_get_options (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, NULL); return mount_point->options; } /** * g_unix_mount_point_is_readonly: * @mount_point: a #GUnixMountPoint. * * Checks if a unix mount point is read only. * * Returns: %TRUE if a mount point is read only. */ gboolean g_unix_mount_point_is_readonly (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, FALSE); return mount_point->is_read_only; } /** * g_unix_mount_point_is_user_mountable: * @mount_point: a #GUnixMountPoint. * * Checks if a unix mount point is mountable by the user. * * Returns: %TRUE if the mount point is user mountable. */ gboolean g_unix_mount_point_is_user_mountable (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, FALSE); return mount_point->is_user_mountable; } /** * g_unix_mount_point_is_loopback: * @mount_point: a #GUnixMountPoint. * * Checks if a unix mount point is a loopback device. * * Returns: %TRUE if the mount point is a loopback. %FALSE otherwise. */ gboolean g_unix_mount_point_is_loopback (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, FALSE); return mount_point->is_loopback; } static GUnixMountType guess_mount_type (const char *mount_path, const char *device_path, const char *filesystem_type) { GUnixMountType type; char *basename; type = G_UNIX_MOUNT_TYPE_UNKNOWN; if ((strcmp (filesystem_type, "udf") == 0) || (strcmp (filesystem_type, "iso9660") == 0) || (strcmp (filesystem_type, "cd9660") == 0)) type = G_UNIX_MOUNT_TYPE_CDROM; else if ((strcmp (filesystem_type, "nfs") == 0) || (strcmp (filesystem_type, "nfs4") == 0)) type = G_UNIX_MOUNT_TYPE_NFS; else if (g_str_has_prefix (device_path, "/vol/dev/diskette/") || g_str_has_prefix (device_path, "/dev/fd") || g_str_has_prefix (device_path, "/dev/floppy")) type = G_UNIX_MOUNT_TYPE_FLOPPY; else if (g_str_has_prefix (device_path, "/dev/cdrom") || g_str_has_prefix (device_path, "/dev/acd") || g_str_has_prefix (device_path, "/dev/cd")) type = G_UNIX_MOUNT_TYPE_CDROM; else if (g_str_has_prefix (device_path, "/vol/")) { const char *name = mount_path + strlen ("/"); if (g_str_has_prefix (name, "cdrom")) type = G_UNIX_MOUNT_TYPE_CDROM; else if (g_str_has_prefix (name, "floppy") || g_str_has_prefix (device_path, "/vol/dev/diskette/")) type = G_UNIX_MOUNT_TYPE_FLOPPY; else if (g_str_has_prefix (name, "rmdisk")) type = G_UNIX_MOUNT_TYPE_ZIP; else if (g_str_has_prefix (name, "jaz")) type = G_UNIX_MOUNT_TYPE_JAZ; else if (g_str_has_prefix (name, "memstick")) type = G_UNIX_MOUNT_TYPE_MEMSTICK; } else { basename = g_path_get_basename (mount_path); if (g_str_has_prefix (basename, "cdr") || g_str_has_prefix (basename, "cdwriter") || g_str_has_prefix (basename, "burn") || g_str_has_prefix (basename, "dvdr")) type = G_UNIX_MOUNT_TYPE_CDROM; else if (g_str_has_prefix (basename, "floppy")) type = G_UNIX_MOUNT_TYPE_FLOPPY; else if (g_str_has_prefix (basename, "zip")) type = G_UNIX_MOUNT_TYPE_ZIP; else if (g_str_has_prefix (basename, "jaz")) type = G_UNIX_MOUNT_TYPE_JAZ; else if (g_str_has_prefix (basename, "camera")) type = G_UNIX_MOUNT_TYPE_CAMERA; else if (g_str_has_prefix (basename, "memstick") || g_str_has_prefix (basename, "memory_stick") || g_str_has_prefix (basename, "ram")) type = G_UNIX_MOUNT_TYPE_MEMSTICK; else if (g_str_has_prefix (basename, "compact_flash")) type = G_UNIX_MOUNT_TYPE_CF; else if (g_str_has_prefix (basename, "smart_media")) type = G_UNIX_MOUNT_TYPE_SM; else if (g_str_has_prefix (basename, "sd_mmc")) type = G_UNIX_MOUNT_TYPE_SDMMC; else if (g_str_has_prefix (basename, "ipod")) type = G_UNIX_MOUNT_TYPE_IPOD; g_free (basename); } if (type == G_UNIX_MOUNT_TYPE_UNKNOWN) type = G_UNIX_MOUNT_TYPE_HD; return type; } /** * g_unix_mount_guess_type: * @mount_entry: a #GUnixMount. * * Guesses the type of a unix mount. If the mount type cannot be * determined, returns %G_UNIX_MOUNT_TYPE_UNKNOWN. * * Returns: a #GUnixMountType. */ static GUnixMountType g_unix_mount_guess_type (GUnixMountEntry *mount_entry) { g_return_val_if_fail (mount_entry != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); g_return_val_if_fail (mount_entry->mount_path != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); g_return_val_if_fail (mount_entry->device_path != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); g_return_val_if_fail (mount_entry->filesystem_type != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); return guess_mount_type (mount_entry->mount_path, mount_entry->device_path, mount_entry->filesystem_type); } /** * g_unix_mount_point_guess_type: * @mount_point: a #GUnixMountPoint. * * Guesses the type of a unix mount point. * If the mount type cannot be determined, * returns %G_UNIX_MOUNT_TYPE_UNKNOWN. * * Returns: a #GUnixMountType. */ static GUnixMountType g_unix_mount_point_guess_type (GUnixMountPoint *mount_point) { g_return_val_if_fail (mount_point != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); g_return_val_if_fail (mount_point->mount_path != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); g_return_val_if_fail (mount_point->device_path != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); g_return_val_if_fail (mount_point->filesystem_type != NULL, G_UNIX_MOUNT_TYPE_UNKNOWN); return guess_mount_type (mount_point->mount_path, mount_point->device_path, mount_point->filesystem_type); } static const char * type_to_icon (GUnixMountType type, gboolean is_mount_point, gboolean use_symbolic) { const char *icon_name; switch (type) { case G_UNIX_MOUNT_TYPE_HD: if (is_mount_point) icon_name = use_symbolic ? "drive-removable-media-symbolic" : "drive-removable-media"; else icon_name = use_symbolic ? "drive-harddisk-symbolic" : "drive-harddisk"; break; case G_UNIX_MOUNT_TYPE_FLOPPY: case G_UNIX_MOUNT_TYPE_ZIP: case G_UNIX_MOUNT_TYPE_JAZ: if (is_mount_point) icon_name = use_symbolic ? "drive-removable-media-symbolic" : "drive-removable-media"; else icon_name = use_symbolic ? "media-removable-symbolic" : "media-floppy"; break; case G_UNIX_MOUNT_TYPE_CDROM: if (is_mount_point) icon_name = use_symbolic ? "drive-optical-symbolic" : "drive-optical"; else icon_name = use_symbolic ? "media-optical-symbolic" : "media-optical"; break; case G_UNIX_MOUNT_TYPE_NFS: icon_name = use_symbolic ? "folder-remote-symbolic" : "folder-remote"; break; case G_UNIX_MOUNT_TYPE_MEMSTICK: if (is_mount_point) icon_name = use_symbolic ? "drive-removable-media-symbolic" : "drive-removable-media"; else icon_name = use_symbolic ? "media-removable-symbolic" : "media-flash"; break; case G_UNIX_MOUNT_TYPE_CAMERA: if (is_mount_point) icon_name = use_symbolic ? "drive-removable-media-symbolic" : "drive-removable-media"; else icon_name = use_symbolic ? "camera-photo-symbolic" : "camera-photo"; break; case G_UNIX_MOUNT_TYPE_IPOD: if (is_mount_point) icon_name = use_symbolic ? "drive-removable-media-symbolic" : "drive-removable-media"; else icon_name = use_symbolic ? "multimedia-player-symbolic" : "multimedia-player"; break; case G_UNIX_MOUNT_TYPE_UNKNOWN: default: if (is_mount_point) icon_name = use_symbolic ? "drive-removable-media-symbolic" : "drive-removable-media"; else icon_name = use_symbolic ? "drive-harddisk-symbolic" : "drive-harddisk"; break; } return icon_name; } /** * g_unix_mount_guess_name: * @mount_entry: a #GUnixMountEntry * * Guesses the name of a Unix mount. * The result is a translated string. * * Returns: A newly allocated string that must * be freed with g_free() */ gchar * g_unix_mount_guess_name (GUnixMountEntry *mount_entry) { char *name; if (strcmp (mount_entry->mount_path, "/") == 0) name = g_strdup (_("Filesystem root")); else name = g_filename_display_basename (mount_entry->mount_path); return name; } /** * g_unix_mount_guess_icon: * @mount_entry: a #GUnixMountEntry * * Guesses the icon of a Unix mount. * * Returns: (transfer full): a #GIcon */ GIcon * g_unix_mount_guess_icon (GUnixMountEntry *mount_entry) { return g_themed_icon_new_with_default_fallbacks (type_to_icon (g_unix_mount_guess_type (mount_entry), FALSE, FALSE)); } /** * g_unix_mount_guess_symbolic_icon: * @mount_entry: a #GUnixMountEntry * * Guesses the symbolic icon of a Unix mount. * * Returns: (transfer full): a #GIcon * * Since: 2.34 */ GIcon * g_unix_mount_guess_symbolic_icon (GUnixMountEntry *mount_entry) { return g_themed_icon_new_with_default_fallbacks (type_to_icon (g_unix_mount_guess_type (mount_entry), FALSE, TRUE)); } /** * g_unix_mount_point_guess_name: * @mount_point: a #GUnixMountPoint * * Guesses the name of a Unix mount point. * The result is a translated string. * * Returns: A newly allocated string that must * be freed with g_free() */ gchar * g_unix_mount_point_guess_name (GUnixMountPoint *mount_point) { char *name; if (strcmp (mount_point->mount_path, "/") == 0) name = g_strdup (_("Filesystem root")); else name = g_filename_display_basename (mount_point->mount_path); return name; } /** * g_unix_mount_point_guess_icon: * @mount_point: a #GUnixMountPoint * * Guesses the icon of a Unix mount point. * * Returns: (transfer full): a #GIcon */ GIcon * g_unix_mount_point_guess_icon (GUnixMountPoint *mount_point) { return g_themed_icon_new_with_default_fallbacks (type_to_icon (g_unix_mount_point_guess_type (mount_point), TRUE, FALSE)); } /** * g_unix_mount_point_guess_symbolic_icon: * @mount_point: a #GUnixMountPoint * * Guesses the symbolic icon of a Unix mount point. * * Returns: (transfer full): a #GIcon * * Since: 2.34 */ GIcon * g_unix_mount_point_guess_symbolic_icon (GUnixMountPoint *mount_point) { return g_themed_icon_new_with_default_fallbacks (type_to_icon (g_unix_mount_point_guess_type (mount_point), TRUE, TRUE)); } /** * g_unix_mount_guess_can_eject: * @mount_entry: a #GUnixMountEntry * * Guesses whether a Unix mount can be ejected. * * Returns: %TRUE if @mount_entry is deemed to be ejectable. */ gboolean g_unix_mount_guess_can_eject (GUnixMountEntry *mount_entry) { GUnixMountType guessed_type; guessed_type = g_unix_mount_guess_type (mount_entry); if (guessed_type == G_UNIX_MOUNT_TYPE_IPOD || guessed_type == G_UNIX_MOUNT_TYPE_CDROM) return TRUE; return FALSE; } /** * g_unix_mount_guess_should_display: * @mount_entry: a #GUnixMountEntry * * Guesses whether a Unix mount should be displayed in the UI. * * Returns: %TRUE if @mount_entry is deemed to be displayable. */ gboolean g_unix_mount_guess_should_display (GUnixMountEntry *mount_entry) { const char *mount_path; const gchar *user_name; gsize user_name_len; /* Never display internal mountpoints */ if (g_unix_mount_is_system_internal (mount_entry)) return FALSE; /* Only display things in /media (which are generally user mountable) and home dir (fuse stuff) and /run/media/$USER */ mount_path = mount_entry->mount_path; if (mount_path != NULL) { const gboolean running_as_root = (getuid () == 0); gboolean is_in_runtime_dir = FALSE; /* Hide mounts within a dot path, suppose it was a purpose to hide this mount */ if (g_strstr_len (mount_path, -1, "/.") != NULL) return FALSE; /* Check /run/media/$USER/. If running as root, display any mounts below * /run/media/. */ if (running_as_root) { if (strncmp (mount_path, "/run/media/", strlen ("/run/media/")) == 0) is_in_runtime_dir = TRUE; } else { user_name = g_get_user_name (); user_name_len = strlen (user_name); if (strncmp (mount_path, "/run/media/", strlen ("/run/media/")) == 0 && strncmp (mount_path + strlen ("/run/media/"), user_name, user_name_len) == 0 && mount_path[strlen ("/run/media/") + user_name_len] == '/') is_in_runtime_dir = TRUE; } if (is_in_runtime_dir || g_str_has_prefix (mount_path, "/media/")) { char *path; /* Avoid displaying mounts that are not accessible to the user. * * See http://bugzilla.gnome.org/show_bug.cgi?id=526320 for why we * want to avoid g_access() for mount points which can potentially * block or fail stat()'ing, such as network mounts. */ path = g_path_get_dirname (mount_path); if (g_str_has_prefix (path, "/media/")) { if (g_access (path, R_OK|X_OK) != 0) { g_free (path); return FALSE; } } g_free (path); if (mount_entry->device_path && mount_entry->device_path[0] == '/') { struct stat st; if (g_stat (mount_entry->device_path, &st) == 0 && S_ISBLK(st.st_mode) && g_access (mount_path, R_OK|X_OK) != 0) return FALSE; } return TRUE; } if (g_str_has_prefix (mount_path, g_get_home_dir ()) && mount_path[strlen (g_get_home_dir())] == G_DIR_SEPARATOR) return TRUE; } return FALSE; } /** * g_unix_mount_point_guess_can_eject: * @mount_point: a #GUnixMountPoint * * Guesses whether a Unix mount point can be ejected. * * Returns: %TRUE if @mount_point is deemed to be ejectable. */ gboolean g_unix_mount_point_guess_can_eject (GUnixMountPoint *mount_point) { GUnixMountType guessed_type; guessed_type = g_unix_mount_point_guess_type (mount_point); if (guessed_type == G_UNIX_MOUNT_TYPE_IPOD || guessed_type == G_UNIX_MOUNT_TYPE_CDROM) return TRUE; return FALSE; } /* Utility functions {{{1 */ #ifdef HAVE_MNTENT_H /* borrowed from gtk/gtkfilesystemunix.c in GTK+ on 02/23/2006 */ static void _canonicalize_filename (gchar *filename) { gchar *p, *q; gboolean last_was_slash = FALSE; p = filename; q = filename; while (*p) { if (*p == G_DIR_SEPARATOR) { if (!last_was_slash) *q++ = G_DIR_SEPARATOR; last_was_slash = TRUE; } else { if (last_was_slash && *p == '.') { if (*(p + 1) == G_DIR_SEPARATOR || *(p + 1) == '\0') { if (*(p + 1) == '\0') break; p += 1; } else if (*(p + 1) == '.' && (*(p + 2) == G_DIR_SEPARATOR || *(p + 2) == '\0')) { if (q > filename + 1) { q--; while (q > filename + 1 && *(q - 1) != G_DIR_SEPARATOR) q--; } if (*(p + 2) == '\0') break; p += 2; } else { *q++ = *p; last_was_slash = FALSE; } } else { *q++ = *p; last_was_slash = FALSE; } } p++; } if (q > filename + 1 && *(q - 1) == G_DIR_SEPARATOR) q--; *q = '\0'; } static char * _resolve_symlink (const char *file) { GError *error; char *dir; char *link; char *f; char *f1; f = g_strdup (file); while (g_file_test (f, G_FILE_TEST_IS_SYMLINK)) { link = g_file_read_link (f, &error); if (link == NULL) { g_error_free (error); g_free (f); f = NULL; goto out; } dir = g_path_get_dirname (f); f1 = g_strdup_printf ("%s/%s", dir, link); g_free (dir); g_free (link); g_free (f); f = f1; } out: if (f != NULL) _canonicalize_filename (f); return f; } static const char * _resolve_dev_root (void) { static gboolean have_real_dev_root = FALSE; static char real_dev_root[256]; struct stat statbuf; /* see if it's cached already */ if (have_real_dev_root) goto found; /* otherwise we're going to find it right away.. */ have_real_dev_root = TRUE; if (stat ("/dev/root", &statbuf) == 0) { if (! S_ISLNK (statbuf.st_mode)) { dev_t root_dev = statbuf.st_dev; FILE *f; /* see if device with similar major:minor as /dev/root is mention * in /etc/mtab (it usually is) */ f = fopen ("/etc/mtab", "r"); if (f != NULL) { struct mntent *entp; #ifdef HAVE_GETMNTENT_R struct mntent ent; char buf[1024]; while ((entp = getmntent_r (f, &ent, buf, sizeof (buf))) != NULL) { #else G_LOCK (getmntent); while ((entp = getmntent (f)) != NULL) { #endif if (stat (entp->mnt_fsname, &statbuf) == 0 && statbuf.st_dev == root_dev) { strncpy (real_dev_root, entp->mnt_fsname, sizeof (real_dev_root) - 1); real_dev_root[sizeof (real_dev_root) - 1] = '\0'; fclose (f); goto found; } } endmntent (f); #ifndef HAVE_GETMNTENT_R G_UNLOCK (getmntent); #endif } /* no, that didn't work.. next we could scan /dev ... but I digress.. */ } else { char *resolved; resolved = _resolve_symlink ("/dev/root"); if (resolved != NULL) { strncpy (real_dev_root, resolved, sizeof (real_dev_root) - 1); real_dev_root[sizeof (real_dev_root) - 1] = '\0'; g_free (resolved); goto found; } } } /* bah sucks.. */ strcpy (real_dev_root, "/dev/root"); found: return real_dev_root; } #endif /* Epilogue {{{1 */ /* vim:set foldmethod=marker: */