/* libguestfs - the guestfsd daemon * Copyright (C) 2009 Red Hat Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include #include #include #include #include #include "daemon.h" #include "actions.h" #define MAX_ARGS 64 /* You must mount something on "/" first before many operations. * Hence we have an internal function which can test if something is * mounted on *or under* the sysroot directory. (It has to be *or * under* because of mkmountpoint and friends). */ int is_root_mounted (void) { FILE *fp; struct mntent *m; /* NB: Eventually we should aim to parse /proc/self/mountinfo, but * that requires custom parsing code. */ fp = setmntent ("/proc/mounts", "r"); if (fp == NULL) error (EXIT_FAILURE, errno, "setmntent: %s", "/proc/mounts"); while ((m = getmntent (fp)) != NULL) { /* Allow a mount directory like "/sysroot". */ if (sysroot_len > 0 && STREQ (m->mnt_dir, sysroot)) { gotit: endmntent (fp); return 1; } /* Or allow a mount directory like "/sysroot/...". */ if (STRPREFIX (m->mnt_dir, sysroot) && m->mnt_dir[sysroot_len] == '/') goto gotit; } endmntent (fp); return 0; } /* Return true iff 'device' is mounted under /sysroot. * 1 : true, device is mounted * 0 : false, device is not mounted * -1 : error, reply_with_* has been called */ int is_device_mounted (const char *device) { FILE *fp; struct mntent *m; struct stat stat1, stat2; if (stat (device, &stat1) == -1) { reply_with_perror ("stat: %s", device); return -1; } /* NB: Eventually we should aim to parse /proc/self/mountinfo, but * that requires custom parsing code. */ fp = setmntent ("/proc/mounts", "r"); if (fp == NULL) error (EXIT_FAILURE, errno, "setmntent: %s", "/proc/mounts"); while ((m = getmntent (fp)) != NULL) { if ((sysroot_len > 0 && STREQ (m->mnt_dir, sysroot)) || (STRPREFIX (m->mnt_dir, sysroot) && m->mnt_dir[sysroot_len] == '/')) { if (stat (m->mnt_fsname, &stat2) == 0) { if (stat1.st_rdev == stat2.st_rdev) { /* found it */ endmntent (fp); return 1; } } } } endmntent (fp); return 0; } /* Takes optional arguments, consult optargs_bitmask. */ int do_umount (const char *pathordevice, int force, int lazyunmount) { int r; CLEANUP_FREE char *err = NULL; CLEANUP_FREE char *buf = NULL; int is_dev; const char *argv[MAX_ARGS]; size_t i = 0; is_dev = is_device_parameter (pathordevice); buf = is_dev ? strdup (pathordevice) : sysroot_path (pathordevice); if (buf == NULL) { reply_with_perror ("malloc"); return -1; } if (!(optargs_bitmask & GUESTFS_UMOUNT_FORCE_BITMASK)) force = 0; if (!(optargs_bitmask & GUESTFS_UMOUNT_LAZYUNMOUNT_BITMASK)) lazyunmount = 0; /* Use the external /bin/umount program, so that /etc/mtab is kept * updated. */ ADD_ARG (argv, i, "umount"); if (force) ADD_ARG (argv, i, "-f"); if (lazyunmount) ADD_ARG (argv, i, "-l"); ADD_ARG (argv, i, buf); ADD_ARG (argv, i, NULL); r = commandv (NULL, &err, argv); if (r == -1) { reply_with_error ("%s: %s", pathordevice, err); return -1; } return 0; } /* Implement 'mounts' (mp==0) and 'mountpoints' (mp==1) calls. */ static char ** mounts_or_mountpoints (int mp) { FILE *fp; struct mntent *m; CLEANUP_FREE_STRINGSBUF DECLARE_STRINGSBUF (ret); size_t i; int r; /* NB: Eventually we should aim to parse /proc/self/mountinfo, but * that requires custom parsing code. */ fp = setmntent ("/proc/mounts", "r"); if (fp == NULL) error (EXIT_FAILURE, errno, "setmntent: %s", "/proc/mounts"); while ((m = getmntent (fp)) != NULL) { /* Allow a mount directory like "/sysroot". */ if (sysroot_len > 0 && STREQ (m->mnt_dir, sysroot)) { if (add_string (&ret, m->mnt_fsname) == -1) { error: endmntent (fp); return NULL; } if (mp && add_string (&ret, "/") == -1) goto error; } /* Or allow a mount directory like "/sysroot/...". */ if (STRPREFIX (m->mnt_dir, sysroot) && m->mnt_dir[sysroot_len] == '/') { if (add_string (&ret, m->mnt_fsname) == -1) goto error; if (mp && add_string (&ret, &m->mnt_dir[sysroot_len]) == -1) goto error; } } endmntent (fp); if (end_stringsbuf (&ret) == -1) return NULL; /* Convert /dev/mapper LV paths into canonical paths (RHBZ#646432). */ for (i = 0; ret.argv[i] != NULL; i += mp ? 2 : 1) { if (STRPREFIX (ret.argv[i], "/dev/mapper/") || STRPREFIX (ret.argv[i], "/dev/dm-")) { char *canonical; r = lv_canonical (ret.argv[i], &canonical); if (r == -1) return NULL; if (r == 1) { free (ret.argv[i]); ret.argv[i] = canonical; } /* Ignore the case where r == 0. This might happen where * eg. a LUKS /dev/mapper device is mounted, but that won't * correspond to any LV. */ } } return take_stringsbuf (&ret); } char ** do_mounts (void) { return mounts_or_mountpoints (0); } char ** do_mountpoints (void) { return mounts_or_mountpoints (1); } /* Unmount everything mounted under /sysroot. * * We have to unmount in the correct order, so we sort the paths by * longest first to ensure that child paths are unmounted by parent * paths. * * This call is more important than it appears at first, because it * is widely used by both test and production code in order to * get back to a known state (nothing mounted, everything synchronized). */ static int compare_longest_first (const void *vp1, const void *vp2) { char * const *p1 = (char * const *) vp1; char * const *p2 = (char * const *) vp2; const int n1 = strlen (*p1); const int n2 = strlen (*p2); return n2 - n1; } int do_umount_all (void) { FILE *fp; struct mntent *m; CLEANUP_FREE_STRINGSBUF DECLARE_STRINGSBUF (mounts); size_t i; int r; /* This is called from internal_autosync and generally as a cleanup * function, and since the umount will definitely fail if any * handles are open, we may as well close them. */ aug_finalize (); hivex_finalize (); journal_finalize (); /* NB: Eventually we should aim to parse /proc/self/mountinfo, but * that requires custom parsing code. */ fp = setmntent ("/proc/mounts", "r"); if (fp == NULL) error (EXIT_FAILURE, errno, "setmntent: %s", "/proc/mounts"); while ((m = getmntent (fp)) != NULL) { if (verbose) { fprintf (stderr, "umount-all: /proc/mounts: fsname=%s dir=%s type=%s opts=%s freq=%d passno=%d\n", m->mnt_fsname, m->mnt_dir, m->mnt_type, m->mnt_opts, m->mnt_freq, m->mnt_passno); } /* Allow a mount directory like "/sysroot". */ if (sysroot_len > 0 && STREQ (m->mnt_dir, sysroot)) { if (add_string (&mounts, m->mnt_dir) == -1) { endmntent (fp); return -1; } } /* Or allow a mount directory like "/sysroot/...". */ if (STRPREFIX (m->mnt_dir, sysroot) && m->mnt_dir[sysroot_len] == '/') { if (add_string (&mounts, m->mnt_dir) == -1) { endmntent (fp); return -1; } } } endmntent (fp); if (mounts.size > 0) qsort (mounts.argv, mounts.size, sizeof (char *), compare_longest_first); /* Unmount them. */ for (i = 0; i < mounts.size; ++i) { CLEANUP_FREE char *err = NULL; r = command (NULL, &err, "umount", mounts.argv[i], NULL); if (r == -1) { reply_with_error ("umount: %s: %s", mounts.argv[i], err); return -1; } } return 0; } /* Mount using the loopback device. You can't use the generic * do_mount call for this because the first parameter isn't a * device. */ int do_mount_loop (const char *file, const char *mountpoint) { int r; CLEANUP_FREE char *buf = NULL, *mp = NULL, *error = NULL; /* We have to prefix /sysroot on both the filename and the mountpoint. */ mp = sysroot_path (mountpoint); if (!mp) { reply_with_perror ("malloc"); return -1; } buf = sysroot_path (file); if (!buf) { reply_with_perror ("malloc"); return -1; } r = command (NULL, &error, "mount", "-o", "loop", buf, mp, NULL); if (r == -1) { reply_with_error ("%s on %s: %s", file, mountpoint, error); return -1; } return 0; } /* Takes optional arguments, consult optargs_bitmask. */ int do_remount (const char *mountpoint, int rw) { CLEANUP_FREE char *mp = NULL, *err = NULL; const char *options; int r; /* In future we'll allow other flags / parameters to be adjusted. * For now we just have to check rw was passed, but in future it * will genuinely be an optional argument. */ if (!(optargs_bitmask & GUESTFS_REMOUNT_RW_BITMASK)) { reply_with_error ("parameter 'rw' must be specified"); return -1; } options = rw ? "remount,rw" : "remount,ro"; mp = sysroot_path (mountpoint); if (!mp) { reply_with_perror ("malloc"); return -1; } /* XXX Do we need to check the mountpoint exists? */ r = command (NULL, &err, "mount", "-o", options, mp, NULL); if (r == -1) { reply_with_error ("%s: %s: %s", mountpoint, options, err); return -1; } return 0; } /* Specialized calls mkmountpoint and rmmountpoint are really * variations on mkdir and rmdir which do no checking of the * is_root_mounted() flag. */ int do_mkmountpoint (const char *path) { int r; /* NEED_ROOT (0, return -1); - we don't want this test for this call. */ ABS_PATH (path, 0, return -1); CHROOT_IN; r = mkdir (path, 0777); CHROOT_OUT; if (r == -1) { reply_with_perror ("%s", path); return -1; } return 0; } int do_rmmountpoint (const char *path) { int r; /* NEED_ROOT (0, return -1); - we don't want this test for this call. */ ABS_PATH (path, 0, return -1); CHROOT_IN; r = rmdir (path); CHROOT_OUT; if (r == -1) { reply_with_perror ("%s", path); return -1; } return 0; }