/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. */ /* * Copyright 2013 Nexenta Systems, Inc. All rights reserved. */ /* * System includes */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define BE_TMP_MNTPNT "/tmp/.be.XXXXXX" typedef struct dir_data { char *dir; char *ds; } dir_data_t; /* Private function prototypes */ static int be_mount_callback(zfs_handle_t *, void *); static int be_unmount_callback(zfs_handle_t *, void *); static int be_get_legacy_fs_callback(zfs_handle_t *, void *); static int fix_mountpoint(zfs_handle_t *); static int fix_mountpoint_callback(zfs_handle_t *, void *); static int get_mountpoint_from_vfstab(char *, const char *, char *, size_t, boolean_t); static int loopback_mount_shared_fs(zfs_handle_t *, be_mount_data_t *); static int loopback_mount_zonepath(const char *, be_mount_data_t *); static int iter_shared_fs_callback(zfs_handle_t *, void *); static int zpool_shared_fs_callback(zpool_handle_t *, void *); static int unmount_shared_fs(be_unmount_data_t *); static int add_to_fs_list(be_fs_list_data_t *, const char *); static int be_mount_root(zfs_handle_t *, char *); static int be_unmount_root(zfs_handle_t *, be_unmount_data_t *); static int be_mount_zones(zfs_handle_t *, be_mount_data_t *); static int be_unmount_zones(be_unmount_data_t *); static int be_mount_one_zone(zfs_handle_t *, be_mount_data_t *, char *, char *, char *); static int be_unmount_one_zone(be_unmount_data_t *, char *, char *, char *); static int be_get_ds_from_dir_callback(zfs_handle_t *, void *); /* ******************************************************************** */ /* Public Functions */ /* ******************************************************************** */ /* * Function: be_mount * Description: Mounts a BE and its subordinate datasets at a given mountpoint. * Parameters: * be_attrs - pointer to nvlist_t of attributes being passed in. * The following attributes are used by this function: * * BE_ATTR_ORIG_BE_NAME *required * BE_ATTR_MOUNTPOINT *required * BE_ATTR_MOUNT_FLAGS *optional * Return: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Public */ int be_mount(nvlist_t *be_attrs) { char *be_name = NULL; char *mountpoint = NULL; uint16_t flags = 0; int ret = BE_SUCCESS; /* Initialize libzfs handle */ if (!be_zfs_init()) return (BE_ERR_INIT); /* Get original BE name */ if (nvlist_lookup_string(be_attrs, BE_ATTR_ORIG_BE_NAME, &be_name) != 0) { be_print_err(gettext("be_mount: failed to lookup " "BE_ATTR_ORIG_BE_NAME attribute\n")); return (BE_ERR_INVAL); } /* Validate original BE name */ if (!be_valid_be_name(be_name)) { be_print_err(gettext("be_mount: invalid BE name %s\n"), be_name); return (BE_ERR_INVAL); } /* Get mountpoint */ if (nvlist_lookup_string(be_attrs, BE_ATTR_MOUNTPOINT, &mountpoint) != 0) { be_print_err(gettext("be_mount: failed to lookup " "BE_ATTR_MOUNTPOINT attribute\n")); return (BE_ERR_INVAL); } /* Get flags */ if (nvlist_lookup_pairs(be_attrs, NV_FLAG_NOENTOK, BE_ATTR_MOUNT_FLAGS, DATA_TYPE_UINT16, &flags, NULL) != 0) { be_print_err(gettext("be_mount: failed to lookup " "BE_ATTR_MOUNT_FLAGS attribute\n")); return (BE_ERR_INVAL); } ret = _be_mount(be_name, &mountpoint, flags); be_zfs_fini(); return (ret); } /* * Function: be_unmount * Description: Unmounts a BE and its subordinate datasets. * Parameters: * be_attrs - pointer to nvlist_t of attributes being passed in. * The following attributes are used by this function: * * BE_ATTR_ORIG_BE_NAME *required * BE_ATTR_UNMOUNT_FLAGS *optional * Return: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Public */ int be_unmount(nvlist_t *be_attrs) { char *be_name = NULL; char *be_name_mnt = NULL; char *ds = NULL; uint16_t flags = 0; int ret = BE_SUCCESS; /* Initialize libzfs handle */ if (!be_zfs_init()) return (BE_ERR_INIT); /* Get original BE name */ if (nvlist_lookup_string(be_attrs, BE_ATTR_ORIG_BE_NAME, &be_name) != 0) { be_print_err(gettext("be_unmount: failed to lookup " "BE_ATTR_ORIG_BE_NAME attribute\n")); return (BE_ERR_INVAL); } /* Check if we have mountpoint argument instead of BE name */ if (be_name[0] == '/') { if ((ds = be_get_ds_from_dir(be_name)) != NULL) { if ((be_name_mnt = strrchr(ds, '/')) != NULL) { free(be_name); be_name = be_name_mnt + 1; } } else { be_print_err(gettext("be_unmount: no datasets mounted " "at '%s'\n"), be_name); return (BE_ERR_INVAL); } } /* Validate original BE name */ if (!be_valid_be_name(be_name)) { be_print_err(gettext("be_unmount: invalid BE name %s\n"), be_name); return (BE_ERR_INVAL); } /* Get unmount flags */ if (nvlist_lookup_pairs(be_attrs, NV_FLAG_NOENTOK, BE_ATTR_UNMOUNT_FLAGS, DATA_TYPE_UINT16, &flags, NULL) != 0) { be_print_err(gettext("be_unmount: failed to loookup " "BE_ATTR_UNMOUNT_FLAGS attribute\n")); return (BE_ERR_INVAL); } ret = _be_unmount(be_name, flags); be_zfs_fini(); return (ret); } /* ******************************************************************** */ /* Semi-Private Functions */ /* ******************************************************************** */ /* * Function: _be_mount * Description: Mounts a BE. If the altroot is not provided, this function * will generate a temporary mountpoint to mount the BE at. It * will return this temporary mountpoint to the caller via the * altroot reference pointer passed in. This returned value is * allocated on heap storage and is the repsonsibility of the * caller to free. * Parameters: * be_name - pointer to name of BE to mount. * altroot - reference pointer to altroot of where to mount BE. * flags - flag indicating special handling for mounting the BE * Return: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int _be_mount(char *be_name, char **altroot, int flags) { be_transaction_data_t bt = { 0 }; be_mount_data_t md = { 0 }; zfs_handle_t *zhp; char obe_root_ds[MAXPATHLEN]; char *mp = NULL; char *tmp_altroot = NULL; int ret = BE_SUCCESS, err = 0; uuid_t uu = { 0 }; boolean_t gen_tmp_altroot = B_FALSE; if (be_name == NULL || altroot == NULL) return (BE_ERR_INVAL); /* Set be_name as obe_name in bt structure */ bt.obe_name = be_name; /* Find which zpool obe_name lives in */ if ((err = zpool_iter(g_zfs, be_find_zpool_callback, &bt)) == 0) { be_print_err(gettext("be_mount: failed to " "find zpool for BE (%s)\n"), bt.obe_name); return (BE_ERR_BE_NOENT); } else if (err < 0) { be_print_err(gettext("be_mount: zpool_iter failed: %s\n"), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Generate string for obe_name's root dataset */ be_make_root_ds(bt.obe_zpool, bt.obe_name, obe_root_ds, sizeof (obe_root_ds)); bt.obe_root_ds = obe_root_ds; /* Get handle to BE's root dataset */ if ((zhp = zfs_open(g_zfs, bt.obe_root_ds, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("be_mount: failed to " "open BE root dataset (%s): %s\n"), bt.obe_root_ds, libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Make sure BE's root dataset isn't already mounted somewhere */ if (zfs_is_mounted(zhp, &mp)) { ZFS_CLOSE(zhp); be_print_err(gettext("be_mount: %s is already mounted " "at %s\n"), bt.obe_name, mp != NULL ? mp : ""); free(mp); return (BE_ERR_MOUNTED); } /* * Fix this BE's mountpoint if its root dataset isn't set to * either 'legacy' or '/'. */ if ((ret = fix_mountpoint(zhp)) != BE_SUCCESS) { be_print_err(gettext("be_mount: mountpoint check " "failed for %s\n"), bt.obe_root_ds); ZFS_CLOSE(zhp); return (ret); } /* * If altroot not provided, create a temporary alternate root * to mount on */ if (*altroot == NULL) { if ((ret = be_make_tmp_mountpoint(&tmp_altroot)) != BE_SUCCESS) { be_print_err(gettext("be_mount: failed to " "make temporary mountpoint\n")); ZFS_CLOSE(zhp); return (ret); } gen_tmp_altroot = B_TRUE; } else { tmp_altroot = *altroot; } md.altroot = tmp_altroot; md.shared_fs = flags & BE_MOUNT_FLAG_SHARED_FS; md.shared_rw = flags & BE_MOUNT_FLAG_SHARED_RW; /* Mount the BE's root file system */ if (getzoneid() == GLOBAL_ZONEID) { if ((ret = be_mount_root(zhp, tmp_altroot)) != BE_SUCCESS) { be_print_err(gettext("be_mount: failed to " "mount BE root file system\n")); if (gen_tmp_altroot) free(tmp_altroot); ZFS_CLOSE(zhp); return (ret); } } else { /* Legacy mount the zone root dataset */ if ((ret = be_mount_zone_root(zhp, &md)) != BE_SUCCESS) { be_print_err(gettext("be_mount: failed to " "mount BE zone root file system\n")); free(md.altroot); ZFS_CLOSE(zhp); return (ret); } } /* Iterate through BE's children filesystems */ if ((err = zfs_iter_filesystems(zhp, be_mount_callback, tmp_altroot)) != 0) { be_print_err(gettext("be_mount: failed to " "mount BE (%s) on %s\n"), bt.obe_name, tmp_altroot); if (gen_tmp_altroot) free(tmp_altroot); ZFS_CLOSE(zhp); return (err); } /* * Mount shared file systems if mount flag says so. */ if (md.shared_fs) { /* * Mount all ZFS file systems not under the BE's root dataset */ (void) zpool_iter(g_zfs, zpool_shared_fs_callback, &md); /* TODO: Mount all non-ZFS file systems - Not supported yet */ } /* * If we're in the global zone and the global zone has a valid uuid, * mount all supported non-global zones. */ if (getzoneid() == GLOBAL_ZONEID && !(flags & BE_MOUNT_FLAG_NO_ZONES) && be_get_uuid(bt.obe_root_ds, &uu) == BE_SUCCESS) { if (be_mount_zones(zhp, &md) != BE_SUCCESS) { ret = BE_ERR_NO_MOUNTED_ZONE; } } ZFS_CLOSE(zhp); /* * If a NULL altroot was passed in, pass the generated altroot * back to the caller in altroot. */ if (gen_tmp_altroot) { if (ret == BE_SUCCESS || ret == BE_ERR_NO_MOUNTED_ZONE) *altroot = tmp_altroot; else free(tmp_altroot); } return (ret); } /* * Function: _be_unmount * Description: Unmount a BE. * Parameters: * be_name - pointer to name of BE to unmount. * flags - flags for unmounting the BE. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int _be_unmount(char *be_name, int flags) { be_transaction_data_t bt = { 0 }; be_unmount_data_t ud = { 0 }; zfs_handle_t *zhp; uuid_t uu = { 0 }; char obe_root_ds[MAXPATHLEN]; char mountpoint[MAXPATHLEN]; char *mp = NULL; int ret = BE_SUCCESS; int zret = 0; if (be_name == NULL) return (BE_ERR_INVAL); /* Set be_name as obe_name in bt structure */ bt.obe_name = be_name; /* Find which zpool obe_name lives in */ if ((zret = zpool_iter(g_zfs, be_find_zpool_callback, &bt)) == 0) { be_print_err(gettext("be_unmount: failed to " "find zpool for BE (%s)\n"), bt.obe_name); return (BE_ERR_BE_NOENT); } else if (zret < 0) { be_print_err(gettext("be_unmount: " "zpool_iter failed: %s\n"), libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); return (ret); } /* Generate string for obe_name's root dataset */ be_make_root_ds(bt.obe_zpool, bt.obe_name, obe_root_ds, sizeof (obe_root_ds)); bt.obe_root_ds = obe_root_ds; /* Get handle to BE's root dataset */ if ((zhp = zfs_open(g_zfs, bt.obe_root_ds, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("be_unmount: failed to " "open BE root dataset (%s): %s\n"), bt.obe_root_ds, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); return (ret); } /* Make sure BE's root dataset is mounted somewhere */ if (!zfs_is_mounted(zhp, &mp)) { be_print_err(gettext("be_unmount: " "(%s) not mounted\n"), bt.obe_name); /* * BE is not mounted, fix this BE's mountpoint if its root * dataset isn't set to either 'legacy' or '/'. */ if ((ret = fix_mountpoint(zhp)) != BE_SUCCESS) { be_print_err(gettext("be_unmount: mountpoint check " "failed for %s\n"), bt.obe_root_ds); ZFS_CLOSE(zhp); return (ret); } ZFS_CLOSE(zhp); return (BE_ERR_NOTMOUNTED); } /* * If we didn't get a mountpoint from the zfs_is_mounted call, * try and get it from its property. */ if (mp == NULL) { if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("be_unmount: failed to " "get mountpoint of (%s)\n"), bt.obe_name); ZFS_CLOSE(zhp); return (BE_ERR_ZFS); } } else { (void) strlcpy(mountpoint, mp, sizeof (mountpoint)); free(mp); } /* If BE mounted as current root, fail */ if (strcmp(mountpoint, "/") == 0) { be_print_err(gettext("be_unmount: " "cannot unmount currently running BE\n")); ZFS_CLOSE(zhp); return (BE_ERR_UMOUNT_CURR_BE); } ud.altroot = mountpoint; ud.force = flags & BE_UNMOUNT_FLAG_FORCE; /* Unmount all supported non-global zones if we're in the global zone */ if (getzoneid() == GLOBAL_ZONEID && be_get_uuid(bt.obe_root_ds, &uu) == BE_SUCCESS) { if ((ret = be_unmount_zones(&ud)) != BE_SUCCESS) { ZFS_CLOSE(zhp); return (ret); } } /* TODO: Unmount all non-ZFS file systems - Not supported yet */ /* Unmount all ZFS file systems not under the BE root dataset */ if ((ret = unmount_shared_fs(&ud)) != BE_SUCCESS) { be_print_err(gettext("be_unmount: failed to " "unmount shared file systems\n")); ZFS_CLOSE(zhp); return (ret); } /* Unmount all children datasets under the BE's root dataset */ if ((zret = zfs_iter_filesystems(zhp, be_unmount_callback, &ud)) != 0) { be_print_err(gettext("be_unmount: failed to " "unmount BE (%s)\n"), bt.obe_name); ZFS_CLOSE(zhp); return (zret); } /* Unmount this BE's root filesystem */ if (getzoneid() == GLOBAL_ZONEID) { if ((ret = be_unmount_root(zhp, &ud)) != BE_SUCCESS) { ZFS_CLOSE(zhp); return (ret); } } else { if ((ret = be_unmount_zone_root(zhp, &ud)) != BE_SUCCESS) { ZFS_CLOSE(zhp); return (ret); } } ZFS_CLOSE(zhp); return (BE_SUCCESS); } /* * Function: be_mount_zone_root * Description: Mounts the zone root dataset for a zone. * Parameters: * zfs - zfs_handle_t pointer to zone root dataset * md - be_mount_data_t pointer to data for zone to be mounted * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int be_mount_zone_root(zfs_handle_t *zhp, be_mount_data_t *md) { struct stat buf; char mountpoint[MAXPATHLEN]; int err = 0; /* Get mountpoint property of dataset */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("be_mount_zone_root: failed to " "get mountpoint property for %s: %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* * Make sure zone's root dataset is set to 'legacy'. This is * currently a requirement in this implementation of zones * support. */ if (strcmp(mountpoint, ZFS_MOUNTPOINT_LEGACY) != 0) { be_print_err(gettext("be_mount_zone_root: " "zone root dataset mountpoint is not 'legacy'\n")); return (BE_ERR_ZONE_ROOT_NOT_LEGACY); } /* Create the mountpoint if it doesn't exist */ if (lstat(md->altroot, &buf) != 0) { if (mkdirp(md->altroot, 0755) != 0) { err = errno; be_print_err(gettext("be_mount_zone_root: failed " "to create mountpoint %s\n"), md->altroot); return (errno_to_be_err(err)); } } /* * Legacy mount the zone root dataset. * * As a workaround for 6176743, we mount the zone's root with the * MS_OVERLAY option in case an alternate BE is mounted, and we're * mounting the root for the zone from the current BE here. When an * alternate BE is mounted, it ties up the zone's zoneroot directory * for the current BE since the zone's zonepath is loopback mounted * from the current BE. * * TODO: The MS_OVERLAY option needs to be removed when 6176743 * is fixed. */ if (mount(zfs_get_name(zhp), md->altroot, MS_OVERLAY, MNTTYPE_ZFS, NULL, 0, NULL, 0) != 0) { err = errno; be_print_err(gettext("be_mount_zone_root: failed to " "legacy mount zone root dataset (%s) at %s\n"), zfs_get_name(zhp), md->altroot); return (errno_to_be_err(err)); } return (BE_SUCCESS); } /* * Function: be_unmount_zone_root * Description: Unmounts the zone root dataset for a zone. * Parameters: * zhp - zfs_handle_t pointer to zone root dataset * ud - be_unmount_data_t pointer to data for zone to be unmounted * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wise use only) */ int be_unmount_zone_root(zfs_handle_t *zhp, be_unmount_data_t *ud) { char mountpoint[MAXPATHLEN]; /* Unmount the dataset */ if (zfs_unmount(zhp, NULL, ud->force ? MS_FORCE : 0) != 0) { be_print_err(gettext("be_unmount_zone_root: failed to " "unmount zone root dataset %s: %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Get the current mountpoint property for the zone root dataset */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("be_unmount_zone_root: failed to " "get mountpoint property for zone root dataset (%s): %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* If mountpoint not already set to 'legacy', set it to 'legacy' */ if (strcmp(mountpoint, ZFS_MOUNTPOINT_LEGACY) != 0) { if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), ZFS_MOUNTPOINT_LEGACY) != 0) { be_print_err(gettext("be_unmount_zone_root: " "failed to set mountpoint of zone root dataset " "%s to 'legacy': %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } } return (BE_SUCCESS); } /* * Function: be_get_legacy_fs * Description: This function iterates through all non-shared file systems * of a BE and finds the ones with a legacy mountpoint. For * those file systems, it reads the BE's vfstab to get the * mountpoint. If found, it adds that file system to the * be_fs_list_data_t passed in. * * This function can be used to gather legacy mounted file systems * for both global BEs and non-global zone BEs. To get data for * a non-global zone BE, the zoneroot_ds and zoneroot parameters * will be specified, otherwise they should be set to NULL. * Parameters: * be_name - global BE name from which to get legacy file * system list. * be_root_ds - root dataset of global BE. * zoneroot_ds - root dataset of zone. * zoneroot - zoneroot path of zone. * fld - be_fs_list_data_t pointer. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int be_get_legacy_fs(char *be_name, char *be_root_ds, char *zoneroot_ds, char *zoneroot, be_fs_list_data_t *fld) { zfs_handle_t *zhp = NULL; char mountpoint[MAXPATHLEN]; boolean_t mounted_here = B_FALSE; boolean_t zone_mounted_here = B_FALSE; int ret = BE_SUCCESS, err = 0; if (be_name == NULL || be_root_ds == NULL || fld == NULL) return (BE_ERR_INVAL); /* Get handle to BE's root dataset */ if ((zhp = zfs_open(g_zfs, be_root_ds, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("be_get_legacy_fs: failed to " "open BE root dataset (%s): %s\n"), be_root_ds, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); return (ret); } /* If BE is not already mounted, mount it. */ if (!zfs_is_mounted(zhp, &fld->altroot)) { if ((ret = _be_mount(be_name, &fld->altroot, zoneroot_ds ? BE_MOUNT_FLAG_NULL : BE_MOUNT_FLAG_NO_ZONES)) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs: " "failed to mount BE %s\n"), be_name); goto cleanup; } mounted_here = B_TRUE; } else if (fld->altroot == NULL) { be_print_err(gettext("be_get_legacy_fs: failed to " "get altroot of mounted BE %s: %s\n"), be_name, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); goto cleanup; } /* * If a zone root dataset was passed in, we're wanting to get * legacy mounted file systems for that zone, not the global * BE. */ if (zoneroot_ds != NULL) { be_mount_data_t zone_md = { 0 }; /* Close off handle to global BE's root dataset */ ZFS_CLOSE(zhp); /* Get handle to zone's root dataset */ if ((zhp = zfs_open(g_zfs, zoneroot_ds, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("be_get_legacy_fs: failed to " "open zone BE root dataset (%s): %s\n"), zoneroot_ds, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); goto cleanup; } /* Make sure the zone we're looking for is mounted */ if (!zfs_is_mounted(zhp, &zone_md.altroot)) { char zone_altroot[MAXPATHLEN]; /* Generate alternate root path for zone */ (void) snprintf(zone_altroot, sizeof (zone_altroot), "%s%s", fld->altroot, zoneroot); if ((zone_md.altroot = strdup(zone_altroot)) == NULL) { be_print_err(gettext("be_get_legacy_fs: " "memory allocation failed\n")); ret = BE_ERR_NOMEM; goto cleanup; } if ((ret = be_mount_zone_root(zhp, &zone_md)) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs: " "failed to mount zone root %s\n"), zoneroot_ds); free(zone_md.altroot); zone_md.altroot = NULL; goto cleanup; } zone_mounted_here = B_TRUE; } free(fld->altroot); fld->altroot = zone_md.altroot; } /* * If the root dataset is in the vfstab with a mountpoint of "/", * add it to the list */ if (get_mountpoint_from_vfstab(fld->altroot, zfs_get_name(zhp), mountpoint, sizeof (mountpoint), B_FALSE) == BE_SUCCESS) { if (strcmp(mountpoint, "/") == 0) { if (add_to_fs_list(fld, zfs_get_name(zhp)) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs: " "failed to add %s to fs list\n"), zfs_get_name(zhp)); ret = BE_ERR_INVAL; goto cleanup; } } } /* Iterate subordinate file systems looking for legacy mounts */ if ((ret = zfs_iter_filesystems(zhp, be_get_legacy_fs_callback, fld)) != 0) { be_print_err(gettext("be_get_legacy_fs: " "failed to iterate %s to get legacy mounts\n"), zfs_get_name(zhp)); } cleanup: /* If we mounted the zone BE, unmount it */ if (zone_mounted_here) { be_unmount_data_t zone_ud = { 0 }; zone_ud.altroot = fld->altroot; zone_ud.force = B_TRUE; if ((err = be_unmount_zone_root(zhp, &zone_ud)) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs: " "failed to unmount zone root %s\n"), zoneroot_ds); if (ret == BE_SUCCESS) ret = err; } } /* If we mounted this BE, unmount it */ if (mounted_here) { if ((err = _be_unmount(be_name, 0)) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs: " "failed to unmount %s\n"), be_name); if (ret == BE_SUCCESS) ret = err; } } ZFS_CLOSE(zhp); free(fld->altroot); fld->altroot = NULL; return (ret); } /* * Function: be_free_fs_list * Description: Function used to free the members of a be_fs_list_data_t * structure. * Parameters: * fld - be_fs_list_data_t pointer to free. * Returns: * None * Scope: * Semi-private (library wide use only) */ void be_free_fs_list(be_fs_list_data_t *fld) { int i; if (fld == NULL) return; free(fld->altroot); if (fld->fs_list == NULL) return; for (i = 0; i < fld->fs_num; i++) free(fld->fs_list[i]); free(fld->fs_list); } /* * Function: be_get_ds_from_dir(char *dir) * Description: Given a directory path, find the underlying dataset mounted * at that directory path if there is one. The returned name * is allocated in heap storage, so the caller is responsible * for freeing it. * Parameters: * dir - char pointer of directory to find. * Returns: * NULL - if directory is not mounted from a dataset. * name of dataset mounted at dir. * Scope: * Semi-private (library wide use only) */ char * be_get_ds_from_dir(char *dir) { dir_data_t dd = { 0 }; char resolved_dir[MAXPATHLEN]; /* Make sure length of dir is within the max length */ if (dir == NULL || strlen(dir) >= MAXPATHLEN) return (NULL); /* Resolve dir in case its lofs mounted */ (void) strlcpy(resolved_dir, dir, sizeof (resolved_dir)); z_resolve_lofs(resolved_dir, sizeof (resolved_dir)); dd.dir = resolved_dir; (void) zfs_iter_root(g_zfs, be_get_ds_from_dir_callback, &dd); return (dd.ds); } /* * Function: be_make_tmp_mountpoint * Description: This function generates a random temporary mountpoint * and creates that mountpoint directory. It returns the * mountpoint in heap storage, so the caller is responsible * for freeing it. * Parameters: * tmp_mp - reference to pointer of where to store generated * temporary mountpoint. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int be_make_tmp_mountpoint(char **tmp_mp) { int err = 0; if ((*tmp_mp = (char *)calloc(1, sizeof (BE_TMP_MNTPNT) + 1)) == NULL) { be_print_err(gettext("be_make_tmp_mountpoint: " "malloc failed\n")); return (BE_ERR_NOMEM); } (void) strlcpy(*tmp_mp, BE_TMP_MNTPNT, sizeof (BE_TMP_MNTPNT) + 1); if (mkdtemp(*tmp_mp) == NULL) { err = errno; be_print_err(gettext("be_make_tmp_mountpoint: mkdtemp() failed " "for %s: %s\n"), *tmp_mp, strerror(err)); free(*tmp_mp); *tmp_mp = NULL; return (errno_to_be_err(err)); } return (BE_SUCCESS); } /* * Function: be_mount_pool * Description: This function determines if the pool's datase is mounted * and if not it is used to mount the pool's dataset. The * function returns the current mountpoint if we are able * to mount the dataset. * Parameters: * zhp - handle to the pool's dataset * tmp_mntpnt - The temporary mountpoint that the pool's * dataset is mounted on. This is set only * if the attempt to mount the dataset at it's * set mountpoint fails, and we've used a * temporary mount point for this dataset. It * is expected that the caller will free this * memory. * orig_mntpnt - The original mountpoint for the pool. If a * temporary mount point was needed this will * be used to reset the mountpoint property to * it's original mountpoint. It is expected that * the caller will free this memory. * pool_mounted - This flag indicates that the pool was mounted * in this function. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int be_mount_pool( zfs_handle_t *zhp, char **tmp_mntpnt, char **orig_mntpnt, boolean_t *pool_mounted) { char mountpoint[MAXPATHLEN]; int ret = 0; *tmp_mntpnt = NULL; *orig_mntpnt = NULL; *pool_mounted = B_FALSE; if (!zfs_is_mounted(zhp, NULL)) { if (zfs_mount(zhp, NULL, 0) != 0) { if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("be_mount_pool: failed to " "get mountpoint of (%s): %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } if ((*orig_mntpnt = strdup(mountpoint)) == NULL) { be_print_err(gettext("be_mount_pool: memory " "allocation failed\n")); return (BE_ERR_NOMEM); } /* * attempt to mount on a temp mountpoint */ if ((ret = be_make_tmp_mountpoint(tmp_mntpnt)) != BE_SUCCESS) { be_print_err(gettext("be_mount_pool: failed " "to make temporary mountpoint\n")); free(*orig_mntpnt); *orig_mntpnt = NULL; return (ret); } if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), *tmp_mntpnt) != 0) { be_print_err(gettext("be_mount_pool: failed " "to set mountpoint of pool dataset %s to " "%s: %s\n"), zfs_get_name(zhp), *orig_mntpnt, libzfs_error_description(g_zfs)); free(*tmp_mntpnt); free(*orig_mntpnt); *orig_mntpnt = NULL; *tmp_mntpnt = NULL; return (zfs_err_to_be_err(g_zfs)); } if (zfs_mount(zhp, NULL, 0) != 0) { be_print_err(gettext("be_mount_pool: failed " "to mount dataset %s at %s: %s\n"), zfs_get_name(zhp), *tmp_mntpnt, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), mountpoint) != 0) { be_print_err(gettext("be_mount_pool: " "failed to set mountpoint of pool " "dataset %s to %s: %s\n"), zfs_get_name(zhp), *tmp_mntpnt, libzfs_error_description(g_zfs)); } free(*tmp_mntpnt); free(*orig_mntpnt); *orig_mntpnt = NULL; *tmp_mntpnt = NULL; return (ret); } } *pool_mounted = B_TRUE; } return (BE_SUCCESS); } /* * Function: be_unmount_pool * Description: This function is used to unmount the pool's dataset if we * mounted it previously using be_mount_pool(). * Parameters: * zhp - handle to the pool's dataset * tmp_mntpnt - If a temprary mount point was used this will * be set. Since this was created in be_mount_pool * we will need to clean it up here. * orig_mntpnt - The original mountpoint for the pool. This is * used to set the dataset mountpoint property * back to it's original value in the case where a * temporary mountpoint was used. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Semi-private (library wide use only) */ int be_unmount_pool( zfs_handle_t *zhp, char *tmp_mntpnt, char *orig_mntpnt) { if (zfs_unmount(zhp, NULL, 0) != 0) { be_print_err(gettext("be_unmount_pool: failed to " "unmount pool (%s): %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } if (orig_mntpnt != NULL) { if (tmp_mntpnt != NULL && strcmp(orig_mntpnt, tmp_mntpnt) != 0) { (void) rmdir(tmp_mntpnt); } if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), orig_mntpnt) != 0) { be_print_err(gettext("be_unmount_pool: failed " "to set the mountpoint for dataset (%s) to " "%s: %s\n"), zfs_get_name(zhp), orig_mntpnt, libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } } return (BE_SUCCESS); } /* ******************************************************************** */ /* Private Functions */ /* ******************************************************************** */ /* * Function: be_mount_callback * Description: Callback function used to iterate through all of a BE's * subordinate file systems and to mount them accordingly. * Parameters: * zhp - zfs_handle_t pointer to current file system being * processed. * data - pointer to the altroot of where to mount BE. * Returns: * 0 - Success * be_errno_t - Failure * Scope: * Private */ static int be_mount_callback(zfs_handle_t *zhp, void *data) { zprop_source_t sourcetype; const char *fs_name = zfs_get_name(zhp); char source[ZFS_MAXNAMELEN]; char *altroot = data; char zhp_mountpoint[MAXPATHLEN]; char mountpoint[MAXPATHLEN]; int ret = 0; /* Get dataset's mountpoint and source values */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, zhp_mountpoint, sizeof (zhp_mountpoint), &sourcetype, source, sizeof (source), B_FALSE) != 0) { be_print_err(gettext("be_mount_callback: failed to " "get mountpoint and sourcetype for %s\n"), fs_name); ZFS_CLOSE(zhp); return (BE_ERR_ZFS); } /* * Set this filesystem's 'canmount' property to 'noauto' just incase * it's been set 'on'. We do this so that when we change its * mountpoint zfs won't immediately try to mount it. */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_CANMOUNT), "noauto")) { be_print_err(gettext("be_mount_callback: failed to " "set canmount to 'noauto' (%s)\n"), fs_name); ZFS_CLOSE(zhp); return (BE_ERR_ZFS); } /* * If the mountpoint is none, there's nothing to do, goto next. * If the mountpoint is legacy, legacy mount it with mount(2). * If the mountpoint is inherited, its mountpoint should * already be set. If it's not, then explicitly fix-up * the mountpoint now by appending its explicitly set * mountpoint value to the BE mountpoint. */ if (strcmp(zhp_mountpoint, ZFS_MOUNTPOINT_NONE) == 0) { goto next; } else if (strcmp(zhp_mountpoint, ZFS_MOUNTPOINT_LEGACY) == 0) { /* * If the mountpoint is set to 'legacy', we need to * dig into this BE's vfstab to figure out where to * mount it, and just mount it via mount(2). */ if (get_mountpoint_from_vfstab(altroot, fs_name, mountpoint, sizeof (mountpoint), B_TRUE) == BE_SUCCESS) { /* Legacy mount the file system */ if (mount(fs_name, mountpoint, MS_DATA, MNTTYPE_ZFS, NULL, 0, NULL, 0) != 0) { be_print_err( gettext("be_mount_callback: " "failed to mount %s on %s\n"), fs_name, mountpoint); } } else { be_print_err( gettext("be_mount_callback: " "no entry for %s in vfstab, " "skipping ...\n"), fs_name); } goto next; } else if (sourcetype & ZPROP_SRC_INHERITED) { /* * If the mountpoint is inherited, its parent should have * already been processed so its current mountpoint value * is what its mountpoint ought to be. */ (void) strlcpy(mountpoint, zhp_mountpoint, sizeof (mountpoint)); } else if (sourcetype & ZPROP_SRC_LOCAL) { /* * Else process dataset with explicitly set mountpoint. */ (void) snprintf(mountpoint, sizeof (mountpoint), "%s%s", altroot, zhp_mountpoint); /* Set the new mountpoint for the dataset */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), mountpoint)) { be_print_err(gettext("be_mount_callback: " "failed to set mountpoint for %s to " "%s\n"), fs_name, mountpoint); ZFS_CLOSE(zhp); return (BE_ERR_ZFS); } } else { be_print_err(gettext("be_mount_callback: " "mountpoint sourcetype of %s is %d, skipping ...\n"), fs_name, sourcetype); goto next; } /* Mount this filesystem */ if (zfs_mount(zhp, NULL, 0) != 0) { be_print_err(gettext("be_mount_callback: failed to " "mount dataset %s at %s: %s\n"), fs_name, mountpoint, libzfs_error_description(g_zfs)); /* * Set this filesystem's 'mountpoint' property back to what * it was */ if (sourcetype & ZPROP_SRC_LOCAL && strcmp(zhp_mountpoint, ZFS_MOUNTPOINT_LEGACY) != 0) { (void) zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), zhp_mountpoint); } ZFS_CLOSE(zhp); return (BE_ERR_MOUNT); } next: /* Iterate through this dataset's children and mount them */ if ((ret = zfs_iter_filesystems(zhp, be_mount_callback, altroot)) != 0) { ZFS_CLOSE(zhp); return (ret); } ZFS_CLOSE(zhp); return (0); } /* * Function: be_unmount_callback * Description: Callback function used to iterate through all of a BE's * subordinate file systems and to unmount them. * Parameters: * zhp - zfs_handle_t pointer to current file system being * processed. * data - pointer to the mountpoint of where BE is mounted. * Returns: * 0 - Success * be_errno_t - Failure * Scope: * Private */ static int be_unmount_callback(zfs_handle_t *zhp, void *data) { be_unmount_data_t *ud = data; zprop_source_t sourcetype; const char *fs_name = zfs_get_name(zhp); char source[ZFS_MAXNAMELEN]; char mountpoint[MAXPATHLEN]; char *zhp_mountpoint; int ret = 0; /* Iterate down this dataset's children first */ if (zfs_iter_filesystems(zhp, be_unmount_callback, ud)) { ret = BE_ERR_UMOUNT; goto done; } /* Is dataset even mounted ? */ if (!zfs_is_mounted(zhp, NULL)) goto done; /* Unmount this file system */ if (zfs_unmount(zhp, NULL, ud->force ? MS_FORCE : 0) != 0) { be_print_err(gettext("be_unmount_callback: " "failed to unmount %s: %s\n"), fs_name, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); goto done; } /* Get dataset's current mountpoint and source value */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), &sourcetype, source, sizeof (source), B_FALSE) != 0) { be_print_err(gettext("be_unmount_callback: " "failed to get mountpoint and sourcetype for %s: %s\n"), fs_name, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); goto done; } if (sourcetype & ZPROP_SRC_INHERITED) { /* * If the mountpoint is inherited we don't need to * do anything. When its parent gets processed * its mountpoint will be set accordingly. */ goto done; } else if (sourcetype & ZPROP_SRC_LOCAL) { if (strcmp(mountpoint, ZFS_MOUNTPOINT_LEGACY) == 0) { /* * If the mountpoint is set to 'legacy', its already * been unmounted (from above call to zfs_unmount), and * we don't need to do anything else with it. */ goto done; } else { /* * Else process dataset with explicitly set mountpoint. */ /* * Get this dataset's mountpoint relative to * the BE's mountpoint. */ if ((strncmp(mountpoint, ud->altroot, strlen(ud->altroot)) == 0) && (mountpoint[strlen(ud->altroot)] == '/')) { zhp_mountpoint = mountpoint + strlen(ud->altroot); /* Set this dataset's mountpoint value */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), zhp_mountpoint)) { be_print_err( gettext("be_unmount_callback: " "failed to set mountpoint for " "%s to %s: %s\n"), fs_name, zhp_mountpoint, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); } } else { be_print_err( gettext("be_unmount_callback: " "%s not mounted under BE's altroot %s, " "skipping ...\n"), fs_name, ud->altroot); /* * fs_name is mounted but not under the * root for this BE. */ ret = BE_ERR_INVALMOUNTPOINT; } } } else { be_print_err(gettext("be_unmount_callback: " "mountpoint sourcetype of %s is %d, skipping ...\n"), fs_name, sourcetype); ret = BE_ERR_ZFS; } done: /* Set this filesystem's 'canmount' property to 'noauto' */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_CANMOUNT), "noauto")) { be_print_err(gettext("be_unmount_callback: " "failed to set canmount to 'noauto' (%s)\n"), fs_name); if (ret == 0) ret = BE_ERR_ZFS; } ZFS_CLOSE(zhp); return (ret); } /* * Function: be_get_legacy_fs_callback * Description: The callback function is used to iterate through all * non-shared file systems of a BE, finding ones that have * a legacy mountpoint and an entry in the BE's vfstab. * It adds these file systems to the callback data. * Parameters: * zhp - zfs_handle_t pointer to current file system being * processed. * data - be_fs_list_data_t pointer * Returns: * 0 - Success * be_errno_t - Failure * Scope: * Private */ static int be_get_legacy_fs_callback(zfs_handle_t *zhp, void *data) { be_fs_list_data_t *fld = data; const char *fs_name = zfs_get_name(zhp); char zhp_mountpoint[MAXPATHLEN]; char mountpoint[MAXPATHLEN]; int ret = 0; /* Get this dataset's mountpoint property */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, zhp_mountpoint, sizeof (zhp_mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("be_get_legacy_fs_callback: " "failed to get mountpoint for %s: %s\n"), fs_name, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); ZFS_CLOSE(zhp); return (ret); } /* * If mountpoint is legacy, try to get its mountpoint from this BE's * vfstab. If it exists in the vfstab, add this file system to the * callback data. */ if (strcmp(zhp_mountpoint, ZFS_MOUNTPOINT_LEGACY) == 0) { if (get_mountpoint_from_vfstab(fld->altroot, fs_name, mountpoint, sizeof (mountpoint), B_FALSE) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs_callback: " "no entry for %s in vfstab, " "skipping ...\n"), fs_name); goto next; } /* Record file system into the callback data. */ if (add_to_fs_list(fld, zfs_get_name(zhp)) != BE_SUCCESS) { be_print_err(gettext("be_get_legacy_fs_callback: " "failed to add %s to fs list\n"), mountpoint); ZFS_CLOSE(zhp); return (BE_ERR_NOMEM); } } next: /* Iterate through this dataset's children file systems */ if ((ret = zfs_iter_filesystems(zhp, be_get_legacy_fs_callback, fld)) != 0) { ZFS_CLOSE(zhp); return (ret); } ZFS_CLOSE(zhp); return (0); } /* * Function: add_to_fs_list * Description: Function used to add a file system to the fs_list array in * a be_fs_list_data_t structure. * Parameters: * fld - be_fs_list_data_t pointer * fs - file system to add * Returns: * BE_SUCCESS - Success * 1 - Failure * Scope: * Private */ static int add_to_fs_list(be_fs_list_data_t *fld, const char *fs) { if (fld == NULL || fs == NULL) return (1); if ((fld->fs_list = (char **)realloc(fld->fs_list, sizeof (char *)*(fld->fs_num + 1))) == NULL) { be_print_err(gettext("add_to_fs_list: " "memory allocation failed\n")); return (1); } if ((fld->fs_list[fld->fs_num++] = strdup(fs)) == NULL) { be_print_err(gettext("add_to_fs_list: " "memory allocation failed\n")); return (1); } return (BE_SUCCESS); } /* * Function: zpool_shared_fs_callback * Description: Callback function used to iterate through all existing pools * to find and mount all shared filesystems. This function * processes the pool's "pool data" dataset, then uses * iter_shared_fs_callback to iterate through the pool's * datasets. * Parameters: * zlp - zpool_handle_t pointer to the current pool being * looked at. * data - be_mount_data_t pointer * Returns: * 0 - Success * be_errno_t - Failure * Scope: * Private */ static int zpool_shared_fs_callback(zpool_handle_t *zlp, void *data) { be_mount_data_t *md = data; zfs_handle_t *zhp = NULL; const char *zpool = zpool_get_name(zlp); int ret = 0; /* * Get handle to pool's "pool data" dataset */ if ((zhp = zfs_open(g_zfs, zpool, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("zpool_shared_fs: " "failed to open pool dataset %s: %s\n"), zpool, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); zpool_close(zlp); return (ret); } /* Process this pool's "pool data" dataset */ (void) loopback_mount_shared_fs(zhp, md); /* Interate through this pool's children */ (void) zfs_iter_filesystems(zhp, iter_shared_fs_callback, md); ZFS_CLOSE(zhp); zpool_close(zlp); return (0); } /* * Function: iter_shared_fs_callback * Description: Callback function used to iterate through a pool's datasets * to find and mount all shared filesystems. It makes sure to * find the BE container dataset of the pool, if it exists, and * does not process and iterate down that path. * * Note - This function iterates linearly down the * hierarchical dataset paths and mounts things as it goes * along. It does not make sure that something deeper down * a dataset path has an interim mountpoint for something * processed earlier. * * Parameters: * zhp - zfs_handle_t pointer to the current dataset being * processed. * data - be_mount_data_t pointer * Returns: * 0 - Success * be_errno_t - Failure * Scope: * Private */ static int iter_shared_fs_callback(zfs_handle_t *zhp, void *data) { be_mount_data_t *md = data; const char *name = zfs_get_name(zhp); char container_ds[MAXPATHLEN]; char tmp_name[MAXPATHLEN]; char *pool; /* Get the pool's name */ (void) strlcpy(tmp_name, name, sizeof (tmp_name)); pool = strtok(tmp_name, "/"); if (pool) { /* Get the name of this pool's container dataset */ be_make_container_ds(pool, container_ds, sizeof (container_ds)); /* * If what we're processing is this pool's BE container * dataset, skip it. */ if (strcmp(name, container_ds) == 0) { ZFS_CLOSE(zhp); return (0); } } else { /* Getting the pool name failed, return error */ be_print_err(gettext("iter_shared_fs_callback: " "failed to get pool name from %s\n"), name); ZFS_CLOSE(zhp); return (BE_ERR_POOL_NOENT); } /* Mount this shared filesystem */ (void) loopback_mount_shared_fs(zhp, md); /* Iterate this dataset's children file systems */ (void) zfs_iter_filesystems(zhp, iter_shared_fs_callback, md); ZFS_CLOSE(zhp); return (0); } /* * Function: loopback_mount_shared_fs * Description: This function loopback mounts a file system into the altroot * area of the BE being mounted. Since these are shared file * systems, they are expected to be already mounted for the * current BE, and this function just loopback mounts them into * the BE mountpoint. If they are not mounted for the current * live system, they are skipped and not mounted into the BE * we're mounting. * Parameters: * zhp - zfs_handle_t pointer to the dataset to loopback mount * md - be_mount_data_t pointer * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int loopback_mount_shared_fs(zfs_handle_t *zhp, be_mount_data_t *md) { char zhp_mountpoint[MAXPATHLEN]; char mountpoint[MAXPATHLEN]; char *mp = NULL; char optstr[MAX_MNTOPT_STR]; int mflag = MS_OPTIONSTR; int err; /* * Check if file system is currently mounted and not delegated * to a non-global zone (if we're in the global zone) */ if (zfs_is_mounted(zhp, &mp) && (getzoneid() != GLOBAL_ZONEID || !zfs_prop_get_int(zhp, ZFS_PROP_ZONED))) { /* * If we didn't get a mountpoint from the zfs_is_mounted call, * get it from the mountpoint property. */ if (mp == NULL) { if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, zhp_mountpoint, sizeof (zhp_mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err( gettext("loopback_mount_shared_fs: " "failed to get mountpoint property\n")); return (BE_ERR_ZFS); } } else { (void) strlcpy(zhp_mountpoint, mp, sizeof (zhp_mountpoint)); free(mp); } (void) snprintf(mountpoint, sizeof (mountpoint), "%s%s", md->altroot, zhp_mountpoint); /* Mount it read-only if read-write was not requested */ if (!md->shared_rw) { mflag |= MS_RDONLY; } /* Add the "nosub" option to the mount options string */ (void) strlcpy(optstr, MNTOPT_NOSUB, sizeof (optstr)); /* Loopback mount this dataset at the altroot */ if (mount(zhp_mountpoint, mountpoint, mflag, MNTTYPE_LOFS, NULL, 0, optstr, sizeof (optstr)) != 0) { err = errno; be_print_err(gettext("loopback_mount_shared_fs: " "failed to loopback mount %s at %s: %s\n"), zhp_mountpoint, mountpoint, strerror(err)); return (BE_ERR_MOUNT); } } return (BE_SUCCESS); } /* * Function: loopback_mount_zonepath * Description: This function loopback mounts a zonepath into the altroot * area of the BE being mounted. * Parameters: * zonepath - pointer to zone path in the current BE * md - be_mount_data_t pointer * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int loopback_mount_zonepath(const char *zonepath, be_mount_data_t *md) { FILE *fp = (FILE *)NULL; struct stat st; char *p; char *p1; char *parent_dir; struct extmnttab extmtab; dev_t dev = NODEV; char *parentmnt; char alt_parentmnt[MAXPATHLEN]; struct mnttab mntref; char altzonepath[MAXPATHLEN]; char optstr[MAX_MNTOPT_STR]; int mflag = MS_OPTIONSTR; int ret; int err; fp = fopen(MNTTAB, "r"); if (fp == NULL) { err = errno; be_print_err(gettext("loopback_mount_zonepath: " "failed to open /etc/mnttab\n")); return (errno_to_be_err(err)); } /* * before attempting the loopback mount of zonepath under altroot, * we need to make sure that all intermediate file systems in the * zone path are also mounted under altroot */ /* get the parent directory for zonepath */ p = strrchr(zonepath, '/'); if (p != NULL && p != zonepath) { if ((parent_dir = (char *)calloc(sizeof (char), p - zonepath + 1)) == NULL) { ret = BE_ERR_NOMEM; goto done; } (void) strlcpy(parent_dir, zonepath, p - zonepath + 1); if (stat(parent_dir, &st) < 0) { ret = errno_to_be_err(errno); be_print_err(gettext("loopback_mount_zonepath: " "failed to stat %s"), parent_dir); free(parent_dir); goto done; } free(parent_dir); /* * After the above stat call, st.st_dev contains ID of the * device over which parent dir resides. * Now, search mnttab and find mount point of parent dir device. */ resetmnttab(fp); while (getextmntent(fp, &extmtab, sizeof (extmtab)) == 0) { dev = makedev(extmtab.mnt_major, extmtab.mnt_minor); if (st.st_dev == dev && strcmp(extmtab.mnt_fstype, MNTTYPE_ZFS) == 0) { p1 = strchr(extmtab.mnt_special, '/'); if (p1 == NULL || strncmp(p1 + 1, BE_CONTAINER_DS_NAME, 4) != 0 || (*(p1 + 5) != '/' && *(p1 + 5) != '\0')) { /* * if parent dir is in a shared file * system, check whether it is already * loopback mounted under altroot or * not. It would have been mounted * already under altroot if it is in * a non-shared filesystem. */ parentmnt = strdup(extmtab.mnt_mountp); (void) snprintf(alt_parentmnt, sizeof (alt_parentmnt), "%s%s", md->altroot, parentmnt); mntref.mnt_mountp = alt_parentmnt; mntref.mnt_special = parentmnt; mntref.mnt_fstype = MNTTYPE_LOFS; mntref.mnt_mntopts = NULL; mntref.mnt_time = NULL; resetmnttab(fp); if (getmntany(fp, (struct mnttab *) &extmtab, &mntref) != 0) { ret = loopback_mount_zonepath( parentmnt, md); if (ret != BE_SUCCESS) { free(parentmnt); goto done; } } free(parentmnt); } break; } } } if (!md->shared_rw) { mflag |= MS_RDONLY; } (void) snprintf(altzonepath, sizeof (altzonepath), "%s%s", md->altroot, zonepath); /* Add the "nosub" option to the mount options string */ (void) strlcpy(optstr, MNTOPT_NOSUB, sizeof (optstr)); /* Loopback mount this dataset at the altroot */ if (mount(zonepath, altzonepath, mflag, MNTTYPE_LOFS, NULL, 0, optstr, sizeof (optstr)) != 0) { err = errno; be_print_err(gettext("loopback_mount_zonepath: " "failed to loopback mount %s at %s: %s\n"), zonepath, altzonepath, strerror(err)); ret = BE_ERR_MOUNT; goto done; } ret = BE_SUCCESS; done : (void) fclose(fp); return (ret); } /* * Function: unmount_shared_fs * Description: This function iterates through the mnttab and finds all * loopback mount entries that reside within the altroot of * where the BE is mounted, and unmounts it. * Parameters: * ud - be_unmount_data_t pointer * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int unmount_shared_fs(be_unmount_data_t *ud) { FILE *fp = NULL; struct mnttab *table = NULL; struct mnttab ent; struct mnttab *entp = NULL; size_t size = 0; int read_chunk = 32; int i; int altroot_len; int err = 0; errno = 0; /* Read in the mnttab into a table */ if ((fp = fopen(MNTTAB, "r")) == NULL) { err = errno; be_print_err(gettext("unmount_shared_fs: " "failed to open mnttab\n")); return (errno_to_be_err(err)); } while (getmntent(fp, &ent) == 0) { if (size % read_chunk == 0) { table = (struct mnttab *)realloc(table, (size + read_chunk) * sizeof (ent)); } entp = &table[size++]; /* * Copy over the current mnttab entry into our table, * copying only the fields that we care about. */ (void) memset(entp, 0, sizeof (*entp)); if ((entp->mnt_mountp = strdup(ent.mnt_mountp)) == NULL || (entp->mnt_fstype = strdup(ent.mnt_fstype)) == NULL) { be_print_err(gettext("unmount_shared_fs: " "memory allocation failed\n")); return (BE_ERR_NOMEM); } } (void) fclose(fp); /* * Process the mnttab entries in reverse order, looking for * loopback mount entries mounted under our altroot. */ altroot_len = strlen(ud->altroot); for (i = size; i > 0; i--) { entp = &table[i - 1]; /* If not of type lofs, skip */ if (strcmp(entp->mnt_fstype, MNTTYPE_LOFS) != 0) continue; /* If inside the altroot, unmount it */ if (strncmp(entp->mnt_mountp, ud->altroot, altroot_len) == 0 && entp->mnt_mountp[altroot_len] == '/') { if (umount(entp->mnt_mountp) != 0) { err = errno; if (err == EBUSY) { (void) sleep(1); err = errno = 0; if (umount(entp->mnt_mountp) != 0) err = errno; } if (err != 0) { be_print_err(gettext( "unmount_shared_fs: " "failed to unmount shared file " "system %s: %s\n"), entp->mnt_mountp, strerror(err)); return (errno_to_be_err(err)); } } } } return (BE_SUCCESS); } /* * Function: get_mountpoint_from_vfstab * Description: This function digs into the vfstab in the given altroot, * and searches for an entry for the fs passed in. If found, * it returns the mountpoint of that fs in the mountpoint * buffer passed in. If the get_alt_mountpoint flag is set, * it returns the mountpoint with the altroot prepended. * Parameters: * altroot - pointer to the alternate root location * fs - pointer to the file system name to look for in the * vfstab in altroot * mountpoint - pointer to buffer of where the mountpoint of * fs will be returned. * size_mp - size of mountpoint argument * get_alt_mountpoint - flag to indicate whether or not the * mountpoint should be populated with the altroot * prepended. * Returns: * BE_SUCCESS - Success * 1 - Failure * Scope: * Private */ static int get_mountpoint_from_vfstab(char *altroot, const char *fs, char *mountpoint, size_t size_mp, boolean_t get_alt_mountpoint) { struct vfstab vp; FILE *fp = NULL; char alt_vfstab[MAXPATHLEN]; /* Generate path to alternate root vfstab */ (void) snprintf(alt_vfstab, sizeof (alt_vfstab), "%s/etc/vfstab", altroot); /* Open alternate root vfstab */ if ((fp = fopen(alt_vfstab, "r")) == NULL) { be_print_err(gettext("get_mountpoint_from_vfstab: " "failed to open vfstab (%s)\n"), alt_vfstab); return (1); } if (getvfsspec(fp, &vp, (char *)fs) == 0) { /* * Found entry for fs, grab its mountpoint. * If the flag to prepend the altroot into the mountpoint * is set, prepend it. Otherwise, just return the mountpoint. */ if (get_alt_mountpoint) { (void) snprintf(mountpoint, size_mp, "%s%s", altroot, vp.vfs_mountp); } else { (void) strlcpy(mountpoint, vp.vfs_mountp, size_mp); } } else { (void) fclose(fp); return (1); } (void) fclose(fp); return (BE_SUCCESS); } /* * Function: fix_mountpoint_callback * Description: This callback function is used to iterate through a BE's * children filesystems to check if its mountpoint is currently * set to be mounted at some specified altroot. If so, fix it by * removing altroot from the beginning of its mountpoint. * * Note - There's no way to tell if a child filesystem's * mountpoint isn't broken, and just happens to begin with * the altroot we're looking for. In this case, this function * will errantly remove the altroot portion from the beginning * of this filesystem's mountpoint. * * Parameters: * zhp - zfs_handle_t pointer to filesystem being processed. * data - altroot of where BE is to be mounted. * Returns: * 0 - Success * be_errno_t - Failure * Scope: * Private */ static int fix_mountpoint_callback(zfs_handle_t *zhp, void *data) { zprop_source_t sourcetype; char source[ZFS_MAXNAMELEN]; char mountpoint[MAXPATHLEN]; char *zhp_mountpoint = NULL; char *altroot = data; int ret = 0; /* Get dataset's mountpoint and source values */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), &sourcetype, source, sizeof (source), B_FALSE) != 0) { be_print_err(gettext("fix_mountpoint_callback: " "failed to get mountpoint and sourcetype for %s\n"), zfs_get_name(zhp)); ZFS_CLOSE(zhp); return (BE_ERR_ZFS); } /* * If the mountpoint is not inherited and the mountpoint is not * 'legacy', this file system potentially needs its mountpoint * fixed. */ if (!(sourcetype & ZPROP_SRC_INHERITED) && strcmp(mountpoint, ZFS_MOUNTPOINT_LEGACY) != 0) { /* * Check if this file system's current mountpoint is * under the altroot we're fixing it against. */ if (strncmp(mountpoint, altroot, strlen(altroot)) == 0 && mountpoint[strlen(altroot)] == '/') { /* * Get this dataset's mountpoint relative to the * altroot. */ zhp_mountpoint = mountpoint + strlen(altroot); /* Fix this dataset's mountpoint value */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), zhp_mountpoint)) { be_print_err(gettext("fix_mountpoint_callback: " "failed to set mountpoint for %s to " "%s: %s\n"), zfs_get_name(zhp), zhp_mountpoint, libzfs_error_description(g_zfs)); ret = zfs_err_to_be_err(g_zfs); ZFS_CLOSE(zhp); return (ret); } } } /* Iterate through this dataset's children and fix them */ if ((ret = zfs_iter_filesystems(zhp, fix_mountpoint_callback, altroot)) != 0) { ZFS_CLOSE(zhp); return (ret); } ZFS_CLOSE(zhp); return (0); } /* * Function: be_mount_root * Description: This function mounts the root dataset of a BE at the * specified altroot. * Parameters: * zhp - zfs_handle_t pointer to root dataset of a BE that is * to be mounted at altroot. * altroot - location of where to mount the BE root. * Return: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int be_mount_root(zfs_handle_t *zhp, char *altroot) { char mountpoint[MAXPATHLEN]; /* Get mountpoint property of dataset */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("be_mount_root: failed to " "get mountpoint property for %s: %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* * Set the canmount property for the BE's root dataset to 'noauto' just * in case it's been set to 'on'. We do this so that when we change its * mountpoint, zfs won't immediately try to mount it. */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_CANMOUNT), "noauto") != 0) { be_print_err(gettext("be_mount_root: failed to " "set canmount property to 'noauto' (%s): %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Set mountpoint for BE's root filesystem */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), altroot) != 0) { be_print_err(gettext("be_mount_root: failed to " "set mountpoint of %s to %s: %s\n"), zfs_get_name(zhp), altroot, libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Mount the BE's root filesystem */ if (zfs_mount(zhp, NULL, 0) != 0) { be_print_err(gettext("be_mount_root: failed to " "mount dataset %s at %s: %s\n"), zfs_get_name(zhp), altroot, libzfs_error_description(g_zfs)); /* * Set this BE's root filesystem 'mountpoint' property * back to what it was before. */ (void) zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), mountpoint); return (zfs_err_to_be_err(g_zfs)); } return (BE_SUCCESS); } /* * Function: be_unmount_root * Description: This function unmounts the root dataset of a BE, but before * unmounting, it looks at the BE's vfstab to determine * if the root dataset mountpoint should be left as 'legacy' * or '/'. If the vfstab contains an entry for this root * dataset with a mountpoint of '/', it sets the mountpoint * property to 'legacy'. * * Parameters: * zhp - zfs_handle_t pointer of the BE root dataset that * is currently mounted. * ud - be_unmount_data_t pointer providing unmount data * for the given BE root dataset. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int be_unmount_root(zfs_handle_t *zhp, be_unmount_data_t *ud) { char mountpoint[MAXPATHLEN]; boolean_t is_legacy = B_FALSE; /* See if this is a legacy mounted root */ if (get_mountpoint_from_vfstab(ud->altroot, zfs_get_name(zhp), mountpoint, sizeof (mountpoint), B_FALSE) == BE_SUCCESS && strcmp(mountpoint, "/") == 0) { is_legacy = B_TRUE; } /* Unmount the dataset */ if (zfs_unmount(zhp, NULL, ud->force ? MS_FORCE : 0) != 0) { be_print_err(gettext("be_unmount_root: failed to " "unmount BE root dataset %s: %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Set canmount property for this BE's root filesystem to noauto */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_CANMOUNT), "noauto") != 0) { be_print_err(gettext("be_unmount_root: failed to " "set canmount property for %s to 'noauto': %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* * Set mountpoint for BE's root dataset back to '/', or 'legacy' * if its a legacy mounted root. */ if (zfs_prop_set(zhp, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), is_legacy ? ZFS_MOUNTPOINT_LEGACY : "/") != 0) { be_print_err(gettext("be_unmount_root: failed to " "set mountpoint of %s to %s\n"), zfs_get_name(zhp), is_legacy ? ZFS_MOUNTPOINT_LEGACY : "/"); return (zfs_err_to_be_err(g_zfs)); } return (BE_SUCCESS); } /* * Function: fix_mountpoint * Description: This function checks the mountpoint of an unmounted BE to make * sure that it is set to either 'legacy' or '/'. If it's not, * then we're in a situation where an unmounted BE has some random * mountpoint set for it. (This could happen if the system was * rebooted while an inactive BE was mounted). This function * attempts to fix its mountpoints. * Parameters: * zhp - zfs_handle_t pointer to root dataset of the BE * whose mountpoint needs to be checked. * Return: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int fix_mountpoint(zfs_handle_t *zhp) { be_unmount_data_t ud = { 0 }; char *altroot = NULL; char mountpoint[MAXPATHLEN]; int ret = BE_SUCCESS; /* * Record what this BE's root dataset mountpoint property is currently * set to. */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mountpoint, sizeof (mountpoint), NULL, NULL, 0, B_FALSE) != 0) { be_print_err(gettext("fix_mountpoint: failed to get " "mountpoint property of (%s): %s\n"), zfs_get_name(zhp), libzfs_error_description(g_zfs)); return (BE_ERR_ZFS); } /* * If the root dataset mountpoint is set to 'legacy' or '/', we're okay. */ if (strcmp(mountpoint, ZFS_MOUNTPOINT_LEGACY) == 0 || strcmp(mountpoint, "/") == 0) { return (BE_SUCCESS); } /* * Iterate through this BE's children datasets and fix * them if they need fixing. */ if (zfs_iter_filesystems(zhp, fix_mountpoint_callback, mountpoint) != 0) { return (BE_ERR_ZFS); } /* * The process of mounting and unmounting the root file system * will fix its mountpoint to correctly be either 'legacy' or '/' * since be_unmount_root will do the right thing by looking at * its vfstab. */ /* Generate temporary altroot to mount the root file system */ if ((ret = be_make_tmp_mountpoint(&altroot)) != BE_SUCCESS) { be_print_err(gettext("fix_mountpoint: failed to " "make temporary mountpoint\n")); return (ret); } /* Mount and unmount the root. */ if ((ret = be_mount_root(zhp, altroot)) != BE_SUCCESS) { be_print_err(gettext("fix_mountpoint: failed to " "mount BE root file system\n")); goto cleanup; } ud.altroot = altroot; if ((ret = be_unmount_root(zhp, &ud)) != BE_SUCCESS) { be_print_err(gettext("fix_mountpoint: failed to " "unmount BE root file system\n")); goto cleanup; } cleanup: free(altroot); return (ret); } /* * Function: be_mount_zones * Description: This function finds all supported non-global zones in the * given global BE and mounts them with respect to where the * global BE is currently mounted. The global BE datasets * (including its shared datasets) are expected to already * be mounted. * Parameters: * be_zhp - zfs_handle_t pointer to the root dataset of the * global BE. * md - be_mount_data_t pointer to data for global BE. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int be_mount_zones(zfs_handle_t *be_zhp, be_mount_data_t *md) { zoneBrandList_t *brands = NULL; zoneList_t zlst = NULL; char *zonename = NULL; char *zonepath = NULL; char *zonepath_ds = NULL; int k; int ret = BE_SUCCESS; z_set_zone_root(md->altroot); if ((brands = be_get_supported_brandlist()) == NULL) { be_print_err(gettext("be_mount_zones: " "no supported brands\n")); return (BE_SUCCESS); } zlst = z_get_nonglobal_zone_list_by_brand(brands); if (zlst == NULL) { z_free_brand_list(brands); return (BE_SUCCESS); } for (k = 0; (zonename = z_zlist_get_zonename(zlst, k)) != NULL; k++) { if (z_zlist_get_current_state(zlst, k) == ZONE_STATE_INSTALLED) { zonepath = z_zlist_get_zonepath(zlst, k); /* * Get the dataset of this zonepath in current BE. * If its not a dataset, skip it. */ if ((zonepath_ds = be_get_ds_from_dir(zonepath)) == NULL) continue; /* * Check if this zone is supported based on * the dataset of its zonepath */ if (!be_zone_supported(zonepath_ds)) { free(zonepath_ds); zonepath_ds = NULL; continue; } /* * if BE's shared file systems are already mounted, * zone path dataset would have already been lofs * mounted under altroot. Otherwise, we need to do * it here. */ if (!md->shared_fs) { ret = loopback_mount_zonepath(zonepath, md); if (ret != BE_SUCCESS) goto done; } /* Mount this zone */ ret = be_mount_one_zone(be_zhp, md, zonename, zonepath, zonepath_ds); free(zonepath_ds); zonepath_ds = NULL; if (ret != BE_SUCCESS) { be_print_err(gettext("be_mount_zones: " "failed to mount zone %s under " "altroot %s\n"), zonename, md->altroot); goto done; } } } done: z_free_brand_list(brands); z_free_zone_list(zlst); /* * libinstzones caches mnttab and uses cached version for resolving lofs * mounts when we call z_resolve_lofs. It creates the cached version * when the first call to z_resolve_lofs happens. So, library's cached * mnttab doesn't contain entries for lofs mounts created in the above * loop. Because of this, subsequent calls to z_resolve_lofs would fail * to resolve these lofs mounts. So, here we destroy library's cached * mnttab to force its recreation when the next call to z_resolve_lofs * happens. */ z_destroyMountTable(); return (ret); } /* * Function: be_unmount_zones * Description: This function finds all supported non-global zones in the * given mounted global BE and unmounts them. * Parameters: * ud - unmount_data_t pointer data for the global BE. * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int be_unmount_zones(be_unmount_data_t *ud) { zoneBrandList_t *brands = NULL; zoneList_t zlst = NULL; char *zonename = NULL; char *zonepath = NULL; char alt_zonepath[MAXPATHLEN]; char *zonepath_ds = NULL; int k; int ret = BE_SUCCESS; z_set_zone_root(ud->altroot); if ((brands = be_get_supported_brandlist()) == NULL) { be_print_err(gettext("be_unmount_zones: " "no supported brands\n")); return (BE_SUCCESS); } zlst = z_get_nonglobal_zone_list_by_brand(brands); if (zlst == NULL) { z_free_brand_list(brands); return (BE_SUCCESS); } for (k = 0; (zonename = z_zlist_get_zonename(zlst, k)) != NULL; k++) { if (z_zlist_get_current_state(zlst, k) == ZONE_STATE_INSTALLED) { zonepath = z_zlist_get_zonepath(zlst, k); /* Build zone's zonepath wrt the global BE altroot */ (void) snprintf(alt_zonepath, sizeof (alt_zonepath), "%s%s", ud->altroot, zonepath); /* * Get the dataset of this zonepath. If its not * a dataset, skip it. */ if ((zonepath_ds = be_get_ds_from_dir(alt_zonepath)) == NULL) continue; /* * Check if this zone is supported based on the * dataset of its zonepath. */ if (!be_zone_supported(zonepath_ds)) { free(zonepath_ds); zonepath_ds = NULL; continue; } /* Unmount this zone */ ret = be_unmount_one_zone(ud, zonename, zonepath, zonepath_ds); free(zonepath_ds); zonepath_ds = NULL; if (ret != BE_SUCCESS) { be_print_err(gettext("be_unmount_zones:" " failed to unmount zone %s from " "altroot %s\n"), zonename, ud->altroot); goto done; } } } done: z_free_brand_list(brands); z_free_zone_list(zlst); return (ret); } /* * Function: be_mount_one_zone * Description: This function is called to mount one zone for a given * global BE. * Parameters: * be_zhp - zfs_handle_t pointer to the root dataset of the * global BE * md - be_mount_data_t pointer to data for global BE * zonename - name of zone to mount * zonepath - zonepath of zone to mount * zonepath_ds - dataset for the zonepath * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int be_mount_one_zone(zfs_handle_t *be_zhp, be_mount_data_t *md, char *zonename, char *zonepath, char *zonepath_ds) { be_mount_data_t zone_md = { 0 }; zfs_handle_t *zone_zhp = NULL; char zone_altroot[MAXPATHLEN]; char zoneroot[MAXPATHLEN]; char zoneroot_ds[MAXPATHLEN]; int ret = BE_SUCCESS; /* Find the active zone root dataset for this zone for this BE */ if ((ret = be_find_active_zone_root(be_zhp, zonepath_ds, zoneroot_ds, sizeof (zoneroot_ds))) == BE_ERR_ZONE_NO_ACTIVE_ROOT) { be_print_err(gettext("be_mount_one_zone: did not " "find active zone root for zone %s, skipping ...\n"), zonename); return (BE_SUCCESS); } else if (ret != BE_SUCCESS) { be_print_err(gettext("be_mount_one_zone: failed to " "find active zone root for zone %s\n"), zonename); return (ret); } /* Get handle to active zoneroot dataset */ if ((zone_zhp = zfs_open(g_zfs, zoneroot_ds, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("be_mount_one_zone: failed to " "open zone root dataset (%s): %s\n"), zoneroot_ds, libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* Generate string for zone's altroot path */ be_make_zoneroot(zonepath, zoneroot, sizeof (zoneroot)); (void) strlcpy(zone_altroot, md->altroot, sizeof (zone_altroot)); (void) strlcat(zone_altroot, zoneroot, sizeof (zone_altroot)); /* Build mount_data for the zone */ zone_md.altroot = zone_altroot; zone_md.shared_fs = md->shared_fs; zone_md.shared_rw = md->shared_rw; /* Mount the zone's root file system */ if ((ret = be_mount_zone_root(zone_zhp, &zone_md)) != BE_SUCCESS) { be_print_err(gettext("be_mount_one_zone: failed to " "mount zone root file system at %s\n"), zone_altroot); goto done; } /* Iterate through zone's children filesystems */ if ((ret = zfs_iter_filesystems(zone_zhp, be_mount_callback, zone_altroot)) != 0) { be_print_err(gettext("be_mount_one_zone: failed to " "mount zone subordinate file systems at %s\n"), zone_altroot); goto done; } /* TODO: Mount all shared file systems for this zone */ done: ZFS_CLOSE(zone_zhp); return (ret); } /* * Function: be_unmount_one_zone * Description: This function unmount one zone for a give global BE. * Parameters: * ud - be_unmount_data_t pointer to data for global BE * zonename - name of zone to unmount * zonepath - zonepath of the zone to unmount * zonepath_ds - dataset for the zonepath * Returns: * BE_SUCCESS - Success * be_errno_t - Failure * Scope: * Private */ static int be_unmount_one_zone(be_unmount_data_t *ud, char *zonename, char *zonepath, char *zonepath_ds) { be_unmount_data_t zone_ud = { 0 }; zfs_handle_t *zone_zhp = NULL; char zone_altroot[MAXPATHLEN]; char zoneroot[MAXPATHLEN]; char zoneroot_ds[MAXPATHLEN]; int ret = BE_SUCCESS; /* Generate string for zone's alternate root path */ be_make_zoneroot(zonepath, zoneroot, sizeof (zoneroot)); (void) strlcpy(zone_altroot, ud->altroot, sizeof (zone_altroot)); (void) strlcat(zone_altroot, zoneroot, sizeof (zone_altroot)); /* Build be_unmount_data for zone */ zone_ud.altroot = zone_altroot; zone_ud.force = ud->force; /* Find the mounted zone root dataset for this zone for this BE */ if ((ret = be_find_mounted_zone_root(zone_altroot, zonepath_ds, zoneroot_ds, sizeof (zoneroot_ds))) == BE_ERR_NO_MOUNTED_ZONE) { be_print_err(gettext("be_unmount_one_zone: did not " "find any zone root mounted for zone %s\n"), zonename); return (BE_SUCCESS); } else if (ret != BE_SUCCESS) { be_print_err(gettext("be_unmount_one_zone: failed to " "find mounted zone root for zone %s\n"), zonename); return (ret); } /* Get handle to zoneroot dataset mounted for this BE */ if ((zone_zhp = zfs_open(g_zfs, zoneroot_ds, ZFS_TYPE_FILESYSTEM)) == NULL) { be_print_err(gettext("be_unmount_one_zone: failed to " "open mounted zone root dataset (%s): %s\n"), zoneroot_ds, libzfs_error_description(g_zfs)); return (zfs_err_to_be_err(g_zfs)); } /* TODO: Unmount all shared file systems for this zone */ /* Iterate through zone's children filesystems and unmount them */ if ((ret = zfs_iter_filesystems(zone_zhp, be_unmount_callback, &zone_ud)) != 0) { be_print_err(gettext("be_unmount_one_zone: failed to " "unmount zone subordinate file systems at %s\n"), zone_altroot); goto done; } /* Unmount the zone's root filesystem */ if ((ret = be_unmount_zone_root(zone_zhp, &zone_ud)) != BE_SUCCESS) { be_print_err(gettext("be_unmount_one_zone: failed to " "unmount zone root file system at %s\n"), zone_altroot); goto done; } done: ZFS_CLOSE(zone_zhp); return (ret); } /* * Function: be_get_ds_from_dir_callback * Description: This is a callback function used to iterate all datasets * to find the one that is currently mounted at the directory * being searched for. If matched, the name of the dataset is * returned in heap storage, so the caller is responsible for * freeing it. * Parameters: * zhp - zfs_handle_t pointer to current dataset being processed. * data - dir_data_t pointer providing name of directory being * searched for. * Returns: * 1 - This dataset is mounted at directory being searched for. * 0 - This dataset is not mounted at directory being searched for. * Scope: * Private */ static int be_get_ds_from_dir_callback(zfs_handle_t *zhp, void *data) { dir_data_t *dd = data; char *mp = NULL; int zret = 0; if (zfs_get_type(zhp) != ZFS_TYPE_FILESYSTEM) { ZFS_CLOSE(zhp); return (0); } if (zfs_is_mounted(zhp, &mp) && mp != NULL && strcmp(mp, dd->dir) == 0) { if ((dd->ds = strdup(zfs_get_name(zhp))) == NULL) { be_print_err(gettext("be_get_ds_from_dir_callback: " "memory allocation failed\n")); ZFS_CLOSE(zhp); return (0); } ZFS_CLOSE(zhp); return (1); } zret = zfs_iter_filesystems(zhp, be_get_ds_from_dir_callback, dd); ZFS_CLOSE(zhp); return (zret); }