/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * This file contains the functions used to support the ZFS integration * with zones. This includes validation (e.g. zonecfg dataset), cloning, * file system creation and destruction. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "zoneadm.h" static const char *current_dataset; typedef struct zfs_mount_data { char *match_name; zfs_handle_t *match_handle; } zfs_mount_data_t; typedef struct zfs_snapshot_data { char *match_name; int len; int max; } zfs_snapshot_data_t; /* * ZFS error handler to do nothing - do not print the libzfs error messages. */ /* ARGSUSED */ static void noop_err_handler(const char *fmt, va_list ap) { } /* * Custom error handler for errors incurred as part of verifying datasets. We * want to trim off the leading 'cannot open ...' to create a better error * message. The only other way this can fail is if we fail to set the 'zoned' * property. In this case we just pass the error on verbatim. */ static void err_handler(const char *fmt, va_list ap) { char buf[1024]; (void) vsnprintf(buf, sizeof (buf), fmt, ap); if (strncmp(gettext("cannot open "), buf, strlen(gettext("cannot open "))) == 0) /* * TRANSLATION_NOTE * zfs and dataset are literals that should not be translated. */ (void) fprintf(stderr, gettext("could not verify zfs " "dataset %s%s\n"), current_dataset, strchr(buf, ':')); else (void) fprintf(stderr, gettext("could not verify zfs dataset " "%s: %s\n"), current_dataset, buf); } /* * A ZFS file system iterator call-back function which is used to validate * datasets imported into the zone. */ /* ARGSUSED */ static int check_zvol(zfs_handle_t *zhp, void *unused) { int ret; if (zfs_get_type(zhp) == ZFS_TYPE_VOLUME) { /* * TRANSLATION_NOTE * zfs and dataset are literals that should not be translated. */ (void) fprintf(stderr, gettext("cannot verify zfs dataset %s: " "volumes cannot be specified as a zone dataset resource\n"), zfs_get_name(zhp)); ret = -1; } else { ret = zfs_iter_children(zhp, check_zvol, NULL); } zfs_close(zhp); return (ret); } /* * A ZFS file system iterator call-back function which returns the * zfs_handle_t for a ZFS file system on the specified mount point. */ static int match_mountpoint(zfs_handle_t *zhp, void *data) { int res; zfs_mount_data_t *cbp; char mp[ZFS_MAXPROPLEN]; if (zfs_get_type(zhp) != ZFS_TYPE_FILESYSTEM) { zfs_close(zhp); return (0); } cbp = (zfs_mount_data_t *)data; if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mp, sizeof (mp), NULL, NULL, 0, FALSE) == 0 && strcmp(mp, cbp->match_name) == 0) { cbp->match_handle = zhp; return (1); } res = zfs_iter_filesystems(zhp, match_mountpoint, data); zfs_close(zhp); return (res); } /* * Get ZFS handle for the specified mount point. */ static zfs_handle_t * mount2zhandle(char *mountpoint) { zfs_mount_data_t cb; cb.match_name = mountpoint; cb.match_handle = NULL; (void) zfs_iter_root(match_mountpoint, &cb); return (cb.match_handle); } /* * Check if there is already a file system (zfs or any other type) mounted on * path. */ static boolean_t is_mountpnt(char *path) { FILE *fp; struct mnttab entry; if ((fp = fopen("/etc/mnttab", "r")) == NULL) return (B_FALSE); while (getmntent(fp, &entry) == 0) { if (strcmp(path, entry.mnt_mountp) == 0) { (void) fclose(fp); return (B_TRUE); } } (void) fclose(fp); return (B_FALSE); } /* * Perform any necessary housekeeping tasks we need to do before we take * a ZFS snapshot of the zone. What this really entails is that we are * taking a sw inventory of the source zone, like we do when we detach, * so that there is the XML manifest in the snapshot. We use that to * validate the snapshot if it is the source of a clone at some later time. */ static int pre_snapshot(char *source_zone) { int err; zone_dochandle_t handle; if ((handle = zonecfg_init_handle()) == NULL) { zperror(cmd_to_str(CMD_CLONE), B_TRUE); return (Z_ERR); } if ((err = zonecfg_get_handle(source_zone, handle)) != Z_OK) { errno = err; zperror(cmd_to_str(CMD_CLONE), B_TRUE); zonecfg_fini_handle(handle); return (Z_ERR); } if ((err = zonecfg_get_detach_info(handle, B_TRUE)) != Z_OK) { errno = err; zperror(gettext("getting the software version information " "failed"), B_TRUE); zonecfg_fini_handle(handle); return (Z_ERR); } if ((err = zonecfg_detach_save(handle)) != Z_OK) { errno = err; zperror(gettext("saving the software version manifest failed"), B_TRUE); zonecfg_fini_handle(handle); return (Z_ERR); } zonecfg_fini_handle(handle); return (Z_OK); } /* * Perform any necessary housekeeping tasks we need to do after we take * a ZFS snapshot of the zone. What this really entails is removing the * sw inventory XML file from the zone. It is still in the snapshot where * we want it, but we don't want it in the source zone itself. */ static int post_snapshot(char *source_zone) { int err; zone_dochandle_t handle; if ((handle = zonecfg_init_handle()) == NULL) { zperror(cmd_to_str(CMD_CLONE), B_TRUE); return (Z_ERR); } if ((err = zonecfg_get_handle(source_zone, handle)) != Z_OK) { errno = err; zperror(cmd_to_str(CMD_CLONE), B_TRUE); zonecfg_fini_handle(handle); return (Z_ERR); } zonecfg_rm_detached(handle, B_FALSE); zonecfg_fini_handle(handle); return (Z_OK); } /* * This is a ZFS snapshot iterator call-back function which returns the * highest number of SUNWzone snapshots that have been taken. */ static int get_snap_max(zfs_handle_t *zhp, void *data) { int res; zfs_snapshot_data_t *cbp; if (zfs_get_type(zhp) != ZFS_TYPE_SNAPSHOT) { zfs_close(zhp); return (0); } cbp = (zfs_snapshot_data_t *)data; if (strncmp(zfs_get_name(zhp), cbp->match_name, cbp->len) == 0) { char *nump; int num; nump = (char *)(zfs_get_name(zhp) + cbp->len); num = atoi(nump); if (num > cbp->max) cbp->max = num; } res = zfs_iter_snapshots(zhp, get_snap_max, data); zfs_close(zhp); return (res); } /* * Take a ZFS snapshot to be used for cloning the zone. */ static int take_snapshot(char *source_zone, zfs_handle_t *zhp, char *snapshot_name, int snap_size) { int res; char template[ZFS_MAXNAMELEN]; zfs_snapshot_data_t cb; /* * First we need to figure out the next available name for the * zone snapshot. Look through the list of zones snapshots for * this file system to determine the maximum snapshot name. */ if (snprintf(template, sizeof (template), "%s@SUNWzone", zfs_get_name(zhp)) >= sizeof (template)) return (Z_ERR); cb.match_name = template; cb.len = strlen(template); cb.max = 0; if (zfs_iter_snapshots(zhp, get_snap_max, &cb) != 0) return (Z_ERR); cb.max++; if (snprintf(snapshot_name, snap_size, "%s@SUNWzone%d", zfs_get_name(zhp), cb.max) >= snap_size) return (Z_ERR); if (pre_snapshot(source_zone) != Z_OK) return (Z_ERR); res = zfs_snapshot(snapshot_name); if (post_snapshot(source_zone) != Z_OK) return (Z_ERR); if (res != 0) return (Z_ERR); return (Z_OK); } /* * We are using an explicit snapshot from some earlier point in time so * we need to validate it. This involves checking the sw inventory that * we took when we made the snapshot to verify that the current sw config * on the host is still valid to run a zone made from this snapshot. */ static int validate_snapshot(char *snapshot_name, char *snap_path) { int err; zone_dochandle_t handle; zone_dochandle_t athandle = NULL; if ((handle = zonecfg_init_handle()) == NULL) { zperror(cmd_to_str(CMD_CLONE), B_TRUE); return (Z_ERR); } if ((err = zonecfg_get_handle(target_zone, handle)) != Z_OK) { errno = err; zperror(cmd_to_str(CMD_CLONE), B_TRUE); zonecfg_fini_handle(handle); return (Z_ERR); } if ((athandle = zonecfg_init_handle()) == NULL) { zperror(cmd_to_str(CMD_CLONE), B_TRUE); goto done; } if ((err = zonecfg_get_attach_handle(snap_path, target_zone, B_TRUE, athandle)) != Z_OK) { if (err == Z_NO_ZONE) (void) fprintf(stderr, gettext("snapshot %s was not " "taken\n\tby a 'zoneadm clone' command. It can " "not be used to clone zones.\n"), snapshot_name); else (void) fprintf(stderr, gettext("snapshot %s is " "out-dated\n\tIt can no longer be used to clone " "zones on this system.\n"), snapshot_name); goto done; } /* Get the detach information for the locally defined zone. */ if ((err = zonecfg_get_detach_info(handle, B_FALSE)) != Z_OK) { errno = err; zperror(gettext("getting the attach information failed"), B_TRUE); goto done; } if ((err = sw_cmp(handle, athandle, SW_CMP_SILENT)) != Z_OK) (void) fprintf(stderr, gettext("snapshot %s is out-dated\n\t" "It can no longer be used to clone zones on this " "system.\n"), snapshot_name); done: zonecfg_fini_handle(handle); if (athandle != NULL) zonecfg_fini_handle(athandle); return (err); } /* * Remove the sw inventory file from inside this zonepath that we picked up out * of the snapshot. */ static int clean_out_clone() { int err; zone_dochandle_t handle; if ((handle = zonecfg_init_handle()) == NULL) { zperror(cmd_to_str(CMD_CLONE), B_TRUE); return (Z_ERR); } if ((err = zonecfg_get_handle(target_zone, handle)) != Z_OK) { errno = err; zperror(cmd_to_str(CMD_CLONE), B_TRUE); zonecfg_fini_handle(handle); return (Z_ERR); } zonecfg_rm_detached(handle, B_FALSE); zonecfg_fini_handle(handle); return (Z_OK); } /* * Make a ZFS clone on zonepath from snapshot_name. */ static int clone_snap(char *snapshot_name, char *zonepath) { int res = Z_OK; int err; zfs_handle_t *zhp; zfs_handle_t *clone; if ((zhp = zfs_open(snapshot_name, ZFS_TYPE_SNAPSHOT)) == NULL) return (Z_NO_ENTRY); (void) printf(gettext("Cloning snapshot %s\n"), snapshot_name); err = zfs_clone(zhp, zonepath); zfs_close(zhp); if (err != 0) return (Z_ERR); /* create the mountpoint if necessary */ if ((clone = zfs_open(zonepath, ZFS_TYPE_ANY)) == NULL) return (Z_ERR); /* * The clone has been created so we need to print a diagnostic * message if one of the following steps fails for some reason. */ if (zfs_mount(clone, NULL, 0) != 0) { (void) fprintf(stderr, gettext("could not mount ZFS clone " "%s\n"), zfs_get_name(clone)); res = Z_ERR; } else { if (zfs_prop_set(clone, ZFS_PROP_SHARENFS, "off") != 0) { /* we won't consider this a failure */ (void) fprintf(stderr, gettext("could not turn off the " "'sharenfs' property on ZFS clone %s\n"), zfs_get_name(clone)); } if (clean_out_clone() != Z_OK) { (void) fprintf(stderr, gettext("could not remove the " "software inventory from ZFS clone %s\n"), zfs_get_name(clone)); res = Z_ERR; } } zfs_close(clone); return (res); } /* * This function takes a zonepath and attempts to determine what the ZFS * file system name (not mountpoint) should be for that path. We do not * assume that zonepath is an existing directory or ZFS fs since we use * this function as part of the process of creating a new ZFS fs or clone. * * The way this works is that we look at the parent directory of the zonepath * to see if it is a ZFS fs. If it is, we get the name of that ZFS fs and * append the last component of the zonepath to generate the ZFS name for the * zonepath. This matches the algorithm that ZFS uses for automatically * mounting a new fs after it is created. * * Although a ZFS fs can be mounted anywhere, we don't worry about handling * all of the complexity that a user could possibly configure with arbitrary * mounts since there is no way to generate a ZFS name from a random path in * the file system. We only try to handle the automatic mounts that ZFS does * for each file system. ZFS restricts this so that a new fs must be created * in an existing parent ZFS fs. It then automatically mounts the new fs * directly under the mountpoint for the parent fs using the last component * of the name as the mountpoint directory. * * For example: * Name Mountpoint * space/eng/dev/test/zone1 /project1/eng/dev/test/zone1 * * Return Z_OK if the path mapped to a ZFS file system name, otherwise return * Z_ERR. */ static int path2name(char *zonepath, char *zfs_name, int len) { int res; char *p; zfs_handle_t *zhp; if ((p = strrchr(zonepath, '/')) == NULL) return (Z_ERR); /* * If the parent directory is not its own ZFS fs, then we can't * automatically create a new ZFS fs at the 'zonepath' mountpoint * so return an error. */ *p = '\0'; zhp = mount2zhandle(zonepath); *p = '/'; if (zhp == NULL) return (Z_ERR); res = snprintf(zfs_name, len, "%s/%s", zfs_get_name(zhp), p + 1); zfs_close(zhp); if (res >= len) return (Z_ERR); return (Z_OK); } /* * A ZFS file system iterator call-back function used to determine if the * file system has dependents (snapshots & clones). */ /* ARGSUSED */ static int has_dependent(zfs_handle_t *zhp, void *data) { zfs_close(zhp); return (1); } /* * Given a snapshot name, get the file system path where the snapshot lives. * A snapshot name is of the form fs_name@snap_name. For example, snapshot * pl/zones/z1@SUNWzone1 would have a path of * /pl/zones/z1/.zfs/snapshot/SUNWzone1. */ static int snap2path(char *snap_name, char *path, int len) { char *p; zfs_handle_t *zhp; char mp[ZFS_MAXPROPLEN]; if ((p = strrchr(snap_name, '@')) == NULL) return (Z_ERR); /* Get the file system name from the snap_name. */ *p = '\0'; zhp = zfs_open(snap_name, ZFS_TYPE_ANY); *p = '@'; if (zhp == NULL) return (Z_ERR); /* Get the file system mount point. */ if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, mp, sizeof (mp), NULL, NULL, 0, FALSE) != 0) { zfs_close(zhp); return (Z_ERR); } zfs_close(zhp); p++; if (snprintf(path, len, "%s/.zfs/snapshot/%s", mp, p) >= len) return (Z_ERR); return (Z_OK); } /* * Clone a pre-existing ZFS snapshot, either by making a direct ZFS clone, if * possible, or by copying the data from the snapshot to the zonepath. */ int clone_snapshot_zfs(char *snap_name, char *zonepath) { int err = Z_OK; char clone_name[MAXPATHLEN]; char snap_path[MAXPATHLEN]; if (snap2path(snap_name, snap_path, sizeof (snap_path)) != Z_OK) { (void) fprintf(stderr, gettext("unable to find path for %s.\n"), snap_name); return (Z_ERR); } if (validate_snapshot(snap_name, snap_path) != Z_OK) return (Z_NO_ENTRY); /* * The zonepath cannot be ZFS cloned, try to copy the data from * within the snapshot to the zonepath. */ if (path2name(zonepath, clone_name, sizeof (clone_name)) != Z_OK) { if ((err = clone_copy(snap_path, zonepath)) == Z_OK) if (clean_out_clone() != Z_OK) (void) fprintf(stderr, gettext("could not remove the " "software inventory from %s\n"), zonepath); return (err); } if ((err = clone_snap(snap_name, clone_name)) != Z_OK) { if (err != Z_NO_ENTRY) { /* * Cloning the snapshot failed. Fall back to trying * to install the zone by copying from the snapshot. */ if ((err = clone_copy(snap_path, zonepath)) == Z_OK) if (clean_out_clone() != Z_OK) (void) fprintf(stderr, gettext("could not remove the " "software inventory from %s\n"), zonepath); } else { /* * The snapshot is unusable for some reason so restore * the zone state to configured since we were unable to * actually do anything about getting the zone * installed. */ int tmp; if ((tmp = zone_set_state(target_zone, ZONE_STATE_CONFIGURED)) != Z_OK) { errno = tmp; zperror2(target_zone, gettext("could not set state")); } } } return (err); } /* * Attempt to clone a source_zone to a target zonepath by using a ZFS clone. */ int clone_zfs(char *source_zone, char *source_zonepath, char *zonepath) { zfs_handle_t *zhp; char clone_name[MAXPATHLEN]; char snap_name[MAXPATHLEN]; /* * Try to get a zfs handle for the source_zonepath. If this fails * the source_zonepath is not ZFS so return an error. */ if ((zhp = mount2zhandle(source_zonepath)) == NULL) return (Z_ERR); /* * Check if there is a file system already mounted on zonepath. If so, * we can't clone to the path so we should fall back to copying. */ if (is_mountpnt(zonepath)) { zfs_close(zhp); (void) fprintf(stderr, gettext("A file system is already mounted on %s,\n" "preventing use of a ZFS clone.\n"), zonepath); return (Z_ERR); } /* * Instead of using path2name to get the clone name from the zonepath, * we could generate a name from the source zone ZFS name. However, * this would mean we would create the clone under the ZFS fs of the * source instead of what the zonepath says. For example, * * source_zonepath zonepath * /pl/zones/dev/z1 /pl/zones/deploy/z2 * * We don't want the clone to be under "dev", we want it under * "deploy", so that we can leverage the normal attribute inheritance * that ZFS provides in the fs hierarchy. */ if (path2name(zonepath, clone_name, sizeof (clone_name)) != Z_OK) { zfs_close(zhp); return (Z_ERR); } if (take_snapshot(source_zone, zhp, snap_name, sizeof (snap_name)) != Z_OK) { zfs_close(zhp); return (Z_ERR); } zfs_close(zhp); if (clone_snap(snap_name, clone_name) != Z_OK) return (Z_ERR); (void) printf(gettext("Instead of copying, a ZFS clone has been " "created for this zone.\n")); return (Z_OK); } /* * Attempt to create a ZFS file system for the specified zonepath. * We either will successfully create a ZFS file system and get it mounted * on the zonepath or we don't. The caller doesn't care since a regular * directory is used for the zonepath if no ZFS file system is mounted there. */ void create_zfs_zonepath(char *zonepath) { zfs_handle_t *zhp; char zfs_name[MAXPATHLEN]; if (path2name(zonepath, zfs_name, sizeof (zfs_name)) != Z_OK) return; zfs_set_error_handler(noop_err_handler); if (zfs_create(zfs_name, ZFS_TYPE_FILESYSTEM, NULL, NULL) != 0 || (zhp = zfs_open(zfs_name, ZFS_TYPE_ANY)) == NULL) { zfs_set_error_handler(NULL); return; } if (zfs_mount(zhp, NULL, 0) != 0) { (void) zfs_destroy(zhp); } else if (zfs_prop_set(zhp, ZFS_PROP_SHARENFS, "off") != 0) { (void) fprintf(stderr, gettext("file system %s successfully " "created,\nbut could not turn off the 'sharenfs' " "property\n"), zfs_name); } else { if (chmod(zonepath, S_IRWXU) != 0) { (void) fprintf(stderr, gettext("file system %s " "successfully created, but chmod %o failed: %s\n"), zfs_name, S_IRWXU, strerror(errno)); (void) destroy_zfs(zonepath); } else { (void) printf(gettext("A ZFS file system has been " "created for this zone.\n")); } } zfs_set_error_handler(NULL); zfs_close(zhp); } /* * If the zonepath is a ZFS file system, attempt to destroy it. We return Z_OK * if we were able to zfs_destroy the zonepath, otherwise we return Z_ERR * which means the caller should clean up the zonepath in the traditional * way. */ int destroy_zfs(char *zonepath) { zfs_handle_t *zhp; boolean_t is_clone = B_FALSE; char origin[ZFS_MAXPROPLEN]; zfs_set_error_handler(noop_err_handler); if ((zhp = mount2zhandle(zonepath)) == NULL) { zfs_set_error_handler(NULL); return (Z_ERR); } /* * We can't destroy the file system if it has dependents. */ if (zfs_iter_dependents(zhp, has_dependent, NULL) != 0 || zfs_unmount(zhp, NULL, 0) != 0) { zfs_close(zhp); zfs_set_error_handler(NULL); return (Z_ERR); } /* * This might be a clone. Try to get the snapshot so we can attempt * to destroy that as well. */ if (zfs_prop_get(zhp, ZFS_PROP_ORIGIN, origin, sizeof (origin), NULL, NULL, 0, FALSE) == 0) is_clone = B_TRUE; zfs_set_error_handler(NULL); if (zfs_destroy(zhp) != 0) { /* * If the destroy fails for some reason, try to remount * the file system so that we can use "rm -rf" to clean up * instead. */ (void) zfs_mount(zhp, NULL, 0); zfs_close(zhp); return (Z_ERR); } zfs_set_error_handler(noop_err_handler); (void) printf(gettext("The ZFS file system for this zone has been " "destroyed.\n")); if (is_clone) { zfs_handle_t *ohp; /* * Try to clean up the snapshot that the clone was taken from. */ if ((ohp = zfs_open(origin, ZFS_TYPE_SNAPSHOT)) != NULL) { if (zfs_iter_dependents(ohp, has_dependent, NULL) == 0 && zfs_unmount(ohp, NULL, 0) == 0) { (void) zfs_destroy(ohp); } zfs_close(ohp); } } zfs_close(zhp); zfs_set_error_handler(NULL); return (Z_OK); } /* * Return true if the path is its own zfs file system. We determine this * by stat-ing the path to see if it is zfs and stat-ing the parent to see * if it is a different fs. */ boolean_t is_zonepath_zfs(char *zonepath) { int res; char *path; char *parent; struct statvfs buf1, buf2; if (statvfs(zonepath, &buf1) != 0) return (B_FALSE); if (strcmp(buf1.f_basetype, "zfs") != 0) return (B_FALSE); if ((path = strdup(zonepath)) == NULL) return (B_FALSE); parent = dirname(path); res = statvfs(parent, &buf2); free(path); if (res != 0) return (B_FALSE); if (buf1.f_fsid == buf2.f_fsid) return (B_FALSE); return (B_TRUE); } /* * Implement the fast move of a ZFS file system by simply updating the * mountpoint. Since it is file system already, we don't have the * issue of cross-file system copying. */ int move_zfs(char *zonepath, char *new_zonepath) { int ret = Z_ERR; zfs_handle_t *zhp; zfs_set_error_handler(noop_err_handler); if ((zhp = mount2zhandle(zonepath)) == NULL) { zfs_set_error_handler(NULL); return (Z_ERR); } if (zfs_prop_set(zhp, ZFS_PROP_MOUNTPOINT, new_zonepath) == 0) { /* * Clean up the old mount point. We ignore any failure since * the zone is already successfully mounted on the new path. */ (void) rmdir(zonepath); ret = Z_OK; } zfs_close(zhp); zfs_set_error_handler(NULL); return (ret); } /* * Validate that the given dataset exists on the system, and that neither it nor * its children are zvols. * * Note that we don't do anything with the 'zoned' property here. All * management is done in zoneadmd when the zone is actually rebooted. This * allows us to automatically set the zoned property even when a zone is * rebooted by the administrator. */ int verify_datasets(zone_dochandle_t handle) { int return_code = Z_OK; struct zone_dstab dstab; zfs_handle_t *zhp; char propbuf[ZFS_MAXPROPLEN]; char source[ZFS_MAXNAMELEN]; zfs_source_t srctype; if (zonecfg_setdsent(handle) != Z_OK) { /* * TRANSLATION_NOTE * zfs and dataset are literals that should not be translated. */ (void) fprintf(stderr, gettext("could not verify zfs datasets: " "unable to enumerate datasets\n")); return (Z_ERR); } zfs_set_error_handler(err_handler); while (zonecfg_getdsent(handle, &dstab) == Z_OK) { current_dataset = dstab.zone_dataset_name; if ((zhp = zfs_open(dstab.zone_dataset_name, ZFS_TYPE_FILESYSTEM | ZFS_TYPE_VOLUME)) == NULL) { return_code = Z_ERR; continue; } if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, propbuf, sizeof (propbuf), &srctype, source, sizeof (source), 0) == 0 && (srctype == ZFS_SRC_INHERITED)) { (void) fprintf(stderr, gettext("could not verify zfs " "dataset %s: mountpoint cannot be inherited\n"), dstab.zone_dataset_name); return_code = Z_ERR; zfs_close(zhp); continue; } if (zfs_get_type(zhp) == ZFS_TYPE_VOLUME) { (void) fprintf(stderr, gettext("cannot verify zfs " "dataset %s: volumes cannot be specified as a " "zone dataset resource\n"), dstab.zone_dataset_name); return_code = Z_ERR; } if (zfs_iter_children(zhp, check_zvol, NULL) != 0) return_code = Z_ERR; zfs_close(zhp); } (void) zonecfg_enddsent(handle); zfs_set_error_handler(NULL); return (return_code); } /* * Verify that the ZFS dataset exists, and its mountpoint * property is set to "legacy". */ int verify_fs_zfs(struct zone_fstab *fstab) { zfs_handle_t *zhp; char propbuf[ZFS_MAXPROPLEN]; zfs_set_error_handler(noop_err_handler); if ((zhp = zfs_open(fstab->zone_fs_special, ZFS_TYPE_ANY)) == NULL) { (void) fprintf(stderr, gettext("could not verify fs %s: " "could not access zfs dataset '%s'\n"), fstab->zone_fs_dir, fstab->zone_fs_special); zfs_set_error_handler(NULL); return (Z_ERR); } if (zfs_get_type(zhp) != ZFS_TYPE_FILESYSTEM) { (void) fprintf(stderr, gettext("cannot verify fs %s: " "'%s' is not a file system\n"), fstab->zone_fs_dir, fstab->zone_fs_special); zfs_close(zhp); zfs_set_error_handler(NULL); return (Z_ERR); } if (zfs_prop_get(zhp, ZFS_PROP_MOUNTPOINT, propbuf, sizeof (propbuf), NULL, NULL, 0, 0) != 0 || strcmp(propbuf, "legacy") != 0) { (void) fprintf(stderr, gettext("could not verify fs %s: " "zfs '%s' mountpoint is not \"legacy\"\n"), fstab->zone_fs_dir, fstab->zone_fs_special); zfs_close(zhp); zfs_set_error_handler(NULL); return (Z_ERR); } zfs_close(zhp); zfs_set_error_handler(NULL); return (Z_OK); }