HardenedBSD/lib/libbe/be.c
Toomas Soome e307eb94ae loader: zfs should support bootonce an nextboot
bootonce feature is temporary, one time boot, activated by
"bectl activate -t BE", "bectl activate -T BE" will reset the bootonce flag.

By default, the bootonce setting is reset on attempt to boot and the next
boot will use previously active BE.

By setting zfs_bootonce_activate="YES" in rc.conf, the bootonce BE will
be set permanently active.

bootonce dataset name is recorded in boot pool labels, bootenv area.

in case of nextboot, the nextboot_enable boolean variable is recorded in
freebsd:nvstore nvlist, also stored in boot pool label bootenv area.
On boot, the loader will process /boot/nextboot.conf if nextboot_enable
is "YES", and will set nextboot_enable to "NO", preventing /boot/nextboot.conf
processing on next boot.

bootonce and nextboot features are usable in both UEFI and BIOS boot.

To use bootonce/nextboot features, the boot loader needs to be updated on disk;
if loader.efi is stored on ESP, then ESP needs to be updated and
for BIOS boot, stage2 (zfsboot or gptzfsboot) needs to be updated
(gpart or other tools).

At this time, only lua loader is updated.

Sponsored by:	Netflix, Klara Inc.
Differential Revision:	https://reviews.freebsd.org/D25512
2020-09-21 09:01:10 +00:00

1298 lines
34 KiB
C

/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* Copyright (c) 2017 Kyle J. Kneitinger <kyle@kneit.in>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/mount.h>
#include <sys/stat.h>
#include <sys/ucred.h>
#include <sys/queue.h>
#include <sys/zfs_context.h>
#include <sys/mntent.h>
#include <sys/zfs_ioctl.h>
#include <libzutil.h>
#include <ctype.h>
#include <libgen.h>
#include <libzfs_core.h>
#include <libzfs_impl.h>
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <unistd.h>
#include <libzfsbootenv.h>
#include "be.h"
#include "be_impl.h"
struct promote_entry {
char name[BE_MAXPATHLEN];
SLIST_ENTRY(promote_entry) link;
};
struct be_destroy_data {
libbe_handle_t *lbh;
char target_name[BE_MAXPATHLEN];
char *snapname;
SLIST_HEAD(, promote_entry) promotelist;
};
#if SOON
static int be_create_child_noent(libbe_handle_t *lbh, const char *active,
const char *child_path);
static int be_create_child_cloned(libbe_handle_t *lbh, const char *active);
#endif
/* Arbitrary... should tune */
#define BE_SNAP_SERIAL_MAX 1024
/*
* Iterator function for locating the rootfs amongst the children of the
* zfs_be_root set by loader(8). data is expected to be a libbe_handle_t *.
*/
static int
be_locate_rootfs(libbe_handle_t *lbh)
{
struct statfs sfs;
struct mnttab entry;
zfs_handle_t *zfs;
/*
* Check first if root is ZFS; if not, we'll bail on rootfs capture.
* Unfortunately needed because zfs_path_to_zhandle will emit to
* stderr if / isn't actually a ZFS filesystem, which we'd like
* to avoid.
*/
if (statfs("/", &sfs) == 0) {
statfs2mnttab(&sfs, &entry);
if (strcmp(entry.mnt_fstype, MNTTYPE_ZFS) != 0)
return (1);
} else
return (1);
zfs = zfs_path_to_zhandle(lbh->lzh, "/", ZFS_TYPE_FILESYSTEM);
if (zfs == NULL)
return (1);
strlcpy(lbh->rootfs, zfs_get_name(zfs), sizeof(lbh->rootfs));
zfs_close(zfs);
return (0);
}
/*
* Initializes the libbe context to operate in the root boot environment
* dataset, for example, zroot/ROOT.
*/
libbe_handle_t *
libbe_init(const char *root)
{
char altroot[MAXPATHLEN];
libbe_handle_t *lbh;
char *poolname, *pos;
int pnamelen;
lbh = NULL;
poolname = pos = NULL;
if ((lbh = calloc(1, sizeof(libbe_handle_t))) == NULL)
goto err;
if ((lbh->lzh = libzfs_init()) == NULL)
goto err;
/*
* Grab rootfs, we'll work backwards from there if an optional BE root
* has not been passed in.
*/
if (be_locate_rootfs(lbh) != 0) {
if (root == NULL)
goto err;
*lbh->rootfs = '\0';
}
if (root == NULL) {
/* Strip off the final slash from rootfs to get the be root */
strlcpy(lbh->root, lbh->rootfs, sizeof(lbh->root));
pos = strrchr(lbh->root, '/');
if (pos == NULL)
goto err;
*pos = '\0';
} else
strlcpy(lbh->root, root, sizeof(lbh->root));
if ((pos = strchr(lbh->root, '/')) == NULL)
goto err;
pnamelen = pos - lbh->root;
poolname = malloc(pnamelen + 1);
if (poolname == NULL)
goto err;
strlcpy(poolname, lbh->root, pnamelen + 1);
if ((lbh->active_phandle = zpool_open(lbh->lzh, poolname)) == NULL)
goto err;
free(poolname);
poolname = NULL;
if (zpool_get_prop(lbh->active_phandle, ZPOOL_PROP_BOOTFS, lbh->bootfs,
sizeof(lbh->bootfs), NULL, true) != 0)
goto err;
if (zpool_get_prop(lbh->active_phandle, ZPOOL_PROP_ALTROOT,
altroot, sizeof(altroot), NULL, true) == 0 &&
strcmp(altroot, "-") != 0)
lbh->altroot_len = strlen(altroot);
return (lbh);
err:
if (lbh != NULL) {
if (lbh->active_phandle != NULL)
zpool_close(lbh->active_phandle);
if (lbh->lzh != NULL)
libzfs_fini(lbh->lzh);
free(lbh);
}
free(poolname);
return (NULL);
}
/*
* Free memory allocated by libbe_init()
*/
void
libbe_close(libbe_handle_t *lbh)
{
if (lbh->active_phandle != NULL)
zpool_close(lbh->active_phandle);
libzfs_fini(lbh->lzh);
free(lbh);
}
/*
* Proxy through to libzfs for the moment.
*/
void
be_nicenum(uint64_t num, char *buf, size_t buflen)
{
zfs_nicenum(num, buf, buflen);
}
static bool
be_should_promote_clones(zfs_handle_t *zfs_hdl, struct be_destroy_data *bdd)
{
char *atpos;
if (zfs_get_type(zfs_hdl) != ZFS_TYPE_SNAPSHOT)
return (false);
/*
* If we're deleting a snapshot, we need to make sure we only promote
* clones that are derived from one of the snapshots we're deleting,
* rather than that of a snapshot we're not touching. This keeps stuff
* in a consistent state, making sure that we don't error out unless
* we really need to.
*/
if (bdd->snapname == NULL)
return (true);
atpos = strchr(zfs_get_name(zfs_hdl), '@');
return (strcmp(atpos + 1, bdd->snapname) == 0);
}
/*
* This is executed from be_promote_dependent_clones via zfs_iter_dependents,
* It checks if the dependent type is a snapshot then attempts to find any
* clones associated with it. Any clones not related to the destroy target are
* added to the promote list.
*/
static int
be_dependent_clone_cb(zfs_handle_t *zfs_hdl, void *data)
{
int err;
bool found;
char *name;
struct nvlist *nvl;
struct nvpair *nvp;
struct be_destroy_data *bdd;
struct promote_entry *entry, *newentry;
nvp = NULL;
err = 0;
bdd = (struct be_destroy_data *)data;
if (be_should_promote_clones(zfs_hdl, bdd) &&
(nvl = zfs_get_clones_nvl(zfs_hdl)) != NULL) {
while ((nvp = nvlist_next_nvpair(nvl, nvp)) != NULL) {
name = nvpair_name(nvp);
/*
* Skip if the clone is equal to, or a child of, the
* destroy target.
*/
if (strncmp(name, bdd->target_name,
strlen(bdd->target_name)) == 0 ||
strstr(name, bdd->target_name) == name) {
continue;
}
found = false;
SLIST_FOREACH(entry, &bdd->promotelist, link) {
if (strcmp(entry->name, name) == 0) {
found = true;
break;
}
}
if (found)
continue;
newentry = malloc(sizeof(struct promote_entry));
if (newentry == NULL) {
err = ENOMEM;
break;
}
#define BE_COPY_NAME(entry, src) \
strlcpy((entry)->name, (src), sizeof((entry)->name))
if (BE_COPY_NAME(newentry, name) >=
sizeof(newentry->name)) {
/* Shouldn't happen. */
free(newentry);
err = ENAMETOOLONG;
break;
}
#undef BE_COPY_NAME
/*
* We're building up a SLIST here to make sure both that
* we get the order right and so that we don't
* inadvertently observe the wrong state by promoting
* datasets while we're still walking the tree. The
* latter can lead to situations where we promote a BE
* then effectively demote it again.
*/
SLIST_INSERT_HEAD(&bdd->promotelist, newentry, link);
}
nvlist_free(nvl);
}
zfs_close(zfs_hdl);
return (err);
}
/*
* This is called before a destroy, so that any datasets(environments) that are
* dependent on this one get promoted before destroying the target.
*/
static int
be_promote_dependent_clones(zfs_handle_t *zfs_hdl, struct be_destroy_data *bdd)
{
int err;
zfs_handle_t *clone;
struct promote_entry *entry;
snprintf(bdd->target_name, BE_MAXPATHLEN, "%s/", zfs_get_name(zfs_hdl));
err = zfs_iter_dependents(zfs_hdl, true, be_dependent_clone_cb, bdd);
/*
* Drain the list and walk away from it if we're only deleting a
* snapshot.
*/
if (bdd->snapname != NULL && !SLIST_EMPTY(&bdd->promotelist))
err = BE_ERR_HASCLONES;
while (!SLIST_EMPTY(&bdd->promotelist)) {
entry = SLIST_FIRST(&bdd->promotelist);
SLIST_REMOVE_HEAD(&bdd->promotelist, link);
#define ZFS_GRAB_CLONE() \
zfs_open(bdd->lbh->lzh, entry->name, ZFS_TYPE_FILESYSTEM)
/*
* Just skip this part on error, we still want to clean up the
* promotion list after the first error. We'll then preserve it
* all the way back.
*/
if (err == 0 && (clone = ZFS_GRAB_CLONE()) != NULL) {
err = zfs_promote(clone);
if (err != 0)
err = BE_ERR_DESTROYMNT;
zfs_close(clone);
}
#undef ZFS_GRAB_CLONE
free(entry);
}
return (err);
}
static int
be_destroy_cb(zfs_handle_t *zfs_hdl, void *data)
{
char path[BE_MAXPATHLEN];
struct be_destroy_data *bdd;
zfs_handle_t *snap;
int err;
bdd = (struct be_destroy_data *)data;
if (bdd->snapname == NULL) {
err = zfs_iter_children(zfs_hdl, be_destroy_cb, data);
if (err != 0)
return (err);
return (zfs_destroy(zfs_hdl, false));
}
/* If we're dealing with snapshots instead, delete that one alone */
err = zfs_iter_filesystems(zfs_hdl, be_destroy_cb, data);
if (err != 0)
return (err);
/*
* This part is intentionally glossing over any potential errors,
* because there's a lot less potential for errors when we're cleaning
* up snapshots rather than a full deep BE. The primary error case
* here being if the snapshot doesn't exist in the first place, which
* the caller will likely deem insignificant as long as it doesn't
* exist after the call. Thus, such a missing snapshot shouldn't jam
* up the destruction.
*/
snprintf(path, sizeof(path), "%s@%s", zfs_get_name(zfs_hdl),
bdd->snapname);
if (!zfs_dataset_exists(bdd->lbh->lzh, path, ZFS_TYPE_SNAPSHOT))
return (0);
snap = zfs_open(bdd->lbh->lzh, path, ZFS_TYPE_SNAPSHOT);
if (snap != NULL)
zfs_destroy(snap, false);
return (0);
}
#define BE_DESTROY_WANTORIGIN (BE_DESTROY_ORIGIN | BE_DESTROY_AUTOORIGIN)
/*
* Destroy the boot environment or snapshot specified by the name
* parameter. Options are or'd together with the possible values:
* BE_DESTROY_FORCE : forces operation on mounted datasets
* BE_DESTROY_ORIGIN: destroy the origin snapshot as well
*/
static int
be_destroy_internal(libbe_handle_t *lbh, const char *name, int options,
bool odestroyer)
{
struct be_destroy_data bdd;
char origin[BE_MAXPATHLEN], path[BE_MAXPATHLEN];
zfs_handle_t *fs;
char *snapdelim;
int err, force, mounted;
size_t rootlen;
bdd.lbh = lbh;
bdd.snapname = NULL;
SLIST_INIT(&bdd.promotelist);
force = options & BE_DESTROY_FORCE;
*origin = '\0';
be_root_concat(lbh, name, path);
if ((snapdelim = strchr(path, '@')) == NULL) {
if (!zfs_dataset_exists(lbh->lzh, path, ZFS_TYPE_FILESYSTEM))
return (set_error(lbh, BE_ERR_NOENT));
if (strcmp(path, lbh->rootfs) == 0 ||
strcmp(path, lbh->bootfs) == 0)
return (set_error(lbh, BE_ERR_DESTROYACT));
fs = zfs_open(lbh->lzh, path, ZFS_TYPE_FILESYSTEM);
if (fs == NULL)
return (set_error(lbh, BE_ERR_ZFSOPEN));
/* Don't destroy a mounted dataset unless force is specified */
if ((mounted = zfs_is_mounted(fs, NULL)) != 0) {
if (force) {
zfs_unmount(fs, NULL, 0);
} else {
free(bdd.snapname);
return (set_error(lbh, BE_ERR_DESTROYMNT));
}
}
} else {
/*
* If we're initially destroying a snapshot, origin options do
* not make sense. If we're destroying the origin snapshot of
* a BE, we want to maintain the options in case we need to
* fake success after failing to promote.
*/
if (!odestroyer)
options &= ~BE_DESTROY_WANTORIGIN;
if (!zfs_dataset_exists(lbh->lzh, path, ZFS_TYPE_SNAPSHOT))
return (set_error(lbh, BE_ERR_NOENT));
bdd.snapname = strdup(snapdelim + 1);
if (bdd.snapname == NULL)
return (set_error(lbh, BE_ERR_NOMEM));
*snapdelim = '\0';
fs = zfs_open(lbh->lzh, path, ZFS_TYPE_DATASET);
if (fs == NULL) {
free(bdd.snapname);
return (set_error(lbh, BE_ERR_ZFSOPEN));
}
}
/*
* Whether we're destroying a BE or a single snapshot, we need to walk
* the tree of what we're going to destroy and promote everything in our
* path so that we can make it happen.
*/
if ((err = be_promote_dependent_clones(fs, &bdd)) != 0) {
free(bdd.snapname);
/*
* If we're just destroying the origin of some other dataset
* we were invoked to destroy, then we just ignore
* BE_ERR_HASCLONES and return success unless the caller wanted
* to force the issue.
*/
if (odestroyer && err == BE_ERR_HASCLONES &&
(options & BE_DESTROY_AUTOORIGIN) != 0)
return (0);
return (set_error(lbh, err));
}
/*
* This was deferred until after we promote all of the derivatives so
* that we grab the new origin after everything's settled down.
*/
if ((options & BE_DESTROY_WANTORIGIN) != 0 &&
zfs_prop_get(fs, ZFS_PROP_ORIGIN, origin, sizeof(origin),
NULL, NULL, 0, 1) != 0 &&
(options & BE_DESTROY_ORIGIN) != 0)
return (set_error(lbh, BE_ERR_NOORIGIN));
/*
* If the caller wants auto-origin destruction and the origin
* name matches one of our automatically created snapshot names
* (i.e. strftime("%F-%T") with a serial at the end), then
* we'll set the DESTROY_ORIGIN flag and nuke it
* be_is_auto_snapshot_name is exported from libbe(3) so that
* the caller can determine if it needs to warn about the origin
* not being destroyed or not.
*/
if ((options & BE_DESTROY_AUTOORIGIN) != 0 && *origin != '\0' &&
be_is_auto_snapshot_name(lbh, origin))
options |= BE_DESTROY_ORIGIN;
err = be_destroy_cb(fs, &bdd);
zfs_close(fs);
free(bdd.snapname);
if (err != 0) {
/* Children are still present or the mount is referenced */
if (err == EBUSY)
return (set_error(lbh, BE_ERR_DESTROYMNT));
return (set_error(lbh, BE_ERR_UNKNOWN));
}
if ((options & BE_DESTROY_ORIGIN) == 0)
return (0);
/* The origin can't possibly be shorter than the BE root */
rootlen = strlen(lbh->root);
if (*origin == '\0' || strlen(origin) <= rootlen + 1)
return (set_error(lbh, BE_ERR_INVORIGIN));
/*
* We'll be chopping off the BE root and running this back through
* be_destroy, so that we properly handle the origin snapshot whether
* it be that of a deep BE or not.
*/
if (strncmp(origin, lbh->root, rootlen) != 0 || origin[rootlen] != '/')
return (0);
return (be_destroy_internal(lbh, origin + rootlen + 1,
options & ~BE_DESTROY_ORIGIN, true));
}
int
be_destroy(libbe_handle_t *lbh, const char *name, int options)
{
/*
* The consumer must not set both BE_DESTROY_AUTOORIGIN and
* BE_DESTROY_ORIGIN. Internally, we'll set the latter from the former.
* The latter should imply that we must succeed at destroying the
* origin, or complain otherwise.
*/
if ((options & BE_DESTROY_WANTORIGIN) == BE_DESTROY_WANTORIGIN)
return (set_error(lbh, BE_ERR_UNKNOWN));
return (be_destroy_internal(lbh, name, options, false));
}
static void
be_setup_snapshot_name(libbe_handle_t *lbh, char *buf, size_t buflen)
{
time_t rawtime;
int len, serial;
time(&rawtime);
len = strlen(buf);
len += strftime(buf + len, buflen - len, "@%F-%T", localtime(&rawtime));
/* No room for serial... caller will do its best */
if (buflen - len < 2)
return;
for (serial = 0; serial < BE_SNAP_SERIAL_MAX; ++serial) {
snprintf(buf + len, buflen - len, "-%d", serial);
if (!zfs_dataset_exists(lbh->lzh, buf, ZFS_TYPE_SNAPSHOT))
return;
}
}
bool
be_is_auto_snapshot_name(libbe_handle_t *lbh __unused, const char *name)
{
const char *snap;
int day, hour, minute, month, second, serial, year;
if ((snap = strchr(name, '@')) == NULL)
return (false);
++snap;
/* We'll grab the individual components and do some light validation. */
if (sscanf(snap, "%d-%d-%d-%d:%d:%d-%d", &year, &month, &day, &hour,
&minute, &second, &serial) != 7)
return (false);
return (year >= 1970) && (month >= 1 && month <= 12) &&
(day >= 1 && day <= 31) && (hour >= 0 && hour <= 23) &&
(minute >= 0 && minute <= 59) && (second >= 0 && second <= 60) &&
serial >= 0;
}
int
be_snapshot(libbe_handle_t *lbh, const char *source, const char *snap_name,
bool recursive, char *result)
{
char buf[BE_MAXPATHLEN];
int err;
be_root_concat(lbh, source, buf);
if ((err = be_exists(lbh, buf)) != 0)
return (set_error(lbh, err));
if (snap_name != NULL) {
if (strlcat(buf, "@", sizeof(buf)) >= sizeof(buf))
return (set_error(lbh, BE_ERR_INVALIDNAME));
if (strlcat(buf, snap_name, sizeof(buf)) >= sizeof(buf))
return (set_error(lbh, BE_ERR_INVALIDNAME));
if (result != NULL)
snprintf(result, BE_MAXPATHLEN, "%s@%s", source,
snap_name);
} else {
be_setup_snapshot_name(lbh, buf, sizeof(buf));
if (result != NULL && strlcpy(result, strrchr(buf, '/') + 1,
sizeof(buf)) >= sizeof(buf))
return (set_error(lbh, BE_ERR_INVALIDNAME));
}
if ((err = zfs_snapshot(lbh->lzh, buf, recursive, NULL)) != 0) {
switch (err) {
case EZFS_INVALIDNAME:
return (set_error(lbh, BE_ERR_INVALIDNAME));
default:
/*
* The other errors that zfs_ioc_snapshot might return
* shouldn't happen if we've set things up properly, so
* we'll gloss over them and call it UNKNOWN as it will
* require further triage.
*/
if (errno == ENOTSUP)
return (set_error(lbh, BE_ERR_NOPOOL));
return (set_error(lbh, BE_ERR_UNKNOWN));
}
}
return (BE_ERR_SUCCESS);
}
/*
* Create the boot environment specified by the name parameter
*/
int
be_create(libbe_handle_t *lbh, const char *name)
{
int err;
err = be_create_from_existing(lbh, name, be_active_path(lbh));
return (set_error(lbh, err));
}
static int
be_deep_clone_prop(int prop, void *cb)
{
int err;
struct libbe_dccb *dccb;
zprop_source_t src;
char pval[BE_MAXPATHLEN];
char source[BE_MAXPATHLEN];
char *val;
dccb = cb;
/* Skip some properties we don't want to touch */
if (prop == ZFS_PROP_CANMOUNT)
return (ZPROP_CONT);
/* Don't copy readonly properties */
if (zfs_prop_readonly(prop))
return (ZPROP_CONT);
if ((err = zfs_prop_get(dccb->zhp, prop, (char *)&pval,
sizeof(pval), &src, (char *)&source, sizeof(source), false)))
/* Just continue if we fail to read a property */
return (ZPROP_CONT);
/*
* Only copy locally defined or received properties. This continues
* to avoid temporary/default/local properties intentionally without
* breaking received datasets.
*/
if (src != ZPROP_SRC_LOCAL && src != ZPROP_SRC_RECEIVED)
return (ZPROP_CONT);
/* Augment mountpoint with altroot, if needed */
val = pval;
if (prop == ZFS_PROP_MOUNTPOINT)
val = be_mountpoint_augmented(dccb->lbh, val);
nvlist_add_string(dccb->props, zfs_prop_to_name(prop), val);
return (ZPROP_CONT);
}
/*
* Return the corresponding boot environment path for a given
* dataset path, the constructed path is placed in 'result'.
*
* example: say our new boot environment name is 'bootenv' and
* the dataset path is 'zroot/ROOT/default/data/set'.
*
* result should produce: 'zroot/ROOT/bootenv/data/set'
*/
static int
be_get_path(struct libbe_deep_clone *ldc, const char *dspath, char *result, int result_size)
{
char *pos;
char *child_dataset;
/* match the root path for the boot environments */
pos = strstr(dspath, ldc->lbh->root);
/* no match, different pools? */
if (pos == NULL)
return (BE_ERR_BADPATH);
/* root path of the new boot environment */
snprintf(result, result_size, "%s/%s", ldc->lbh->root, ldc->bename);
/* gets us to the parent dataset, the +1 consumes a trailing slash */
pos += strlen(ldc->lbh->root) + 1;
/* skip the parent dataset */
if ((child_dataset = strchr(pos, '/')) != NULL)
strlcat(result, child_dataset, result_size);
return (BE_ERR_SUCCESS);
}
static int
be_clone_cb(zfs_handle_t *ds, void *data)
{
int err;
char be_path[BE_MAXPATHLEN];
char snap_path[BE_MAXPATHLEN];
const char *dspath;
zfs_handle_t *snap_hdl;
nvlist_t *props;
struct libbe_deep_clone *ldc;
struct libbe_dccb dccb;
ldc = (struct libbe_deep_clone *)data;
dspath = zfs_get_name(ds);
snprintf(snap_path, sizeof(snap_path), "%s@%s", dspath, ldc->snapname);
/* construct the boot environment path from the dataset we're cloning */
if (be_get_path(ldc, dspath, be_path, sizeof(be_path)) != BE_ERR_SUCCESS)
return (set_error(ldc->lbh, BE_ERR_UNKNOWN));
/* the dataset to be created (i.e. the boot environment) already exists */
if (zfs_dataset_exists(ldc->lbh->lzh, be_path, ZFS_TYPE_DATASET))
return (set_error(ldc->lbh, BE_ERR_EXISTS));
/* no snapshot found for this dataset, silently skip it */
if (!zfs_dataset_exists(ldc->lbh->lzh, snap_path, ZFS_TYPE_SNAPSHOT))
return (0);
if ((snap_hdl =
zfs_open(ldc->lbh->lzh, snap_path, ZFS_TYPE_SNAPSHOT)) == NULL)
return (set_error(ldc->lbh, BE_ERR_ZFSOPEN));
nvlist_alloc(&props, NV_UNIQUE_NAME, KM_SLEEP);
nvlist_add_string(props, "canmount", "noauto");
dccb.lbh = ldc->lbh;
dccb.zhp = ds;
dccb.props = props;
if (zprop_iter(be_deep_clone_prop, &dccb, B_FALSE, B_FALSE,
ZFS_TYPE_FILESYSTEM) == ZPROP_INVAL)
return (-1);
if ((err = zfs_clone(snap_hdl, be_path, props)) != 0)
return (set_error(ldc->lbh, BE_ERR_ZFSCLONE));
nvlist_free(props);
zfs_close(snap_hdl);
if (ldc->depth_limit == -1 || ldc->depth < ldc->depth_limit) {
ldc->depth++;
err = zfs_iter_filesystems(ds, be_clone_cb, ldc);
ldc->depth--;
}
return (set_error(ldc->lbh, err));
}
/*
* Create a boot environment with a given name from a given snapshot.
* Snapshots can be in the format 'zroot/ROOT/default@snapshot' or
* 'default@snapshot'. In the latter case, 'default@snapshot' will be prepended
* with the root path that libbe was initailized with.
*/
static int
be_clone(libbe_handle_t *lbh, const char *bename, const char *snapshot, int depth)
{
int err;
char snap_path[BE_MAXPATHLEN];
char *parentname, *snapname;
zfs_handle_t *parent_hdl;
struct libbe_deep_clone ldc;
/* ensure the boot environment name is valid */
if ((err = be_validate_name(lbh, bename)) != 0)
return (set_error(lbh, err));
/*
* prepend the boot environment root path if we're
* given a partial snapshot name.
*/
if ((err = be_root_concat(lbh, snapshot, snap_path)) != 0)
return (set_error(lbh, err));
/* ensure the snapshot exists */
if ((err = be_validate_snap(lbh, snap_path)) != 0)
return (set_error(lbh, err));
/* get a copy of the snapshot path so we can disect it */
if ((parentname = strdup(snap_path)) == NULL)
return (set_error(lbh, BE_ERR_UNKNOWN));
/* split dataset name from snapshot name */
snapname = strchr(parentname, '@');
if (snapname == NULL) {
free(parentname);
return (set_error(lbh, BE_ERR_UNKNOWN));
}
*snapname = '\0';
snapname++;
/* set-up the boot environment */
ldc.lbh = lbh;
ldc.bename = bename;
ldc.snapname = snapname;
ldc.depth = 0;
ldc.depth_limit = depth;
/* the boot environment will be cloned from this dataset */
parent_hdl = zfs_open(lbh->lzh, parentname, ZFS_TYPE_DATASET);
/* create the boot environment */
err = be_clone_cb(parent_hdl, &ldc);
free(parentname);
return (set_error(lbh, err));
}
/*
* Create a boot environment from pre-existing snapshot, specifying a depth.
*/
int be_create_depth(libbe_handle_t *lbh, const char *bename,
const char *snap, int depth)
{
return (be_clone(lbh, bename, snap, depth));
}
/*
* Create the boot environment from pre-existing snapshot
*/
int
be_create_from_existing_snap(libbe_handle_t *lbh, const char *bename,
const char *snap)
{
return (be_clone(lbh, bename, snap, -1));
}
/*
* Create a boot environment from an existing boot environment
*/
int
be_create_from_existing(libbe_handle_t *lbh, const char *bename, const char *old)
{
int err;
char snap[BE_MAXPATHLEN];
if ((err = be_snapshot(lbh, old, NULL, true, snap)) != 0)
return (set_error(lbh, err));
err = be_clone(lbh, bename, snap, -1);
return (set_error(lbh, err));
}
/*
* Verifies that a snapshot has a valid name, exists, and has a mountpoint of
* '/'. Returns BE_ERR_SUCCESS (0), upon success, or the relevant BE_ERR_* upon
* failure. Does not set the internal library error state.
*/
int
be_validate_snap(libbe_handle_t *lbh, const char *snap_name)
{
if (strlen(snap_name) >= BE_MAXPATHLEN)
return (BE_ERR_PATHLEN);
if (!zfs_name_valid(snap_name, ZFS_TYPE_SNAPSHOT))
return (BE_ERR_INVALIDNAME);
if (!zfs_dataset_exists(lbh->lzh, snap_name,
ZFS_TYPE_SNAPSHOT))
return (BE_ERR_NOENT);
return (BE_ERR_SUCCESS);
}
/*
* Idempotently appends the name argument to the root boot environment path
* and copies the resulting string into the result buffer (which is assumed
* to be at least BE_MAXPATHLEN characters long. Returns BE_ERR_SUCCESS upon
* success, BE_ERR_PATHLEN if the resulting path is longer than BE_MAXPATHLEN,
* or BE_ERR_INVALIDNAME if the name is a path that does not begin with
* zfs_be_root. Does not set internal library error state.
*/
int
be_root_concat(libbe_handle_t *lbh, const char *name, char *result)
{
size_t name_len, root_len;
name_len = strlen(name);
root_len = strlen(lbh->root);
/* Act idempotently; return be name if it is already a full path */
if (strrchr(name, '/') != NULL) {
if (strstr(name, lbh->root) != name)
return (BE_ERR_INVALIDNAME);
if (name_len >= BE_MAXPATHLEN)
return (BE_ERR_PATHLEN);
strlcpy(result, name, BE_MAXPATHLEN);
return (BE_ERR_SUCCESS);
} else if (name_len + root_len + 1 < BE_MAXPATHLEN) {
snprintf(result, BE_MAXPATHLEN, "%s/%s", lbh->root,
name);
return (BE_ERR_SUCCESS);
}
return (BE_ERR_PATHLEN);
}
/*
* Verifies the validity of a boot environment name (A-Za-z0-9-_.). Returns
* BE_ERR_SUCCESS (0) if name is valid, otherwise returns BE_ERR_INVALIDNAME
* or BE_ERR_PATHLEN.
* Does not set internal library error state.
*/
int
be_validate_name(libbe_handle_t *lbh, const char *name)
{
/*
* Impose the additional restriction that the entire dataset name must
* not exceed the maximum length of a dataset, i.e. MAXNAMELEN.
*/
if (strlen(lbh->root) + 1 + strlen(name) > MAXNAMELEN)
return (BE_ERR_PATHLEN);
if (!zfs_name_valid(name, ZFS_TYPE_DATASET))
return (BE_ERR_INVALIDNAME);
return (BE_ERR_SUCCESS);
}
/*
* usage
*/
int
be_rename(libbe_handle_t *lbh, const char *old, const char *new)
{
char full_old[BE_MAXPATHLEN];
char full_new[BE_MAXPATHLEN];
zfs_handle_t *zfs_hdl;
int err;
/*
* be_validate_name is documented not to set error state, so we should
* do so here.
*/
if ((err = be_validate_name(lbh, new)) != 0)
return (set_error(lbh, err));
if ((err = be_root_concat(lbh, old, full_old)) != 0)
return (set_error(lbh, err));
if ((err = be_root_concat(lbh, new, full_new)) != 0)
return (set_error(lbh, err));
if (!zfs_dataset_exists(lbh->lzh, full_old, ZFS_TYPE_DATASET))
return (set_error(lbh, BE_ERR_NOENT));
if (zfs_dataset_exists(lbh->lzh, full_new, ZFS_TYPE_DATASET))
return (set_error(lbh, BE_ERR_EXISTS));
if ((zfs_hdl = zfs_open(lbh->lzh, full_old,
ZFS_TYPE_FILESYSTEM)) == NULL)
return (set_error(lbh, BE_ERR_ZFSOPEN));
/* recurse, nounmount, forceunmount */
struct renameflags flags = {
.nounmount = 1,
};
err = zfs_rename(zfs_hdl, full_new, flags);
zfs_close(zfs_hdl);
if (err != 0)
return (set_error(lbh, BE_ERR_UNKNOWN));
return (0);
}
int
be_export(libbe_handle_t *lbh, const char *bootenv, int fd)
{
char snap_name[BE_MAXPATHLEN];
char buf[BE_MAXPATHLEN];
zfs_handle_t *zfs;
sendflags_t flags = { 0 };
int err;
if ((err = be_snapshot(lbh, bootenv, NULL, true, snap_name)) != 0)
/* Use the error set by be_snapshot */
return (err);
be_root_concat(lbh, snap_name, buf);
if ((zfs = zfs_open(lbh->lzh, buf, ZFS_TYPE_DATASET)) == NULL)
return (set_error(lbh, BE_ERR_ZFSOPEN));
err = zfs_send_one(zfs, NULL, fd, &flags, /* redactbook */ NULL);
zfs_close(zfs);
return (err);
}
int
be_import(libbe_handle_t *lbh, const char *bootenv, int fd)
{
char buf[BE_MAXPATHLEN];
nvlist_t *props;
zfs_handle_t *zfs;
recvflags_t flags = { .nomount = 1 };
int err;
be_root_concat(lbh, bootenv, buf);
if ((err = zfs_receive(lbh->lzh, buf, NULL, &flags, fd, NULL)) != 0) {
switch (err) {
case EINVAL:
return (set_error(lbh, BE_ERR_NOORIGIN));
case ENOENT:
return (set_error(lbh, BE_ERR_NOENT));
case EIO:
return (set_error(lbh, BE_ERR_IO));
default:
return (set_error(lbh, BE_ERR_UNKNOWN));
}
}
if ((zfs = zfs_open(lbh->lzh, buf, ZFS_TYPE_FILESYSTEM)) == NULL)
return (set_error(lbh, BE_ERR_ZFSOPEN));
nvlist_alloc(&props, NV_UNIQUE_NAME, KM_SLEEP);
nvlist_add_string(props, "canmount", "noauto");
nvlist_add_string(props, "mountpoint", "none");
err = zfs_prop_set_list(zfs, props);
nvlist_free(props);
zfs_close(zfs);
if (err != 0)
return (set_error(lbh, BE_ERR_UNKNOWN));
return (0);
}
#if SOON
static int
be_create_child_noent(libbe_handle_t *lbh, const char *active,
const char *child_path)
{
nvlist_t *props;
zfs_handle_t *zfs;
int err;
nvlist_alloc(&props, NV_UNIQUE_NAME, KM_SLEEP);
nvlist_add_string(props, "canmount", "noauto");
nvlist_add_string(props, "mountpoint", child_path);
/* Create */
if ((err = zfs_create(lbh->lzh, active, ZFS_TYPE_DATASET,
props)) != 0) {
switch (err) {
case EZFS_EXISTS:
return (set_error(lbh, BE_ERR_EXISTS));
case EZFS_NOENT:
return (set_error(lbh, BE_ERR_NOENT));
case EZFS_BADTYPE:
case EZFS_BADVERSION:
return (set_error(lbh, BE_ERR_NOPOOL));
case EZFS_BADPROP:
default:
/* We set something up wrong, probably... */
return (set_error(lbh, BE_ERR_UNKNOWN));
}
}
nvlist_free(props);
if ((zfs = zfs_open(lbh->lzh, active, ZFS_TYPE_DATASET)) == NULL)
return (set_error(lbh, BE_ERR_ZFSOPEN));
/* Set props */
if ((err = zfs_prop_set(zfs, "canmount", "noauto")) != 0) {
zfs_close(zfs);
/*
* Similar to other cases, this shouldn't fail unless we've
* done something wrong. This is a new dataset that shouldn't
* have been mounted anywhere between creation and now.
*/
if (err == EZFS_NOMEM)
return (set_error(lbh, BE_ERR_NOMEM));
return (set_error(lbh, BE_ERR_UNKNOWN));
}
zfs_close(zfs);
return (BE_ERR_SUCCESS);
}
static int
be_create_child_cloned(libbe_handle_t *lbh, const char *active)
{
char buf[BE_MAXPATHLEN], tmp[BE_MAXPATHLEN];;
zfs_handle_t *zfs;
int err;
/* XXX TODO ? */
/*
* Establish if the existing path is a zfs dataset or just
* the subdirectory of one
*/
strlcpy(tmp, "tmp/be_snap.XXXXX", sizeof(tmp));
if (mktemp(tmp) == NULL)
return (set_error(lbh, BE_ERR_UNKNOWN));
be_root_concat(lbh, tmp, buf);
printf("Here %s?\n", buf);
if ((err = zfs_snapshot(lbh->lzh, buf, false, NULL)) != 0) {
switch (err) {
case EZFS_INVALIDNAME:
return (set_error(lbh, BE_ERR_INVALIDNAME));
default:
/*
* The other errors that zfs_ioc_snapshot might return
* shouldn't happen if we've set things up properly, so
* we'll gloss over them and call it UNKNOWN as it will
* require further triage.
*/
if (errno == ENOTSUP)
return (set_error(lbh, BE_ERR_NOPOOL));
return (set_error(lbh, BE_ERR_UNKNOWN));
}
}
/* Clone */
if ((zfs = zfs_open(lbh->lzh, buf, ZFS_TYPE_SNAPSHOT)) == NULL)
return (BE_ERR_ZFSOPEN);
if ((err = zfs_clone(zfs, active, NULL)) != 0)
/* XXX TODO correct error */
return (set_error(lbh, BE_ERR_UNKNOWN));
/* set props */
zfs_close(zfs);
return (BE_ERR_SUCCESS);
}
int
be_add_child(libbe_handle_t *lbh, const char *child_path, bool cp_if_exists)
{
struct stat sb;
char active[BE_MAXPATHLEN], buf[BE_MAXPATHLEN];
nvlist_t *props;
const char *s;
/* Require absolute paths */
if (*child_path != '/')
return (set_error(lbh, BE_ERR_BADPATH));
strlcpy(active, be_active_path(lbh), BE_MAXPATHLEN);
strcpy(buf, active);
/* Create non-mountable parent dataset(s) */
s = child_path;
for (char *p; (p = strchr(s+1, '/')) != NULL; s = p) {
size_t len = p - s;
strncat(buf, s, len);
nvlist_alloc(&props, NV_UNIQUE_NAME, KM_SLEEP);
nvlist_add_string(props, "canmount", "off");
nvlist_add_string(props, "mountpoint", "none");
zfs_create(lbh->lzh, buf, ZFS_TYPE_DATASET, props);
nvlist_free(props);
}
/* Path does not exist as a descendent of / yet */
if (strlcat(active, child_path, BE_MAXPATHLEN) >= BE_MAXPATHLEN)
return (set_error(lbh, BE_ERR_PATHLEN));
if (stat(child_path, &sb) != 0) {
/* Verify that error is ENOENT */
if (errno != ENOENT)
return (set_error(lbh, BE_ERR_UNKNOWN));
return (be_create_child_noent(lbh, active, child_path));
} else if (cp_if_exists)
/* Path is already a descendent of / and should be copied */
return (be_create_child_cloned(lbh, active));
return (set_error(lbh, BE_ERR_EXISTS));
}
#endif /* SOON */
/*
* Deactivate old BE dataset; currently just sets canmount=noauto or
* resets boot once configuration.
*/
int
be_deactivate(libbe_handle_t *lbh, const char *ds, bool temporary)
{
zfs_handle_t *zfs;
if (temporary) {
return (lzbe_set_boot_device(
zpool_get_name(lbh->active_phandle), lzbe_add, NULL));
}
if ((zfs = zfs_open(lbh->lzh, ds, ZFS_TYPE_DATASET)) == NULL)
return (1);
if (zfs_prop_set(zfs, "canmount", "noauto") != 0)
return (1);
zfs_close(zfs);
return (0);
}
int
be_activate(libbe_handle_t *lbh, const char *bootenv, bool temporary)
{
char be_path[BE_MAXPATHLEN];
nvlist_t *dsprops;
char *origin;
zfs_handle_t *zhp;
int err;
be_root_concat(lbh, bootenv, be_path);
/* Note: be_exists fails if mountpoint is not / */
if ((err = be_exists(lbh, be_path)) != 0)
return (set_error(lbh, err));
if (temporary) {
return (lzbe_set_boot_device(
zpool_get_name(lbh->active_phandle), lzbe_add, be_path));
} else {
if (be_deactivate(lbh, lbh->bootfs, false) != 0)
return (-1);
/* Obtain bootenv zpool */
err = zpool_set_prop(lbh->active_phandle, "bootfs", be_path);
if (err)
return (-1);
zhp = zfs_open(lbh->lzh, be_path, ZFS_TYPE_FILESYSTEM);
if (zhp == NULL)
return (-1);
if (be_prop_list_alloc(&dsprops) != 0)
return (-1);
if (be_get_dataset_props(lbh, be_path, dsprops) != 0) {
nvlist_free(dsprops);
return (-1);
}
if (nvlist_lookup_string(dsprops, "origin", &origin) == 0)
err = zfs_promote(zhp);
nvlist_free(dsprops);
zfs_close(zhp);
if (err)
return (-1);
}
return (BE_ERR_SUCCESS);
}