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|
/*
* 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 https://opensource.org/licenses/CDDL-1.0.
* 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) 2006 Pawel Jakub Dawidek <pjd@FreeBSD.org>
* All rights reserved.
*
* Portions Copyright (c) 2012 Martin Matuska <mm@FreeBSD.org>
*/
#include <sys/zfs_context.h>
#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/bio.h>
#include <sys/buf.h>
#include <sys/file.h>
#include <sys/spa.h>
#include <sys/spa_impl.h>
#include <sys/vdev_impl.h>
#include <sys/vdev_os.h>
#include <sys/fs/zfs.h>
#include <sys/zio.h>
#include <vm/vm_page.h>
#include <geom/geom.h>
#include <geom/geom_disk.h>
#include <geom/geom_int.h>
#ifndef g_topology_locked
#define g_topology_locked() sx_xlocked(&topology_lock)
#endif
/*
* Virtual device vector for GEOM.
*/
static g_attrchanged_t vdev_geom_attrchanged;
struct g_class zfs_vdev_class = {
.name = "ZFS::VDEV",
.version = G_VERSION,
.attrchanged = vdev_geom_attrchanged,
};
struct consumer_vdev_elem {
SLIST_ENTRY(consumer_vdev_elem) elems;
vdev_t *vd;
};
SLIST_HEAD(consumer_priv_t, consumer_vdev_elem);
_Static_assert(
sizeof (((struct g_consumer *)NULL)->private) ==
sizeof (struct consumer_priv_t *),
"consumer_priv_t* can't be stored in g_consumer.private");
DECLARE_GEOM_CLASS(zfs_vdev_class, zfs_vdev);
SYSCTL_DECL(_vfs_zfs_vdev);
/* Don't send BIO_FLUSH. */
static int vdev_geom_bio_flush_disable;
SYSCTL_INT(_vfs_zfs_vdev, OID_AUTO, bio_flush_disable, CTLFLAG_RWTUN,
&vdev_geom_bio_flush_disable, 0, "Disable BIO_FLUSH");
/* Don't send BIO_DELETE. */
static int vdev_geom_bio_delete_disable;
SYSCTL_INT(_vfs_zfs_vdev, OID_AUTO, bio_delete_disable, CTLFLAG_RWTUN,
&vdev_geom_bio_delete_disable, 0, "Disable BIO_DELETE");
/* Declare local functions */
static void vdev_geom_detach(struct g_consumer *cp, boolean_t open_for_read);
/*
* Thread local storage used to indicate when a thread is probing geoms
* for their guids. If NULL, this thread is not tasting geoms. If non NULL,
* it is looking for a replacement for the vdev_t* that is its value.
*/
uint_t zfs_geom_probe_vdev_key;
static void
vdev_geom_set_physpath(vdev_t *vd, struct g_consumer *cp,
boolean_t do_null_update)
{
boolean_t needs_update = B_FALSE;
char *physpath;
int error, physpath_len;
physpath_len = MAXPATHLEN;
physpath = g_malloc(physpath_len, M_WAITOK|M_ZERO);
error = g_io_getattr("GEOM::physpath", cp, &physpath_len, physpath);
if (error == 0) {
char *old_physpath;
/* g_topology lock ensures that vdev has not been closed */
g_topology_assert();
old_physpath = vd->vdev_physpath;
vd->vdev_physpath = spa_strdup(physpath);
if (old_physpath != NULL) {
needs_update = (strcmp(old_physpath,
vd->vdev_physpath) != 0);
spa_strfree(old_physpath);
} else
needs_update = do_null_update;
}
g_free(physpath);
/*
* If the physical path changed, update the config.
* Only request an update for previously unset physpaths if
* requested by the caller.
*/
if (needs_update)
spa_async_request(vd->vdev_spa, SPA_ASYNC_CONFIG_UPDATE);
}
static void
vdev_geom_attrchanged(struct g_consumer *cp, const char *attr)
{
struct consumer_priv_t *priv;
struct consumer_vdev_elem *elem;
priv = (struct consumer_priv_t *)&cp->private;
if (SLIST_EMPTY(priv))
return;
SLIST_FOREACH(elem, priv, elems) {
vdev_t *vd = elem->vd;
if (strcmp(attr, "GEOM::physpath") == 0) {
vdev_geom_set_physpath(vd, cp, /* null_update */B_TRUE);
return;
}
}
}
static void
vdev_geom_resize(struct g_consumer *cp)
{
struct consumer_priv_t *priv;
struct consumer_vdev_elem *elem;
spa_t *spa;
vdev_t *vd;
priv = (struct consumer_priv_t *)&cp->private;
if (SLIST_EMPTY(priv))
return;
SLIST_FOREACH(elem, priv, elems) {
vd = elem->vd;
if (vd->vdev_state != VDEV_STATE_HEALTHY)
continue;
spa = vd->vdev_spa;
if (!spa->spa_autoexpand)
continue;
vdev_online(spa, vd->vdev_guid, ZFS_ONLINE_EXPAND, NULL);
}
}
static void
vdev_geom_orphan(struct g_consumer *cp)
{
struct consumer_priv_t *priv;
// cppcheck-suppress uninitvar
struct consumer_vdev_elem *elem;
g_topology_assert();
priv = (struct consumer_priv_t *)&cp->private;
if (SLIST_EMPTY(priv))
/* Vdev close in progress. Ignore the event. */
return;
/*
* Orphan callbacks occur from the GEOM event thread.
* Concurrent with this call, new I/O requests may be
* working their way through GEOM about to find out
* (only once executed by the g_down thread) that we've
* been orphaned from our disk provider. These I/Os
* must be retired before we can detach our consumer.
* This is most easily achieved by acquiring the
* SPA ZIO configuration lock as a writer, but doing
* so with the GEOM topology lock held would cause
* a lock order reversal. Instead, rely on the SPA's
* async removal support to invoke a close on this
* vdev once it is safe to do so.
*/
SLIST_FOREACH(elem, priv, elems) {
// cppcheck-suppress uninitvar
vdev_t *vd = elem->vd;
vd->vdev_remove_wanted = B_TRUE;
spa_async_request(vd->vdev_spa, SPA_ASYNC_REMOVE);
}
}
static struct g_consumer *
vdev_geom_attach(struct g_provider *pp, vdev_t *vd, boolean_t sanity)
{
struct g_geom *gp;
struct g_consumer *cp;
int error;
g_topology_assert();
ZFS_LOG(1, "Attaching to %s.", pp->name);
if (sanity) {
if (pp->sectorsize > VDEV_PAD_SIZE || !ISP2(pp->sectorsize)) {
ZFS_LOG(1, "Failing attach of %s. "
"Incompatible sectorsize %d\n",
pp->name, pp->sectorsize);
return (NULL);
} else if (pp->mediasize < SPA_MINDEVSIZE) {
ZFS_LOG(1, "Failing attach of %s. "
"Incompatible mediasize %ju\n",
pp->name, pp->mediasize);
return (NULL);
}
}
/* Do we have geom already? No? Create one. */
LIST_FOREACH(gp, &zfs_vdev_class.geom, geom) {
if (gp->flags & G_GEOM_WITHER)
continue;
if (strcmp(gp->name, "zfs::vdev") != 0)
continue;
break;
}
if (gp == NULL) {
gp = g_new_geomf(&zfs_vdev_class, "zfs::vdev");
gp->orphan = vdev_geom_orphan;
gp->attrchanged = vdev_geom_attrchanged;
gp->resize = vdev_geom_resize;
cp = g_new_consumer(gp);
error = g_attach(cp, pp);
if (error != 0) {
ZFS_LOG(1, "%s(%d): g_attach failed: %d\n", __func__,
__LINE__, error);
vdev_geom_detach(cp, B_FALSE);
return (NULL);
}
error = g_access(cp, 1, 0, 1);
if (error != 0) {
ZFS_LOG(1, "%s(%d): g_access failed: %d\n", __func__,
__LINE__, error);
vdev_geom_detach(cp, B_FALSE);
return (NULL);
}
ZFS_LOG(1, "Created geom and consumer for %s.", pp->name);
} else {
/* Check if we are already connected to this provider. */
LIST_FOREACH(cp, &gp->consumer, consumer) {
if (cp->provider == pp) {
ZFS_LOG(1, "Found consumer for %s.", pp->name);
break;
}
}
if (cp == NULL) {
cp = g_new_consumer(gp);
error = g_attach(cp, pp);
if (error != 0) {
ZFS_LOG(1, "%s(%d): g_attach failed: %d\n",
__func__, __LINE__, error);
vdev_geom_detach(cp, B_FALSE);
return (NULL);
}
error = g_access(cp, 1, 0, 1);
if (error != 0) {
ZFS_LOG(1, "%s(%d): g_access failed: %d\n",
__func__, __LINE__, error);
vdev_geom_detach(cp, B_FALSE);
return (NULL);
}
ZFS_LOG(1, "Created consumer for %s.", pp->name);
} else {
error = g_access(cp, 1, 0, 1);
if (error != 0) {
ZFS_LOG(1, "%s(%d): g_access failed: %d\n",
__func__, __LINE__, error);
return (NULL);
}
ZFS_LOG(1, "Used existing consumer for %s.", pp->name);
}
}
if (vd != NULL)
vd->vdev_tsd = cp;
cp->flags |= G_CF_DIRECT_SEND | G_CF_DIRECT_RECEIVE;
return (cp);
}
static void
vdev_geom_detach(struct g_consumer *cp, boolean_t open_for_read)
{
struct g_geom *gp;
g_topology_assert();
ZFS_LOG(1, "Detaching from %s.",
cp->provider && cp->provider->name ? cp->provider->name : "NULL");
gp = cp->geom;
if (open_for_read)
g_access(cp, -1, 0, -1);
/* Destroy consumer on last close. */
if (cp->acr == 0 && cp->ace == 0) {
if (cp->acw > 0)
g_access(cp, 0, -cp->acw, 0);
if (cp->provider != NULL) {
ZFS_LOG(1, "Destroying consumer for %s.",
cp->provider->name ? cp->provider->name : "NULL");
g_detach(cp);
}
g_destroy_consumer(cp);
}
/* Destroy geom if there are no consumers left. */
if (LIST_EMPTY(&gp->consumer)) {
ZFS_LOG(1, "Destroyed geom %s.", gp->name);
g_wither_geom(gp, ENXIO);
}
}
static void
vdev_geom_close_locked(vdev_t *vd)
{
struct g_consumer *cp;
struct consumer_priv_t *priv;
struct consumer_vdev_elem *elem, *elem_temp;
g_topology_assert();
cp = vd->vdev_tsd;
vd->vdev_delayed_close = B_FALSE;
if (cp == NULL)
return;
ZFS_LOG(1, "Closing access to %s.", cp->provider->name);
KASSERT(cp->private != NULL, ("%s: cp->private is NULL", __func__));
priv = (struct consumer_priv_t *)&cp->private;
vd->vdev_tsd = NULL;
SLIST_FOREACH_SAFE(elem, priv, elems, elem_temp) {
if (elem->vd == vd) {
SLIST_REMOVE(priv, elem, consumer_vdev_elem, elems);
g_free(elem);
}
}
vdev_geom_detach(cp, B_TRUE);
}
/*
* Issue one or more bios to the vdev in parallel
* cmds, datas, offsets, errors, and sizes are arrays of length ncmds. Each IO
* operation is described by parallel entries from each array. There may be
* more bios actually issued than entries in the array
*/
static void
vdev_geom_io(struct g_consumer *cp, int *cmds, void **datas, off_t *offsets,
off_t *sizes, int *errors, int ncmds)
{
struct bio **bios;
uint8_t *p;
off_t off, maxio, s, end;
int i, n_bios, j;
size_t bios_size;
#if __FreeBSD_version > 1300130
maxio = maxphys - (maxphys % cp->provider->sectorsize);
#else
maxio = MAXPHYS - (MAXPHYS % cp->provider->sectorsize);
#endif
n_bios = 0;
/* How many bios are required for all commands ? */
for (i = 0; i < ncmds; i++)
n_bios += (sizes[i] + maxio - 1) / maxio;
/* Allocate memory for the bios */
bios_size = n_bios * sizeof (struct bio *);
bios = kmem_zalloc(bios_size, KM_SLEEP);
/* Prepare and issue all of the bios */
for (i = j = 0; i < ncmds; i++) {
off = offsets[i];
p = datas[i];
s = sizes[i];
end = off + s;
ASSERT0(off % cp->provider->sectorsize);
ASSERT0(s % cp->provider->sectorsize);
for (; off < end; off += maxio, p += maxio, s -= maxio, j++) {
bios[j] = g_alloc_bio();
bios[j]->bio_cmd = cmds[i];
bios[j]->bio_done = NULL;
bios[j]->bio_offset = off;
bios[j]->bio_length = MIN(s, maxio);
bios[j]->bio_data = (caddr_t)p;
g_io_request(bios[j], cp);
}
}
ASSERT3S(j, ==, n_bios);
/* Wait for all of the bios to complete, and clean them up */
for (i = j = 0; i < ncmds; i++) {
off = offsets[i];
s = sizes[i];
end = off + s;
for (; off < end; off += maxio, s -= maxio, j++) {
errors[i] = biowait(bios[j], "vdev_geom_io") ||
errors[i];
g_destroy_bio(bios[j]);
}
}
kmem_free(bios, bios_size);
}
/*
* Read the vdev config from a device. Return the number of valid labels that
* were found. The vdev config will be returned in config if and only if at
* least one valid label was found.
*/
static int
vdev_geom_read_config(struct g_consumer *cp, nvlist_t **configp)
{
struct g_provider *pp;
nvlist_t *config;
vdev_phys_t *vdev_lists[VDEV_LABELS];
char *buf;
size_t buflen;
uint64_t psize, state, txg;
off_t offsets[VDEV_LABELS];
off_t size;
off_t sizes[VDEV_LABELS];
int cmds[VDEV_LABELS];
int errors[VDEV_LABELS];
int l, nlabels;
g_topology_assert_not();
pp = cp->provider;
ZFS_LOG(1, "Reading config from %s...", pp->name);
psize = pp->mediasize;
psize = P2ALIGN(psize, (uint64_t)sizeof (vdev_label_t));
size = sizeof (*vdev_lists[0]) + pp->sectorsize -
((sizeof (*vdev_lists[0]) - 1) % pp->sectorsize) - 1;
buflen = sizeof (vdev_lists[0]->vp_nvlist);
/* Create all of the IO requests */
for (l = 0; l < VDEV_LABELS; l++) {
cmds[l] = BIO_READ;
vdev_lists[l] = kmem_alloc(size, KM_SLEEP);
offsets[l] = vdev_label_offset(psize, l, 0) + VDEV_SKIP_SIZE;
sizes[l] = size;
errors[l] = 0;
ASSERT0(offsets[l] % pp->sectorsize);
}
/* Issue the IO requests */
vdev_geom_io(cp, cmds, (void**)vdev_lists, offsets, sizes, errors,
VDEV_LABELS);
/* Parse the labels */
config = *configp = NULL;
nlabels = 0;
for (l = 0; l < VDEV_LABELS; l++) {
if (errors[l] != 0)
continue;
buf = vdev_lists[l]->vp_nvlist;
if (nvlist_unpack(buf, buflen, &config, 0) != 0)
continue;
if (nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_STATE,
&state) != 0 || state > POOL_STATE_L2CACHE) {
nvlist_free(config);
continue;
}
if (state != POOL_STATE_SPARE &&
state != POOL_STATE_L2CACHE &&
(nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_TXG,
&txg) != 0 || txg == 0)) {
nvlist_free(config);
continue;
}
if (*configp != NULL)
nvlist_free(*configp);
*configp = config;
nlabels++;
}
/* Free the label storage */
for (l = 0; l < VDEV_LABELS; l++)
kmem_free(vdev_lists[l], size);
return (nlabels);
}
static void
resize_configs(nvlist_t ***configs, uint64_t *count, uint64_t id)
{
nvlist_t **new_configs;
uint64_t i;
if (id < *count)
return;
new_configs = kmem_zalloc((id + 1) * sizeof (nvlist_t *),
KM_SLEEP);
for (i = 0; i < *count; i++)
new_configs[i] = (*configs)[i];
if (*configs != NULL)
kmem_free(*configs, *count * sizeof (void *));
*configs = new_configs;
*count = id + 1;
}
static void
process_vdev_config(nvlist_t ***configs, uint64_t *count, nvlist_t *cfg,
const char *name, uint64_t *known_pool_guid)
{
nvlist_t *vdev_tree;
uint64_t pool_guid;
uint64_t vdev_guid;
uint64_t id, txg, known_txg;
const char *pname;
if (nvlist_lookup_string(cfg, ZPOOL_CONFIG_POOL_NAME, &pname) != 0 ||
strcmp(pname, name) != 0)
goto ignore;
if (nvlist_lookup_uint64(cfg, ZPOOL_CONFIG_POOL_GUID, &pool_guid) != 0)
goto ignore;
if (nvlist_lookup_uint64(cfg, ZPOOL_CONFIG_TOP_GUID, &vdev_guid) != 0)
goto ignore;
if (nvlist_lookup_nvlist(cfg, ZPOOL_CONFIG_VDEV_TREE, &vdev_tree) != 0)
goto ignore;
if (nvlist_lookup_uint64(vdev_tree, ZPOOL_CONFIG_ID, &id) != 0)
goto ignore;
txg = fnvlist_lookup_uint64(cfg, ZPOOL_CONFIG_POOL_TXG);
if (*known_pool_guid != 0) {
if (pool_guid != *known_pool_guid)
goto ignore;
} else
*known_pool_guid = pool_guid;
resize_configs(configs, count, id);
if ((*configs)[id] != NULL) {
known_txg = fnvlist_lookup_uint64((*configs)[id],
ZPOOL_CONFIG_POOL_TXG);
if (txg <= known_txg)
goto ignore;
nvlist_free((*configs)[id]);
}
(*configs)[id] = cfg;
return;
ignore:
nvlist_free(cfg);
}
int
vdev_geom_read_pool_label(const char *name,
nvlist_t ***configs, uint64_t *count)
{
struct g_class *mp;
struct g_geom *gp;
struct g_provider *pp;
struct g_consumer *zcp;
nvlist_t *vdev_cfg;
uint64_t pool_guid;
int nlabels;
DROP_GIANT();
g_topology_lock();
*configs = NULL;
*count = 0;
pool_guid = 0;
LIST_FOREACH(mp, &g_classes, class) {
if (mp == &zfs_vdev_class)
continue;
LIST_FOREACH(gp, &mp->geom, geom) {
if (gp->flags & G_GEOM_WITHER)
continue;
LIST_FOREACH(pp, &gp->provider, provider) {
if (pp->flags & G_PF_WITHER)
continue;
zcp = vdev_geom_attach(pp, NULL, B_TRUE);
if (zcp == NULL)
continue;
g_topology_unlock();
nlabels = vdev_geom_read_config(zcp, &vdev_cfg);
g_topology_lock();
vdev_geom_detach(zcp, B_TRUE);
if (nlabels == 0)
continue;
ZFS_LOG(1, "successfully read vdev config");
process_vdev_config(configs, count,
vdev_cfg, name, &pool_guid);
}
}
}
g_topology_unlock();
PICKUP_GIANT();
return (*count > 0 ? 0 : ENOENT);
}
enum match {
NO_MATCH = 0, /* No matching labels found */
TOPGUID_MATCH = 1, /* Labels match top guid, not vdev guid */
ZERO_MATCH = 1, /* Should never be returned */
ONE_MATCH = 2, /* 1 label matching the vdev_guid */
TWO_MATCH = 3, /* 2 label matching the vdev_guid */
THREE_MATCH = 4, /* 3 label matching the vdev_guid */
FULL_MATCH = 5 /* all labels match the vdev_guid */
};
static enum match
vdev_attach_ok(vdev_t *vd, struct g_provider *pp)
{
nvlist_t *config;
uint64_t pool_guid, top_guid, vdev_guid;
struct g_consumer *cp;
int nlabels;
cp = vdev_geom_attach(pp, NULL, B_TRUE);
if (cp == NULL) {
ZFS_LOG(1, "Unable to attach tasting instance to %s.",
pp->name);
return (NO_MATCH);
}
g_topology_unlock();
nlabels = vdev_geom_read_config(cp, &config);
g_topology_lock();
vdev_geom_detach(cp, B_TRUE);
if (nlabels == 0) {
ZFS_LOG(1, "Unable to read config from %s.", pp->name);
return (NO_MATCH);
}
pool_guid = 0;
(void) nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_GUID, &pool_guid);
top_guid = 0;
(void) nvlist_lookup_uint64(config, ZPOOL_CONFIG_TOP_GUID, &top_guid);
vdev_guid = 0;
(void) nvlist_lookup_uint64(config, ZPOOL_CONFIG_GUID, &vdev_guid);
nvlist_free(config);
/*
* Check that the label's pool guid matches the desired guid.
* Inactive spares and L2ARCs do not have any pool guid in the label.
*/
if (pool_guid != 0 && pool_guid != spa_guid(vd->vdev_spa)) {
ZFS_LOG(1, "pool guid mismatch for provider %s: %ju != %ju.",
pp->name,
(uintmax_t)spa_guid(vd->vdev_spa), (uintmax_t)pool_guid);
return (NO_MATCH);
}
/*
* Check that the label's vdev guid matches the desired guid.
* The second condition handles possible race on vdev detach, when
* remaining vdev receives GUID of destroyed top level mirror vdev.
*/
if (vdev_guid == vd->vdev_guid) {
ZFS_LOG(1, "guids match for provider %s.", pp->name);
return (ZERO_MATCH + nlabels);
} else if (top_guid == vd->vdev_guid && vd == vd->vdev_top) {
ZFS_LOG(1, "top vdev guid match for provider %s.", pp->name);
return (TOPGUID_MATCH);
}
ZFS_LOG(1, "vdev guid mismatch for provider %s: %ju != %ju.",
pp->name, (uintmax_t)vd->vdev_guid, (uintmax_t)vdev_guid);
return (NO_MATCH);
}
static struct g_consumer *
vdev_geom_attach_by_guids(vdev_t *vd)
{
struct g_class *mp;
struct g_geom *gp;
struct g_provider *pp, *best_pp;
struct g_consumer *cp;
const char *vdpath;
enum match match, best_match;
g_topology_assert();
vdpath = vd->vdev_path + sizeof ("/dev/") - 1;
cp = NULL;
best_pp = NULL;
best_match = NO_MATCH;
LIST_FOREACH(mp, &g_classes, class) {
if (mp == &zfs_vdev_class)
continue;
LIST_FOREACH(gp, &mp->geom, geom) {
if (gp->flags & G_GEOM_WITHER)
continue;
LIST_FOREACH(pp, &gp->provider, provider) {
match = vdev_attach_ok(vd, pp);
if (match > best_match) {
best_match = match;
best_pp = pp;
} else if (match == best_match) {
if (strcmp(pp->name, vdpath) == 0) {
best_pp = pp;
}
}
if (match == FULL_MATCH)
goto out;
}
}
}
out:
if (best_pp) {
cp = vdev_geom_attach(best_pp, vd, B_TRUE);
if (cp == NULL) {
printf("ZFS WARNING: Unable to attach to %s.\n",
best_pp->name);
}
}
return (cp);
}
static struct g_consumer *
vdev_geom_open_by_guids(vdev_t *vd)
{
struct g_consumer *cp;
char *buf;
size_t len;
g_topology_assert();
ZFS_LOG(1, "Searching by guids [%ju:%ju].",
(uintmax_t)spa_guid(vd->vdev_spa), (uintmax_t)vd->vdev_guid);
cp = vdev_geom_attach_by_guids(vd);
if (cp != NULL) {
len = strlen(cp->provider->name) + strlen("/dev/") + 1;
buf = kmem_alloc(len, KM_SLEEP);
snprintf(buf, len, "/dev/%s", cp->provider->name);
spa_strfree(vd->vdev_path);
vd->vdev_path = buf;
ZFS_LOG(1, "Attach by guid [%ju:%ju] succeeded, provider %s.",
(uintmax_t)spa_guid(vd->vdev_spa),
(uintmax_t)vd->vdev_guid, cp->provider->name);
} else {
ZFS_LOG(1, "Search by guid [%ju:%ju] failed.",
(uintmax_t)spa_guid(vd->vdev_spa),
(uintmax_t)vd->vdev_guid);
}
return (cp);
}
static struct g_consumer *
vdev_geom_open_by_path(vdev_t *vd, int check_guid)
{
struct g_provider *pp;
struct g_consumer *cp;
g_topology_assert();
cp = NULL;
pp = g_provider_by_name(vd->vdev_path + sizeof ("/dev/") - 1);
if (pp != NULL) {
ZFS_LOG(1, "Found provider by name %s.", vd->vdev_path);
if (!check_guid || vdev_attach_ok(vd, pp) == FULL_MATCH)
cp = vdev_geom_attach(pp, vd, B_FALSE);
}
return (cp);
}
static int
vdev_geom_open(vdev_t *vd, uint64_t *psize, uint64_t *max_psize,
uint64_t *logical_ashift, uint64_t *physical_ashift)
{
struct g_provider *pp;
struct g_consumer *cp;
int error, has_trim;
uint16_t rate;
/*
* Set the TLS to indicate downstack that we
* should not access zvols
*/
VERIFY0(tsd_set(zfs_geom_probe_vdev_key, vd));
/*
* We must have a pathname, and it must be absolute.
*/
if (vd->vdev_path == NULL || strncmp(vd->vdev_path, "/dev/", 5) != 0) {
vd->vdev_stat.vs_aux = VDEV_AUX_BAD_LABEL;
return (EINVAL);
}
/*
* Reopen the device if it's not currently open. Otherwise,
* just update the physical size of the device.
*/
if ((cp = vd->vdev_tsd) != NULL) {
ASSERT(vd->vdev_reopening);
goto skip_open;
}
DROP_GIANT();
g_topology_lock();
error = 0;
if (vd->vdev_spa->spa_is_splitting ||
((vd->vdev_prevstate == VDEV_STATE_UNKNOWN &&
(vd->vdev_spa->spa_load_state == SPA_LOAD_NONE ||
vd->vdev_spa->spa_load_state == SPA_LOAD_CREATE)))) {
/*
* We are dealing with a vdev that hasn't been previously
* opened (since boot), and we are not loading an
* existing pool configuration. This looks like a
* vdev add operation to a new or existing pool.
* Assume the user really wants to do this, and find
* GEOM provider by its name, ignoring GUID mismatches.
*
* XXPOLICY: It would be safer to only allow a device
* that is unlabeled or labeled but missing
* GUID information to be opened in this fashion,
* unless we are doing a split, in which case we
* should allow any guid.
*/
cp = vdev_geom_open_by_path(vd, 0);
} else {
/*
* Try using the recorded path for this device, but only
* accept it if its label data contains the expected GUIDs.
*/
cp = vdev_geom_open_by_path(vd, 1);
if (cp == NULL) {
/*
* The device at vd->vdev_path doesn't have the
* expected GUIDs. The disks might have merely
* moved around so try all other GEOM providers
* to find one with the right GUIDs.
*/
cp = vdev_geom_open_by_guids(vd);
}
}
/* Clear the TLS now that tasting is done */
VERIFY0(tsd_set(zfs_geom_probe_vdev_key, NULL));
if (cp == NULL) {
ZFS_LOG(1, "Vdev %s not found.", vd->vdev_path);
error = ENOENT;
} else {
struct consumer_priv_t *priv;
struct consumer_vdev_elem *elem;
int spamode;
priv = (struct consumer_priv_t *)&cp->private;
if (cp->private == NULL)
SLIST_INIT(priv);
elem = g_malloc(sizeof (*elem), M_WAITOK|M_ZERO);
elem->vd = vd;
SLIST_INSERT_HEAD(priv, elem, elems);
spamode = spa_mode(vd->vdev_spa);
if (cp->provider->sectorsize > VDEV_PAD_SIZE ||
!ISP2(cp->provider->sectorsize)) {
ZFS_LOG(1, "Provider %s has unsupported sectorsize.",
cp->provider->name);
vdev_geom_close_locked(vd);
error = EINVAL;
cp = NULL;
} else if (cp->acw == 0 && (spamode & FWRITE) != 0) {
int i;
for (i = 0; i < 5; i++) {
error = g_access(cp, 0, 1, 0);
if (error == 0)
break;
g_topology_unlock();
tsleep(vd, 0, "vdev", hz / 2);
g_topology_lock();
}
if (error != 0) {
printf("ZFS WARNING: Unable to open %s for "
"writing (error=%d).\n",
cp->provider->name, error);
vdev_geom_close_locked(vd);
cp = NULL;
}
}
}
/* Fetch initial physical path information for this device. */
if (cp != NULL) {
vdev_geom_attrchanged(cp, "GEOM::physpath");
/* Set other GEOM characteristics */
vdev_geom_set_physpath(vd, cp, /* do_null_update */B_FALSE);
}
g_topology_unlock();
PICKUP_GIANT();
if (cp == NULL) {
vd->vdev_stat.vs_aux = VDEV_AUX_OPEN_FAILED;
vdev_dbgmsg(vd, "vdev_geom_open: failed to open [error=%d]",
error);
return (error);
}
skip_open:
pp = cp->provider;
/*
* Determine the actual size of the device.
*/
*max_psize = *psize = pp->mediasize;
/*
* Determine the device's minimum transfer size and preferred
* transfer size.
*/
*logical_ashift = highbit(MAX(pp->sectorsize, SPA_MINBLOCKSIZE)) - 1;
*physical_ashift = 0;
if (pp->stripesize && pp->stripesize > (1 << *logical_ashift) &&
ISP2(pp->stripesize) && pp->stripeoffset == 0)
*physical_ashift = highbit(pp->stripesize) - 1;
/*
* Clear the nowritecache settings, so that on a vdev_reopen()
* we will try again.
*/
vd->vdev_nowritecache = B_FALSE;
/* Inform the ZIO pipeline that we are non-rotational. */
error = g_getattr("GEOM::rotation_rate", cp, &rate);
if (error == 0 && rate == DISK_RR_NON_ROTATING)
vd->vdev_nonrot = B_TRUE;
else
vd->vdev_nonrot = B_FALSE;
/* Set when device reports it supports TRIM. */
error = g_getattr("GEOM::candelete", cp, &has_trim);
vd->vdev_has_trim = (error == 0 && has_trim);
/* Set when device reports it supports secure TRIM. */
/* unavailable on FreeBSD */
vd->vdev_has_securetrim = B_FALSE;
return (0);
}
static void
vdev_geom_close(vdev_t *vd)
{
struct g_consumer *cp;
boolean_t locked;
cp = vd->vdev_tsd;
DROP_GIANT();
locked = g_topology_locked();
if (!locked)
g_topology_lock();
if (!vd->vdev_reopening ||
(cp != NULL && ((cp->flags & G_CF_ORPHAN) != 0 ||
(cp->provider != NULL && cp->provider->error != 0))))
vdev_geom_close_locked(vd);
if (!locked)
g_topology_unlock();
PICKUP_GIANT();
}
static void
vdev_geom_io_intr(struct bio *bp)
{
vdev_t *vd;
zio_t *zio;
zio = bp->bio_caller1;
vd = zio->io_vd;
zio->io_error = bp->bio_error;
if (zio->io_error == 0 && bp->bio_resid != 0)
zio->io_error = SET_ERROR(EIO);
switch (zio->io_error) {
case ENOTSUP:
/*
* If we get ENOTSUP for BIO_FLUSH or BIO_DELETE we know
* that future attempts will never succeed. In this case
* we set a persistent flag so that we don't bother with
* requests in the future.
*/
switch (bp->bio_cmd) {
case BIO_FLUSH:
vd->vdev_nowritecache = B_TRUE;
break;
case BIO_DELETE:
break;
}
break;
case ENXIO:
if (!vd->vdev_remove_wanted) {
/*
* If provider's error is set we assume it is being
* removed.
*/
if (bp->bio_to->error != 0) {
vd->vdev_remove_wanted = B_TRUE;
spa_async_request(zio->io_spa,
SPA_ASYNC_REMOVE);
} else if (!vd->vdev_delayed_close) {
vd->vdev_delayed_close = B_TRUE;
}
}
break;
}
/*
* We have to split bio freeing into two parts, because the ABD code
* cannot be called in this context and vdev_op_io_done is not called
* for ZIO_TYPE_IOCTL zio-s.
*/
if (zio->io_type != ZIO_TYPE_READ && zio->io_type != ZIO_TYPE_WRITE) {
g_destroy_bio(bp);
zio->io_bio = NULL;
}
zio_delay_interrupt(zio);
}
struct vdev_geom_check_unmapped_cb_state {
int pages;
uint_t end;
};
/*
* Callback to check the ABD segment size/alignment and count the pages.
* GEOM requires data buffer to look virtually contiguous. It means only
* the first page of the buffer may not start and only the last may not
* end on a page boundary. All other physical pages must be full.
*/
static int
vdev_geom_check_unmapped_cb(void *buf, size_t len, void *priv)
{
struct vdev_geom_check_unmapped_cb_state *s = priv;
vm_offset_t off = (vm_offset_t)buf & PAGE_MASK;
if (s->pages != 0 && off != 0)
return (1);
if (s->end != 0)
return (1);
s->end = (off + len) & PAGE_MASK;
s->pages += (off + len + PAGE_MASK) >> PAGE_SHIFT;
return (0);
}
/*
* Check whether we can use unmapped I/O for this ZIO on this device to
* avoid data copying between scattered and/or gang ABD buffer and linear.
*/
static int
vdev_geom_check_unmapped(zio_t *zio, struct g_consumer *cp)
{
struct vdev_geom_check_unmapped_cb_state s;
/* If unmapped I/O is administratively disabled, respect that. */
if (!unmapped_buf_allowed)
return (0);
/* If the buffer is already linear, then nothing to do here. */
if (abd_is_linear(zio->io_abd))
return (0);
/*
* If unmapped I/O is not supported by the GEOM provider,
* then we can't do anything and have to copy the data.
*/
if ((cp->provider->flags & G_PF_ACCEPT_UNMAPPED) == 0)
return (0);
/* Check the buffer chunks sizes/alignments and count pages. */
s.pages = s.end = 0;
if (abd_iterate_func(zio->io_abd, 0, zio->io_size,
vdev_geom_check_unmapped_cb, &s))
return (0);
return (s.pages);
}
/*
* Callback to translate the ABD segment into array of physical pages.
*/
static int
vdev_geom_fill_unmap_cb(void *buf, size_t len, void *priv)
{
struct bio *bp = priv;
vm_offset_t addr = (vm_offset_t)buf;
vm_offset_t end = addr + len;
if (bp->bio_ma_n == 0) {
bp->bio_ma_offset = addr & PAGE_MASK;
addr &= ~PAGE_MASK;
} else {
ASSERT0(P2PHASE(addr, PAGE_SIZE));
}
do {
bp->bio_ma[bp->bio_ma_n++] =
PHYS_TO_VM_PAGE(pmap_kextract(addr));
addr += PAGE_SIZE;
} while (addr < end);
return (0);
}
static void
vdev_geom_io_start(zio_t *zio)
{
vdev_t *vd;
struct g_consumer *cp;
struct bio *bp;
vd = zio->io_vd;
switch (zio->io_type) {
case ZIO_TYPE_IOCTL:
/* XXPOLICY */
if (!vdev_readable(vd)) {
zio->io_error = SET_ERROR(ENXIO);
zio_interrupt(zio);
return;
} else {
switch (zio->io_cmd) {
case DKIOCFLUSHWRITECACHE:
if (zfs_nocacheflush ||
vdev_geom_bio_flush_disable)
break;
if (vd->vdev_nowritecache) {
zio->io_error = SET_ERROR(ENOTSUP);
break;
}
goto sendreq;
default:
zio->io_error = SET_ERROR(ENOTSUP);
}
}
zio_execute(zio);
return;
case ZIO_TYPE_TRIM:
if (!vdev_geom_bio_delete_disable) {
goto sendreq;
}
zio_execute(zio);
return;
default:
;
/* PASSTHROUGH --- placate compiler */
}
sendreq:
ASSERT(zio->io_type == ZIO_TYPE_READ ||
zio->io_type == ZIO_TYPE_WRITE ||
zio->io_type == ZIO_TYPE_TRIM ||
zio->io_type == ZIO_TYPE_IOCTL);
cp = vd->vdev_tsd;
if (cp == NULL) {
zio->io_error = SET_ERROR(ENXIO);
zio_interrupt(zio);
return;
}
bp = g_alloc_bio();
bp->bio_caller1 = zio;
switch (zio->io_type) {
case ZIO_TYPE_READ:
case ZIO_TYPE_WRITE:
zio->io_target_timestamp = zio_handle_io_delay(zio);
bp->bio_offset = zio->io_offset;
bp->bio_length = zio->io_size;
if (zio->io_type == ZIO_TYPE_READ)
bp->bio_cmd = BIO_READ;
else
bp->bio_cmd = BIO_WRITE;
/*
* If possible, represent scattered and/or gang ABD buffer to
* GEOM as an array of physical pages. It allows to satisfy
* requirement of virtually contiguous buffer without copying.
*/
int pgs = vdev_geom_check_unmapped(zio, cp);
if (pgs > 0) {
bp->bio_ma = malloc(sizeof (struct vm_page *) * pgs,
M_DEVBUF, M_WAITOK);
bp->bio_ma_n = 0;
bp->bio_ma_offset = 0;
abd_iterate_func(zio->io_abd, 0, zio->io_size,
vdev_geom_fill_unmap_cb, bp);
bp->bio_data = unmapped_buf;
bp->bio_flags |= BIO_UNMAPPED;
} else {
if (zio->io_type == ZIO_TYPE_READ) {
bp->bio_data = abd_borrow_buf(zio->io_abd,
zio->io_size);
} else {
bp->bio_data = abd_borrow_buf_copy(zio->io_abd,
zio->io_size);
}
}
break;
case ZIO_TYPE_TRIM:
bp->bio_cmd = BIO_DELETE;
bp->bio_data = NULL;
bp->bio_offset = zio->io_offset;
bp->bio_length = zio->io_size;
break;
case ZIO_TYPE_IOCTL:
bp->bio_cmd = BIO_FLUSH;
bp->bio_data = NULL;
bp->bio_offset = cp->provider->mediasize;
bp->bio_length = 0;
break;
default:
panic("invalid zio->io_type: %d\n", zio->io_type);
}
bp->bio_done = vdev_geom_io_intr;
zio->io_bio = bp;
g_io_request(bp, cp);
}
static void
vdev_geom_io_done(zio_t *zio)
{
struct bio *bp = zio->io_bio;
if (zio->io_type != ZIO_TYPE_READ && zio->io_type != ZIO_TYPE_WRITE) {
ASSERT3P(bp, ==, NULL);
return;
}
if (bp == NULL) {
ASSERT3S(zio->io_error, ==, ENXIO);
return;
}
if (bp->bio_ma != NULL) {
free(bp->bio_ma, M_DEVBUF);
} else {
if (zio->io_type == ZIO_TYPE_READ) {
abd_return_buf_copy(zio->io_abd, bp->bio_data,
zio->io_size);
} else {
abd_return_buf(zio->io_abd, bp->bio_data,
zio->io_size);
}
}
g_destroy_bio(bp);
zio->io_bio = NULL;
}
static void
vdev_geom_hold(vdev_t *vd)
{
}
static void
vdev_geom_rele(vdev_t *vd)
{
}
vdev_ops_t vdev_disk_ops = {
.vdev_op_init = NULL,
.vdev_op_fini = NULL,
.vdev_op_open = vdev_geom_open,
.vdev_op_close = vdev_geom_close,
.vdev_op_asize = vdev_default_asize,
.vdev_op_min_asize = vdev_default_min_asize,
.vdev_op_min_alloc = NULL,
.vdev_op_io_start = vdev_geom_io_start,
.vdev_op_io_done = vdev_geom_io_done,
.vdev_op_state_change = NULL,
.vdev_op_need_resilver = NULL,
.vdev_op_hold = vdev_geom_hold,
.vdev_op_rele = vdev_geom_rele,
.vdev_op_remap = NULL,
.vdev_op_xlate = vdev_default_xlate,
.vdev_op_rebuild_asize = NULL,
.vdev_op_metaslab_init = NULL,
.vdev_op_config_generate = NULL,
.vdev_op_nparity = NULL,
.vdev_op_ndisks = NULL,
.vdev_op_type = VDEV_TYPE_DISK, /* name of this vdev type */
.vdev_op_leaf = B_TRUE /* leaf vdev */
};
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