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mirror_zfs/module/zfs/spa_stats.c
Brian Behlendorf 1b939560be
Add TRIM support 
UNMAP/TRIM support is a frequently-requested feature to help
prevent performance from degrading on SSDs and on various other
SAN-like storage back-ends.  By issuing UNMAP/TRIM commands for
sectors which are no longer allocated the underlying device can
often more efficiently manage itself.

This TRIM implementation is modeled on the `zpool initialize`
feature which writes a pattern to all unallocated space in the
pool.  The new `zpool trim` command uses the same vdev_xlate()
code to calculate what sectors are unallocated, the same per-
vdev TRIM thread model and locking, and the same basic CLI for
a consistent user experience.  The core difference is that
instead of writing a pattern it will issue UNMAP/TRIM commands
for those extents.

The zio pipeline was updated to accommodate this by adding a new
ZIO_TYPE_TRIM type and associated spa taskq.  This new type makes
is straight forward to add the platform specific TRIM/UNMAP calls
to vdev_disk.c and vdev_file.c.  These new ZIO_TYPE_TRIM zios are
handled largely the same way as ZIO_TYPE_READs or ZIO_TYPE_WRITEs.
This makes it possible to largely avoid changing the pipieline,
one exception is that TRIM zio's may exceed the 16M block size
limit since they contain no data.

In addition to the manual `zpool trim` command, a background
automatic TRIM was added and is controlled by the 'autotrim'
property.  It relies on the exact same infrastructure as the
manual TRIM.  However, instead of relying on the extents in a
metaslab's ms_allocatable range tree, a ms_trim tree is kept
per metaslab.  When 'autotrim=on', ranges added back to the
ms_allocatable tree are also added to the ms_free tree.  The
ms_free tree is then periodically consumed by an autotrim
thread which systematically walks a top level vdev's metaslabs.

Since the automatic TRIM will skip ranges it considers too small
there is value in occasionally running a full `zpool trim`.  This
may occur when the freed blocks are small and not enough time
was allowed to aggregate them.  An automatic TRIM and a manual
`zpool trim` may be run concurrently, in which case the automatic
TRIM will yield to the manual TRIM.

Reviewed-by: Jorgen Lundman <lundman@lundman.net>
Reviewed-by: Tim Chase <tim@chase2k.com>
Reviewed-by: Matt Ahrens <mahrens@delphix.com>
Reviewed-by: George Wilson <george.wilson@delphix.com>
Reviewed-by: Serapheim Dimitropoulos <serapheim@delphix.com>
Contributions-by: Saso Kiselkov <saso.kiselkov@nexenta.com>
Contributions-by: Tim Chase <tim@chase2k.com>
Contributions-by: Chunwei Chen <tuxoko@gmail.com>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #8419 
Closes #598
2019-03-29 09:13:20 -07:00

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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 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
*/
#include <sys/zfs_context.h>
#include <sys/spa_impl.h>
#include <sys/vdev_impl.h>
#include <sys/spa.h>
#include <zfs_comutil.h>
/*
* Keeps stats on last N reads per spa_t, disabled by default.
*/
int zfs_read_history = 0;
/*
* Include cache hits in history, disabled by default.
*/
int zfs_read_history_hits = 0;
/*
* Keeps stats on the last 100 txgs by default.
*/
int zfs_txg_history = 100;
/*
* Keeps stats on the last N MMP updates, disabled by default.
*/
int zfs_multihost_history = 0;
/*
* ==========================================================================
* SPA Read History Routines
* ==========================================================================
*/
/*
* Read statistics - Information exported regarding each arc_read call
*/
typedef struct spa_read_history {
hrtime_t start; /* time read completed */
uint64_t objset; /* read from this objset */
uint64_t object; /* read of this object number */
uint64_t level; /* block's indirection level */
uint64_t blkid; /* read of this block id */
char origin[24]; /* read originated from here */
uint32_t aflags; /* ARC flags (cached, prefetch, etc.) */
pid_t pid; /* PID of task doing read */
char comm[16]; /* process name of task doing read */
procfs_list_node_t srh_node;
} spa_read_history_t;
static int
spa_read_history_show_header(struct seq_file *f)
{
seq_printf(f, "%-8s %-16s %-8s %-8s %-8s %-8s %-8s "
"%-24s %-8s %-16s\n", "UID", "start", "objset", "object",
"level", "blkid", "aflags", "origin", "pid", "process");
return (0);
}
static int
spa_read_history_show(struct seq_file *f, void *data)
{
spa_read_history_t *srh = (spa_read_history_t *)data;
seq_printf(f, "%-8llu %-16llu 0x%-6llx "
"%-8lli %-8lli %-8lli 0x%-6x %-24s %-8i %-16s\n",
(u_longlong_t)srh->srh_node.pln_id, srh->start,
(longlong_t)srh->objset, (longlong_t)srh->object,
(longlong_t)srh->level, (longlong_t)srh->blkid,
srh->aflags, srh->origin, srh->pid, srh->comm);
return (0);
}
/* Remove oldest elements from list until there are no more than 'size' left */
static void
spa_read_history_truncate(spa_history_list_t *shl, unsigned int size)
{
spa_read_history_t *srh;
while (shl->size > size) {
srh = list_remove_head(&shl->procfs_list.pl_list);
ASSERT3P(srh, !=, NULL);
kmem_free(srh, sizeof (spa_read_history_t));
shl->size--;
}
if (size == 0)
ASSERT(list_is_empty(&shl->procfs_list.pl_list));
}
static int
spa_read_history_clear(procfs_list_t *procfs_list)
{
spa_history_list_t *shl = procfs_list->pl_private;
mutex_enter(&procfs_list->pl_lock);
spa_read_history_truncate(shl, 0);
mutex_exit(&procfs_list->pl_lock);
return (0);
}
static void
spa_read_history_init(spa_t *spa)
{
spa_history_list_t *shl = &spa->spa_stats.read_history;
char *module;
shl->size = 0;
module = kmem_asprintf("zfs/%s", spa_name(spa));
shl->procfs_list.pl_private = shl;
procfs_list_install(module,
"reads",
&shl->procfs_list,
spa_read_history_show,
spa_read_history_show_header,
spa_read_history_clear,
offsetof(spa_read_history_t, srh_node));
strfree(module);
}
static void
spa_read_history_destroy(spa_t *spa)
{
spa_history_list_t *shl = &spa->spa_stats.read_history;
procfs_list_uninstall(&shl->procfs_list);
spa_read_history_truncate(shl, 0);
procfs_list_destroy(&shl->procfs_list);
}
void
spa_read_history_add(spa_t *spa, const zbookmark_phys_t *zb, uint32_t aflags)
{
spa_history_list_t *shl = &spa->spa_stats.read_history;
spa_read_history_t *srh;
ASSERT3P(spa, !=, NULL);
ASSERT3P(zb, !=, NULL);
if (zfs_read_history == 0 && shl->size == 0)
return;
if (zfs_read_history_hits == 0 && (aflags & ARC_FLAG_CACHED))
return;
srh = kmem_zalloc(sizeof (spa_read_history_t), KM_SLEEP);
strlcpy(srh->comm, getcomm(), sizeof (srh->comm));
srh->start = gethrtime();
srh->objset = zb->zb_objset;
srh->object = zb->zb_object;
srh->level = zb->zb_level;
srh->blkid = zb->zb_blkid;
srh->aflags = aflags;
srh->pid = getpid();
mutex_enter(&shl->procfs_list.pl_lock);
procfs_list_add(&shl->procfs_list, srh);
shl->size++;
spa_read_history_truncate(shl, zfs_read_history);
mutex_exit(&shl->procfs_list.pl_lock);
}
/*
* ==========================================================================
* SPA TXG History Routines
* ==========================================================================
*/
/*
* Txg statistics - Information exported regarding each txg sync
*/
typedef struct spa_txg_history {
uint64_t txg; /* txg id */
txg_state_t state; /* active txg state */
uint64_t nread; /* number of bytes read */
uint64_t nwritten; /* number of bytes written */
uint64_t reads; /* number of read operations */
uint64_t writes; /* number of write operations */
uint64_t ndirty; /* number of dirty bytes */
hrtime_t times[TXG_STATE_COMMITTED]; /* completion times */
procfs_list_node_t sth_node;
} spa_txg_history_t;
static int
spa_txg_history_show_header(struct seq_file *f)
{
seq_printf(f, "%-8s %-16s %-5s %-12s %-12s %-12s "
"%-8s %-8s %-12s %-12s %-12s %-12s\n", "txg", "birth", "state",
"ndirty", "nread", "nwritten", "reads", "writes",
"otime", "qtime", "wtime", "stime");
return (0);
}
static int
spa_txg_history_show(struct seq_file *f, void *data)
{
spa_txg_history_t *sth = (spa_txg_history_t *)data;
uint64_t open = 0, quiesce = 0, wait = 0, sync = 0;
char state;
switch (sth->state) {
case TXG_STATE_BIRTH: state = 'B'; break;
case TXG_STATE_OPEN: state = 'O'; break;
case TXG_STATE_QUIESCED: state = 'Q'; break;
case TXG_STATE_WAIT_FOR_SYNC: state = 'W'; break;
case TXG_STATE_SYNCED: state = 'S'; break;
case TXG_STATE_COMMITTED: state = 'C'; break;
default: state = '?'; break;
}
if (sth->times[TXG_STATE_OPEN])
open = sth->times[TXG_STATE_OPEN] -
sth->times[TXG_STATE_BIRTH];
if (sth->times[TXG_STATE_QUIESCED])
quiesce = sth->times[TXG_STATE_QUIESCED] -
sth->times[TXG_STATE_OPEN];
if (sth->times[TXG_STATE_WAIT_FOR_SYNC])
wait = sth->times[TXG_STATE_WAIT_FOR_SYNC] -
sth->times[TXG_STATE_QUIESCED];
if (sth->times[TXG_STATE_SYNCED])
sync = sth->times[TXG_STATE_SYNCED] -
sth->times[TXG_STATE_WAIT_FOR_SYNC];
seq_printf(f, "%-8llu %-16llu %-5c %-12llu "
"%-12llu %-12llu %-8llu %-8llu %-12llu %-12llu %-12llu %-12llu\n",
(longlong_t)sth->txg, sth->times[TXG_STATE_BIRTH], state,
(u_longlong_t)sth->ndirty,
(u_longlong_t)sth->nread, (u_longlong_t)sth->nwritten,
(u_longlong_t)sth->reads, (u_longlong_t)sth->writes,
(u_longlong_t)open, (u_longlong_t)quiesce, (u_longlong_t)wait,
(u_longlong_t)sync);
return (0);
}
/* Remove oldest elements from list until there are no more than 'size' left */
static void
spa_txg_history_truncate(spa_history_list_t *shl, unsigned int size)
{
spa_txg_history_t *sth;
while (shl->size > size) {
sth = list_remove_head(&shl->procfs_list.pl_list);
ASSERT3P(sth, !=, NULL);
kmem_free(sth, sizeof (spa_txg_history_t));
shl->size--;
}
if (size == 0)
ASSERT(list_is_empty(&shl->procfs_list.pl_list));
}
static int
spa_txg_history_clear(procfs_list_t *procfs_list)
{
spa_history_list_t *shl = procfs_list->pl_private;
mutex_enter(&procfs_list->pl_lock);
spa_txg_history_truncate(shl, 0);
mutex_exit(&procfs_list->pl_lock);
return (0);
}
static void
spa_txg_history_init(spa_t *spa)
{
spa_history_list_t *shl = &spa->spa_stats.txg_history;
char *module;
shl->size = 0;
module = kmem_asprintf("zfs/%s", spa_name(spa));
shl->procfs_list.pl_private = shl;
procfs_list_install(module,
"txgs",
&shl->procfs_list,
spa_txg_history_show,
spa_txg_history_show_header,
spa_txg_history_clear,
offsetof(spa_txg_history_t, sth_node));
strfree(module);
}
static void
spa_txg_history_destroy(spa_t *spa)
{
spa_history_list_t *shl = &spa->spa_stats.txg_history;
procfs_list_uninstall(&shl->procfs_list);
spa_txg_history_truncate(shl, 0);
procfs_list_destroy(&shl->procfs_list);
}
/*
* Add a new txg to historical record.
*/
void
spa_txg_history_add(spa_t *spa, uint64_t txg, hrtime_t birth_time)
{
spa_history_list_t *shl = &spa->spa_stats.txg_history;
spa_txg_history_t *sth;
if (zfs_txg_history == 0 && shl->size == 0)
return;
sth = kmem_zalloc(sizeof (spa_txg_history_t), KM_SLEEP);
sth->txg = txg;
sth->state = TXG_STATE_OPEN;
sth->times[TXG_STATE_BIRTH] = birth_time;
mutex_enter(&shl->procfs_list.pl_lock);
procfs_list_add(&shl->procfs_list, sth);
shl->size++;
spa_txg_history_truncate(shl, zfs_txg_history);
mutex_exit(&shl->procfs_list.pl_lock);
}
/*
* Set txg state completion time and increment current state.
*/
int
spa_txg_history_set(spa_t *spa, uint64_t txg, txg_state_t completed_state,
hrtime_t completed_time)
{
spa_history_list_t *shl = &spa->spa_stats.txg_history;
spa_txg_history_t *sth;
int error = ENOENT;
if (zfs_txg_history == 0)
return (0);
mutex_enter(&shl->procfs_list.pl_lock);
for (sth = list_tail(&shl->procfs_list.pl_list); sth != NULL;
sth = list_prev(&shl->procfs_list.pl_list, sth)) {
if (sth->txg == txg) {
sth->times[completed_state] = completed_time;
sth->state++;
error = 0;
break;
}
}
mutex_exit(&shl->procfs_list.pl_lock);
return (error);
}
/*
* Set txg IO stats.
*/
static int
spa_txg_history_set_io(spa_t *spa, uint64_t txg, uint64_t nread,
uint64_t nwritten, uint64_t reads, uint64_t writes, uint64_t ndirty)
{
spa_history_list_t *shl = &spa->spa_stats.txg_history;
spa_txg_history_t *sth;
int error = ENOENT;
if (zfs_txg_history == 0)
return (0);
mutex_enter(&shl->procfs_list.pl_lock);
for (sth = list_tail(&shl->procfs_list.pl_list); sth != NULL;
sth = list_prev(&shl->procfs_list.pl_list, sth)) {
if (sth->txg == txg) {
sth->nread = nread;
sth->nwritten = nwritten;
sth->reads = reads;
sth->writes = writes;
sth->ndirty = ndirty;
error = 0;
break;
}
}
mutex_exit(&shl->procfs_list.pl_lock);
return (error);
}
txg_stat_t *
spa_txg_history_init_io(spa_t *spa, uint64_t txg, dsl_pool_t *dp)
{
txg_stat_t *ts;
if (zfs_txg_history == 0)
return (NULL);
ts = kmem_alloc(sizeof (txg_stat_t), KM_SLEEP);
spa_config_enter(spa, SCL_CONFIG, FTAG, RW_READER);
vdev_get_stats(spa->spa_root_vdev, &ts->vs1);
spa_config_exit(spa, SCL_CONFIG, FTAG);
ts->txg = txg;
ts->ndirty = dp->dp_dirty_pertxg[txg & TXG_MASK];
spa_txg_history_set(spa, txg, TXG_STATE_WAIT_FOR_SYNC, gethrtime());
return (ts);
}
void
spa_txg_history_fini_io(spa_t *spa, txg_stat_t *ts)
{
if (ts == NULL)
return;
if (zfs_txg_history == 0) {
kmem_free(ts, sizeof (txg_stat_t));
return;
}
spa_config_enter(spa, SCL_CONFIG, FTAG, RW_READER);
vdev_get_stats(spa->spa_root_vdev, &ts->vs2);
spa_config_exit(spa, SCL_CONFIG, FTAG);
spa_txg_history_set(spa, ts->txg, TXG_STATE_SYNCED, gethrtime());
spa_txg_history_set_io(spa, ts->txg,
ts->vs2.vs_bytes[ZIO_TYPE_READ] - ts->vs1.vs_bytes[ZIO_TYPE_READ],
ts->vs2.vs_bytes[ZIO_TYPE_WRITE] - ts->vs1.vs_bytes[ZIO_TYPE_WRITE],
ts->vs2.vs_ops[ZIO_TYPE_READ] - ts->vs1.vs_ops[ZIO_TYPE_READ],
ts->vs2.vs_ops[ZIO_TYPE_WRITE] - ts->vs1.vs_ops[ZIO_TYPE_WRITE],
ts->ndirty);
kmem_free(ts, sizeof (txg_stat_t));
}
/*
* ==========================================================================
* SPA TX Assign Histogram Routines
* ==========================================================================
*/
/*
* Tx statistics - Information exported regarding dmu_tx_assign time.
*/
/*
* When the kstat is written zero all buckets. When the kstat is read
* count the number of trailing buckets set to zero and update ks_ndata
* such that they are not output.
*/
static int
spa_tx_assign_update(kstat_t *ksp, int rw)
{
spa_t *spa = ksp->ks_private;
spa_history_kstat_t *shk = &spa->spa_stats.tx_assign_histogram;
int i;
if (rw == KSTAT_WRITE) {
for (i = 0; i < shk->count; i++)
((kstat_named_t *)shk->private)[i].value.ui64 = 0;
}
for (i = shk->count; i > 0; i--)
if (((kstat_named_t *)shk->private)[i-1].value.ui64 != 0)
break;
ksp->ks_ndata = i;
ksp->ks_data_size = i * sizeof (kstat_named_t);
return (0);
}
static void
spa_tx_assign_init(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.tx_assign_histogram;
char *name;
kstat_named_t *ks;
kstat_t *ksp;
int i;
mutex_init(&shk->lock, NULL, MUTEX_DEFAULT, NULL);
shk->count = 42; /* power of two buckets for 1ns to 2,199s */
shk->size = shk->count * sizeof (kstat_named_t);
shk->private = kmem_alloc(shk->size, KM_SLEEP);
name = kmem_asprintf("zfs/%s", spa_name(spa));
for (i = 0; i < shk->count; i++) {
ks = &((kstat_named_t *)shk->private)[i];
ks->data_type = KSTAT_DATA_UINT64;
ks->value.ui64 = 0;
(void) snprintf(ks->name, KSTAT_STRLEN, "%llu ns",
(u_longlong_t)1 << i);
}
ksp = kstat_create(name, 0, "dmu_tx_assign", "misc",
KSTAT_TYPE_NAMED, 0, KSTAT_FLAG_VIRTUAL);
shk->kstat = ksp;
if (ksp) {
ksp->ks_lock = &shk->lock;
ksp->ks_data = shk->private;
ksp->ks_ndata = shk->count;
ksp->ks_data_size = shk->size;
ksp->ks_private = spa;
ksp->ks_update = spa_tx_assign_update;
kstat_install(ksp);
}
strfree(name);
}
static void
spa_tx_assign_destroy(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.tx_assign_histogram;
kstat_t *ksp;
ksp = shk->kstat;
if (ksp)
kstat_delete(ksp);
kmem_free(shk->private, shk->size);
mutex_destroy(&shk->lock);
}
void
spa_tx_assign_add_nsecs(spa_t *spa, uint64_t nsecs)
{
spa_history_kstat_t *shk = &spa->spa_stats.tx_assign_histogram;
uint64_t idx = 0;
while (((1ULL << idx) < nsecs) && (idx < shk->size - 1))
idx++;
atomic_inc_64(&((kstat_named_t *)shk->private)[idx].value.ui64);
}
/*
* ==========================================================================
* SPA IO History Routines
* ==========================================================================
*/
static int
spa_io_history_update(kstat_t *ksp, int rw)
{
if (rw == KSTAT_WRITE)
memset(ksp->ks_data, 0, ksp->ks_data_size);
return (0);
}
static void
spa_io_history_init(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.io_history;
char *name;
kstat_t *ksp;
mutex_init(&shk->lock, NULL, MUTEX_DEFAULT, NULL);
name = kmem_asprintf("zfs/%s", spa_name(spa));
ksp = kstat_create(name, 0, "io", "disk", KSTAT_TYPE_IO, 1, 0);
shk->kstat = ksp;
if (ksp) {
ksp->ks_lock = &shk->lock;
ksp->ks_private = spa;
ksp->ks_update = spa_io_history_update;
kstat_install(ksp);
}
strfree(name);
}
static void
spa_io_history_destroy(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.io_history;
if (shk->kstat)
kstat_delete(shk->kstat);
mutex_destroy(&shk->lock);
}
/*
* ==========================================================================
* SPA MMP History Routines
* ==========================================================================
*/
/*
* MMP statistics - Information exported regarding attempted MMP writes
* For MMP writes issued, fields used as per comments below.
* For MMP writes skipped, an entry represents a span of time when
* writes were skipped for same reason (error from mmp_random_leaf).
* Differences are:
* timestamp time first write skipped, if >1 skipped in a row
* mmp_delay delay value at timestamp
* vdev_guid number of writes skipped
* io_error one of enum mmp_error
* duration time span (ns) of skipped writes
*/
typedef struct spa_mmp_history {
uint64_t mmp_node_id; /* unique # for updates */
uint64_t txg; /* txg of last sync */
uint64_t timestamp; /* UTC time MMP write issued */
uint64_t mmp_delay; /* mmp_thread.mmp_delay at timestamp */
uint64_t vdev_guid; /* unique ID of leaf vdev */
char *vdev_path;
int vdev_label; /* vdev label */
int io_error; /* error status of MMP write */
hrtime_t error_start; /* hrtime of start of error period */
hrtime_t duration; /* time from submission to completion */
procfs_list_node_t smh_node;
} spa_mmp_history_t;
static int
spa_mmp_history_show_header(struct seq_file *f)
{
seq_printf(f, "%-10s %-10s %-10s %-6s %-10s %-12s %-24s "
"%-10s %s\n", "id", "txg", "timestamp", "error", "duration",
"mmp_delay", "vdev_guid", "vdev_label", "vdev_path");
return (0);
}
static int
spa_mmp_history_show(struct seq_file *f, void *data)
{
spa_mmp_history_t *smh = (spa_mmp_history_t *)data;
char skip_fmt[] = "%-10llu %-10llu %10llu %#6llx %10lld %12llu %-24llu "
"%-10lld %s\n";
char write_fmt[] = "%-10llu %-10llu %10llu %6lld %10lld %12llu %-24llu "
"%-10lld %s\n";
seq_printf(f, (smh->error_start ? skip_fmt : write_fmt),
(u_longlong_t)smh->mmp_node_id, (u_longlong_t)smh->txg,
(u_longlong_t)smh->timestamp, (longlong_t)smh->io_error,
(longlong_t)smh->duration, (u_longlong_t)smh->mmp_delay,
(u_longlong_t)smh->vdev_guid, (u_longlong_t)smh->vdev_label,
(smh->vdev_path ? smh->vdev_path : "-"));
return (0);
}
/* Remove oldest elements from list until there are no more than 'size' left */
static void
spa_mmp_history_truncate(spa_history_list_t *shl, unsigned int size)
{
spa_mmp_history_t *smh;
while (shl->size > size) {
smh = list_remove_head(&shl->procfs_list.pl_list);
if (smh->vdev_path)
strfree(smh->vdev_path);
kmem_free(smh, sizeof (spa_mmp_history_t));
shl->size--;
}
if (size == 0)
ASSERT(list_is_empty(&shl->procfs_list.pl_list));
}
static int
spa_mmp_history_clear(procfs_list_t *procfs_list)
{
spa_history_list_t *shl = procfs_list->pl_private;
mutex_enter(&procfs_list->pl_lock);
spa_mmp_history_truncate(shl, 0);
mutex_exit(&procfs_list->pl_lock);
return (0);
}
static void
spa_mmp_history_init(spa_t *spa)
{
spa_history_list_t *shl = &spa->spa_stats.mmp_history;
char *module;
shl->size = 0;
module = kmem_asprintf("zfs/%s", spa_name(spa));
shl->procfs_list.pl_private = shl;
procfs_list_install(module,
"multihost",
&shl->procfs_list,
spa_mmp_history_show,
spa_mmp_history_show_header,
spa_mmp_history_clear,
offsetof(spa_mmp_history_t, smh_node));
strfree(module);
}
static void
spa_mmp_history_destroy(spa_t *spa)
{
spa_history_list_t *shl = &spa->spa_stats.mmp_history;
procfs_list_uninstall(&shl->procfs_list);
spa_mmp_history_truncate(shl, 0);
procfs_list_destroy(&shl->procfs_list);
}
/*
* Set duration in existing "skip" record to how long we have waited for a leaf
* vdev to become available.
*
* Important that we start search at the tail of the list where new
* records are inserted, so this is normally an O(1) operation.
*/
int
spa_mmp_history_set_skip(spa_t *spa, uint64_t mmp_node_id)
{
spa_history_list_t *shl = &spa->spa_stats.mmp_history;
spa_mmp_history_t *smh;
int error = ENOENT;
if (zfs_multihost_history == 0 && shl->size == 0)
return (0);
mutex_enter(&shl->procfs_list.pl_lock);
for (smh = list_tail(&shl->procfs_list.pl_list); smh != NULL;
smh = list_prev(&shl->procfs_list.pl_list, smh)) {
if (smh->mmp_node_id == mmp_node_id) {
ASSERT3U(smh->io_error, !=, 0);
smh->duration = gethrtime() - smh->error_start;
smh->vdev_guid++;
error = 0;
break;
}
}
mutex_exit(&shl->procfs_list.pl_lock);
return (error);
}
/*
* Set MMP write duration and error status in existing record.
* See comment re: search order above spa_mmp_history_set_skip().
*/
int
spa_mmp_history_set(spa_t *spa, uint64_t mmp_node_id, int io_error,
hrtime_t duration)
{
spa_history_list_t *shl = &spa->spa_stats.mmp_history;
spa_mmp_history_t *smh;
int error = ENOENT;
if (zfs_multihost_history == 0 && shl->size == 0)
return (0);
mutex_enter(&shl->procfs_list.pl_lock);
for (smh = list_tail(&shl->procfs_list.pl_list); smh != NULL;
smh = list_prev(&shl->procfs_list.pl_list, smh)) {
if (smh->mmp_node_id == mmp_node_id) {
ASSERT(smh->io_error == 0);
smh->io_error = io_error;
smh->duration = duration;
error = 0;
break;
}
}
mutex_exit(&shl->procfs_list.pl_lock);
return (error);
}
/*
* Add a new MMP historical record.
* error == 0 : a write was issued.
* error != 0 : a write was not issued because no leaves were found.
*/
void
spa_mmp_history_add(spa_t *spa, uint64_t txg, uint64_t timestamp,
uint64_t mmp_delay, vdev_t *vd, int label, uint64_t mmp_node_id,
int error)
{
spa_history_list_t *shl = &spa->spa_stats.mmp_history;
spa_mmp_history_t *smh;
if (zfs_multihost_history == 0 && shl->size == 0)
return;
smh = kmem_zalloc(sizeof (spa_mmp_history_t), KM_SLEEP);
smh->txg = txg;
smh->timestamp = timestamp;
smh->mmp_delay = mmp_delay;
if (vd) {
smh->vdev_guid = vd->vdev_guid;
if (vd->vdev_path)
smh->vdev_path = strdup(vd->vdev_path);
}
smh->vdev_label = label;
smh->mmp_node_id = mmp_node_id;
if (error) {
smh->io_error = error;
smh->error_start = gethrtime();
smh->vdev_guid = 1;
}
mutex_enter(&shl->procfs_list.pl_lock);
procfs_list_add(&shl->procfs_list, smh);
shl->size++;
spa_mmp_history_truncate(shl, zfs_multihost_history);
mutex_exit(&shl->procfs_list.pl_lock);
}
static void *
spa_state_addr(kstat_t *ksp, loff_t n)
{
return (ksp->ks_private); /* return the spa_t */
}
static int
spa_state_data(char *buf, size_t size, void *data)
{
spa_t *spa = (spa_t *)data;
(void) snprintf(buf, size, "%s\n", spa_state_to_name(spa));
return (0);
}
/*
* Return the state of the pool in /proc/spl/kstat/zfs/<pool>/state.
*
* This is a lock-less read of the pool's state (unlike using 'zpool', which
* can potentially block for seconds). Because it doesn't block, it can useful
* as a pool heartbeat value.
*/
static void
spa_state_init(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.state;
char *name;
kstat_t *ksp;
mutex_init(&shk->lock, NULL, MUTEX_DEFAULT, NULL);
name = kmem_asprintf("zfs/%s", spa_name(spa));
ksp = kstat_create(name, 0, "state", "misc",
KSTAT_TYPE_RAW, 0, KSTAT_FLAG_VIRTUAL);
shk->kstat = ksp;
if (ksp) {
ksp->ks_lock = &shk->lock;
ksp->ks_data = NULL;
ksp->ks_private = spa;
ksp->ks_flags |= KSTAT_FLAG_NO_HEADERS;
kstat_set_raw_ops(ksp, NULL, spa_state_data, spa_state_addr);
kstat_install(ksp);
}
strfree(name);
}
static void
spa_health_destroy(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.state;
kstat_t *ksp = shk->kstat;
if (ksp)
kstat_delete(ksp);
mutex_destroy(&shk->lock);
}
static spa_iostats_t spa_iostats_template = {
{ "trim_extents_written", KSTAT_DATA_UINT64 },
{ "trim_bytes_written", KSTAT_DATA_UINT64 },
{ "trim_extents_skipped", KSTAT_DATA_UINT64 },
{ "trim_bytes_skipped", KSTAT_DATA_UINT64 },
{ "trim_extents_failed", KSTAT_DATA_UINT64 },
{ "trim_bytes_failed", KSTAT_DATA_UINT64 },
{ "autotrim_extents_written", KSTAT_DATA_UINT64 },
{ "autotrim_bytes_written", KSTAT_DATA_UINT64 },
{ "autotrim_extents_skipped", KSTAT_DATA_UINT64 },
{ "autotrim_bytes_skipped", KSTAT_DATA_UINT64 },
{ "autotrim_extents_failed", KSTAT_DATA_UINT64 },
{ "autotrim_bytes_failed", KSTAT_DATA_UINT64 },
};
#define SPA_IOSTATS_ADD(stat, val) \
atomic_add_64(&iostats->stat.value.ui64, (val));
void
spa_iostats_trim_add(spa_t *spa, trim_type_t type,
uint64_t extents_written, uint64_t bytes_written,
uint64_t extents_skipped, uint64_t bytes_skipped,
uint64_t extents_failed, uint64_t bytes_failed)
{
spa_history_kstat_t *shk = &spa->spa_stats.iostats;
kstat_t *ksp = shk->kstat;
spa_iostats_t *iostats;
if (ksp == NULL)
return;
iostats = ksp->ks_data;
if (type == TRIM_TYPE_MANUAL) {
SPA_IOSTATS_ADD(trim_extents_written, extents_written);
SPA_IOSTATS_ADD(trim_bytes_written, bytes_written);
SPA_IOSTATS_ADD(trim_extents_skipped, extents_skipped);
SPA_IOSTATS_ADD(trim_bytes_skipped, bytes_skipped);
SPA_IOSTATS_ADD(trim_extents_failed, extents_failed);
SPA_IOSTATS_ADD(trim_bytes_failed, bytes_failed);
} else {
SPA_IOSTATS_ADD(autotrim_extents_written, extents_written);
SPA_IOSTATS_ADD(autotrim_bytes_written, bytes_written);
SPA_IOSTATS_ADD(autotrim_extents_skipped, extents_skipped);
SPA_IOSTATS_ADD(autotrim_bytes_skipped, bytes_skipped);
SPA_IOSTATS_ADD(autotrim_extents_failed, extents_failed);
SPA_IOSTATS_ADD(autotrim_bytes_failed, bytes_failed);
}
}
int
spa_iostats_update(kstat_t *ksp, int rw)
{
if (rw == KSTAT_WRITE) {
memcpy(ksp->ks_data, &spa_iostats_template,
sizeof (spa_iostats_t));
}
return (0);
}
static void
spa_iostats_init(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.iostats;
mutex_init(&shk->lock, NULL, MUTEX_DEFAULT, NULL);
char *name = kmem_asprintf("zfs/%s", spa_name(spa));
kstat_t *ksp = kstat_create(name, 0, "iostats", "misc",
KSTAT_TYPE_NAMED, sizeof (spa_iostats_t) / sizeof (kstat_named_t),
KSTAT_FLAG_VIRTUAL);
shk->kstat = ksp;
if (ksp) {
int size = sizeof (spa_iostats_t);
ksp->ks_lock = &shk->lock;
ksp->ks_private = spa;
ksp->ks_update = spa_iostats_update;
ksp->ks_data = kmem_alloc(size, KM_SLEEP);
memcpy(ksp->ks_data, &spa_iostats_template, size);
kstat_install(ksp);
}
strfree(name);
}
static void
spa_iostats_destroy(spa_t *spa)
{
spa_history_kstat_t *shk = &spa->spa_stats.iostats;
kstat_t *ksp = shk->kstat;
if (ksp) {
kmem_free(ksp->ks_data, sizeof (spa_iostats_t));
kstat_delete(ksp);
}
mutex_destroy(&shk->lock);
}
void
spa_stats_init(spa_t *spa)
{
spa_read_history_init(spa);
spa_txg_history_init(spa);
spa_tx_assign_init(spa);
spa_io_history_init(spa);
spa_mmp_history_init(spa);
spa_state_init(spa);
spa_iostats_init(spa);
}
void
spa_stats_destroy(spa_t *spa)
{
spa_iostats_destroy(spa);
spa_health_destroy(spa);
spa_tx_assign_destroy(spa);
spa_txg_history_destroy(spa);
spa_read_history_destroy(spa);
spa_io_history_destroy(spa);
spa_mmp_history_destroy(spa);
}
#if defined(_KERNEL)
/* CSTYLED */
module_param(zfs_read_history, int, 0644);
MODULE_PARM_DESC(zfs_read_history,
"Historical statistics for the last N reads");
module_param(zfs_read_history_hits, int, 0644);
MODULE_PARM_DESC(zfs_read_history_hits,
"Include cache hits in read history");
module_param(zfs_txg_history, int, 0644);
MODULE_PARM_DESC(zfs_txg_history,
"Historical statistics for the last N txgs");
module_param(zfs_multihost_history, int, 0644);
MODULE_PARM_DESC(zfs_multihost_history,
"Historical statistics for last N multihost writes");
/* END CSTYLED */
#endif
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