common/zfs-diagnosis/zfs_de.c

1544Seschrock/*
1544Seschrock * CDDL HEADER START
1544Seschrock *
1544Seschrock * The contents of this file are subject to the terms of the
1544Seschrock * Common Development and Distribution License (the "License").
1544Seschrock * You may not use this file except in compliance with the License.
1544Seschrock *
1544Seschrock * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
1544Seschrock * or http://www.opensolaris.org/os/licensing.
1544Seschrock * See the License for the specific language governing permissions
1544Seschrock * and limitations under the License.
1544Seschrock *
1544Seschrock * When distributing Covered Code, include this CDDL HEADER in each
1544Seschrock * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
1544Seschrock * If applicable, add the following below this CDDL HEADER, with the
1544Seschrock * fields enclosed by brackets "[]" replaced with your own identifying
1544Seschrock * information: Portions Copyright [yyyy] [name of copyright owner]
1544Seschrock *
1544Seschrock * CDDL HEADER END
1544Seschrock */
1544Seschrock/*
*12817STim.Haley@Sun.COM * Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved.
1544Seschrock */
1544Seschrock
1544Seschrock#include <assert.h>
1544Seschrock#include <stddef.h>
1544Seschrock#include <strings.h>
1544Seschrock#include <libuutil.h>
4451Seschrock#include <libzfs.h>
1544Seschrock#include <fm/fmd_api.h>
10817SEric.Schrock@Sun.COM#include <fm/libtopo.h>
*12817STim.Haley@Sun.COM#include <sys/types.h>
*12817STim.Haley@Sun.COM#include <sys/time.h>
1544Seschrock#include <sys/fs/zfs.h>
1544Seschrock#include <sys/fm/protocol.h>
1544Seschrock#include <sys/fm/fs/zfs.h>
1544Seschrock
4451Seschrock/*
4451Seschrock * Our serd engines are named 'zfs_<pool_guid>_<vdev_guid>_{checksum,io}'.  This
4451Seschrock * #define reserves enough space for two 64-bit hex values plus the length of
4451Seschrock * the longest string.
4451Seschrock */
4451Seschrock#define	MAX_SERDLEN	(16 * 2 + sizeof ("zfs___checksum"))
4451Seschrock
6976Seschrock/*
6976Seschrock * On-disk case structure.  This must maintain backwards compatibility with
6976Seschrock * previous versions of the DE.  By default, any members appended to the end
6976Seschrock * will be filled with zeros if they don't exist in a previous version.
6976Seschrock */
1544Seschrocktypedef struct zfs_case_data {
1544Seschrock	uint64_t	zc_version;
1544Seschrock	uint64_t	zc_ena;
1544Seschrock	uint64_t	zc_pool_guid;
1544Seschrock	uint64_t	zc_vdev_guid;
6976Seschrock	int		zc_has_timer;		/* defunct */
1544Seschrock	int		zc_pool_state;
4451Seschrock	char		zc_serd_checksum[MAX_SERDLEN];
4451Seschrock	char		zc_serd_io[MAX_SERDLEN];
6976Seschrock	int		zc_has_remove_timer;
1544Seschrock} zfs_case_data_t;
1544Seschrock
6976Seschrock/*
*12817STim.Haley@Sun.COM * Time-of-day
*12817STim.Haley@Sun.COM */
*12817STim.Haley@Sun.COMtypedef struct er_timeval {
*12817STim.Haley@Sun.COM	uint64_t	ertv_sec;
*12817STim.Haley@Sun.COM	uint64_t	ertv_nsec;
*12817STim.Haley@Sun.COM} er_timeval_t;
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM/*
6976Seschrock * In-core case structure.
6976Seschrock */
1544Seschrocktypedef struct zfs_case {
4451Seschrock	boolean_t	zc_present;
4451Seschrock	uint32_t	zc_version;
1544Seschrock	zfs_case_data_t	zc_data;
1544Seschrock	fmd_case_t	*zc_case;
1544Seschrock	uu_list_node_t	zc_node;
6976Seschrock	id_t		zc_remove_timer;
10817SEric.Schrock@Sun.COM	char		*zc_fru;
*12817STim.Haley@Sun.COM	er_timeval_t	zc_when;
1544Seschrock} zfs_case_t;
1544Seschrock
4451Seschrock#define	CASE_DATA			"data"
10817SEric.Schrock@Sun.COM#define	CASE_FRU			"fru"
4451Seschrock#define	CASE_DATA_VERSION_INITIAL	1
4451Seschrock#define	CASE_DATA_VERSION_SERD		2
1544Seschrock
*12817STim.Haley@Sun.COMtypedef struct zfs_de_stats {
*12817STim.Haley@Sun.COM	fmd_stat_t	old_drops;
*12817STim.Haley@Sun.COM	fmd_stat_t	dev_drops;
*12817STim.Haley@Sun.COM	fmd_stat_t	vdev_drops;
*12817STim.Haley@Sun.COM	fmd_stat_t	import_drops;
*12817STim.Haley@Sun.COM	fmd_stat_t	resource_drops;
*12817STim.Haley@Sun.COM} zfs_de_stats_t;
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COMzfs_de_stats_t zfs_stats = {
*12817STim.Haley@Sun.COM	{ "old_drops", FMD_TYPE_UINT64, "ereports dropped (from before load)" },
*12817STim.Haley@Sun.COM	{ "dev_drops", FMD_TYPE_UINT64, "ereports dropped (dev during open)"},
*12817STim.Haley@Sun.COM	{ "vdev_drops", FMD_TYPE_UINT64, "ereports dropped (weird vdev types)"},
*12817STim.Haley@Sun.COM	{ "import_drops", FMD_TYPE_UINT64, "ereports dropped (during import)" },
*12817STim.Haley@Sun.COM	{ "resource_drops", FMD_TYPE_UINT64, "resource related ereports" }
*12817STim.Haley@Sun.COM};
*12817STim.Haley@Sun.COM
6976Seschrockstatic hrtime_t zfs_remove_timeout;
1544Seschrock
1544Seschrockuu_list_pool_t *zfs_case_pool;
1544Seschrockuu_list_t *zfs_cases;
1544Seschrock
6976Seschrock#define	ZFS_MAKE_RSRC(type)	\
6976Seschrock    FM_RSRC_CLASS "." ZFS_ERROR_CLASS "." type
6976Seschrock#define	ZFS_MAKE_EREPORT(type)	\
6976Seschrock    FM_EREPORT_CLASS "." ZFS_ERROR_CLASS "." type
6976Seschrock
4451Seschrock/*
4451Seschrock * Write out the persistent representation of an active case.
4451Seschrock */
1544Seschrockstatic void
1544Seschrockzfs_case_serialize(fmd_hdl_t *hdl, zfs_case_t *zcp)
1544Seschrock{
4451Seschrock	/*
4451Seschrock	 * Always update cases to the latest version, even if they were the
4451Seschrock	 * previous version when unserialized.
4451Seschrock	 */
4451Seschrock	zcp->zc_data.zc_version = CASE_DATA_VERSION_SERD;
1544Seschrock	fmd_buf_write(hdl, zcp->zc_case, CASE_DATA, &zcp->zc_data,
1544Seschrock	    sizeof (zcp->zc_data));
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM	if (zcp->zc_fru != NULL)
10817SEric.Schrock@Sun.COM		fmd_buf_write(hdl, zcp->zc_case, CASE_FRU, zcp->zc_fru,
10817SEric.Schrock@Sun.COM		    strlen(zcp->zc_fru));
1544Seschrock}
1544Seschrock
4451Seschrock/*
4451Seschrock * Read back the persistent representation of an active case.
4451Seschrock */
1544Seschrockstatic zfs_case_t *
1544Seschrockzfs_case_unserialize(fmd_hdl_t *hdl, fmd_case_t *cp)
1544Seschrock{
1544Seschrock	zfs_case_t *zcp;
10817SEric.Schrock@Sun.COM	size_t frulen;
1544Seschrock
1544Seschrock	zcp = fmd_hdl_zalloc(hdl, sizeof (zfs_case_t), FMD_SLEEP);
1544Seschrock	zcp->zc_case = cp;
1544Seschrock
1544Seschrock	fmd_buf_read(hdl, cp, CASE_DATA, &zcp->zc_data,
1544Seschrock	    sizeof (zcp->zc_data));
1544Seschrock
4451Seschrock	if (zcp->zc_data.zc_version > CASE_DATA_VERSION_SERD) {
1544Seschrock		fmd_hdl_free(hdl, zcp, sizeof (zfs_case_t));
1544Seschrock		return (NULL);
1544Seschrock	}
1544Seschrock
10817SEric.Schrock@Sun.COM	if ((frulen = fmd_buf_size(hdl, zcp->zc_case, CASE_FRU)) > 0) {
10817SEric.Schrock@Sun.COM		zcp->zc_fru = fmd_hdl_alloc(hdl, frulen + 1, FMD_SLEEP);
10817SEric.Schrock@Sun.COM		fmd_buf_read(hdl, zcp->zc_case, CASE_FRU, zcp->zc_fru,
10817SEric.Schrock@Sun.COM		    frulen);
10817SEric.Schrock@Sun.COM		zcp->zc_fru[frulen] = '\0';
10817SEric.Schrock@Sun.COM	}
10817SEric.Schrock@Sun.COM
4451Seschrock	/*
4451Seschrock	 * fmd_buf_read() will have already zeroed out the remainder of the
4451Seschrock	 * buffer, so we don't have to do anything special if the version
4451Seschrock	 * doesn't include the SERD engine name.
4451Seschrock	 */
4451Seschrock
6976Seschrock	if (zcp->zc_data.zc_has_remove_timer)
6976Seschrock		zcp->zc_remove_timer = fmd_timer_install(hdl, zcp,
6976Seschrock		    NULL, zfs_remove_timeout);
1544Seschrock
1544Seschrock	(void) uu_list_insert_before(zfs_cases, NULL, zcp);
1544Seschrock
1544Seschrock	fmd_case_setspecific(hdl, cp, zcp);
1544Seschrock
1544Seschrock	return (zcp);
1544Seschrock}
1544Seschrock
4451Seschrock/*
4451Seschrock * Iterate over any active cases.  If any cases are associated with a pool or
4451Seschrock * vdev which is no longer present on the system, close the associated case.
4451Seschrock */
4451Seschrockstatic void
*12817STim.Haley@Sun.COMzfs_mark_vdev(uint64_t pool_guid, nvlist_t *vd, er_timeval_t *loaded)
4451Seschrock{
4451Seschrock	uint64_t vdev_guid;
4451Seschrock	uint_t c, children;
4451Seschrock	nvlist_t **child;
4451Seschrock	zfs_case_t *zcp;
4451Seschrock	int ret;
4451Seschrock
4451Seschrock	ret = nvlist_lookup_uint64(vd, ZPOOL_CONFIG_GUID, &vdev_guid);
4451Seschrock	assert(ret == 0);
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * Mark any cases associated with this (pool, vdev) pair.
4451Seschrock	 */
4451Seschrock	for (zcp = uu_list_first(zfs_cases); zcp != NULL;
4451Seschrock	    zcp = uu_list_next(zfs_cases, zcp)) {
4451Seschrock		if (zcp->zc_data.zc_pool_guid == pool_guid &&
*12817STim.Haley@Sun.COM		    zcp->zc_data.zc_vdev_guid == vdev_guid) {
4451Seschrock			zcp->zc_present = B_TRUE;
*12817STim.Haley@Sun.COM			zcp->zc_when = *loaded;
*12817STim.Haley@Sun.COM		}
4451Seschrock	}
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * Iterate over all children.
4451Seschrock	 */
4451Seschrock	if (nvlist_lookup_nvlist_array(vd, ZPOOL_CONFIG_CHILDREN, &child,
7041Seschrock	    &children) == 0) {
7041Seschrock		for (c = 0; c < children; c++)
*12817STim.Haley@Sun.COM			zfs_mark_vdev(pool_guid, child[c], loaded);
7041Seschrock	}
7041Seschrock
7041Seschrock	if (nvlist_lookup_nvlist_array(vd, ZPOOL_CONFIG_L2CACHE, &child,
7041Seschrock	    &children) == 0) {
7041Seschrock		for (c = 0; c < children; c++)
*12817STim.Haley@Sun.COM			zfs_mark_vdev(pool_guid, child[c], loaded);
7041Seschrock	}
7041Seschrock
7041Seschrock	if (nvlist_lookup_nvlist_array(vd, ZPOOL_CONFIG_SPARES, &child,
7041Seschrock	    &children) == 0) {
4451Seschrock		for (c = 0; c < children; c++)
*12817STim.Haley@Sun.COM			zfs_mark_vdev(pool_guid, child[c], loaded);
4451Seschrock	}
4451Seschrock}
4451Seschrock
4451Seschrock/*ARGSUSED*/
4451Seschrockstatic int
4451Seschrockzfs_mark_pool(zpool_handle_t *zhp, void *unused)
4451Seschrock{
4451Seschrock	zfs_case_t *zcp;
5094Slling	uint64_t pool_guid;
*12817STim.Haley@Sun.COM	uint64_t *tod;
*12817STim.Haley@Sun.COM	er_timeval_t loaded = { 0 };
4451Seschrock	nvlist_t *config, *vd;
*12817STim.Haley@Sun.COM	uint_t nelem = 0;
4451Seschrock	int ret;
4451Seschrock
5094Slling	pool_guid = zpool_get_prop_int(zhp, ZPOOL_PROP_GUID, NULL);
4451Seschrock	/*
4451Seschrock	 * Mark any cases associated with just this pool.
4451Seschrock	 */
4451Seschrock	for (zcp = uu_list_first(zfs_cases); zcp != NULL;
4451Seschrock	    zcp = uu_list_next(zfs_cases, zcp)) {
4451Seschrock		if (zcp->zc_data.zc_pool_guid == pool_guid &&
4451Seschrock		    zcp->zc_data.zc_vdev_guid == 0)
4451Seschrock			zcp->zc_present = B_TRUE;
4451Seschrock	}
4451Seschrock
6643Seschrock	if ((config = zpool_get_config(zhp, NULL)) == NULL) {
6643Seschrock		zpool_close(zhp);
4451Seschrock		return (-1);
6643Seschrock	}
4451Seschrock
*12817STim.Haley@Sun.COM	(void) nvlist_lookup_uint64_array(config, ZPOOL_CONFIG_LOADED_TIME,
*12817STim.Haley@Sun.COM	    &tod, &nelem);
*12817STim.Haley@Sun.COM	if (nelem == 2) {
*12817STim.Haley@Sun.COM		loaded.ertv_sec = tod[0];
*12817STim.Haley@Sun.COM		loaded.ertv_nsec = tod[1];
*12817STim.Haley@Sun.COM		for (zcp = uu_list_first(zfs_cases); zcp != NULL;
*12817STim.Haley@Sun.COM		    zcp = uu_list_next(zfs_cases, zcp)) {
*12817STim.Haley@Sun.COM			if (zcp->zc_data.zc_pool_guid == pool_guid &&
*12817STim.Haley@Sun.COM			    zcp->zc_data.zc_vdev_guid == 0) {
*12817STim.Haley@Sun.COM				zcp->zc_when = loaded;
*12817STim.Haley@Sun.COM			}
*12817STim.Haley@Sun.COM		}
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM
4451Seschrock	ret = nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &vd);
4451Seschrock	assert(ret == 0);
4451Seschrock
*12817STim.Haley@Sun.COM	zfs_mark_vdev(pool_guid, vd, &loaded);
4451Seschrock
6643Seschrock	zpool_close(zhp);
6643Seschrock
4451Seschrock	return (0);
4451Seschrock}
4451Seschrock
*12817STim.Haley@Sun.COMstruct load_time_arg {
*12817STim.Haley@Sun.COM	uint64_t lt_guid;
*12817STim.Haley@Sun.COM	er_timeval_t *lt_time;
*12817STim.Haley@Sun.COM	boolean_t lt_found;
*12817STim.Haley@Sun.COM};
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COMstatic int
*12817STim.Haley@Sun.COMzpool_find_load_time(zpool_handle_t *zhp, void *arg)
*12817STim.Haley@Sun.COM{
*12817STim.Haley@Sun.COM	struct load_time_arg *lta = arg;
*12817STim.Haley@Sun.COM	uint64_t pool_guid;
*12817STim.Haley@Sun.COM	uint64_t *tod;
*12817STim.Haley@Sun.COM	nvlist_t *config;
*12817STim.Haley@Sun.COM	uint_t nelem;
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	if (lta->lt_found)
*12817STim.Haley@Sun.COM		return (0);
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	pool_guid = zpool_get_prop_int(zhp, ZPOOL_PROP_GUID, NULL);
*12817STim.Haley@Sun.COM	if (pool_guid != lta->lt_guid)
*12817STim.Haley@Sun.COM		return (0);
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	if ((config = zpool_get_config(zhp, NULL)) == NULL) {
*12817STim.Haley@Sun.COM		zpool_close(zhp);
*12817STim.Haley@Sun.COM		return (-1);
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	if (nvlist_lookup_uint64_array(config, ZPOOL_CONFIG_LOADED_TIME,
*12817STim.Haley@Sun.COM	    &tod, &nelem) == 0 && nelem == 2) {
*12817STim.Haley@Sun.COM		lta->lt_found = B_TRUE;
*12817STim.Haley@Sun.COM		lta->lt_time->ertv_sec = tod[0];
*12817STim.Haley@Sun.COM		lta->lt_time->ertv_nsec = tod[1];
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	return (0);
*12817STim.Haley@Sun.COM}
*12817STim.Haley@Sun.COM
4451Seschrockstatic void
4451Seschrockzfs_purge_cases(fmd_hdl_t *hdl)
4451Seschrock{
4451Seschrock	zfs_case_t *zcp;
4451Seschrock	uu_list_walk_t *walk;
4451Seschrock	libzfs_handle_t *zhdl = fmd_hdl_getspecific(hdl);
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * There is no way to open a pool by GUID, or lookup a vdev by GUID.  No
4451Seschrock	 * matter what we do, we're going to have to stomach a O(vdevs * cases)
4451Seschrock	 * algorithm.  In reality, both quantities are likely so small that
4451Seschrock	 * neither will matter. Given that iterating over pools is more
4451Seschrock	 * expensive than iterating over the in-memory case list, we opt for a
4451Seschrock	 * 'present' flag in each case that starts off cleared.  We then iterate
4451Seschrock	 * over all pools, marking those that are still present, and removing
4451Seschrock	 * those that aren't found.
4451Seschrock	 *
4451Seschrock	 * Note that we could also construct an FMRI and rely on
4451Seschrock	 * fmd_nvl_fmri_present(), but this would end up doing the same search.
4451Seschrock	 */
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * Mark the cases an not present.
4451Seschrock	 */
4451Seschrock	for (zcp = uu_list_first(zfs_cases); zcp != NULL;
4451Seschrock	    zcp = uu_list_next(zfs_cases, zcp))
4451Seschrock		zcp->zc_present = B_FALSE;
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * Iterate over all pools and mark the pools and vdevs found.  If this
4451Seschrock	 * fails (most probably because we're out of memory), then don't close
4451Seschrock	 * any of the cases and we cannot be sure they are accurate.
4451Seschrock	 */
4451Seschrock	if (zpool_iter(zhdl, zfs_mark_pool, NULL) != 0)
4451Seschrock		return;
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * Remove those cases which were not found.
4451Seschrock	 */
4451Seschrock	walk = uu_list_walk_start(zfs_cases, UU_WALK_ROBUST);
4451Seschrock	while ((zcp = uu_list_walk_next(walk)) != NULL) {
4451Seschrock		if (!zcp->zc_present)
4451Seschrock			fmd_case_close(hdl, zcp->zc_case);
4451Seschrock	}
4451Seschrock	uu_list_walk_end(walk);
4451Seschrock}
4451Seschrock
4451Seschrock/*
4451Seschrock * Construct the name of a serd engine given the pool/vdev GUID and type (io or
4451Seschrock * checksum).
4451Seschrock */
4451Seschrockstatic void
4451Seschrockzfs_serd_name(char *buf, uint64_t pool_guid, uint64_t vdev_guid,
4451Seschrock    const char *type)
4451Seschrock{
4451Seschrock	(void) snprintf(buf, MAX_SERDLEN, "zfs_%llx_%llx_%s", pool_guid,
4451Seschrock	    vdev_guid, type);
4451Seschrock}
4451Seschrock
4451Seschrock/*
4451Seschrock * Solve a given ZFS case.  This first checks to make sure the diagnosis is
4451Seschrock * still valid, as well as cleaning up any pending timer associated with the
4451Seschrock * case.
4451Seschrock */
4451Seschrockstatic void
4451Seschrockzfs_case_solve(fmd_hdl_t *hdl, zfs_case_t *zcp, const char *faultname,
4451Seschrock    boolean_t checkunusable)
4451Seschrock{
10817SEric.Schrock@Sun.COM	libzfs_handle_t *zhdl = fmd_hdl_getspecific(hdl);
4451Seschrock	nvlist_t *detector, *fault;
4451Seschrock	boolean_t serialize;
10817SEric.Schrock@Sun.COM	nvlist_t *fmri, *fru;
10817SEric.Schrock@Sun.COM	topo_hdl_t *thp;
10817SEric.Schrock@Sun.COM	int err;
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * Construct the detector from the case data.  The detector is in the
4451Seschrock	 * ZFS scheme, and is either the pool or the vdev, depending on whether
4451Seschrock	 * this is a vdev or pool fault.
4451Seschrock	 */
10817SEric.Schrock@Sun.COM	detector = fmd_nvl_alloc(hdl, FMD_SLEEP);
4451Seschrock
10817SEric.Schrock@Sun.COM	(void) nvlist_add_uint8(detector, FM_VERSION, ZFS_SCHEME_VERSION0);
10817SEric.Schrock@Sun.COM	(void) nvlist_add_string(detector, FM_FMRI_SCHEME, FM_FMRI_SCHEME_ZFS);
10817SEric.Schrock@Sun.COM	(void) nvlist_add_uint64(detector, FM_FMRI_ZFS_POOL,
10817SEric.Schrock@Sun.COM	    zcp->zc_data.zc_pool_guid);
10817SEric.Schrock@Sun.COM	if (zcp->zc_data.zc_vdev_guid != 0) {
10817SEric.Schrock@Sun.COM		(void) nvlist_add_uint64(detector, FM_FMRI_ZFS_VDEV,
10817SEric.Schrock@Sun.COM		    zcp->zc_data.zc_vdev_guid);
4451Seschrock	}
4451Seschrock
4451Seschrock	/*
4451Seschrock	 * We also want to make sure that the detector (pool or vdev) properly
4451Seschrock	 * reflects the diagnosed state, when the fault corresponds to internal
4451Seschrock	 * ZFS state (i.e. not checksum or I/O error-induced).  Otherwise, a
4451Seschrock	 * device which was unavailable early in boot (because the driver/file
4451Seschrock	 * wasn't available) and is now healthy will be mis-diagnosed.
4451Seschrock	 */
4451Seschrock	if (!fmd_nvl_fmri_present(hdl, detector) ||
4451Seschrock	    (checkunusable && !fmd_nvl_fmri_unusable(hdl, detector))) {
4451Seschrock		fmd_case_close(hdl, zcp->zc_case);
4451Seschrock		nvlist_free(detector);
4451Seschrock		return;
4451Seschrock	}
4451Seschrock
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM	fru = NULL;
10817SEric.Schrock@Sun.COM	if (zcp->zc_fru != NULL &&
10817SEric.Schrock@Sun.COM	    (thp = fmd_hdl_topo_hold(hdl, TOPO_VERSION)) != NULL) {
10817SEric.Schrock@Sun.COM		/*
10817SEric.Schrock@Sun.COM		 * If the vdev had an associated FRU, then get the FRU nvlist
10817SEric.Schrock@Sun.COM		 * from the topo handle and use that in the suspect list.  We
10817SEric.Schrock@Sun.COM		 * explicitly lookup the FRU because the fmri reported from the
10817SEric.Schrock@Sun.COM		 * kernel may not have up to date details about the disk itself
10817SEric.Schrock@Sun.COM		 * (serial, part, etc).
10817SEric.Schrock@Sun.COM		 */
10817SEric.Schrock@Sun.COM		if (topo_fmri_str2nvl(thp, zcp->zc_fru, &fmri, &err) == 0) {
10817SEric.Schrock@Sun.COM			/*
10817SEric.Schrock@Sun.COM			 * If the disk is part of the system chassis, but the
10817SEric.Schrock@Sun.COM			 * FRU indicates a different chassis ID than our
10817SEric.Schrock@Sun.COM			 * current system, then ignore the error.  This
10817SEric.Schrock@Sun.COM			 * indicates that the device was part of another
10817SEric.Schrock@Sun.COM			 * cluster head, and for obvious reasons cannot be
10817SEric.Schrock@Sun.COM			 * imported on this system.
10817SEric.Schrock@Sun.COM			 */
10817SEric.Schrock@Sun.COM			if (libzfs_fru_notself(zhdl, zcp->zc_fru)) {
10817SEric.Schrock@Sun.COM				fmd_case_close(hdl, zcp->zc_case);
10817SEric.Schrock@Sun.COM				nvlist_free(fmri);
10817SEric.Schrock@Sun.COM				fmd_hdl_topo_rele(hdl, thp);
10817SEric.Schrock@Sun.COM				nvlist_free(detector);
10817SEric.Schrock@Sun.COM				return;
10817SEric.Schrock@Sun.COM			}
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM			/*
10817SEric.Schrock@Sun.COM			 * If the device is no longer present on the system, or
10817SEric.Schrock@Sun.COM			 * topo_fmri_fru() fails for other reasons, then fall
10817SEric.Schrock@Sun.COM			 * back to the fmri specified in the vdev.
10817SEric.Schrock@Sun.COM			 */
10817SEric.Schrock@Sun.COM			if (topo_fmri_fru(thp, fmri, &fru, &err) != 0)
10817SEric.Schrock@Sun.COM				fru = fmd_nvl_dup(hdl, fmri, FMD_SLEEP);
10817SEric.Schrock@Sun.COM			nvlist_free(fmri);
10817SEric.Schrock@Sun.COM		}
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM		fmd_hdl_topo_rele(hdl, thp);
10817SEric.Schrock@Sun.COM	}
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM	fault = fmd_nvl_create_fault(hdl, faultname, 100, detector,
10817SEric.Schrock@Sun.COM	    fru, detector);
4451Seschrock	fmd_case_add_suspect(hdl, zcp->zc_case, fault);
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM	nvlist_free(fru);
10817SEric.Schrock@Sun.COM
4451Seschrock	fmd_case_solve(hdl, zcp->zc_case);
4451Seschrock
4451Seschrock	serialize = B_FALSE;
6976Seschrock	if (zcp->zc_data.zc_has_remove_timer) {
6976Seschrock		fmd_timer_remove(hdl, zcp->zc_remove_timer);
6976Seschrock		zcp->zc_data.zc_has_remove_timer = 0;
4451Seschrock		serialize = B_TRUE;
4451Seschrock	}
4451Seschrock	if (serialize)
4451Seschrock		zfs_case_serialize(hdl, zcp);
4451Seschrock
4451Seschrock	nvlist_free(detector);
4451Seschrock}
4451Seschrock
4451Seschrock/*
*12817STim.Haley@Sun.COM * This #define and function access a private interface of the FMA
*12817STim.Haley@Sun.COM * framework.  Ereports include a time-of-day upper bound.
*12817STim.Haley@Sun.COM * We want to look at that so we can compare it to when pools get
*12817STim.Haley@Sun.COM * loaded.
*12817STim.Haley@Sun.COM */
*12817STim.Haley@Sun.COM#define	FMD_EVN_TOD	"__tod"
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COMstatic boolean_t
*12817STim.Haley@Sun.COMtimeval_earlier(er_timeval_t *a, er_timeval_t *b)
*12817STim.Haley@Sun.COM{
*12817STim.Haley@Sun.COM	return (a->ertv_sec < b->ertv_sec ||
*12817STim.Haley@Sun.COM	    (a->ertv_sec == b->ertv_sec && a->ertv_nsec < b->ertv_nsec));
*12817STim.Haley@Sun.COM}
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM/*ARGSUSED*/
*12817STim.Haley@Sun.COMstatic void
*12817STim.Haley@Sun.COMzfs_ereport_when(fmd_hdl_t *hdl, nvlist_t *nvl, er_timeval_t *when)
*12817STim.Haley@Sun.COM{
*12817STim.Haley@Sun.COM	uint64_t *tod;
*12817STim.Haley@Sun.COM	uint_t	nelem;
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	if (nvlist_lookup_uint64_array(nvl, FMD_EVN_TOD, &tod, &nelem) == 0 &&
*12817STim.Haley@Sun.COM	    nelem == 2) {
*12817STim.Haley@Sun.COM		when->ertv_sec = tod[0];
*12817STim.Haley@Sun.COM		when->ertv_nsec = tod[1];
*12817STim.Haley@Sun.COM	} else {
*12817STim.Haley@Sun.COM		when->ertv_sec = when->ertv_nsec = UINT64_MAX;
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM}
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM/*
4451Seschrock * Main fmd entry point.
4451Seschrock */
1544Seschrock/*ARGSUSED*/
1544Seschrockstatic void
4451Seschrockzfs_fm_recv(fmd_hdl_t *hdl, fmd_event_t *ep, nvlist_t *nvl, const char *class)
1544Seschrock{
6643Seschrock	zfs_case_t *zcp, *dcp;
1544Seschrock	int32_t pool_state;
1544Seschrock	uint64_t ena, pool_guid, vdev_guid;
*12817STim.Haley@Sun.COM	er_timeval_t pool_load;
*12817STim.Haley@Sun.COM	er_timeval_t er_when;
1544Seschrock	nvlist_t *detector;
*12817STim.Haley@Sun.COM	boolean_t pool_found = B_FALSE;
1544Seschrock	boolean_t isresource;
10817SEric.Schrock@Sun.COM	char *fru, *type;
10817SEric.Schrock@Sun.COM
10817SEric.Schrock@Sun.COM	/*
10817SEric.Schrock@Sun.COM	 * We subscribe to notifications for vdev or pool removal.  In these
10817SEric.Schrock@Sun.COM	 * cases, there may be cases that no longer apply.  Purge any cases
10817SEric.Schrock@Sun.COM	 * that no longer apply.
10817SEric.Schrock@Sun.COM	 */
10817SEric.Schrock@Sun.COM	if (fmd_nvl_class_match(hdl, nvl, "resource.sysevent.EC_zfs.*")) {
10817SEric.Schrock@Sun.COM		zfs_purge_cases(hdl);
*12817STim.Haley@Sun.COM		zfs_stats.resource_drops.fmds_value.ui64++;
10817SEric.Schrock@Sun.COM		return;
10817SEric.Schrock@Sun.COM	}
1544Seschrock
1544Seschrock	isresource = fmd_nvl_class_match(hdl, nvl, "resource.fs.zfs.*");
1544Seschrock
1544Seschrock	if (isresource) {
1544Seschrock		/*
4451Seschrock		 * For resources, we don't have a normal payload.
1544Seschrock		 */
1544Seschrock		if (nvlist_lookup_uint64(nvl, FM_EREPORT_PAYLOAD_ZFS_VDEV_GUID,
1544Seschrock		    &vdev_guid) != 0)
1544Seschrock			pool_state = SPA_LOAD_OPEN;
1544Seschrock		else
1544Seschrock			pool_state = SPA_LOAD_NONE;
1544Seschrock		detector = NULL;
1544Seschrock	} else {
1544Seschrock		(void) nvlist_lookup_nvlist(nvl,
1544Seschrock		    FM_EREPORT_DETECTOR, &detector);
1544Seschrock		(void) nvlist_lookup_int32(nvl,
1544Seschrock		    FM_EREPORT_PAYLOAD_ZFS_POOL_CONTEXT, &pool_state);
1544Seschrock	}
1544Seschrock
1544Seschrock	/*
1544Seschrock	 * We also ignore all ereports generated during an import of a pool,
1544Seschrock	 * since the only possible fault (.pool) would result in import failure,
1544Seschrock	 * and hence no persistent fault.  Some day we may want to do something
1544Seschrock	 * with these ereports, so we continue generating them internally.
1544Seschrock	 */
*12817STim.Haley@Sun.COM	if (pool_state == SPA_LOAD_IMPORT) {
*12817STim.Haley@Sun.COM		zfs_stats.import_drops.fmds_value.ui64++;
1544Seschrock		return;
*12817STim.Haley@Sun.COM	}
1544Seschrock
1544Seschrock	/*
6643Seschrock	 * Device I/O errors are ignored during pool open.
6643Seschrock	 */
6643Seschrock	if (pool_state == SPA_LOAD_OPEN &&
7041Seschrock	    (fmd_nvl_class_match(hdl, nvl,
7041Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_CHECKSUM)) ||
7041Seschrock	    fmd_nvl_class_match(hdl, nvl,
7041Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_IO)) ||
7041Seschrock	    fmd_nvl_class_match(hdl, nvl,
*12817STim.Haley@Sun.COM	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_PROBE_FAILURE)))) {
*12817STim.Haley@Sun.COM		zfs_stats.dev_drops.fmds_value.ui64++;
6643Seschrock		return;
*12817STim.Haley@Sun.COM	}
6643Seschrock
6643Seschrock	/*
7041Seschrock	 * We ignore ereports for anything except disks and files.
7041Seschrock	 */
7041Seschrock	if (nvlist_lookup_string(nvl, FM_EREPORT_PAYLOAD_ZFS_VDEV_TYPE,
7041Seschrock	    &type) == 0) {
7041Seschrock		if (strcmp(type, VDEV_TYPE_DISK) != 0 &&
*12817STim.Haley@Sun.COM		    strcmp(type, VDEV_TYPE_FILE) != 0) {
*12817STim.Haley@Sun.COM			zfs_stats.vdev_drops.fmds_value.ui64++;
7041Seschrock			return;
*12817STim.Haley@Sun.COM		}
7041Seschrock	}
7041Seschrock
7041Seschrock	/*
10672SEric.Schrock@Sun.COM	 * Determine if this ereport corresponds to an open case.  Previous
10672SEric.Schrock@Sun.COM	 * incarnations of this DE used the ENA to chain events together as
10672SEric.Schrock@Sun.COM	 * part of the same case.  The problem with this is that we rely on
10672SEric.Schrock@Sun.COM	 * global uniqueness of cases based on (pool_guid, vdev_guid) pair when
10672SEric.Schrock@Sun.COM	 * generating SERD engines.  Instead, we have a case for each vdev or
10672SEric.Schrock@Sun.COM	 * pool, regardless of the ENA.
1544Seschrock	 */
4451Seschrock	(void) nvlist_lookup_uint64(nvl,
4451Seschrock	    FM_EREPORT_PAYLOAD_ZFS_POOL_GUID, &pool_guid);
4451Seschrock	if (nvlist_lookup_uint64(nvl,
4451Seschrock	    FM_EREPORT_PAYLOAD_ZFS_VDEV_GUID, &vdev_guid) != 0)
4451Seschrock		vdev_guid = 0;
4451Seschrock	if (nvlist_lookup_uint64(nvl, FM_EREPORT_ENA, &ena) != 0)
1588Seschrock		ena = 0;
1544Seschrock
*12817STim.Haley@Sun.COM	zfs_ereport_when(hdl, nvl, &er_when);
*12817STim.Haley@Sun.COM
1544Seschrock	for (zcp = uu_list_first(zfs_cases); zcp != NULL;
1544Seschrock	    zcp = uu_list_next(zfs_cases, zcp)) {
*12817STim.Haley@Sun.COM		if (zcp->zc_data.zc_pool_guid == pool_guid) {
*12817STim.Haley@Sun.COM			pool_found = B_TRUE;
*12817STim.Haley@Sun.COM			pool_load = zcp->zc_when;
*12817STim.Haley@Sun.COM		}
*12817STim.Haley@Sun.COM		if (zcp->zc_data.zc_vdev_guid == vdev_guid)
1544Seschrock			break;
1544Seschrock	}
1544Seschrock
*12817STim.Haley@Sun.COM	if (pool_found) {
*12817STim.Haley@Sun.COM		fmd_hdl_debug(hdl, "pool %llx, "
*12817STim.Haley@Sun.COM		    "ereport time %lld.%lld, pool load time = %lld.%lld\n",
*12817STim.Haley@Sun.COM		    pool_guid, er_when.ertv_sec, er_when.ertv_nsec,
*12817STim.Haley@Sun.COM		    pool_load.ertv_sec, pool_load.ertv_nsec);
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	/*
*12817STim.Haley@Sun.COM	 * Avoid falsely accusing a pool of being faulty.  Do so by
*12817STim.Haley@Sun.COM	 * not replaying ereports that were generated prior to the
*12817STim.Haley@Sun.COM	 * current import.  If the failure that generated them was
*12817STim.Haley@Sun.COM	 * transient because the device was actually removed but we
*12817STim.Haley@Sun.COM	 * didn't receive the normal asynchronous notification, we
*12817STim.Haley@Sun.COM	 * don't want to mark it as faulted and potentially panic. If
*12817STim.Haley@Sun.COM	 * there is still a problem we'd expect not to be able to
*12817STim.Haley@Sun.COM	 * import the pool, or that new ereports will be generated
*12817STim.Haley@Sun.COM	 * once the pool is used.
*12817STim.Haley@Sun.COM	 */
*12817STim.Haley@Sun.COM	if (pool_found && timeval_earlier(&er_when, &pool_load)) {
*12817STim.Haley@Sun.COM		zfs_stats.old_drops.fmds_value.ui64++;
*12817STim.Haley@Sun.COM		return;
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM	if (!pool_found) {
*12817STim.Haley@Sun.COM		/*
*12817STim.Haley@Sun.COM		 * Haven't yet seen this pool, but same situation
*12817STim.Haley@Sun.COM		 * may apply.
*12817STim.Haley@Sun.COM		 */
*12817STim.Haley@Sun.COM		libzfs_handle_t *zhdl = fmd_hdl_getspecific(hdl);
*12817STim.Haley@Sun.COM		struct load_time_arg la;
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM		la.lt_guid = pool_guid;
*12817STim.Haley@Sun.COM		la.lt_time = &pool_load;
*12817STim.Haley@Sun.COM		la.lt_found = B_FALSE;
*12817STim.Haley@Sun.COM
*12817STim.Haley@Sun.COM		if (zhdl != NULL &&
*12817STim.Haley@Sun.COM		    zpool_iter(zhdl, zpool_find_load_time, &la) == 0 &&
*12817STim.Haley@Sun.COM		    la.lt_found == B_TRUE) {
*12817STim.Haley@Sun.COM			pool_found = B_TRUE;
*12817STim.Haley@Sun.COM			fmd_hdl_debug(hdl, "pool %llx, "
*12817STim.Haley@Sun.COM			    "ereport time %lld.%lld, "
*12817STim.Haley@Sun.COM			    "pool load time = %lld.%lld\n",
*12817STim.Haley@Sun.COM			    pool_guid, er_when.ertv_sec, er_when.ertv_nsec,
*12817STim.Haley@Sun.COM			    pool_load.ertv_sec, pool_load.ertv_nsec);
*12817STim.Haley@Sun.COM			if (timeval_earlier(&er_when, &pool_load)) {
*12817STim.Haley@Sun.COM				zfs_stats.old_drops.fmds_value.ui64++;
*12817STim.Haley@Sun.COM				return;
*12817STim.Haley@Sun.COM			}
*12817STim.Haley@Sun.COM		}
*12817STim.Haley@Sun.COM	}
*12817STim.Haley@Sun.COM
1544Seschrock	if (zcp == NULL) {
1544Seschrock		fmd_case_t *cs;
4451Seschrock		zfs_case_data_t data = { 0 };
1544Seschrock
1544Seschrock		/*
1544Seschrock		 * If this is one of our 'fake' resource ereports, and there is
1544Seschrock		 * no case open, simply discard it.
1544Seschrock		 */
*12817STim.Haley@Sun.COM		if (isresource) {
*12817STim.Haley@Sun.COM			zfs_stats.resource_drops.fmds_value.ui64++;
1544Seschrock			return;
*12817STim.Haley@Sun.COM		}
1544Seschrock
1544Seschrock		/*
1544Seschrock		 * Open a new case.
1544Seschrock		 */
1544Seschrock		cs = fmd_case_open(hdl, NULL);
1544Seschrock
1544Seschrock		/*
1544Seschrock		 * Initialize the case buffer.  To commonize code, we actually
1544Seschrock		 * create the buffer with existing data, and then call
1544Seschrock		 * zfs_case_unserialize() to instantiate the in-core structure.
1544Seschrock		 */
1544Seschrock		fmd_buf_create(hdl, cs, CASE_DATA,
1544Seschrock		    sizeof (zfs_case_data_t));
1544Seschrock
4451Seschrock		data.zc_version = CASE_DATA_VERSION_SERD;
1544Seschrock		data.zc_ena = ena;
1544Seschrock		data.zc_pool_guid = pool_guid;
1544Seschrock		data.zc_vdev_guid = vdev_guid;
1544Seschrock		data.zc_pool_state = (int)pool_state;
1544Seschrock
1544Seschrock		fmd_buf_write(hdl, cs, CASE_DATA, &data, sizeof (data));
1544Seschrock
1544Seschrock		zcp = zfs_case_unserialize(hdl, cs);
1544Seschrock		assert(zcp != NULL);
*12817STim.Haley@Sun.COM		if (pool_found)
*12817STim.Haley@Sun.COM			zcp->zc_when = pool_load;
1544Seschrock	}
1544Seschrock
*12817STim.Haley@Sun.COM
10817SEric.Schrock@Sun.COM	/*
10817SEric.Schrock@Sun.COM	 * If this is an ereport for a case with an associated vdev FRU, make
10817SEric.Schrock@Sun.COM	 * sure it is accurate and up to date.
10817SEric.Schrock@Sun.COM	 */
10817SEric.Schrock@Sun.COM	if (nvlist_lookup_string(nvl, FM_EREPORT_PAYLOAD_ZFS_VDEV_FRU,
10817SEric.Schrock@Sun.COM	    &fru) == 0) {
10817SEric.Schrock@Sun.COM		topo_hdl_t *thp = fmd_hdl_topo_hold(hdl, TOPO_VERSION);
10817SEric.Schrock@Sun.COM		if (zcp->zc_fru == NULL ||
10817SEric.Schrock@Sun.COM		    !topo_fmri_strcmp(thp, zcp->zc_fru, fru)) {
10817SEric.Schrock@Sun.COM			if (zcp->zc_fru != NULL) {
10817SEric.Schrock@Sun.COM				fmd_hdl_strfree(hdl, zcp->zc_fru);
10817SEric.Schrock@Sun.COM				fmd_buf_destroy(hdl, zcp->zc_case, CASE_FRU);
10817SEric.Schrock@Sun.COM			}
10817SEric.Schrock@Sun.COM			zcp->zc_fru = fmd_hdl_strdup(hdl, fru, FMD_SLEEP);
10817SEric.Schrock@Sun.COM			zfs_case_serialize(hdl, zcp);
10817SEric.Schrock@Sun.COM		}
10817SEric.Schrock@Sun.COM		fmd_hdl_topo_rele(hdl, thp);
10817SEric.Schrock@Sun.COM	}
10817SEric.Schrock@Sun.COM
1544Seschrock	if (isresource) {
6643Seschrock		if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock		    ZFS_MAKE_RSRC(FM_RESOURCE_AUTOREPLACE))) {
4451Seschrock			/*
4451Seschrock			 * The 'resource.fs.zfs.autoreplace' event indicates
4451Seschrock			 * that the pool was loaded with the 'autoreplace'
4451Seschrock			 * property set.  In this case, any pending device
4451Seschrock			 * failures should be ignored, as the asynchronous
4451Seschrock			 * autoreplace handling will take care of them.
4451Seschrock			 */
4451Seschrock			fmd_case_close(hdl, zcp->zc_case);
6643Seschrock		} else if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock		    ZFS_MAKE_RSRC(FM_RESOURCE_REMOVED))) {
4451Seschrock			/*
4451Seschrock			 * The 'resource.fs.zfs.removed' event indicates that
4451Seschrock			 * device removal was detected, and the device was
4451Seschrock			 * closed asynchronously.  If this is the case, we
4451Seschrock			 * assume that any recent I/O errors were due to the
4451Seschrock			 * device removal, not any fault of the device itself.
4451Seschrock			 * We reset the SERD engine, and cancel any pending
4451Seschrock			 * timers.
4451Seschrock			 */
6976Seschrock			if (zcp->zc_data.zc_has_remove_timer) {
6976Seschrock				fmd_timer_remove(hdl, zcp->zc_remove_timer);
6976Seschrock				zcp->zc_data.zc_has_remove_timer = 0;
4451Seschrock				zfs_case_serialize(hdl, zcp);
4451Seschrock			}
4451Seschrock			if (zcp->zc_data.zc_serd_io[0] != '\0')
4451Seschrock				fmd_serd_reset(hdl,
4451Seschrock				    zcp->zc_data.zc_serd_io);
4451Seschrock			if (zcp->zc_data.zc_serd_checksum[0] != '\0')
4451Seschrock				fmd_serd_reset(hdl,
4451Seschrock				    zcp->zc_data.zc_serd_checksum);
4451Seschrock		}
*12817STim.Haley@Sun.COM		zfs_stats.resource_drops.fmds_value.ui64++;
1544Seschrock		return;
1544Seschrock	}
1544Seschrock
1544Seschrock	/*
1544Seschrock	 * Associate the ereport with this case.
1544Seschrock	 */
1544Seschrock	fmd_case_add_ereport(hdl, zcp->zc_case, ep);
1544Seschrock
1544Seschrock	/*
1544Seschrock	 * Don't do anything else if this case is already solved.
1544Seschrock	 */
1544Seschrock	if (fmd_case_solved(hdl, zcp->zc_case))
1544Seschrock		return;
1544Seschrock
1544Seschrock	/*
1544Seschrock	 * Determine if we should solve the case and generate a fault.  We solve
1544Seschrock	 * a case if:
1544Seschrock	 *
1544Seschrock	 * 	a. A pool failed to open (ereport.fs.zfs.pool)
1544Seschrock	 * 	b. A device failed to open (ereport.fs.zfs.pool) while a pool
1544Seschrock	 *	   was up and running.
1544Seschrock	 *
1544Seschrock	 * We may see a series of ereports associated with a pool open, all
1544Seschrock	 * chained together by the same ENA.  If the pool open succeeds, then
1544Seschrock	 * we'll see no further ereports.  To detect when a pool open has
1544Seschrock	 * succeeded, we associate a timer with the event.  When it expires, we
1544Seschrock	 * close the case.
1544Seschrock	 */
6976Seschrock	if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_POOL))) {
1544Seschrock		/*
6643Seschrock		 * Pool level fault.  Before solving the case, go through and
6643Seschrock		 * close any open device cases that may be pending.
1544Seschrock		 */
6643Seschrock		for (dcp = uu_list_first(zfs_cases); dcp != NULL;
6643Seschrock		    dcp = uu_list_next(zfs_cases, dcp)) {
6643Seschrock			if (dcp->zc_data.zc_pool_guid ==
6643Seschrock			    zcp->zc_data.zc_pool_guid &&
6643Seschrock			    dcp->zc_data.zc_vdev_guid != 0)
6643Seschrock				fmd_case_close(hdl, dcp->zc_case);
6643Seschrock		}
6643Seschrock
4451Seschrock		zfs_case_solve(hdl, zcp, "fault.fs.zfs.pool", B_TRUE);
7294Sperrin	} else if (fmd_nvl_class_match(hdl, nvl,
7294Sperrin	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_LOG_REPLAY))) {
7294Sperrin		/*
7294Sperrin		 * Pool level fault for reading the intent logs.
7294Sperrin		 */
7294Sperrin		zfs_case_solve(hdl, zcp, "fault.fs.zfs.log_replay", B_TRUE);
6643Seschrock	} else if (fmd_nvl_class_match(hdl, nvl, "ereport.fs.zfs.vdev.*")) {
1544Seschrock		/*
10672SEric.Schrock@Sun.COM		 * Device fault.
1544Seschrock		 */
4451Seschrock		zfs_case_solve(hdl, zcp, "fault.fs.zfs.device",  B_TRUE);
6976Seschrock	} else if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_IO)) ||
6976Seschrock	    fmd_nvl_class_match(hdl, nvl,
6976Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_CHECKSUM)) ||
6976Seschrock	    fmd_nvl_class_match(hdl, nvl,
6976Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_IO_FAILURE)) ||
6976Seschrock	    fmd_nvl_class_match(hdl, nvl,
6976Seschrock	    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_PROBE_FAILURE))) {
6523Sek110237		char *failmode = NULL;
7041Seschrock		boolean_t checkremove = B_FALSE;
6523Sek110237
1544Seschrock		/*
4451Seschrock		 * If this is a checksum or I/O error, then toss it into the
4451Seschrock		 * appropriate SERD engine and check to see if it has fired.
4451Seschrock		 * Ideally, we want to do something more sophisticated,
4451Seschrock		 * (persistent errors for a single data block, etc).  For now,
4451Seschrock		 * a single SERD engine is sufficient.
1544Seschrock		 */
6976Seschrock		if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock		    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_IO))) {
4451Seschrock			if (zcp->zc_data.zc_serd_io[0] == '\0') {
4451Seschrock				zfs_serd_name(zcp->zc_data.zc_serd_io,
4451Seschrock				    pool_guid, vdev_guid, "io");
4451Seschrock				fmd_serd_create(hdl, zcp->zc_data.zc_serd_io,
4451Seschrock				    fmd_prop_get_int32(hdl, "io_N"),
4451Seschrock				    fmd_prop_get_int64(hdl, "io_T"));
4451Seschrock				zfs_case_serialize(hdl, zcp);
4451Seschrock			}
6976Seschrock			if (fmd_serd_record(hdl, zcp->zc_data.zc_serd_io, ep))
6976Seschrock				checkremove = B_TRUE;
4451Seschrock		} else if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock		    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_CHECKSUM))) {
4451Seschrock			if (zcp->zc_data.zc_serd_checksum[0] == '\0') {
4451Seschrock				zfs_serd_name(zcp->zc_data.zc_serd_checksum,
4451Seschrock				    pool_guid, vdev_guid, "checksum");
4451Seschrock				fmd_serd_create(hdl,
4451Seschrock				    zcp->zc_data.zc_serd_checksum,
4451Seschrock				    fmd_prop_get_int32(hdl, "checksum_N"),
4451Seschrock				    fmd_prop_get_int64(hdl, "checksum_T"));
4451Seschrock				zfs_case_serialize(hdl, zcp);
4451Seschrock			}
6976Seschrock			if (fmd_serd_record(hdl,
6976Seschrock			    zcp->zc_data.zc_serd_checksum, ep)) {
6976Seschrock				zfs_case_solve(hdl, zcp,
6976Seschrock				    "fault.fs.zfs.vdev.checksum", B_FALSE);
6976Seschrock			}
6523Sek110237		} else if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock		    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_IO_FAILURE)) &&
6976Seschrock		    (nvlist_lookup_string(nvl,
6523Sek110237		    FM_EREPORT_PAYLOAD_ZFS_POOL_FAILMODE, &failmode) == 0) &&
6523Sek110237		    failmode != NULL) {
6523Sek110237			if (strncmp(failmode, FM_EREPORT_FAILMODE_CONTINUE,
6523Sek110237			    strlen(FM_EREPORT_FAILMODE_CONTINUE)) == 0) {
6523Sek110237				zfs_case_solve(hdl, zcp,
6523Sek110237				    "fault.fs.zfs.io_failure_continue",
6523Sek110237				    B_FALSE);
6523Sek110237			} else if (strncmp(failmode, FM_EREPORT_FAILMODE_WAIT,
6523Sek110237			    strlen(FM_EREPORT_FAILMODE_WAIT)) == 0) {
6523Sek110237				zfs_case_solve(hdl, zcp,
6523Sek110237				    "fault.fs.zfs.io_failure_wait", B_FALSE);
6523Sek110237			}
6976Seschrock		} else if (fmd_nvl_class_match(hdl, nvl,
6976Seschrock		    ZFS_MAKE_EREPORT(FM_EREPORT_ZFS_PROBE_FAILURE))) {
6976Seschrock			checkremove = B_TRUE;
4451Seschrock		}
4451Seschrock
4451Seschrock		/*
4451Seschrock		 * Because I/O errors may be due to device removal, we postpone
4451Seschrock		 * any diagnosis until we're sure that we aren't about to
4451Seschrock		 * receive a 'resource.fs.zfs.removed' event.
4451Seschrock		 */
6976Seschrock		if (checkremove) {
6976Seschrock			if (zcp->zc_data.zc_has_remove_timer)
6976Seschrock				fmd_timer_remove(hdl, zcp->zc_remove_timer);
6976Seschrock			zcp->zc_remove_timer = fmd_timer_install(hdl, zcp, NULL,
6976Seschrock			    zfs_remove_timeout);
6976Seschrock			if (!zcp->zc_data.zc_has_remove_timer) {
6976Seschrock				zcp->zc_data.zc_has_remove_timer = 1;
4451Seschrock				zfs_case_serialize(hdl, zcp);
4451Seschrock			}
1544Seschrock		}
1544Seschrock	}
1544Seschrock}
1544Seschrock
1544Seschrock/*
6976Seschrock * The timeout is fired when we diagnosed an I/O error, and it was not due to
6976Seschrock * device removal (which would cause the timeout to be cancelled).
1544Seschrock */
1544Seschrock/* ARGSUSED */
1544Seschrockstatic void
4451Seschrockzfs_fm_timeout(fmd_hdl_t *hdl, id_t id, void *data)
1544Seschrock{
1544Seschrock	zfs_case_t *zcp = data;
1544Seschrock
6976Seschrock	if (id == zcp->zc_remove_timer)
6976Seschrock		zfs_case_solve(hdl, zcp, "fault.fs.zfs.vdev.io", B_FALSE);
1544Seschrock}
1544Seschrock
1544Seschrockstatic void
4451Seschrockzfs_fm_close(fmd_hdl_t *hdl, fmd_case_t *cs)
1544Seschrock{
1544Seschrock	zfs_case_t *zcp = fmd_case_getspecific(hdl, cs);
1544Seschrock
4451Seschrock	if (zcp->zc_data.zc_serd_checksum[0] != '\0')
4451Seschrock		fmd_serd_destroy(hdl, zcp->zc_data.zc_serd_checksum);
4451Seschrock	if (zcp->zc_data.zc_serd_io[0] != '\0')
4451Seschrock		fmd_serd_destroy(hdl, zcp->zc_data.zc_serd_io);
6976Seschrock	if (zcp->zc_data.zc_has_remove_timer)
6976Seschrock		fmd_timer_remove(hdl, zcp->zc_remove_timer);
1544Seschrock	uu_list_remove(zfs_cases, zcp);
1544Seschrock	fmd_hdl_free(hdl, zcp, sizeof (zfs_case_t));
1544Seschrock}
1544Seschrock
4451Seschrock/*
4451Seschrock * We use the fmd gc entry point to look for old cases that no longer apply.
4451Seschrock * This allows us to keep our set of case data small in a long running system.
4451Seschrock */
4451Seschrockstatic void
4451Seschrockzfs_fm_gc(fmd_hdl_t *hdl)
4451Seschrock{
4451Seschrock	zfs_purge_cases(hdl);
4451Seschrock}
4451Seschrock
1544Seschrockstatic const fmd_hdl_ops_t fmd_ops = {
4451Seschrock	zfs_fm_recv,	/* fmdo_recv */
4451Seschrock	zfs_fm_timeout,	/* fmdo_timeout */
4451Seschrock	zfs_fm_close,	/* fmdo_close */
1544Seschrock	NULL,		/* fmdo_stats */
4451Seschrock	zfs_fm_gc,	/* fmdo_gc */
1544Seschrock};
1544Seschrock
1544Seschrockstatic const fmd_prop_t fmd_props[] = {
4451Seschrock	{ "checksum_N", FMD_TYPE_UINT32, "10" },
4451Seschrock	{ "checksum_T", FMD_TYPE_TIME, "10min" },
4451Seschrock	{ "io_N", FMD_TYPE_UINT32, "10" },
4451Seschrock	{ "io_T", FMD_TYPE_TIME, "10min" },
10575SEric.Schrock@Sun.COM	{ "remove_timeout", FMD_TYPE_TIME, "15sec" },
1544Seschrock	{ NULL, 0, NULL }
1544Seschrock};
1544Seschrock
1544Seschrockstatic const fmd_hdl_info_t fmd_info = {
1544Seschrock	"ZFS Diagnosis Engine", "1.0", &fmd_ops, fmd_props
1544Seschrock};
1544Seschrock
1544Seschrockvoid
1544Seschrock_fmd_init(fmd_hdl_t *hdl)
1544Seschrock{
1544Seschrock	fmd_case_t *cp;
4451Seschrock	libzfs_handle_t *zhdl;
4451Seschrock
4451Seschrock	if ((zhdl = libzfs_init()) == NULL)
4451Seschrock		return;
1544Seschrock
1544Seschrock	if ((zfs_case_pool = uu_list_pool_create("zfs_case_pool",
1544Seschrock	    sizeof (zfs_case_t), offsetof(zfs_case_t, zc_node),
4451Seschrock	    NULL, 0)) == NULL) {
4451Seschrock		libzfs_fini(zhdl);
1544Seschrock		return;
4451Seschrock	}
1544Seschrock
1544Seschrock	if ((zfs_cases = uu_list_create(zfs_case_pool, NULL, 0)) == NULL) {
1544Seschrock		uu_list_pool_destroy(zfs_case_pool);
4451Seschrock		libzfs_fini(zhdl);
1544Seschrock		return;
1544Seschrock	}
1544Seschrock
1544Seschrock	if (fmd_hdl_register(hdl, FMD_API_VERSION, &fmd_info) != 0) {
1544Seschrock		uu_list_destroy(zfs_cases);
1544Seschrock		uu_list_pool_destroy(zfs_case_pool);
4451Seschrock		libzfs_fini(zhdl);
1544Seschrock		return;
1544Seschrock	}
1544Seschrock
4451Seschrock	fmd_hdl_setspecific(hdl, zhdl);
4451Seschrock
*12817STim.Haley@Sun.COM	(void) fmd_stat_create(hdl, FMD_STAT_NOALLOC, sizeof (zfs_stats) /
*12817STim.Haley@Sun.COM	    sizeof (fmd_stat_t), (fmd_stat_t *)&zfs_stats);
*12817STim.Haley@Sun.COM
1544Seschrock	/*
1544Seschrock	 * Iterate over all active cases and unserialize the associated buffers,
1544Seschrock	 * adding them to our list of open cases.
1544Seschrock	 */
1544Seschrock	for (cp = fmd_case_next(hdl, NULL);
1544Seschrock	    cp != NULL; cp = fmd_case_next(hdl, cp))
1544Seschrock		(void) zfs_case_unserialize(hdl, cp);
1544Seschrock
4451Seschrock	/*
4451Seschrock	 * Clear out any old cases that are no longer valid.
4451Seschrock	 */
4451Seschrock	zfs_purge_cases(hdl);
4451Seschrock
6976Seschrock	zfs_remove_timeout = fmd_prop_get_int64(hdl, "remove_timeout");
1544Seschrock}
1544Seschrock
1544Seschrockvoid
1544Seschrock_fmd_fini(fmd_hdl_t *hdl)
1544Seschrock{
1544Seschrock	zfs_case_t *zcp;
1544Seschrock	uu_list_walk_t *walk;
4451Seschrock	libzfs_handle_t *zhdl;
1544Seschrock
1544Seschrock	/*
1544Seschrock	 * Remove all active cases.
1544Seschrock	 */
1544Seschrock	walk = uu_list_walk_start(zfs_cases, UU_WALK_ROBUST);
1544Seschrock	while ((zcp = uu_list_walk_next(walk)) != NULL) {
1544Seschrock		uu_list_remove(zfs_cases, zcp);
1544Seschrock		fmd_hdl_free(hdl, zcp, sizeof (zfs_case_t));
1544Seschrock	}
1544Seschrock	uu_list_walk_end(walk);
1544Seschrock
1544Seschrock	uu_list_destroy(zfs_cases);
1544Seschrock	uu_list_pool_destroy(zfs_case_pool);
4451Seschrock
4451Seschrock	zhdl = fmd_hdl_getspecific(hdl);
4451Seschrock	libzfs_fini(zhdl);
1544Seschrock}