geom: clean up empty lines in .c and .h files

[FreeBSD/FreeBSD.git] / sys / geom / raid / md_jmicron.c

/*-
 * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
 *
 * Copyright (c) 2010 Alexander Motin <mav@FreeBSD.org>
 * Copyright (c) 2000 - 2008 Søren Schmidt <sos@FreeBSD.org>
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 */

#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");

#include <sys/param.h>
#include <sys/bio.h>
#include <sys/endian.h>
#include <sys/kernel.h>
#include <sys/kobj.h>
#include <sys/limits.h>
#include <sys/lock.h>
#include <sys/malloc.h>
#include <sys/mutex.h>
#include <sys/systm.h>
#include <sys/taskqueue.h>
#include <geom/geom.h>
#include <geom/geom_dbg.h>
#include "geom/raid/g_raid.h"
#include "g_raid_md_if.h"

static MALLOC_DEFINE(M_MD_JMICRON, "md_jmicron_data", "GEOM_RAID JMicron metadata");

#define JMICRON_MAX_DISKS       8
#define JMICRON_MAX_SPARE       2

struct jmicron_raid_conf {
    u_int8_t            signature[2];
#define JMICRON_MAGIC           "JM"

    u_int16_t           version;
#define JMICRON_VERSION         0x0001

    u_int16_t           checksum;
    u_int8_t            filler_1[10];
    u_int32_t           disk_id;
    u_int32_t           offset;
    u_int32_t           disk_sectors_high;
    u_int16_t           disk_sectors_low;
    u_int8_t            filler_2[2];
    u_int8_t            name[16];
    u_int8_t            type;
#define JMICRON_T_RAID0         0
#define JMICRON_T_RAID1         1
#define JMICRON_T_RAID01        2
#define JMICRON_T_CONCAT        3
#define JMICRON_T_RAID5         5

    u_int8_t            stripe_shift;
    u_int16_t           flags;
#define JMICRON_F_READY         0x0001
#define JMICRON_F_BOOTABLE      0x0002
#define JMICRON_F_BADSEC        0x0004
#define JMICRON_F_ACTIVE        0x0010
#define JMICRON_F_UNSYNC        0x0020
#define JMICRON_F_NEWEST        0x0040

    u_int8_t            filler_3[4];
    u_int32_t           spare[JMICRON_MAX_SPARE];
    u_int32_t           disks[JMICRON_MAX_DISKS];
#define JMICRON_DISK_MASK       0xFFFFFFF0
#define JMICRON_SEG_MASK        0x0000000F
    u_int8_t            filler_4[32];
    u_int8_t            filler_5[384];
};

struct g_raid_md_jmicron_perdisk {
        struct jmicron_raid_conf        *pd_meta;
        int                              pd_disk_pos;
        int                              pd_disk_id;
        off_t                            pd_disk_size;
};

struct g_raid_md_jmicron_object {
        struct g_raid_md_object  mdio_base;
        uint32_t                 mdio_config_id;
        struct jmicron_raid_conf        *mdio_meta;
        struct callout           mdio_start_co; /* STARTING state timer. */
        int                      mdio_total_disks;
        int                      mdio_disks_present;
        int                      mdio_started;
        int                      mdio_incomplete;
        struct root_hold_token  *mdio_rootmount; /* Root mount delay token. */
};

static g_raid_md_create_t g_raid_md_create_jmicron;
static g_raid_md_taste_t g_raid_md_taste_jmicron;
static g_raid_md_event_t g_raid_md_event_jmicron;
static g_raid_md_ctl_t g_raid_md_ctl_jmicron;
static g_raid_md_write_t g_raid_md_write_jmicron;
static g_raid_md_fail_disk_t g_raid_md_fail_disk_jmicron;
static g_raid_md_free_disk_t g_raid_md_free_disk_jmicron;
static g_raid_md_free_t g_raid_md_free_jmicron;

static kobj_method_t g_raid_md_jmicron_methods[] = {
        KOBJMETHOD(g_raid_md_create,    g_raid_md_create_jmicron),
        KOBJMETHOD(g_raid_md_taste,     g_raid_md_taste_jmicron),
        KOBJMETHOD(g_raid_md_event,     g_raid_md_event_jmicron),
        KOBJMETHOD(g_raid_md_ctl,       g_raid_md_ctl_jmicron),
        KOBJMETHOD(g_raid_md_write,     g_raid_md_write_jmicron),
        KOBJMETHOD(g_raid_md_fail_disk, g_raid_md_fail_disk_jmicron),
        KOBJMETHOD(g_raid_md_free_disk, g_raid_md_free_disk_jmicron),
        KOBJMETHOD(g_raid_md_free,      g_raid_md_free_jmicron),
        { 0, 0 }
};

static struct g_raid_md_class g_raid_md_jmicron_class = {
        "JMicron",
        g_raid_md_jmicron_methods,
        sizeof(struct g_raid_md_jmicron_object),
        .mdc_enable = 1,
        .mdc_priority = 100
};

static void
g_raid_md_jmicron_print(struct jmicron_raid_conf *meta)
{
        int k;

        if (g_raid_debug < 1)
                return;

        printf("********* ATA JMicron RAID Metadata *********\n");
        printf("signature           <%c%c>\n", meta->signature[0], meta->signature[1]);
        printf("version             %04x\n", meta->version);
        printf("checksum            0x%04x\n", meta->checksum);
        printf("disk_id             0x%08x\n", meta->disk_id);
        printf("offset              0x%08x\n", meta->offset);
        printf("disk_sectors_high   0x%08x\n", meta->disk_sectors_high);
        printf("disk_sectors_low    0x%04x\n", meta->disk_sectors_low);
        printf("name                <%.16s>\n", meta->name);
        printf("type                %d\n", meta->type);
        printf("stripe_shift        %d\n", meta->stripe_shift);
        printf("flags               %04x\n", meta->flags);
        printf("spare              ");
        for (k = 0; k < JMICRON_MAX_SPARE; k++)
                printf(" 0x%08x", meta->spare[k]);
        printf("\n");
        printf("disks              ");
        for (k = 0; k < JMICRON_MAX_DISKS; k++)
                printf(" 0x%08x", meta->disks[k]);
        printf("\n");
        printf("=================================================\n");
}

static struct jmicron_raid_conf *
jmicron_meta_copy(struct jmicron_raid_conf *meta)
{
        struct jmicron_raid_conf *nmeta;

        nmeta = malloc(sizeof(*meta), M_MD_JMICRON, M_WAITOK);
        memcpy(nmeta, meta, sizeof(*meta));
        return (nmeta);
}

static int
jmicron_meta_total_disks(struct jmicron_raid_conf *meta)
{
        int pos;

        for (pos = 0; pos < JMICRON_MAX_DISKS; pos++) {
                if (meta->disks[pos] == 0)
                        break;
        }
        return (pos);
}

static int
jmicron_meta_total_spare(struct jmicron_raid_conf *meta)
{
        int pos, n;

        n = 0;
        for (pos = 0; pos < JMICRON_MAX_SPARE; pos++) {
                if (meta->spare[pos] != 0)
                        n++;
        }
        return (n);
}

/*
 * Generate fake Configuration ID based on disk IDs.
 * Note: it will change after each disk set change.
 */
static uint32_t
jmicron_meta_config_id(struct jmicron_raid_conf *meta)
{
        int pos;
        uint32_t config_id;

        config_id = 0;
        for (pos = 0; pos < JMICRON_MAX_DISKS; pos++)
                config_id += meta->disks[pos] << pos;
        return (config_id);
}

static void
jmicron_meta_get_name(struct jmicron_raid_conf *meta, char *buf)
{
        int i;

        strncpy(buf, meta->name, 16);
        buf[16] = 0;
        for (i = 15; i >= 0; i--) {
                if (buf[i] > 0x20)
                        break;
                buf[i] = 0;
        }
}

static void
jmicron_meta_put_name(struct jmicron_raid_conf *meta, char *buf)
{

        memset(meta->name, 0x20, 16);
        memcpy(meta->name, buf, MIN(strlen(buf), 16));
}

static int
jmicron_meta_find_disk(struct jmicron_raid_conf *meta, uint32_t id)
{
        int pos;

        id &= JMICRON_DISK_MASK;
        for (pos = 0; pos < JMICRON_MAX_DISKS; pos++) {
                if ((meta->disks[pos] & JMICRON_DISK_MASK) == id)
                        return (pos);
        }
        for (pos = 0; pos < JMICRON_MAX_SPARE; pos++) {
                if ((meta->spare[pos] & JMICRON_DISK_MASK) == id)
                        return (-3);
        }
        return (-1);
}

static struct jmicron_raid_conf *
jmicron_meta_read(struct g_consumer *cp)
{
        struct g_provider *pp;
        struct jmicron_raid_conf *meta;
        char *buf;
        int error, i;
        uint16_t checksum, *ptr;

        pp = cp->provider;

        /* Read the anchor sector. */
        buf = g_read_data(cp,
            pp->mediasize - pp->sectorsize, pp->sectorsize, &error);
        if (buf == NULL) {
                G_RAID_DEBUG(1, "Cannot read metadata from %s (error=%d).",
                    pp->name, error);
                return (NULL);
        }
        meta = (struct jmicron_raid_conf *)buf;

        /* Check if this is an JMicron RAID struct */
        if (strncmp(meta->signature, JMICRON_MAGIC, strlen(JMICRON_MAGIC))) {
                G_RAID_DEBUG(1, "JMicron signature check failed on %s", pp->name);
                g_free(buf);
                return (NULL);
        }
        meta = malloc(sizeof(*meta), M_MD_JMICRON, M_WAITOK);
        memcpy(meta, buf, min(sizeof(*meta), pp->sectorsize));
        g_free(buf);

        /* Check metadata checksum. */
        for (checksum = 0, ptr = (uint16_t *)meta, i = 0; i < 64; i++)
                checksum += *ptr++;
        if (checksum != 0) {
                G_RAID_DEBUG(1, "JMicron checksum check failed on %s", pp->name);
                free(meta, M_MD_JMICRON);
                return (NULL);
        }

        return (meta);
}

static int
jmicron_meta_write(struct g_consumer *cp, struct jmicron_raid_conf *meta)
{
        struct g_provider *pp;
        char *buf;
        int error, i;
        uint16_t checksum, *ptr;

        pp = cp->provider;

        /* Recalculate checksum for case if metadata were changed. */
        meta->checksum = 0;
        for (checksum = 0, ptr = (uint16_t *)meta, i = 0; i < 64; i++)
                checksum += *ptr++;
        meta->checksum -= checksum;

        /* Create and fill buffer. */
        buf = malloc(pp->sectorsize, M_MD_JMICRON, M_WAITOK | M_ZERO);
        memcpy(buf, meta, sizeof(*meta));

        error = g_write_data(cp,
            pp->mediasize - pp->sectorsize, buf, pp->sectorsize);
        if (error != 0) {
                G_RAID_DEBUG(1, "Cannot write metadata to %s (error=%d).",
                    pp->name, error);
        }

        free(buf, M_MD_JMICRON);
        return (error);
}

static int
jmicron_meta_erase(struct g_consumer *cp)
{
        struct g_provider *pp;
        char *buf;
        int error;

        pp = cp->provider;
        buf = malloc(pp->sectorsize, M_MD_JMICRON, M_WAITOK | M_ZERO);
        error = g_write_data(cp,
            pp->mediasize - pp->sectorsize, buf, pp->sectorsize);
        if (error != 0) {
                G_RAID_DEBUG(1, "Cannot erase metadata on %s (error=%d).",
                    pp->name, error);
        }
        free(buf, M_MD_JMICRON);
        return (error);
}

static struct g_raid_disk *
g_raid_md_jmicron_get_disk(struct g_raid_softc *sc, int id)
{
        struct g_raid_disk      *disk;
        struct g_raid_md_jmicron_perdisk *pd;

        TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
                if (pd->pd_disk_pos == id)
                        break;
        }
        return (disk);
}

static int
g_raid_md_jmicron_supported(int level, int qual, int disks, int force)
{

        if (disks > 8)
                return (0);
        switch (level) {
        case G_RAID_VOLUME_RL_RAID0:
                if (disks < 1)
                        return (0);
                if (!force && (disks < 2 || disks > 6))
                        return (0);
                break;
        case G_RAID_VOLUME_RL_RAID1:
                if (disks < 1)
                        return (0);
                if (!force && (disks != 2))
                        return (0);
                break;
        case G_RAID_VOLUME_RL_RAID1E:
                if (disks < 2)
                        return (0);
                if (!force && (disks != 4))
                        return (0);
                break;
        case G_RAID_VOLUME_RL_SINGLE:
                if (disks != 1)
                        return (0);
                if (!force)
                        return (0);
                break;
        case G_RAID_VOLUME_RL_CONCAT:
                if (disks < 2)
                        return (0);
                break;
        case G_RAID_VOLUME_RL_RAID5:
                if (disks < 3)
                        return (0);
                if (qual != G_RAID_VOLUME_RLQ_R5LA)
                        return (0);
                if (!force)
                        return (0);
                break;
        default:
                return (0);
        }
        if (level != G_RAID_VOLUME_RL_RAID5 && qual != G_RAID_VOLUME_RLQ_NONE)
                return (0);
        return (1);
}

static int
g_raid_md_jmicron_start_disk(struct g_raid_disk *disk)
{
        struct g_raid_softc *sc;
        struct g_raid_subdisk *sd, *tmpsd;
        struct g_raid_disk *olddisk, *tmpdisk;
        struct g_raid_md_object *md;
        struct g_raid_md_jmicron_object *mdi;
        struct g_raid_md_jmicron_perdisk *pd, *oldpd;
        struct jmicron_raid_conf *meta;
        int disk_pos, resurrection = 0;

        sc = disk->d_softc;
        md = sc->sc_md;
        mdi = (struct g_raid_md_jmicron_object *)md;
        meta = mdi->mdio_meta;
        pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
        olddisk = NULL;

        /* Find disk position in metadata by its serial. */
        if (pd->pd_meta != NULL)
                disk_pos = jmicron_meta_find_disk(meta, pd->pd_disk_id);
        else
                disk_pos = -1;
        if (disk_pos < 0) {
                G_RAID_DEBUG1(1, sc, "Unknown, probably new or stale disk");
                /* If we are in the start process, that's all for now. */
                if (!mdi->mdio_started)
                        goto nofit;
                /*
                 * If we have already started - try to get use of the disk.
                 * Try to replace OFFLINE disks first, then FAILED.
                 */
                TAILQ_FOREACH(tmpdisk, &sc->sc_disks, d_next) {
                        if (tmpdisk->d_state != G_RAID_DISK_S_OFFLINE &&
                            tmpdisk->d_state != G_RAID_DISK_S_FAILED)
                                continue;
                        /* Make sure this disk is big enough. */
                        TAILQ_FOREACH(sd, &tmpdisk->d_subdisks, sd_next) {
                                if (sd->sd_offset + sd->sd_size + 512 >
                                    pd->pd_disk_size) {
                                        G_RAID_DEBUG1(1, sc,
                                            "Disk too small (%ju < %ju)",
                                            pd->pd_disk_size,
                                            sd->sd_offset + sd->sd_size + 512);
                                        break;
                                }
                        }
                        if (sd != NULL)
                                continue;
                        if (tmpdisk->d_state == G_RAID_DISK_S_OFFLINE) {
                                olddisk = tmpdisk;
                                break;
                        } else if (olddisk == NULL)
                                olddisk = tmpdisk;
                }
                if (olddisk == NULL) {
nofit:
                        if (disk_pos == -3 || pd->pd_disk_pos == -3) {
                                g_raid_change_disk_state(disk,
                                    G_RAID_DISK_S_SPARE);
                                return (1);
                        } else {
                                g_raid_change_disk_state(disk,
                                    G_RAID_DISK_S_STALE);
                                return (0);
                        }
                }
                oldpd = (struct g_raid_md_jmicron_perdisk *)olddisk->d_md_data;
                disk_pos = oldpd->pd_disk_pos;
                resurrection = 1;
        }

        if (olddisk == NULL) {
                /* Find placeholder by position. */
                olddisk = g_raid_md_jmicron_get_disk(sc, disk_pos);
                if (olddisk == NULL)
                        panic("No disk at position %d!", disk_pos);
                if (olddisk->d_state != G_RAID_DISK_S_OFFLINE) {
                        G_RAID_DEBUG1(1, sc, "More than one disk for pos %d",
                            disk_pos);
                        g_raid_change_disk_state(disk, G_RAID_DISK_S_STALE);
                        return (0);
                }
                oldpd = (struct g_raid_md_jmicron_perdisk *)olddisk->d_md_data;
        }

        /* Replace failed disk or placeholder with new disk. */
        TAILQ_FOREACH_SAFE(sd, &olddisk->d_subdisks, sd_next, tmpsd) {
                TAILQ_REMOVE(&olddisk->d_subdisks, sd, sd_next);
                TAILQ_INSERT_TAIL(&disk->d_subdisks, sd, sd_next);
                sd->sd_disk = disk;
        }
        oldpd->pd_disk_pos = -2;
        pd->pd_disk_pos = disk_pos;
        /* Update global metadata just in case. */
        meta->disks[disk_pos] = pd->pd_disk_id;

        /* If it was placeholder -- destroy it. */
        if (olddisk->d_state == G_RAID_DISK_S_OFFLINE) {
                g_raid_destroy_disk(olddisk);
        } else {
                /* Otherwise, make it STALE_FAILED. */
                g_raid_change_disk_state(olddisk, G_RAID_DISK_S_STALE_FAILED);
        }

        /* Welcome the new disk. */
        g_raid_change_disk_state(disk, G_RAID_DISK_S_ACTIVE);
        TAILQ_FOREACH(sd, &disk->d_subdisks, sd_next) {
                /*
                 * Different disks may have different sizes/offsets,
                 * especially in concat mode. Update.
                 */
                if (!resurrection) {
                        sd->sd_offset =
                            (off_t)pd->pd_meta->offset * 16 * 512; //ZZZ
                        sd->sd_size =
                            (((off_t)pd->pd_meta->disk_sectors_high << 16) +
                              pd->pd_meta->disk_sectors_low) * 512;
                }

                if (resurrection) {
                        /* Stale disk, almost same as new. */
                        g_raid_change_subdisk_state(sd,
                            G_RAID_SUBDISK_S_NEW);
                } else if ((meta->flags & JMICRON_F_BADSEC) != 0 &&
                    (pd->pd_meta->flags & JMICRON_F_BADSEC) == 0) {
                        /* Cold-inserted or rebuilding disk. */
                        g_raid_change_subdisk_state(sd,
                            G_RAID_SUBDISK_S_NEW);
                } else if (pd->pd_meta->flags & JMICRON_F_UNSYNC) {
                        /* Dirty or resyncing disk.. */
                        g_raid_change_subdisk_state(sd,
                            G_RAID_SUBDISK_S_STALE);
                } else {
                        /* Up to date disk. */
                        g_raid_change_subdisk_state(sd,
                            G_RAID_SUBDISK_S_ACTIVE);
                }
                g_raid_event_send(sd, G_RAID_SUBDISK_E_NEW,
                    G_RAID_EVENT_SUBDISK);
        }

        /* Update status of our need for spare. */
        if (mdi->mdio_started) {
                mdi->mdio_incomplete =
                    (g_raid_ndisks(sc, G_RAID_DISK_S_ACTIVE) <
                     mdi->mdio_total_disks);
        }

        return (resurrection);
}

static void
g_disk_md_jmicron_retaste(void *arg, int pending)
{

        G_RAID_DEBUG(1, "Array is not complete, trying to retaste.");
        g_retaste(&g_raid_class);
        free(arg, M_MD_JMICRON);
}

static void
g_raid_md_jmicron_refill(struct g_raid_softc *sc)
{
        struct g_raid_md_object *md;
        struct g_raid_md_jmicron_object *mdi;
        struct g_raid_disk *disk;
        struct task *task;
        int update, na;

        md = sc->sc_md;
        mdi = (struct g_raid_md_jmicron_object *)md;
        update = 0;
        do {
                /* Make sure we miss anything. */
                na = g_raid_ndisks(sc, G_RAID_DISK_S_ACTIVE);
                if (na == mdi->mdio_total_disks)
                        break;

                G_RAID_DEBUG1(1, md->mdo_softc,
                    "Array is not complete (%d of %d), "
                    "trying to refill.", na, mdi->mdio_total_disks);

                /* Try to get use some of STALE disks. */
                TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                        if (disk->d_state == G_RAID_DISK_S_STALE) {
                                update += g_raid_md_jmicron_start_disk(disk);
                                if (disk->d_state == G_RAID_DISK_S_ACTIVE)
                                        break;
                        }
                }
                if (disk != NULL)
                        continue;

                /* Try to get use some of SPARE disks. */
                TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                        if (disk->d_state == G_RAID_DISK_S_SPARE) {
                                update += g_raid_md_jmicron_start_disk(disk);
                                if (disk->d_state == G_RAID_DISK_S_ACTIVE)
                                        break;
                        }
                }
        } while (disk != NULL);

        /* Write new metadata if we changed something. */
        if (update)
                g_raid_md_write_jmicron(md, NULL, NULL, NULL);

        /* Update status of our need for spare. */
        mdi->mdio_incomplete = (g_raid_ndisks(sc, G_RAID_DISK_S_ACTIVE) <
            mdi->mdio_total_disks);

        /* Request retaste hoping to find spare. */
        if (mdi->mdio_incomplete) {
                task = malloc(sizeof(struct task),
                    M_MD_JMICRON, M_WAITOK | M_ZERO);
                TASK_INIT(task, 0, g_disk_md_jmicron_retaste, task);
                taskqueue_enqueue(taskqueue_swi, task);
        }
}

static void
g_raid_md_jmicron_start(struct g_raid_softc *sc)
{
        struct g_raid_md_object *md;
        struct g_raid_md_jmicron_object *mdi;
        struct g_raid_md_jmicron_perdisk *pd;
        struct jmicron_raid_conf *meta;
        struct g_raid_volume *vol;
        struct g_raid_subdisk *sd;
        struct g_raid_disk *disk;
        off_t size;
        int j, disk_pos;
        char buf[17];

        md = sc->sc_md;
        mdi = (struct g_raid_md_jmicron_object *)md;
        meta = mdi->mdio_meta;

        /* Create volumes and subdisks. */
        jmicron_meta_get_name(meta, buf);
        vol = g_raid_create_volume(sc, buf, -1);
        size = ((off_t)meta->disk_sectors_high << 16) + meta->disk_sectors_low;
        size *= 512; //ZZZ
        vol->v_raid_level_qualifier = G_RAID_VOLUME_RLQ_NONE;
        if (meta->type == JMICRON_T_RAID0) {
                vol->v_raid_level = G_RAID_VOLUME_RL_RAID0;
                vol->v_mediasize = size * mdi->mdio_total_disks;
        } else if (meta->type == JMICRON_T_RAID1) {
                vol->v_raid_level = G_RAID_VOLUME_RL_RAID1;
                vol->v_mediasize = size;
        } else if (meta->type == JMICRON_T_RAID01) {
                vol->v_raid_level = G_RAID_VOLUME_RL_RAID1E;
                vol->v_mediasize = size * mdi->mdio_total_disks / 2;
        } else if (meta->type == JMICRON_T_CONCAT) {
                if (mdi->mdio_total_disks == 1)
                        vol->v_raid_level = G_RAID_VOLUME_RL_SINGLE;
                else
                        vol->v_raid_level = G_RAID_VOLUME_RL_CONCAT;
                vol->v_mediasize = 0;
        } else if (meta->type == JMICRON_T_RAID5) {
                vol->v_raid_level = G_RAID_VOLUME_RL_RAID5;
                vol->v_raid_level_qualifier = G_RAID_VOLUME_RLQ_R5LA;
                vol->v_mediasize = size * (mdi->mdio_total_disks - 1);
        } else {
                vol->v_raid_level = G_RAID_VOLUME_RL_UNKNOWN;
                vol->v_mediasize = 0;
        }
        vol->v_strip_size = 1024 << meta->stripe_shift; //ZZZ
        vol->v_disks_count = mdi->mdio_total_disks;
        vol->v_sectorsize = 512; //ZZZ
        for (j = 0; j < vol->v_disks_count; j++) {
                sd = &vol->v_subdisks[j];
                sd->sd_offset = (off_t)meta->offset * 16 * 512; //ZZZ
                sd->sd_size = size;
        }
        g_raid_start_volume(vol);

        /* Create disk placeholders to store data for later writing. */
        for (disk_pos = 0; disk_pos < mdi->mdio_total_disks; disk_pos++) {
                pd = malloc(sizeof(*pd), M_MD_JMICRON, M_WAITOK | M_ZERO);
                pd->pd_disk_pos = disk_pos;
                pd->pd_disk_id = meta->disks[disk_pos];
                disk = g_raid_create_disk(sc);
                disk->d_md_data = (void *)pd;
                disk->d_state = G_RAID_DISK_S_OFFLINE;
                sd = &vol->v_subdisks[disk_pos];
                sd->sd_disk = disk;
                TAILQ_INSERT_TAIL(&disk->d_subdisks, sd, sd_next);
        }

        /* Make all disks found till the moment take their places. */
        do {
                TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                        if (disk->d_state == G_RAID_DISK_S_NONE) {
                                g_raid_md_jmicron_start_disk(disk);
                                break;
                        }
                }
        } while (disk != NULL);

        mdi->mdio_started = 1;
        G_RAID_DEBUG1(0, sc, "Array started.");
        g_raid_md_write_jmicron(md, NULL, NULL, NULL);

        /* Pickup any STALE/SPARE disks to refill array if needed. */
        g_raid_md_jmicron_refill(sc);

        g_raid_event_send(vol, G_RAID_VOLUME_E_START, G_RAID_EVENT_VOLUME);

        callout_stop(&mdi->mdio_start_co);
        G_RAID_DEBUG1(1, sc, "root_mount_rel %p", mdi->mdio_rootmount);
        root_mount_rel(mdi->mdio_rootmount);
        mdi->mdio_rootmount = NULL;
}

static void
g_raid_md_jmicron_new_disk(struct g_raid_disk *disk)
{
        struct g_raid_softc *sc;
        struct g_raid_md_object *md;
        struct g_raid_md_jmicron_object *mdi;
        struct jmicron_raid_conf *pdmeta;
        struct g_raid_md_jmicron_perdisk *pd;

        sc = disk->d_softc;
        md = sc->sc_md;
        mdi = (struct g_raid_md_jmicron_object *)md;
        pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
        pdmeta = pd->pd_meta;

        if (mdi->mdio_started) {
                if (g_raid_md_jmicron_start_disk(disk))
                        g_raid_md_write_jmicron(md, NULL, NULL, NULL);
        } else {
                /*
                 * If we haven't started yet - update common metadata
                 * to get subdisks details, avoiding data from spare disks.
                 */
                if (mdi->mdio_meta == NULL ||
                    jmicron_meta_find_disk(mdi->mdio_meta,
                     mdi->mdio_meta->disk_id) == -3) {
                        if (mdi->mdio_meta != NULL)
                                free(mdi->mdio_meta, M_MD_JMICRON);
                        mdi->mdio_meta = jmicron_meta_copy(pdmeta);
                        mdi->mdio_total_disks = jmicron_meta_total_disks(pdmeta);
                }
                mdi->mdio_meta->flags |= pdmeta->flags & JMICRON_F_BADSEC;

                mdi->mdio_disks_present++;
                G_RAID_DEBUG1(1, sc, "Matching disk (%d of %d+%d up)",
                    mdi->mdio_disks_present,
                    mdi->mdio_total_disks,
                    jmicron_meta_total_spare(mdi->mdio_meta));

                /* If we collected all needed disks - start array. */
                if (mdi->mdio_disks_present == mdi->mdio_total_disks +
                    jmicron_meta_total_spare(mdi->mdio_meta))
                        g_raid_md_jmicron_start(sc);
        }
}

static void
g_raid_jmicron_go(void *arg)
{
        struct g_raid_softc *sc;
        struct g_raid_md_object *md;
        struct g_raid_md_jmicron_object *mdi;

        sc = arg;
        md = sc->sc_md;
        mdi = (struct g_raid_md_jmicron_object *)md;
        if (!mdi->mdio_started) {
                G_RAID_DEBUG1(0, sc, "Force array start due to timeout.");
                g_raid_event_send(sc, G_RAID_NODE_E_START, 0);
        }
}

static int
g_raid_md_create_jmicron(struct g_raid_md_object *md, struct g_class *mp,
    struct g_geom **gp)
{
        struct g_raid_softc *sc;
        struct g_raid_md_jmicron_object *mdi;
        char name[16];

        mdi = (struct g_raid_md_jmicron_object *)md;
        mdi->mdio_config_id = arc4random();
        snprintf(name, sizeof(name), "JMicron-%08x", mdi->mdio_config_id);
        sc = g_raid_create_node(mp, name, md);
        if (sc == NULL)
                return (G_RAID_MD_TASTE_FAIL);
        md->mdo_softc = sc;
        *gp = sc->sc_geom;
        return (G_RAID_MD_TASTE_NEW);
}

static int
g_raid_md_taste_jmicron(struct g_raid_md_object *md, struct g_class *mp,
                              struct g_consumer *cp, struct g_geom **gp)
{
        struct g_consumer *rcp;
        struct g_provider *pp;
        struct g_raid_md_jmicron_object *mdi, *mdi1;
        struct g_raid_softc *sc;
        struct g_raid_disk *disk;
        struct jmicron_raid_conf *meta;
        struct g_raid_md_jmicron_perdisk *pd;
        struct g_geom *geom;
        int disk_pos, result, spare, len;
        char name[16];
        uint16_t vendor;

        G_RAID_DEBUG(1, "Tasting JMicron on %s", cp->provider->name);
        mdi = (struct g_raid_md_jmicron_object *)md;
        pp = cp->provider;

        /* Read metadata from device. */
        meta = NULL;
        g_topology_unlock();
        vendor = 0xffff;
        len = sizeof(vendor);
        if (pp->geom->rank == 1)
                g_io_getattr("GEOM::hba_vendor", cp, &len, &vendor);
        meta = jmicron_meta_read(cp);
        g_topology_lock();
        if (meta == NULL) {
                if (g_raid_aggressive_spare) {
                        if (vendor == 0x197b) {
                                G_RAID_DEBUG(1,
                                    "No JMicron metadata, forcing spare.");
                                spare = 2;
                                goto search;
                        } else {
                                G_RAID_DEBUG(1,
                                    "JMicron vendor mismatch 0x%04x != 0x197b",
                                    vendor);
                        }
                }
                return (G_RAID_MD_TASTE_FAIL);
        }

        /* Check this disk position in obtained metadata. */
        disk_pos = jmicron_meta_find_disk(meta, meta->disk_id);
        if (disk_pos == -1) {
                G_RAID_DEBUG(1, "JMicron disk_id %08x not found",
                    meta->disk_id);
                goto fail1;
        }

        /* Metadata valid. Print it. */
        g_raid_md_jmicron_print(meta);
        G_RAID_DEBUG(1, "JMicron disk position %d", disk_pos);
        spare = (disk_pos == -2) ? 1 : 0;

search:
        /* Search for matching node. */
        sc = NULL;
        mdi1 = NULL;
        LIST_FOREACH(geom, &mp->geom, geom) {
                sc = geom->softc;
                if (sc == NULL)
                        continue;
                if (sc->sc_stopping != 0)
                        continue;
                if (sc->sc_md->mdo_class != md->mdo_class)
                        continue;
                mdi1 = (struct g_raid_md_jmicron_object *)sc->sc_md;
                if (spare == 2) {
                        if (mdi1->mdio_incomplete)
                                break;
                } else {
                        if (mdi1->mdio_config_id ==
                            jmicron_meta_config_id(meta))
                                break;
                }
        }

        /* Found matching node. */
        if (geom != NULL) {
                G_RAID_DEBUG(1, "Found matching array %s", sc->sc_name);
                result = G_RAID_MD_TASTE_EXISTING;

        } else if (spare) { /* Not found needy node -- left for later. */
                G_RAID_DEBUG(1, "Spare is not needed at this time");
                goto fail1;

        } else { /* Not found matching node -- create one. */
                result = G_RAID_MD_TASTE_NEW;
                mdi->mdio_config_id = jmicron_meta_config_id(meta);
                snprintf(name, sizeof(name), "JMicron-%08x",
                    mdi->mdio_config_id);
                sc = g_raid_create_node(mp, name, md);
                md->mdo_softc = sc;
                geom = sc->sc_geom;
                callout_init(&mdi->mdio_start_co, 1);
                callout_reset(&mdi->mdio_start_co, g_raid_start_timeout * hz,
                    g_raid_jmicron_go, sc);
                mdi->mdio_rootmount = root_mount_hold("GRAID-JMicron");
                G_RAID_DEBUG1(1, sc, "root_mount_hold %p", mdi->mdio_rootmount);
        }

        /* There is no return after this point, so we close passed consumer. */
        g_access(cp, -1, 0, 0);

        rcp = g_new_consumer(geom);
        rcp->flags |= G_CF_DIRECT_RECEIVE;
        g_attach(rcp, pp);
        if (g_access(rcp, 1, 1, 1) != 0)
                ; //goto fail1;

        g_topology_unlock();
        sx_xlock(&sc->sc_lock);

        pd = malloc(sizeof(*pd), M_MD_JMICRON, M_WAITOK | M_ZERO);
        pd->pd_meta = meta;
        if (spare == 2) {
                pd->pd_disk_pos = -3;
                pd->pd_disk_id = arc4random() & JMICRON_DISK_MASK;
        } else {
                pd->pd_disk_pos = -1;
                pd->pd_disk_id = meta->disk_id;
        }
        pd->pd_disk_size = pp->mediasize;
        disk = g_raid_create_disk(sc);
        disk->d_md_data = (void *)pd;
        disk->d_consumer = rcp;
        rcp->private = disk;

        g_raid_get_disk_info(disk);

        g_raid_md_jmicron_new_disk(disk);

        sx_xunlock(&sc->sc_lock);
        g_topology_lock();
        *gp = geom;
        return (result);
fail1:
        free(meta, M_MD_JMICRON);
        return (G_RAID_MD_TASTE_FAIL);
}

static int
g_raid_md_event_jmicron(struct g_raid_md_object *md,
    struct g_raid_disk *disk, u_int event)
{
        struct g_raid_softc *sc;
        struct g_raid_subdisk *sd;
        struct g_raid_md_jmicron_object *mdi;
        struct g_raid_md_jmicron_perdisk *pd;

        sc = md->mdo_softc;
        mdi = (struct g_raid_md_jmicron_object *)md;
        if (disk == NULL) {
                switch (event) {
                case G_RAID_NODE_E_START:
                        if (!mdi->mdio_started)
                                g_raid_md_jmicron_start(sc);
                        return (0);
                }
                return (-1);
        }
        pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
        switch (event) {
        case G_RAID_DISK_E_DISCONNECTED:
                /* If disk was assigned, just update statuses. */
                if (pd->pd_disk_pos >= 0) {
                        g_raid_change_disk_state(disk, G_RAID_DISK_S_OFFLINE);
                        if (disk->d_consumer) {
                                g_raid_kill_consumer(sc, disk->d_consumer);
                                disk->d_consumer = NULL;
                        }
                        TAILQ_FOREACH(sd, &disk->d_subdisks, sd_next) {
                                g_raid_change_subdisk_state(sd,
                                    G_RAID_SUBDISK_S_NONE);
                                g_raid_event_send(sd, G_RAID_SUBDISK_E_DISCONNECTED,
                                    G_RAID_EVENT_SUBDISK);
                        }
                } else {
                        /* Otherwise -- delete. */
                        g_raid_change_disk_state(disk, G_RAID_DISK_S_NONE);
                        g_raid_destroy_disk(disk);
                }

                /* Write updated metadata to all disks. */
                g_raid_md_write_jmicron(md, NULL, NULL, NULL);

                /* Check if anything left except placeholders. */
                if (g_raid_ndisks(sc, -1) ==
                    g_raid_ndisks(sc, G_RAID_DISK_S_OFFLINE))
                        g_raid_destroy_node(sc, 0);
                else
                        g_raid_md_jmicron_refill(sc);
                return (0);
        }
        return (-2);
}

static int
g_raid_md_ctl_jmicron(struct g_raid_md_object *md,
    struct gctl_req *req)
{
        struct g_raid_softc *sc;
        struct g_raid_volume *vol;
        struct g_raid_subdisk *sd;
        struct g_raid_disk *disk;
        struct g_raid_md_jmicron_object *mdi;
        struct g_raid_md_jmicron_perdisk *pd;
        struct g_consumer *cp;
        struct g_provider *pp;
        char arg[16];
        const char *verb, *volname, *levelname, *diskname;
        int *nargs, *force;
        off_t size, sectorsize, strip;
        intmax_t *sizearg, *striparg;
        int numdisks, i, len, level, qual, update;
        int error;

        sc = md->mdo_softc;
        mdi = (struct g_raid_md_jmicron_object *)md;
        verb = gctl_get_param(req, "verb", NULL);
        nargs = gctl_get_paraml(req, "nargs", sizeof(*nargs));
        error = 0;
        if (strcmp(verb, "label") == 0) {
                if (*nargs < 4) {
                        gctl_error(req, "Invalid number of arguments.");
                        return (-1);
                }
                volname = gctl_get_asciiparam(req, "arg1");
                if (volname == NULL) {
                        gctl_error(req, "No volume name.");
                        return (-2);
                }
                levelname = gctl_get_asciiparam(req, "arg2");
                if (levelname == NULL) {
                        gctl_error(req, "No RAID level.");
                        return (-3);
                }
                if (strcasecmp(levelname, "RAID5") == 0)
                        levelname = "RAID5-LA";
                if (g_raid_volume_str2level(levelname, &level, &qual)) {
                        gctl_error(req, "Unknown RAID level '%s'.", levelname);
                        return (-4);
                }
                numdisks = *nargs - 3;
                force = gctl_get_paraml(req, "force", sizeof(*force));
                if (!g_raid_md_jmicron_supported(level, qual, numdisks,
                    force ? *force : 0)) {
                        gctl_error(req, "Unsupported RAID level "
                            "(0x%02x/0x%02x), or number of disks (%d).",
                            level, qual, numdisks);
                        return (-5);
                }

                /* Search for disks, connect them and probe. */
                size = 0x7fffffffffffffffllu;
                sectorsize = 0;
                for (i = 0; i < numdisks; i++) {
                        snprintf(arg, sizeof(arg), "arg%d", i + 3);
                        diskname = gctl_get_asciiparam(req, arg);
                        if (diskname == NULL) {
                                gctl_error(req, "No disk name (%s).", arg);
                                error = -6;
                                break;
                        }
                        if (strcmp(diskname, "NONE") == 0) {
                                cp = NULL;
                                pp = NULL;
                        } else {
                                g_topology_lock();
                                cp = g_raid_open_consumer(sc, diskname);
                                if (cp == NULL) {
                                        gctl_error(req, "Can't open '%s'.",
                                            diskname);
                                        g_topology_unlock();
                                        error = -7;
                                        break;
                                }
                                pp = cp->provider;
                        }
                        pd = malloc(sizeof(*pd), M_MD_JMICRON, M_WAITOK | M_ZERO);
                        pd->pd_disk_pos = i;
                        pd->pd_disk_id = arc4random() & JMICRON_DISK_MASK;
                        disk = g_raid_create_disk(sc);
                        disk->d_md_data = (void *)pd;
                        disk->d_consumer = cp;
                        if (cp == NULL)
                                continue;
                        cp->private = disk;
                        g_topology_unlock();

                        g_raid_get_disk_info(disk);

                        pd->pd_disk_size = pp->mediasize;
                        if (size > pp->mediasize)
                                size = pp->mediasize;
                        if (sectorsize < pp->sectorsize)
                                sectorsize = pp->sectorsize;
                }
                if (error != 0)
                        return (error);

                if (sectorsize <= 0) {
                        gctl_error(req, "Can't get sector size.");
                        return (-8);
                }

                /* Reserve space for metadata. */
                size -= sectorsize;

                /* Handle size argument. */
                len = sizeof(*sizearg);
                sizearg = gctl_get_param(req, "size", &len);
                if (sizearg != NULL && len == sizeof(*sizearg) &&
                    *sizearg > 0) {
                        if (*sizearg > size) {
                                gctl_error(req, "Size too big %lld > %lld.",
                                    (long long)*sizearg, (long long)size);
                                return (-9);
                        }
                        size = *sizearg;
                }

                /* Handle strip argument. */
                strip = 131072;
                len = sizeof(*striparg);
                striparg = gctl_get_param(req, "strip", &len);
                if (striparg != NULL && len == sizeof(*striparg) &&
                    *striparg > 0) {
                        if (*striparg < sectorsize) {
                                gctl_error(req, "Strip size too small.");
                                return (-10);
                        }
                        if (*striparg % sectorsize != 0) {
                                gctl_error(req, "Incorrect strip size.");
                                return (-11);
                        }
                        if (strip > 65535 * sectorsize) {
                                gctl_error(req, "Strip size too big.");
                                return (-12);
                        }
                        strip = *striparg;
                }

                /* Round size down to strip or sector. */
                if (level == G_RAID_VOLUME_RL_RAID1)
                        size -= (size % sectorsize);
                else if (level == G_RAID_VOLUME_RL_RAID1E &&
                    (numdisks & 1) != 0)
                        size -= (size % (2 * strip));
                else
                        size -= (size % strip);
                if (size <= 0) {
                        gctl_error(req, "Size too small.");
                        return (-13);
                }
                if (size > 0xffffffffffffllu * sectorsize) {
                        gctl_error(req, "Size too big.");
                        return (-14);
                }

                /* We have all we need, create things: volume, ... */
                mdi->mdio_total_disks = numdisks;
                mdi->mdio_started = 1;
                vol = g_raid_create_volume(sc, volname, -1);
                vol->v_md_data = (void *)(intptr_t)0;
                vol->v_raid_level = level;
                vol->v_raid_level_qualifier = qual;
                vol->v_strip_size = strip;
                vol->v_disks_count = numdisks;
                if (level == G_RAID_VOLUME_RL_RAID0 ||
                    level == G_RAID_VOLUME_RL_CONCAT ||
                    level == G_RAID_VOLUME_RL_SINGLE)
                        vol->v_mediasize = size * numdisks;
                else if (level == G_RAID_VOLUME_RL_RAID1)
                        vol->v_mediasize = size;
                else if (level == G_RAID_VOLUME_RL_RAID5)
                        vol->v_mediasize = size * (numdisks - 1);
                else { /* RAID1E */
                        vol->v_mediasize = ((size * numdisks) / strip / 2) *
                            strip;
                }
                vol->v_sectorsize = sectorsize;
                g_raid_start_volume(vol);

                /* , and subdisks. */
                TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                        pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
                        sd = &vol->v_subdisks[pd->pd_disk_pos];
                        sd->sd_disk = disk;
                        sd->sd_offset = 0;
                        sd->sd_size = size;
                        TAILQ_INSERT_TAIL(&disk->d_subdisks, sd, sd_next);
                        if (sd->sd_disk->d_consumer != NULL) {
                                g_raid_change_disk_state(disk,
                                    G_RAID_DISK_S_ACTIVE);
                                g_raid_change_subdisk_state(sd,
                                    G_RAID_SUBDISK_S_ACTIVE);
                                g_raid_event_send(sd, G_RAID_SUBDISK_E_NEW,
                                    G_RAID_EVENT_SUBDISK);
                        } else {
                                g_raid_change_disk_state(disk, G_RAID_DISK_S_OFFLINE);
                        }
                }

                /* Write metadata based on created entities. */
                G_RAID_DEBUG1(0, sc, "Array started.");
                g_raid_md_write_jmicron(md, NULL, NULL, NULL);

                /* Pickup any STALE/SPARE disks to refill array if needed. */
                g_raid_md_jmicron_refill(sc);

                g_raid_event_send(vol, G_RAID_VOLUME_E_START,
                    G_RAID_EVENT_VOLUME);
                return (0);
        }
        if (strcmp(verb, "delete") == 0) {
                /* Check if some volume is still open. */
                force = gctl_get_paraml(req, "force", sizeof(*force));
                if (force != NULL && *force == 0 &&
                    g_raid_nopens(sc) != 0) {
                        gctl_error(req, "Some volume is still open.");
                        return (-4);
                }

                TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                        if (disk->d_consumer)
                                jmicron_meta_erase(disk->d_consumer);
                }
                g_raid_destroy_node(sc, 0);
                return (0);
        }
        if (strcmp(verb, "remove") == 0 ||
            strcmp(verb, "fail") == 0) {
                if (*nargs < 2) {
                        gctl_error(req, "Invalid number of arguments.");
                        return (-1);
                }
                for (i = 1; i < *nargs; i++) {
                        snprintf(arg, sizeof(arg), "arg%d", i);
                        diskname = gctl_get_asciiparam(req, arg);
                        if (diskname == NULL) {
                                gctl_error(req, "No disk name (%s).", arg);
                                error = -2;
                                break;
                        }
                        if (strncmp(diskname, _PATH_DEV, 5) == 0)
                                diskname += 5;

                        TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                                if (disk->d_consumer != NULL && 
                                    disk->d_consumer->provider != NULL &&
                                    strcmp(disk->d_consumer->provider->name,
                                     diskname) == 0)
                                        break;
                        }
                        if (disk == NULL) {
                                gctl_error(req, "Disk '%s' not found.",
                                    diskname);
                                error = -3;
                                break;
                        }

                        if (strcmp(verb, "fail") == 0) {
                                g_raid_md_fail_disk_jmicron(md, NULL, disk);
                                continue;
                        }

                        pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;

                        /* Erase metadata on deleting disk. */
                        jmicron_meta_erase(disk->d_consumer);

                        /* If disk was assigned, just update statuses. */
                        if (pd->pd_disk_pos >= 0) {
                                g_raid_change_disk_state(disk, G_RAID_DISK_S_OFFLINE);
                                g_raid_kill_consumer(sc, disk->d_consumer);
                                disk->d_consumer = NULL;
                                TAILQ_FOREACH(sd, &disk->d_subdisks, sd_next) {
                                        g_raid_change_subdisk_state(sd,
                                            G_RAID_SUBDISK_S_NONE);
                                        g_raid_event_send(sd, G_RAID_SUBDISK_E_DISCONNECTED,
                                            G_RAID_EVENT_SUBDISK);
                                }
                        } else {
                                /* Otherwise -- delete. */
                                g_raid_change_disk_state(disk, G_RAID_DISK_S_NONE);
                                g_raid_destroy_disk(disk);
                        }
                }

                /* Write updated metadata to remaining disks. */
                g_raid_md_write_jmicron(md, NULL, NULL, NULL);

                /* Check if anything left except placeholders. */
                if (g_raid_ndisks(sc, -1) ==
                    g_raid_ndisks(sc, G_RAID_DISK_S_OFFLINE))
                        g_raid_destroy_node(sc, 0);
                else
                        g_raid_md_jmicron_refill(sc);
                return (error);
        }
        if (strcmp(verb, "insert") == 0) {
                if (*nargs < 2) {
                        gctl_error(req, "Invalid number of arguments.");
                        return (-1);
                }
                update = 0;
                for (i = 1; i < *nargs; i++) {
                        /* Get disk name. */
                        snprintf(arg, sizeof(arg), "arg%d", i);
                        diskname = gctl_get_asciiparam(req, arg);
                        if (diskname == NULL) {
                                gctl_error(req, "No disk name (%s).", arg);
                                error = -3;
                                break;
                        }

                        /* Try to find provider with specified name. */
                        g_topology_lock();
                        cp = g_raid_open_consumer(sc, diskname);
                        if (cp == NULL) {
                                gctl_error(req, "Can't open disk '%s'.",
                                    diskname);
                                g_topology_unlock();
                                error = -4;
                                break;
                        }
                        pp = cp->provider;

                        pd = malloc(sizeof(*pd), M_MD_JMICRON, M_WAITOK | M_ZERO);
                        pd->pd_disk_pos = -3;
                        pd->pd_disk_id = arc4random() & JMICRON_DISK_MASK;
                        pd->pd_disk_size = pp->mediasize;

                        disk = g_raid_create_disk(sc);
                        disk->d_consumer = cp;
                        disk->d_md_data = (void *)pd;
                        cp->private = disk;
                        g_topology_unlock();

                        g_raid_get_disk_info(disk);

                        /* Welcome the "new" disk. */
                        update += g_raid_md_jmicron_start_disk(disk);
                        if (disk->d_state != G_RAID_DISK_S_ACTIVE &&
                            disk->d_state != G_RAID_DISK_S_SPARE) {
                                gctl_error(req, "Disk '%s' doesn't fit.",
                                    diskname);
                                g_raid_destroy_disk(disk);
                                error = -8;
                                break;
                        }
                }

                /* Write new metadata if we changed something. */
                if (update)
                        g_raid_md_write_jmicron(md, NULL, NULL, NULL);
                return (error);
        }
        gctl_error(req, "Command '%s' is not supported.", verb);
        return (-100);
}

static int
g_raid_md_write_jmicron(struct g_raid_md_object *md, struct g_raid_volume *tvol,
    struct g_raid_subdisk *tsd, struct g_raid_disk *tdisk)
{
        struct g_raid_softc *sc;
        struct g_raid_volume *vol;
        struct g_raid_subdisk *sd;
        struct g_raid_disk *disk;
        struct g_raid_md_jmicron_object *mdi;
        struct g_raid_md_jmicron_perdisk *pd;
        struct jmicron_raid_conf *meta;
        int i, spares;

        sc = md->mdo_softc;
        mdi = (struct g_raid_md_jmicron_object *)md;

        if (sc->sc_stopping == G_RAID_DESTROY_HARD)
                return (0);

        /* There is only one volume. */
        vol = TAILQ_FIRST(&sc->sc_volumes);

        /* Fill global fields. */
        meta = malloc(sizeof(*meta), M_MD_JMICRON, M_WAITOK | M_ZERO);
        strncpy(meta->signature, JMICRON_MAGIC, 2);
        meta->version = JMICRON_VERSION;
        jmicron_meta_put_name(meta, vol->v_name);
        if (vol->v_raid_level == G_RAID_VOLUME_RL_RAID0)
                meta->type = JMICRON_T_RAID0;
        else if (vol->v_raid_level == G_RAID_VOLUME_RL_RAID1)
                meta->type = JMICRON_T_RAID1;
        else if (vol->v_raid_level == G_RAID_VOLUME_RL_RAID1E)
                meta->type = JMICRON_T_RAID01;
        else if (vol->v_raid_level == G_RAID_VOLUME_RL_CONCAT ||
            vol->v_raid_level == G_RAID_VOLUME_RL_SINGLE)
                meta->type = JMICRON_T_CONCAT;
        else
                meta->type = JMICRON_T_RAID5;
        meta->stripe_shift = fls(vol->v_strip_size / 2048);
        meta->flags = JMICRON_F_READY | JMICRON_F_BOOTABLE;
        for (i = 0; i < vol->v_disks_count; i++) {
                sd = &vol->v_subdisks[i];
                if (sd->sd_disk == NULL || sd->sd_disk->d_md_data == NULL)
                        meta->disks[i] = 0xffffffff;
                else {
                        pd = (struct g_raid_md_jmicron_perdisk *)
                            sd->sd_disk->d_md_data;
                        meta->disks[i] = pd->pd_disk_id;
                }
                if (sd->sd_state < G_RAID_SUBDISK_S_STALE)
                        meta->flags |= JMICRON_F_BADSEC;
                if (vol->v_dirty)
                        meta->flags |= JMICRON_F_UNSYNC;
        }

        /* Put spares to their slots. */
        spares = 0;
        TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
                if (disk->d_state != G_RAID_DISK_S_SPARE)
                        continue;
                meta->spare[spares] = pd->pd_disk_id;
                if (++spares >= 2)
                        break;
        }

        /* We are done. Print meta data and store them to disks. */
        if (mdi->mdio_meta != NULL)
                free(mdi->mdio_meta, M_MD_JMICRON);
        mdi->mdio_meta = meta;
        TAILQ_FOREACH(disk, &sc->sc_disks, d_next) {
                pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
                if (disk->d_state != G_RAID_DISK_S_ACTIVE &&
                    disk->d_state != G_RAID_DISK_S_SPARE)
                        continue;
                if (pd->pd_meta != NULL) {
                        free(pd->pd_meta, M_MD_JMICRON);
                        pd->pd_meta = NULL;
                }
                pd->pd_meta = jmicron_meta_copy(meta);
                pd->pd_meta->disk_id = pd->pd_disk_id;
                if ((sd = TAILQ_FIRST(&disk->d_subdisks)) != NULL) {
                        pd->pd_meta->offset =
                            (sd->sd_offset / 512) / 16;
                        pd->pd_meta->disk_sectors_high =
                            (sd->sd_size / 512) >> 16;
                        pd->pd_meta->disk_sectors_low =
                            (sd->sd_size / 512) & 0xffff;
                        if (sd->sd_state < G_RAID_SUBDISK_S_STALE)
                                pd->pd_meta->flags &= ~JMICRON_F_BADSEC;
                        else if (sd->sd_state < G_RAID_SUBDISK_S_ACTIVE)
                                pd->pd_meta->flags |= JMICRON_F_UNSYNC;
                }
                G_RAID_DEBUG(1, "Writing JMicron metadata to %s",
                    g_raid_get_diskname(disk));
                g_raid_md_jmicron_print(pd->pd_meta);
                jmicron_meta_write(disk->d_consumer, pd->pd_meta);
        }
        return (0);
}

static int
g_raid_md_fail_disk_jmicron(struct g_raid_md_object *md,
    struct g_raid_subdisk *tsd, struct g_raid_disk *tdisk)
{
        struct g_raid_softc *sc;
        struct g_raid_md_jmicron_perdisk *pd;
        struct g_raid_subdisk *sd;

        sc = md->mdo_softc;
        pd = (struct g_raid_md_jmicron_perdisk *)tdisk->d_md_data;

        /* We can't fail disk that is not a part of array now. */
        if (pd->pd_disk_pos < 0)
                return (-1);

        if (tdisk->d_consumer)
                jmicron_meta_erase(tdisk->d_consumer);

        /* Change states. */
        g_raid_change_disk_state(tdisk, G_RAID_DISK_S_FAILED);
        TAILQ_FOREACH(sd, &tdisk->d_subdisks, sd_next) {
                g_raid_change_subdisk_state(sd,
                    G_RAID_SUBDISK_S_FAILED);
                g_raid_event_send(sd, G_RAID_SUBDISK_E_FAILED,
                    G_RAID_EVENT_SUBDISK);
        }

        /* Write updated metadata to remaining disks. */
        g_raid_md_write_jmicron(md, NULL, NULL, tdisk);

        /* Check if anything left except placeholders. */
        if (g_raid_ndisks(sc, -1) ==
            g_raid_ndisks(sc, G_RAID_DISK_S_OFFLINE))
                g_raid_destroy_node(sc, 0);
        else
                g_raid_md_jmicron_refill(sc);
        return (0);
}

static int
g_raid_md_free_disk_jmicron(struct g_raid_md_object *md,
    struct g_raid_disk *disk)
{
        struct g_raid_md_jmicron_perdisk *pd;

        pd = (struct g_raid_md_jmicron_perdisk *)disk->d_md_data;
        if (pd->pd_meta != NULL) {
                free(pd->pd_meta, M_MD_JMICRON);
                pd->pd_meta = NULL;
        }
        free(pd, M_MD_JMICRON);
        disk->d_md_data = NULL;
        return (0);
}

static int
g_raid_md_free_jmicron(struct g_raid_md_object *md)
{
        struct g_raid_md_jmicron_object *mdi;

        mdi = (struct g_raid_md_jmicron_object *)md;
        if (!mdi->mdio_started) {
                mdi->mdio_started = 0;
                callout_stop(&mdi->mdio_start_co);
                G_RAID_DEBUG1(1, md->mdo_softc,
                    "root_mount_rel %p", mdi->mdio_rootmount);
                root_mount_rel(mdi->mdio_rootmount);
                mdi->mdio_rootmount = NULL;
        }
        if (mdi->mdio_meta != NULL) {
                free(mdi->mdio_meta, M_MD_JMICRON);
                mdi->mdio_meta = NULL;
        }
        return (0);
}

G_RAID_MD_DECLARE(jmicron, "JMicron");