LU-14286 osd-ldiskfs: fallocate() should zero new blocks

[fs/lustre-release.git] / lustre / mgs / mgs_nids.c

/*
 * GPL HEADER START
 *
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 only,
 * as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License version 2 for more details (a copy is included
 * in the LICENSE file that accompanied this code).
 *
 * You should have received a copy of the GNU General Public License
 * version 2 along with this program; If not, see
 * http://www.gnu.org/licenses/gpl-2.0.html
 *
 * GPL HEADER END
 */
/*
 * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved.
 * Use is subject to license terms.
 *
 * Copyright (c) 2011, 2017, Intel Corporation.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * lustre/mgs/mgs_nids.c
 *
 * NID table management for lustre.
 *
 * Author: Jinshan Xiong <jinshan.xiong@whamcloud.com>
 */

#define DEBUG_SUBSYSTEM S_MGS
#define D_MGS D_CONFIG

#include <linux/kthread.h>
#include <linux/pagemap.h>

#include <obd.h>
#include <obd_class.h>
#include <lustre_disk.h>

#include "mgs_internal.h"

static time64_t ir_timeout;

static int nidtbl_is_sane(struct mgs_nidtbl *tbl)
{
        struct mgs_nidtbl_target *tgt;
        int version = 0;

        LASSERT(mutex_is_locked(&tbl->mn_lock));
        list_for_each_entry(tgt, &tbl->mn_targets, mnt_list) {
                if (!tgt->mnt_version)
                        continue;

                if (version >= tgt->mnt_version)
                        return 0;

                version = tgt->mnt_version;
        }
        return 1;
}

/**
 * Fetch nidtbl entries whose version are not less than @version
 * nidtbl entries will be packed in @pages by @unit_size units - entries
 * shouldn't cross unit boundaries.
 */
static int mgs_nidtbl_read(struct obd_export *exp, struct mgs_nidtbl *tbl,
                           struct mgs_config_res *res, struct page **pages,
                           int nrpages, int units_total, int unit_size)
{
        struct mgs_nidtbl_target *tgt;
        struct mgs_nidtbl_entry *entry;
        struct mgs_nidtbl_entry *last_in_unit = NULL;
        struct mgs_target_info *mti;
        __u64 version = res->mcr_offset;
        bool nobuf = false;
        void *buf = NULL;
        int bytes_in_unit = 0;
        int units_in_page = 0;
        int index = 0;
        int rc = 0;

        ENTRY;

        /* make sure unit_size is power 2 */
        LASSERT((unit_size & (unit_size - 1)) == 0);
        LASSERT(nrpages << PAGE_SHIFT >= units_total * unit_size);

        mutex_lock(&tbl->mn_lock);
        LASSERT(nidtbl_is_sane(tbl));

        /* no more entries ? */
        if (version > tbl->mn_version) {
                version = tbl->mn_version;
                goto out;
        }

        /*
         * iterate over all targets to compose a bitmap by the type of llog.
         * If the llog is for MDTs, llog entries for OSTs will be returned;
         * otherwise, it's for clients, then llog entries for both OSTs and
         * MDTs will be returned.
         */
        list_for_each_entry(tgt, &tbl->mn_targets, mnt_list) {
                int entry_len = sizeof(*entry);

                if (tgt->mnt_version < version)
                        continue;

                /* write target recover information */
                mti  = &tgt->mnt_mti;
                LASSERT(mti->mti_nid_count < MTI_NIDS_MAX);
                entry_len += mti->mti_nid_count * sizeof(lnet_nid_t);

                if (entry_len > unit_size) {
                        CWARN("nidtbl: too large entry: entry length %d, unit size: %d\n",
                              entry_len, unit_size);
                        GOTO(out, rc = -EOVERFLOW);
                }

                if (bytes_in_unit < entry_len) {
                        if (units_total == 0) {
                                nobuf = true;
                                break;
                        }

                        /* check if we need to consume remaining bytes. */
                        if (last_in_unit && bytes_in_unit) {
                                last_in_unit->mne_length += bytes_in_unit;
                                rc  += bytes_in_unit;
                                buf += bytes_in_unit;
                                last_in_unit = NULL;
                        }
                        LASSERT((rc & (unit_size - 1)) == 0);

                        if (units_in_page == 0) {
                                /* allocate a new page */
                                pages[index] = alloc_page(GFP_KERNEL);
                                if (!pages[index]) {
                                        rc = -ENOMEM;
                                        break;
                                }

                                /* destroy previous map */
                                if (index > 0)
                                        kunmap(pages[index - 1]);

                                /* reassign buffer */
                                buf = kmap(pages[index]);
                                ++index;

                                units_in_page = PAGE_SIZE / unit_size;
                                LASSERT(units_in_page > 0);
                        }

                        /* allocate an unit */
                        LASSERT(((long)buf & (unit_size - 1)) == 0);
                        bytes_in_unit = unit_size;
                        --units_in_page;
                        --units_total;
                }

                /* fill in entry. */
                entry = (struct mgs_nidtbl_entry *)buf;
                entry->mne_version   = tgt->mnt_version;
                entry->mne_instance  = mti->mti_instance;
                entry->mne_index     = mti->mti_stripe_index;
                entry->mne_length    = entry_len;
                entry->mne_type      = tgt->mnt_type;
                entry->mne_nid_type  = 0;
                entry->mne_nid_size  = sizeof(lnet_nid_t);
                entry->mne_nid_count = mti->mti_nid_count;
                memcpy(entry->u.nids, mti->mti_nids,
                       mti->mti_nid_count * sizeof(lnet_nid_t));

                version = tgt->mnt_version;
                rc     += entry_len;
                buf    += entry_len;

                bytes_in_unit -= entry_len;
                last_in_unit   = entry;

                CDEBUG(D_MGS, "fsname %s, entry size %d, pages %d/%d/%d/%d.\n",
                       tbl->mn_fsdb->fsdb_name, entry_len,
                       bytes_in_unit, index, nrpages, units_total);
        }
        if (index > 0)
                kunmap(pages[index - 1]);
out:
        LASSERT(version <= tbl->mn_version);
        res->mcr_size = tbl->mn_version;
        res->mcr_offset = nobuf ? version : tbl->mn_version;
        mutex_unlock(&tbl->mn_lock);
        LASSERT(ergo(version == 1, rc == 0)); /* get the log first time */

        CDEBUG(D_MGS, "Read IR logs %s return with %d, version %llu\n",
               tbl->mn_fsdb->fsdb_name, rc, version);
        RETURN(rc);
}

static int nidtbl_update_version(const struct lu_env *env,
                                 struct mgs_device *mgs,
                                 struct mgs_nidtbl *tbl)
{
        struct dt_object *fsdb;
        struct thandle *th;
        u64 version;
        struct lu_buf buf = {
                        .lb_buf = &version,
                        .lb_len = sizeof(version)
        };
        loff_t off = 0;
        int rc;

        ENTRY;

        if (mgs->mgs_bottom->dd_rdonly)
                RETURN(0);

        LASSERT(mutex_is_locked(&tbl->mn_lock));

        fsdb = local_file_find_or_create(env, mgs->mgs_los, mgs->mgs_nidtbl_dir,
                                         tbl->mn_fsdb->fsdb_name,
                                         S_IFREG | S_IRUGO | S_IWUSR);
        if (IS_ERR(fsdb))
                RETURN(PTR_ERR(fsdb));

        th = dt_trans_create(env, mgs->mgs_bottom);
        if (IS_ERR(th))
                GOTO(out_put, rc = PTR_ERR(th));

        th->th_sync = 1; /* update table synchronously */
        rc = dt_declare_record_write(env, fsdb, &buf, off, th);
        if (rc)
                GOTO(out, rc);

        rc = dt_trans_start_local(env, mgs->mgs_bottom, th);
        if (rc)
                GOTO(out, rc);

        version = cpu_to_le64(tbl->mn_version);
        rc = dt_record_write(env, fsdb, &buf, &off, th);

out:
        dt_trans_stop(env, mgs->mgs_bottom, th);
out_put:
        dt_object_put(env, fsdb);
        RETURN(rc);
}

#define MGS_NIDTBL_VERSION_INIT 2

static int nidtbl_read_version(const struct lu_env *env,
                               struct mgs_device *mgs, struct mgs_nidtbl *tbl,
                               u64 *version)
{
        struct dt_object *fsdb;
        struct lu_fid fid;
        u64 tmpver;
        struct lu_buf buf = {
                .lb_buf = &tmpver,
                .lb_len = sizeof(tmpver)
        };
        loff_t off = 0;
        int rc;

        ENTRY;

        LASSERT(mutex_is_locked(&tbl->mn_lock));

        LASSERT(mgs->mgs_nidtbl_dir);
        rc = dt_lookup_dir(env, mgs->mgs_nidtbl_dir, tbl->mn_fsdb->fsdb_name,
                           &fid);
        if (rc == -ENOENT) {
                *version = MGS_NIDTBL_VERSION_INIT;
                RETURN(0);
        } else if (rc < 0) {
                RETURN(rc);
        }

        fsdb = dt_locate_at(env, mgs->mgs_bottom, &fid,
                            &mgs->mgs_dt_dev.dd_lu_dev, NULL);
        if (IS_ERR(fsdb))
                RETURN(PTR_ERR(fsdb));

        rc = dt_read(env, fsdb, &buf, &off);
        if (rc == buf.lb_len) {
                *version = le64_to_cpu(tmpver);
                rc = 0;
        } else if (rc == 0) {
                *version = MGS_NIDTBL_VERSION_INIT;
        } else {
                CERROR("%s: read version file %s error %d\n",
                       mgs->mgs_obd->obd_name, tbl->mn_fsdb->fsdb_name, rc);
        }
        dt_object_put(env, fsdb);
        RETURN(rc);
}

static int mgs_nidtbl_write(const struct lu_env *env, struct fs_db *fsdb,
                            struct mgs_target_info *mti)
{
        struct mgs_nidtbl *tbl;
        struct mgs_nidtbl_target *tgt;
        bool found = false;
        int type = mti->mti_flags & LDD_F_SV_TYPE_MASK;
        int rc = 0;

        ENTRY;

        type &= ~LDD_F_SV_TYPE_MGS;
        LASSERT(type != 0);

        tbl = &fsdb->fsdb_nidtbl;
        mutex_lock(&tbl->mn_lock);
        list_for_each_entry(tgt, &tbl->mn_targets, mnt_list) {
                struct mgs_target_info *info = &tgt->mnt_mti;

                if (type == tgt->mnt_type &&
                    mti->mti_stripe_index == info->mti_stripe_index) {
                        found = true;
                        break;
                }
        }
        if (!found) {
                OBD_ALLOC_PTR(tgt);
                if (!tgt)
                        GOTO(out, rc = -ENOMEM);

                INIT_LIST_HEAD(&tgt->mnt_list);
                tgt->mnt_fs = tbl;
                tgt->mnt_version = 0; /* 0 means invalid */
                tgt->mnt_type = type;

                ++tbl->mn_nr_targets;
        }

        tgt->mnt_version = ++tbl->mn_version;
        tgt->mnt_mti     = *mti;

        list_move_tail(&tgt->mnt_list, &tbl->mn_targets);

        rc = nidtbl_update_version(env, fsdb->fsdb_mgs, tbl);
        EXIT;

out:
        mutex_unlock(&tbl->mn_lock);
        if (rc)
                CERROR("Write NID table version for file system %s error %d\n",
                       fsdb->fsdb_name, rc);
        return rc;
}

static void mgs_nidtbl_fini_fs(struct fs_db *fsdb)
{
        struct mgs_nidtbl *tbl = &fsdb->fsdb_nidtbl;
        LIST_HEAD(head);

        mutex_lock(&tbl->mn_lock);
        tbl->mn_nr_targets = 0;
        list_splice_init(&tbl->mn_targets, &head);
        mutex_unlock(&tbl->mn_lock);

        while (!list_empty(&head)) {
                struct mgs_nidtbl_target *tgt;

                tgt = list_entry(head.next, struct mgs_nidtbl_target, mnt_list);
                list_del(&tgt->mnt_list);
                OBD_FREE_PTR(tgt);
        }
}

static int mgs_nidtbl_init_fs(const struct lu_env *env, struct fs_db *fsdb)
{
        struct mgs_nidtbl *tbl = &fsdb->fsdb_nidtbl;
        int rc;

        INIT_LIST_HEAD(&tbl->mn_targets);
        mutex_init(&tbl->mn_lock);
        tbl->mn_nr_targets = 0;
        tbl->mn_fsdb = fsdb;
        mutex_lock(&tbl->mn_lock);
        rc = nidtbl_read_version(env, fsdb->fsdb_mgs, tbl, &tbl->mn_version);
        mutex_unlock(&tbl->mn_lock);
        if (rc < 0)
                CERROR("%s: IR: failed to read current version, rc = %d\n",
                       fsdb->fsdb_mgs->mgs_obd->obd_name, rc);
        else
                CDEBUG(D_MGS, "IR: current version is %llu\n",
                       tbl->mn_version);

        return rc;
}

/* --------- Imperative Recovery relies on nidtbl stuff ------- */
void mgs_ir_notify_complete(struct fs_db *fsdb)
{
        struct timespec64 ts;
        ktime_t delta;

        atomic_set(&fsdb->fsdb_notify_phase, 0);

        /* do statistic */
        fsdb->fsdb_notify_count++;
        delta = ktime_sub(ktime_get(), fsdb->fsdb_notify_start);
        fsdb->fsdb_notify_total = ktime_add(fsdb->fsdb_notify_total, delta);
        if (ktime_after(delta, fsdb->fsdb_notify_max))
                fsdb->fsdb_notify_max = delta;

        ts = ktime_to_timespec64(fsdb->fsdb_notify_max);
        CDEBUG(D_MGS, "Revoke recover lock of %s completed after %lld.%09lds\n",
               fsdb->fsdb_name, (s64)ts.tv_sec, ts.tv_nsec);
}

static int mgs_ir_notify(void *arg)
{
        struct fs_db *fsdb = arg;
        struct ldlm_res_id resid;
        char name[sizeof(fsdb->fsdb_name) + 16];

        BUILD_BUG_ON(sizeof(name) >= 40); /* name is too large to be on stack */

        snprintf(name, sizeof(name) - 1, "mgs_%s_notify", fsdb->fsdb_name);
        complete(&fsdb->fsdb_notify_comp);
        set_user_nice(current, -2);
        mgc_fsname2resid(fsdb->fsdb_name, &resid, CONFIG_T_RECOVER);
        while (1) {
                wait_event_idle(fsdb->fsdb_notify_waitq,
                                fsdb->fsdb_notify_stop ||
                                atomic_read(&fsdb->fsdb_notify_phase));

                if (fsdb->fsdb_notify_stop)
                        break;

                CDEBUG(D_MGS, "%s woken up, phase is %d\n",
                       name, atomic_read(&fsdb->fsdb_notify_phase));

                fsdb->fsdb_notify_start = ktime_get();
                mgs_revoke_lock(fsdb->fsdb_mgs, fsdb, CONFIG_T_RECOVER);
        }

        complete(&fsdb->fsdb_notify_comp);
        return 0;
}

int mgs_ir_init_fs(const struct lu_env *env, struct mgs_device *mgs,
                   struct fs_db *fsdb)
{
        struct task_struct *task;

        if (!ir_timeout)
                ir_timeout = (time64_t)OBD_IR_MGS_TIMEOUT;

        fsdb->fsdb_ir_state = IR_FULL;
        if (mgs->mgs_start_time + ir_timeout > ktime_get_real_seconds())
                fsdb->fsdb_ir_state = IR_STARTUP;
        fsdb->fsdb_nonir_clients = 0;
        /* start notify thread */
        fsdb->fsdb_mgs = mgs;
        task = kthread_run(mgs_ir_notify, fsdb,
                               "mgs_%s_notify", fsdb->fsdb_name);
        if (!IS_ERR(task))
                wait_for_completion(&fsdb->fsdb_notify_comp);
        else
                CERROR("Start notify thread error %ld\n", PTR_ERR(task));

        mgs_nidtbl_init_fs(env, fsdb);
        return 0;
}

void mgs_ir_fini_fs(struct mgs_device *mgs, struct fs_db *fsdb)
{
        if (test_bit(FSDB_MGS_SELF, &fsdb->fsdb_flags))
                return;

        mgs_fsc_cleanup_by_fsdb(fsdb);

        mgs_nidtbl_fini_fs(fsdb);

        LASSERT(list_empty(&fsdb->fsdb_clients));

        fsdb->fsdb_notify_stop = 1;
        wake_up(&fsdb->fsdb_notify_waitq);
        wait_for_completion(&fsdb->fsdb_notify_comp);
}

/* caller must have held fsdb_mutex */
static inline void ir_state_graduate(struct fs_db *fsdb)
{
        if (fsdb->fsdb_ir_state == IR_STARTUP) {
                if (ktime_get_real_seconds() >
                    fsdb->fsdb_mgs->mgs_start_time + ir_timeout) {
                        fsdb->fsdb_ir_state = IR_FULL;
                        if (fsdb->fsdb_nonir_clients)
                                fsdb->fsdb_ir_state = IR_PARTIAL;
                }
        }
}

int mgs_ir_update(const struct lu_env *env, struct mgs_device *mgs,
                  struct mgs_target_info *mti)
{
        struct fs_db *fsdb;
        bool notify = true;
        int rc;

        if (mti->mti_instance == 0)
                return -EINVAL;

        rc = mgs_find_or_make_fsdb(env, mgs, mti->mti_fsname, &fsdb);
        if (rc)
                return rc;

        rc = mgs_nidtbl_write(env, fsdb, mti);
        if (rc)
                GOTO(out, rc);

        /* check ir state */
        mutex_lock(&fsdb->fsdb_mutex);
        ir_state_graduate(fsdb);
        switch (fsdb->fsdb_ir_state) {
        case IR_FULL:
                mti->mti_flags |= LDD_F_IR_CAPABLE;
                break;
        case IR_DISABLED:
                notify = false;
        case IR_STARTUP:
        case IR_PARTIAL:
                break;
        default:
                LBUG();
        }
        mutex_unlock(&fsdb->fsdb_mutex);

        LASSERT(ergo(mti->mti_flags & LDD_F_IR_CAPABLE, notify));
        if (notify) {
                CDEBUG(D_MGS, "Try to revoke recover lock of %s\n",
                       fsdb->fsdb_name);
                atomic_inc(&fsdb->fsdb_notify_phase);
                wake_up(&fsdb->fsdb_notify_waitq);
        }

out:
        mgs_put_fsdb(mgs, fsdb);
        return rc;
}

/* NID table can be cached by two entities: Clients and MDTs */
enum {
        IR_CLIENT  = 1,
        IR_MDT     = 2
};

static int delogname(char *logname, char *fsname, int *typ)
{
        char *ptr;
        int type;
        int len;

        ptr = strrchr(logname, '-');
        if (!ptr)
                return -EINVAL;

        /*
         * decouple file system name. The llog name may be:
         * - "prefix-fsname", prefix is "cliir" or "mdtir"
         */
        if (strncmp(ptr, "-mdtir", 6) == 0)
                type = IR_MDT;
        else if (strncmp(ptr, "-cliir", 6) == 0)
                type = IR_CLIENT;
        else
                return -EINVAL;

        len = ptr - logname;
        if (len == 0)
                return -EINVAL;

        memcpy(fsname, logname, len);
        fsname[len] = 0;
        if (typ)
                *typ = type;
        return 0;
}

int mgs_get_ir_logs(struct ptlrpc_request *req)
{
        struct lu_env *env = req->rq_svc_thread->t_env;
        struct mgs_device *mgs = exp2mgs_dev(req->rq_export);
        struct fs_db *fsdb = NULL;
        struct mgs_config_body *body;
        struct mgs_config_res *res;
        struct ptlrpc_bulk_desc *desc;
        char fsname[16];
        long bufsize;
        int unit_size;
        int type;
        int rc = 0;
        int i;
        int bytes;
        int page_count;
        int nrpages;
        struct page **pages = NULL;

        ENTRY;

        body = req_capsule_client_get(&req->rq_pill, &RMF_MGS_CONFIG_BODY);
        if (!body)
                RETURN(-EINVAL);

        if (body->mcb_type != CONFIG_T_RECOVER)
                RETURN(-EINVAL);

        rc = delogname(body->mcb_name, fsname, &type);
        if (rc)
                RETURN(rc);

        bufsize = body->mcb_units << body->mcb_bits;
        nrpages = (bufsize + PAGE_SIZE - 1) >> PAGE_SHIFT;
        if (nrpages > PTLRPC_MAX_BRW_PAGES)
                RETURN(-EINVAL);

        rc = mgs_find_or_make_fsdb(env, mgs, fsname, &fsdb);
        if (rc)
                RETURN(rc);

        CDEBUG(D_MGS, "Reading IR log %s bufsize %ld.\n",
               body->mcb_name, bufsize);

        OBD_ALLOC_PTR_ARRAY(pages, nrpages);
        if (!pages)
                GOTO(out, rc = -ENOMEM);

        res = req_capsule_server_get(&req->rq_pill, &RMF_MGS_CONFIG_RES);
        if (!res)
                GOTO(out, rc = -EINVAL);

        res->mcr_offset = body->mcb_offset;
        unit_size = min_t(int, 1 << body->mcb_bits, PAGE_SIZE);
        bytes = mgs_nidtbl_read(req->rq_export, &fsdb->fsdb_nidtbl, res,
                                pages, nrpages, bufsize / unit_size, unit_size);
        if (bytes < 0)
                GOTO(out, rc = bytes);

        /* start bulk transfer */
        page_count = (bytes + PAGE_SIZE - 1) >> PAGE_SHIFT;
        LASSERT(page_count <= nrpages);
        desc = ptlrpc_prep_bulk_exp(req, page_count, 1,
                                    PTLRPC_BULK_PUT_SOURCE,
                                    MGS_BULK_PORTAL,
                                    &ptlrpc_bulk_kiov_pin_ops);
        if (!desc)
                GOTO(out, rc = -ENOMEM);

        for (i = 0; i < page_count && bytes > 0; i++) {
                desc->bd_frag_ops->add_kiov_frag(desc, pages[i], 0,
                                                 min_t(int, bytes,
                                                      PAGE_SIZE));
                bytes -= PAGE_SIZE;
        }

        rc = target_bulk_io(req->rq_export, desc);
        ptlrpc_free_bulk(desc);

        GOTO(out, rc);

out:
        if (pages) {
                for (i = 0; i < nrpages; i++) {
                        if (!pages[i])
                                break;

                        __free_page(pages[i]);
                }

                OBD_FREE_PTR_ARRAY(pages, nrpages);
        }

        if (fsdb)
                mgs_put_fsdb(mgs, fsdb);

        return rc;
}

static int lprocfs_ir_set_state(struct fs_db *fsdb, const char *buf)
{
        const char *strings[] = IR_STRINGS;
        int state = -1;
        int i;

        for (i = 0; i < ARRAY_SIZE(strings); i++) {
                if (strcmp(strings[i], buf) == 0) {
                        state = i;
                        break;
                }
        }
        if (state < 0)
                return -EINVAL;

        CDEBUG(D_MGS, "change fsr state of %s from %s to %s\n",
               fsdb->fsdb_name, strings[fsdb->fsdb_ir_state], strings[state]);
        mutex_lock(&fsdb->fsdb_mutex);
        if (state == IR_FULL && fsdb->fsdb_nonir_clients)
                state = IR_PARTIAL;
        fsdb->fsdb_ir_state = state;
        mutex_unlock(&fsdb->fsdb_mutex);

        return 0;
}

static int lprocfs_ir_set_timeout(struct fs_db *fsdb, const char *buf)
{
        return -EINVAL;
}

static int lprocfs_ir_clear_stats(struct fs_db *fsdb, const char *buf)
{
        if (*buf)
                return -EINVAL;

        fsdb->fsdb_notify_total = ktime_set(0, 0);
        fsdb->fsdb_notify_max = ktime_set(0, 0);
        fsdb->fsdb_notify_count = 0;
        return 0;
}

static struct lproc_ir_cmd {
        char *name;
        int namelen;
        int (*handler)(struct fs_db *, const char *);
} ir_cmds[] = {
        { "state=",   6, lprocfs_ir_set_state },
        { "timeout=", 8, lprocfs_ir_set_timeout },
        { "0",        1, lprocfs_ir_clear_stats }
};

int lprocfs_wr_ir_state(struct file *file, const char __user *buffer,
                        size_t count, void *data)
{
        struct fs_db *fsdb = data;
        char *kbuf;
        char *ptr;
        int rc = 0;

        if (count == 0 || count >= PAGE_SIZE)
                return -EINVAL;

        OBD_ALLOC(kbuf, count + 1);
        if (!kbuf)
                return -ENOMEM;

        if (copy_from_user(kbuf, buffer, count)) {
                OBD_FREE(kbuf, count + 1);
                return -EFAULT;
        }

        kbuf[count] = 0; /* buffer is supposed to end with 0 */
        if (kbuf[count - 1] == '\n')
                kbuf[count - 1] = 0;
        ptr = kbuf;

        /* fsname=<file system name> must be the 1st entry */
        while (ptr) {
                char *tmpptr;
                int i;

                tmpptr = strchr(ptr, ';');
                if (tmpptr)
                        *tmpptr++ = 0;

                rc = -EINVAL;
                for (i = 0; i < ARRAY_SIZE(ir_cmds); i++) {
                        struct lproc_ir_cmd *cmd;
                        int cmdlen;

                        cmd    = &ir_cmds[i];
                        cmdlen = cmd->namelen;
                        if (strncmp(cmd->name, ptr, cmdlen) == 0) {
                                ptr += cmdlen;
                                rc = cmd->handler(fsdb, ptr);
                                break;
                        }
                }
                if (rc)
                        break;

                ptr = tmpptr;
        }
        if (rc)
                CERROR("Unable to process command: %s(%d)\n", ptr, rc);
        OBD_FREE(kbuf, count + 1);
        return rc ?: count;
}

int lprocfs_rd_ir_state(struct seq_file *seq, void *data)
{
        struct fs_db *fsdb = data;
        struct mgs_nidtbl *tbl = &fsdb->fsdb_nidtbl;
        const char *ir_strings[] = IR_STRINGS;
        struct timespec64 ts_max;
        struct timespec64 ts;

        /* mgs_live_seq_show() already holds fsdb_mutex. */
        ir_state_graduate(fsdb);

        seq_printf(seq, "\nimperative_recovery_state:\n");
        seq_printf(seq,
                   "    state: %s\n"
                   "    nonir_clients: %d\n"
                   "    nidtbl_version: %lld\n",
                   ir_strings[fsdb->fsdb_ir_state], fsdb->fsdb_nonir_clients,
                   tbl->mn_version);

        ts = ktime_to_timespec64(fsdb->fsdb_notify_total);
        ts_max = ktime_to_timespec64(fsdb->fsdb_notify_max);

        seq_printf(seq, "    notify_duration_total: %lld.%09ld\n"
                        "    notify_duation_max: %lld.%09ld\n"
                        "    notify_count: %u\n",
                   (s64)ts.tv_sec, ts.tv_nsec,
                   (s64)ts_max.tv_sec, ts_max.tv_nsec,
                   fsdb->fsdb_notify_count);

        return 0;
}

int lprocfs_ir_timeout_seq_show(struct seq_file *m, void *data)
{
        seq_printf(m, "%lld\n", ir_timeout);
        return 0;
}

ssize_t lprocfs_ir_timeout_seq_write(struct file *file,
                                     const char __user *buffer,
                                     size_t count, loff_t *off)
{
        return kstrtoll_from_user(buffer, count, 0, &ir_timeout);
}

/* --------------- Handle non IR support clients --------------- */
/* attach a lustre file system to an export */
int mgs_fsc_attach(const struct lu_env *env, struct obd_export *exp,
                   char *fsname)
{
        struct mgs_export_data *data = &exp->u.eu_mgs_data;
        struct mgs_device *mgs = exp2mgs_dev(exp);
        struct fs_db *fsdb = NULL;
        struct mgs_fsc *fsc = NULL;
        struct mgs_fsc *new_fsc = NULL;
        bool found = false;
        int rc;

        ENTRY;

        rc = mgs_find_or_make_fsdb(env, mgs, fsname, &fsdb);
        if (rc)
                RETURN(rc);

        /* allocate a new fsc in case we need it in spinlock. */
        OBD_ALLOC_PTR(new_fsc);
        if (!new_fsc)
                GOTO(out, rc = -ENOMEM);

        INIT_LIST_HEAD(&new_fsc->mfc_export_list);
        INIT_LIST_HEAD(&new_fsc->mfc_fsdb_list);
        new_fsc->mfc_fsdb       = fsdb;
        new_fsc->mfc_export     = class_export_get(exp);
        new_fsc->mfc_ir_capable = !!(exp_connect_flags(exp) &
                                     OBD_CONNECT_IMP_RECOV);

        rc = -EEXIST;
        mutex_lock(&fsdb->fsdb_mutex);

        /* tend to find it in export list because this list is shorter. */
        spin_lock(&data->med_lock);
        list_for_each_entry(fsc, &data->med_clients, mfc_export_list) {
                if (strcmp(fsname, fsc->mfc_fsdb->fsdb_name) == 0) {
                        found = true;
                        break;
                }
        }
        if (!found) {
                fsc = new_fsc;
                new_fsc = NULL;

                /* add it into export list. */
                list_add(&fsc->mfc_export_list, &data->med_clients);

                /* add into fsdb list. */
                list_add(&fsc->mfc_fsdb_list, &fsdb->fsdb_clients);
                if (!fsc->mfc_ir_capable) {
                        ++fsdb->fsdb_nonir_clients;
                        if (fsdb->fsdb_ir_state == IR_FULL)
                                fsdb->fsdb_ir_state = IR_PARTIAL;
                }
                rc = 0;
        }
        spin_unlock(&data->med_lock);
        mutex_unlock(&fsdb->fsdb_mutex);

        if (new_fsc) {
                class_export_put(new_fsc->mfc_export);
                OBD_FREE_PTR(new_fsc);
        }

out:
        mgs_put_fsdb(mgs, fsdb);
        RETURN(rc);
}

void mgs_fsc_cleanup(struct obd_export *exp)
{
        struct mgs_export_data *data = &exp->u.eu_mgs_data;
        struct mgs_fsc *fsc, *tmp;
        LIST_HEAD(head);

        spin_lock(&data->med_lock);
        list_splice_init(&data->med_clients, &head);
        spin_unlock(&data->med_lock);

        list_for_each_entry_safe(fsc, tmp, &head, mfc_export_list) {
                struct fs_db *fsdb = fsc->mfc_fsdb;

                LASSERT(fsc->mfc_export == exp);

                mutex_lock(&fsdb->fsdb_mutex);
                list_del_init(&fsc->mfc_fsdb_list);
                if (fsc->mfc_ir_capable == 0) {
                        --fsdb->fsdb_nonir_clients;
                        LASSERT(fsdb->fsdb_ir_state != IR_FULL);
                        if (fsdb->fsdb_nonir_clients == 0 &&
                            fsdb->fsdb_ir_state == IR_PARTIAL)
                                fsdb->fsdb_ir_state = IR_FULL;
                }
                mutex_unlock(&fsdb->fsdb_mutex);
                list_del_init(&fsc->mfc_export_list);
                class_export_put(fsc->mfc_export);
                OBD_FREE_PTR(fsc);
        }
}

/* must be called with fsdb->fsdb_mutex held */
void mgs_fsc_cleanup_by_fsdb(struct fs_db *fsdb)
{
        struct mgs_fsc *fsc, *tmp;

        list_for_each_entry_safe(fsc, tmp, &fsdb->fsdb_clients,
                                     mfc_fsdb_list) {
                struct mgs_export_data *data = &fsc->mfc_export->u.eu_mgs_data;

                LASSERT(fsdb == fsc->mfc_fsdb);
                list_del_init(&fsc->mfc_fsdb_list);

                spin_lock(&data->med_lock);
                list_del_init(&fsc->mfc_export_list);
                spin_unlock(&data->med_lock);
                class_export_put(fsc->mfc_export);
                OBD_FREE_PTR(fsc);
        }

        fsdb->fsdb_nonir_clients = 0;
        if (fsdb->fsdb_ir_state == IR_PARTIAL)
                fsdb->fsdb_ir_state = IR_FULL;
}