LU-15167 quota: fallocate send UID/GID for quota

[fs/lustre-release.git] / lustre / quota / qmt_pool.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, write to the
 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
 * Boston, MA 021110-1307, USA
 *
 * GPL HEADER END
 */
/*
 * Copyright (c) 2012, 2017, Intel Corporation.
 * Use is subject to license terms.
 *
 * Author: Johann Lombardi <johann.lombardi@intel.com>
 * Author: Niu    Yawei    <yawei.niu@intel.com>
 */

/*
 * A Quota Master Target has a list(qmt_pool_list) where it stores qmt_pool_info
 * structures. There is one such structure for each pool managed by the QMT.
 *
 * Each pool can have different quota types enforced (typically user & group
 * quota). A pool is in charge of managing lquota_entry structures for each
 * quota type. This is done by creating one lquota_entry site per quota
 * type. A site stores entries in a hash table and read quota settings from disk
 * when a given ID isn't present in the hash.
 *
 * The pool API exported here is the following:
 * - qmt_pool_init(): initializes the general QMT structures used to manage
 *                    pools.
 * - qmt_pool_fini(): frees the structures allocated by qmt_pool_fini().
 * - qmt_pool_prepare(): sets up the on-disk indexes associated with each pool.
 * - qmt_pool_new_conn(): is used to create a new slave index file.
 * - qmt_pool_lqe_lookup(): returns an up-to-date lquota entry associated with
 *                          a given ID.
 */

#define DEBUG_SUBSYSTEM S_LQUOTA

#include <obd_class.h>
#include <lprocfs_status.h>
#include "qmt_internal.h"

static inline int qmt_sarr_pool_init(struct qmt_pool_info *qpi);
static inline int qmt_sarr_pool_add(struct qmt_pool_info *qpi,
                                    int idx, int min);
static inline int qmt_sarr_pool_rem(struct qmt_pool_info *qpi, int idx);
static inline void qmt_sarr_pool_free(struct qmt_pool_info *qpi);
static inline int qmt_sarr_check_idx(struct qmt_pool_info *qpi, int idx);
static inline void qmt_stop_pool_recalc(struct qmt_pool_info *qpi);

/*
 * Static helper functions not used outside the scope of this file
 */

static inline void qpi_putref_locked(struct qmt_pool_info *pool)
{
        LASSERT(atomic_read(&pool->qpi_ref) > 1);
        atomic_dec(&pool->qpi_ref);
}

/* some procfs helpers */
static int qpi_state_seq_show(struct seq_file *m, void *data)
{
        struct qmt_pool_info    *pool = m->private;
        int                      type;

        LASSERT(pool != NULL);

        seq_printf(m, "pool:\n"
                   "    id: %u\n"
                   "    type: %s\n"
                   "    ref: %d\n"
                   "    least qunit: %lu\n",
                   0,
                   RES_NAME(pool->qpi_rtype),
                   atomic_read(&pool->qpi_ref),
                   pool->qpi_least_qunit);

        for (type = 0; type < LL_MAXQUOTAS; type++)
                seq_printf(m, "    %s:\n"
                           "        #slv: %d\n"
                           "        #lqe: %d\n",
                           qtype_name(type),
                           qpi_slv_nr(pool, type),
                    atomic_read(&pool->qpi_site[type]->lqs_hash->hs_count));

        return 0;
}
LPROC_SEQ_FOPS_RO(qpi_state);

static int qpi_soft_least_qunit_seq_show(struct seq_file *m, void *data)
{
        struct qmt_pool_info    *pool = m->private;
        LASSERT(pool != NULL);

        seq_printf(m, "%lu\n", pool->qpi_soft_least_qunit);
        return 0;
}

static ssize_t
qpi_soft_least_qunit_seq_write(struct file *file, const char __user *buffer,
                               size_t count, loff_t *off)
{
        struct seq_file *m = file->private_data;
        struct qmt_pool_info *pool = m->private;
        long long least_qunit, qunit;
        int rc;

        LASSERT(pool != NULL);

        /* Not tuneable for inode limit */
        if (pool->qpi_rtype != LQUOTA_RES_DT)
                return -EINVAL;

        rc = kstrtoll_from_user(buffer, count, 0, &least_qunit);
        if (rc)
                return rc;

        /* Miminal qpi_soft_least_qunit */
        qunit = pool->qpi_least_qunit << 2;
        /* The value must be power of miminal qpi_soft_least_qunit, see
         * how the qunit is adjusted in qmt_adjust_qunit(). */
        while (qunit > 0 && qunit < least_qunit)
                qunit <<= 2;
        if (qunit <= 0)
                qunit = INT_MAX & ~3;

        pool->qpi_soft_least_qunit = qunit;
        return count;
}
LPROC_SEQ_FOPS(qpi_soft_least_qunit);

static struct lprocfs_vars lprocfs_quota_qpi_vars[] = {
        { .name =       "info",
          .fops =       &qpi_state_fops },
        { .name =       "soft_least_qunit",
          .fops =       &qpi_soft_least_qunit_fops },
        { NULL }
};

/*
 * Allocate a new qmt_pool_info structure and add it to qmt_pool_list.
 *
 * \param env       - is the environment passed by the caller
 * \param qmt       - is the quota master target
 * \param pool_type - is the resource type of this pool instance, either
 *                    LQUOTA_RES_MD or LQUOTA_RES_DT.
 *
 * \retval - 0 on success, appropriate error on failure
 */
static int qmt_pool_alloc(const struct lu_env *env, struct qmt_device *qmt,
                          char *pool_name, int pool_type)
{
        struct qmt_thread_info  *qti = qmt_info(env);
        struct qmt_pool_info    *pool;
        int                      rc = 0;
        ENTRY;

        OBD_ALLOC_PTR(pool);
        if (pool == NULL)
                RETURN(-ENOMEM);
        INIT_LIST_HEAD(&pool->qpi_linkage);
        init_rwsem(&pool->qpi_recalc_sem);

        pool->qpi_rtype = pool_type;

        /* initialize refcount to 1, hash table will then grab an additional
         * reference */
        atomic_set(&pool->qpi_ref, 1);

        /* set up least qunit size to use for this pool */
        pool->qpi_least_qunit = LQUOTA_LEAST_QUNIT(pool_type);
        if (pool_type == LQUOTA_RES_DT)
                pool->qpi_soft_least_qunit = pool->qpi_least_qunit << 2;
        else
                pool->qpi_soft_least_qunit = pool->qpi_least_qunit;

        /* grab reference on master target that this pool belongs to */
        lu_device_get(qmt2lu_dev(qmt));
        lu_ref_add(&qmt2lu_dev(qmt)->ld_reference, "pool", pool);
        pool->qpi_qmt = qmt;

        /* create pool proc directory */
        snprintf(qti->qti_buf, LQUOTA_NAME_MAX, "%s-%s",
                 RES_NAME(pool_type), pool_name);
        strncpy(pool->qpi_name, pool_name, QPI_MAXNAME);
        pool->qpi_proc = lprocfs_register(qti->qti_buf, qmt->qmt_proc,
                                          lprocfs_quota_qpi_vars, pool);
        if (IS_ERR(pool->qpi_proc)) {
                rc = PTR_ERR(pool->qpi_proc);
                CERROR("%s: failed to create proc entry for pool %s (%d)\n",
                       qmt->qmt_svname, qti->qti_buf, rc);
                pool->qpi_proc = NULL;
                GOTO(out, rc);
        }

        rc = qmt_sarr_pool_init(pool);
        if (rc)
                GOTO(out, rc);

        /* add to qmt pool list */
        down_write(&qmt->qmt_pool_lock);
        list_add_tail(&pool->qpi_linkage, &qmt->qmt_pool_list);
        up_write(&qmt->qmt_pool_lock);
        EXIT;
out:
        if (rc)
                /* this frees the pool structure since refcount is equal to 1 */
                qpi_putref(env, pool);
        return rc;
}

/*
 * Delete a qmt_pool_info instance and all structures associated.
 *
 * \param env  - is the environment passed by the caller
 * \param pool - is the qmt_pool_info structure to free
 */
void qmt_pool_free(const struct lu_env *env, struct qmt_pool_info *pool)
{
        struct  qmt_device *qmt = pool->qpi_qmt;
        int     qtype;
        ENTRY;

        /* remove from list */
        down_write(&qmt->qmt_pool_lock);
        list_del_init(&pool->qpi_linkage);
        up_write(&qmt->qmt_pool_lock);

        if (atomic_read(&pool->qpi_ref) > 0)
                RETURN_EXIT;

        qmt_stop_pool_recalc(pool);
        qmt_sarr_pool_free(pool);

        /* release proc entry */
        if (pool->qpi_proc) {
                lprocfs_remove(&pool->qpi_proc);
                pool->qpi_proc = NULL;
        }

        /* release per-quota type site used to manage quota entries as well as
         * references to global index files */
        for (qtype = 0; qtype < LL_MAXQUOTAS; qtype++) {
                /* release lqe storing grace time */
                if (pool->qpi_grace_lqe[qtype] != NULL)
                        lqe_putref(pool->qpi_grace_lqe[qtype]);

                /* release site */
                if (pool->qpi_site[qtype] != NULL &&
                    !IS_ERR(pool->qpi_site[qtype]))
                        lquota_site_free(env, pool->qpi_site[qtype]);
                /* release reference to global index */
                if (pool->qpi_glb_obj[qtype] != NULL &&
                    !IS_ERR(pool->qpi_glb_obj[qtype]))
                        dt_object_put(env, pool->qpi_glb_obj[qtype]);
        }

        /* release reference on pool directory */
        if (pool->qpi_root != NULL && !IS_ERR(pool->qpi_root))
                dt_object_put(env, pool->qpi_root);

        /* release reference on the master target */
        if (pool->qpi_qmt != NULL) {
                struct lu_device *ld = qmt2lu_dev(pool->qpi_qmt);

                lu_ref_del(&ld->ld_reference, "pool", pool);
                lu_device_put(ld);
                pool->qpi_qmt = NULL;
        }

        LASSERT(list_empty(&pool->qpi_linkage));
        OBD_FREE_PTR(pool);
}

static inline void qti_pools_init(const struct lu_env *env)
{
        struct qmt_thread_info  *qti = qmt_info(env);

        qti->qti_pools_cnt = 0;
        qti->qti_pools_num = QMT_MAX_POOL_NUM;
}

#define qti_pools(qti)  (qti->qti_pools_num > QMT_MAX_POOL_NUM ? \
                                qti->qti_pools : qti->qti_pools_small)
#define qti_pools_env(env) \
        (qmt_info(env)->qti_pools_num > QMT_MAX_POOL_NUM ? \
                qmt_info(env)->qti_pools : qmt_info(env)->qti_pools_small)
#define qti_pools_cnt(env)      (qmt_info(env)->qti_pools_cnt)

static inline int qti_pools_add(const struct lu_env *env,
                                struct qmt_pool_info *qpi)
{
        struct qmt_thread_info  *qti = qmt_info(env);
        struct qmt_pool_info    **pools = qti->qti_pools;

        pools = qti_pools(qti);
        LASSERTF(qti->qti_pools_num >= QMT_MAX_POOL_NUM,
                 "Forgot init? %p\n", qti);

        if (qti->qti_pools_cnt >= qti->qti_pools_num) {
                OBD_ALLOC(pools, sizeof(qpi) * qti->qti_pools_num * 2);
                if (!pools)
                        return -ENOMEM;
                memcpy(pools, qti_pools(qti), qti->qti_pools_cnt * sizeof(qpi));
                /* Don't need to free, if it is the very 1st allocation */
                if (qti->qti_pools_num > QMT_MAX_POOL_NUM)
                        OBD_FREE(qti->qti_pools,
                                 qti->qti_pools_num * sizeof(qpi));
                qti->qti_pools = pools;
                qti->qti_pools_num *= 2;
        }

        qpi_getref(qpi);
        /* Take this to protect pool's lqes against changing by
         * recalculation thread. This would be unlocked at
         * qti_pools_fini. */
        down_read(&qpi->qpi_recalc_sem);
        if (qmt_pool_global(qpi) && qti_pools_cnt(env) > 0) {
                pools[qti->qti_pools_cnt++] = pools[0];
                /* Store global pool always at index 0 */
                pools[0] = qpi;
        } else {
                pools[qti->qti_pools_cnt++] = qpi;
        }

        CDEBUG(D_QUOTA, "Pool %s is added, pools %p qti_pools %p pool_num %d\n",
               qpi->qpi_name, pools, qti->qti_pools, qti->qti_pools_cnt);

        return 0;
}

static inline void qti_pools_fini(const struct lu_env *env)
{
        struct qmt_thread_info  *qti = qmt_info(env);
        struct qmt_pool_info    **pools = qti->qti_pools;
        int i;

        LASSERT(qti->qti_pools_cnt > 0);

        pools = qti_pools(qti);
        for (i = 0; i < qti->qti_pools_cnt; i++) {
                up_read(&pools[i]->qpi_recalc_sem);
                qpi_putref(env, pools[i]);
        }

        if (qti->qti_pools_num > QMT_MAX_POOL_NUM)
                OBD_FREE(qti->qti_pools,
                         qti->qti_pools_num * sizeof(struct qmt_pool_info *));
}

/*
 * Look-up a pool in a list based on the type.
 *
 * \param env   - is the environment passed by the caller
 * \param qmt   - is the quota master target
 * \param rtype - is the type of this pool, either LQUOTA_RES_MD or
 *                    LQUOTA_RES_DT.
 * \param pool_name - is the pool name to search for
 * \param idx   - OST or MDT index to search for. When it is >= 0, function
 *              returns array with pointers to all pools that include
 *              targets with requested index.
 * \param add   - add to qti_pool_arr if true
 */
struct qmt_pool_info *qmt_pool_lookup(const struct lu_env *env,
                                             struct qmt_device *qmt,
                                             int rtype,
                                             char *pool_name,
                                             int idx, bool add)
{
        struct qmt_pool_info    *pos, *pool;
        int rc;
        ENTRY;

        down_read(&qmt->qmt_pool_lock);
        if (list_empty(&qmt->qmt_pool_list)) {
                up_read(&qmt->qmt_pool_lock);
                RETURN(ERR_PTR(-ENOENT));
        }

        CDEBUG(D_QUOTA, "type %d name %s index %d\n",
               rtype, pool_name ?: "<none>", idx);
        /* Now just find a pool with correct type in a list. Further we need
         * to go through the list and find a pool that includes requested OST
         * or MDT. Possibly this would return a list of pools that includes
         * needed target(OST/MDT). */
        pool = NULL;
        if (idx == -1 && !pool_name)
                pool_name = GLB_POOL_NAME;

        list_for_each_entry(pos, &qmt->qmt_pool_list, qpi_linkage) {
                if (pos->qpi_rtype != rtype)
                        continue;

                if (idx >= 0 && !qmt_sarr_check_idx(pos, idx)) {
                        rc = qti_pools_add(env, pos);
                        if (rc)
                                GOTO(out_err, rc);
                        continue;
                }

                if (pool_name && !strncmp(pool_name, pos->qpi_name,
                                          LOV_MAXPOOLNAME)) {
                        pool = pos;
                        if (add) {
                                rc = qti_pools_add(env, pos);
                                if (rc)
                                        GOTO(out_err, rc);
                        } else {
                                qpi_getref(pool);
                        }
                        break;
                }
        }
        up_read(&qmt->qmt_pool_lock);

        if (idx >= 0 && qti_pools_cnt(env))
                pool = qti_pools_env(env)[0];

        RETURN(pool ? : ERR_PTR(-ENOENT));
out_err:
        CERROR("%s: cannot add pool %s: err = %d\n",
                qmt->qmt_svname, pos->qpi_name, rc);
        RETURN(ERR_PTR(rc));
}

/*
 * Functions implementing the pool API, used by the qmt handlers
 */

/*
 * Destroy all pools which are still in the pool list.
 *
 * \param env - is the environment passed by the caller
 * \param qmt - is the quota master target
 *
 */
void qmt_pool_fini(const struct lu_env *env, struct qmt_device *qmt)
{
        struct qmt_pool_info *pool, *tmp;
        ENTRY;

        /* parse list of pool and destroy each element */
        list_for_each_entry_safe(pool, tmp, &qmt->qmt_pool_list, qpi_linkage) {
                /* release extra reference taken in qmt_pool_alloc */
                qpi_putref(env, pool);
        }
        LASSERT(list_empty(&qmt->qmt_pool_list));

        EXIT;
}

/*
 * Initialize pool configure for the quota master target. For now, we only
 * support the default data (i.e. all OSTs) and metadata (i.e. all the MDTs)
 * pool which are instantiated in this function.
 *
 * \param env - is the environment passed by the caller
 * \param qmt - is the quota master target for which we have to initialize the
 *              pool configuration
 *
 * \retval - 0 on success, appropriate error on failure
 */
int qmt_pool_init(const struct lu_env *env, struct qmt_device *qmt)
{
        int     res, rc = 0;
        ENTRY;

        INIT_LIST_HEAD(&qmt->qmt_pool_list);
        init_rwsem(&qmt->qmt_pool_lock);

        /* Instantiate pool master for the default data and metadata pool.
         * This code will have to be revisited once we support quota on
         * non-default pools */
        for (res = LQUOTA_FIRST_RES; res < LQUOTA_LAST_RES; res++) {
                rc = qmt_pool_alloc(env, qmt, GLB_POOL_NAME, res);
                if (rc)
                        break;
        }

        if (rc)
                qmt_pool_fini(env, qmt);

        RETURN(rc);
}

static int qmt_slv_cnt(const struct lu_env *env, struct lu_fid *glb_fid,
                       char *slv_name, struct lu_fid *slv_fid, void *arg)
{
        struct obd_uuid uuid;
        int (*nr)[QMT_STYPE_CNT][LL_MAXQUOTAS] = arg;
        int stype, qtype;
        int rc;

        rc = lquota_extract_fid(glb_fid, NULL, &qtype);
        LASSERT(!rc);

        obd_str2uuid(&uuid, slv_name);
        stype = qmt_uuid2idx(&uuid, NULL);
        if (stype < 0)
                return stype;
        /* one more slave */
        (*nr)[stype][qtype]++;
        CDEBUG(D_QUOTA, "slv_name %s stype %d qtype %d nr %d\n",
                        slv_name, stype, qtype, (*nr)[stype][qtype]);

        return 0;
}

/*
 * Set up on-disk index files associated with each pool.
 *
 * \param env - is the environment passed by the caller
 * \param qmt - is the quota master target for which we have to initialize the
 *              pool configuration
 * \param qmt_root - is the on-disk directory created for the QMT.
 * \param name - is the pool name that we need to setup. Setup all pools
 *               in qmt_pool_list when name is NULL.
 *
 * \retval - 0 on success, appropriate error on failure
 */
int qmt_pool_prepare(const struct lu_env *env, struct qmt_device *qmt,
                     struct dt_object *qmt_root, char *name)
{
        struct qmt_thread_info  *qti = qmt_info(env);
        struct lquota_glb_rec   *rec = &qti->qti_glb_rec;
        struct qmt_pool_info    *pool;
        struct dt_device        *dev = NULL;
        dt_obj_version_t         version;
        struct list_head        *pos;
        int                      rc = 0, i, qtype;
        ENTRY;

        /* iterate over each pool in the list and allocate a quota site for each
         * one. This involves creating a global index file on disk */
        list_for_each(pos, &qmt->qmt_pool_list) {
                struct dt_object        *obj;
                struct lquota_entry     *lqe;
                char                    *pool_name;
                int                      rtype;

                pool = list_entry(pos, struct qmt_pool_info,
                                  qpi_linkage);

                pool_name = pool->qpi_name;
                if (name && strncmp(pool_name, name, LOV_MAXPOOLNAME))
                        continue;
                rtype = pool->qpi_rtype;
                if (dev == NULL)
                        dev = pool->qpi_qmt->qmt_child;

                /* allocate directory for this pool */
                snprintf(qti->qti_buf, LQUOTA_NAME_MAX, "%s-%s",
                         RES_NAME(rtype), pool_name);
                obj = lquota_disk_dir_find_create(env, qmt->qmt_child, qmt_root,
                                                  qti->qti_buf);
                if (IS_ERR(obj))
                        RETURN(PTR_ERR(obj));
                pool->qpi_root = obj;

                for (qtype = 0; qtype < LL_MAXQUOTAS; qtype++) {
                        /* Generating FID of global index in charge of storing
                         * settings for this quota type */
                        lquota_generate_fid(&qti->qti_fid, rtype, qtype);

                        /* open/create the global index file for this quota
                         * type. If name is set, it means we came here from
                         * qmt_pool_new and can create glb index with a
                         * local generated FID. */
                        obj = lquota_disk_glb_find_create(env, dev,
                                                          pool->qpi_root,
                                                          &qti->qti_fid,
                                                          name ? true : false);
                        if (IS_ERR(obj)) {
                                rc = PTR_ERR(obj);
                                CERROR("%s: failed to create glb index copy for %s type: rc = %d\n",
                                       qmt->qmt_svname, qtype_name(qtype), rc);
                                RETURN(rc);
                        }

                        pool->qpi_glb_obj[qtype] = obj;

                        version = dt_version_get(env, obj);
                        /* set default grace time for newly created index */
                        if (version == 0) {
                                rec->qbr_hardlimit = 0;
                                rec->qbr_softlimit = 0;
                                rec->qbr_granted = 0;
                                rec->qbr_time = rtype == LQUOTA_RES_MD ?
                                        MAX_IQ_TIME : MAX_DQ_TIME;

                                rc = lquota_disk_write_glb(env, obj, 0, rec);
                                if (rc) {
                                        CERROR("%s: failed to set default grace time for %s type: rc = %d\n",
                                               qmt->qmt_svname, qtype_name(qtype), rc);
                                        RETURN(rc);
                                }

                                rc = lquota_disk_update_ver(env, dev, obj, 1);
                                if (rc) {
                                        CERROR("%s: failed to set initial version for %s type: rc = %d\n",
                                               qmt->qmt_svname, qtype_name(qtype), rc);
                                        RETURN(rc);
                                }
                        }

                        /* create quota entry site for this quota type */
                        pool->qpi_site[qtype] = lquota_site_alloc(env, pool,
                                                                  true, qtype,
                                                                  &qmt_lqe_ops);
                        if (IS_ERR(pool->qpi_site[qtype])) {
                                rc = PTR_ERR(pool->qpi_site[qtype]);
                                CERROR("%s: failed to create site for %s type: rc = %d\n",
                                       qmt->qmt_svname, qtype_name(qtype), rc);
                                RETURN(rc);
                        }

                        /* count number of slaves which already connected to
                         * the master in the past */
                        for (i = 0; i < QMT_STYPE_CNT; i++)
                                pool->qpi_slv_nr[i][qtype] = 0;

                        rc = lquota_disk_for_each_slv(env, pool->qpi_root,
                                                      &qti->qti_fid,
                                                      qmt_slv_cnt,
                                                      &pool->qpi_slv_nr);
                        if (rc) {
                                CERROR("%s: failed to scan & count slave indexes for %s type: rc = %d\n",
                                       qmt->qmt_svname, qtype_name(qtype), rc);
                                RETURN(rc);
                        }

                        /* Global grace time is stored in quota settings of
                         * ID 0. */
                        qti->qti_id.qid_uid = 0;

                        /* look-up quota entry storing grace time */
                        lqe = lqe_locate(env, pool->qpi_site[qtype],
                                         &qti->qti_id);
                        if (IS_ERR(lqe))
                                RETURN(PTR_ERR(lqe));
                        pool->qpi_grace_lqe[qtype] = lqe;
#ifdef CONFIG_PROC_FS
                        /* add procfs file to dump the global index, mostly for
                         * debugging purpose */
                        snprintf(qti->qti_buf, MTI_NAME_MAXLEN,
                                 "glb-%s", qtype_name(qtype));
                        rc = lprocfs_seq_create(pool->qpi_proc, qti->qti_buf,
                                                0444, &lprocfs_quota_seq_fops,
                                                obj);
                        if (rc)
                                CWARN("%s: Error adding procfs file for global quota index "DFID": rc = %d\n",
                                      qmt->qmt_svname, PFID(&qti->qti_fid), rc);
#endif
                }
                if (name)
                        break;
        }

        RETURN(0);
}

/*
 * Handle new slave connection. Called when a slave enqueues the global quota
 * lock at the beginning of the reintegration procedure.
 *
 * \param env - is the environment passed by the caller
 * \parap qmt - is the quota master target handling this request
 * \param glb_fid - is the fid of the global index file
 * \param slv_fid - is the fid of the newly created slave index file
 * \param slv_ver - is the current version of the slave index file
 * \param uuid    - is the uuid of slave which is (re)connecting to the master
 *                  target
 *
 * \retval - 0 on success, appropriate error on failure
 */
int qmt_pool_new_conn(const struct lu_env *env, struct qmt_device *qmt,
                      struct lu_fid *glb_fid, struct lu_fid *slv_fid,
                      __u64 *slv_ver, struct obd_uuid *uuid)
{
        struct qmt_pool_info    *pool;
        struct dt_object        *slv_obj;
        int                      pool_type, qtype, stype;
        bool                     created = false;
        int                      idx, i, rc = 0;

        stype = qmt_uuid2idx(uuid, &idx);
        if (stype < 0)
                RETURN(stype);

        /* extract pool info from global index FID */
        rc = lquota_extract_fid(glb_fid, &pool_type, &qtype);
        if (rc)
                RETURN(rc);

        /* look-up pool in charge of this global index FID */
        qti_pools_init(env);
        pool = qmt_pool_lookup_arr(env, qmt, pool_type, idx);
        if (IS_ERR(pool))
                RETURN(PTR_ERR(pool));

        /* look-up slave index file */
        slv_obj = lquota_disk_slv_find(env, qmt->qmt_child, pool->qpi_root,
                                       glb_fid, uuid);
        if (IS_ERR(slv_obj) && PTR_ERR(slv_obj) == -ENOENT) {
                /* create slave index file */
                slv_obj = lquota_disk_slv_find_create(env, qmt->qmt_child,
                                                      pool->qpi_root, glb_fid,
                                                      uuid, false);
                created = true;
        }
        if (IS_ERR(slv_obj)) {
                rc = PTR_ERR(slv_obj);
                CERROR("%s: failed to create quota slave index file for %s (%d)"
                       "\n", qmt->qmt_svname, obd_uuid2str(uuid), rc);
                GOTO(out, rc);
        }

        /* retrieve slave fid & current object version */
        memcpy(slv_fid, lu_object_fid(&slv_obj->do_lu), sizeof(*slv_fid));
        *slv_ver = dt_version_get(env, slv_obj);
        dt_object_put(env, slv_obj);
        if (created)
                for (i = 0; i < qti_pools_cnt(env); i++)
                        qti_pools_env(env)[i]->qpi_slv_nr[stype][qtype]++;
out:
        qti_pools_fini(env);
        RETURN(rc);
}

/*
 * Look-up a lquota_entry in the pool hash and allocate it if not found.
 *
 * \param env - is the environment passed by the caller
 * \param qmt - is the quota master target for which we have to initialize the
 *              pool configuration
 * \param pool_type - is the pool type, either LQUOTA_RES_MD or LQUOTA_RES_DT.
 * \param qtype     - is the quota type, either user or group.
 * \param qid       - is the quota ID to look-up
 *
 * \retval - valid pointer to lquota entry on success, appropriate error on
 *           failure
 */
struct lquota_entry *qmt_pool_lqe_lookup(const struct lu_env *env,
                                         struct qmt_device *qmt,
                                         int pool_type, int qtype,
                                         union lquota_id *qid,
                                         char *pool_name)
{
        struct qmt_pool_info    *pool;
        struct lquota_entry     *lqe;
        ENTRY;

        /* look-up pool responsible for this global index FID */
        pool = qmt_pool_lookup_name(env, qmt, pool_type, pool_name);
        if (IS_ERR(pool))
                RETURN(ERR_CAST(pool));

        if (qid->qid_uid == 0) {
                /* caller wants to access grace time, no need to look up the
                 * entry since we keep a reference on ID 0 all the time */
                lqe = pool->qpi_grace_lqe[qtype];
                lqe_getref(lqe);
                GOTO(out, lqe);
        }

        /* now that we have the pool, let's look-up the quota entry in the
         * right quota site */
        lqe = lqe_locate(env, pool->qpi_site[qtype], qid);
out:
        qpi_putref(env, pool);
        RETURN(lqe);
}

int qmt_pool_lqes_lookup(const struct lu_env *env,
                         struct qmt_device *qmt,
                         int rtype, int stype,
                         int qtype, union lquota_id *qid,
                         char *pool_name, int idx)
{
        struct qmt_pool_info    *pool;
        struct lquota_entry     *lqe;
        int rc, i;
        ENTRY;

        /* Until MDT pools are not emplemented, all MDTs belong to
         * global pool, thus lookup lqes only from global pool. */
        if (rtype == LQUOTA_RES_DT && stype == QMT_STYPE_MDT)
                idx = -1;

        qti_pools_init(env);
        rc = 0;
        /* look-up pool responsible for this global index FID */
        pool = qmt_pool_lookup_arr(env, qmt, rtype, idx);
        if (IS_ERR(pool)) {
                qti_pools_fini(env);
                RETURN(PTR_ERR(pool));
        }

        /* now that we have the pool, let's look-up the quota entry in the
         * right quota site */
        qti_lqes_init(env);
        for (i = 0; i < qti_pools_cnt(env); i++) {
                pool = qti_pools_env(env)[i];
                lqe = lqe_locate(env, pool->qpi_site[qtype], qid);
                if (IS_ERR(lqe)) {
                        qti_lqes_fini(env);
                        GOTO(out, rc = PTR_ERR(lqe));
                }
                qti_lqes_add(env, lqe);
        }
        LASSERT(qti_lqes_glbl(env)->lqe_is_global);

out:
        qti_pools_fini(env);
        RETURN(rc);
}

static int lqes_cmp(const void *arg1, const void *arg2)
{
        const struct lquota_entry *lqe1, *lqe2;

        lqe1 = *(const struct lquota_entry **)arg1;
        lqe2 = *(const struct lquota_entry **)arg2;
        if (lqe1->lqe_qunit > lqe2->lqe_qunit)
                return 1;
        if (lqe1->lqe_qunit < lqe2->lqe_qunit)
                return -1;
        return 0;
}

void qmt_lqes_sort(const struct lu_env *env)
{
        sort(qti_lqes(env), qti_lqes_cnt(env), sizeof(void *), lqes_cmp, NULL);
        /* global lqe was moved during sorting */
        if (!qti_lqes_glbl(env)->lqe_is_global) {
                int i;
                for (i = 0; i < qti_lqes_cnt(env); i++) {
                        if (qti_lqes(env)[i]->lqe_is_global) {
                                qti_glbl_lqe_idx(env) = i;
                                break;
                        }
                }
        }
}

int qmt_pool_lqes_lookup_spec(const struct lu_env *env, struct qmt_device *qmt,
                              int rtype, int qtype, union lquota_id *qid)
{
        struct qmt_pool_info    *pos;
        struct lquota_entry     *lqe;
        int rc = 0;

        qti_lqes_init(env);
        down_read(&qmt->qmt_pool_lock);
        if (list_empty(&qmt->qmt_pool_list)) {
                up_read(&qmt->qmt_pool_lock);
                RETURN(-ENOENT);
        }

        list_for_each_entry(pos, &qmt->qmt_pool_list, qpi_linkage) {
                if (pos->qpi_rtype != rtype)
                        continue;
                /* Don't take into account pools without slaves */
                if (!qpi_slv_nr(pos, qtype))
                        continue;
                lqe = lqe_find(env, pos->qpi_site[qtype], qid);
                /* ENOENT is valid case for lqe from non global pool
                 * that hasn't limits, i.e. not enforced. Continue even
                 * in case of error - we can handle already found lqes */
                if (IS_ERR_OR_NULL(lqe)) {
                        /* let know that something went wrong */
                        rc = lqe ? PTR_ERR(lqe) : -ENOENT;
                        continue;
                }
                if (!lqe->lqe_enforced) {
                        /* no settings for this qid_uid */
                        lqe_putref(lqe);
                        continue;
                }
                qti_lqes_add(env, lqe);
                CDEBUG(D_QUOTA, "adding lqe %p from pool %s\n",
                                 lqe, pos->qpi_name);
        }
        up_read(&qmt->qmt_pool_lock);
        RETURN(rc);
}

/**
 * Allocate a new pool for the specified device.
 *
 * Allocate a new pool_desc structure for the specified \a new_pool
 * device to create a pool with the given \a poolname.  The new pool
 * structure is created with a single reference, and is freed when the
 * reference count drops to zero.
 *
 * \param[in] obd       Lustre OBD device on which to add a pool iterator
 * \param[in] poolname  the name of the pool to be created
 *
 * \retval              0 in case of success
 * \retval              negative error code in case of error
 */
int qmt_pool_new(struct obd_device *obd, char *poolname)
{
        struct qmt_device       *qmt = lu2qmt_dev(obd->obd_lu_dev);
        struct qmt_pool_info *qpi;
        struct lu_env env;
        int rc;
        ENTRY;

        if (strnlen(poolname, LOV_MAXPOOLNAME + 1) > LOV_MAXPOOLNAME)
                RETURN(-ENAMETOOLONG);

        rc = lu_env_init(&env, LCT_MD_THREAD);
        if (rc) {
                CERROR("%s: can't init env: rc = %d\n", obd->obd_name, rc);
                RETURN(rc);
        }

        qpi = qmt_pool_lookup_name(&env, qmt, LQUOTA_RES_DT, poolname);
        if (!IS_ERR(qpi)) {
                /* Valid case when several MDTs are mounted
                 * at the same node. */
                CDEBUG(D_QUOTA, "pool %s already exists\n", poolname);
                qpi_putref(&env, qpi);
                GOTO(out_env, rc = -EEXIST);
        }
        if (PTR_ERR(qpi) != -ENOENT) {
                CWARN("%s: pool %s lookup failed: rc = %ld\n",
                      obd->obd_name, poolname, PTR_ERR(qpi));
                GOTO(out_env, rc = PTR_ERR(qpi));
        }

        /* Now allocate and prepare only DATA pool.
         * Further when MDT pools will be ready we need to add
         * a cycle here and setup pools of both types. Another
         * approach is to find out pool of which type should be
         * created. */
        rc = qmt_pool_alloc(&env, qmt, poolname, LQUOTA_RES_DT);
        if (rc) {
                CERROR("%s: can't alloc pool %s: rc = %d\n",
                       obd->obd_name, poolname, rc);
                GOTO(out_env, rc);
        }

        rc = qmt_pool_prepare(&env, qmt, qmt->qmt_root, poolname);
        if (rc) {
                CERROR("%s: can't prepare pool for %s: rc = %d\n",
                       obd->obd_name, poolname, rc);
                GOTO(out_err, rc);
        }

        CDEBUG(D_QUOTA, "Quota pool "LOV_POOLNAMEF" added\n",
               poolname);

        GOTO(out_env, rc);
out_err:
        qpi = qmt_pool_lookup_name(&env, qmt, LQUOTA_RES_DT, poolname);
        if (!IS_ERR(qpi)) {
                qpi_putref(&env, qpi);
                qpi_putref(&env, qpi);
        }
out_env:
        lu_env_fini(&env);
        return rc;
}

static int
qmt_obj_recalc(const struct lu_env *env, struct dt_object *obj,
               struct lquota_site *site)
{
        struct qmt_thread_info *qti = qmt_info(env);
        union lquota_id *qid = &qti->qti_id;
        const struct dt_it_ops *iops;
        struct dt_key *key;
        struct dt_it *it;
        __u64 granted;
        int rc;
        ENTRY;

        iops = &obj->do_index_ops->dio_it;

        it = iops->init(env, obj, 0);
        if (IS_ERR(it)) {
                CWARN("quota: initialize it for "DFID" failed: rc = %ld\n",
                      PFID(&qti->qti_fid), PTR_ERR(it));
                RETURN(PTR_ERR(it));
        }

        rc = iops->load(env, it, 0);
        if (rc < 0) {
                CWARN("quota: load first entry for "DFID" failed: rc = %d\n",
                      PFID(&qti->qti_fid), rc);
                GOTO(out, rc);
        } else if (rc == 0) {
                rc = iops->next(env, it);
                if (rc != 0)
                        GOTO(out, rc = (rc < 0) ? rc : 0);
        }

        do {
                struct lquota_entry *lqe;

                key = iops->key(env, it);
                if (IS_ERR(key)) {
                        CWARN("quota: error key for "DFID": rc = %ld\n",
                              PFID(&qti->qti_fid), PTR_ERR(key));
                        GOTO(out, rc = PTR_ERR(key));
                }

                /* skip the root user/group */
                if (*((__u64 *)key) == 0)
                        goto next;

                qid->qid_uid = *((__u64 *)key);

                rc = qmt_slv_read(env, qid, obj, &granted);
                if (!granted)
                        goto next;

                lqe = lqe_locate(env, site, qid);
                if (IS_ERR(lqe))
                        GOTO(out, rc = PTR_ERR(lqe));
                lqe_write_lock(lqe);
                lqe->lqe_recalc_granted += granted;
                lqe_write_unlock(lqe);
                lqe_putref(lqe);
next:
                rc = iops->next(env, it);
                if (rc < 0)
                        CWARN("quota: failed to parse index "DFID
                              ", ->next error: rc = %d\n",
                              PFID(&qti->qti_fid), rc);
        } while (rc == 0 && !kthread_should_stop());

out:
        iops->put(env, it);
        iops->fini(env, it);
        RETURN(rc);
}

static int qmt_site_recalc_cb(struct cfs_hash *hs, struct cfs_hash_bd *bd,
                              struct hlist_node *hnode, void *data)
{
        struct lquota_entry     *lqe;
        struct lu_env *env = data;

        lqe = hlist_entry(hnode, struct lquota_entry, lqe_hash);
        LASSERT(atomic_read(&lqe->lqe_ref) > 0);

        lqe_write_lock(lqe);
        if (lqe->lqe_granted != lqe->lqe_recalc_granted) {
                struct qmt_device *qmt = lqe2qpi(lqe)->qpi_qmt;
                struct thandle *th;
                bool need_notify = false;
                int rc;

                LQUOTA_DEBUG(lqe, "lqe_recalc_granted %llu\n",
                             lqe->lqe_recalc_granted);
                lqe->lqe_granted = lqe->lqe_recalc_granted;
                /* Always returns true, if there is no slaves in a pool */
                need_notify |= qmt_adjust_qunit(env, lqe);
                need_notify |= qmt_adjust_edquot(lqe, ktime_get_real_seconds());
                if (need_notify) {
                        /* Find all lqes with lqe_id to reseed lgd array */
                        rc = qmt_pool_lqes_lookup_spec(env, qmt, lqe_rtype(lqe),
                                                lqe_qtype(lqe), &lqe->lqe_id);
                        if (!rc && qti_lqes_glbl(env)->lqe_glbl_data) {
                                qmt_seed_glbe(env,
                                        qti_lqes_glbl(env)->lqe_glbl_data);
                                qmt_id_lock_notify(qmt, qti_lqes_glbl(env));
                        }
                        qti_lqes_fini(env);
                }
                th = dt_trans_create(env, qmt->qmt_child);
                if (IS_ERR(th))
                        goto out;

                rc = lquota_disk_declare_write(env, th,
                                               LQE_GLB_OBJ(lqe),
                                               &lqe->lqe_id);
                if (rc)
                        GOTO(out_stop, rc);

                rc = dt_trans_start_local(env, qmt->qmt_child, th);
                if (rc)
                        GOTO(out_stop, rc);

                qmt_glb_write(env, th, lqe, 0, NULL);
out_stop:
                dt_trans_stop(env, qmt->qmt_child, th);
        }
out:
        lqe->lqe_recalc_granted = 0;
        lqe_write_unlock(lqe);

        return 0;
}

#define MDT_DEV_NAME_LEN (LUSTRE_MAXFSNAME + sizeof("-MDT0000"))
static struct obd_device *qmt_get_mgc(struct qmt_device *qmt)
{
        char mdt_name[MDT_DEV_NAME_LEN];
        struct lustre_mount_info *lmi;
        struct obd_device *obd;
        int rc;
        ENTRY;

        rc = server_name2fsname(qmt->qmt_svname, mdt_name, NULL);
        if (rc) {
                CERROR("quota: cannot get server name from %s: rc = %d\n",
                       qmt->qmt_svname, rc);
                RETURN(ERR_PTR(rc));
        }

        strlcat(mdt_name, "-MDT0000", MDT_DEV_NAME_LEN);
        lmi = server_get_mount(mdt_name);
        if (lmi == NULL) {
                rc = -ENOENT;
                CERROR("%s: cannot get mount info from %s: rc = %d\n",
                       qmt->qmt_svname, mdt_name, rc);
                RETURN(ERR_PTR(rc));
        }
        obd = s2lsi(lmi->lmi_sb)->lsi_mgc;
        lustre_put_lsi(lmi->lmi_sb);

        RETURN(obd);
}

static int qmt_pool_recalc(void *args)
{
        struct qmt_pool_info *pool, *glbl_pool;
        struct rw_semaphore *sem = NULL;
        struct obd_device *obd;
        struct lu_env env;
        int i, rc, qtype, slaves_cnt;
        ENTRY;

        pool = args;

        obd = qmt_get_mgc(pool->qpi_qmt);
        if (IS_ERR(obd))
                GOTO(out, rc = PTR_ERR(obd));
        else
                /* Waiting for the end of processing mgs config.
                 * It is needed to be sure all pools are configured. */
                while (obd->obd_process_conf)
                        schedule_timeout_uninterruptible(cfs_time_seconds(1));

        sem = qmt_sarr_rwsem(pool);
        LASSERT(sem);
        down_read(sem);
        /* Hold this to be sure that OSTs from this pool
         * can't do acquire/release.
         *
         * I guess below write semaphore could be a bottleneck
         * as qmt_dqacq would be blocked trying to hold
         * read_lock at qmt_pool_lookup->qti_pools_add.
         * But on the other hand adding/removing OSTs to the pool is
         * a rare operation. If finally this would be a problem,
         * we can consider another approach. For example we can
         * iterate through the POOL's lqes. Take lqe, hold lqe_write_lock
         * and go through appropriate OSTs. I don't use this approach now
         * as newly created pool hasn't lqes entries. So firstly we need
         * to get this lqes from the global pool index file. This
         * solution looks more complex, so leave it as it is. */
        down_write(&pool->qpi_recalc_sem);

        rc = lu_env_init(&env, LCT_MD_THREAD);
        if (rc) {
                CERROR("%s: cannot init env: rc = %d\n", obd->obd_name, rc);
                GOTO(out, rc);
        }

        glbl_pool = qmt_pool_lookup_glb(&env, pool->qpi_qmt, pool->qpi_rtype);
        if (IS_ERR(glbl_pool))
                GOTO(out_env, rc = PTR_ERR(glbl_pool));

        slaves_cnt = qmt_sarr_count(pool);
        CDEBUG(D_QUOTA, "Starting pool recalculation for %d slaves in %s\n",
               slaves_cnt, pool->qpi_name);

        for (qtype = 0; qtype < LL_MAXQUOTAS; qtype++) {
                for (i = 0; i < slaves_cnt; i++) {
                        struct qmt_thread_info  *qti = qmt_info(&env);
                        struct dt_object *slv_obj;
                        struct obd_uuid uuid;
                        int idx;

                        if (kthread_should_stop())
                                GOTO(out_stop, rc = 0);
                        idx = qmt_sarr_get_idx(pool, i);
                        LASSERT(idx >= 0);

                        /* We don't need fsname here - anyway
                         * lquota_disk_slv_filename ignores it. */
                        snprintf(uuid.uuid, UUID_MAX, "-OST%04x_UUID", idx);
                        lquota_generate_fid(&qti->qti_fid, pool->qpi_rtype,
                                            qtype);
                        /* look-up index file associated with acquiring slave */
                        slv_obj = lquota_disk_slv_find(&env,
                                                glbl_pool->qpi_qmt->qmt_child,
                                                glbl_pool->qpi_root,
                                                &qti->qti_fid,
                                                &uuid);
                        if (IS_ERR(slv_obj))
                                GOTO(out_stop, rc = PTR_ERR(slv_obj));

                        CDEBUG(D_QUOTA, "slv_obj is found %p for uuid %s\n",
                               slv_obj, uuid.uuid);
                        qmt_obj_recalc(&env, slv_obj, pool->qpi_site[qtype]);
                        dt_object_put(&env, slv_obj);
                }
                /* Now go trough the site hash and compare lqe_granted
                 * with lqe_calc_granted. Write new value if disagree */

                cfs_hash_for_each(pool->qpi_site[qtype]->lqs_hash,
                                  qmt_site_recalc_cb, &env);
        }
        GOTO(out_stop, rc);
out_stop:
        qpi_putref(&env, glbl_pool);
out_env:
        lu_env_fini(&env);
out:
        if (xchg(&pool->qpi_recalc_task, NULL) == NULL)
                /*
                 * Someone is waiting for us to stop - be sure not to exit
                 * before kthread_stop() gets a ref on the task.  No event
                 * will happen on 'pool, this is just a convenient way to
                 * wait.
                 */
                wait_var_event(pool, kthread_should_stop());

        clear_bit(QPI_FLAG_RECALC_OFFSET, &pool->qpi_flags);
        /* Pool can't be changed, since sem has been down.
         * Thus until up_read, no one can restart recalc thread. */
        if (sem) {
                up_read(sem);
                up_write(&pool->qpi_recalc_sem);
        }
        qpi_putref(&env, pool);

        return rc;
}

static int qmt_start_pool_recalc(struct lu_env *env, struct qmt_pool_info *qpi)
{
        struct task_struct *task;
        int rc = 0;

        if (!test_and_set_bit(QPI_FLAG_RECALC_OFFSET, &qpi->qpi_flags)) {
                LASSERT(!qpi->qpi_recalc_task);

                qpi_getref(qpi);
                task = kthread_create(qmt_pool_recalc, qpi,
                                      "qsd_reint_%s", qpi->qpi_name);
                if (IS_ERR(task)) {
                        clear_bit(QPI_FLAG_RECALC_OFFSET, &qpi->qpi_flags);
                        rc = PTR_ERR(task);
                        qpi_putref(env, qpi);
                } else {
                        qpi->qpi_recalc_task = task;
                        /* Using park/unpark to start the thread ensures that
                         * the thread function does get calls, so the
                         * ref on qpi will be dropped
                         */
                        kthread_park(task);
                        kthread_unpark(task);
                }
        }

        RETURN(rc);
}

static inline void qmt_stop_pool_recalc(struct qmt_pool_info *qpi)
{
        struct task_struct *task;

        task = xchg(&qpi->qpi_recalc_task, NULL);
        if (task)
                kthread_stop(task);
}

static int qmt_pool_slv_nr_change(const struct lu_env *env,
                                  struct qmt_pool_info *pool,
                                  int idx, bool add)
{
        struct qmt_pool_info *glbl_pool;
        int qtype;

        glbl_pool = qmt_pool_lookup_glb(env, pool->qpi_qmt, LQUOTA_RES_DT);
        if (IS_ERR(glbl_pool))
                RETURN(PTR_ERR(glbl_pool));

        for (qtype = 0; qtype < LL_MAXQUOTAS; qtype++) {
                struct qmt_thread_info  *qti = qmt_info(env);
                struct dt_object *slv_obj;
                struct obd_uuid uuid;

                /* We don't need fsname here - anyway
                 * lquota_disk_slv_filename ignores it. */
                snprintf(uuid.uuid, UUID_MAX, "-OST%04x_UUID", idx);
                lquota_generate_fid(&qti->qti_fid, pool->qpi_rtype,
                                    qtype);
                /* look-up index file associated with acquiring slave */
                slv_obj = lquota_disk_slv_find(env,
                                        glbl_pool->qpi_qmt->qmt_child,
                                        glbl_pool->qpi_root,
                                        &qti->qti_fid,
                                        &uuid);
                if (IS_ERR(slv_obj))
                        continue;

                if (add)
                        pool->qpi_slv_nr[QMT_STYPE_OST][qtype]++;
                else
                        pool->qpi_slv_nr[QMT_STYPE_OST][qtype]--;
                dt_object_put(env, slv_obj);
        }
        qpi_putref(env, glbl_pool);

        return 0;
}

static int qmt_pool_add_rem(struct obd_device *obd, char *poolname,
                            char *slavename, bool add)
{
        struct qmt_device       *qmt = lu2qmt_dev(obd->obd_lu_dev);
        struct qmt_pool_info    *qpi;
        struct lu_env            env;
        int                      rc, idx;
        ENTRY;

        if (strnlen(poolname, LOV_MAXPOOLNAME + 1) > LOV_MAXPOOLNAME)
                RETURN(-ENAMETOOLONG);

        CDEBUG(D_QUOTA, add ? "%s: pool %s, adding %s\n" :
                              "%s: pool %s, removing %s\n",
              obd->obd_name, poolname, slavename);

        rc = server_name2index(slavename, &idx, NULL);
        if (rc != LDD_F_SV_TYPE_OST)
                RETURN(-EINVAL);

        rc = lu_env_init(&env, LCT_MD_THREAD);
        if (rc) {
                CERROR("%s: cannot init env: rc = %d\n", obd->obd_name, rc);
                RETURN(rc);
        }

        qpi = qmt_pool_lookup_name(&env, qmt, LQUOTA_RES_DT, poolname);
        if (IS_ERR(qpi)) {
                CWARN("%s: can't find pool %s: rc = %long\n",
                      obd->obd_name, poolname, PTR_ERR(qpi));
                GOTO(out, rc = PTR_ERR(qpi));
        }

        rc = add ? qmt_sarr_pool_add(qpi, idx, 32) :
                   qmt_sarr_pool_rem(qpi, idx);
        if (rc) {
                CERROR("%s: can't %s %s pool %s: rc = %d\n",
                       add ? "add to" : "remove", obd->obd_name,
                       slavename, poolname, rc);
                GOTO(out_putref, rc);
        }
        qmt_pool_slv_nr_change(&env, qpi, idx, add);
        qmt_start_pool_recalc(&env, qpi);

out_putref:
        qpi_putref(&env, qpi);
out:
        lu_env_fini(&env);
        RETURN(rc);
}



/**
 * Add a single target device to the named pool.
 *
 * \param[in] obd       OBD device on which to add the pool
 * \param[in] poolname  name of the pool to which to add the target \a slavename
 * \param[in] slavename name of the target device to be added
 *
 * \retval              0 if \a slavename was (previously) added to the pool
 * \retval              negative error number on failure
 */
int qmt_pool_add(struct obd_device *obd, char *poolname, char *slavename)
{
        return qmt_pool_add_rem(obd, poolname, slavename, true);
}

/**
 * Remove the named target from the specified pool.
 *
 * \param[in] obd       OBD device from which to remove \a poolname
 * \param[in] poolname  name of the pool to be changed
 * \param[in] slavename name of the target to remove from \a poolname
 *
 * \retval              0 on successfully removing \a slavename from the pool
 * \retval              negative number on error (e.g. \a slavename not in pool)
 */
int qmt_pool_rem(struct obd_device *obd, char *poolname, char *slavename)
{
        return qmt_pool_add_rem(obd, poolname, slavename, false);
}

/**
 * Remove the named pool from the QMT device.
 *
 * \param[in] obd       OBD device on which pool was previously created
 * \param[in] poolname  name of pool to remove from \a obd
 *
 * \retval              0 on successfully removing the pool
 * \retval              negative error numbers for failures
 */
int qmt_pool_del(struct obd_device *obd, char *poolname)
{
        struct qmt_device       *qmt = lu2qmt_dev(obd->obd_lu_dev);
        struct qmt_pool_info    *qpi;
        struct lu_fid            fid;
        char                     buf[LQUOTA_NAME_MAX];
        struct lu_env            env;
        int                      rc;
        int                      qtype;
        ENTRY;

        if (strnlen(poolname, LOV_MAXPOOLNAME + 1) > LOV_MAXPOOLNAME)
                RETURN(-ENAMETOOLONG);

        CDEBUG(D_QUOTA, "Removing quota pool "LOV_POOLNAMEF"\n",
               poolname);

        rc = lu_env_init(&env, LCT_MD_THREAD);
        if (rc) {
                CERROR("%s: cannot init env: rc = %d\n", obd->obd_name, rc);
                RETURN(rc);
        }

        /* look-up pool in charge of this global index FID */
        qpi = qmt_pool_lookup_name(&env, qmt, LQUOTA_RES_DT, poolname);
        if (IS_ERR(qpi)) {
                /* Valid case for several MDTs at the same node -
                 * pool removed by the 1st MDT in config */
                CDEBUG(D_QUOTA, "Cannot find pool %s\n", poolname);
                lu_env_fini(&env);
                RETURN(PTR_ERR(qpi));
        }

        for (qtype = 0; qtype < LL_MAXQUOTAS; qtype++) {
                lquota_generate_fid(&fid, LQUOTA_RES_DT, qtype);
                snprintf(buf, LQUOTA_NAME_MAX, "0x%x", fid.f_oid);
                rc = local_object_unlink(&env, qmt->qmt_child,
                                         qpi->qpi_root, buf);
                if (rc)
                        CWARN("%s: cannot unlink %s from pool %s: rc = %d\n",
                              obd->obd_name, buf, poolname, rc);
        }

        /* put ref from look-up */
        qpi_putref(&env, qpi);
        /* put last ref to free qpi */
        qpi_putref(&env, qpi);

        snprintf(buf, LQUOTA_NAME_MAX, "%s-%s",
                 RES_NAME(LQUOTA_RES_DT), poolname);
        rc = local_object_unlink(&env, qmt->qmt_child, qmt->qmt_root, buf);
        if (rc)
                CWARN("%s: cannot unlink dir %s: rc = %d\n",
                      obd->obd_name, poolname, rc);

        lu_env_fini(&env);
        RETURN(0);
}

static inline int qmt_sarr_pool_init(struct qmt_pool_info *qpi)
{

        /* No need to initialize sarray for global pool
         * as it always includes all slaves */
        if (qmt_pool_global(qpi))
                return 0;

        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                return lu_tgt_pool_init(&qpi->qpi_sarr.osts, 0);
        case LQUOTA_RES_MD:
        default:
                return 0;
        }
}

static inline int qmt_sarr_pool_add(struct qmt_pool_info *qpi, int idx, int min)
{
        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                return lu_tgt_pool_add(&qpi->qpi_sarr.osts, idx, min);
        case LQUOTA_RES_MD:
        default:
                return 0;
        }
}

static inline int qmt_sarr_pool_rem(struct qmt_pool_info *qpi, int idx)
{
        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                return lu_tgt_pool_remove(&qpi->qpi_sarr.osts, idx);
        case LQUOTA_RES_MD:
        default:
                return 0;
        }
}

static inline void qmt_sarr_pool_free(struct qmt_pool_info *qpi)
{
        if (qmt_pool_global(qpi))
                return;

        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                if (qpi->qpi_sarr.osts.op_array)
                        lu_tgt_pool_free(&qpi->qpi_sarr.osts);
                return;
        case LQUOTA_RES_MD:
        default:
                return;
        }
}

static inline int qmt_sarr_check_idx(struct qmt_pool_info *qpi, int idx)
{
        if (qmt_pool_global(qpi))
                return 0;

        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                return lu_tgt_check_index(idx, &qpi->qpi_sarr.osts);
        case LQUOTA_RES_MD:
        default:
                return 0;
        }
}

struct rw_semaphore *qmt_sarr_rwsem(struct qmt_pool_info *qpi)
{
        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                /* to protect ost_pool use */
                return &qpi->qpi_sarr.osts.op_rw_sem;
        case LQUOTA_RES_MD:
        default:
                return NULL;
        }
}

int qmt_sarr_get_idx(struct qmt_pool_info *qpi, int arr_idx)
{

        if (qmt_pool_global(qpi))
                return arr_idx;

        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                LASSERTF(arr_idx < qpi->qpi_sarr.osts.op_count && arr_idx >= 0,
                         "idx invalid %d op_count %d\n", arr_idx,
                         qpi->qpi_sarr.osts.op_count);
                return qpi->qpi_sarr.osts.op_array[arr_idx];
        case LQUOTA_RES_MD:
        default:
                return -EINVAL;
        }
}

/* Number of slaves in a pool */
unsigned int qmt_sarr_count(struct qmt_pool_info *qpi)
{
        switch (qpi->qpi_rtype) {
        case LQUOTA_RES_DT:
                return qpi->qpi_sarr.osts.op_count;
        case LQUOTA_RES_MD:
        default:
                return -EINVAL;
        }
}