LU-3285 lfs: add parameter for Data-on-MDT file

[fs/lustre-release.git] / lustre / lfsck / lfsck_striped_dir.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 COPYING file that accompanied this code.

 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
 *
 * GPL HEADER END
 */
/*
 * Copyright (c) 2014, 2015, Intel Corporation.
 */
/*
 * lustre/lfsck/lfsck_striped_dir.c
 *
 * Author: Fan, Yong <fan.yong@intel.com>
 */

/*
 * About the verification for striped directory. Some rules and assumptions:
 *
 * 1) lmv_magic: The magic may be wrong. But it is almost impossible (1/2^32
 *    probability) that a master LMV EA claims as a slave LMV EA by wrong,
 *    so we can ignore such race case and the reverse case.
 *
 * 2) lmv_master_mdt_index: The master index can be self-verified by compared
 *    with the MDT index directly. The slave stripe index can be verified by
 *    compared with the file name. Although both the name entry and the LMV EA
 *    can be wrong, it is almost impossible that they hit the same bad data
 *    So if they match each other, then trust them. Similarly, for the shard,
 *    it stores index in both slave LMV EA and in linkEA, if the two copies
 *    match, then trust them.
 *
 * 3) lmv_hash_type: The valid hash type should be LMV_HASH_TYPE_ALL_CHARS or
 *    LMV_HASH_TYPE_FNV_1A_64. If the LFSCK instance on some slave finds that
 *    the name hash against the hash function does not match the MDT, then it
 *    will change the master LMV EA hash type as LMV_HASH_TYPE_UNKNOWN. With
 *    such hash type, the whole striped directory still can be accessed via
 *    lookup/readdir, and also support unlink, but cannot add new name entry.
 *
 * 3.1) If the master hash type is one of the valid values, then trust the
 *      master LMV EA. Because:
 *
 * 3.1.1) The master hash type is visible to the client and used by the client.
 *
 * 3.1.2) For a given name, different hash types may map the name entry to the
 *        same MDT. So simply checking one name entry or some name entries may
 *        cannot verify whether the hash type is correct or not.
 *
 * 3.1.3) Different shards can claim different hash types, it is not easy to
 *        distinguish which ones are correct. Even though the master is wrong,
 *        as the LFSCK processing, some LFSCK instance on other MDT may finds
 *        unmatched name hash, then it will change the master hash type to
 *        LMV_HASH_TYPE_UNKNOWN as described above. The worst case is euqal
 *        to the case without the LFSCK.
 *
 * 3.2) If the master hash type is invalid, nor LMV_HASH_TYPE_UNKNOWN, then
 *      trust the first shard with valid hash type (ALL_CHARS or FNV_1A_64).
 *      If the shard is also worng, means there are double failures, then as
 *      the LFSCK processing, other LFSCK instances on the other MDTs may
 *      find unmatched name hash, and then, the master hash type will be
 *      changed to LMV_HASH_TYPE_UNKNOWN as described in the 3).
 *
 * 3.3) If the master hash type is LMV_HASH_TYPE_UNKNOWN, then it is possible
 *      that some other LFSCK instance on other MDT found bad name hash, then
 *      changed the master hash type to LMV_HASH_TYPE_UNKNOWN as described in
 *      the 3). But it also maybe because of data corruption in master LMV EA.
 *      To make such two cases to be distinguishable, when the LFSCK changes
 *      the master hash type to LMV_HASH_TYPE_UNKNOWN, it will mark in the
 *      master LMV EA (new lmv flags LMV_HASH_FLAG_BAD_TYPE). Then subsequent
 *      LFSCK checking can distinguish them: for former case, turst the master
 *      LMV EA with nothing to be done; otherwise, trust the first shard with
 *      valid hash type (ALL_CHARS or FNV_1A_64) as the 3.2) does.
 *
 * 4) lmv_stripe_count: For a shard of a striped directory, if its index has
 *    been verified as the 2), then the stripe count must be larger than its
 *    index. For the master object, by scanning each shard's index, the LFSCK
 *    can know the highest index, and the stripe count must be larger than the
 *    known highest index. If the stipe count in the LMV EA matches above two
 *    rules, then it is may be trustable. If both the master claimed stripe
 *    count and the slave claimed stripe count match each own rule, but they
 *    are not the same, then trust the master. Because the stripe count in
 *    the master LMV EA is visible to client and used to distribute the name
 *    entry to some shard, but the slave LMV EA is only used for verification
 *    and invisible to client.
 *
 * 5) If the master LMV EA is lost, then there are two possible cases:
 *
 * 5.1) The slave claims slave LMV EA by wrong, means that the parent was not
 *      a striped directory, but its sub-directory has a wrong slave LMV EA.
 *      It is very very race case, similar as the 1), can be ignored.
 *
 * 5.2) The parent directory is a striped directory, but the master LMV EA
 *      is lost or crashed. Then the LFSCK needs to re-generate the master
 *      LMV EA: the lmv_master_mdt_index is from the MDT device index; the
 *      lmv_hash_type is from the first valid shard; the lmv_stripe_count
 *      will be calculated via scanning all the shards.
 *
 * 5.2.1) Before re-generating the master LMV EA, the LFSCK needs to check
 *        whether someone has created some file(s) under the master object
 *        after the master LMV EA disappear. If yes, the LFSCK will cannot
 *        re-generate the master LMV EA, otherwise, such new created files
 *        will be invisible to client. Under such case, the LFSCK will mark
 *        the master object as read only (without master LMV EA). Then all
 *        things under the master MDT-object, including those new created
 *        files and the shards themselves, will be visibile to client. And
 *        then the administrator can handle the bad striped directory with
 *        more human knowledge.
 *
 * 5.2.2) If someone created some special sub-directory under the master
 *        MDT-object with the same naming rule as shard name $FID:$index,
 *        as to the LFSCK cannot detect it before re-generating the master
 *        LMV EA, then such sub-directory itself will be invisible after
 *        the LFSCK re-generating the master LMV EA. The sub-items under
 *        such sub-directory are still visible to client. As the LFSCK
 *        processing, if such sub-directory cause some conflict with other
 *        normal shard, such as the index conflict, then the LFSCK will
 *        remove the master LMV EA and change the master MDT-object to
 *        read-only mode as the 5.2.1). But if there is no conflict, the
 *        LFSCK will regard such sub-directory as a striped shard that
 *        lost its slave LMV EA, and will re-generate slave LMV EA for it.
 *
 * 5.2.3) Anytime, if the LFSCK found some shards name/index conflict,
 *        and cannot make the distinguish which one is right, then it
 *        will remove the master LMV EA and change the MDT-object to
 *        read-only mode as the 5.2.2).
 */

#define DEBUG_SUBSYSTEM S_LFSCK

#include <lu_object.h>
#include <dt_object.h>
#include <md_object.h>
#include <lustre_fid.h>
#include <lustre_lib.h>
#include <lustre_net.h>
#include <lustre_lmv.h>

#include "lfsck_internal.h"

void lfsck_lmv_put(const struct lu_env *env, struct lfsck_lmv *llmv)
{
        if (llmv != NULL && atomic_dec_and_test(&llmv->ll_ref)) {
                if (llmv->ll_inline) {
                        struct lfsck_lmv_unit   *llu;
                        struct lfsck_instance   *lfsck;

                        llu = list_entry(llmv, struct lfsck_lmv_unit, llu_lmv);
                        lfsck = llu->llu_lfsck;

                        spin_lock(&lfsck->li_lock);
                        list_del(&llu->llu_link);
                        spin_unlock(&lfsck->li_lock);

                        lfsck_object_put(env, llu->llu_obj);

                        LASSERT(llmv->ll_lslr != NULL);

                        OBD_FREE_LARGE(llmv->ll_lslr,
                                       sizeof(*llmv->ll_lslr) *
                                       llmv->ll_stripes_allocated);
                        OBD_FREE_PTR(llu);
                } else {
                        if (llmv->ll_lslr != NULL)
                                OBD_FREE_LARGE(llmv->ll_lslr,
                                        sizeof(*llmv->ll_lslr) *
                                        llmv->ll_stripes_allocated);

                        OBD_FREE_PTR(llmv);
                }
        }
}

/**
 * Mark the specified directory as read-only by set LUSTRE_IMMUTABLE_FL.
 *
 * The caller has taken the ldlm lock on the @obj already.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the object to be handled
 * \param[in] del_lmv   true if need to drop the LMV EA
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
static int lfsck_disable_master_lmv(const struct lu_env *env,
                                    struct lfsck_component *com,
                                    struct dt_object *obj, bool del_lmv)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lu_attr                  *la     = &info->lti_la;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct dt_device                *dev    = lfsck_obj2dev(obj);
        struct thandle                  *th     = NULL;
        int                              rc     = 0;
        ENTRY;

        th = dt_trans_create(env, dev);
        if (IS_ERR(th))
                GOTO(log, rc = PTR_ERR(th));

        if (del_lmv) {
                rc = dt_declare_xattr_del(env, obj, XATTR_NAME_LMV, th);
                if (rc != 0)
                        GOTO(stop, rc);
        }

        la->la_valid = LA_FLAGS;
        rc = dt_declare_attr_set(env, obj, la, th);
        if (rc != 0)
                GOTO(stop, rc);

        rc = dt_trans_start_local(env, dev, th);
        if (rc != 0)
                GOTO(stop, rc);

        dt_write_lock(env, obj, 0);
        if (unlikely(lfsck_is_dead_obj(obj)))
                GOTO(unlock, rc = 1);

        if (lfsck->li_bookmark_ram.lb_param & LPF_DRYRUN)
                GOTO(unlock, rc = 0);

        if (del_lmv) {
                rc = dt_xattr_del(env, obj, XATTR_NAME_LMV, th);
                if (rc != 0)
                        GOTO(unlock, rc);
        }

        rc = dt_attr_get(env, obj, la);
        if (rc == 0 && !(la->la_flags & LUSTRE_IMMUTABLE_FL)) {
                la->la_valid = LA_FLAGS;
                la->la_flags |= LUSTRE_IMMUTABLE_FL;
                rc = dt_attr_set(env, obj, la, th);
        }

        GOTO(unlock, rc);

unlock:
        dt_write_unlock(env, obj);

stop:
        dt_trans_stop(env, dev, th);

log:
        CDEBUG(D_LFSCK, "%s: namespace LFSCK set the master MDT-object of "
               "the striped directory "DFID" as read-only: rc = %d\n",
               lfsck_lfsck2name(lfsck), PFID(lfsck_dto2fid(obj)), rc);

        if (rc <= 0) {
                struct lfsck_namespace *ns = com->lc_file_ram;

                ns->ln_flags |= LF_INCONSISTENT;
                if (rc == 0)
                        ns->ln_striped_dirs_disabled++;
        }

        return rc;
}

static inline bool lfsck_is_valid_slave_lmv(struct lmv_mds_md_v1 *lmv)
{
        return lmv->lmv_stripe_count >= 1 &&
               lmv->lmv_stripe_count <= LFSCK_LMV_MAX_STRIPES &&
               lmv->lmv_stripe_count > lmv->lmv_master_mdt_index &&
               lmv_is_known_hash_type(lmv->lmv_hash_type);
}

/**
 * Remove the striped directory's master LMV EA and mark it as read-only.
 *
 * Take ldlm lock on the striped directory before calling the
 * lfsck_disable_master_lmv().
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the striped directory to be handled
 * \param[in] lnr       pointer to the namespace request that contains the
 *                      striped directory to be handled and other information
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
static int lfsck_remove_lmv(const struct lu_env *env,
                            struct lfsck_component *com,
                            struct dt_object *obj,
                            struct lfsck_namespace_req *lnr)
{
        struct lustre_handle     lh     = { 0 };
        int                      rc;

        lnr->lnr_lmv->ll_ignore = 1;
        rc = lfsck_ibits_lock(env, com->lc_lfsck, obj, &lh,
                              MDS_INODELOCK_UPDATE | MDS_INODELOCK_XATTR,
                              LCK_EX);
        if (rc == 0) {
                rc = lfsck_disable_master_lmv(env, com, obj, true);
                lfsck_ibits_unlock(&lh, LCK_EX);
        }

        return rc;
}

/**
 * Remove the name entry from the striped directory's master MDT-object.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] dir       pointer to the striped directory
 * \param[in] fid       the shard's FID which name entry will be removed
 * \param[in] index     the shard's index which name entry will be removed
 *
 * \retval              positive number for repaired successfully
 * \retval              0 if nothing to be repaired
 * \retval              negative error number on failure
 */
static int lfsck_remove_dirent(const struct lu_env *env,
                               struct lfsck_component *com,
                               struct dt_object *dir,
                               const struct lu_fid *fid, __u32 index)
{
        struct lfsck_thread_info        *info = lfsck_env_info(env);
        struct dt_object                *obj;
        int                              rc;

        snprintf(info->lti_tmpbuf2, sizeof(info->lti_tmpbuf2), DFID":%u",
                 PFID(fid), index);
        obj = lfsck_object_find_bottom(env, com->lc_lfsck, fid);
        if (IS_ERR(obj))
                return PTR_ERR(obj);

        rc = lfsck_namespace_repair_dirent(env, com, dir, obj,
                                        info->lti_tmpbuf2, info->lti_tmpbuf2,
                                        S_IFDIR, false, false);
        lfsck_object_put(env, obj);
        if (rc > 0) {
                struct lfsck_namespace *ns = com->lc_file_ram;

                ns->ln_dirent_repaired++;
        }

        return rc;
}

/**
 * Remove old shard's name entry and refill the @lslr slot with new shard.
 *
 * Some old shard held the specified @lslr slot, but it is an invalid shard.
 * This function will remove the bad shard's name entry, and refill the @lslr
 * slot with the new shard.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] dir       pointer to the striped directory to be handled
 * \param[in] lslr      pointer to lfsck_disable_master_lmv slot which content
 *                      will be replaced by the given information
 * \param[in] lnr       contain the shard's FID to be used to fill the
 *                      @lslr slot, it also records the known max filled index
 *                      and the known max stripe count
 * \param[in] lmv       contain the slave LMV EA to be used to fill the
 *                      @lslr slot
 * \param[in] index     the old shard's index in the striped directory
 * \param[in] flags     the new shard's flags in the @lslr slot
 *
 * \retval              zero for success
 * \retval              negative error number on failure
 */
static int lfsck_replace_lmv(const struct lu_env *env,
                             struct lfsck_component *com,
                             struct dt_object *dir,
                             struct lfsck_slave_lmv_rec *lslr,
                             struct lfsck_namespace_req *lnr,
                             struct lmv_mds_md_v1 *lmv,
                             __u32 index, __u32 flags)
{
        struct lfsck_lmv *llmv = lnr->lnr_lmv;
        int               rc;

        rc = lfsck_remove_dirent(env, com, dir,
                                 &lslr->lslr_fid, index);
        if (rc < 0)
                return rc;

        lslr->lslr_fid = lnr->lnr_fid;
        lslr->lslr_flags = flags;
        lslr->lslr_stripe_count = lmv->lmv_stripe_count;
        lslr->lslr_index = lmv->lmv_master_mdt_index;
        lslr->lslr_hash_type = lmv->lmv_hash_type;
        if (flags == LSLF_NONE) {
                if (llmv->ll_hash_type == LMV_HASH_TYPE_UNKNOWN &&
                    lmv_is_known_hash_type(lmv->lmv_hash_type))
                        llmv->ll_hash_type = lmv->lmv_hash_type;

                if (lslr->lslr_stripe_count <= LFSCK_LMV_MAX_STRIPES &&
                    llmv->ll_max_stripe_count < lslr->lslr_stripe_count)
                        llmv->ll_max_stripe_count = lslr->lslr_stripe_count;
        }

        return 0;
}

/**
 * Record the slave LMV EA in the lfsck_lmv::ll_lslr.
 *
 * If the lfsck_lmv::ll_lslr slot corresponding to the given @shard_idx is free,
 * then fill the slot with the given @lnr/@lmv/@flags directly (maybe need to
 * extend the lfsck_lmv::ll_lslr buffer).
 *
 * If the lfsck_lmv::ll_lslr slot corresponding to the given @shard_idx is taken
 * by other shard, then the LFSCK will try to resolve the conflict by checking
 * the two conflict shards' flags, and try other possible slot (if one of them
 * claims another possible @shard_idx).
 *
 * 1) If one of the two conflict shards can be recorded in another slot, then
 *    it is OK, go ahead. Otherwise,
 *
 * 2) If one of them is dangling name entry, then remove (one of) the dangling
 *    name entry (and replace related @lslr slot if needed). Otherwise,
 *
 * 3) If one of them has no slave LMV EA, then check whether the master LMV
 *    EA has ever been lost and re-generated (LMV_HASH_FLAG_LOST_LMV in the
 *    master LMV EA).
 *
 * 3.1) If yes, then it is possible that such object is not a real shard of
 *      the striped directory, instead, it was created by someone after the
 *      master LMV EA lost with the name that matches the shard naming rule.
 *      Then the LFSCK will remove the master LMV EA and mark the striped
 *      directory as read-only to allow those non-shard files to be visible
 *      to client.
 *
 * 3.2) If no, then remove (one of) the object what has no slave LMV EA.
 *
 * 4) If all above efforts cannot work, then the LFSCK cannot know how to
 *    recover the striped directory. To make the administrator can see the
 *    conflicts, the LFSCK will remove the master LMV EA and mark the striped
 *    directory as read-only.
 *
 * This function may be called recursively, to prevent overflow, we define
 * LFSCK_REC_LMV_MAX_DEPTH to restrict the recursive call depth.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] dir       pointer to the striped directory to be handled
 * \param[in] lnr       contain the shard's FID to fill the @lslr slot,
 *                      it also records the known max filled index and
 *                      the known max stripe count
 * \param[in] lmv       pointer to the slave LMV EA to be recorded
 * \param[in] shard_idx the shard's index used for locating the @lslr slot,
 *                      it can be the index stored in the shard's name,
 *                      it also can be the index stored in the slave LMV EA
 *                      (for recursive case)
 * \param[in] flags     the shard's flags to be recorded in the @lslr slot
 *                      to indicate the shard status, such as whether has
 *                      slave LMV EA, whether dangling name entry, whether
 *                      the name entry and slave LMV EA unmatched, and ect
 * \param[in] flags2    when be called recursively, the @flags2 tells the
 *                      former conflict shard's flags in the @lslr slot.
 * \param[in,out] depth To prevent to be called recurisively too deep,
 *                      we define the max depth can be called recursively
 *                      (LFSCK_REC_LMV_MAX_DEPTH)
 *
 * \retval              zero for success
 * \retval              "-ERANGE" for invalid @shard_idx
 * \retval              "-EEXIST" for the required lslr slot has been
 *                      occupied by other shard
 * \retval              other negative error number on failure
 */
static int lfsck_record_lmv(const struct lu_env *env,
                            struct lfsck_component *com,
                            struct dt_object *dir,
                            struct lfsck_namespace_req *lnr,
                            struct lmv_mds_md_v1 *lmv, __u32 shard_idx,
                            __u32 flags, __u32 flags2, __u32 *depth)
{
        struct lfsck_instance      *lfsck = com->lc_lfsck;
        struct lfsck_lmv           *llmv  = lnr->lnr_lmv;
        const struct lu_fid        *fid   = &lnr->lnr_fid;
        struct lfsck_slave_lmv_rec *lslr;
        struct lfsck_rec_lmv_save  *lrls;
        int                         index = shard_idx;
        int                         rc    = 0;
        ENTRY;

        CDEBUG(D_LFSCK, "%s: record slave LMV EA for the striped directory "
               DFID": shard = "DFID", index = %u, flags = %u, flags2 = %u, "
               "depth = %d\n", lfsck_lfsck2name(lfsck),
               PFID(lfsck_dto2fid(dir)), PFID(fid),
               index, flags, flags2, *depth);

        if (index < 0 || index >= LFSCK_LMV_MAX_STRIPES)
                RETURN(-ERANGE);

        if (index >= llmv->ll_stripes_allocated) {
                struct lfsck_slave_lmv_rec *new_lslr;
                int new_stripes = index + 1;
                size_t old_size = sizeof(*lslr) * llmv->ll_stripes_allocated;

                OBD_ALLOC_LARGE(new_lslr, sizeof(*new_lslr) * new_stripes);
                if (new_lslr == NULL) {
                        llmv->ll_failed = 1;

                        RETURN(-ENOMEM);
                }

                memcpy(new_lslr, llmv->ll_lslr, old_size);
                OBD_FREE_LARGE(llmv->ll_lslr, old_size);
                llmv->ll_stripes_allocated = new_stripes;
                llmv->ll_lslr = new_lslr;
        }

        lslr = llmv->ll_lslr + index;
        if (unlikely(lu_fid_eq(&lslr->lslr_fid, fid)))
                RETURN(0);

        if (fid_is_zero(&lslr->lslr_fid)) {
                lslr->lslr_fid = *fid;
                lslr->lslr_stripe_count = lmv->lmv_stripe_count;
                lslr->lslr_index = lmv->lmv_master_mdt_index;
                lslr->lslr_hash_type = lmv->lmv_hash_type;
                lslr->lslr_flags = flags;
                llmv->ll_stripes_filled++;
                if (flags == LSLF_NONE) {
                        if (llmv->ll_hash_type == LMV_HASH_TYPE_UNKNOWN &&
                            lmv_is_known_hash_type(lmv->lmv_hash_type))
                                llmv->ll_hash_type = lmv->lmv_hash_type;

                        if (lslr->lslr_stripe_count <= LFSCK_LMV_MAX_STRIPES &&
                            llmv->ll_max_stripe_count < lslr->lslr_stripe_count)
                                llmv->ll_max_stripe_count =
                                                        lslr->lslr_stripe_count;
                }

                if (llmv->ll_max_filled_off < index)
                        llmv->ll_max_filled_off = index;

                RETURN(0);
        }

        (*depth)++;
        if (flags != LSLF_BAD_INDEX2)
                LASSERTF(*depth == 1, "depth = %d\n", *depth);

        /* Handle conflict cases. */
        switch (lslr->lslr_flags) {
        case LSLF_NONE:
        case LSLF_BAD_INDEX2:
                /* The existing one is a normal valid object. */
                switch (flags) {
                case LSLF_NONE:
                        /* The two 'valid' name entries claims the same
                         * index, the LFSCK cannot distinguish which one
                         * is correct. Then remove the master LMV EA to
                         * make all shards to be visible to client, and
                         * mark the master MDT-object as read-only. The
                         * administrator can handle the conflict with
                         * more human knowledge. */
                        rc = lfsck_remove_lmv(env, com, dir, lnr);
                        break;
                case LSLF_BAD_INDEX2:
                        GOTO(out, rc = -EEXIST);
                case LSLF_NO_LMVEA:

no_lmvea:
                        if (llmv->ll_lmv.lmv_hash_type &
                            LMV_HASH_FLAG_LOST_LMV) {
                                /* If the master LMV EA was re-generated
                                 * by the former LFSCK reparation, and
                                 * before such reparation, someone has
                                 * created the conflict object, but the
                                 * LFSCK did not detect such conflict,
                                 * then we have to remove the master
                                 * LMV EA and mark the master MDT-object
                                 * as read-only. The administrator can
                                 * handle the conflict with more human
                                 * knowledge. */
                                rc = lfsck_remove_lmv(env, com, dir, lnr);
                        } else {
                                /* Otherwise, remove the current name entry,
                                 * and add its FID in the LFSCK tracing file
                                 * for further processing. */
                                rc = lfsck_namespace_trace_update(env, com, fid,
                                                LNTF_CHECK_PARENT, true);
                                if (rc == 0)
                                        rc = lfsck_remove_dirent(env, com, dir,
                                                                 fid, index);
                        }

                        break;
                case LSLF_DANGLING:
                        /* Remove the current dangling name entry. */
                        rc = lfsck_remove_dirent(env, com, dir, fid, index);
                        break;
                case LSLF_BAD_INDEX1:
                        index = lmv->lmv_master_mdt_index;
                        lmv->lmv_master_mdt_index = shard_idx;
                        /* The name entry claims an index that is conflict
                         * with a valid existing name entry, then try the
                         * index in the lmv recursively. */
                        rc = lfsck_record_lmv(env, com, dir, lnr, lmv, index,
                                LSLF_BAD_INDEX2, lslr->lslr_flags, depth);
                        lmv->lmv_master_mdt_index = index;
                        if (rc == -ERANGE || rc == -EEXIST)
                                /* The index in the lmv is invalid or
                                 * also conflict with other. Then we do
                                 * not know how to resolve the conflict.
                                 * We will handle it as handle the case
                                 * of 'LSLF_NONE' vs 'LSLF_NONE'. */
                                rc = lfsck_remove_lmv(env, com, dir, lnr);

                        break;
                default:
                        break;
                }

                break;
        case LSLF_NO_LMVEA:
                /* The existing one has no slave LMV EA. */
                switch (flags) {
                case LSLF_NONE:

none:
                        if (llmv->ll_lmv.lmv_hash_type &
                            LMV_HASH_FLAG_LOST_LMV) {
                                /* If the master LMV EA was re-generated
                                 * by the former LFSCK reparation, and
                                 * before such reparation, someone has
                                 * created the conflict object, but the
                                 * LFSCK did not detect such conflict,
                                 * then we have to remove the master
                                 * LMV EA and mark the master MDT-object
                                 * as read-only. The administrator can
                                 * handle the conflict with more human
                                 * knowledge. */
                                rc = lfsck_remove_lmv(env, com, dir, lnr);
                        } else {
                                lrls = &lfsck->li_rec_lmv_save[*depth - 1];
                                lrls->lrls_fid = lslr->lslr_fid;
                                /* Otherwise, remove the existing name entry,
                                 * and add its FID in the LFSCK tracing file
                                 * for further processing. Refill the slot
                                 * with current slave LMV EA. */
                                rc = lfsck_namespace_trace_update(env,
                                                com, &lrls->lrls_fid,
                                                LNTF_CHECK_PARENT, true);
                                if (rc == 0)
                                        rc = lfsck_replace_lmv(env, com, dir,
                                                lslr, lnr, lmv, index, flags);
                        }

                        break;
                case LSLF_BAD_INDEX2:
                        if (flags2 >= lslr->lslr_flags)
                                GOTO(out, rc = -EEXIST);

                        goto none;
                case LSLF_NO_LMVEA:
                        goto no_lmvea;
                case LSLF_DANGLING:
                        /* Remove the current dangling name entry. */
                        rc = lfsck_remove_dirent(env, com, dir, fid, index);
                        break;
                case LSLF_BAD_INDEX1:
                        index = lmv->lmv_master_mdt_index;
                        lmv->lmv_master_mdt_index = shard_idx;
                        /* The name entry claims an index that is conflict
                         * with a valid existing name entry, then try the
                         * index in the lmv recursively. */
                        rc = lfsck_record_lmv(env, com, dir, lnr, lmv, index,
                                LSLF_BAD_INDEX2, lslr->lslr_flags, depth);
                        lmv->lmv_master_mdt_index = index;
                        if (rc == -ERANGE || rc == -EEXIST) {
                                index = shard_idx;
                                goto no_lmvea;
                        }

                        break;
                default:
                        break;
                }

                break;
        case LSLF_DANGLING:
                /* The existing one is a dangling name entry. */
                switch (flags) {
                case LSLF_NONE:
                case LSLF_BAD_INDEX2:
                case LSLF_NO_LMVEA:
                        /* Remove the existing dangling name entry.
                         * Refill the lslr slot with the given LMV. */
                        rc = lfsck_replace_lmv(env, com, dir, lslr, lnr,
                                               lmv, index, flags);
                        break;
                case LSLF_DANGLING:
                        /* Two dangling name entries conflict,
                         * remove the current one. */
                        rc = lfsck_remove_dirent(env, com, dir, fid, index);
                        break;
                case LSLF_BAD_INDEX1:
                        index = lmv->lmv_master_mdt_index;
                        lmv->lmv_master_mdt_index = shard_idx;
                        /* The name entry claims an index that is conflict
                         * with a valid existing name entry, then try the
                         * index in the lmv recursively. */
                        rc = lfsck_record_lmv(env, com, dir, lnr, lmv, index,
                                LSLF_BAD_INDEX2, lslr->lslr_flags, depth);
                        lmv->lmv_master_mdt_index = index;
                        if (rc == -ERANGE || rc == -EEXIST)
                                /* If the index in the lmv is invalid or
                                 * also conflict with other, then remove
                                 * the existing dangling name entry.
                                 * Refill the lslr slot with the given LMV. */
                                rc = lfsck_replace_lmv(env, com, dir, lslr, lnr,
                                                       lmv, shard_idx, flags);

                        break;
                default:
                        break;
                }

                break;
        case LSLF_BAD_INDEX1: {
                if (*depth >= LFSCK_REC_LMV_MAX_DEPTH)
                        goto conflict;

                lrls = &lfsck->li_rec_lmv_save[*depth - 1];
                lrls->lrls_fid = lnr->lnr_fid;
                lrls->lrls_lmv = *lmv;

                lnr->lnr_fid = lslr->lslr_fid;
                lmv->lmv_master_mdt_index = index;
                lmv->lmv_stripe_count = lslr->lslr_stripe_count;
                lmv->lmv_hash_type = lslr->lslr_hash_type;
                index = lslr->lslr_index;

                /* The existing one has another possible slot,
                 * try it recursively. */
                rc = lfsck_record_lmv(env, com, dir, lnr, lmv, index,
                                      LSLF_BAD_INDEX2, flags, depth);
                *lmv = lrls->lrls_lmv;
                lnr->lnr_fid = lrls->lrls_fid;
                index = shard_idx;
                if (rc != 0) {
                        if (rc == -ERANGE || rc == -EEXIST)
                                goto conflict;

                        break;
                }

                lslr->lslr_fid = *fid;
                lslr->lslr_flags = flags;
                lslr->lslr_stripe_count = lmv->lmv_stripe_count;
                lslr->lslr_index = lmv->lmv_master_mdt_index;
                lslr->lslr_hash_type = lmv->lmv_hash_type;
                if (flags == LSLF_NONE) {
                        if (llmv->ll_hash_type == LMV_HASH_TYPE_UNKNOWN &&
                            lmv_is_known_hash_type(lmv->lmv_hash_type))
                                llmv->ll_hash_type = lmv->lmv_hash_type;

                        if (lslr->lslr_stripe_count <= LFSCK_LMV_MAX_STRIPES &&
                            llmv->ll_max_stripe_count < lslr->lslr_stripe_count)
                                llmv->ll_max_stripe_count =
                                                        lslr->lslr_stripe_count;
                }

                break;

conflict:
                switch (flags) {
                case LSLF_NONE:
                        /* The two 'valid' name entries claims the same
                         * index, the LFSCK cannot distinguish which one
                         * is correct. Then remove the master LMV EA to
                         * make all shards to be visible to client, and
                         * mark the master MDT-object as read-only. The
                         * administrator can handle the conflict with
                         * more human knowledge. */
                        rc = lfsck_remove_lmv(env, com, dir, lnr);
                        break;
                case LSLF_BAD_INDEX2:
                        GOTO(out, rc = -EEXIST);
                case LSLF_NO_LMVEA:
                        goto no_lmvea;
                case LSLF_DANGLING:
                        /* Remove the current dangling name entry. */
                        rc = lfsck_remove_dirent(env, com, dir, fid, index);
                        break;
                case LSLF_BAD_INDEX1:
                        index = lmv->lmv_master_mdt_index;
                        lmv->lmv_master_mdt_index = shard_idx;
                        /* The name entry claims an index that is conflict
                         * with a valid existing name entry, then try the
                         * index in the lmv recursively. */
                        rc = lfsck_record_lmv(env, com, dir, lnr, lmv, index,
                                LSLF_BAD_INDEX2, lslr->lslr_flags, depth);
                        lmv->lmv_master_mdt_index = index;
                        if (rc == -ERANGE || rc == -EEXIST)
                                /* The index in the lmv is invalid or
                                 * also conflict with other. Then we do
                                 * not know how to resolve the conflict.
                                 * We will handle it as handle the case
                                 * of 'LSLF_NONE' vs 'LSLF_NONE'. */
                                rc = lfsck_remove_lmv(env, com, dir, lnr);

                        break;
                }

                break;
        }
        default:
                break;
        }

        if (rc < 0)
                llmv->ll_failed = 1;

        GOTO(out, rc);

out:
        (*depth)--;

        return rc > 0 ? 0 : rc;
}

int lfsck_read_stripe_lmv(const struct lu_env *env, struct dt_object *obj,
                          struct lmv_mds_md_v1 *lmv)
{
        int rc;

        dt_read_lock(env, obj, 0);
        rc = dt_xattr_get(env, obj, lfsck_buf_get(env, lmv, sizeof(*lmv)),
                          XATTR_NAME_LMV);
        dt_read_unlock(env, obj);
        if (rc != sizeof(*lmv))
                return rc > 0 ? -EINVAL : rc;

        lfsck_lmv_header_le_to_cpu(lmv, lmv);
        if ((lmv->lmv_magic == LMV_MAGIC &&
             !(lmv->lmv_hash_type & LMV_HASH_FLAG_MIGRATION)) ||
            (lmv->lmv_magic == LMV_MAGIC_STRIPE &&
             !(lmv->lmv_hash_type & LMV_HASH_FLAG_DEAD)))
                return 0;

        return -ENODATA;
}

/**
 * Parse the shard's index from the given shard name.
 *
 * The valid shard name/type should be:
 * 1) The type must be S_IFDIR
 * 2) The name should be $FID:$index
 * 3) the index should within valid range.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] name      the shard name
 * \param[in] namelen   the name length
 * \param[in] type      the entry's type
 * \param[in] fid       the entry's FID
 *
 * \retval              zero or positive number for the index from the name
 * \retval              negative error number on failure
 */
int lfsck_shard_name_to_index(const struct lu_env *env, const char *name,
                              int namelen, __u16 type, const struct lu_fid *fid)
{
        char    *name2  = lfsck_env_info(env)->lti_tmpbuf2;
        int      len;
        int      idx    = 0;

        if (!S_ISDIR(type))
                return -ENOTDIR;

        LASSERT(name != name2);

        len = snprintf(name2, sizeof(lfsck_env_info(env)->lti_tmpbuf2),
                       DFID":", PFID(fid));
        if (namelen < len + 1 || memcmp(name, name2, len) != 0)
                return -EINVAL;

        do {
                if (!isdigit(name[len]))
                        return -EINVAL;

                idx = idx * 10 + name[len++] - '0';
        } while (len < namelen);

        if (idx >= LFSCK_LMV_MAX_STRIPES)
                return -EINVAL;

        return idx;
}

bool lfsck_is_valid_slave_name_entry(const struct lu_env *env,
                                     struct lfsck_lmv *llmv,
                                     const char *name, int namelen)
{
        struct lmv_mds_md_v1    *lmv;
        int                      idx;

        if (llmv == NULL || !llmv->ll_lmv_slave || !llmv->ll_lmv_verified)
                return true;

        lmv = &llmv->ll_lmv;
        idx = lmv_name_to_stripe_index(lmv->lmv_hash_type,
                                       lmv->lmv_stripe_count,
                                       name, namelen);
        if (unlikely(idx != lmv->lmv_master_mdt_index))
                return false;

        return true;
}

/**
 * Check whether the given name is a valid entry under the @parent.
 *
 * If the @parent is a striped directory then the @child should one
 * shard of the striped directory, its name should be $FID:$index.
 *
 * If the @parent is a shard of a striped directory, then the name hash
 * should match the MDT, otherwise it is invalid.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] parent    the parent directory
 * \param[in] child     the child object to be checked
 * \param[in] cname     the name for the @child in the parent directory
 *
 * \retval              positive number for invalid name entry
 * \retval              0 if the name is valid or uncertain
 * \retval              negative error number on failure
 */
int lfsck_namespace_check_name(const struct lu_env *env,
                               struct dt_object *parent,
                               struct dt_object *child,
                               const struct lu_name *cname)
{
        struct lmv_mds_md_v1    *lmv = &lfsck_env_info(env)->lti_lmv;
        int                      idx;
        int                      rc;

        rc = lfsck_read_stripe_lmv(env, parent, lmv);
        if (rc != 0)
                RETURN(rc == -ENODATA ? 0 : rc);

        if (lmv->lmv_magic == LMV_MAGIC_STRIPE) {
                if (!lfsck_is_valid_slave_lmv(lmv))
                        return 0;

                idx = lmv_name_to_stripe_index(lmv->lmv_hash_type,
                                               lmv->lmv_stripe_count,
                                               cname->ln_name,
                                               cname->ln_namelen);
                if (unlikely(idx != lmv->lmv_master_mdt_index))
                        return 1;
        } else if (lfsck_shard_name_to_index(env, cname->ln_name,
                        cname->ln_namelen, lfsck_object_type(child),
                        lfsck_dto2fid(child)) < 0) {
                return 1;
        }

        return 0;
}

/**
 * Update the object's LMV EA with the given @lmv.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the object which LMV EA will be updated
 * \param[in] lmv       pointer to buffer holding the new LMV EA
 * \param[in] locked    whether the caller has held ldlm lock on the @obj or not
 *
 * \retval              positive number for nothing to be done
 * \retval              zero if updated successfully
 * \retval              negative error number on failure
 */
int lfsck_namespace_update_lmv(const struct lu_env *env,
                               struct lfsck_component *com,
                               struct dt_object *obj,
                               struct lmv_mds_md_v1 *lmv, bool locked)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lmv_mds_md_v1            *lmv4   = &info->lti_lmv4;
        struct lu_buf                   *buf    = &info->lti_buf;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct dt_device                *dev    = lfsck_obj2dev(obj);
        struct thandle                  *th     = NULL;
        struct lustre_handle             lh     = { 0 };
        int                              rc     = 0;
        int                              rc1    = 0;
        ENTRY;

        LASSERT(lmv4 != lmv);

        lfsck_lmv_header_cpu_to_le(lmv4, lmv);
        lfsck_buf_init(buf, lmv4, sizeof(*lmv4));

        if (!locked) {
                rc = lfsck_ibits_lock(env, lfsck, obj, &lh,
                                      MDS_INODELOCK_UPDATE |
                                      MDS_INODELOCK_XATTR, LCK_EX);
                if (rc != 0)
                        GOTO(log, rc);
        }

        th = dt_trans_create(env, dev);
        if (IS_ERR(th))
                GOTO(log, rc = PTR_ERR(th));

        /* For remote updating LMV EA, there will be further LFSCK action on
         * remote MDT after the updating, so update the LMV EA synchronously. */
        if (dt_object_remote(obj))
                th->th_sync = 1;

        rc = dt_declare_xattr_set(env, obj, buf, XATTR_NAME_LMV, 0, th);
        if (rc != 0)
                GOTO(stop, rc);

        rc = dt_trans_start_local(env, dev, th);
        if (rc != 0)
                GOTO(stop, rc);

        dt_write_lock(env, obj, 0);
        if (unlikely(lfsck_is_dead_obj(obj)))
                GOTO(unlock, rc = 1);

        if (lfsck->li_bookmark_ram.lb_param & LPF_DRYRUN)
                GOTO(unlock, rc = 0);

        rc = dt_xattr_set(env, obj, buf, XATTR_NAME_LMV, 0, th);

        GOTO(unlock, rc);

unlock:
        dt_write_unlock(env, obj);

stop:
        rc1 = dt_trans_stop(env, dev, th);
        if (rc == 0)
                rc = rc1;

log:
        lfsck_ibits_unlock(&lh, LCK_EX);
        CDEBUG(D_LFSCK, "%s: namespace LFSCK updated the %s LMV EA "
               "for the object "DFID": rc = %d\n",
               lfsck_lfsck2name(lfsck),
               lmv->lmv_magic == LMV_MAGIC ? "master" : "slave",
               PFID(lfsck_dto2fid(obj)), rc);

        return rc;
}

/**
 * Check whether allow to re-genereate the lost master LMV EA.
 *
 * If the master MDT-object of the striped directory lost its master LMV EA,
 * then before the LFSCK repaired the striped directory, some ones may have
 * created some objects (that are not normal shards of the striped directory)
 * under the master MDT-object. If such case happend, then the LFSCK cannot
 * re-generate the lost master LMV EA to keep those objects to be visible to
 * client.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the master MDT-object to be checked
 * \param[in] cfid      the shard's FID used for verification
 * \param[in] cidx      the shard's index used for verification
 *
 * \retval              positive number if not allow to re-generate LMV EA
 * \retval              zero if allow to re-generate LMV EA
 * \retval              negative error number on failure
 */
static int lfsck_allow_regenerate_master_lmv(const struct lu_env *env,
                                             struct lfsck_component *com,
                                             struct dt_object *obj,
                                             const struct lu_fid *cfid,
                                             __u32 cidx)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lu_fid                   *tfid   = &info->lti_fid3;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct lu_dirent                *ent    =
                        (struct lu_dirent *)info->lti_key;
        const struct dt_it_ops          *iops;
        struct dt_it                    *di;
        __u64                            cookie;
        __u32                            args;
        int                              rc;
        __u16                            type;
        ENTRY;

        if (unlikely(!dt_try_as_dir(env, obj)))
                RETURN(-ENOTDIR);

        /* Check whether the shard and the master MDT-object matches or not. */
        snprintf(info->lti_tmpbuf, sizeof(info->lti_tmpbuf), DFID":%u",
                 PFID(cfid), cidx);
        rc = dt_lookup(env, obj, (struct dt_rec *)tfid,
                       (const struct dt_key *)info->lti_tmpbuf);
        if (rc != 0)
                RETURN(rc);

        if (!lu_fid_eq(tfid, cfid))
                RETURN(-ENOENT);

        args = lfsck->li_args_dir & ~(LUDA_VERIFY | LUDA_VERIFY_DRYRUN);
        iops = &obj->do_index_ops->dio_it;
        di = iops->init(env, obj, args);
        if (IS_ERR(di))
                RETURN(PTR_ERR(di));

        rc = iops->load(env, di, 0);
        if (rc == 0)
                rc = iops->next(env, di);
        else if (rc > 0)
                rc = 0;

        if (rc != 0)
                GOTO(out, rc);

        do {
                rc = iops->rec(env, di, (struct dt_rec *)ent, args);
                if (rc == 0)
                        rc = lfsck_unpack_ent(ent, &cookie, &type);

                if (rc != 0)
                        GOTO(out, rc);

                /* skip dot and dotdot entries */
                if (name_is_dot_or_dotdot(ent->lde_name, ent->lde_namelen))
                        goto next;

                /* If the subdir name does not match the shard name rule, then
                 * it is quite possible that it is NOT a shard, but created by
                 * someone after the master MDT-object lost the master LMV EA.
                 * But it is also possible that the subdir name entry crashed,
                 * under such double failure cases, the LFSCK cannot know how
                 * to repair the inconsistency. For data safe, the LFSCK will
                 * mark the master MDT-object as read-only. The administrator
                 * can fix the bad shard name manually, then run LFSCK again.
                 *
                 * XXX: If the subdir name matches the shard name rule, but it
                 *      is not a real shard of the striped directory, instead,
                 *      it was created by someone after the master MDT-object
                 *      lost the LMV EA, then re-generating the master LMV EA
                 *      will cause such subdir to be invisible to client, and
                 *      if its index occupies some lost shard index, then the
                 *      LFSCK will use it to replace the bad shard, and cause
                 *      the subdir (itself) to be invisible for ever. */
                if (lfsck_shard_name_to_index(env, ent->lde_name,
                                ent->lde_namelen, type, &ent->lde_fid) < 0)
                        GOTO(out, rc = 1);

next:
                rc = iops->next(env, di);
        } while (rc == 0);

        GOTO(out, rc = 0);

out:
        iops->put(env, di);
        iops->fini(env, di);

        return rc;
}

/**
 * Notify remote LFSCK instance that the object's LMV EA has been updated.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the object on which the LMV EA will be set
 * \param[in] event     indicate either master or slave LMV EA has been updated
 * \param[in] flags     indicate which element(s) in the LMV EA has been updated
 * \param[in] index     the MDT index on which the LFSCK instance to be notified
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
static int lfsck_namespace_notify_lmv_remote(const struct lu_env *env,
                                             struct lfsck_component *com,
                                             struct dt_object *obj,
                                             __u32 event, __u32 flags,
                                             __u32 index)
{
        struct lfsck_request            *lr     = &lfsck_env_info(env)->lti_lr;
        const struct lu_fid             *fid    = lfsck_dto2fid(obj);
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct lfsck_tgt_desc           *ltd    = NULL;
        struct ptlrpc_request           *req    = NULL;
        int                              rc;
        ENTRY;

        ltd = lfsck_tgt_get(&lfsck->li_mdt_descs, index);
        if (ltd == NULL)
                GOTO(out, rc = -ENODEV);

        req = ptlrpc_request_alloc(class_exp2cliimp(ltd->ltd_exp),
                                   &RQF_LFSCK_NOTIFY);
        if (req == NULL)
                GOTO(out, rc = -ENOMEM);

        rc = ptlrpc_request_pack(req, LUSTRE_OBD_VERSION, LFSCK_NOTIFY);
        if (rc != 0) {
                ptlrpc_request_free(req);

                GOTO(out, rc);
        }

        lr = req_capsule_client_get(&req->rq_pill, &RMF_LFSCK_REQUEST);
        memset(lr, 0, sizeof(*lr));
        lr->lr_event = event;
        lr->lr_index = lfsck_dev_idx(lfsck);
        lr->lr_active = LFSCK_TYPE_NAMESPACE;
        lr->lr_fid = *fid;
        lr->lr_flags = flags;

        ptlrpc_request_set_replen(req);
        rc = ptlrpc_queue_wait(req);
        ptlrpc_req_finished(req);

        GOTO(out, rc = (rc == -ENOENT ? 1 : rc));

out:
        CDEBUG(D_LFSCK, "%s: namespace LFSCK notify LMV EA updated for the "
               "object "DFID" on MDT %x remotely with event %u, flags %u: "
               "rc = %d\n", lfsck_lfsck2name(lfsck), PFID(fid), index,
               event, flags, rc);

        if (ltd != NULL)
                lfsck_tgt_put(ltd);

        return rc;
}

/**
 * Generate request for local LFSCK instance to rescan the striped directory.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the striped directory to be rescanned
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
int lfsck_namespace_notify_lmv_master_local(const struct lu_env *env,
                                            struct lfsck_component *com,
                                            struct dt_object *obj)
{
        struct lfsck_instance      *lfsck = com->lc_lfsck;
        struct lfsck_namespace     *ns    = com->lc_file_ram;
        struct lmv_mds_md_v1       *lmv4  = &lfsck_env_info(env)->lti_lmv4;
        struct lfsck_lmv_unit      *llu;
        struct lfsck_lmv           *llmv;
        struct lfsck_slave_lmv_rec *lslr;
        int                         count = 0;
        int                         rc;
        ENTRY;

        if (lfsck->li_bookmark_ram.lb_param & LPF_DRYRUN)
                RETURN(0);

        rc = lfsck_read_stripe_lmv(env, obj, lmv4);
        if (rc != 0)
                RETURN(rc);

        OBD_ALLOC_PTR(llu);
        if (unlikely(llu == NULL))
                RETURN(-ENOMEM);

        if (lmv4->lmv_stripe_count < 1)
                count = LFSCK_LMV_DEF_STRIPES;
        else if (lmv4->lmv_stripe_count > LFSCK_LMV_MAX_STRIPES)
                count = LFSCK_LMV_MAX_STRIPES;
        else
                count = lmv4->lmv_stripe_count;

        OBD_ALLOC_LARGE(lslr, sizeof(struct lfsck_slave_lmv_rec) * count);
        if (lslr == NULL) {
                OBD_FREE_PTR(llu);

                RETURN(-ENOMEM);
        }

        INIT_LIST_HEAD(&llu->llu_link);
        llu->llu_lfsck = lfsck;
        llu->llu_obj = lfsck_object_get(obj);
        llmv = &llu->llu_lmv;
        llmv->ll_lmv_master = 1;
        llmv->ll_inline = 1;
        atomic_set(&llmv->ll_ref, 1);
        llmv->ll_stripes_allocated = count;
        llmv->ll_hash_type = LMV_HASH_TYPE_UNKNOWN;
        llmv->ll_lslr = lslr;
        llmv->ll_lmv = *lmv4;

        down_write(&com->lc_sem);
        if (ns->ln_status != LS_SCANNING_PHASE1 &&
            ns->ln_status != LS_SCANNING_PHASE2) {
                ns->ln_striped_dirs_skipped++;
                up_write(&com->lc_sem);
                lfsck_lmv_put(env, llmv);
        } else {
                ns->ln_striped_dirs_repaired++;
                spin_lock(&lfsck->li_lock);
                list_add_tail(&llu->llu_link, &lfsck->li_list_lmv);
                spin_unlock(&lfsck->li_lock);
                up_write(&com->lc_sem);
        }

        RETURN(0);
}

/**
 * Set master LMV EA for the specified striped directory.
 *
 * First, if the master MDT-object of a striped directory lost its LMV EA,
 * then there may be some users have created some files under the master
 * MDT-object directly. Under such case, the LFSCK cannot re-generate LMV
 * EA for the master MDT-object, because we should keep the existing files
 * to be visible to client. Then the LFSCK will mark the striped directory
 * as read-only and keep it there to be handled by administrator manually.
 *
 * If nobody has created files under the master MDT-object of the striped
 * directory, then we will set the master LMV EA and generate a new rescan
 * (the striped directory) request that will be handled later by the LFSCK
 * instance on the MDT later.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the object on which the LMV EA will be set
 * \param[in] lmv       pointer to the buffer holding the new LMV EA
 * \param[in] cfid      the shard's FID used for verification
 * \param[in] cidx      the shard's index used for verification
 * \param[in] flags     to indicate which element(s) in the LMV EA will be set
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
static int lfsck_namespace_set_lmv_master(const struct lu_env *env,
                                          struct lfsck_component *com,
                                          struct dt_object *obj,
                                          struct lmv_mds_md_v1 *lmv,
                                          const struct lu_fid *cfid,
                                          __u32 cidx, __u32 flags)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lmv_mds_md_v1            *lmv3   = &info->lti_lmv3;
        struct lu_seq_range             *range  = &info->lti_range;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct seq_server_site          *ss     = lfsck_dev_site(lfsck);
        struct lustre_handle             lh     = { 0 };
        int                              pidx   = -1;
        int                              rc     = 0;
        ENTRY;

        fld_range_set_mdt(range);
        rc = fld_server_lookup(env, ss->ss_server_fld,
                               fid_seq(lfsck_dto2fid(obj)), range);
        if (rc != 0)
                GOTO(log, rc);

        pidx = range->lsr_index;
        rc = lfsck_ibits_lock(env, lfsck, obj, &lh,
                              MDS_INODELOCK_UPDATE | MDS_INODELOCK_XATTR,
                              LCK_EX);
        if (rc != 0)
                GOTO(log, rc);

        rc = lfsck_read_stripe_lmv(env, obj, lmv3);
        if (rc == -ENODATA) {
                if (!(flags & LEF_SET_LMV_ALL))
                        GOTO(log, rc);

                *lmv3 = *lmv;
        } else if (rc == 0) {
                if (flags & LEF_SET_LMV_ALL)
                        GOTO(log, rc = 1);

                if (flags & LEF_SET_LMV_HASH)
                        lmv3->lmv_hash_type = lmv->lmv_hash_type;
        } else {
                GOTO(log, rc);
        }

        lmv3->lmv_magic = LMV_MAGIC;
        lmv3->lmv_master_mdt_index = pidx;

        if (flags & LEF_SET_LMV_ALL) {
                rc = lfsck_allow_regenerate_master_lmv(env, com, obj,
                                                       cfid, cidx);
                if (rc > 0) {
                        rc = lfsck_disable_master_lmv(env, com, obj, false);

                        GOTO(log, rc = (rc == 0 ? 1 : rc));
                }

                if (rc < 0)
                        GOTO(log, rc);

                /* To indicate that the master has ever lost LMV EA. */
                lmv3->lmv_hash_type |= LMV_HASH_FLAG_LOST_LMV;
        }

        rc = lfsck_namespace_update_lmv(env, com, obj, lmv3, true);
        if (rc == 0 && flags & LEF_SET_LMV_ALL) {
                if (dt_object_remote(obj))
                        rc = lfsck_namespace_notify_lmv_remote(env, com, obj,
                                                LE_SET_LMV_MASTER, 0, pidx);
                else
                        rc = lfsck_namespace_notify_lmv_master_local(env, com,
                                                                     obj);
        }

        GOTO(log, rc);

log:
        lfsck_ibits_unlock(&lh, LCK_EX);
        CDEBUG(D_LFSCK, "%s: namespace LFSCK set master LMV EA for the object "
               DFID" on the %s MDT %d, flags %x: rc = %d\n",
               lfsck_lfsck2name(lfsck), PFID(lfsck_dto2fid(obj)),
               dt_object_remote(obj) ? "remote" : "local", pidx, flags, rc);

        if (rc <= 0) {
                struct lfsck_namespace *ns = com->lc_file_ram;

                ns->ln_flags |= LF_INCONSISTENT;
        }

        return rc;
}

/**
 * Repair the bad name hash.
 *
 * If the name hash of some name entry under the striped directory does not
 * match the shard of the striped directory, then the LFSCK will repair the
 * inconsistency. Ideally, the LFSCK should migrate the name entry from the
 * current MDT to the right MDT (another one), but before the async commit
 * finished, the LFSCK will change the striped directory's hash type as
 * LMV_HASH_TYPE_UNKNOWN and mark the lmv flags as LMV_HASH_FLAG_BAD_TYPE.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] shard     pointer to the shard of the striped directory that
 *                      contains the bad name entry
 * \param[in] llmv      pointer to lfsck LMV EA structure
 * \param[in] name      the name of the bad name hash
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
int lfsck_namespace_repair_bad_name_hash(const struct lu_env *env,
                                         struct lfsck_component *com,
                                         struct dt_object *shard,
                                         struct lfsck_lmv *llmv,
                                         const char *name)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lu_fid                   *pfid   = &info->lti_fid3;
        struct lmv_mds_md_v1            *lmv2   = &info->lti_lmv2;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct dt_object                *parent = NULL;
        int                              rc     = 0;
        ENTRY;

        rc = dt_lookup(env, shard, (struct dt_rec *)pfid,
                       (const struct dt_key *)dotdot);
        if (rc != 0 || !fid_is_sane(pfid))
                GOTO(log, rc);

        parent = lfsck_object_find_bottom(env, lfsck, pfid);
        if (IS_ERR(parent))
                GOTO(log, rc = PTR_ERR(parent));

        if (unlikely(!dt_object_exists(parent)))
                /* The parent object was previously accessed when verifying
                 * the slave LMV EA.  If this condition is true it is because
                 * the striped directory is being removed. */
                GOTO(log, rc = 1);

        *lmv2 = llmv->ll_lmv;
        lmv2->lmv_hash_type = LMV_HASH_TYPE_UNKNOWN | LMV_HASH_FLAG_BAD_TYPE;
        rc = lfsck_namespace_set_lmv_master(env, com, parent, lmv2,
                                            lfsck_dto2fid(shard),
                                            llmv->ll_lmv.lmv_master_mdt_index,
                                            LEF_SET_LMV_HASH);

        GOTO(log, rc);

log:
        CDEBUG(D_LFSCK, "%s: namespace LFSCK assistant found bad name hash "
               "on the MDT %x, parent "DFID", name %s, shard_%x "DFID
               ": rc = %d\n",
               lfsck_lfsck2name(lfsck), lfsck_dev_idx(lfsck),
               PFID(pfid), name, llmv->ll_lmv.lmv_master_mdt_index,
               PFID(lfsck_dto2fid(shard)), rc);

        if (parent != NULL && !IS_ERR(parent))
                lfsck_object_put(env, parent);

        return rc;
}

/**
 * Scan the shard of a striped directory for name hash verification.
 *
 * During the first-stage scanning, if the LFSCK cannot make sure whether
 * the shard of a stripe directory contains valid slave LMV EA or not, then
 * it will skip the name hash verification for this shard temporarily, and
 * record the shard's FID in the LFSCK tracing file. As the LFSCK processing,
 * the slave LMV EA may has been verified/fixed by LFSCK instance on master.
 * Then in the second-stage scanning, the shard will be re-scanned, and for
 * every name entry under the shard, the name hash will be verified, and for
 * unmatched name entry, the LFSCK will try to fix it.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] child     pointer to the directory object to be handled
 *
 * \retval              positive number for scanning successfully
 * \retval              zero for the scanning is paused
 * \retval              negative error number on failure
 */
int lfsck_namespace_scan_shard(const struct lu_env *env,
                               struct lfsck_component *com,
                               struct dt_object *child)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lmv_mds_md_v1            *lmv    = &info->lti_lmv;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct lfsck_namespace          *ns     = com->lc_file_ram;
        struct ptlrpc_thread            *thread = &lfsck->li_thread;
        struct lu_dirent                *ent    =
                        (struct lu_dirent *)info->lti_key;
        struct lfsck_bookmark           *bk     = &lfsck->li_bookmark_ram;
        struct lfsck_lmv                *llmv   = NULL;
        const struct dt_it_ops          *iops;
        struct dt_it                    *di;
        __u64                            cookie;
        __u32                            args;
        int                              rc;
        __u16                            type;
        ENTRY;

        rc = lfsck_read_stripe_lmv(env, child, lmv);
        if (rc != 0)
                RETURN(rc == -ENODATA ? 1 : rc);

        if (lmv->lmv_magic != LMV_MAGIC_STRIPE)
                RETURN(1);

        if (unlikely(!dt_try_as_dir(env, child)))
                RETURN(-ENOTDIR);

        OBD_ALLOC_PTR(llmv);
        if (llmv == NULL)
                RETURN(-ENOMEM);

        llmv->ll_lmv_slave = 1;
        llmv->ll_lmv_verified = 1;
        llmv->ll_lmv = *lmv;
        atomic_set(&llmv->ll_ref, 1);

        args = lfsck->li_args_dir & ~(LUDA_VERIFY | LUDA_VERIFY_DRYRUN);
        iops = &child->do_index_ops->dio_it;
        di = iops->init(env, child, args);
        if (IS_ERR(di))
                GOTO(out, rc = PTR_ERR(di));

        rc = iops->load(env, di, 0);
        if (rc == 0)
                rc = iops->next(env, di);
        else if (rc > 0)
                rc = 0;

        while (rc == 0) {
                if (CFS_FAIL_TIMEOUT(OBD_FAIL_LFSCK_DELAY3, cfs_fail_val) &&
                    unlikely(!thread_is_running(thread)))
                        GOTO(out, rc = 0);

                rc = iops->rec(env, di, (struct dt_rec *)ent, args);
                if (rc == 0)
                        rc = lfsck_unpack_ent(ent, &cookie, &type);

                if (rc != 0) {
                        if (bk->lb_param & LPF_FAILOUT)
                                GOTO(out, rc);

                        goto next;
                }

                /* skip dot and dotdot entries */
                if (name_is_dot_or_dotdot(ent->lde_name, ent->lde_namelen))
                        goto next;

                if (!lfsck_is_valid_slave_name_entry(env, llmv, ent->lde_name,
                                                     ent->lde_namelen)) {
                        ns->ln_flags |= LF_INCONSISTENT;
                        rc = lfsck_namespace_repair_bad_name_hash(env, com,
                                                child, llmv, ent->lde_name);
                        if (rc == 0)
                                ns->ln_name_hash_repaired++;
                }

                if (rc < 0 && bk->lb_param & LPF_FAILOUT)
                        GOTO(out, rc);

                /* Rate control. */
                lfsck_control_speed(lfsck);
                if (unlikely(!thread_is_running(thread)))
                        GOTO(out, rc = 0);

                if (OBD_FAIL_CHECK(OBD_FAIL_LFSCK_FATAL2)) {
                        spin_lock(&lfsck->li_lock);
                        thread_set_flags(thread, SVC_STOPPING);
                        spin_unlock(&lfsck->li_lock);

                        GOTO(out, rc = -EINVAL);
                }

next:
                rc = iops->next(env, di);
        }

        GOTO(out, rc);

out:
        iops->put(env, di);
        iops->fini(env, di);
        lfsck_lmv_put(env, llmv);

        return rc;
}

/**
 * Verify the slave object's (of striped directory) LMV EA.
 *
 * For the slave object of a striped directory, before traversing the shard
 * the LFSCK will verify whether its slave LMV EA matches its parent's master
 * LMV EA or not.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] obj       pointer to the object which LMV EA will be checked
 * \param[in] llmv      pointer to buffer holding the slave LMV EA
 *
 * \retval              positive number if nothing to be done
 * \retval              zero for success
 * \retval              negative error number on failure
 */
int lfsck_namespace_verify_stripe_slave(const struct lu_env *env,
                                        struct lfsck_component *com,
                                        struct dt_object *obj,
                                        struct lfsck_lmv *llmv)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        char                            *name   = info->lti_key;
        char                            *name2;
        struct lu_fid                   *pfid   = &info->lti_fid3;
        const struct lu_fid             *cfid   = lfsck_dto2fid(obj);
        struct lu_fid                    tfid;
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct lmv_mds_md_v1            *clmv   = &llmv->ll_lmv;
        struct lmv_mds_md_v1            *plmv   = &info->lti_lmv;
        struct dt_object                *parent = NULL;
        int                              rc     = 0;
        ENTRY;

        if (!lfsck_is_valid_slave_lmv(clmv)) {
                rc = lfsck_namespace_trace_update(env, com, cfid,
                                        LNTF_UNCERTAIN_LMV, true);

                GOTO(out, rc);
        }

        rc = dt_lookup(env, obj, (struct dt_rec *)pfid,
                       (const struct dt_key *)dotdot);
        if (rc != 0 || !fid_is_sane(pfid)) {
                rc = lfsck_namespace_trace_update(env, com, cfid,
                                        LNTF_UNCERTAIN_LMV, true);

                GOTO(out, rc);
        }

        parent = lfsck_object_find_bottom(env, lfsck, pfid);
        if (IS_ERR(parent)) {
                rc = lfsck_namespace_trace_update(env, com, cfid,
                                        LNTF_UNCERTAIN_LMV, true);

                GOTO(out, rc);
        }

        if (unlikely(!dt_object_exists(parent)))
                GOTO(out, rc = 1);

        if (unlikely(!dt_try_as_dir(env, parent)))
                GOTO(out, rc = -ENOTDIR);

        rc = lfsck_read_stripe_lmv(env, parent, plmv);
        if (rc != 0) {
                int rc1;

                /* If the parent has no LMV EA, then it maybe because:
                 * 1) The parent lost the LMV EA.
                 * 2) The child claims a wrong (slave) LMV EA. */
                if (rc == -ENODATA)
                        rc = lfsck_namespace_set_lmv_master(env, com, parent,
                                        clmv, cfid, clmv->lmv_master_mdt_index,
                                        LEF_SET_LMV_ALL);
                else
                        rc = 0;

                rc1 = lfsck_namespace_trace_update(env, com, cfid,
                                                   LNTF_UNCERTAIN_LMV, true);

                GOTO(out, rc = (rc < 0 ? rc : rc1));
        }

        /* Unmatched magic or stripe count. */
        if (unlikely(plmv->lmv_magic != LMV_MAGIC ||
                     plmv->lmv_stripe_count != clmv->lmv_stripe_count)) {
                rc = lfsck_namespace_trace_update(env, com, cfid,
                                                  LNTF_UNCERTAIN_LMV, true);

                GOTO(out, rc);
        }

        /* If the master hash type has been set as LMV_HASH_TYPE_UNKNOWN,
         * then the slave hash type is not important. */
        if ((plmv->lmv_hash_type & LMV_HASH_TYPE_MASK) ==
            LMV_HASH_TYPE_UNKNOWN &&
            plmv->lmv_hash_type & LMV_HASH_FLAG_BAD_TYPE)
                GOTO(out, rc = 0);

        /* Unmatched hash type. */
        if (unlikely((plmv->lmv_hash_type & LMV_HASH_TYPE_MASK) !=
                     (clmv->lmv_hash_type & LMV_HASH_TYPE_MASK))) {
                rc = lfsck_namespace_trace_update(env, com, cfid,
                                                  LNTF_UNCERTAIN_LMV, true);

                GOTO(out, rc);
        }

        snprintf(info->lti_tmpbuf2, sizeof(info->lti_tmpbuf2), DFID":%u",
                 PFID(cfid), clmv->lmv_master_mdt_index);
        name2 = info->lti_tmpbuf2;

        rc = lfsck_links_get_first(env, obj, name, &tfid);
        if (rc == 0 && strcmp(name, name2) == 0 && lu_fid_eq(pfid, &tfid)) {
                llmv->ll_lmv_verified = 1;

                GOTO(out, rc);
        }

        rc = dt_lookup(env, parent, (struct dt_rec *)&tfid,
                       (const struct dt_key *)name2);
        if (rc != 0 || !lu_fid_eq(cfid, &tfid))
                rc = lfsck_namespace_trace_update(env, com, cfid,
                                                  LNTF_UNCERTAIN_LMV, true);
        else
                llmv->ll_lmv_verified = 1;

        GOTO(out, rc);

out:
        if (parent != NULL && !IS_ERR(parent))
                lfsck_object_put(env, parent);

        return rc;
}

/**
 * Double scan the striped directory or the shard.
 *
 * All the shards' under the given striped directory or its shard have
 * been scanned, the LFSCK has got the global knownledge about the LMV
 * EA consistency.
 *
 * If the target is one shard of a striped directory, then only needs to
 * update related tracing file.
 *
 * If the target is the master MDT-object of a striped directory, then the
 * LFSCK will make the decision about whether the master LMV EA is invalid
 * or not, and repair it if inconsistenct; for every shard of the striped
 * directory, whether the slave LMV EA is invalid or not, and repair it if
 * inconsistent.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] lnr       pointer to the namespace request that contains the
 *                      striped directory or the shard
 *
 * \retval              zero for success
 * \retval              negative error number on failure
 */
int lfsck_namespace_striped_dir_rescan(const struct lu_env *env,
                                       struct lfsck_component *com,
                                       struct lfsck_namespace_req *lnr)
{
        struct lfsck_thread_info        *info   = lfsck_env_info(env);
        struct lfsck_instance           *lfsck  = com->lc_lfsck;
        struct lfsck_namespace          *ns     = com->lc_file_ram;
        struct lfsck_lmv                *llmv   = lnr->lnr_lmv;
        struct lmv_mds_md_v1            *lmv    = &llmv->ll_lmv;
        struct lmv_mds_md_v1            *lmv2   = &info->lti_lmv2;
        struct lfsck_assistant_object   *lso    = lnr->lnr_lar.lar_parent;
        const struct lu_fid             *pfid   = &lso->lso_fid;
        struct dt_object                *dir    = NULL;
        struct dt_object                *obj    = NULL;
        struct lu_seq_range             *range  = &info->lti_range;
        struct seq_server_site          *ss     = lfsck_dev_site(lfsck);
        __u32                            stripe_count;
        __u32                            hash_type;
        int                              rc     = 0;
        int                              i;
        ENTRY;

        if (llmv->ll_lmv_slave) {
                if (llmv->ll_lmv_verified) {
                        ns->ln_striped_shards_scanned++;
                        lfsck_namespace_trace_update(env, com, pfid,
                                        LNTF_UNCERTAIN_LMV |
                                        LNTF_RECHECK_NAME_HASH, false);
                }

                RETURN(0);
        }

        /* Either the striped directory has been disabled or only part of
         * the striped directory have been scanned. The LFSCK cannot repair
         * something based on incompleted knowledge. So skip it. */
        if (llmv->ll_ignore || llmv->ll_exit_value <= 0)
                RETURN(0);

        /* There ever been some failure, as to the LFSCK cannot know whether
         * it has got the global knowledge about the LMV EA consistency or not,
         * so it cannot make reparation about the incompleted knowledge. */
        if (llmv->ll_failed) {
                ns->ln_striped_dirs_scanned++;
                ns->ln_striped_dirs_failed++;

                RETURN(0);
        }

        if (lmv->lmv_stripe_count > LFSCK_LMV_MAX_STRIPES)
                stripe_count = max(llmv->ll_max_filled_off + 1,
                                   llmv->ll_max_stripe_count);
        else
                stripe_count = max(llmv->ll_max_filled_off + 1,
                                   lmv->lmv_stripe_count);

        if (lmv->lmv_stripe_count != stripe_count) {
                lmv->lmv_stripe_count = stripe_count;
                llmv->ll_lmv_updated = 1;
        }

        if (!lmv_is_known_hash_type(lmv->lmv_hash_type) &&
            !(lmv->lmv_hash_type & LMV_HASH_FLAG_BAD_TYPE) &&
            lmv_is_known_hash_type(llmv->ll_hash_type)) {
                hash_type = llmv->ll_hash_type & LMV_HASH_TYPE_MASK;
                lmv->lmv_hash_type = llmv->ll_hash_type;
                llmv->ll_lmv_updated = 1;
        } else {
                hash_type = lmv->lmv_hash_type & LMV_HASH_TYPE_MASK;
                if (!lmv_is_known_hash_type(hash_type))
                        hash_type = LMV_HASH_TYPE_UNKNOWN;
        }

        if (llmv->ll_lmv_updated) {
                if (dir == NULL) {
                        dir = lfsck_assistant_object_load(env, lfsck, lso);
                        if (IS_ERR(dir)) {
                                rc = PTR_ERR(dir);

                                RETURN(rc == -ENOENT ? 0 : rc);
                        }
                }

                lmv->lmv_layout_version++;
                rc = lfsck_namespace_update_lmv(env, com, dir, lmv, false);
                if (rc != 0)
                        RETURN(rc);

                ns->ln_striped_dirs_scanned++;
                ns->ln_striped_dirs_repaired++;
        }

        fld_range_set_mdt(range);
        for (i = 0; i <= llmv->ll_max_filled_off; i++) {
                struct lfsck_slave_lmv_rec *lslr = llmv->ll_lslr + i;
                const struct lu_fid *cfid = &lslr->lslr_fid;
                const struct lu_name *cname;
                struct linkea_data ldata = { NULL };
                int len;
                int rc1 = 0;
                bool repair_linkea = false;
                bool repair_lmvea = false;
                bool rename = false;
                bool create = false;
                bool linkea_repaired = false;
                bool lmvea_repaired = false;
                bool rename_repaired = false;
                bool create_repaired = false;

                /* LMV EA hole. */
                if (fid_is_zero(cfid))
                        continue;

                len = snprintf(info->lti_tmpbuf, sizeof(info->lti_tmpbuf),
                               DFID":%u", PFID(cfid), i);
                cname = lfsck_name_get_const(env, info->lti_tmpbuf, len);
                memcpy(lnr->lnr_name, info->lti_tmpbuf, len);

                obj = lfsck_object_find_bottom(env, lfsck, cfid);
                if (IS_ERR(obj)) {
                        if (dir == NULL) {
                                dir = lfsck_assistant_object_load(env, lfsck,
                                                                  lso);
                                if (IS_ERR(dir)) {
                                        if (PTR_ERR(dir) == -ENOENT)
                                                RETURN(0);

                                        dir = NULL;
                                }
                        } else if (lfsck_is_dead_obj(dir)) {
                                GOTO(out, rc = 0);
                        }

                        rc1 = PTR_ERR(obj);
                        goto next;
                }

                switch (lslr->lslr_flags) {
                case LSLF_NONE:
                        if (llmv->ll_inline ||
                            lslr->lslr_stripe_count != stripe_count ||
                            (lslr->lslr_hash_type & LMV_HASH_TYPE_MASK) !=
                             hash_type)
                                repair_lmvea = true;
                        break;
                case LSLF_BAD_INDEX2:
                        /* The index in the slave LMV EA is right,
                         * the name entry should be updated. */
                        rename = true;
                        snprintf(info->lti_tmpbuf2, sizeof(info->lti_tmpbuf2),
                                 DFID":%u", PFID(cfid), lslr->lslr_index);
                        if (llmv->ll_inline ||
                            lslr->lslr_stripe_count != stripe_count ||
                            (lslr->lslr_hash_type & LMV_HASH_TYPE_MASK) !=
                             hash_type)
                                repair_lmvea = true;
                        break;
                case LSLF_BAD_INDEX1:
                        /* The index in the name entry is right,
                         * the slave LMV EA should be updated. */
                case LSLF_NO_LMVEA:
                        repair_lmvea = true;
                        break;
                case LSLF_DANGLING:
                        create = true;
                        goto repair;
                default:
                        break;
                }

                rc1 = lfsck_links_read_with_rec(env, obj, &ldata);
                if (rc1 == -ENOENT) {
                        create = true;
                        goto repair;
                }

                if (rc1 == -EINVAL || rc1 == -ENODATA) {
                        repair_linkea = true;
                        goto repair;
                }

                if (rc1 != 0)
                        goto next;

                if (ldata.ld_leh->leh_reccount != 1) {
                        repair_linkea = true;
                        goto repair;
                }

                rc1 = linkea_links_find(&ldata, cname, pfid);
                if (rc1 != 0)
                        repair_linkea = true;

repair:
                if (create) {
                        if (dir == NULL) {
                                dir = lfsck_assistant_object_load(env, lfsck,
                                                                  lso);
                                if (IS_ERR(dir)) {
                                        rc1 = PTR_ERR(dir);

                                        if (rc1 == -ENOENT)
                                                GOTO(out, rc = 0);

                                        dir = NULL;
                                        goto next;
                                }
                        }

                        rc1 = lfsck_namespace_repair_dangling(env, com, dir,
                                                              obj, lnr);
                        if (rc1 >= 0) {
                                create_repaired = true;
                                if (rc == 0)
                                        ns->ln_dangling_repaired++;
                        }
                }

                if (repair_lmvea) {
                        *lmv2 = *lmv;
                        lmv2->lmv_magic = LMV_MAGIC_STRIPE;
                        lmv2->lmv_stripe_count = stripe_count;
                        lmv2->lmv_master_mdt_index = i;
                        lmv2->lmv_hash_type = hash_type;

                        rc1 = lfsck_namespace_update_lmv(env, com, obj,
                                                         lmv2, false);
                        if (rc1 < 0)
                                goto next;

                        if (dt_object_remote(obj)) {
                                rc1 = fld_server_lookup(env, ss->ss_server_fld,
                                        fid_seq(lfsck_dto2fid(obj)), range);
                                if (rc1 != 0)
                                        goto next;

                                rc1 = lfsck_namespace_notify_lmv_remote(env,
                                                com, obj, LE_SET_LMV_SLAVE, 0,
                                                range->lsr_index);
                        } else {
                                ns->ln_striped_shards_repaired++;
                                rc1 = lfsck_namespace_trace_update(env, com,
                                        cfid, LNTF_RECHECK_NAME_HASH, true);
                        }

                        if (rc1 < 0)
                                goto next;

                        if (rc1 >= 0)
                                lmvea_repaired = true;
                } else if (llmv->ll_inline) {
                        if (dt_object_remote(obj)) {
                                rc1 = fld_server_lookup(env, ss->ss_server_fld,
                                        fid_seq(lfsck_dto2fid(obj)), range);
                                if (rc1 != 0)
                                        goto next;

                                /* The slave LMV EA on the remote shard is
                                 * correct, just notify the LFSCK instance
                                 * on such MDT to re-verify the name_hash. */
                                rc1 = lfsck_namespace_notify_lmv_remote(env,
                                                com, obj, LE_SET_LMV_SLAVE,
                                                LEF_RECHECK_NAME_HASH,
                                                range->lsr_index);
                        } else {
                                rc1 = lfsck_namespace_trace_update(env, com,
                                        cfid, LNTF_RECHECK_NAME_HASH, true);
                        }

                        if (rc1 < 0)
                                goto next;
                }

                if (rename) {
                        if (dir == NULL) {
                                dir = lfsck_assistant_object_load(env, lfsck,
                                                                  lso);
                                if (IS_ERR(dir)) {
                                        rc1 = PTR_ERR(dir);

                                        if (rc1 == -ENOENT)
                                                GOTO(out, rc = 0);

                                        dir = NULL;
                                        goto next;
                                }
                        }

                        rc1 = lfsck_namespace_repair_dirent(env, com, dir, obj,
                                        info->lti_tmpbuf2, lnr->lnr_name,
                                        lnr->lnr_type, true, false);
                        if (rc1 >= 0) {
                                rename_repaired = true;
                                if (rc1 > 0) {
                                        ns->ln_dirent_repaired++;
                                        rc1 = lfsck_namespace_trace_update(env,
                                                com, cfid,
                                                LNTF_RECHECK_NAME_HASH, true);
                                }
                        }

                        if (rc1 < 0)
                                goto next;
                }

                if (repair_linkea) {
                        struct lustre_handle lh = { 0 };

                        rc1 = linkea_links_new(&ldata, &info->lti_big_buf,
                                               cname, lfsck_dto2fid(dir));
                        if (rc1 != 0)
                                goto next;

                        if (dir == NULL) {
                                dir = lfsck_assistant_object_load(env, lfsck,
                                                                  lso);
                                if (IS_ERR(dir)) {
                                        rc1 = PTR_ERR(dir);

                                        if (rc1 == -ENOENT)
                                                GOTO(out, rc = 0);

                                        dir = NULL;
                                        goto next;
                                }
                        }

                        rc1 = lfsck_ibits_lock(env, lfsck, obj, &lh,
                                               MDS_INODELOCK_UPDATE |
                                               MDS_INODELOCK_XATTR, LCK_EX);
                        if (rc1 != 0)
                                goto next;

                        rc1 = lfsck_namespace_rebuild_linkea(env, com, obj,
                                                             &ldata);
                        lfsck_ibits_unlock(&lh, LCK_EX);
                        if (rc1 >= 0) {
                                linkea_repaired = true;
                                if (rc1 > 0)
                                        ns->ln_linkea_repaired++;
                        }
                }

next:
                CDEBUG(D_LFSCK, "%s: namespace LFSCK repair the shard "
                      "%d "DFID" of the striped directory "DFID" with "
                      "dangling %s/%s, rename %s/%s, llinkea %s/%s, "
                      "repair_lmvea %s/%s: rc = %d\n", lfsck_lfsck2name(lfsck),
                      i, PFID(cfid), PFID(&lnr->lnr_fid),
                      create ? "yes" : "no", create_repaired ? "yes" : "no",
                      rename ? "yes" : "no", rename_repaired ? "yes" : "no",
                      repair_linkea ? "yes" : "no",
                      linkea_repaired ? "yes" : "no",
                      repair_lmvea ? "yes" : "no",
                      lmvea_repaired ? "yes" : "no", rc1);

                if (obj != NULL && !IS_ERR(obj)) {
                        lfsck_object_put(env, obj);
                        obj = NULL;
                }

                if (rc1 < 0) {
                        rc = rc1;
                        ns->ln_striped_shards_failed++;
                }
        }

        GOTO(out, rc);

out:
        if (obj != NULL && !IS_ERR(obj))
                lfsck_object_put(env, obj);

        if (dir != NULL && !IS_ERR(dir))
                lfsck_object_put(env, dir);

        return rc;
}

/**
 * Verify the shard's name entry under the striped directory.
 *
 * Before all shards of the striped directory scanned, the LFSCK cannot
 * know whether the master LMV EA is valid or not, and also cannot know
 * how to repair an invalid shard exactly. For example, the stripe index
 * stored in the shard's name does not match the stripe index stored in
 * the slave LMV EA, then the LFSCK cannot know which one is correct.
 * If the LFSCK just assumed one is correct, and fixed the other, then
 * as the LFSCK processing, it may find that the former reparation is
 * wrong and have to roll back. Unfortunately, if some applications saw
 * the changes and made further modification based on such changes, then
 * the roll back is almost impossible.
 *
 * To avoid above trouble, the LFSCK will scan the master object of the
 * striped directory twice, that is NOT the same as normal two-stages
 * scanning, the double scanning the striped directory will happen both
 * during the first-stage scanning:
 *
 * 1) When the striped directory is opened for scanning, the LFSCK will
 *    iterate each shard in turn, and records its slave LMV EA in the
 *    lfsck_lmv::ll_lslr. In this step, if the 'shard' (may be fake
 *    shard) name does not match the shard naming rule, for example, it
 *    does not contains the shard's FID, or not contains index, then we
 *    can remove the bad name entry directly. But if the name is valid,
 *    but the shard has no slave LMV EA or the slave LMV EA does not
 *    match its name, then we just record related information in the
 *    lfsck_lmv::ll_lslr in RAM.
 *
 * 2) When all the known shards have been scanned, then the engine will
 *    generate a dummy request (via lfsck_namespace_close_dir) to tell
 *    the assistant thread that all the known shards have been scanned.
 *    Since the assistant has got the global knowledge about the index
 *    conflict, stripe count, hash type, and so on. Then the assistant
 *    thread will scan the lfsck_lmv::ll_lslr, and for every shard in
 *    the record, check and repair inconsistency.
 *
 * Generally, the stripe directory has only several shards, and there
 * will NOT be a lof of striped directory. So double scanning striped
 * directory will not much affect the LFSCK performance.
 *
 * \param[in] env       pointer to the thread context
 * \param[in] com       pointer to the lfsck component
 * \param[in] lnr       pointer to the namespace request that contains the
 *                      shard's name, parent object, parent's LMV, and ect.
 *
 * \retval              zero for success
 * \retval              negative error number on failure
 */
int lfsck_namespace_handle_striped_master(const struct lu_env *env,
                                          struct lfsck_component *com,
                                          struct lfsck_namespace_req *lnr)
{
        struct lfsck_thread_info   *info        = lfsck_env_info(env);
        struct lmv_mds_md_v1       *lmv         = &info->lti_lmv;
        struct lfsck_instance      *lfsck       = com->lc_lfsck;
        struct lfsck_namespace     *ns          = com->lc_file_ram;
        struct lfsck_lmv           *llmv        = lnr->lnr_lmv;
        struct lfsck_assistant_object *lso      = lnr->lnr_lar.lar_parent;
        const struct lu_fid        *pfid        = &lso->lso_fid;
        struct dt_object           *dir;
        struct dt_object           *obj         = NULL;
        struct dt_device           *dev         = NULL;
        int                         shard_idx   = 0;
        int                         stripe      = 0;
        int                         rc          = 0;
        int                         depth       = 0;
        bool                        repaired    = false;
        enum lfsck_namespace_inconsistency_type type = LNIT_NONE;
        ENTRY;

        if (unlikely(llmv->ll_ignore))
                RETURN(0);

        dir = lfsck_assistant_object_load(env, lfsck, lso);
        if (IS_ERR(dir)) {
                rc = PTR_ERR(dir);

                RETURN(rc == -ENOENT ? 0 : rc);
        }

        shard_idx = lfsck_find_mdt_idx_by_fid(env, lfsck, &lnr->lnr_fid);
        if (shard_idx < 0)
                GOTO(fail_lmv, rc = shard_idx);

        if (shard_idx == lfsck_dev_idx(lfsck)) {
                if (unlikely(strcmp(lnr->lnr_name, dotdot) == 0))
                        GOTO(out, rc = 0);

                dev = lfsck->li_bottom;
        } else {
                struct lfsck_tgt_desc *ltd;

                /* Usually, some local filesystem consistency verification
                 * tools can guarantee the local namespace tree consistenct.
                 * So the LFSCK will only verify the remote directory. */
                if (unlikely(strcmp(lnr->lnr_name, dotdot) == 0)) {
                        rc = lfsck_namespace_trace_update(env, com, pfid,
                                                LNTF_CHECK_PARENT, true);

                        GOTO(out, rc);
                }

                ltd = lfsck_ltd2tgt(&lfsck->li_mdt_descs, shard_idx);
                if (unlikely(ltd == NULL)) {
                        CDEBUG(D_LFSCK, "%s: cannot talk with MDT %x which "
                               "did not join the namespace LFSCK\n",
                               lfsck_lfsck2name(lfsck), shard_idx);
                        lfsck_lad_set_bitmap(env, com, shard_idx);

                        GOTO(fail_lmv, rc = -ENODEV);
                }

                dev = ltd->ltd_tgt;
        }

        obj = lfsck_object_find_by_dev(env, dev, &lnr->lnr_fid);
        if (IS_ERR(obj)) {
                if (lfsck_is_dead_obj(dir))
                        RETURN(0);

                GOTO(fail_lmv, rc = PTR_ERR(obj));
        }

        if (!dt_object_exists(obj)) {
                stripe = lfsck_shard_name_to_index(env, lnr->lnr_name,
                                lnr->lnr_namelen, lnr->lnr_type, &lnr->lnr_fid);
                if (stripe < 0) {
                        type = LNIT_BAD_DIRENT;

                        GOTO(out, rc = 0);
                }

dangling:
                rc = lfsck_namespace_check_exist(env, dir, obj, lnr->lnr_name);
                if (rc == 0) {
                        memset(lmv, 0, sizeof(*lmv));
                        lmv->lmv_magic = LMV_MAGIC;
                        rc = lfsck_record_lmv(env, com, dir, lnr, lmv, stripe,
                                              LSLF_DANGLING, LSLF_NONE, &depth);
                }

                GOTO(out, rc);
        }

        stripe = lfsck_shard_name_to_index(env, lnr->lnr_name, lnr->lnr_namelen,
                                           lfsck_object_type(obj),
                                           &lnr->lnr_fid);
        if (stripe < 0) {
                type = LNIT_BAD_DIRENT;

                GOTO(out, rc = 0);
        }

        rc = lfsck_read_stripe_lmv(env, obj, lmv);
        if (unlikely(rc == -ENOENT))
                /* It may happen when the remote object has been removed,
                 * but the local MDT does not aware of that. */
                goto dangling;

        if (rc == -ENODATA)
                rc = lfsck_record_lmv(env, com, dir, lnr, lmv, stripe,
                                      LSLF_NO_LMVEA, LSLF_NONE, &depth);
        else if (rc == 0)
                rc = lfsck_record_lmv(env, com, dir, lnr, lmv, stripe,
                                      lmv->lmv_master_mdt_index != stripe ?
                                      LSLF_BAD_INDEX1 : LSLF_NONE, LSLF_NONE,
                                      &depth);

        GOTO(out, rc);

fail_lmv:
        llmv->ll_failed = 1;

out:
        if (rc >= 0 && type == LNIT_NONE && !S_ISDIR(lnr->lnr_type))
                type = LNIT_BAD_TYPE;

        switch (type) {
        case LNIT_BAD_TYPE:
                rc = lfsck_namespace_repair_dirent(env, com, dir, obj,
                                                   lnr->lnr_name, lnr->lnr_name,
                                                   lnr->lnr_type, true, false);
                if (rc > 0)
                        repaired = true;
                break;
        case LNIT_BAD_DIRENT:
                rc = lfsck_namespace_repair_dirent(env, com, dir, obj,
                                                   lnr->lnr_name, lnr->lnr_name,
                                                   lnr->lnr_type, false, false);
                if (rc > 0)
                        repaired = true;
                break;
        default:
                break;
        }

        if (rc < 0) {
                CDEBUG(D_LFSCK, "%s: namespace LFSCK assistant fail to handle "
                       "the shard: "DFID", parent "DFID", name %.*s: rc = %d\n",
                       lfsck_lfsck2name(lfsck), PFID(&lnr->lnr_fid),
                       PFID(pfid), lnr->lnr_namelen, lnr->lnr_name, rc);

                if ((rc == -ENOTCONN || rc == -ESHUTDOWN || rc == -EREMCHG ||
                     rc == -ETIMEDOUT || rc == -EHOSTDOWN ||
                     rc == -EHOSTUNREACH || rc == -EINPROGRESS) &&
                    dev != NULL && dev != lfsck->li_bottom)
                        lfsck_lad_set_bitmap(env, com, shard_idx);

                if (!(lfsck->li_bookmark_ram.lb_param & LPF_FAILOUT))
                        rc = 0;
        } else {
                if (repaired) {
                        ns->ln_items_repaired++;

                        switch (type) {
                        case LNIT_BAD_TYPE:
                                ns->ln_bad_type_repaired++;
                                break;
                        case LNIT_BAD_DIRENT:
                                ns->ln_dirent_repaired++;
                                break;
                        default:
                                break;
                        }
                }

                rc = 0;
        }

        if (obj != NULL && !IS_ERR(obj))
                lfsck_object_put(env, obj);

        lfsck_object_put(env, dir);

        return rc;
}