LU-14186 lov: instantiate components layout for fallocate

[fs/lustre-release.git] / lustre / lov / lov_io.c

/*
 * GPL HEADER START
 *
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 only,
 * as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License version 2 for more details (a copy is included
 * in the LICENSE file that accompanied this code).
 *
 * You should have received a copy of the GNU General Public License
 * version 2 along with this program; If not, see
 * http://www.gnu.org/licenses/gpl-2.0.html
 *
 * GPL HEADER END
 */
/*
 * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
 * Use is subject to license terms.
 *
 * Copyright (c) 2011, 2017, Intel Corporation.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * Implementation of cl_io for LOV layer.
 *
 *   Author: Nikita Danilov <nikita.danilov@sun.com>
 *   Author: Jinshan Xiong <jinshan.xiong@whamcloud.com>
 */

#define DEBUG_SUBSYSTEM S_LOV

#include "lov_cl_internal.h"

/** \addtogroup lov
 *  @{
 */

static inline struct lov_io_sub *lov_sub_alloc(struct lov_io *lio, int index)
{
        struct lov_io_sub *sub;

        if (lio->lis_nr_subios == 0) {
                LASSERT(lio->lis_single_subio_index == -1);
                sub = &lio->lis_single_subio;
                lio->lis_single_subio_index = index;
                memset(sub, 0, sizeof(*sub));
        } else {
                OBD_ALLOC_PTR(sub);
        }

        if (sub) {
                INIT_LIST_HEAD(&sub->sub_list);
                INIT_LIST_HEAD(&sub->sub_linkage);
                sub->sub_subio_index = index;
        }

        return sub;
}

static inline void lov_sub_free(struct lov_io *lio, struct lov_io_sub *sub)
{
        if (sub->sub_subio_index == lio->lis_single_subio_index) {
                LASSERT(sub == &lio->lis_single_subio);
                lio->lis_single_subio_index = -1;
        } else {
                OBD_FREE_PTR(sub);
        }
}

static void lov_io_sub_fini(const struct lu_env *env, struct lov_io *lio,
                            struct lov_io_sub *sub)
{
        ENTRY;

        cl_io_fini(sub->sub_env, &sub->sub_io);

        if (sub->sub_env && !IS_ERR(sub->sub_env)) {
                cl_env_put(sub->sub_env, &sub->sub_refcheck);
                sub->sub_env = NULL;
        }
        EXIT;
}

static inline bool
is_index_within_mirror(struct lov_object *lov, int index, int mirror_index)
{
        struct lov_layout_composite *comp = &lov->u.composite;
        struct lov_mirror_entry *lre = &comp->lo_mirrors[mirror_index];

        return (index >= lre->lre_start && index <= lre->lre_end);
}

static int lov_io_sub_init(const struct lu_env *env, struct lov_io *lio,
                           struct lov_io_sub *sub)
{
        struct lov_object *lov = lio->lis_object;
        struct cl_io *sub_io;
        struct cl_object *sub_obj;
        struct cl_io *io = lio->lis_cl.cis_io;
        int index = lov_comp_entry(sub->sub_subio_index);
        int stripe = lov_comp_stripe(sub->sub_subio_index);
        int result = 0;
        LASSERT(sub->sub_env == NULL);
        ENTRY;

        if (unlikely(!lov_r0(lov, index)->lo_sub ||
                     !lov_r0(lov, index)->lo_sub[stripe]))
                RETURN(-EIO);

        LASSERTF(ergo(lov_is_flr(lov),
                      is_index_within_mirror(lov, index,
                                             lio->lis_mirror_index)),
                 DFID "iot = %d, index = %d, mirror = %d\n",
                 PFID(lu_object_fid(lov2lu(lov))), io->ci_type, index,
                 lio->lis_mirror_index);

        /* obtain new environment */
        sub->sub_env = cl_env_get(&sub->sub_refcheck);
        if (IS_ERR(sub->sub_env)) {
                result = PTR_ERR(sub->sub_env);
                RETURN(result);
        }

        sub_obj = lovsub2cl(lov_r0(lov, index)->lo_sub[stripe]);
        sub_io  = &sub->sub_io;

        sub_io->ci_obj    = sub_obj;
        sub_io->ci_result = 0;

        sub_io->ci_parent  = io;
        sub_io->ci_lockreq = io->ci_lockreq;
        sub_io->ci_type    = io->ci_type;
        sub_io->ci_no_srvlock = io->ci_no_srvlock;
        sub_io->ci_noatime = io->ci_noatime;
        sub_io->ci_async_readahead = io->ci_async_readahead;
        sub_io->ci_lock_no_expand = io->ci_lock_no_expand;
        sub_io->ci_ndelay = io->ci_ndelay;
        sub_io->ci_layout_version = io->ci_layout_version;
        sub_io->ci_tried_all_mirrors = io->ci_tried_all_mirrors;

        result = cl_io_sub_init(sub->sub_env, sub_io, io->ci_type, sub_obj);

        if (result < 0)
                lov_io_sub_fini(env, lio, sub);

        RETURN(result);
}

struct lov_io_sub *lov_sub_get(const struct lu_env *env,
                               struct lov_io *lio, int index)
{
        struct lov_io_sub *sub;
        int rc = 0;

        ENTRY;

        list_for_each_entry(sub, &lio->lis_subios, sub_list) {
                if (sub->sub_subio_index == index) {
                        rc = 1;
                        break;
                }
        }

        if (rc == 0) {
                sub = lov_sub_alloc(lio, index);
                if (!sub)
                        GOTO(out, rc = -ENOMEM);

                rc = lov_io_sub_init(env, lio, sub);
                if (rc < 0) {
                        lov_sub_free(lio, sub);
                        GOTO(out, rc);
                }

                list_add_tail(&sub->sub_list, &lio->lis_subios);
                lio->lis_nr_subios++;
        }
out:
        if (rc < 0)
                sub = ERR_PTR(rc);
        else
                sub->sub_io.ci_noquota = lio->lis_cl.cis_io->ci_noquota;
        RETURN(sub);
}

/*****************************************************************************
 *
 * Lov io operations.
 *
 */
static int lov_io_subio_init(const struct lu_env *env, struct lov_io *lio,
                             struct cl_io *io)
{
        ENTRY;

        LASSERT(lio->lis_object != NULL);

        INIT_LIST_HEAD(&lio->lis_subios);
        lio->lis_single_subio_index = -1;
        lio->lis_nr_subios = 0;

        RETURN(0);
}

/**
 * Decide if it will need write intent RPC
 */
static int lov_io_mirror_write_intent(struct lov_io *lio,
        struct lov_object *obj, struct cl_io *io)
{
        struct lov_layout_composite *comp = &obj->u.composite;
        struct lu_extent *ext = &io->ci_write_intent;
        struct lov_mirror_entry *lre;
        struct lov_mirror_entry *primary;
        struct lov_layout_entry *lle;
        size_t count = 0;
        ENTRY;

        *ext = (typeof(*ext)) { lio->lis_pos, lio->lis_endpos };
        io->ci_need_write_intent = 0;

        if (!(io->ci_type == CIT_WRITE || cl_io_is_trunc(io) ||
              cl_io_is_mkwrite(io)))
                RETURN(0);

        /*
         * FLR: check if it needs to send a write intent RPC to server.
         * Writing to sync_pending file needs write intent RPC to change
         * the file state back to write_pending, so that the layout version
         * can be increased when the state changes to sync_pending at a later
         * time. Otherwise there exists a chance that an evicted client may
         * dirty the file data while resync client is working on it.
         * Designated I/O is allowed for resync workload.
         */
        if (lov_flr_state(obj) == LCM_FL_RDONLY ||
            (lov_flr_state(obj) == LCM_FL_SYNC_PENDING &&
             io->ci_designated_mirror == 0)) {
                io->ci_need_write_intent = 1;
                RETURN(0);
        }

        LASSERT((lov_flr_state(obj) == LCM_FL_WRITE_PENDING));
        LASSERT(comp->lo_preferred_mirror >= 0);

        /*
         * need to iterate all components to see if there are
         * multiple components covering the writing component
         */
        primary = &comp->lo_mirrors[comp->lo_preferred_mirror];
        LASSERT(!primary->lre_stale);
        lov_foreach_mirror_layout_entry(obj, lle, primary) {
                LASSERT(lle->lle_valid);
                if (!lu_extent_is_overlapped(ext, lle->lle_extent))
                        continue;

                ext->e_start = min(ext->e_start, lle->lle_extent->e_start);
                ext->e_end = max(ext->e_end, lle->lle_extent->e_end);
                ++count;
        }
        if (count == 0) {
                CERROR(DFID ": cannot find any valid components covering "
                       "file extent "DEXT", mirror: %d\n",
                       PFID(lu_object_fid(lov2lu(obj))), PEXT(ext),
                       primary->lre_mirror_id);
                RETURN(-EIO);
        }

        count = 0;
        lov_foreach_mirror_entry(obj, lre) {
                if (lre == primary)
                        continue;

                lov_foreach_mirror_layout_entry(obj, lle, lre) {
                        if (!lle->lle_valid)
                                continue;

                        if (lu_extent_is_overlapped(ext, lle->lle_extent)) {
                                ++count;
                                break;
                        }
                }
        }

        CDEBUG(D_VFSTRACE, DFID "there are %zd components to be staled to "
               "modify file extent "DEXT", iot: %d\n",
               PFID(lu_object_fid(lov2lu(obj))), count, PEXT(ext), io->ci_type);

        io->ci_need_write_intent = count > 0;

        RETURN(0);
}

static int lov_io_mirror_init(struct lov_io *lio, struct lov_object *obj,
                               struct cl_io *io)
{
        struct lov_layout_composite *comp = &obj->u.composite;
        int index;
        int i;
        int result;
        ENTRY;

        if (!lov_is_flr(obj)) {
                /* only locks/pages are manipulated for CIT_MISC op, no
                 * cl_io_loop() will be called, don't check/set mirror info.
                 */
                if (io->ci_type != CIT_MISC) {
                        LASSERT(comp->lo_preferred_mirror == 0);
                        lio->lis_mirror_index = comp->lo_preferred_mirror;
                }
                io->ci_ndelay = 0;
                RETURN(0);
        }

        /* transfer the layout version for verification */
        if (io->ci_layout_version == 0)
                io->ci_layout_version = obj->lo_lsm->lsm_layout_gen;

        /* find the corresponding mirror for designated mirror IO */
        if (io->ci_designated_mirror > 0) {
                struct lov_mirror_entry *entry;

                LASSERT(!io->ci_ndelay);

                CDEBUG(D_LAYOUT, "designated I/O mirror state: %d\n",
                      lov_flr_state(obj));

                if ((cl_io_is_trunc(io) || io->ci_type == CIT_WRITE) &&
                    (io->ci_layout_version != obj->lo_lsm->lsm_layout_gen)) {
                        /*
                         * For resync I/O, the ci_layout_version was the layout
                         * version when resync starts. If it doesn't match the
                         * current object layout version, it means the layout
                         * has been changed
                         */
                        RETURN(-ESTALE);
                }

                io->ci_layout_version |= LU_LAYOUT_RESYNC;

                index = 0;
                lio->lis_mirror_index = -1;
                lov_foreach_mirror_entry(obj, entry) {
                        if (entry->lre_mirror_id ==
                            io->ci_designated_mirror) {
                                lio->lis_mirror_index = index;
                                break;
                        }

                        index++;
                }

                RETURN(lio->lis_mirror_index < 0 ? -EINVAL : 0);
        }

        result = lov_io_mirror_write_intent(lio, obj, io);
        if (result)
                RETURN(result);

        if (io->ci_need_write_intent) {
                CDEBUG(D_VFSTRACE, DFID " need write intent for [%llu, %llu)\n",
                       PFID(lu_object_fid(lov2lu(obj))),
                       lio->lis_pos, lio->lis_endpos);

                if (cl_io_is_trunc(io)) {
                        /**
                         * for truncate, we uses [size, EOF) to judge whether
                         * a write intent needs to be send, but we need to
                         * restore the write extent to [0, size], in truncate,
                         * the byte in the size position is accessed.
                         */
                        io->ci_write_intent.e_start = 0;
                        io->ci_write_intent.e_end =
                                        io->u.ci_setattr.sa_attr.lvb_size + 1;
                }
                /* stop cl_io_init() loop */
                RETURN(1);
        }

        if (io->ci_ndelay_tried == 0 || /* first time to try */
            /* reset the mirror index if layout has changed */
            lio->lis_mirror_layout_gen != obj->lo_lsm->lsm_layout_gen) {
                lio->lis_mirror_layout_gen = obj->lo_lsm->lsm_layout_gen;
                index = lio->lis_mirror_index = comp->lo_preferred_mirror;
        } else {
                index = lio->lis_mirror_index;
                LASSERT(index >= 0);

                /* move mirror index to the next one */
                index = (index + 1) % comp->lo_mirror_count;
        }

        for (i = 0; i < comp->lo_mirror_count; i++) {
                struct lu_extent ext = { .e_start = lio->lis_pos,
                                         .e_end   = lio->lis_pos + 1 };
                struct lov_mirror_entry *lre;
                struct lov_layout_entry *lle;
                bool found = false;

                lre = &comp->lo_mirrors[(index + i) % comp->lo_mirror_count];
                if (!lre->lre_valid)
                        continue;

                lov_foreach_mirror_layout_entry(obj, lle, lre) {
                        if (!lle->lle_valid)
                                continue;

                        if (lu_extent_is_overlapped(&ext, lle->lle_extent)) {
                                found = true;
                                break;
                        }
                } /* each component of the mirror */
                if (found) {
                        index = (index + i) % comp->lo_mirror_count;
                        break;
                }
        } /* each mirror */

        if (i == comp->lo_mirror_count) {
                CERROR(DFID": failed to find a component covering "
                       "I/O region at %llu\n",
                       PFID(lu_object_fid(lov2lu(obj))), lio->lis_pos);

                dump_lsm(D_ERROR, obj->lo_lsm);

                RETURN(-EIO);
        }

        CDEBUG(D_VFSTRACE, DFID ": flr state: %d, move mirror from %d to %d, "
               "have retried: %d, mirror count: %d\n",
               PFID(lu_object_fid(lov2lu(obj))), lov_flr_state(obj),
               lio->lis_mirror_index, index, io->ci_ndelay_tried,
               comp->lo_mirror_count);

        lio->lis_mirror_index = index;

        /*
         * FLR: if all mirrors have been tried once, most likely the network
         * of this client has been partitioned. We should relinquish CPU for
         * a while before trying again.
         */
        if (io->ci_ndelay && io->ci_ndelay_tried > 0 &&
            (io->ci_ndelay_tried % comp->lo_mirror_count == 0)) {
                schedule_timeout_interruptible(cfs_time_seconds(1) / 100);
                if (signal_pending(current))
                        RETURN(-EINTR);

                /**
                 * we'd set ci_tried_all_mirrors to turn off fast mirror
                 * switching for read after we've tried all mirrors several
                 * rounds.
                 */
                io->ci_tried_all_mirrors = io->ci_ndelay_tried %
                                           (comp->lo_mirror_count * 4) == 0;
        }
        ++io->ci_ndelay_tried;

        CDEBUG(D_VFSTRACE, "use %sdelayed RPC state for this IO\n",
               io->ci_ndelay ? "non-" : "");

        RETURN(0);
}

static int lov_io_slice_init(struct lov_io *lio,
                             struct lov_object *obj, struct cl_io *io)
{
        int index;
        int result = 0;
        ENTRY;

        io->ci_result = 0;
        lio->lis_object = obj;

        switch (io->ci_type) {
        case CIT_READ:
        case CIT_WRITE:
                lio->lis_pos = io->u.ci_rw.crw_pos;
                lio->lis_endpos = io->u.ci_rw.crw_pos + io->u.ci_rw.crw_count;
                lio->lis_io_endpos = lio->lis_endpos;
                if (cl_io_is_append(io)) {
                        LASSERT(io->ci_type == CIT_WRITE);

                        /*
                         * If there is LOV EA hole, then we may cannot locate
                         * the current file-tail exactly.
                         */
                        if (unlikely(obj->lo_lsm->lsm_entries[0]->lsme_pattern &
                                     LOV_PATTERN_F_HOLE))
                                GOTO(out, result = -EIO);

                        lio->lis_pos = 0;
                        lio->lis_endpos = OBD_OBJECT_EOF;
                }
                break;

        case CIT_SETATTR:
                if (cl_io_is_fallocate(io)) {
                        lio->lis_pos = io->u.ci_setattr.sa_falloc_offset;
                        lio->lis_endpos = io->u.ci_setattr.sa_falloc_end;
                } else if (cl_io_is_trunc(io)) {
                        lio->lis_pos = io->u.ci_setattr.sa_attr.lvb_size;
                        lio->lis_endpos = OBD_OBJECT_EOF;
                } else {
                        lio->lis_pos = 0;
                        lio->lis_endpos = OBD_OBJECT_EOF;
                }
                break;

        case CIT_DATA_VERSION:
                lio->lis_pos = 0;
                lio->lis_endpos = OBD_OBJECT_EOF;
                break;

        case CIT_FAULT: {
                pgoff_t index = io->u.ci_fault.ft_index;

                lio->lis_pos = cl_offset(io->ci_obj, index);
                lio->lis_endpos = cl_offset(io->ci_obj, index + 1);
                break;
        }

        case CIT_FSYNC: {
                lio->lis_pos = io->u.ci_fsync.fi_start;
                lio->lis_endpos = io->u.ci_fsync.fi_end;
                break;
        }

        case CIT_LADVISE: {
                lio->lis_pos = io->u.ci_ladvise.li_start;
                lio->lis_endpos = io->u.ci_ladvise.li_end;
                break;
        }

        case CIT_LSEEK: {
                lio->lis_pos = io->u.ci_lseek.ls_start;
                lio->lis_endpos = OBD_OBJECT_EOF;
                break;
        }

        case CIT_GLIMPSE:
                lio->lis_pos = 0;
                lio->lis_endpos = OBD_OBJECT_EOF;

                if (lov_flr_state(obj) == LCM_FL_RDONLY &&
                    !OBD_FAIL_CHECK(OBD_FAIL_FLR_GLIMPSE_IMMUTABLE))
                        /* SoM is accurate, no need glimpse */
                        GOTO(out, result = 1);
                break;

        case CIT_MISC:
                lio->lis_pos = 0;
                lio->lis_endpos = OBD_OBJECT_EOF;
                break;

        default:
                LBUG();
        }

        /*
         * CIT_MISC + ci_ignore_layout can identify the I/O from the OSC layer,
         * it won't care/access lov layout related info.
         */
        if (io->ci_ignore_layout && io->ci_type == CIT_MISC)
                GOTO(out, result = 0);

        LASSERT(obj->lo_lsm != NULL);

        result = lov_io_mirror_init(lio, obj, io);
        if (result)
                GOTO(out, result);

        /* check if it needs to instantiate layout */
        if (!(io->ci_type == CIT_WRITE || cl_io_is_mkwrite(io) ||
              cl_io_is_fallocate(io) ||
              (cl_io_is_trunc(io) && io->u.ci_setattr.sa_attr.lvb_size > 0)))
                GOTO(out, result = 0);

        /*
         * for truncate, it only needs to instantiate the components
         * before the truncated size.
         */
        if (cl_io_is_trunc(io)) {
                io->ci_write_intent.e_start = 0;
                /* for writes, e_end is endpos, the location of the file
                 * pointer after the write is completed, so it is not accessed.
                 * For truncate, 'end' is the size, and *is* acccessed.
                 * In other words, writes are [start, end), but truncate is
                 * [start, size], where both are included.  So add 1 to the
                 * size when creating the write intent to account for this.
                 */
                io->ci_write_intent.e_end =
                        io->u.ci_setattr.sa_attr.lvb_size + 1;
        } else {
                io->ci_write_intent.e_start = lio->lis_pos;
                io->ci_write_intent.e_end = lio->lis_endpos;
        }

        index = 0;
        lov_foreach_io_layout(index, lio, &io->ci_write_intent) {
                if (!lsm_entry_inited(obj->lo_lsm, index)) {
                        io->ci_need_write_intent = 1;
                        break;
                }
        }

        if (io->ci_need_write_intent && io->ci_designated_mirror > 0) {
                /*
                 * REINT_SYNC RPC has already tried to instantiate all of the
                 * components involved, obviously it didn't succeed. Skip this
                 * mirror for now. The server won't be able to figure out
                 * which mirror it should instantiate components
                 */
                CERROR(DFID": trying to instantiate components for designated "
                       "I/O, file state: %d\n",
                       PFID(lu_object_fid(lov2lu(obj))), lov_flr_state(obj));

                io->ci_need_write_intent = 0;
                GOTO(out, result = -EIO);
        }

        if (io->ci_need_write_intent)
                GOTO(out, result = 1);

        EXIT;

out:
        return result;
}

static void lov_io_fini(const struct lu_env *env, const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct lov_object *lov = cl2lov(ios->cis_obj);

        ENTRY;

        LASSERT(list_empty(&lio->lis_active));

        while (!list_empty(&lio->lis_subios)) {
                struct lov_io_sub *sub = list_entry(lio->lis_subios.next,
                                                    struct lov_io_sub,
                                                    sub_list);

                list_del_init(&sub->sub_list);
                lio->lis_nr_subios--;

                lov_io_sub_fini(env, lio, sub);
                lov_sub_free(lio, sub);
        }
        LASSERT(lio->lis_nr_subios == 0);

        LASSERT(atomic_read(&lov->lo_active_ios) > 0);
        if (atomic_dec_and_test(&lov->lo_active_ios))
                wake_up_all(&lov->lo_waitq);
        EXIT;
}

static void lov_io_sub_inherit(struct lov_io_sub *sub, struct lov_io *lio,
                               loff_t start, loff_t end)
{
        struct cl_io *io = &sub->sub_io;
        struct lov_stripe_md *lsm = lio->lis_object->lo_lsm;
        struct cl_io *parent = lio->lis_cl.cis_io;
        int index = lov_comp_entry(sub->sub_subio_index);
        int stripe = lov_comp_stripe(sub->sub_subio_index);

        switch (io->ci_type) {
        case CIT_SETATTR: {
                io->u.ci_setattr.sa_attr = parent->u.ci_setattr.sa_attr;
                io->u.ci_setattr.sa_attr_flags =
                        parent->u.ci_setattr.sa_attr_flags;
                io->u.ci_setattr.sa_avalid = parent->u.ci_setattr.sa_avalid;
                io->u.ci_setattr.sa_xvalid = parent->u.ci_setattr.sa_xvalid;
                io->u.ci_setattr.sa_falloc_mode =
                        parent->u.ci_setattr.sa_falloc_mode;
                io->u.ci_setattr.sa_stripe_index = stripe;
                io->u.ci_setattr.sa_parent_fid =
                                        parent->u.ci_setattr.sa_parent_fid;
                /* For SETATTR(fallocate) pass the subtype to lower IO */
                io->u.ci_setattr.sa_subtype = parent->u.ci_setattr.sa_subtype;
                if (cl_io_is_trunc(io)) {
                        loff_t new_size = parent->u.ci_setattr.sa_attr.lvb_size;

                        new_size = lov_size_to_stripe(lsm, index, new_size,
                                                      stripe);
                        io->u.ci_setattr.sa_attr.lvb_size = new_size;
                } else if (cl_io_is_fallocate(io)) {
                        io->u.ci_setattr.sa_falloc_offset = start;
                        io->u.ci_setattr.sa_falloc_end = end;
                        io->u.ci_setattr.sa_attr.lvb_size =
                                parent->u.ci_setattr.sa_attr.lvb_size;
                }
                lov_lsm2layout(lsm, lsm->lsm_entries[index],
                               &io->u.ci_setattr.sa_layout);
                break;
        }
        case CIT_DATA_VERSION: {
                io->u.ci_data_version.dv_data_version = 0;
                io->u.ci_data_version.dv_flags =
                        parent->u.ci_data_version.dv_flags;
                break;
        }
        case CIT_FAULT: {
                struct cl_object *obj = parent->ci_obj;
                loff_t off = cl_offset(obj, parent->u.ci_fault.ft_index);

                io->u.ci_fault = parent->u.ci_fault;
                off = lov_size_to_stripe(lsm, index, off, stripe);
                io->u.ci_fault.ft_index = cl_index(obj, off);
                break;
        }
        case CIT_FSYNC: {
                io->u.ci_fsync.fi_start = start;
                io->u.ci_fsync.fi_end = end;
                io->u.ci_fsync.fi_fid = parent->u.ci_fsync.fi_fid;
                io->u.ci_fsync.fi_mode = parent->u.ci_fsync.fi_mode;
                break;
        }
        case CIT_READ:
        case CIT_WRITE: {
                io->u.ci_wr.wr_sync = cl_io_is_sync_write(parent);
                io->ci_tried_all_mirrors = parent->ci_tried_all_mirrors;
                if (cl_io_is_append(parent)) {
                        io->u.ci_wr.wr_append = 1;
                } else {
                        io->u.ci_rw.crw_pos = start;
                        io->u.ci_rw.crw_count = end - start;
                }
                break;
        }
        case CIT_LADVISE: {
                io->u.ci_ladvise.li_start = start;
                io->u.ci_ladvise.li_end = end;
                io->u.ci_ladvise.li_fid = parent->u.ci_ladvise.li_fid;
                io->u.ci_ladvise.li_advice = parent->u.ci_ladvise.li_advice;
                io->u.ci_ladvise.li_flags = parent->u.ci_ladvise.li_flags;
                break;
        }
        case CIT_LSEEK: {
                io->u.ci_lseek.ls_start = start;
                io->u.ci_lseek.ls_whence = parent->u.ci_lseek.ls_whence;
                io->u.ci_lseek.ls_result = parent->u.ci_lseek.ls_result;
                break;
        }
        case CIT_GLIMPSE:
        case CIT_MISC:
        default:
                break;
        }
}

static loff_t lov_offset_mod(loff_t val, int delta)
{
        if (val != OBD_OBJECT_EOF)
                val += delta;
        return val;
}

static int lov_io_iter_init(const struct lu_env *env,
                            const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct lov_stripe_md *lsm = lio->lis_object->lo_lsm;
        struct lov_io_sub *sub;
        struct lu_extent ext;
        int index;
        int rc = 0;

        ENTRY;

        ext.e_start = lio->lis_pos;
        ext.e_end = lio->lis_endpos;

        lov_foreach_io_layout(index, lio, &ext) {
                struct lov_layout_entry *le = lov_entry(lio->lis_object, index);
                struct lov_layout_raid0 *r0 = &le->lle_raid0;
                u64 start;
                u64 end;
                int stripe;

                CDEBUG(D_VFSTRACE, "component[%d] flags %#x\n",
                       index, lsm->lsm_entries[index]->lsme_flags);
                if (!lsm_entry_inited(lsm, index)) {
                        /*
                         * Read from uninitialized components should return
                         * zero filled pages.
                         */
                        continue;
                }

                if (!le->lle_valid && !ios->cis_io->ci_designated_mirror) {
                        CERROR("I/O to invalid component: %d, mirror: %d\n",
                               index, lio->lis_mirror_index);
                        RETURN(-EIO);
                }

                for (stripe = 0; stripe < r0->lo_nr; stripe++) {
                        if (!lov_stripe_intersects(lsm, index, stripe,
                                                   &ext, &start, &end))
                                continue;

                        if (unlikely(!r0->lo_sub[stripe])) {
                                if (ios->cis_io->ci_type == CIT_READ ||
                                    ios->cis_io->ci_type == CIT_WRITE ||
                                    ios->cis_io->ci_type == CIT_FAULT)
                                        RETURN(-EIO);

                                continue;
                        }

                        end = lov_offset_mod(end, 1);
                        sub = lov_sub_get(env, lio,
                                          lov_comp_index(index, stripe));
                        if (IS_ERR(sub)) {
                                rc = PTR_ERR(sub);
                                break;
                        }

                        lov_io_sub_inherit(sub, lio, start, end);
                        rc = cl_io_iter_init(sub->sub_env, &sub->sub_io);
                        if (rc != 0)
                                cl_io_iter_fini(sub->sub_env, &sub->sub_io);
                        if (rc != 0)
                                break;

                        CDEBUG(D_VFSTRACE, "shrink: %d [%llu, %llu)\n",
                               stripe, start, end);

                        list_add_tail(&sub->sub_linkage, &lio->lis_active);
                }
                if (rc != 0)
                        break;
        }
        RETURN(rc);
}

static int lov_io_rw_iter_init(const struct lu_env *env,
                               const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct cl_io *io = ios->cis_io;
        struct lov_stripe_md_entry *lse;
        loff_t start = io->u.ci_rw.crw_pos;
        loff_t next;
        int index;

        LASSERT(io->ci_type == CIT_READ || io->ci_type == CIT_WRITE);
        ENTRY;

        if (cl_io_is_append(io))
                RETURN(lov_io_iter_init(env, ios));

        index = lov_io_layout_at(lio, io->u.ci_rw.crw_pos);
        if (index < 0) { /* non-existing layout component */
                if (io->ci_type == CIT_READ) {
                        /*
                         * TODO: it needs to detect the next component and
                         * then set the next pos
                         */
                        io->ci_continue = 0;

                        RETURN(lov_io_iter_init(env, ios));
                }

                RETURN(-ENODATA);
        }

        if (!lov_entry(lio->lis_object, index)->lle_valid &&
            !io->ci_designated_mirror)
                RETURN(io->ci_type == CIT_READ ? -EAGAIN : -EIO);

        lse = lov_lse(lio->lis_object, index);

        next = MAX_LFS_FILESIZE;
        if (lse->lsme_stripe_count > 1) {
                unsigned long ssize = lse->lsme_stripe_size;

                lov_do_div64(start, ssize);
                next = (start + 1) * ssize;
                if (next <= start * ssize)
                        next = MAX_LFS_FILESIZE;
        }

        LASSERTF(io->u.ci_rw.crw_pos >= lse->lsme_extent.e_start,
                 "pos %lld, [%lld, %lld)\n", io->u.ci_rw.crw_pos,
                 lse->lsme_extent.e_start, lse->lsme_extent.e_end);
        next = min_t(__u64, next, lse->lsme_extent.e_end);
        next = min_t(loff_t, next, lio->lis_io_endpos);

        io->ci_continue = next < lio->lis_io_endpos;
        io->u.ci_rw.crw_count = next - io->u.ci_rw.crw_pos;
        lio->lis_pos    = io->u.ci_rw.crw_pos;
        lio->lis_endpos = io->u.ci_rw.crw_pos + io->u.ci_rw.crw_count;
        CDEBUG(D_VFSTRACE,
               "stripe: %llu chunk: [%llu, %llu) %llu, %zd\n",
               (__u64)start, lio->lis_pos, lio->lis_endpos,
               (__u64)lio->lis_io_endpos, io->u.ci_rw.crw_count);

        /*
         * XXX The following call should be optimized: we know, that
         * [lio->lis_pos, lio->lis_endpos) intersects with exactly one stripe.
         */
        RETURN(lov_io_iter_init(env, ios));
}

static int lov_io_setattr_iter_init(const struct lu_env *env,
                                    const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct cl_io *io = ios->cis_io;
        int index;
        ENTRY;

        if (cl_io_is_trunc(io) && lio->lis_pos > 0) {
                index = lov_io_layout_at(lio, lio->lis_pos - 1);
                /* no entry found for such offset */
                if (index < 0)
                        RETURN(io->ci_result = -ENODATA);
        }

        RETURN(lov_io_iter_init(env, ios));
}

static int lov_io_call(const struct lu_env *env, struct lov_io *lio,
                       int (*iofunc)(const struct lu_env *, struct cl_io *))
{
        struct cl_io *parent = lio->lis_cl.cis_io;
        struct lov_io_sub *sub;
        int rc = 0;

        ENTRY;
        list_for_each_entry(sub, &lio->lis_active, sub_linkage) {
                rc = iofunc(sub->sub_env, &sub->sub_io);
                if (rc)
                        break;

                if (parent->ci_result == 0)
                        parent->ci_result = sub->sub_io.ci_result;
        }
        RETURN(rc);
}

static int lov_io_lock(const struct lu_env *env, const struct cl_io_slice *ios)
{
        ENTRY;
        RETURN(lov_io_call(env, cl2lov_io(env, ios), cl_io_lock));
}

static int lov_io_start(const struct lu_env *env, const struct cl_io_slice *ios)
{
        ENTRY;
        RETURN(lov_io_call(env, cl2lov_io(env, ios), cl_io_start));
}

static int lov_io_end_wrapper(const struct lu_env *env, struct cl_io *io)
{
        ENTRY;
        /*
         * It's possible that lov_io_start() wasn't called against this
         * sub-io, either because previous sub-io failed, or upper layer
         * completed IO.
         */
        if (io->ci_state == CIS_IO_GOING)
                cl_io_end(env, io);
        else
                io->ci_state = CIS_IO_FINISHED;
        RETURN(0);
}

static int lov_io_iter_fini_wrapper(const struct lu_env *env, struct cl_io *io)
{
        cl_io_iter_fini(env, io);
        RETURN(0);
}

static int lov_io_unlock_wrapper(const struct lu_env *env, struct cl_io *io)
{
        cl_io_unlock(env, io);
        RETURN(0);
}

static void lov_io_end(const struct lu_env *env, const struct cl_io_slice *ios)
{
        int rc;

        rc = lov_io_call(env, cl2lov_io(env, ios), lov_io_end_wrapper);
        LASSERT(rc == 0);
}

static void
lov_io_data_version_end(const struct lu_env *env, const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct cl_io *parent = lio->lis_cl.cis_io;
        struct cl_data_version_io *pdv = &parent->u.ci_data_version;
        struct lov_io_sub *sub;

        ENTRY;
        list_for_each_entry(sub, &lio->lis_active, sub_linkage) {
                struct cl_data_version_io *sdv = &sub->sub_io.u.ci_data_version;

                lov_io_end_wrapper(sub->sub_env, &sub->sub_io);

                pdv->dv_data_version += sdv->dv_data_version;
                if (pdv->dv_layout_version > sdv->dv_layout_version)
                        pdv->dv_layout_version = sdv->dv_layout_version;

                if (parent->ci_result == 0)
                        parent->ci_result = sub->sub_io.ci_result;
        }

        EXIT;
}

static void lov_io_iter_fini(const struct lu_env *env,
                             const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        int rc;

        ENTRY;
        rc = lov_io_call(env, lio, lov_io_iter_fini_wrapper);
        LASSERT(rc == 0);
        while (!list_empty(&lio->lis_active))
                list_del_init(lio->lis_active.next);
        EXIT;
}

static void lov_io_unlock(const struct lu_env *env,
                          const struct cl_io_slice *ios)
{
        int rc;

        ENTRY;
        rc = lov_io_call(env, cl2lov_io(env, ios), lov_io_unlock_wrapper);
        LASSERT(rc == 0);
        EXIT;
}

static int lov_io_read_ahead(const struct lu_env *env,
                             const struct cl_io_slice *ios,
                             pgoff_t start, struct cl_read_ahead *ra)
{
        struct lov_io           *lio = cl2lov_io(env, ios);
        struct lov_object       *loo = lio->lis_object;
        struct cl_object        *obj = lov2cl(loo);
        struct lov_layout_raid0 *r0;
        struct lov_io_sub       *sub;
        loff_t                   offset;
        loff_t                   suboff;
        pgoff_t                  ra_end;
        unsigned int             pps; /* pages per stripe */
        int                      stripe;
        int                      index;
        int                      rc;
        ENTRY;

        offset = cl_offset(obj, start);
        index = lov_io_layout_at(lio, offset);
        if (index < 0 || !lsm_entry_inited(loo->lo_lsm, index))
                RETURN(-ENODATA);

        /* avoid readahead to expand to stale components */
        if (!lov_entry(loo, index)->lle_valid)
                RETURN(-EIO);

        stripe = lov_stripe_number(loo->lo_lsm, index, offset);

        r0 = lov_r0(loo, index);
        if (unlikely(!r0->lo_sub[stripe]))
                RETURN(-EIO);

        sub = lov_sub_get(env, lio, lov_comp_index(index, stripe));
        if (IS_ERR(sub))
                RETURN(PTR_ERR(sub));

        lov_stripe_offset(loo->lo_lsm, index, offset, stripe, &suboff);
        rc = cl_io_read_ahead(sub->sub_env, &sub->sub_io,
                              cl_index(lovsub2cl(r0->lo_sub[stripe]), suboff),
                              ra);

        CDEBUG(D_READA, DFID " cra_end = %lu, stripes = %d, rc = %d\n",
               PFID(lu_object_fid(lov2lu(loo))), ra->cra_end_idx,
                    r0->lo_nr, rc);
        if (rc != 0)
                RETURN(rc);

        /**
         * Adjust the stripe index by layout of comp. ra->cra_end is the
         * maximum page index covered by an underlying DLM lock.
         * This function converts cra_end from stripe level to file level, and
         * make sure it's not beyond stripe and component boundary.
         */

        /* cra_end is stripe level, convert it into file level */
        ra_end = ra->cra_end_idx;
        if (ra_end != CL_PAGE_EOF)
                ra->cra_end_idx = lov_stripe_pgoff(loo->lo_lsm, index,
                                                   ra_end, stripe);

        /* boundary of current component */
        ra_end = cl_index(obj, (loff_t)lov_io_extent(lio, index)->e_end);
        if (ra_end != CL_PAGE_EOF && ra->cra_end_idx >= ra_end)
                ra->cra_end_idx = ra_end - 1;

        if (r0->lo_nr == 1) /* single stripe file */
                RETURN(0);

        pps = lov_lse(loo, index)->lsme_stripe_size >> PAGE_SHIFT;

        CDEBUG(D_READA, DFID " max_index = %lu, pps = %u, index = %d, "
               "stripe_size = %u, stripe no = %u, start index = %lu\n",
               PFID(lu_object_fid(lov2lu(loo))), ra->cra_end_idx, pps, index,
               lov_lse(loo, index)->lsme_stripe_size, stripe, start);

        /* never exceed the end of the stripe */
        ra->cra_end_idx = min_t(pgoff_t, ra->cra_end_idx,
                                start + pps - start % pps - 1);
        RETURN(0);
}

/**
 * lov implementation of cl_operations::cio_submit() method. It takes a list
 * of pages in \a queue, splits it into per-stripe sub-lists, invokes
 * cl_io_submit() on underlying devices to submit sub-lists, and then splices
 * everything back.
 *
 * Major complication of this function is a need to handle memory cleansing:
 * cl_io_submit() is called to write out pages as a part of VM memory
 * reclamation, and hence it may not fail due to memory shortages (system
 * dead-locks otherwise). To deal with this, some resources (sub-lists,
 * sub-environment, etc.) are allocated per-device on "startup" (i.e., in a
 * not-memory cleansing context), and in case of memory shortage, these
 * pre-allocated resources are used by lov_io_submit() under
 * lov_device::ld_mutex mutex.
 */
static int lov_io_submit(const struct lu_env *env,
                         const struct cl_io_slice *ios,
                         enum cl_req_type crt, struct cl_2queue *queue)
{
        struct cl_page_list     *qin = &queue->c2_qin;
        struct lov_io           *lio = cl2lov_io(env, ios);
        struct lov_io_sub       *sub;
        struct cl_page_list     *plist = &lov_env_info(env)->lti_plist;
        struct cl_page          *page;
        struct cl_page          *tmp;
        int index;
        int rc = 0;
        ENTRY;

        cl_page_list_init(plist);
        while (qin->pl_nr > 0) {
                struct cl_2queue  *cl2q = &lov_env_info(env)->lti_cl2q;

                page = cl_page_list_first(qin);
                if (lov_page_is_empty(page)) {
                        cl_page_list_move(&queue->c2_qout, qin, page);

                        /*
                         * it could only be mirror read to get here therefore
                         * the pages will be transient. We don't care about
                         * the return code of cl_page_prep() at all.
                         */
                        (void) cl_page_prep(env, ios->cis_io, page, crt);
                        cl_page_completion(env, page, crt, 0);
                        continue;
                }

                cl_2queue_init(cl2q);
                cl_page_list_move(&cl2q->c2_qin, qin, page);

                index = page->cp_lov_index;
                cl_page_list_for_each_safe(page, tmp, qin) {
                        /* this page is not on this stripe */
                        if (index != page->cp_lov_index)
                                continue;

                        cl_page_list_move(&cl2q->c2_qin, qin, page);
                }

                sub = lov_sub_get(env, lio, index);
                if (!IS_ERR(sub)) {
                        rc = cl_io_submit_rw(sub->sub_env, &sub->sub_io,
                                             crt, cl2q);
                } else {
                        rc = PTR_ERR(sub);
                }

                cl_page_list_splice(&cl2q->c2_qin, plist);
                cl_page_list_splice(&cl2q->c2_qout, &queue->c2_qout);
                cl_2queue_fini(env, cl2q);

                if (rc != 0)
                        break;
        }

        cl_page_list_splice(plist, qin);
        cl_page_list_fini(env, plist);

        RETURN(rc);
}

static int lov_io_commit_async(const struct lu_env *env,
                               const struct cl_io_slice *ios,
                               struct cl_page_list *queue, int from, int to,
                               cl_commit_cbt cb)
{
        struct cl_page_list *plist = &lov_env_info(env)->lti_plist;
        struct lov_io *lio = cl2lov_io(env, ios);
        struct lov_io_sub *sub;
        struct cl_page *page;
        int rc = 0;
        ENTRY;

        if (lio->lis_nr_subios == 1) {
                int idx = lio->lis_single_subio_index;

                LASSERT(!lov_page_is_empty(cl_page_list_first(queue)));

                sub = lov_sub_get(env, lio, idx);
                LASSERT(!IS_ERR(sub));
                LASSERT(sub == &lio->lis_single_subio);
                rc = cl_io_commit_async(sub->sub_env, &sub->sub_io, queue,
                                        from, to, cb);
                RETURN(rc);
        }

        cl_page_list_init(plist);
        while (queue->pl_nr > 0) {
                int stripe_to = to;
                int index;

                LASSERT(plist->pl_nr == 0);
                page = cl_page_list_first(queue);
                LASSERT(!lov_page_is_empty(page));

                cl_page_list_move(plist, queue, page);

                index = page->cp_lov_index;
                while (queue->pl_nr > 0) {
                        page = cl_page_list_first(queue);
                        if (index != page->cp_lov_index)
                                break;

                        cl_page_list_move(plist, queue, page);
                }

                if (queue->pl_nr > 0) /* still has more pages */
                        stripe_to = PAGE_SIZE;

                sub = lov_sub_get(env, lio, index);
                if (!IS_ERR(sub)) {
                        rc = cl_io_commit_async(sub->sub_env, &sub->sub_io,
                                                plist, from, stripe_to, cb);
                } else {
                        rc = PTR_ERR(sub);
                        break;
                }

                if (plist->pl_nr > 0) /* short write */
                        break;

                from = 0;
        }

        /* for error case, add the page back into the qin list */
        LASSERT(ergo(rc == 0, plist->pl_nr == 0));
        while (plist->pl_nr > 0) {
                /* error occurred, add the uncommitted pages back into queue */
                page = cl_page_list_last(plist);
                cl_page_list_move_head(queue, plist, page);
        }

        RETURN(rc);
}

static int lov_io_fault_start(const struct lu_env *env,
                              const struct cl_io_slice *ios)
{
        struct cl_fault_io *fio;
        struct lov_io      *lio;
        struct lov_io_sub  *sub;

        ENTRY;

        fio = &ios->cis_io->u.ci_fault;
        lio = cl2lov_io(env, ios);
        sub = lov_sub_get(env, lio, fio->ft_page->cp_lov_index);
        sub->sub_io.u.ci_fault.ft_nob = fio->ft_nob;

        RETURN(lov_io_start(env, ios));
}

static void lov_io_fsync_end(const struct lu_env *env,
                             const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct lov_io_sub *sub;
        unsigned int *written = &ios->cis_io->u.ci_fsync.fi_nr_written;
        ENTRY;

        *written = 0;
        list_for_each_entry(sub, &lio->lis_active, sub_linkage) {
                struct cl_io *subio = &sub->sub_io;

                lov_io_end_wrapper(sub->sub_env, subio);

                if (subio->ci_result == 0)
                        *written += subio->u.ci_fsync.fi_nr_written;
        }
        RETURN_EXIT;
}

static void lov_io_lseek_end(const struct lu_env *env,
                             const struct cl_io_slice *ios)
{
        struct lov_io *lio = cl2lov_io(env, ios);
        struct cl_io *io = lio->lis_cl.cis_io;
        struct lov_stripe_md *lsm = lio->lis_object->lo_lsm;
        struct lov_io_sub *sub;
        loff_t offset = -ENXIO;
        __u64 hole_off = 0;
        bool seek_hole = io->u.ci_lseek.ls_whence == SEEK_HOLE;

        ENTRY;

        list_for_each_entry(sub, &lio->lis_active, sub_linkage) {
                struct cl_io *subio = &sub->sub_io;
                int index = lov_comp_entry(sub->sub_subio_index);
                int stripe = lov_comp_stripe(sub->sub_subio_index);
                loff_t sub_off, lov_off;
                __u64 comp_end = lsm->lsm_entries[index]->lsme_extent.e_end;

                lov_io_end_wrapper(sub->sub_env, subio);

                if (io->ci_result == 0)
                        io->ci_result = sub->sub_io.ci_result;

                if (io->ci_result)
                        continue;

                CDEBUG(D_INFO, DFID": entry %x stripe %u: SEEK_%s from %lld\n",
                       PFID(lu_object_fid(lov2lu(lio->lis_object))),
                       index, stripe, seek_hole ? "HOLE" : "DATA",
                       subio->u.ci_lseek.ls_start);

                /* first subio with positive result is what we need */
                sub_off = subio->u.ci_lseek.ls_result;
                /* Expected error, offset is out of stripe file size */
                if (sub_off == -ENXIO)
                        continue;
                /* Any other errors are not expected with ci_result == 0 */
                if (sub_off < 0) {
                        CDEBUG(D_INFO, "unexpected error: rc = %lld\n",
                               sub_off);
                        io->ci_result = sub_off;
                        continue;
                }
                lov_off = lov_stripe_size(lsm, index, sub_off + 1, stripe) - 1;
                if (lov_off < 0) {
                        /* the only way to get negatove lov_off here is too big
                         * result. Return -EOVERFLOW then.
                         */
                        io->ci_result = -EOVERFLOW;
                        CDEBUG(D_INFO, "offset %llu is too big: rc = %d\n",
                               (u64)lov_off, io->ci_result);
                        continue;
                }
                if (lov_off < io->u.ci_lseek.ls_start) {
                        io->ci_result = -EINVAL;
                        CDEBUG(D_INFO, "offset %lld < start %lld: rc = %d\n",
                               sub_off, io->u.ci_lseek.ls_start, io->ci_result);
                        continue;
                }
                /* resulting offset can be out of component range if stripe
                 * object is full and its file size was returned as virtual
                 * hole start. Skip this result, the next component will give
                 * us correct lseek result but keep possible hole offset in
                 * case there is no more components ahead
                 */
                if (lov_off >= comp_end) {
                        /* must be SEEK_HOLE case */
                        if (likely(seek_hole)) {
                                /* save comp end as potential hole offset */
                                hole_off = max_t(__u64, comp_end, hole_off);
                        } else {
                                io->ci_result = -EINVAL;
                                CDEBUG(D_INFO,
                                       "off %lld >= comp_end %llu: rc = %d\n",
                                       lov_off, comp_end, io->ci_result);
                        }
                        continue;
                }

                CDEBUG(D_INFO, "SEEK_%s: %lld->%lld/%lld: rc = %d\n",
                       seek_hole ? "HOLE" : "DATA",
                       subio->u.ci_lseek.ls_start, sub_off, lov_off,
                       sub->sub_io.ci_result);
                offset = min_t(__u64, offset, lov_off);
        }
        /* no result but some component returns hole as component end */
        if (seek_hole && offset == -ENXIO && hole_off > 0)
                offset = hole_off;

        io->u.ci_lseek.ls_result = offset;
        RETURN_EXIT;
}

static const struct cl_io_operations lov_io_ops = {
        .op = {
                [CIT_READ] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_rw_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_start,
                        .cio_end       = lov_io_end
                },
                [CIT_WRITE] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_rw_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_start,
                        .cio_end       = lov_io_end
                },
                [CIT_SETATTR] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_setattr_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_start,
                        .cio_end       = lov_io_end
                },
                [CIT_DATA_VERSION] = {
                        .cio_fini       = lov_io_fini,
                        .cio_iter_init  = lov_io_iter_init,
                        .cio_iter_fini  = lov_io_iter_fini,
                        .cio_lock       = lov_io_lock,
                        .cio_unlock     = lov_io_unlock,
                        .cio_start      = lov_io_start,
                        .cio_end        = lov_io_data_version_end,
                },
                [CIT_FAULT] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_fault_start,
                        .cio_end       = lov_io_end
                },
                [CIT_FSYNC] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_start,
                        .cio_end       = lov_io_fsync_end
                },
                [CIT_LADVISE] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_start,
                        .cio_end       = lov_io_end
                },
                [CIT_LSEEK] = {
                        .cio_fini      = lov_io_fini,
                        .cio_iter_init = lov_io_iter_init,
                        .cio_iter_fini = lov_io_iter_fini,
                        .cio_lock      = lov_io_lock,
                        .cio_unlock    = lov_io_unlock,
                        .cio_start     = lov_io_start,
                        .cio_end       = lov_io_lseek_end
                },
                [CIT_GLIMPSE] = {
                        .cio_fini      = lov_io_fini,
                },
                [CIT_MISC] = {
                        .cio_fini      = lov_io_fini
                }
        },
        .cio_read_ahead                = lov_io_read_ahead,
        .cio_submit                    = lov_io_submit,
        .cio_commit_async              = lov_io_commit_async,
};

/*****************************************************************************
 *
 * Empty lov io operations.
 *
 */

static void lov_empty_io_fini(const struct lu_env *env,
                              const struct cl_io_slice *ios)
{
        struct lov_object *lov = cl2lov(ios->cis_obj);
        ENTRY;

        if (atomic_dec_and_test(&lov->lo_active_ios))
                wake_up_all(&lov->lo_waitq);
        EXIT;
}

static int lov_empty_io_submit(const struct lu_env *env,
                               const struct cl_io_slice *ios,
                               enum cl_req_type crt, struct cl_2queue *queue)
{
        return -EBADF;
}

static void lov_empty_impossible(const struct lu_env *env,
                                 struct cl_io_slice *ios)
{
        LBUG();
}

#define LOV_EMPTY_IMPOSSIBLE ((void *)lov_empty_impossible)

/**
 * An io operation vector for files without stripes.
 */
static const struct cl_io_operations lov_empty_io_ops = {
        .op = {
                [CIT_READ] = {
                        .cio_fini       = lov_empty_io_fini,
#if 0
                        .cio_iter_init  = LOV_EMPTY_IMPOSSIBLE,
                        .cio_lock       = LOV_EMPTY_IMPOSSIBLE,
                        .cio_start      = LOV_EMPTY_IMPOSSIBLE,
                        .cio_end        = LOV_EMPTY_IMPOSSIBLE
#endif
                },
                [CIT_WRITE] = {
                        .cio_fini      = lov_empty_io_fini,
                        .cio_iter_init = LOV_EMPTY_IMPOSSIBLE,
                        .cio_lock      = LOV_EMPTY_IMPOSSIBLE,
                        .cio_start     = LOV_EMPTY_IMPOSSIBLE,
                        .cio_end       = LOV_EMPTY_IMPOSSIBLE
                },
                [CIT_SETATTR] = {
                        .cio_fini      = lov_empty_io_fini,
                        .cio_iter_init = LOV_EMPTY_IMPOSSIBLE,
                        .cio_lock      = LOV_EMPTY_IMPOSSIBLE,
                        .cio_start     = LOV_EMPTY_IMPOSSIBLE,
                        .cio_end       = LOV_EMPTY_IMPOSSIBLE
                },
                [CIT_FAULT] = {
                        .cio_fini      = lov_empty_io_fini,
                        .cio_iter_init = LOV_EMPTY_IMPOSSIBLE,
                        .cio_lock      = LOV_EMPTY_IMPOSSIBLE,
                        .cio_start     = LOV_EMPTY_IMPOSSIBLE,
                        .cio_end       = LOV_EMPTY_IMPOSSIBLE
                },
                [CIT_FSYNC] = {
                        .cio_fini      = lov_empty_io_fini
                },
                [CIT_LADVISE] = {
                        .cio_fini   = lov_empty_io_fini
                },
                [CIT_GLIMPSE] = {
                        .cio_fini      = lov_empty_io_fini
                },
                [CIT_MISC] = {
                        .cio_fini      = lov_empty_io_fini
                }
        },
        .cio_submit                    = lov_empty_io_submit,
        .cio_commit_async              = LOV_EMPTY_IMPOSSIBLE
};

int lov_io_init_composite(const struct lu_env *env, struct cl_object *obj,
                          struct cl_io *io)
{
        struct lov_io *lio = lov_env_io(env);
        struct lov_object *lov = cl2lov(obj);
        int result;

        ENTRY;

        INIT_LIST_HEAD(&lio->lis_active);
        result = lov_io_slice_init(lio, lov, io);
        if (result)
                GOTO(out, result);

        result = lov_io_subio_init(env, lio, io);
        if (!result) {
                cl_io_slice_add(io, &lio->lis_cl, obj, &lov_io_ops);
                atomic_inc(&lov->lo_active_ios);
        }
        EXIT;
out:
        io->ci_result = result < 0 ? result : 0;
        return result;
}

int lov_io_init_empty(const struct lu_env *env, struct cl_object *obj,
                      struct cl_io *io)
{
        struct lov_object *lov = cl2lov(obj);
        struct lov_io *lio = lov_env_io(env);
        int result;
        ENTRY;

        lio->lis_object = lov;
        switch (io->ci_type) {
        default:
                LBUG();
        case CIT_MISC:
        case CIT_GLIMPSE:
        case CIT_READ:
                result = 0;
                break;
        case CIT_FSYNC:
        case CIT_LADVISE:
        case CIT_LSEEK:
        case CIT_SETATTR:
        case CIT_DATA_VERSION:
                result = +1;
                break;
        case CIT_WRITE:
                result = -EBADF;
                break;
        case CIT_FAULT:
                result = -EFAULT;
                CERROR("Page fault on a file without stripes: "DFID"\n",
                       PFID(lu_object_fid(&obj->co_lu)));
                break;
        }
        if (result == 0) {
                cl_io_slice_add(io, &lio->lis_cl, obj, &lov_empty_io_ops);
                atomic_inc(&lov->lo_active_ios);
        }

        io->ci_result = result < 0 ? result : 0;
        RETURN(result);
}

int lov_io_init_released(const struct lu_env *env, struct cl_object *obj,
                        struct cl_io *io)
{
        struct lov_object *lov = cl2lov(obj);
        struct lov_io *lio = lov_env_io(env);
        int result;
        ENTRY;

        LASSERT(lov->lo_lsm != NULL);
        lio->lis_object = lov;

        switch (io->ci_type) {
        default:
                LASSERTF(0, "invalid type %d\n", io->ci_type);
                result = -EOPNOTSUPP;
                break;
        case CIT_GLIMPSE:
        case CIT_MISC:
        case CIT_FSYNC:
        case CIT_LADVISE:
        case CIT_DATA_VERSION:
                result = 1;
                break;
        case CIT_SETATTR:
                /*
                 * the truncate to 0 is managed by MDT:
                 * - in open, for open O_TRUNC
                 * - in setattr, for truncate
                 */
                /*
                 * the truncate is for size > 0 so triggers a restore,
                 * also trigger a restore for prealloc/punch
                 */
                if (cl_io_is_trunc(io) || cl_io_is_fallocate(io)) {
                        io->ci_restore_needed = 1;
                        result = -ENODATA;
                } else
                        result = 1;
                break;
        case CIT_READ:
        case CIT_WRITE:
        case CIT_FAULT:
        case CIT_LSEEK:
                io->ci_restore_needed = 1;
                result = -ENODATA;
                break;
        }

        if (result == 0) {
                cl_io_slice_add(io, &lio->lis_cl, obj, &lov_empty_io_ops);
                atomic_inc(&lov->lo_active_ios);
        }

        io->ci_result = result < 0 ? result : 0;
        RETURN(result);
}

/**
 * Return the index in composite:lo_entries by the file offset
 */
int lov_io_layout_at(struct lov_io *lio, __u64 offset)
{
        struct lov_object *lov = lio->lis_object;
        struct lov_layout_composite *comp = &lov->u.composite;
        int start_index = 0;
        int end_index = comp->lo_entry_count - 1;
        int i;

        LASSERT(lov->lo_type == LLT_COMP);

        /* This is actual file offset so nothing can cover eof. */
        if (offset == LUSTRE_EOF)
                return -1;

        if (lov_is_flr(lov)) {
                struct lov_mirror_entry *lre;

                LASSERT(lio->lis_mirror_index >= 0);

                lre = &comp->lo_mirrors[lio->lis_mirror_index];
                start_index = lre->lre_start;
                end_index = lre->lre_end;
        }

        for (i = start_index; i <= end_index; i++) {
                struct lov_layout_entry *lle = lov_entry(lov, i);

                if ((offset >= lle->lle_extent->e_start &&
                     offset < lle->lle_extent->e_end) ||
                    (offset == OBD_OBJECT_EOF &&
                     lle->lle_extent->e_end == OBD_OBJECT_EOF))
                        return i;
        }

        return -1;
}

/** @} lov */