LU-4076 fld: add local fldb to each target

[fs/lustre-release.git] / lustre / osd-zfs / osd_index.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.sun.com/software/products/lustre/docs/GPLv2.pdf
 *
 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 *
 * GPL HEADER END
 */
/*
 * Copyright (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved.
 * Use is subject to license terms.
 */
/*
 * Copyright (c) 2012, 2013, Intel Corporation.
 * Use is subject to license terms.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * lustre/osd-zfs/osd_index.c
 *
 * Author: Alex Zhuravlev <bzzz@whamcloud.com>
 * Author: Mike Pershin <tappro@whamcloud.com>
 */

#define DEBUG_SUBSYSTEM S_OSD

#include <lustre_ver.h>
#include <libcfs/libcfs.h>
#include <obd_support.h>
#include <lustre_net.h>
#include <obd.h>
#include <obd_class.h>
#include <lustre_disk.h>
#include <lustre_fid.h>

#include "osd_internal.h"

#include <sys/dnode.h>
#include <sys/dbuf.h>
#include <sys/spa.h>
#include <sys/stat.h>
#include <sys/zap.h>
#include <sys/spa_impl.h>
#include <sys/zfs_znode.h>
#include <sys/dmu_tx.h>
#include <sys/dmu_objset.h>
#include <sys/dsl_prop.h>
#include <sys/sa_impl.h>
#include <sys/txg.h>

static struct dt_it *osd_index_it_init(const struct lu_env *env,
                                       struct dt_object *dt,
                                       __u32 unused,
                                       struct lustre_capa *capa)
{
        struct osd_thread_info  *info = osd_oti_get(env);
        struct osd_zap_it       *it;
        struct osd_object       *obj = osd_dt_obj(dt);
        struct osd_device       *osd = osd_obj2dev(obj);
        struct lu_object        *lo  = &dt->do_lu;
        ENTRY;

        /* XXX: check capa ? */

        LASSERT(lu_object_exists(lo));
        LASSERT(obj->oo_db);
        LASSERT(udmu_object_is_zap(obj->oo_db));
        LASSERT(info);

        it = &info->oti_it_zap;

        if (udmu_zap_cursor_init(&it->ozi_zc, &osd->od_objset,
                                 obj->oo_db->db_object, 0))
                RETURN(ERR_PTR(-ENOMEM));

        it->ozi_obj   = obj;
        it->ozi_capa  = capa;
        it->ozi_reset = 1;
        lu_object_get(lo);

        RETURN((struct dt_it *)it);
}

static void osd_index_it_fini(const struct lu_env *env, struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj;
        ENTRY;

        LASSERT(it);
        LASSERT(it->ozi_obj);

        obj = it->ozi_obj;

        udmu_zap_cursor_fini(it->ozi_zc);
        lu_object_put(env, &obj->oo_dt.do_lu);

        EXIT;
}


static void osd_index_it_put(const struct lu_env *env, struct dt_it *di)
{
        /* PBS: do nothing : ref are incremented at retrive and decreamented
         *      next/finish. */
}

int udmu_zap_cursor_retrieve_key(const struct lu_env *env,
                                 zap_cursor_t *zc, char *key, int max)
{
        zap_attribute_t *za = &osd_oti_get(env)->oti_za;
        int              err;

        if ((err = zap_cursor_retrieve(zc, za)))
                return err;

        if (key)
                strcpy(key, za->za_name);

        return 0;
}

/*
 * zap_cursor_retrieve read from current record.
 * to read bytes we need to call zap_lookup explicitly.
 */
int udmu_zap_cursor_retrieve_value(const struct lu_env *env,
                zap_cursor_t *zc,  char *buf,
                int buf_size, int *bytes_read)
{
        zap_attribute_t *za = &osd_oti_get(env)->oti_za;
        int err, actual_size;

        if ((err = zap_cursor_retrieve(zc, za)))
                return err;

        if (za->za_integer_length <= 0)
                return (ERANGE);

        actual_size = za->za_integer_length * za->za_num_integers;

        if (actual_size > buf_size) {
                actual_size = buf_size;
                buf_size = actual_size / za->za_integer_length;
        } else {
                buf_size = za->za_num_integers;
        }

        err = -zap_lookup(zc->zc_objset, zc->zc_zapobj,
                        za->za_name, za->za_integer_length,
                        buf_size, buf);

        if (!err)
                *bytes_read = actual_size;

        return err;
}

static inline void osd_it_append_attrs(struct lu_dirent *ent, __u32 attr,
                                       int len, __u16 type)
{
        const unsigned    align = sizeof(struct luda_type) - 1;
        struct luda_type *lt;

        /* check if file type is required */
        if (attr & LUDA_TYPE) {
                len = (len + align) & ~align;

                lt = (void *)ent->lde_name + len;
                lt->lt_type = cpu_to_le16(DTTOIF(type));
                ent->lde_attrs |= LUDA_TYPE;
        }

        ent->lde_attrs = cpu_to_le32(ent->lde_attrs);
}

/*
 * as we don't know FID, we can't use LU object, so this function
 * partially duplicate __osd_xattr_get() which is built around
 * LU-object and uses it to cache data like regular EA dnode, etc
 */
static int osd_find_parent_by_dnode(const struct lu_env *env,
                                    struct dt_object *o,
                                    struct lu_fid *fid)
{
        struct lustre_mdt_attrs *lma;
        udmu_objset_t           *uos = &osd_obj2dev(osd_dt_obj(o))->od_objset;
        struct lu_buf            buf;
        sa_handle_t             *sa_hdl;
        nvlist_t                *nvbuf = NULL;
        uchar_t                 *value;
        uint64_t                 dnode;
        int                      rc, size;
        ENTRY;

        /* first of all, get parent dnode from own attributes */
        LASSERT(osd_dt_obj(o)->oo_db);
        rc = -sa_handle_get(uos->os, osd_dt_obj(o)->oo_db->db_object,
                            NULL, SA_HDL_PRIVATE, &sa_hdl);
        if (rc)
                RETURN(rc);

        dnode = ZFS_NO_OBJECT;
        rc = -sa_lookup(sa_hdl, SA_ZPL_PARENT(uos), &dnode, 8);
        sa_handle_destroy(sa_hdl);
        if (rc)
                RETURN(rc);

        /* now get EA buffer */
        rc = __osd_xattr_load(uos, dnode, &nvbuf);
        if (rc)
                GOTO(regular, rc);

        /* XXX: if we get that far.. should we cache the result? */

        /* try to find LMA attribute */
        LASSERT(nvbuf != NULL);
        rc = -nvlist_lookup_byte_array(nvbuf, XATTR_NAME_LMA, &value, &size);
        if (rc == 0 && size >= sizeof(*lma)) {
                lma = (struct lustre_mdt_attrs *)value;
                lustre_lma_swab(lma);
                *fid = lma->lma_self_fid;
                GOTO(out, rc = 0);
        }

regular:
        /* no LMA attribute in SA, let's try regular EA */

        /* first of all, get parent dnode storing regular EA */
        rc = -sa_handle_get(uos->os, dnode, NULL, SA_HDL_PRIVATE, &sa_hdl);
        if (rc)
                GOTO(out, rc);

        dnode = ZFS_NO_OBJECT;
        rc = -sa_lookup(sa_hdl, SA_ZPL_XATTR(uos), &dnode, 8);
        sa_handle_destroy(sa_hdl);
        if (rc)
                GOTO(out, rc);

        CLASSERT(sizeof(*lma) <= sizeof(osd_oti_get(env)->oti_buf));
        buf.lb_buf = osd_oti_get(env)->oti_buf;
        buf.lb_len = sizeof(osd_oti_get(env)->oti_buf);

        /* now try to find LMA */
        rc = __osd_xattr_get_large(env, uos, dnode, &buf,
                                   XATTR_NAME_LMA, &size);
        if (rc == 0 && size >= sizeof(*lma)) {
                lma = buf.lb_buf;
                lustre_lma_swab(lma);
                *fid = lma->lma_self_fid;
                GOTO(out, rc = 0);
        } else if (rc < 0) {
                GOTO(out, rc);
        } else {
                GOTO(out, rc = -EIO);
        }

out:
        if (nvbuf != NULL)
                nvlist_free(nvbuf);
        RETURN(rc);
}

static int osd_find_parent_fid(const struct lu_env *env, struct dt_object *o,
                               struct lu_fid *fid)
{
        struct link_ea_header  *leh;
        struct link_ea_entry   *lee;
        struct lu_buf           buf;
        int                     rc;
        ENTRY;

        buf.lb_buf = osd_oti_get(env)->oti_buf;
        buf.lb_len = sizeof(osd_oti_get(env)->oti_buf);

        rc = osd_xattr_get(env, o, &buf, XATTR_NAME_LINK, BYPASS_CAPA);
        if (rc == -ERANGE) {
                rc = osd_xattr_get(env, o, &LU_BUF_NULL,
                                   XATTR_NAME_LINK, BYPASS_CAPA);
                if (rc < 0)
                        RETURN(rc);
                LASSERT(rc > 0);
                OBD_ALLOC(buf.lb_buf, rc);
                if (buf.lb_buf == NULL)
                        RETURN(-ENOMEM);
                buf.lb_len = rc;
                rc = osd_xattr_get(env, o, &buf, XATTR_NAME_LINK, BYPASS_CAPA);
        }
        if (rc < 0)
                GOTO(out, rc);
        if (rc < sizeof(*leh) + sizeof(*lee))
                GOTO(out, rc = -EINVAL);

        leh = buf.lb_buf;
        if (leh->leh_magic == __swab32(LINK_EA_MAGIC)) {
                leh->leh_magic = LINK_EA_MAGIC;
                leh->leh_reccount = __swab32(leh->leh_reccount);
                leh->leh_len = __swab64(leh->leh_len);
        }
        if (leh->leh_magic != LINK_EA_MAGIC)
                GOTO(out, rc = -EINVAL);
        if (leh->leh_reccount == 0)
                GOTO(out, rc = -ENODATA);

        lee = (struct link_ea_entry *)(leh + 1);
        fid_be_to_cpu(fid, (const struct lu_fid *)&lee->lee_parent_fid);
        rc = 0;

out:
        if (buf.lb_buf != osd_oti_get(env)->oti_buf)
                OBD_FREE(buf.lb_buf, buf.lb_len);

#if 0
        /* this block can be enabled for additional verification
         * it's trying to match FID from LinkEA vs. FID from LMA */
        if (rc == 0) {
                struct lu_fid fid2;
                int rc2;
                rc2 = osd_find_parent_by_dnode(env, o, &fid2);
                if (rc2 == 0)
                        if (lu_fid_eq(fid, &fid2) == 0)
                                CERROR("wrong parent: "DFID" != "DFID"\n",
                                       PFID(fid), PFID(&fid2));
        }
#endif

        /* no LinkEA is found, let's try to find the fid in parent's LMA */
        if (unlikely(rc != 0))
                rc = osd_find_parent_by_dnode(env, o, fid);

        RETURN(rc);
}

static int osd_dir_lookup(const struct lu_env *env, struct dt_object *dt,
                          struct dt_rec *rec, const struct dt_key *key,
                          struct lustre_capa *capa)
{
        struct osd_thread_info *oti = osd_oti_get(env);
        struct osd_object  *obj = osd_dt_obj(dt);
        struct osd_device  *osd = osd_obj2dev(obj);
        char               *name = (char *)key;
        int                 rc;
        ENTRY;

        LASSERT(udmu_object_is_zap(obj->oo_db));

        if (name[0] == '.') {
                if (name[1] == 0) {
                        const struct lu_fid *f = lu_object_fid(&dt->do_lu);
                        memcpy(rec, f, sizeof(*f));
                        RETURN(1);
                } else if (name[1] == '.' && name[2] == 0) {
                        rc = osd_find_parent_fid(env, dt, (struct lu_fid *)rec);
                        RETURN(rc == 0 ? 1 : rc);
                }
        }

        rc = -zap_lookup(osd->od_objset.os, obj->oo_db->db_object,
                         (char *)key, 8, sizeof(oti->oti_zde) / 8,
                         (void *)&oti->oti_zde);
        memcpy(rec, &oti->oti_zde.lzd_fid, sizeof(struct lu_fid));

        RETURN(rc == 0 ? 1 : rc);
}

static int osd_declare_dir_insert(const struct lu_env *env,
                                  struct dt_object *dt,
                                  const struct dt_rec *rec,
                                  const struct dt_key *key,
                                  struct thandle *th)
{
        struct osd_object  *obj = osd_dt_obj(dt);
        struct osd_thandle *oh;
        ENTRY;

        LASSERT(th != NULL);
        oh = container_of0(th, struct osd_thandle, ot_super);

        LASSERT(obj->oo_db);
        LASSERT(udmu_object_is_zap(obj->oo_db));

        dmu_tx_hold_bonus(oh->ot_tx, obj->oo_db->db_object);
        dmu_tx_hold_zap(oh->ot_tx, obj->oo_db->db_object, TRUE, (char *)key);

        RETURN(0);
}

/**
 * Find the osd object for given fid.
 *
 * \param fid need to find the osd object having this fid
 *
 * \retval osd_object on success
 * \retval        -ve on error
 */
struct osd_object *osd_object_find(const struct lu_env *env,
                                   struct dt_object *dt,
                                   const struct lu_fid *fid)
{
        struct lu_device         *ludev = dt->do_lu.lo_dev;
        struct osd_object        *child = NULL;
        struct lu_object         *luch;
        struct lu_object         *lo;

        /*
         * at this point topdev might not exist yet
         * (i.e. MGS is preparing profiles). so we can
         * not rely on topdev and instead lookup with
         * our device passed as topdev. this can't work
         * if the object isn't cached yet (as osd doesn't
         * allocate lu_header). IOW, the object must be
         * in the cache, otherwise lu_object_alloc() crashes
         * -bzzz
         */
        luch = lu_object_find_at(env, ludev, fid, NULL);
        if (IS_ERR(luch))
                return (void *)luch;

        if (lu_object_exists(luch)) {
                lo = lu_object_locate(luch->lo_header, ludev->ld_type);
                if (lo != NULL)
                        child = osd_obj(lo);
                else
                        LU_OBJECT_DEBUG(D_ERROR, env, luch,
                                        "%s: object can't be located "DFID"\n",
                                        osd_dev(ludev)->od_svname, PFID(fid));

                if (child == NULL) {
                        lu_object_put(env, luch);
                        CERROR("%s: Unable to get osd_object "DFID"\n",
                               osd_dev(ludev)->od_svname, PFID(fid));
                        child = ERR_PTR(-ENOENT);
                }
        } else {
                LU_OBJECT_DEBUG(D_ERROR, env, luch,
                                "%s: lu_object does not exists "DFID"\n",
                                osd_dev(ludev)->od_svname, PFID(fid));
                lu_object_put(env, luch);
                child = ERR_PTR(-ENOENT);
        }

        return child;
}

/**
 * Put the osd object once done with it.
 *
 * \param obj osd object that needs to be put
 */
static inline void osd_object_put(const struct lu_env *env,
                                  struct osd_object *obj)
{
        lu_object_put(env, &obj->oo_dt.do_lu);
}

static int osd_seq_exists(const struct lu_env *env, struct osd_device *osd,
                          obd_seq seq)
{
        struct lu_seq_range     *range = &osd_oti_get(env)->oti_seq_range;
        struct seq_server_site  *ss = osd_seq_site(osd);
        int                     rc;
        ENTRY;

        if (ss == NULL)
                RETURN(1);

        rc = osd_fld_lookup(env, osd, seq, range);
        if (rc != 0) {
                CERROR("%s: Can not lookup fld for "LPX64"\n",
                       osd_name(osd), seq);
                RETURN(0);
        }

        RETURN(ss->ss_node_id == range->lsr_index);
}

static int osd_remote_fid(const struct lu_env *env, struct osd_device *osd,
                          struct lu_fid *fid)
{
        ENTRY;

        if (!fid_is_norm(fid) && !fid_is_root(fid))
                RETURN(0);

        if (osd_seq_exists(env, osd, fid_seq(fid)))
                RETURN(0);

        RETURN(1);
}

/**
 *      Inserts (key, value) pair in \a directory object.
 *
 *      \param  dt      osd index object
 *      \param  key     key for index
 *      \param  rec     record reference
 *      \param  th      transaction handler
 *      \param  capa    capability descriptor
 *      \param  ignore_quota update should not affect quota
 *
 *      \retval  0  success
 *      \retval -ve failure
 */
static int osd_dir_insert(const struct lu_env *env, struct dt_object *dt,
                          const struct dt_rec *rec, const struct dt_key *key,
                          struct thandle *th, struct lustre_capa *capa,
                          int ignore_quota)
{
        struct osd_thread_info *oti = osd_oti_get(env);
        struct osd_object   *parent = osd_dt_obj(dt);
        struct osd_device   *osd = osd_obj2dev(parent);
        struct lu_fid       *fid = (struct lu_fid *)rec;
        struct osd_thandle  *oh;
        struct osd_object   *child = NULL;
        __u32                attr;
        char                *name = (char *)key;
        int                  rc;
        ENTRY;

        LASSERT(parent->oo_db);
        LASSERT(udmu_object_is_zap(parent->oo_db));

        LASSERT(dt_object_exists(dt));
        LASSERT(osd_invariant(parent));

        LASSERT(th != NULL);
        oh = container_of0(th, struct osd_thandle, ot_super);

        rc = osd_remote_fid(env, osd, fid);
        if (rc < 0) {
                CERROR("%s: Can not find object "DFID": rc = %d\n",
                       osd->od_svname, PFID(fid), rc);
                RETURN(rc);
        }

        if (unlikely(rc == 1)) {
                /* Insert remote entry */
                memset(&oti->oti_zde.lzd_reg, 0, sizeof(oti->oti_zde.lzd_reg));
                oti->oti_zde.lzd_reg.zde_type = IFTODT(S_IFDIR & S_IFMT);
        } else {
                /*
                 * To simulate old Orion setups with ./..  stored in the
                 * directories
                 */
                /* Insert local entry */
                child = osd_object_find(env, dt, fid);
                if (IS_ERR(child))
                        RETURN(PTR_ERR(child));

                LASSERT(child->oo_db);
                if (name[0] == '.') {
                        if (name[1] == 0) {
                                /* do not store ".", instead generate it
                                 * during iteration */
                                GOTO(out, rc = 0);
                        } else if (name[1] == '.' && name[2] == 0) {
                                /* update parent dnode in the child.
                                 * later it will be used to generate ".." */
                                udmu_objset_t *uos = &osd->od_objset;
                                rc = osd_object_sa_update(parent,
                                                 SA_ZPL_PARENT(uos),
                                                 &child->oo_db->db_object,
                                                 8, oh);
                                GOTO(out, rc);
                        }
                }
                CLASSERT(sizeof(oti->oti_zde.lzd_reg) == 8);
                CLASSERT(sizeof(oti->oti_zde) % 8 == 0);
                attr = child->oo_dt.do_lu.lo_header ->loh_attr;
                oti->oti_zde.lzd_reg.zde_type = IFTODT(attr & S_IFMT);
                oti->oti_zde.lzd_reg.zde_dnode = child->oo_db->db_object;
        }

        oti->oti_zde.lzd_fid = *fid;
        /* Insert (key,oid) into ZAP */
        rc = -zap_add(osd->od_objset.os, parent->oo_db->db_object,
                      (char *)key, 8, sizeof(oti->oti_zde) / 8,
                      (void *)&oti->oti_zde, oh->ot_tx);

out:
        if (child != NULL)
                osd_object_put(env, child);

        RETURN(rc);
}

static int osd_declare_dir_delete(const struct lu_env *env,
                                  struct dt_object *dt,
                                  const struct dt_key *key,
                                  struct thandle *th)
{
        struct osd_object *obj = osd_dt_obj(dt);
        struct osd_thandle *oh;
        ENTRY;

        LASSERT(dt_object_exists(dt));
        LASSERT(osd_invariant(obj));

        LASSERT(th != NULL);
        oh = container_of0(th, struct osd_thandle, ot_super);

        LASSERT(obj->oo_db);
        LASSERT(udmu_object_is_zap(obj->oo_db));

        dmu_tx_hold_zap(oh->ot_tx, obj->oo_db->db_object, TRUE, (char *)key);

        RETURN(0);
}

static int osd_dir_delete(const struct lu_env *env, struct dt_object *dt,
                          const struct dt_key *key, struct thandle *th,
                          struct lustre_capa *capa)
{
        struct osd_object *obj = osd_dt_obj(dt);
        struct osd_device *osd = osd_obj2dev(obj);
        struct osd_thandle *oh;
        dmu_buf_t *zap_db = obj->oo_db;
        char      *name = (char *)key;
        int rc;
        ENTRY;

        LASSERT(obj->oo_db);
        LASSERT(udmu_object_is_zap(obj->oo_db));

        LASSERT(th != NULL);
        oh = container_of0(th, struct osd_thandle, ot_super);

        /*
         * In Orion . and .. were stored in the directory (not generated upon
         * request as now). we preserve them for backward compatibility
         */
        if (name[0] == '.') {
                if (name[1] == 0) {
                        RETURN(0);
                } else if (name[1] == '.' && name[2] == 0) {
                        RETURN(0);
                }
        }

        /* Remove key from the ZAP */
        rc = -zap_remove(osd->od_objset.os, zap_db->db_object,
                         (char *) key, oh->ot_tx);

#if LUSTRE_VERSION_CODE <= OBD_OCD_VERSION(2, 4, 53, 0)
        if (unlikely(rc == -ENOENT && name[0] == '.' &&
            (name[1] == 0 || (name[1] == '.' && name[2] == 0))))
                rc = 0;
#endif
        if (unlikely(rc && rc != -ENOENT))
                CERROR("%s: zap_remove failed: rc = %d\n", osd->od_svname, rc);

        RETURN(rc);
}

static struct dt_it *osd_dir_it_init(const struct lu_env *env,
                                     struct dt_object *dt,
                                     __u32 unused,
                                     struct lustre_capa *capa)
{
        struct osd_zap_it *it;

        it = (struct osd_zap_it *)osd_index_it_init(env, dt, unused, capa);
        if (!IS_ERR(it))
                it->ozi_pos = 0;

        RETURN((struct dt_it *)it);
}

/**
 *  Move Iterator to record specified by \a key
 *
 *  \param  di      osd iterator
 *  \param  key     key for index
 *
 *  \retval +ve  di points to record with least key not larger than key
 *  \retval  0   di points to exact matched key
 *  \retval -ve  failure
 */
static int osd_dir_it_get(const struct lu_env *env,
                          struct dt_it *di, const struct dt_key *key)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        struct osd_device *osd = osd_obj2dev(obj);
        char              *name = (char *)key;
        int                rc;
        ENTRY;

        LASSERT(it);
        LASSERT(it->ozi_zc);

        udmu_zap_cursor_fini(it->ozi_zc);

        if (udmu_zap_cursor_init(&it->ozi_zc, &osd->od_objset,
                                 obj->oo_db->db_object, 0))
                RETURN(-ENOMEM);

        /* XXX: implementation of the API is broken at the moment */
        LASSERT(((const char *)key)[0] == 0);

        if (name[0] == 0) {
                it->ozi_pos = 0;
                RETURN(1);
        }

        if (name[0] == '.') {
                if (name[1] == 0) {
                        it->ozi_pos = 1;
                        GOTO(out, rc = 1);
                } else if (name[1] == '.' && name[2] == 0) {
                        it->ozi_pos = 2;
                        GOTO(out, rc = 1);
                }
        }

        /* neither . nor .. - some real record */
        it->ozi_pos = 3;
        rc = +1;

out:
        RETURN(rc);
}

static void osd_dir_it_put(const struct lu_env *env, struct dt_it *di)
{
        /* PBS: do nothing : ref are incremented at retrive and decreamented
         *      next/finish. */
}

/*
 * in Orion . and .. were stored in the directory, while ZPL
 * and current osd-zfs generate them up on request. so, we
 * need to ignore previously stored . and ..
 */
static int osd_index_retrieve_skip_dots(struct osd_zap_it *it,
                                        zap_attribute_t *za)
{
        int rc, isdot;

        do {
                rc = -zap_cursor_retrieve(it->ozi_zc, za);

                isdot = 0;
                if (unlikely(rc == 0 && za->za_name[0] == '.')) {
                        if (za->za_name[1] == 0) {
                                isdot = 1;
                        } else if (za->za_name[1] == '.' &&
                                   za->za_name[2] == 0) {
                                isdot = 1;
                        }
                        if (unlikely(isdot))
                                zap_cursor_advance(it->ozi_zc);
                }
        } while (unlikely(rc == 0 && isdot));

        return rc;
}

/**
 * to load a directory entry at a time and stored it in
 * iterator's in-memory data structure.
 *
 * \param di, struct osd_it_ea, iterator's in memory structure
 *
 * \retval +ve, iterator reached to end
 * \retval   0, iterator not reached to end
 * \retval -ve, on error
 */
static int osd_dir_it_next(const struct lu_env *env, struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc;

        /* temp. storage should be enough for any key supported by ZFS */
        CLASSERT(sizeof(za->za_name) <= sizeof(it->ozi_name));

        /*
         * the first ->next() moves the cursor to .
         * the second ->next() moves the cursor to ..
         * then we get to the real records and have to verify any exist
         */
        if (it->ozi_pos <= 2) {
                it->ozi_pos++;
                if (it->ozi_pos <=2)
                        RETURN(0);
        }

        zap_cursor_advance(it->ozi_zc);

        /*
         * According to current API we need to return error if its last entry.
         * zap_cursor_advance() does not return any value. So we need to call
         * retrieve to check if there is any record.  We should make
         * changes to Iterator API to not return status for this API
         */
        rc = osd_index_retrieve_skip_dots(it, za);

        if (rc == -ENOENT) /* end of dir */
                RETURN(+1);

        RETURN(rc);
}

static struct dt_key *osd_dir_it_key(const struct lu_env *env,
                                     const struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc = 0;
        ENTRY;

        if (it->ozi_pos <= 1) {
                it->ozi_pos = 1;
                RETURN((struct dt_key *)".");
        } else if (it->ozi_pos == 2) {
                RETURN((struct dt_key *)"..");
        }

        if ((rc = -zap_cursor_retrieve(it->ozi_zc, za)))
                RETURN(ERR_PTR(rc));

        strcpy(it->ozi_name, za->za_name);

#if LUSTRE_VERSION_CODE < OBD_OCD_VERSION(2, 3, 90, 0)
        if (za->za_name[0] == '.') {
                if (za->za_name[1] == 0 || (za->za_name[1] == '.' &&
                    za->za_name[2] == 0)) {
                        /* we should not get onto . and ..
                         * stored in the directory. ->next() and
                         * other methods should prevent this
                         */
                        LBUG();
                }
        }
#endif

        RETURN((struct dt_key *)it->ozi_name);
}

static int osd_dir_it_key_size(const struct lu_env *env, const struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc;
        ENTRY;

        if (it->ozi_pos <= 1) {
                it->ozi_pos = 1;
                RETURN(2);
        } else if (it->ozi_pos == 2) {
                RETURN(3);
        }

        if ((rc = -zap_cursor_retrieve(it->ozi_zc, za)) == 0)
                rc = strlen(za->za_name);

#if LUSTRE_VERSION_CODE < OBD_OCD_VERSION(2, 3, 90, 0)
        if (rc == 0 && za->za_name[0] == '.') {
                if (za->za_name[1] == 0 || (za->za_name[1] == '.' &&
                    za->za_name[2] == 0)) {
                        /* we should not get onto . and ..
                         * stored in the directory. ->next() and
                         * other methods should prevent this
                         */
                        LBUG();
                }
        }
#endif
        RETURN(rc);
}

static int osd_dir_it_rec(const struct lu_env *env, const struct dt_it *di,
                          struct dt_rec *dtrec, __u32 attr)
{
        struct osd_zap_it   *it = (struct osd_zap_it *)di;
        struct lu_dirent    *lde = (struct lu_dirent *)dtrec;
        struct luz_direntry *zde = &osd_oti_get(env)->oti_zde;
        zap_attribute_t     *za = &osd_oti_get(env)->oti_za;
        int                  rc, namelen;
        ENTRY;

        if (it->ozi_pos <= 1) {
                lde->lde_hash = cpu_to_le64(1);
                strcpy(lde->lde_name, ".");
                lde->lde_namelen = cpu_to_le16(1);
                lde->lde_fid = *lu_object_fid(&it->ozi_obj->oo_dt.do_lu);
                lde->lde_attrs = LUDA_FID;
                /* append lustre attributes */
                osd_it_append_attrs(lde, attr, 1, IFTODT(S_IFDIR));
                lde->lde_reclen = cpu_to_le16(lu_dirent_calc_size(1, attr));
                it->ozi_pos = 1;
                GOTO(out, rc = 0);

        } else if (it->ozi_pos == 2) {
                lde->lde_hash = cpu_to_le64(2);
                strcpy(lde->lde_name, "..");
                lde->lde_namelen = cpu_to_le16(2);
                lde->lde_attrs = LUDA_FID;
                /* append lustre attributes */
                osd_it_append_attrs(lde, attr, 2, IFTODT(S_IFDIR));
                lde->lde_reclen = cpu_to_le16(lu_dirent_calc_size(2, attr));
                rc = osd_find_parent_fid(env, &it->ozi_obj->oo_dt, &lde->lde_fid);
                /*
                 * early Orion code was not setting LinkEA, so it's possible
                 * some setups still have objects with no LinkEA set.
                 * but at that time .. was a real record in the directory
                 * so we should try to lookup .. in ZAP
                 */
                if (rc != -ENOENT)
                        GOTO(out, rc);
        }

        LASSERT(lde);

        lde->lde_hash = cpu_to_le64(udmu_zap_cursor_serialize(it->ozi_zc));

        if ((rc = -zap_cursor_retrieve(it->ozi_zc, za)))
                GOTO(out, rc);

        namelen = strlen(za->za_name);
        if (namelen > NAME_MAX)
                GOTO(out, rc = -EOVERFLOW);
        strcpy(lde->lde_name, za->za_name);
        lde->lde_namelen = cpu_to_le16(namelen);

        if (za->za_integer_length != 8 || za->za_num_integers < 3) {
                CERROR("%s: unsupported direntry format: %d %d\n",
                       osd_obj2dev(it->ozi_obj)->od_svname,
                       za->za_integer_length, (int)za->za_num_integers);

                GOTO(out, rc = -EIO);
        }

        rc = -zap_lookup(it->ozi_zc->zc_objset, it->ozi_zc->zc_zapobj,
                         za->za_name, za->za_integer_length, 3, zde);
        if (rc)
                GOTO(out, rc);

        lde->lde_fid = zde->lzd_fid;
        lde->lde_attrs = LUDA_FID;

        /* append lustre attributes */
        osd_it_append_attrs(lde, attr, namelen, zde->lzd_reg.zde_type);

        lde->lde_reclen = cpu_to_le16(lu_dirent_calc_size(namelen, attr));

out:
        RETURN(rc);
}

static __u64 osd_dir_it_store(const struct lu_env *env, const struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        __u64              pos;
        ENTRY;

        if (it->ozi_pos <= 2)
                pos = it->ozi_pos;
        else
                pos = udmu_zap_cursor_serialize(it->ozi_zc);

        RETURN(pos);
}

/*
 * return status :
 *  rc == 0 -> end of directory.
 *  rc >  0 -> ok, proceed.
 *  rc <  0 -> error.  ( EOVERFLOW  can be masked.)
 */
static int osd_dir_it_load(const struct lu_env *env,
                        const struct dt_it *di, __u64 hash)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        struct osd_device *osd = osd_obj2dev(obj);
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc;
        ENTRY;

        udmu_zap_cursor_fini(it->ozi_zc);
        if (udmu_zap_cursor_init(&it->ozi_zc, &osd->od_objset,
                                 obj->oo_db->db_object, hash))
                RETURN(-ENOMEM);

        if (hash <= 2) {
                it->ozi_pos = hash;
                rc = +1;
        } else {
                it->ozi_pos = 3;
                /* to return whether the end has been reached */
                rc = osd_index_retrieve_skip_dots(it, za);
                if (rc == 0)
                        rc = +1;
                else if (rc == -ENOENT)
                        rc = 0;
        }

        RETURN(rc);
}

static struct dt_index_operations osd_dir_ops = {
        .dio_lookup         = osd_dir_lookup,
        .dio_declare_insert = osd_declare_dir_insert,
        .dio_insert         = osd_dir_insert,
        .dio_declare_delete = osd_declare_dir_delete,
        .dio_delete         = osd_dir_delete,
        .dio_it     = {
                .init     = osd_dir_it_init,
                .fini     = osd_index_it_fini,
                .get      = osd_dir_it_get,
                .put      = osd_dir_it_put,
                .next     = osd_dir_it_next,
                .key      = osd_dir_it_key,
                .key_size = osd_dir_it_key_size,
                .rec      = osd_dir_it_rec,
                .store    = osd_dir_it_store,
                .load     = osd_dir_it_load
        }
};

/*
 * Primitives for index files using binary keys.
 */

static int osd_prepare_key(struct osd_object *o, __u64 *dst,
                           const struct dt_key *src)
{
        int size;

        LASSERT(dst);
        LASSERT(src);

        /* align keysize to 64bit */
        size = (o->oo_keysize + sizeof(__u64) - 1) / sizeof(__u64);
        size *= sizeof(__u64);

        LASSERT(size <= MAXNAMELEN);

        if (unlikely(size > o->oo_keysize))
                memset(dst + o->oo_keysize, 0, size - o->oo_keysize);
        memcpy(dst, (const char *)src, o->oo_keysize);

        return size;
}

static int osd_index_lookup(const struct lu_env *env, struct dt_object *dt,
                        struct dt_rec *rec, const struct dt_key *key,
                        struct lustre_capa *capa)
{
        struct osd_object *obj = osd_dt_obj(dt);
        struct osd_device *osd = osd_obj2dev(obj);
        __u64             *k = osd_oti_get(env)->oti_key64;
        int                rc;
        ENTRY;

        rc = osd_prepare_key(obj, k, key);

        rc = -zap_lookup_uint64(osd->od_objset.os, obj->oo_db->db_object,
                                k, rc, obj->oo_recusize, obj->oo_recsize,
                                (void *)rec);
        RETURN(rc == 0 ? 1 : rc);
}

static int osd_declare_index_insert(const struct lu_env *env,
                                    struct dt_object *dt,
                                    const struct dt_rec *rec,
                                    const struct dt_key *key,
                                    struct thandle *th)
{
        struct osd_object  *obj = osd_dt_obj(dt);
        struct osd_thandle *oh;
        ENTRY;

        LASSERT(th != NULL);
        oh = container_of0(th, struct osd_thandle, ot_super);

        LASSERT(obj->oo_db);

        dmu_tx_hold_bonus(oh->ot_tx, obj->oo_db->db_object);

        /* It is not clear what API should be used for binary keys, so we pass
         * a null name which has the side effect of over-reserving space,
         * accounting for the worst case. See zap_count_write() */
        dmu_tx_hold_zap(oh->ot_tx, obj->oo_db->db_object, TRUE, NULL);

        RETURN(0);
}

static int osd_index_insert(const struct lu_env *env, struct dt_object *dt,
                            const struct dt_rec *rec, const struct dt_key *key,
                            struct thandle *th, struct lustre_capa *capa,
                            int ignore_quota)
{
        struct osd_object  *obj = osd_dt_obj(dt);
        struct osd_device  *osd = osd_obj2dev(obj);
        struct osd_thandle *oh;
        __u64              *k = osd_oti_get(env)->oti_key64;
        int                 rc;
        ENTRY;

        LASSERT(obj->oo_db);
        LASSERT(dt_object_exists(dt));
        LASSERT(osd_invariant(obj));
        LASSERT(th != NULL);

        oh = container_of0(th, struct osd_thandle, ot_super);

        rc = osd_prepare_key(obj, k, key);

        /* Insert (key,oid) into ZAP */
        rc = -zap_add_uint64(osd->od_objset.os, obj->oo_db->db_object,
                             k, rc, obj->oo_recusize, obj->oo_recsize,
                             (void *)rec, oh->ot_tx);
        RETURN(rc);
}

static int osd_declare_index_delete(const struct lu_env *env,
                                    struct dt_object *dt,
                                    const struct dt_key *key,
                                    struct thandle *th)
{
        struct osd_object  *obj = osd_dt_obj(dt);
        struct osd_thandle *oh;
        ENTRY;

        LASSERT(dt_object_exists(dt));
        LASSERT(osd_invariant(obj));
        LASSERT(th != NULL);
        LASSERT(obj->oo_db);

        oh = container_of0(th, struct osd_thandle, ot_super);
        dmu_tx_hold_zap(oh->ot_tx, obj->oo_db->db_object, TRUE, NULL);

        RETURN(0);
}

static int osd_index_delete(const struct lu_env *env, struct dt_object *dt,
                            const struct dt_key *key, struct thandle *th,
                            struct lustre_capa *capa)
{
        struct osd_object  *obj = osd_dt_obj(dt);
        struct osd_device  *osd = osd_obj2dev(obj);
        struct osd_thandle *oh;
        __u64              *k = osd_oti_get(env)->oti_key64;
        int                 rc;
        ENTRY;

        LASSERT(obj->oo_db);
        LASSERT(th != NULL);
        oh = container_of0(th, struct osd_thandle, ot_super);

        rc = osd_prepare_key(obj, k, key);

        /* Remove binary key from the ZAP */
        rc = -zap_remove_uint64(osd->od_objset.os, obj->oo_db->db_object,
                                k, rc, oh->ot_tx);
        RETURN(rc);
}

static int osd_index_it_get(const struct lu_env *env, struct dt_it *di,
                            const struct dt_key *key)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        struct osd_device *osd = osd_obj2dev(obj);
        ENTRY;

        LASSERT(it);
        LASSERT(it->ozi_zc);

        /*
         * XXX: we need a binary version of zap_cursor_move_to_key()
         *      to implement this API */
        if (*((const __u64 *)key) != 0)
                CERROR("NOT IMPLEMETED YET (move to %Lx)\n", *((__u64 *)key));

        zap_cursor_fini(it->ozi_zc);
        memset(it->ozi_zc, 0, sizeof(*it->ozi_zc));
        zap_cursor_init(it->ozi_zc, osd->od_objset.os, obj->oo_db->db_object);
        it->ozi_reset = 1;

        RETURN(+1);
}

static int osd_index_it_next(const struct lu_env *env, struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc;
        ENTRY;

        if (it->ozi_reset == 0)
                zap_cursor_advance(it->ozi_zc);
        it->ozi_reset = 0;

        /*
         * According to current API we need to return error if it's last entry.
         * zap_cursor_advance() does not return any value. So we need to call
         * retrieve to check if there is any record.  We should make
         * changes to Iterator API to not return status for this API
         */
        rc = -zap_cursor_retrieve(it->ozi_zc, za);
        if (rc == -ENOENT)
                RETURN(+1);

        RETURN((rc));
}

static struct dt_key *osd_index_it_key(const struct lu_env *env,
                                       const struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc = 0;
        ENTRY;

        it->ozi_reset = 0;
        rc = -zap_cursor_retrieve(it->ozi_zc, za);
        if (rc)
                RETURN(ERR_PTR(rc));

        /* the binary key is stored in the name */
        memcpy(&it->ozi_key, za->za_name, obj->oo_keysize);

        RETURN((struct dt_key *)&it->ozi_key);
}

static int osd_index_it_key_size(const struct lu_env *env,
                                const struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        RETURN(obj->oo_keysize);
}

static int osd_index_it_rec(const struct lu_env *env, const struct dt_it *di,
                            struct dt_rec *rec, __u32 attr)
{
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        struct osd_device *osd = osd_obj2dev(obj);
        __u64             *k = osd_oti_get(env)->oti_key64;
        int                rc;
        ENTRY;

        it->ozi_reset = 0;
        rc = -zap_cursor_retrieve(it->ozi_zc, za);
        if (rc)
                RETURN(rc);

        rc = osd_prepare_key(obj, k, (const struct dt_key *)za->za_name);

        rc = -zap_lookup_uint64(osd->od_objset.os, obj->oo_db->db_object,
                                k, rc, obj->oo_recusize, obj->oo_recsize,
                                (void *)rec);
        RETURN(rc);
}

static __u64 osd_index_it_store(const struct lu_env *env,
                                const struct dt_it *di)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;

        it->ozi_reset = 0;
        RETURN((__u64)zap_cursor_serialize(it->ozi_zc));
}

static int osd_index_it_load(const struct lu_env *env, const struct dt_it *di,
                             __u64 hash)
{
        struct osd_zap_it *it = (struct osd_zap_it *)di;
        struct osd_object *obj = it->ozi_obj;
        struct osd_device *osd = osd_obj2dev(obj);
        zap_attribute_t   *za = &osd_oti_get(env)->oti_za;
        int                rc;
        ENTRY;

        /* close the current cursor */
        zap_cursor_fini(it->ozi_zc);

        /* create a new one starting at hash */
        memset(it->ozi_zc, 0, sizeof(*it->ozi_zc));
        zap_cursor_init_serialized(it->ozi_zc, osd->od_objset.os,
                                   obj->oo_db->db_object, hash);
        it->ozi_reset = 0;

        rc = -zap_cursor_retrieve(it->ozi_zc, za);
        if (rc == 0)
                RETURN(+1);
        else if (rc == -ENOENT)
                RETURN(0);

        RETURN(rc);
}

static struct dt_index_operations osd_index_ops = {
        .dio_lookup             = osd_index_lookup,
        .dio_declare_insert     = osd_declare_index_insert,
        .dio_insert             = osd_index_insert,
        .dio_declare_delete     = osd_declare_index_delete,
        .dio_delete             = osd_index_delete,
        .dio_it = {
                .init           = osd_index_it_init,
                .fini           = osd_index_it_fini,
                .get            = osd_index_it_get,
                .put            = osd_index_it_put,
                .next           = osd_index_it_next,
                .key            = osd_index_it_key,
                .key_size       = osd_index_it_key_size,
                .rec            = osd_index_it_rec,
                .store          = osd_index_it_store,
                .load           = osd_index_it_load
        }
};

int osd_index_try(const struct lu_env *env, struct dt_object *dt,
                const struct dt_index_features *feat)
{
        struct osd_object *obj = osd_dt_obj(dt);
        ENTRY;

        LASSERT(dt_object_exists(dt));

        /*
         * XXX: implement support for fixed-size keys sorted with natural
         *      numerical way (not using internal hash value)
         */
        if (feat->dif_flags & DT_IND_RANGE)
                RETURN(-ERANGE);

        if (unlikely(feat == &dt_otable_features))
                /* do not support oi scrub yet. */
                RETURN(-ENOTSUPP);

        LASSERT(obj->oo_db != NULL);
        if (likely(feat == &dt_directory_features)) {
                if (udmu_object_is_zap(obj->oo_db))
                        dt->do_index_ops = &osd_dir_ops;
                else
                        RETURN(-ENOTDIR);
        } else if (unlikely(feat == &dt_acct_features)) {
                LASSERT(fid_is_acct(lu_object_fid(&dt->do_lu)));
                dt->do_index_ops = &osd_acct_index_ops;
        } else if (udmu_object_is_zap(obj->oo_db) &&
                   dt->do_index_ops == NULL) {
                /* For index file, we don't support variable key & record sizes
                 * and the key has to be unique */
                if ((feat->dif_flags & ~DT_IND_UPDATE) != 0)
                        RETURN(-EINVAL);

                if (feat->dif_keysize_max > ZAP_MAXNAMELEN)
                        RETURN(-E2BIG);
                if (feat->dif_keysize_max != feat->dif_keysize_min)
                        RETURN(-EINVAL);

                /* As for the record size, it should be a multiple of 8 bytes
                 * and smaller than the maximum value length supported by ZAP.
                 */
                if (feat->dif_recsize_max > ZAP_MAXVALUELEN)
                        RETURN(-E2BIG);
                if (feat->dif_recsize_max != feat->dif_recsize_min)
                        RETURN(-EINVAL);

                obj->oo_keysize = feat->dif_keysize_max;
                obj->oo_recsize = feat->dif_recsize_max;
                obj->oo_recusize = 1;

                /* ZFS prefers to work with array of 64bits */
                if ((obj->oo_recsize & 7) == 0) {
                        obj->oo_recsize >>= 3;
                        obj->oo_recusize = 8;
                }
                dt->do_index_ops = &osd_index_ops;
        }

        RETURN(0);
}