[fs/lustre-release.git] / lustre / lfsck / lfsck_internal.h

/*
 * GPL HEADER START
 *
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 only,
 * as published by the Free Software Foundation.

 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License version 2 for more details.  A copy is
 * included in the COPYING file that accompanied this code.

 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
 *
 * GPL HEADER END
 */
/*
 * Copyright (c) 2013, 2014, Intel Corporation.
 */
/*
 * lustre/lfsck/lfsck_internal.h
 *
 * Shared definitions and declarations for the LFSCK.
 *
 * Author: Fan, Yong <fan.yong@intel.com>
 */

#ifndef _LFSCK_INTERNAL_H
# define _LFSCK_INTERNAL_H

#include <lustre/lustre_lfsck_user.h>
#include <lustre/lustre_user.h>
#include <lustre/lustre_idl.h>
#include <lustre_lfsck.h>
#include <obd.h>
#include <lu_object.h>
#include <dt_object.h>
#include <md_object.h>
#include <lustre_net.h>
#include <lustre_dlm.h>
#include <lustre_fid.h>
#include <md_object.h>
#include <lustre_linkea.h>

#define HALF_SEC                        msecs_to_jiffies(MSEC_PER_SEC >> 1)
#define LFSCK_CHECKPOINT_INTERVAL       60

enum lfsck_flags {
        /* Finish the first cycle scanning. */
        LF_SCANNED_ONCE         = 0x00000001ULL,

        /* There is some namespace inconsistency. */
        LF_INCONSISTENT         = 0x00000002ULL,

        /* The device is upgraded from 1.8 format. */
        LF_UPGRADE              = 0x00000004ULL,

        /* The server ever restarted during the LFSCK, and may miss to process
         * some objects check/repair. */
        LF_INCOMPLETE           = 0x00000008ULL,

        /* The LAST_ID (file) crashed. */
        LF_CRASHED_LASTID       = 0x00000010ULL,
};

struct lfsck_position {
        /* low layer object table-based iteration position. */
        __u64   lp_oit_cookie;

        /* parent FID for directory traversal. */
        struct lu_fid lp_dir_parent;

        /* namespace-based directory traversal position. */
        __u64   lp_dir_cookie;
};

struct lfsck_bookmark {
        /* Magic number to detect that this struct contains valid data. */
        __u32   lb_magic;

        /* For compatible with old versions. */
        __u16   lb_version;

        /* See 'enum lfsck_param_flags' */
        __u16   lb_param;

        /* How many items can be scanned at most per second. */
        __u32   lb_speed_limit;

        /* The windows size for async requests pipeline. */
        __u16   lb_async_windows;

        /* For 64-bits aligned. */
        __u16   lb_padding;

        /* The FID for .lustre/lost+found/MDTxxxx */
        struct lu_fid   lb_lpf_fid;

        /* The FID for the last MDT-object created by the LFSCK repairing. */
        struct lu_fid   lb_last_fid;

        /* For future using. */
        __u64   lb_reserved[2];
};

enum lfsck_namespace_trace_flags {
        LNTF_CHECK_LINKEA       = 0x01,
        LNTF_CHECK_PARENT       = 0x02,
        LNTF_SKIP_NLINK         = 0x04,
        LNTF_CHECK_ORPHAN       = 0x08,
        LNTF_UNCERTAIN_LMV      = 0x10,
        LNTF_RECHECK_NAME_HASH  = 0x20,
        LNTF_ALL                = 0xff
};

enum lfsck_namespace_inconsistency_type {
        LNIT_NONE               = 0,
        LNIT_BAD_LINKEA         = 1,
        LNIT_UNMATCHED_PAIRS    = 2,
        LNIT_DANGLING           = 3,
        LNIT_MUL_REF            = 4,
        LNIT_BAD_TYPE           = 5,
        LNIT_BAD_DIRENT         = 6,
};

struct lfsck_namespace {
        /* Magic number to detect that this struct contains valid data. */
        __u32   ln_magic;

        /* See 'enum lfsck_status'. */
        __u32   ln_status;

        /* See 'enum lfsck_flags'. */
        __u32   ln_flags;

        /* How many completed LFSCK runs on the device. */
        __u32   ln_success_count;

        /*  How long the LFSCK phase1 has run in seconds. */
        __u32   ln_run_time_phase1;

        /*  How long the LFSCK phase2 has run in seconds. */
        __u32   ln_run_time_phase2;

        /* Time for the last LFSCK completed in seconds since epoch. */
        __u64   ln_time_last_complete;

        /* Time for the latest LFSCK ran in seconds since epoch. */
        __u64   ln_time_latest_start;

        /* Time for the last LFSCK checkpoint in seconds since epoch. */
        __u64   ln_time_last_checkpoint;

        /* Position for the latest LFSCK started from. */
        struct lfsck_position   ln_pos_latest_start;

        /* Position for the last LFSCK checkpoint. */
        struct lfsck_position   ln_pos_last_checkpoint;

        /* Position for the first should be updated object. */
        struct lfsck_position   ln_pos_first_inconsistent;

        /* How many items (including dir) have been checked. */
        __u64   ln_items_checked;

        /* How many items have been repaired. */
        __u64   ln_items_repaired;

        /* How many items failed to be processed. */
        __u64   ln_items_failed;

        /* How many directories have been traversed. */
        __u64   ln_dirs_checked;

        /* How many objects have been double scanned. */
        __u64   ln_objs_checked_phase2;

        /* How many objects have been reparied during double scan. */
        __u64   ln_objs_repaired_phase2;

        /* How many objects failed to be processed during double scan. */
        __u64   ln_objs_failed_phase2;

        /* How many objects with nlink fixed. */
        __u64   ln_objs_nlink_repaired;

        /* The latest object has been processed (failed) during double scan. */
        struct lu_fid   ln_fid_latest_scanned_phase2;

        /* How many FID-in-dirent entries have been repaired. */
        __u64   ln_dirent_repaired;

        /* How many linkEA entries have been repaired. */
        __u64   ln_linkea_repaired;

        /* How many multiple-linked objects have been checked. */
        __u64   ln_mul_linked_checked;

        /* How many multiple-linked objects have been repaired. */
        __u64   ln_mul_linked_repaired;

        /* How many undefined inconsistency found in phase2. */
        __u64   ln_unknown_inconsistency;

        /* How many unmatched pairs have been repaired. */
        __u64   ln_unmatched_pairs_repaired;

        /* How many dangling name entries have been found/repaired. */
        __u64   ln_dangling_repaired;

        /* How many multiple referenced name entries have been
         * found/repaired. */
        __u64   ln_mul_ref_repaired;

        /* How many name entries with bad file type have been repaired. */
        __u64   ln_bad_type_repaired;

        /* How many lost name entries have been re-inserted. */
        __u64   ln_lost_dirent_repaired;

        /* How many objects under /lost+found have been scanned. */
        __u64   ln_local_lpf_scanned;

        /* How many objects under /lost+found have been moved to
         * namespace visible directory. */
        __u64   ln_local_lpf_moved;

        /* How many objects under /lost+found have been skipped. */
        __u64   ln_local_lpf_skipped;

        /* How many objects under /lost+found failed to be processed. */
        __u64   ln_local_lpf_failed;

        /* How many striped directories (master) have been scanned. */
        __u64   ln_striped_dirs_scanned;

        /* How many striped directories (master) have been repaired. */
        __u64   ln_striped_dirs_repaired;

        /* How many striped directories (master) failed verification. */
        __u64   ln_striped_dirs_failed;

        /* How many striped directories (master) has been disabled. */
        __u64   ln_striped_dirs_disabled;

        /* How many striped directory's (master) have been skipped
         * (for shards verification) because of lost master LMV EA. */
        __u64   ln_striped_dirs_skipped;

        /* How many striped directory's shards (slave) have been scanned. */
        __u64   ln_striped_shards_scanned;

        /* How many striped directory's shards (slave) have been repaired. */
        __u64   ln_striped_shards_repaired;

        /* How many striped directory's shards (slave) failed verification. */
        __u64   ln_striped_shards_failed;

        /* How many striped directory's shards (slave) have been skipped
         * (for name hash verification) because do not know whether the slave
         * LMV EA is valid or not. */
        __u64   ln_striped_shards_skipped;

        /* How many name entries under striped directory with bad name
         * hash have been repaired. */
        __u64   ln_name_hash_repaired;

        /* The size of MDT targets bitmap with nbits. Such bitmap records
         * the MDTs that contain non-verified MDT-objects. */
        __u32   ln_bitmap_size;

        __u32   ln_reserved_1;
        /* For further using. 256-bytes aligned now. */
        __u64   ln_reserved[15];
};

enum lfsck_layout_inconsistency_type {
        LLIT_NONE                       = 0,
        LLIT_DANGLING                   = 1,
        LLIT_UNMATCHED_PAIR             = 2,
        LLIT_MULTIPLE_REFERENCED        = 3,
        LLIT_ORPHAN                     = 4,
        LLIT_INCONSISTENT_OWNER         = 5,
        LLIT_OTHERS                     = 6,
        LLIT_MAX                        = LLIT_OTHERS
};

struct lfsck_layout {
        /* Magic number to detect that this struct contains valid data. */
        __u32   ll_magic;

        /* See 'enum lfsck_status'. */
        __u32   ll_status;

        /* See 'enum lfsck_flags'. */
        __u32   ll_flags;

        /* How many completed LFSCK runs on the device. */
        __u32   ll_success_count;

        /*  How long the LFSCK phase1 has run in seconds. */
        __u32   ll_run_time_phase1;

        /*  How long the LFSCK phase2 has run in seconds. */
        __u32   ll_run_time_phase2;

        /* Time for the last LFSCK completed in seconds since epoch. */
        __u64   ll_time_last_complete;

        /* Time for the latest LFSCK ran in seconds since epoch. */
        __u64   ll_time_latest_start;

        /* Time for the last LFSCK checkpoint in seconds since epoch. */
        __u64   ll_time_last_checkpoint;

        /* Position for the latest LFSCK started from. */
        __u64   ll_pos_latest_start;

        /* Position for the last LFSCK checkpoint. */
        __u64   ll_pos_last_checkpoint;

        /* Position for the first object to be fixed or
         * failed to be checked in the phase1. */
        __u64   ll_pos_first_inconsistent;

        /* How many objects have been checked. */
        __u64   ll_objs_checked_phase1;

        /* How many objects failed to be processed. */
        __u64   ll_objs_failed_phase1;

        /* How many objects have been double scanned. */
        __u64   ll_objs_checked_phase2;

        /* How many objects failed to be processed during double scan. */
        __u64   ll_objs_failed_phase2;

        /* kinds of inconsistency have been or to be repaired.
         * ll_objs_repaired[type - 1] is the count for the given @type. */
        __u64   ll_objs_repaired[LLIT_MAX];

        /* How many objects have been skipped because of related
         * MDT(s)/OST(s) do not participate in the LFSCK */
        __u64   ll_objs_skipped;

        /* The size of ll_ost_bitmap with nbits. */
        __u32   ll_bitmap_size;

        /* For further using. 256-bytes aligned now. */
        __u32   ll_reserved_1;
        __u64   ll_reserved_2[11];

        /* The OST targets bitmap to record the OSTs that contain
         * non-verified OST-objects. */
        __u8    ll_ost_bitmap[0];
};

struct lfsck_component;
struct lfsck_tgt_descs;
struct lfsck_tgt_desc;

struct lfsck_operations {
        int (*lfsck_reset)(const struct lu_env *env,
                           struct lfsck_component *com,
                           bool init);

        void (*lfsck_fail)(const struct lu_env *env,
                           struct lfsck_component *com,
                           bool new_checked);

        void (*lfsck_close_dir)(const struct lu_env *env,
                                struct lfsck_component *com);

        int (*lfsck_open_dir)(const struct lu_env *env,
                              struct lfsck_component *com);

        int (*lfsck_checkpoint)(const struct lu_env *env,
                                struct lfsck_component *com,
                                bool init);

        int (*lfsck_prep)(const struct lu_env *env,
                          struct lfsck_component *com,
                          struct lfsck_start_param *lsp);

        int (*lfsck_exec_oit)(const struct lu_env *env,
                              struct lfsck_component *com,
                              struct dt_object *obj);

        int (*lfsck_exec_dir)(const struct lu_env *env,
                              struct lfsck_component *com,
                              struct lu_dirent *ent,
                              __u16 type);

        int (*lfsck_post)(const struct lu_env *env,
                          struct lfsck_component *com,
                          int result,
                          bool init);

        int (*lfsck_dump)(const struct lu_env *env,
                          struct lfsck_component *com,
                          struct seq_file *m);

        int (*lfsck_double_scan)(const struct lu_env *env,
                                 struct lfsck_component *com);

        void (*lfsck_data_release)(const struct lu_env *env,
                                   struct lfsck_component *com);

        void (*lfsck_quit)(const struct lu_env *env,
                           struct lfsck_component *com);

        int (*lfsck_in_notify)(const struct lu_env *env,
                               struct lfsck_component *com,
                               struct lfsck_request *lr,
                               struct thandle *th);

        int (*lfsck_query)(const struct lu_env *env,
                           struct lfsck_component *com);

        int (*lfsck_join)(const struct lu_env *env,
                          struct lfsck_component *com,
                          struct lfsck_start_param *lsp);
};

#define TGT_PTRS                256     /* number of pointers at 1st level */
#define TGT_PTRS_PER_BLOCK      256     /* number of pointers at 2nd level */

struct lfsck_tgt_desc {
        struct list_head   ltd_orphan_list;
        struct dt_device  *ltd_tgt;
        struct dt_device  *ltd_key;
        struct obd_export *ltd_exp;
        struct list_head   ltd_layout_list;
        struct list_head   ltd_layout_phase_list;
        struct list_head   ltd_namespace_list;
        struct list_head   ltd_namespace_phase_list;
        atomic_t           ltd_ref;
        __u32              ltd_index;
        __u32              ltd_layout_gen;
        __u32              ltd_namespace_gen;
        unsigned int       ltd_dead:1,
                           ltd_layout_done:1,
                           ltd_namespace_done:1,
                           ltd_namespace_failed:1;
};

struct lfsck_tgt_desc_idx {
        struct lfsck_tgt_desc *ldi_tgts[TGT_PTRS_PER_BLOCK];
};

struct lfsck_tgt_descs {
        /* list of known TGTs */
        struct lfsck_tgt_desc_idx       *ltd_tgts_idx[TGT_PTRS];

        /* bitmap of TGTs available */
        cfs_bitmap_t                    *ltd_tgts_bitmap;

        /* for lfsck_tgt_desc::ltd_xxx_list */
        spinlock_t                       ltd_lock;

        /* for tgts table accessing and changes */
        struct rw_semaphore              ltd_rw_sem;

        /* Temporary list for orphan targets. */
        struct list_head                 ltd_orphan;

        /* number of registered TGTs */
        __u32                            ltd_tgtnr;
};

#define LTD_TGT(ltd, index)     \
        ((ltd)->ltd_tgts_idx[(index) / TGT_PTRS_PER_BLOCK]->\
         ldi_tgts[(index) % TGT_PTRS_PER_BLOCK])

#define OST_TGT(lfsck, index)   LTD_TGT(&lfsck->li_ost_descs, index)
#define MDT_TGT(lfsck, index)   LTD_TGT(&lfsck->li_mdt_descs, index)

struct lfsck_component {
        /* into lfsck_instance::li_list_(scan,double_scan,idle} */
        struct list_head         lc_link;

        /* into lfsck_instance::li_list_dir */
        struct list_head         lc_link_dir;

        struct rw_semaphore      lc_sem;
        atomic_t                 lc_ref;

        struct lfsck_position    lc_pos_start;
        struct lfsck_instance   *lc_lfsck;
        struct dt_object        *lc_obj;
        struct lfsck_operations *lc_ops;
        void                    *lc_file_ram;
        void                    *lc_file_disk;
        void                    *lc_data;
        struct lu_fid            lc_fid_latest_scanned_phase2;

        /* The time for last checkpoint, jiffies */
        cfs_time_t               lc_time_last_checkpoint;

        /* The time for next checkpoint, jiffies */
        cfs_time_t               lc_time_next_checkpoint;

        __u32                    lc_file_size;

        /* How many objects have been checked since last checkpoint. */
        __u32                    lc_new_checked;

        /* How many objects have been scanned since last sleep. */
        __u32                    lc_new_scanned;

        __u16                    lc_type;
};

#define LFSCK_LMV_MAX_STRIPES   LMV_MAX_STRIPE_COUNT
#define LFSCK_LMV_DEF_STRIPES   4

/* Warning: NOT change the lfsck_slave_lmv_flags members order,
 *          otherwise the lfsck_record_lmv() may be wrong. */
enum lfsck_slave_lmv_flags {
        LSLF_NONE       = 0,
        LSLF_BAD_INDEX2 = 1,
        LSLF_NO_LMVEA   = 2,
        LSLF_DANGLING   = 3,
        LSLF_BAD_INDEX1 = 4,
};

/* When the namespace LFSCK scans a striped directory, it will record all
 * the known shards' information in the structure "lfsck_slave_lmv_rec",
 * including the shard's FID, index, slave LMV EA, and so on. Each shard
 * will take one lfsck_slave_lmv_rec slot. After the 1st cycle scanning
 * the striped directory, the LFSCK will get all the information about
 * whether there are some inconsistency, and then it can repair them in
 * the 2nd cycle scanning. */
struct lfsck_slave_lmv_rec {
        struct lu_fid   lslr_fid;
        __u32           lslr_stripe_count;
        __u32           lslr_index; /* the index in name or in slave lmv */
        __u32           lslr_hash_type;
        __u32           lslr_flags;
};

struct lfsck_lmv {
        struct lmv_mds_md_v1             ll_lmv;
        atomic_t                         ll_ref;
        int                              ll_stripes_allocated;
        int                              ll_stripes_filled;
        int                              ll_exit_value;
        __u32                            ll_max_stripe_count;
        __u32                            ll_max_filled_off;
        __u32                            ll_hash_type;
        unsigned int                     ll_lmv_master:1,
                                         ll_lmv_slave:1,
                                         ll_lmv_verified:1,
                                         ll_lmv_updated:1,
                                         ll_inline:1,
                                         ll_failed:1,
                                         ll_ignore:1;
        struct lfsck_slave_lmv_rec      *ll_lslr;
};

/* If the namespace LFSCK finds that the master MDT-object of a striped
 * directory lost its master LMV EA, it will re-generate the master LMV
 * EA and notify the LFSCK instance on the MDT on which the striped dir
 * master MDT-object resides to rescan the striped directory. To do that,
 * the notify handler will insert a "lfsck_lmv_unit" structure into the
 * lfsck::li_list_lmv. The LFSCK instance will scan such list from time
 * to time to check whether needs to rescan some stirped directories. */
struct lfsck_lmv_unit {
        struct list_head         llu_link;
        struct lfsck_lmv         llu_lmv;
        struct dt_object        *llu_obj;
        struct lfsck_instance   *llu_lfsck;
};

struct lfsck_rec_lmv_save {
        struct lu_fid           lrls_fid;
        struct lmv_mds_md_v1    lrls_lmv;
};

/* Allow lfsck_record_lmv() to be called recursively at most three times. */
#define LFSCK_REC_LMV_MAX_DEPTH 3

struct lfsck_instance {
        struct mutex              li_mutex;
        spinlock_t                li_lock;

        /* Link into the lfsck_instance_list. */
        struct list_head          li_link;

        /* For the components in (first) scanning via otable-based iteration. */
        struct list_head          li_list_scan;

        /* For the components in scanning via directory traversal. Because
         * directory traversal cannot guarantee all the object be scanned,
         * so the component in the li_list_dir must be in li_list_scan. */
        struct list_head          li_list_dir;

        /* For the components in double scanning. */
        struct list_head          li_list_double_scan;

        /* For the components those are not scanning now. */
        struct list_head          li_list_idle;

        /* For the lfsck_lmv_unit to be handled. */
        struct list_head          li_list_lmv;

        atomic_t                  li_ref;
        atomic_t                  li_double_scan_count;
        struct ptlrpc_thread      li_thread;

        /* The time for last checkpoint, jiffies */
        cfs_time_t                li_time_last_checkpoint;

        /* The time for next checkpoint, jiffies */
        cfs_time_t                li_time_next_checkpoint;

        lfsck_out_notify          li_out_notify;
        void                     *li_out_notify_data;
        struct dt_device         *li_next;
        struct dt_device         *li_bottom;
        struct obd_device        *li_obd;
        struct ldlm_namespace    *li_namespace;
        struct local_oid_storage *li_los;
        struct lu_fid             li_local_root_fid;  /* backend root "/" */
        struct lu_fid             li_global_root_fid; /* /ROOT */
        struct dt_object         *li_bookmark_obj;
        struct dt_object         *li_lpf_obj;
        struct dt_object         *li_lpf_root_obj;
        struct lu_client_seq     *li_seq;
        struct lfsck_bookmark     li_bookmark_ram;
        struct lfsck_bookmark     li_bookmark_disk;
        struct lfsck_position     li_pos_current;
        struct lfsck_position     li_pos_checkpoint;

        struct lfsck_lmv         *li_lmv;

        /* Obj for otable-based iteration */
        struct dt_object         *li_obj_oit;

        /* Obj for directory traversal */
        struct dt_object         *li_obj_dir;

        /* It for otable-based iteration */
        struct dt_it             *li_di_oit;

        /* It for directory traversal */
        struct dt_it             *li_di_dir;

        /* Description of OST */
        struct lfsck_tgt_descs    li_ost_descs;

        /* Description of MDT */
        struct lfsck_tgt_descs    li_mdt_descs;

        /* namespace-based directory traversal position. */
        __u64                     li_cookie_dir;

        /* Arguments for low layer otable-based iteration. */
        __u32                     li_args_oit;

        /* Arugments for namespace-based directory traversal. */
        __u32                     li_args_dir;

        /* Schedule for every N objects. */
        __u32                     li_sleep_rate;

        /* Sleep N jiffies for each schedule. */
        __u32                     li_sleep_jif;

        /* How many objects have been scanned since last sleep. */
        __u32                     li_new_scanned;

        /* The status when the LFSCK stopped or paused. */
        __u32                     li_status;

        /* The flags when the lFSCK stopped or paused. */
        __u32                     li_flags;

        unsigned int              li_oit_over:1, /* oit is finished. */
                                  li_drop_dryrun:1, /* Ever dryrun, not now. */
                                  li_master:1, /* Master instance or not. */
                                  li_current_oit_processed:1,
                                  li_start_unplug:1;
        struct lfsck_rec_lmv_save li_rec_lmv_save[LFSCK_REC_LMV_MAX_DEPTH];
};

struct lfsck_async_interpret_args {
        struct lfsck_component          *laia_com;
        struct lfsck_tgt_descs          *laia_ltds;
        struct lfsck_tgt_desc           *laia_ltd;
        struct lfsck_request            *laia_lr;
        atomic_t                        *laia_count;
        int                              laia_result;
        unsigned int                     laia_shared:1;
};

struct lfsck_thread_args {
        struct lu_env                    lta_env;
        struct lfsck_instance           *lta_lfsck;
        struct lfsck_component          *lta_com;
        struct lfsck_start_param        *lta_lsp;
};

struct lfsck_assistant_req {
        struct list_head        lar_list;
};

struct lfsck_namespace_req {
        struct lfsck_assistant_req       lnr_lar;
        struct dt_object                *lnr_obj;
        struct lfsck_lmv                *lnr_lmv;
        struct lu_fid                    lnr_fid;
        __u64                            lnr_oit_cookie;
        __u64                            lnr_dir_cookie;
        __u32                            lnr_attr;
        __u32                            lnr_size;
        __u16                            lnr_type;
        __u16                            lnr_namelen;
        char                             lnr_name[0];
};

struct lfsck_assistant_operations {
        int (*la_handler_p1)(const struct lu_env *env,
                             struct lfsck_component *com,
                             struct lfsck_assistant_req *lar);

        int (*la_handler_p2)(const struct lu_env *env,
                             struct lfsck_component *com);

        void (*la_fill_pos)(const struct lu_env *env,
                            struct lfsck_component *com,
                            struct lfsck_position *pos);

        int (*la_double_scan_result)(const struct lu_env *env,
                                     struct lfsck_component *com,
                                     int rc);

        void (*la_req_fini)(const struct lu_env *env,
                            struct lfsck_assistant_req *lar);

        void (*la_sync_failures)(const struct lu_env *env,
                                 struct lfsck_component *com,
                                 struct lfsck_request *lr);
};

struct lfsck_assistant_data {
        spinlock_t                               lad_lock;
        struct list_head                         lad_req_list;

        /* list for the ost targets involve LFSCK. */
        struct list_head                         lad_ost_list;

        /* list for the ost targets in phase1 scanning. */
        struct list_head                         lad_ost_phase1_list;

        /* list for the ost targets in phase1 scanning. */
        struct list_head                         lad_ost_phase2_list;

        /* list for the mdt targets involve LFSCK. */
        struct list_head                         lad_mdt_list;

        /* list for the mdt targets in phase1 scanning. */
        struct list_head                         lad_mdt_phase1_list;

        /* list for the mdt targets in phase1 scanning. */
        struct list_head                         lad_mdt_phase2_list;

        const char                              *lad_name;
        struct ptlrpc_thread                     lad_thread;

        struct lfsck_assistant_operations       *lad_ops;

        cfs_bitmap_t                            *lad_bitmap;

        __u32                                    lad_touch_gen;
        int                                      lad_prefetched;
        int                                      lad_assistant_status;
        int                                      lad_post_result;
        unsigned int                             lad_to_post:1,
                                                 lad_to_double_scan:1,
                                                 lad_in_double_scan:1,
                                                 lad_exit:1,
                                                 lad_incomplete:1;
};

#define LFSCK_TMPBUF_LEN        64

struct lfsck_thread_info {
        struct lu_name          lti_name_const;
        struct lu_name          lti_name;
        struct lu_name          lti_name2;
        struct lu_buf           lti_buf;
        struct lu_buf           lti_linkea_buf;
        struct lu_buf           lti_linkea_buf2;
        struct lu_buf           lti_big_buf;
        struct lu_fid           lti_fid;
        struct lu_fid           lti_fid2;
        struct lu_fid           lti_fid3;
        struct lu_attr          lti_la;
        struct lu_attr          lti_la2;
        struct lu_attr          lti_la3;
        struct ost_id           lti_oi;
        union {
                struct lustre_mdt_attrs lti_lma;
                /* old LMA for compatibility */
                char                    lti_lma_old[LMA_OLD_SIZE];
        };
        struct dt_object_format lti_dof;
        /* There will be '\0' at the end of the name. */
        char            lti_key[sizeof(struct lu_dirent) + NAME_MAX + 1];
        char                    lti_tmpbuf[LFSCK_TMPBUF_LEN];
        char                    lti_tmpbuf2[LFSCK_TMPBUF_LEN];
        struct lfsck_request    lti_lr;
        struct lfsck_async_interpret_args lti_laia;
        struct lfsck_async_interpret_args lti_laia2;
        struct lfsck_start      lti_start;
        struct lfsck_stop       lti_stop;
        ldlm_policy_data_t      lti_policy;
        struct ldlm_enqueue_info lti_einfo;
        struct ldlm_res_id      lti_resid;
        union {
                struct filter_fid_old   lti_old_pfid;
                struct filter_fid       lti_new_pfid;
        };
        struct dt_allocation_hint lti_hint;
        struct lu_orphan_rec    lti_rec;
        struct lov_user_md      lti_lum;
        struct dt_insert_rec    lti_dt_rec;
        struct lu_object_conf   lti_conf;
        struct lu_seq_range     lti_range;
        struct lmv_mds_md_v1    lti_lmv;
        struct lmv_mds_md_v1    lti_lmv2;
        struct lmv_mds_md_v1    lti_lmv3;
        struct lmv_mds_md_v1    lti_lmv4;
};

/* lfsck_lib.c */
int lfsck_fid_alloc(const struct lu_env *env, struct lfsck_instance *lfsck,
                    struct lu_fid *fid, bool locked);
int lfsck_ibits_lock(const struct lu_env *env, struct lfsck_instance *lfsck,
                     struct dt_object *obj, struct lustre_handle *lh,
                     __u64 bits, ldlm_mode_t mode);
void lfsck_ibits_unlock(struct lustre_handle *lh, ldlm_mode_t mode);
int lfsck_find_mdt_idx_by_fid(const struct lu_env *env,
                              struct lfsck_instance *lfsck,
                              const struct lu_fid *fid);
int lfsck_verify_lpf(const struct lu_env *env, struct lfsck_instance *lfsck);
struct lfsck_instance *lfsck_instance_find(struct dt_device *key, bool ref,
                                           bool unlink);
struct lfsck_component *lfsck_component_find(struct lfsck_instance *lfsck,
                                             __u16 type);
const char *lfsck_status2names(enum lfsck_status status);
void lfsck_component_cleanup(const struct lu_env *env,
                             struct lfsck_component *com);
void lfsck_instance_cleanup(const struct lu_env *env,
                            struct lfsck_instance *lfsck);
int lfsck_bits_dump(struct seq_file *m, int bits, const char *names[],
                    const char *prefix);
int lfsck_time_dump(struct seq_file *m, __u64 time, const char *prefix);
int lfsck_pos_dump(struct seq_file *m, struct lfsck_position *pos,
                   const char *prefix);
void lfsck_pos_fill(const struct lu_env *env, struct lfsck_instance *lfsck,
                    struct lfsck_position *pos, bool init);
bool __lfsck_set_speed(struct lfsck_instance *lfsck, __u32 limit);
void lfsck_control_speed(struct lfsck_instance *lfsck);
void lfsck_control_speed_by_self(struct lfsck_component *com);
void lfsck_thread_args_fini(struct lfsck_thread_args *lta);
struct lfsck_assistant_data *
lfsck_assistant_data_init(struct lfsck_assistant_operations *lao,
                          const char *name);
int lfsck_async_interpret_common(const struct lu_env *env,
                                 struct ptlrpc_request *req,
                                 void *args, int rc);
int lfsck_async_request(const struct lu_env *env, struct obd_export *exp,
                        struct lfsck_request *lr,
                        struct ptlrpc_request_set *set,
                        ptlrpc_interpterer_t interpterer,
                        void *args, int request);
int lfsck_start_assistant(const struct lu_env *env, struct lfsck_component *com,
                          struct lfsck_start_param *lsp);
int lfsck_checkpoint_generic(const struct lu_env *env,
                             struct lfsck_component *com);
void lfsck_post_generic(const struct lu_env *env,
                        struct lfsck_component *com, int *result);
int lfsck_double_scan_generic(const struct lu_env *env,
                              struct lfsck_component *com, int status);
void lfsck_quit_generic(const struct lu_env *env,
                        struct lfsck_component *com);

/* lfsck_engine.c */
int lfsck_unpack_ent(struct lu_dirent *ent, __u64 *cookie, __u16 *type);
void lfsck_close_dir(const struct lu_env *env,
                     struct lfsck_instance *lfsck, int result);
int lfsck_open_dir(const struct lu_env *env,
                   struct lfsck_instance *lfsck, __u64 cookie);
int lfsck_master_engine(void *args);
int lfsck_assistant_engine(void *args);

/* lfsck_bookmark.c */
void lfsck_bookmark_cpu_to_le(struct lfsck_bookmark *des,
                              struct lfsck_bookmark *src);
int lfsck_bookmark_store(const struct lu_env *env,
                         struct lfsck_instance *lfsck);
int lfsck_bookmark_setup(const struct lu_env *env,
                         struct lfsck_instance *lfsck);
int lfsck_set_param(const struct lu_env *env, struct lfsck_instance *lfsck,
                    struct lfsck_start *start, bool reset);

/* lfsck_namespace.c */
int lfsck_namespace_trace_update(const struct lu_env *env,
                                 struct lfsck_component *com,
                                 const struct lu_fid *fid,
                                 const __u8 flags, bool add);
int lfsck_namespace_check_exist(const struct lu_env *env,
                                struct dt_object *dir,
                                struct dt_object *obj, const char *name);
int __lfsck_links_read(const struct lu_env *env, struct dt_object *obj,
                       struct linkea_data *ldata);
int lfsck_namespace_rebuild_linkea(const struct lu_env *env,
                                   struct lfsck_component *com,
                                   struct dt_object *obj,
                                   struct linkea_data *ldata);
int lfsck_namespace_repair_dangling(const struct lu_env *env,
                                    struct lfsck_component *com,
                                    struct dt_object *child,
                                    struct lfsck_namespace_req *lnr);
int lfsck_namespace_repair_dirent(const struct lu_env *env,
                                  struct lfsck_component *com,
                                  struct dt_object *parent,
                                  struct dt_object *child,
                                  const char *name, const char *name2,
                                  __u16 type, bool update, bool dec);
int lfsck_verify_linkea(const struct lu_env *env, struct dt_device *dev,
                        struct dt_object *obj, const struct lu_name *cname,
                        const struct lu_fid *pfid);
int lfsck_links_get_first(const struct lu_env *env, struct dt_object *obj,
                          char *name, struct lu_fid *pfid);
int lfsck_update_name_entry(const struct lu_env *env,
                            struct lfsck_instance *lfsck,
                            struct dt_object *parent, const char *name,
                            const struct lu_fid *pfid, __u32 type);
int lfsck_namespace_setup(const struct lu_env *env,
                          struct lfsck_instance *lfsck);

/* lfsck_striped_dir.c */
void lfsck_lmv_put(const struct lu_env *env, struct lfsck_lmv *llmv);
int lfsck_read_stripe_lmv(const struct lu_env *env, struct dt_object *obj,
                          struct lmv_mds_md_v1 *lmv);
int lfsck_shard_name_to_index(const struct lu_env *env, const char *name,
                              int namelen, __u16 type,
                              const struct lu_fid *fid);
bool lfsck_is_valid_slave_name_entry(const struct lu_env *env,
                                     struct lfsck_lmv *llmv,
                                     const char *name, int namelen);
int lfsck_namespace_check_name(const struct lu_env *env,
                               struct dt_object *parent,
                               struct dt_object *child,
                               const struct lu_name *cname);
int lfsck_namespace_update_lmv(const struct lu_env *env,
                               struct lfsck_component *com,
                               struct dt_object *obj,
                               struct lmv_mds_md_v1 *lmv, bool locked);
int lfsck_namespace_verify_stripe_slave(const struct lu_env *env,
                                        struct lfsck_component *com,
                                        struct dt_object *obj,
                                        struct lfsck_lmv *llmv);
int lfsck_namespace_scan_shard(const struct lu_env *env,
                               struct lfsck_component *com,
                               struct dt_object *child);
int lfsck_namespace_notify_lmv_master_local(const struct lu_env *env,
                                            struct lfsck_component *com,
                                            struct dt_object *obj);
int lfsck_namespace_repair_bad_name_hash(const struct lu_env *env,
                                         struct lfsck_component *com,
                                         struct dt_object *shard,
                                         struct lfsck_lmv *llmv,
                                         const char *name);
int lfsck_namespace_striped_dir_rescan(const struct lu_env *env,
                                       struct lfsck_component *com,
                                       struct lfsck_namespace_req *lnr);
int lfsck_namespace_handle_striped_master(const struct lu_env *env,
                                          struct lfsck_component *com,
                                          struct lfsck_namespace_req *lnr);

/* lfsck_layout.c */
int lfsck_layout_setup(const struct lu_env *env, struct lfsck_instance *lfsck);

extern const char dot[];
extern const char dotdot[];
extern const char *lfsck_flags_names[];
extern const char *lfsck_param_names[];
extern struct lu_context_key lfsck_thread_key;

static inline bool name_is_dot_or_dotdot(const char *name, int namelen)
{
        return name[0] == '.' &&
               (namelen == 1 || (namelen == 2 && name[1] == '.'));
}

static inline struct dt_device *lfsck_obj2dt_dev(struct dt_object *obj)
{
        return container_of0(obj->do_lu.lo_dev, struct dt_device, dd_lu_dev);
}

static inline struct lfsck_thread_info *
lfsck_env_info(const struct lu_env *env)
{
        struct lfsck_thread_info *info;

        info = lu_context_key_get(&env->le_ctx, &lfsck_thread_key);
        LASSERT(info != NULL);
        return info;
}

static inline const struct lu_name *
lfsck_name_get_const(const struct lu_env *env, const void *area, ssize_t len)
{
        struct lu_name *lname;

        lname = &lfsck_env_info(env)->lti_name_const;
        lname->ln_name = area;
        lname->ln_namelen = len;
        return lname;
}

static inline void
lfsck_buf_init(struct lu_buf *buf, void *area, ssize_t len)
{
        buf->lb_buf = area;
        buf->lb_len = len;
}

static inline struct lu_buf *
lfsck_buf_get(const struct lu_env *env, void *area, ssize_t len)
{
        struct lu_buf *buf;

        buf = &lfsck_env_info(env)->lti_buf;
        buf->lb_buf = area;
        buf->lb_len = len;
        return buf;
}

static inline const struct lu_buf *
lfsck_buf_get_const(const struct lu_env *env, const void *area, ssize_t len)
{
        struct lu_buf *buf;

        buf = &lfsck_env_info(env)->lti_buf;
        buf->lb_buf = (void *)area;
        buf->lb_len = len;
        return buf;
}

static inline char *lfsck_lfsck2name(struct lfsck_instance *lfsck)
{
        return lfsck->li_bottom->dd_lu_dev.ld_obd->obd_name;
}

static inline const struct lu_fid *lfsck_dto2fid(const struct dt_object *obj)
{
        return lu_object_fid(&obj->do_lu);
}

static inline void lfsck_pos_set_zero(struct lfsck_position *pos)
{
        memset(pos, 0, sizeof(*pos));
}

static inline int lfsck_pos_is_zero(const struct lfsck_position *pos)
{
        return pos->lp_oit_cookie == 0 && fid_is_zero(&pos->lp_dir_parent);
}

static inline int lfsck_pos_is_eq(const struct lfsck_position *pos1,
                                  const struct lfsck_position *pos2)
{
        if (pos1->lp_oit_cookie < pos2->lp_oit_cookie)
                return -1;

        if (pos1->lp_oit_cookie > pos2->lp_oit_cookie)
                return 1;

        if (fid_is_zero(&pos1->lp_dir_parent) &&
            !fid_is_zero(&pos2->lp_dir_parent))
                return -1;

        if (!fid_is_zero(&pos1->lp_dir_parent) &&
            fid_is_zero(&pos2->lp_dir_parent))
                return 1;

        if (fid_is_zero(&pos1->lp_dir_parent) &&
            fid_is_zero(&pos2->lp_dir_parent))
                return 0;

        LASSERT(lu_fid_eq(&pos1->lp_dir_parent, &pos2->lp_dir_parent));

        if (pos1->lp_dir_cookie < pos2->lp_dir_cookie)
                return -1;

        if (pos1->lp_dir_cookie > pos2->lp_dir_cookie)
                return 1;

        return 0;
}

static void inline lfsck_position_le_to_cpu(struct lfsck_position *des,
                                            struct lfsck_position *src)
{
        des->lp_oit_cookie = le64_to_cpu(src->lp_oit_cookie);
        fid_le_to_cpu(&des->lp_dir_parent, &src->lp_dir_parent);
        des->lp_dir_cookie = le64_to_cpu(src->lp_dir_cookie);
}

static void inline lfsck_position_cpu_to_le(struct lfsck_position *des,
                                            struct lfsck_position *src)
{
        des->lp_oit_cookie = cpu_to_le64(src->lp_oit_cookie);
        fid_cpu_to_le(&des->lp_dir_parent, &src->lp_dir_parent);
        des->lp_dir_cookie = cpu_to_le64(src->lp_dir_cookie);
}

static inline umode_t lfsck_object_type(const struct dt_object *obj)
{
        return lu_object_attr(&obj->do_lu);
}

static inline int lfsck_is_dead_obj(const struct dt_object *obj)
{
        struct lu_object_header *loh = obj->do_lu.lo_header;

        return !!test_bit(LU_OBJECT_HEARD_BANSHEE, &loh->loh_flags);
}

static inline struct dt_object *lfsck_object_get(struct dt_object *obj)
{
        lu_object_get(&obj->do_lu);
        return obj;
}

static inline void lfsck_object_put(const struct lu_env *env,
                                    struct dt_object *obj)
{
        lu_object_put(env, &obj->do_lu);
}

static inline u32 lfsck_dev_idx(struct dt_device *dev)
{
        return dev->dd_lu_dev.ld_site->ld_seq_site->ss_node_id;
}

static inline struct dt_object *
lfsck_object_find_by_dev_nowait(const struct lu_env *env, struct dt_device *dev,
                                const struct lu_fid *fid)
{
        struct lu_object_conf   *conf = &lfsck_env_info(env)->lti_conf;

        conf->loc_flags = LOC_F_NOWAIT;
        return lu2dt(lu_object_find_slice(env, dt2lu_dev(dev), fid, conf));
}

static inline struct dt_object *
lfsck_object_find_by_dev(const struct lu_env *env, struct dt_device *dev,
                         const struct lu_fid *fid)
{
        return lu2dt(lu_object_find_slice(env, dt2lu_dev(dev), fid, NULL));
}

static inline struct dt_object *lfsck_object_find(const struct lu_env *env,
                                                  struct lfsck_instance *lfsck,
                                                  const struct lu_fid *fid)
{
        return lfsck_object_find_by_dev(env, lfsck->li_next, fid);
}

static inline struct dt_device *
lfsck_find_dev_by_fid(const struct lu_env *env, struct lfsck_instance *lfsck,
                      const struct lu_fid *fid)
{
        struct dt_device *dev;
        int               idx;

        idx = lfsck_find_mdt_idx_by_fid(env, lfsck, fid);
        if (idx < 0)
                return ERR_PTR(idx);

        if (idx == lfsck_dev_idx(lfsck->li_bottom)) {
                dev = lfsck->li_bottom;
        } else {
                struct lfsck_tgt_desc *ltd;

                ltd = LTD_TGT(&lfsck->li_mdt_descs, idx);
                if (unlikely(ltd == NULL))
                        return ERR_PTR(-ENODEV);

                dev = ltd->ltd_tgt;
        }

        return dev;
}

static inline struct dt_object *
lfsck_object_find_bottom(const struct lu_env *env, struct lfsck_instance *lfsck,
                         const struct lu_fid *fid)
{
        struct dt_device *dev;

        dev = lfsck_find_dev_by_fid(env, lfsck, fid);
        if (IS_ERR(dev))
                return (struct dt_object *)dev;

        return lfsck_object_find_by_dev(env, dev, fid);
}

static inline struct dt_object *
lfsck_object_find_bottom_nowait(const struct lu_env *env,
                                struct lfsck_instance *lfsck,
                                const struct lu_fid *fid)
{
        struct dt_device *dev;

        dev = lfsck_find_dev_by_fid(env, lfsck, fid);
        if (IS_ERR(dev))
                return (struct dt_object *)dev;

        return lfsck_object_find_by_dev_nowait(env, dev, fid);
}

static inline struct lfsck_tgt_desc *lfsck_tgt_get(struct lfsck_tgt_descs *ltds,
                                                   __u32 index)
{
        struct lfsck_tgt_desc *ltd;

        ltd = LTD_TGT(ltds, index);
        if (ltd != NULL)
                atomic_inc(&ltd->ltd_ref);

        return ltd;
}

static inline void lfsck_tgt_put(struct lfsck_tgt_desc *ltd)
{
        if (atomic_dec_and_test(&ltd->ltd_ref))
                OBD_FREE_PTR(ltd);
}

static inline struct lfsck_component *
lfsck_component_get(struct lfsck_component *com)
{
        atomic_inc(&com->lc_ref);

        return com;
}

static inline void lfsck_component_put(const struct lu_env *env,
                                       struct lfsck_component *com)
{
        if (atomic_dec_and_test(&com->lc_ref)) {
                if (com->lc_obj != NULL)
                        lu_object_put_nocache(env, &com->lc_obj->do_lu);
                if (com->lc_file_ram != NULL)
                        OBD_FREE(com->lc_file_ram, com->lc_file_size);
                if (com->lc_file_disk != NULL)
                        OBD_FREE(com->lc_file_disk, com->lc_file_size);
                if (com->lc_data != NULL) {
                        LASSERT(com->lc_ops->lfsck_data_release != NULL);

                        com->lc_ops->lfsck_data_release(env, com);
                }

                OBD_FREE_PTR(com);
        }
}

static inline struct lfsck_instance *
lfsck_instance_get(struct lfsck_instance *lfsck)
{
        atomic_inc(&lfsck->li_ref);

        return lfsck;
}

static inline void lfsck_instance_put(const struct lu_env *env,
                                      struct lfsck_instance *lfsck)
{
        if (atomic_dec_and_test(&lfsck->li_ref))
                lfsck_instance_cleanup(env, lfsck);
}

static inline bool lfsck_phase2_next_ready(struct lfsck_assistant_data *lad)
{
        return list_empty(&lad->lad_mdt_phase1_list) &&
               (!list_empty(&lad->lad_ost_phase2_list) ||
                list_empty(&lad->lad_ost_phase1_list));
}

static inline void lfsck_lad_set_bitmap(const struct lu_env *env,
                                        struct lfsck_component *com,
                                        __u32 index)
{
        struct lfsck_assistant_data     *lad    = com->lc_data;
        cfs_bitmap_t                    *bitmap = lad->lad_bitmap;

        LASSERT(com->lc_lfsck->li_master);
        LASSERT(bitmap != NULL);

        if (likely(bitmap->size > index)) {
                cfs_bitmap_set(bitmap, index);
                lad->lad_incomplete = 1;
        } else if (com->lc_type == LFSCK_TYPE_NAMESPACE) {
                struct lfsck_namespace *ns = com->lc_file_ram;

                ns->ln_flags |= LF_INCOMPLETE;
        }
}

static inline int lfsck_links_read(const struct lu_env *env,
                                   struct dt_object *obj,
                                   struct linkea_data *ldata)
{
        ldata->ld_buf =
                lu_buf_check_and_alloc(&lfsck_env_info(env)->lti_linkea_buf,
                                       PAGE_CACHE_SIZE);

        return __lfsck_links_read(env, obj, ldata);
}

static inline int lfsck_links_read2(const struct lu_env *env,
                                    struct dt_object *obj,
                                    struct linkea_data *ldata)
{
        ldata->ld_buf =
                lu_buf_check_and_alloc(&lfsck_env_info(env)->lti_linkea_buf2,
                                       PAGE_CACHE_SIZE);

        return __lfsck_links_read(env, obj, ldata);
}

static inline struct lfsck_lmv *lfsck_lmv_get(struct lfsck_lmv *llmv)
{
        if (llmv != NULL)
                atomic_inc(&llmv->ll_ref);

        return llmv;
}

static inline void lfsck_lmv_header_le_to_cpu(struct lmv_mds_md_v1 *dst,
                                              const struct lmv_mds_md_v1 *src)
{
        dst->lmv_magic = le32_to_cpu(src->lmv_magic);
        dst->lmv_stripe_count = le32_to_cpu(src->lmv_stripe_count);
        dst->lmv_master_mdt_index = le32_to_cpu(src->lmv_master_mdt_index);
        dst->lmv_hash_type = le32_to_cpu(src->lmv_hash_type);
        dst->lmv_layout_version = le32_to_cpu(src->lmv_layout_version);
}

static inline void lfsck_lmv_header_cpu_to_le(struct lmv_mds_md_v1 *dst,
                                              const struct lmv_mds_md_v1 *src)
{
        dst->lmv_magic = cpu_to_le32(src->lmv_magic);
        dst->lmv_stripe_count = cpu_to_le32(src->lmv_stripe_count);
        dst->lmv_master_mdt_index = cpu_to_le32(src->lmv_master_mdt_index);
        dst->lmv_hash_type = cpu_to_le32(src->lmv_hash_type);
        dst->lmv_layout_version = cpu_to_le32(src->lmv_layout_version);
}
#endif /* _LFSCK_INTERNAL_H */