LU-5557 mdt: track reint operations in MDS service stats

[fs/lustre-release.git] / lustre / include / lustre_disk.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 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) 2007, 2010, Oracle and/or its affiliates. All rights reserved.
 * Use is subject to license terms.
 *
 * Copyright (c) 2011, 2013, Intel Corporation.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * lustre/include/lustre_disk.h
 *
 * Lustre disk format definitions.
 *
 * Author: Nathan Rutman <nathan@clusterfs.com>
 */

#ifndef _LUSTRE_DISK_H
#define _LUSTRE_DISK_H

/** \defgroup disk disk
 *
 * @{
 */

#include <libcfs/libcfs.h>
#include <lnet/types.h>

/****************** on-disk files *********************/

#define MDT_LOGS_DIR            "LOGS"  /* COMPAT_146 */
#define MOUNT_CONFIGS_DIR       "CONFIGS"
#define CONFIGS_FILE            "mountdata"
/** Persistent mount data are stored on the disk in this file. */
#define MOUNT_DATA_FILE         MOUNT_CONFIGS_DIR"/"CONFIGS_FILE
#define LAST_RCVD               "last_rcvd"
#define LOV_OBJID               "lov_objid"
#define LOV_OBJSEQ              "lov_objseq"
#define HEALTH_CHECK            "health_check"
#define CAPA_KEYS               "capa_keys"
#define CHANGELOG_USERS         "changelog_users"
#define MGS_NIDTBL_DIR          "NIDTBL_VERSIONS"
#define QMT_DIR                 "quota_master"
#define QSD_DIR                 "quota_slave"
#define HSM_ACTIONS             "hsm_actions"

/****************** persistent mount data *********************/

#define LDD_F_SV_TYPE_MDT   0x0001
#define LDD_F_SV_TYPE_OST   0x0002
#define LDD_F_SV_TYPE_MGS   0x0004
#define LDD_F_SV_TYPE_MASK (LDD_F_SV_TYPE_MDT  | \
                            LDD_F_SV_TYPE_OST  | \
                            LDD_F_SV_TYPE_MGS)
#define LDD_F_SV_ALL        0x0008
/** need an index assignment */
#define LDD_F_NEED_INDEX    0x0010
/** never registered */
#define LDD_F_VIRGIN        0x0020
/** update the config logs for this server */
#define LDD_F_UPDATE        0x0040
/** rewrite the LDD */
#define LDD_F_REWRITE_LDD   0x0080
/** regenerate config logs for this fs or server */
#define LDD_F_WRITECONF     0x0100
/** COMPAT_14 */
#define LDD_F_UPGRADE14     0x0200
/** process as lctl conf_param */
#define LDD_F_PARAM         0x0400
/** all nodes are specified as service nodes */
#define LDD_F_NO_PRIMNODE   0x1000
/** IR enable flag */
#define LDD_F_IR_CAPABLE    0x2000
/** the MGS refused to register the target. */
#define LDD_F_ERROR         0x4000
/** process at lctl conf_param */
#define LDD_F_PARAM2            0x8000

/* opc for target register */
#define LDD_F_OPC_REG   0x10000000
#define LDD_F_OPC_UNREG 0x20000000
#define LDD_F_OPC_READY 0x40000000
#define LDD_F_OPC_MASK  0xf0000000

#define LDD_F_ONDISK_MASK  (LDD_F_SV_TYPE_MASK)

#define LDD_F_MASK          0xFFFF

enum ldd_mount_type {
        LDD_MT_EXT3 = 0,
        LDD_MT_LDISKFS,
        LDD_MT_SMFS,
        LDD_MT_REISERFS,
        LDD_MT_LDISKFS2,
        LDD_MT_ZFS,
        LDD_MT_LAST
};

static inline char *mt_str(enum ldd_mount_type mt)
{
        static char *mount_type_string[] = {
                "ext3",
                "ldiskfs",
                "smfs",
                "reiserfs",
                "ldiskfs2",
                "zfs",
        };
        return mount_type_string[mt];
}

static inline char *mt_type(enum ldd_mount_type mt)
{
        static char *mount_type_string[] = {
                "osd-ldiskfs",
                "osd-ldiskfs",
                "osd-smfs",
                "osd-reiserfs",
                "osd-ldiskfs",
                "osd-zfs",
        };
        return mount_type_string[mt];
}

#define LDD_INCOMPAT_SUPP 0
#define LDD_ROCOMPAT_SUPP 0

#define LDD_MAGIC 0x1dd00001

/* On-disk configuration file. In host-endian order. */
struct lustre_disk_data {
        __u32      ldd_magic;
        __u32      ldd_feature_compat;  /* compatible feature flags */
        __u32      ldd_feature_rocompat;/* read-only compatible feature flags */
        __u32      ldd_feature_incompat;/* incompatible feature flags */

        __u32      ldd_config_ver;      /* config rewrite count - not used */
        __u32      ldd_flags;           /* LDD_SV_TYPE */
        __u32      ldd_svindex;         /* server index (0001), must match
                                           svname */
        __u32      ldd_mount_type;      /* target fs type LDD_MT_* */
        char       ldd_fsname[64];      /* filesystem this server is part of,
                                           MTI_NAME_MAXLEN */
        char       ldd_svname[64];      /* this server's name (lustre-mdt0001)*/
        __u8       ldd_uuid[40];        /* server UUID (COMPAT_146) */

/*200*/ char       ldd_userdata[1024 - 200]; /* arbitrary user string */
/*1024*/__u8       ldd_padding[4096 - 1024];
/*4096*/char       ldd_mount_opts[4096]; /* target fs mount opts */
/*8192*/char       ldd_params[4096];     /* key=value pairs */
};


#define IS_MDT(data)    ((data)->lsi_flags & LDD_F_SV_TYPE_MDT)
#define IS_OST(data)    ((data)->lsi_flags & LDD_F_SV_TYPE_OST)
#define IS_MGS(data)    ((data)->lsi_flags & LDD_F_SV_TYPE_MGS)
#define IS_SERVER(data) ((data)->lsi_flags & (LDD_F_SV_TYPE_MGS | \
                         LDD_F_SV_TYPE_MDT | LDD_F_SV_TYPE_OST))
#define MT_STR(data)    mt_str((data)->ldd_mount_type)

/* Make the mdt/ost server obd name based on the filesystem name */
static inline int server_make_name(__u32 flags, __u16 index, char *fs,
                                   char *name)
{
        if (flags & (LDD_F_SV_TYPE_MDT | LDD_F_SV_TYPE_OST)) {
                if (!(flags & LDD_F_SV_ALL))
                        sprintf(name, "%.8s%c%s%04x", fs,
                                (flags & LDD_F_VIRGIN) ? ':' :
                                        ((flags & LDD_F_WRITECONF) ? '=' : '-'),
                                (flags & LDD_F_SV_TYPE_MDT) ? "MDT" : "OST",
                                index);
        } else if (flags & LDD_F_SV_TYPE_MGS) {
                sprintf(name, "MGS");
        } else {
                CERROR("unknown server type %#x\n", flags);
                return 1;
        }
        return 0;
}

/****************** mount command *********************/

/* The lmd is only used internally by Lustre; mount simply passes
   everything as string options */

#define LMD_MAGIC               0xbdacbd03
#define LMD_PARAMS_MAXLEN       4096

/* gleaned from the mount command - no persistent info here */
struct lustre_mount_data {
        __u32      lmd_magic;
        __u32      lmd_flags;         /* lustre mount flags */
        int        lmd_mgs_failnodes; /* mgs failover node count */
        int        lmd_exclude_count;
        int        lmd_recovery_time_soft;
        int        lmd_recovery_time_hard;
        char      *lmd_dev;           /* device name */
        char      *lmd_profile;       /* client only */
        char      *lmd_mgssec;        /* sptlrpc flavor to mgs */
        char      *lmd_opts;          /* lustre mount options (as opposed to
                                         _device_ mount options) */
        char      *lmd_params;        /* lustre params */
        __u32     *lmd_exclude;       /* array of OSTs to ignore */
        char    *lmd_mgs;           /* MGS nid */
        char    *lmd_osd_type;      /* OSD type */
};

#define LMD_FLG_SERVER          0x0001  /* Mounting a server */
#define LMD_FLG_CLIENT          0x0002  /* Mounting a client */
#define LMD_FLG_ABORT_RECOV     0x0008  /* Abort recovery */
#define LMD_FLG_NOSVC           0x0010  /* Only start MGS/MGC for servers,
                                           no other services */
#define LMD_FLG_NOMGS           0x0020  /* Only start target for servers, reusing
                                           existing MGS services */
#define LMD_FLG_WRITECONF       0x0040  /* Rewrite config log */
#define LMD_FLG_NOIR            0x0080  /* NO imperative recovery */
#define LMD_FLG_NOSCRUB         0x0100  /* Do not trigger scrub automatically */
#define LMD_FLG_MGS             0x0200  /* Also start MGS along with server */
#define LMD_FLG_IAM             0x0400  /* IAM dir */
#define LMD_FLG_NO_PRIMNODE     0x0800  /* all nodes are service nodes */
#define LMD_FLG_VIRGIN          0x1000  /* the service registers first time */
#define LMD_FLG_UPDATE          0x2000  /* update parameters */
#define LMD_FLG_HSM             0x4000  /* Start coordinator */

#define lmd_is_client(x) ((x)->lmd_flags & LMD_FLG_CLIENT)


/****************** last_rcvd file *********************/

/** version recovery epoch */
#define LR_EPOCH_BITS   32
#define lr_epoch(a) ((a) >> LR_EPOCH_BITS)
#define LR_EXPIRE_INTERVALS 16 /**< number of intervals to track transno */
#define ENOENT_VERSION 1 /** 'virtual' version of non-existent object */

#define LR_SERVER_SIZE   512
#define LR_CLIENT_START 8192
#define LR_CLIENT_SIZE   128
#if LR_CLIENT_START < LR_SERVER_SIZE
#error "Can't have LR_CLIENT_START < LR_SERVER_SIZE"
#endif

/*
 * This limit is arbitrary (131072 clients on x86), but it is convenient to use
 * 2^n * PAGE_CACHE_SIZE * 8 for the number of bits that fit an order-n allocation.
 * If we need more than 131072 clients (order-2 allocation on x86) then this
 * should become an array of single-page pointers that are allocated on demand.
 */
#if (128 * 1024UL) > (PAGE_CACHE_SIZE * 8)
#define LR_MAX_CLIENTS (128 * 1024UL)
#else
#define LR_MAX_CLIENTS (PAGE_CACHE_SIZE * 8)
#endif

/** COMPAT_146: this is an OST (temporary) */
#define OBD_COMPAT_OST          0x00000002
/** COMPAT_146: this is an MDT (temporary) */
#define OBD_COMPAT_MDT          0x00000004
/** 2.0 server, interop flag to show server version is changed */
#define OBD_COMPAT_20           0x00000008

/** MDS handles LOV_OBJID file */
#define OBD_ROCOMPAT_LOVOBJID   0x00000001

/** OST handles group subdirs */
#define OBD_INCOMPAT_GROUPS     0x00000001
/** this is an OST */
#define OBD_INCOMPAT_OST        0x00000002
/** this is an MDT */
#define OBD_INCOMPAT_MDT        0x00000004
/** common last_rvcd format */
#define OBD_INCOMPAT_COMMON_LR  0x00000008
/** FID is enabled */
#define OBD_INCOMPAT_FID        0x00000010
/** Size-on-MDS is enabled */
#define OBD_INCOMPAT_SOM        0x00000020
/** filesystem using iam format to store directory entries */
#define OBD_INCOMPAT_IAM_DIR    0x00000040
/** LMA attribute contains per-inode incompatible flags */
#define OBD_INCOMPAT_LMA        0x00000080
/** lmm_stripe_count has been shrunk from __u32 to __u16 and the remaining 16
 * bits are now used to store a generation. Once we start changing the layout
 * and bumping the generation, old versions expecting a 32-bit lmm_stripe_count
 * will be confused by interpreting stripe_count | gen << 16 as the actual
 * stripe count */
#define OBD_INCOMPAT_LMM_VER    0x00000100
/** multiple OI files for MDT */
#define OBD_INCOMPAT_MULTI_OI   0x00000200

/* Data stored per server at the head of the last_rcvd file.  In le32 order.
   This should be common to filter_internal.h, lustre_mds.h */
struct lr_server_data {
        __u8  lsd_uuid[40];        /* server UUID */
        __u64 lsd_last_transno;    /* last completed transaction ID */
        __u64 lsd_compat14;        /* reserved - compat with old last_rcvd */
        __u64 lsd_mount_count;     /* incarnation number */
        __u32 lsd_feature_compat;  /* compatible feature flags */
        __u32 lsd_feature_rocompat;/* read-only compatible feature flags */
        __u32 lsd_feature_incompat;/* incompatible feature flags */
        __u32 lsd_server_size;     /* size of server data area */
        __u32 lsd_client_start;    /* start of per-client data area */
        __u16 lsd_client_size;     /* size of per-client data area */
        __u16 lsd_subdir_count;    /* number of subdirectories for objects */
        __u64 lsd_catalog_oid;     /* recovery catalog object id */
        __u32 lsd_catalog_ogen;    /* recovery catalog inode generation */
        __u8  lsd_peeruuid[40];    /* UUID of MDS associated with this OST */
        __u32 lsd_osd_index;       /* index number of OST in LOV */
        __u32 lsd_padding1;        /* was lsd_mdt_index, unused in 2.4.0 */
        __u32 lsd_start_epoch;     /* VBR: start epoch from last boot */
        /** transaction values since lsd_trans_table_time */
        __u64 lsd_trans_table[LR_EXPIRE_INTERVALS];
        /** start point of transno table below */
        __u32 lsd_trans_table_time; /* time of first slot in table above */
        __u32 lsd_expire_intervals; /* LR_EXPIRE_INTERVALS */
        __u8  lsd_padding[LR_SERVER_SIZE - 288];
};

/* Data stored per client in the last_rcvd file.  In le32 order. */
struct lsd_client_data {
        __u8  lcd_uuid[40];      /* client UUID */
        __u64 lcd_last_transno; /* last completed transaction ID */
        __u64 lcd_last_xid;     /* xid for the last transaction */
        __u32 lcd_last_result;  /* result from last RPC */
        __u32 lcd_last_data;    /* per-op data (disposition for open &c.) */
        /* for MDS_CLOSE requests */
        __u64 lcd_last_close_transno; /* last completed transaction ID */
        __u64 lcd_last_close_xid;     /* xid for the last transaction */
        __u32 lcd_last_close_result;  /* result from last RPC */
        __u32 lcd_last_close_data;    /* per-op data */
        /* VBR: last versions */
        __u64 lcd_pre_versions[4];
        __u32 lcd_last_epoch;
        /** orphans handling for delayed export rely on that */
        __u32 lcd_first_epoch;
        __u8  lcd_padding[LR_CLIENT_SIZE - 128];
};

/* bug20354: the lcd_uuid for export of clients may be wrong */
static inline void check_lcd(char *obd_name, int index,
                             struct lsd_client_data *lcd)
{
        size_t length = sizeof(lcd->lcd_uuid);
        if (strnlen((char*)lcd->lcd_uuid, length) == length) {
                lcd->lcd_uuid[length - 1] = '\0';

                LCONSOLE_ERROR("the client UUID (%s) on %s for exports"
                               "stored in last_rcvd(index = %d) is bad!\n",
                               lcd->lcd_uuid, obd_name, index);
        }
}

/* last_rcvd handling */
static inline void lsd_le_to_cpu(struct lr_server_data *buf,
                                 struct lr_server_data *lsd)
{
        int i;
        memcpy(lsd->lsd_uuid, buf->lsd_uuid, sizeof(lsd->lsd_uuid));
        lsd->lsd_last_transno     = le64_to_cpu(buf->lsd_last_transno);
        lsd->lsd_compat14         = le64_to_cpu(buf->lsd_compat14);
        lsd->lsd_mount_count      = le64_to_cpu(buf->lsd_mount_count);
        lsd->lsd_feature_compat   = le32_to_cpu(buf->lsd_feature_compat);
        lsd->lsd_feature_rocompat = le32_to_cpu(buf->lsd_feature_rocompat);
        lsd->lsd_feature_incompat = le32_to_cpu(buf->lsd_feature_incompat);
        lsd->lsd_server_size      = le32_to_cpu(buf->lsd_server_size);
        lsd->lsd_client_start     = le32_to_cpu(buf->lsd_client_start);
        lsd->lsd_client_size      = le16_to_cpu(buf->lsd_client_size);
        lsd->lsd_subdir_count     = le16_to_cpu(buf->lsd_subdir_count);
        lsd->lsd_catalog_oid      = le64_to_cpu(buf->lsd_catalog_oid);
        lsd->lsd_catalog_ogen     = le32_to_cpu(buf->lsd_catalog_ogen);
        memcpy(lsd->lsd_peeruuid, buf->lsd_peeruuid, sizeof(lsd->lsd_peeruuid));
        lsd->lsd_osd_index        = le32_to_cpu(buf->lsd_osd_index);
        lsd->lsd_padding1        = le32_to_cpu(buf->lsd_padding1);
        lsd->lsd_start_epoch      = le32_to_cpu(buf->lsd_start_epoch);
        for (i = 0; i < LR_EXPIRE_INTERVALS; i++)
                lsd->lsd_trans_table[i] = le64_to_cpu(buf->lsd_trans_table[i]);
        lsd->lsd_trans_table_time = le32_to_cpu(buf->lsd_trans_table_time);
        lsd->lsd_expire_intervals = le32_to_cpu(buf->lsd_expire_intervals);
}

static inline void lsd_cpu_to_le(struct lr_server_data *lsd,
                                 struct lr_server_data *buf)
{
        int i;
        memcpy(buf->lsd_uuid, lsd->lsd_uuid, sizeof(buf->lsd_uuid));
        buf->lsd_last_transno     = cpu_to_le64(lsd->lsd_last_transno);
        buf->lsd_compat14         = cpu_to_le64(lsd->lsd_compat14);
        buf->lsd_mount_count      = cpu_to_le64(lsd->lsd_mount_count);
        buf->lsd_feature_compat   = cpu_to_le32(lsd->lsd_feature_compat);
        buf->lsd_feature_rocompat = cpu_to_le32(lsd->lsd_feature_rocompat);
        buf->lsd_feature_incompat = cpu_to_le32(lsd->lsd_feature_incompat);
        buf->lsd_server_size      = cpu_to_le32(lsd->lsd_server_size);
        buf->lsd_client_start     = cpu_to_le32(lsd->lsd_client_start);
        buf->lsd_client_size      = cpu_to_le16(lsd->lsd_client_size);
        buf->lsd_subdir_count     = cpu_to_le16(lsd->lsd_subdir_count);
        buf->lsd_catalog_oid      = cpu_to_le64(lsd->lsd_catalog_oid);
        buf->lsd_catalog_ogen     = cpu_to_le32(lsd->lsd_catalog_ogen);
        memcpy(buf->lsd_peeruuid, lsd->lsd_peeruuid, sizeof(buf->lsd_peeruuid));
        buf->lsd_osd_index        = cpu_to_le32(lsd->lsd_osd_index);
        buf->lsd_padding1         = cpu_to_le32(lsd->lsd_padding1);
        buf->lsd_start_epoch      = cpu_to_le32(lsd->lsd_start_epoch);
        for (i = 0; i < LR_EXPIRE_INTERVALS; i++)
                buf->lsd_trans_table[i] = cpu_to_le64(lsd->lsd_trans_table[i]);
        buf->lsd_trans_table_time = cpu_to_le32(lsd->lsd_trans_table_time);
        buf->lsd_expire_intervals = cpu_to_le32(lsd->lsd_expire_intervals);
}

static inline void lcd_le_to_cpu(struct lsd_client_data *buf,
                                 struct lsd_client_data *lcd)
{
        memcpy(lcd->lcd_uuid, buf->lcd_uuid, sizeof (lcd->lcd_uuid));
        lcd->lcd_last_transno       = le64_to_cpu(buf->lcd_last_transno);
        lcd->lcd_last_xid           = le64_to_cpu(buf->lcd_last_xid);
        lcd->lcd_last_result        = le32_to_cpu(buf->lcd_last_result);
        lcd->lcd_last_data          = le32_to_cpu(buf->lcd_last_data);
        lcd->lcd_last_close_transno = le64_to_cpu(buf->lcd_last_close_transno);
        lcd->lcd_last_close_xid     = le64_to_cpu(buf->lcd_last_close_xid);
        lcd->lcd_last_close_result  = le32_to_cpu(buf->lcd_last_close_result);
        lcd->lcd_last_close_data    = le32_to_cpu(buf->lcd_last_close_data);
        lcd->lcd_pre_versions[0]    = le64_to_cpu(buf->lcd_pre_versions[0]);
        lcd->lcd_pre_versions[1]    = le64_to_cpu(buf->lcd_pre_versions[1]);
        lcd->lcd_pre_versions[2]    = le64_to_cpu(buf->lcd_pre_versions[2]);
        lcd->lcd_pre_versions[3]    = le64_to_cpu(buf->lcd_pre_versions[3]);
        lcd->lcd_last_epoch         = le32_to_cpu(buf->lcd_last_epoch);
        lcd->lcd_first_epoch        = le32_to_cpu(buf->lcd_first_epoch);
}

static inline void lcd_cpu_to_le(struct lsd_client_data *lcd,
                                 struct lsd_client_data *buf)
{
        memcpy(buf->lcd_uuid, lcd->lcd_uuid, sizeof (lcd->lcd_uuid));
        buf->lcd_last_transno       = cpu_to_le64(lcd->lcd_last_transno);
        buf->lcd_last_xid           = cpu_to_le64(lcd->lcd_last_xid);
        buf->lcd_last_result        = cpu_to_le32(lcd->lcd_last_result);
        buf->lcd_last_data          = cpu_to_le32(lcd->lcd_last_data);
        buf->lcd_last_close_transno = cpu_to_le64(lcd->lcd_last_close_transno);
        buf->lcd_last_close_xid     = cpu_to_le64(lcd->lcd_last_close_xid);
        buf->lcd_last_close_result  = cpu_to_le32(lcd->lcd_last_close_result);
        buf->lcd_last_close_data    = cpu_to_le32(lcd->lcd_last_close_data);
        buf->lcd_pre_versions[0]    = cpu_to_le64(lcd->lcd_pre_versions[0]);
        buf->lcd_pre_versions[1]    = cpu_to_le64(lcd->lcd_pre_versions[1]);
        buf->lcd_pre_versions[2]    = cpu_to_le64(lcd->lcd_pre_versions[2]);
        buf->lcd_pre_versions[3]    = cpu_to_le64(lcd->lcd_pre_versions[3]);
        buf->lcd_last_epoch         = cpu_to_le32(lcd->lcd_last_epoch);
        buf->lcd_first_epoch        = cpu_to_le32(lcd->lcd_first_epoch);
}

static inline __u64 lcd_last_transno(struct lsd_client_data *lcd)
{
        return (lcd->lcd_last_transno > lcd->lcd_last_close_transno ?
                lcd->lcd_last_transno : lcd->lcd_last_close_transno);
}

static inline __u64 lcd_last_xid(struct lsd_client_data *lcd)
{
        return (lcd->lcd_last_xid > lcd->lcd_last_close_xid ?
                lcd->lcd_last_xid : lcd->lcd_last_close_xid);
}

/****************** superblock additional info *********************/
#ifdef __KERNEL__

struct ll_sb_info;

struct lustre_sb_info {
        int                       lsi_flags;
        struct obd_device        *lsi_mgc;     /* mgc obd */
        struct lustre_mount_data *lsi_lmd;     /* mount command info */
        struct ll_sb_info        *lsi_llsbi;   /* add'l client sbi info */
        struct dt_device         *lsi_dt_dev;  /* dt device to access disk fs*/
        atomic_t                  lsi_mounts;  /* references to the srv_mnt */
        char                      lsi_svname[MTI_NAME_MAXLEN];
        char                      lsi_osd_obdname[64];
        char                      lsi_osd_uuid[64];
        struct obd_export        *lsi_osd_exp;
        char                      lsi_osd_type[16];
        char                      lsi_fstype[16];
        struct backing_dev_info   lsi_bdi;     /* each client mountpoint needs
                                                  own backing_dev_info */
        struct list_head          lsi_lwp_list;
        spinlock_t                lsi_lwp_lock;
        unsigned long             lsi_lwp_started:1;
};

#define LSI_UMOUNT_FAILOVER              0x00200000
#define LSI_BDI_INITIALIZED              0x00400000

#define     s2lsi(sb)        ((struct lustre_sb_info *)((sb)->s_fs_info))
#define     s2lsi_nocast(sb) ((sb)->s_fs_info)

#define     get_profile_name(sb)   (s2lsi(sb)->lsi_lmd->lmd_profile)
#define     get_mount_flags(sb)    (s2lsi(sb)->lsi_lmd->lmd_flags)
#define     get_mntdev_name(sb)    (s2lsi(sb)->lsi_lmd->lmd_dev)

#endif /* __KERNEL__ */

/****************** mount lookup info *********************/

struct lustre_mount_info {
        char                    *lmi_name;
        struct super_block      *lmi_sb;
        struct list_head         lmi_list_chain;
};

/****************** prototypes *********************/

#ifdef __KERNEL__
/* obd_mount.c */
int server_name2fsname(const char *svname, char *fsname, const char **endptr);
int server_name2svname(const char *label, char *svname, const char **endptr,
                       size_t svsize);
int server_name_is_ost(const char *svname);
int target_name2index(const char *svname, __u32 *idx, const char **endptr);

int lustre_put_lsi(struct super_block *sb);
int lustre_start_simple(char *obdname, char *type, char *uuid,
                        char *s1, char *s2, char *s3, char *s4);
int lustre_start_mgc(struct super_block *sb);
void lustre_register_client_fill_super(int (*cfs)(struct super_block *sb,
                                                  struct vfsmount *mnt));
void lustre_register_kill_super_cb(void (*cfs)(struct super_block *sb));
int lustre_common_put_super(struct super_block *sb);

# ifdef HAVE_SERVER_SUPPORT
/* obd_mount_server.c */
int server_fill_super(struct super_block *sb);
struct lustre_mount_info *server_get_mount(const char *name);
int server_put_mount(const char *name, bool dereg_mnt);
struct mgs_target_info;
int server_mti_print(const char *title, struct mgs_target_info *mti);
void server_calc_timeout(struct lustre_sb_info *lsi, struct obd_device *obd);
# endif

int mgc_fsname2resid(char *fsname, struct ldlm_res_id *res_id, int type);
#endif /* __KERNEL__ */

/** @} disk */

#endif // _LUSTRE_DISK_H