LU-5519 lfsck: repair master LMV for striped directory

[fs/lustre-release.git] / lustre / osp / osp_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 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) 2012, 2013, Intel Corporation.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * lustre/osp/osp_internal.h
 *
 * Author: Alex Zhuravlev <alexey.zhuravlev@intel.com>
 */

#ifndef _OSP_INTERNAL_H
#define _OSP_INTERNAL_H

#include <obd.h>
#include <obd_class.h>
#include <dt_object.h>
#include <md_object.h>
#include <lustre_fid.h>
#include <lustre_update.h>
#include <lu_target.h>

/*
 * Infrastructure to support tracking of last committed llog record
 */
struct osp_id_tracker {
        spinlock_t               otr_lock;
        __u32                    otr_next_id;
        __u32                    otr_committed_id;
        /* callback is register once per diskfs -- that's the whole point */
        struct dt_txn_callback   otr_tx_cb;
        /* single node can run many clusters */
        struct list_head         otr_wakeup_list;
        struct list_head         otr_list;
        /* underlying shared device */
        struct dt_device        *otr_dev;
        /* how many users of this tracker */
        atomic_t                 otr_refcount;
};

struct osp_precreate {
        /*
         * Precreation pool
         */
        spinlock_t                       osp_pre_lock;

        /* last fid to assign in creation */
        struct lu_fid                    osp_pre_used_fid;
        /* last created id OST reported, next-created - available id's */
        struct lu_fid                    osp_pre_last_created_fid;
        /* how many ids are reserved in declare, we shouldn't block in create */
        __u64                            osp_pre_reserved;
        /* consumers (who needs new ids) wait here */
        wait_queue_head_t                osp_pre_user_waitq;
        /* current precreation status: working, failed, stopping? */
        int                              osp_pre_status;
        /* how many to precreate next time */
        int                              osp_pre_grow_count;
        int                              osp_pre_min_grow_count;
        int                              osp_pre_max_grow_count;
        /* whether to grow precreation window next time or not */
        int                              osp_pre_grow_slow;
        /* cleaning up orphans or recreating missing objects */
        int                              osp_pre_recovering;
};

struct osp_device {
        struct dt_device                 opd_dt_dev;
        /* corresponded OST index */
        int                              opd_index;

        /* corrsponded MDT index, which will be used when connecting to OST
         * for validating the connection (see ofd_parse_connect_data) */
        int                              opd_group;
        /* device used to store persistent state (llogs, last ids) */
        struct obd_export               *opd_storage_exp;
        struct dt_device                *opd_storage;
        struct dt_object                *opd_last_used_oid_file;
        struct dt_object                *opd_last_used_seq_file;

        /* stored persistently in LE format, updated directly to/from disk
         * and required le64_to_cpu() conversion before use.
         * Protected by opd_pre_lock */
        struct lu_fid                   opd_last_used_fid;
        struct lu_fid                   opd_gap_start_fid;
        int                              opd_gap_count;
        /* connection to OST */
        struct obd_device               *opd_obd;
        struct obd_export               *opd_exp;
        struct obd_uuid                  opd_cluuid;
        struct obd_connect_data         *opd_connect_data;
        int                              opd_connects;
        struct proc_dir_entry           *opd_proc_entry;
        struct lprocfs_stats            *opd_stats;
        /* connection status. */
        unsigned int                     opd_new_connection:1,
                                         opd_got_disconnected:1,
                                         opd_imp_connected:1,
                                         opd_imp_active:1,
                                         opd_imp_seen_connected:1,
                                         opd_connect_mdt:1;

        /* whether local recovery is completed:
         * reported via ->ldo_recovery_complete() */
        int                              opd_recovery_completed;

        /* precreate structure for OSP */
        struct osp_precreate            *opd_pre;
        /* dedicate precreate thread */
        struct ptlrpc_thread             opd_pre_thread;
        /* thread waits for signals about pool going empty */
        wait_queue_head_t                opd_pre_waitq;

        /*
         * OST synchronization
         */
        spinlock_t                       opd_syn_lock;
        /* unique generation, to recognize start of new records in the llog */
        struct llog_gen                  opd_syn_generation;
        /* number of changes to sync, used to wake up sync thread */
        unsigned long                    opd_syn_changes;
        /* processing of changes from previous mount is done? */
        int                              opd_syn_prev_done;
        /* found records */
        struct ptlrpc_thread             opd_syn_thread;
        wait_queue_head_t                opd_syn_waitq;
        /* list of remotely committed rpc */
        struct list_head                 opd_syn_committed_there;
        /* number of changes being under sync */
        int                              opd_syn_sync_in_progress;
        /* number of RPCs in flight - flow control */
        int                              opd_syn_rpc_in_flight;
        int                              opd_syn_max_rpc_in_flight;
        /* number of RPC in processing (including non-committed by OST) */
        int                              opd_syn_rpc_in_progress;
        int                              opd_syn_max_rpc_in_progress;
        /* osd api's commit cb control structure */
        struct dt_txn_callback           opd_syn_txn_cb;
        /* last used change number -- semantically similar to transno */
        unsigned long                    opd_syn_last_used_id;
        /* last committed change number -- semantically similar to
         * last_committed */
        unsigned long                    opd_syn_last_committed_id;
        /* last processed (taken from llog) id */
        unsigned long                    opd_syn_last_processed_id;
        struct osp_id_tracker           *opd_syn_tracker;
        struct list_head                 opd_syn_ontrack;
        /* stop processing new requests until barrier=0 */
        atomic_t                         opd_syn_barrier;
        wait_queue_head_t                opd_syn_barrier_waitq;

        /*
         * statfs related fields: OSP maintains it on its own
         */
        struct obd_statfs                opd_statfs;
        cfs_time_t                       opd_statfs_fresh_till;
        struct timer_list                        opd_statfs_timer;
        int                              opd_statfs_update_in_progress;
        /* how often to update statfs data */
        int                              opd_statfs_maxage;

        struct proc_dir_entry           *opd_symlink;

        /* If the caller wants to do some idempotent async operations on
         * remote server, it can append the async remote requests on the
         * osp_device::opd_async_requests via declare() functions, these
         * requests can be packed together and sent to the remote server
         * via single OUT RPC later. */
        struct dt_update_request        *opd_async_requests;
        /* Protect current operations on opd_async_requests. */
        struct mutex                     opd_async_requests_mutex;
};

#define opd_pre_lock                    opd_pre->osp_pre_lock
#define opd_pre_used_fid                opd_pre->osp_pre_used_fid
#define opd_pre_last_created_fid        opd_pre->osp_pre_last_created_fid
#define opd_pre_reserved                opd_pre->osp_pre_reserved
#define opd_pre_user_waitq              opd_pre->osp_pre_user_waitq
#define opd_pre_status                  opd_pre->osp_pre_status
#define opd_pre_grow_count              opd_pre->osp_pre_grow_count
#define opd_pre_min_grow_count          opd_pre->osp_pre_min_grow_count
#define opd_pre_max_grow_count          opd_pre->osp_pre_max_grow_count
#define opd_pre_grow_slow               opd_pre->osp_pre_grow_slow
#define opd_pre_recovering              opd_pre->osp_pre_recovering

extern struct kmem_cache *osp_object_kmem;

/* The first part of oxe_buf is xattr name, and is '\0' terminated.
 * The left part is for value, binary mode. */
struct osp_xattr_entry {
        struct list_head         oxe_list;
        atomic_t                 oxe_ref;
        void                    *oxe_value;
        size_t                   oxe_buflen;
        size_t                   oxe_namelen;
        size_t                   oxe_vallen;
        unsigned int             oxe_exist:1,
                                 oxe_ready:1;
        char                     oxe_buf[0];
};

struct osp_object_attr {
        struct lu_attr          ooa_attr;
        struct list_head        ooa_xattr_list;
};

/* this is a top object */
struct osp_object {
        struct lu_object_header opo_header;
        struct dt_object        opo_obj;
        unsigned int            opo_reserved:1,
                                opo_new:1,
                                opo_non_exist:1;

        /* read/write lock for md osp object */
        struct rw_semaphore     opo_sem;
        const struct lu_env     *opo_owner;
        struct osp_object_attr *opo_ooa;
        /* Protect opo_ooa. */
        spinlock_t              opo_lock;
};

extern struct lu_object_operations osp_lu_obj_ops;
extern const struct dt_device_operations osp_dt_ops;
extern struct dt_object_operations osp_md_obj_ops;
extern struct dt_body_operations osp_md_body_ops;

struct osp_thread_info {
        struct lu_buf            osi_lb;
        struct lu_buf            osi_lb2;
        struct lu_fid            osi_fid;
        struct lu_attr           osi_attr;
        struct ost_id            osi_oi;
        struct ost_id            osi_oi2;
        obd_id                   osi_id;
        loff_t                   osi_off;
        union {
                struct llog_rec_hdr             osi_hdr;
                struct llog_unlink64_rec        osi_unlink;
                struct llog_setattr64_rec       osi_setattr;
                struct llog_gen_rec             osi_gen;
        };
        struct llog_cookie       osi_cookie;
        struct llog_catid        osi_cid;
        struct lu_seq_range      osi_seq;
        struct ldlm_res_id       osi_resid;
        struct obdo              osi_obdo;
};

/* Iterator for OSP */
struct osp_it {
        __u32                     ooi_pos_page;
        __u32                     ooi_pos_lu_page;
        __u32                     ooi_attr;
        int                       ooi_pos_ent;
        int                       ooi_total_npages;
        int                       ooi_valid_npages;
        unsigned int              ooi_swab:1;
        __u64                     ooi_next;
        struct dt_object         *ooi_obj;
        void                     *ooi_ent;
        struct page              *ooi_cur_page;
        struct lu_idxpage        *ooi_cur_idxpage;
        struct page              **ooi_pages;
};

/* The transaction only include the updates on the remote node, and
 * no local updates at all */
static inline bool is_only_remote_trans(struct thandle *th)
{
        return th->th_dev != NULL && th->th_dev->dd_ops == &osp_dt_ops;
}

static inline void osp_objid_buf_prep(struct lu_buf *buf, loff_t *off,
                                      __u32 *id, int index)
{
        buf->lb_buf = (void *)id;
        buf->lb_len = sizeof(obd_id);
        *off = sizeof(obd_id) * index;
}

static inline void osp_objseq_buf_prep(struct lu_buf *buf, loff_t *off,
                                       __u64 *seq, int index)
{
        buf->lb_buf = (void *)seq;
        buf->lb_len = sizeof(obd_id);
        *off = sizeof(obd_id) * index;
}

static inline void osp_buf_prep(struct lu_buf *lb, void *buf, int buf_len)
{
        lb->lb_buf = buf;
        lb->lb_len = buf_len;
}

extern struct lu_context_key osp_thread_key;

static inline struct osp_thread_info *osp_env_info(const struct lu_env *env)
{
        struct osp_thread_info *info;

        info = lu_context_key_get(&env->le_ctx, &osp_thread_key);
        if (info == NULL) {
                lu_env_refill((struct lu_env *)env);
                info = lu_context_key_get(&env->le_ctx, &osp_thread_key);
        }
        LASSERT(info);
        return info;
}

struct osp_txn_info {
        __u32   oti_current_id;
};

extern struct lu_context_key osp_txn_key;

static inline struct osp_txn_info *osp_txn_info(struct lu_context *ctx)
{
        struct osp_txn_info *info;

        info = lu_context_key_get(ctx, &osp_txn_key);
        return info;
}

extern const struct lu_device_operations osp_lu_ops;

static inline int lu_device_is_osp(struct lu_device *d)
{
        return ergo(d != NULL && d->ld_ops != NULL, d->ld_ops == &osp_lu_ops);
}

static inline struct osp_device *lu2osp_dev(struct lu_device *d)
{
        LASSERT(lu_device_is_osp(d));
        return container_of0(d, struct osp_device, opd_dt_dev.dd_lu_dev);
}

static inline struct lu_device *osp2lu_dev(struct osp_device *d)
{
        return &d->opd_dt_dev.dd_lu_dev;
}

static inline struct osp_device *dt2osp_dev(struct dt_device *d)
{
        LASSERT(lu_device_is_osp(&d->dd_lu_dev));
        return container_of0(d, struct osp_device, opd_dt_dev);
}

static inline struct osp_object *lu2osp_obj(struct lu_object *o)
{
        LASSERT(ergo(o != NULL, lu_device_is_osp(o->lo_dev)));
        return container_of0(o, struct osp_object, opo_obj.do_lu);
}

static inline struct lu_object *osp2lu_obj(struct osp_object *obj)
{
        return &obj->opo_obj.do_lu;
}

static inline struct osp_object *osp_obj(const struct lu_object *o)
{
        LASSERT(lu_device_is_osp(o->lo_dev));
        return container_of0(o, struct osp_object, opo_obj.do_lu);
}

static inline struct osp_object *dt2osp_obj(const struct dt_object *d)
{
        return osp_obj(&d->do_lu);
}

static inline struct dt_object *osp_object_child(struct osp_object *o)
{
        return container_of0(lu_object_next(osp2lu_obj(o)),
                             struct dt_object, do_lu);
}

static inline struct seq_server_site *osp_seq_site(struct osp_device *osp)
{
        return osp->opd_dt_dev.dd_lu_dev.ld_site->ld_seq_site;
}

#define osp_init_rpc_lock(lck) mdc_init_rpc_lock(lck)
#define osp_get_rpc_lock(lck, it)  mdc_get_rpc_lock(lck, it)
#define osp_put_rpc_lock(lck, it) mdc_put_rpc_lock(lck, it)

static inline int osp_fid_diff(const struct lu_fid *fid1,
                               const struct lu_fid *fid2)
{
        /* In 2.6+ ost_idx is packed into IDIF FID, while in 2.4 and 2.5 IDIF
         * is always FID_SEQ_IDIF(0x100000000ULL), which does not include OST
         * index in the seq. So we can not compare IDIF FID seq here */
        if (fid_is_idif(fid1) && fid_is_idif(fid2)) {
                __u32 ost_idx1 = fid_idif_ost_idx(fid1);
                __u32 ost_idx2 = fid_idif_ost_idx(fid2);

                LASSERTF(ost_idx1 == 0 || ost_idx2 == 0 || ost_idx1 == ost_idx2,
                         "fid1: "DFID", fid2: "DFID"\n", PFID(fid1),
                         PFID(fid2));

                return fid_idif_id(fid1->f_seq, fid1->f_oid, 0) -
                       fid_idif_id(fid2->f_seq, fid2->f_oid, 0);
        }

        LASSERTF(fid_seq(fid1) == fid_seq(fid2), "fid1:"DFID
                 ", fid2:"DFID"\n", PFID(fid1), PFID(fid2));

        return fid_oid(fid1) - fid_oid(fid2);
}


static inline void osp_update_last_fid(struct osp_device *d, struct lu_fid *fid)
{
        int diff = osp_fid_diff(fid, &d->opd_last_used_fid);
        /*
         * we might have lost precreated objects due to VBR and precreate
         * orphans, the gap in objid can be calculated properly only here
         */
        if (diff > 0) {
                if (diff > 1) {
                        d->opd_gap_start_fid = d->opd_last_used_fid;
                        d->opd_gap_start_fid.f_oid++;
                        d->opd_gap_count = diff - 1;
                        CDEBUG(D_HA, "Gap in objids: start="DFID", count =%d\n",
                               PFID(&d->opd_gap_start_fid), d->opd_gap_count);
                }
                d->opd_last_used_fid = *fid;
        }
}

static int osp_fid_end_seq(const struct lu_env *env, struct lu_fid *fid)
{
        if (fid_is_idif(fid)) {
                struct osp_thread_info *info = osp_env_info(env);
                struct ost_id *oi = &info->osi_oi;

                fid_to_ostid(fid, oi);
                return ostid_id(oi) == IDIF_MAX_OID;
        } else {
                return fid_oid(fid) == LUSTRE_DATA_SEQ_MAX_WIDTH;
        }
}

static inline int osp_precreate_end_seq_nolock(const struct lu_env *env,
                                               struct osp_device *osp)
{
        struct lu_fid *fid = &osp->opd_pre_last_created_fid;

        return osp_fid_end_seq(env, fid);
}

static inline int osp_precreate_end_seq(const struct lu_env *env,
                                        struct osp_device *osp)
{
        int rc;

        spin_lock(&osp->opd_pre_lock);
        rc = osp_precreate_end_seq_nolock(env, osp);
        spin_unlock(&osp->opd_pre_lock);
        return rc;
}

static inline int osp_is_fid_client(struct osp_device *osp)
{
        struct obd_import *imp = osp->opd_obd->u.cli.cl_import;

        return imp->imp_connect_data.ocd_connect_flags & OBD_CONNECT_FID;
}

typedef int (*osp_async_request_interpreter_t)(const struct lu_env *env,
                                               struct object_update_reply *rep,
                                               struct ptlrpc_request *req,
                                               struct osp_object *obj,
                                               void *data, int index, int rc);

/* osp_dev.c */
void osp_update_last_id(struct osp_device *d, obd_id objid);
extern struct llog_operations osp_mds_ost_orig_logops;

/* osp_trans.c */
int osp_insert_async_request(const struct lu_env *env, enum update_type op,
                             struct osp_object *obj, int count, __u16 *lens,
                             const void **bufs, void *data,
                             osp_async_request_interpreter_t interpreter);
int osp_unplug_async_request(const struct lu_env *env,
                             struct osp_device *osp,
                             struct dt_update_request *update);
struct thandle *osp_trans_create(const struct lu_env *env,
                                 struct dt_device *d);
int osp_trans_start(const struct lu_env *env, struct dt_device *dt,
                    struct thandle *th);

/* osp_object.c */
int osp_attr_get(const struct lu_env *env, struct dt_object *dt,
                 struct lu_attr *attr, struct lustre_capa *capa);
int osp_xattr_get(const struct lu_env *env, struct dt_object *dt,
                  struct lu_buf *buf, const char *name,
                  struct lustre_capa *capa);
int osp_declare_xattr_set(const struct lu_env *env, struct dt_object *dt,
                          const struct lu_buf *buf, const char *name,
                          int flag, struct thandle *th);
int osp_xattr_set(const struct lu_env *env, struct dt_object *dt,
                  const struct lu_buf *buf, const char *name, int fl,
                  struct thandle *th, struct lustre_capa *capa);
int osp_declare_xattr_del(const struct lu_env *env, struct dt_object *dt,
                          const char *name, struct thandle *th);
int osp_xattr_del(const struct lu_env *env, struct dt_object *dt,
                  const char *name, struct thandle *th,
                  struct lustre_capa *capa);

int osp_declare_object_destroy(const struct lu_env *env,
                               struct dt_object *dt, struct thandle *th);
int osp_object_destroy(const struct lu_env *env, struct dt_object *dt,
                       struct thandle *th);

int osp_trans_stop(const struct lu_env *env, struct dt_device *dt,
                   struct thandle *th);

struct dt_it *osp_it_init(const struct lu_env *env, struct dt_object *dt,
                          __u32 attr, struct lustre_capa *capa);
void osp_it_fini(const struct lu_env *env, struct dt_it *di);
int osp_it_get(const struct lu_env *env, struct dt_it *di,
               const struct dt_key *key);
void osp_it_put(const struct lu_env *env, struct dt_it *di);
__u64 osp_it_store(const struct lu_env *env, const struct dt_it *di);
int osp_it_key_rec(const struct lu_env *env, const struct dt_it *di,
                   void *key_rec);
int osp_it_next_page(const struct lu_env *env, struct dt_it *di);
/* osp_md_object.c */
int osp_md_declare_object_create(const struct lu_env *env,
                                 struct dt_object *dt,
                                 struct lu_attr *attr,
                                 struct dt_allocation_hint *hint,
                                 struct dt_object_format *dof,
                                 struct thandle *th);
int osp_md_object_create(const struct lu_env *env, struct dt_object *dt,
                         struct lu_attr *attr, struct dt_allocation_hint *hint,
                         struct dt_object_format *dof, struct thandle *th);
int __osp_md_attr_set(const struct lu_env *env, struct dt_object *dt,
                      const struct lu_attr *attr, struct thandle *th);
extern const struct dt_index_operations osp_md_index_ops;

/* osp_precreate.c */
int osp_init_precreate(struct osp_device *d);
int osp_precreate_reserve(const struct lu_env *env, struct osp_device *d);
__u64 osp_precreate_get_id(struct osp_device *d);
int osp_precreate_get_fid(const struct lu_env *env, struct osp_device *d,
                          struct lu_fid *fid);
void osp_precreate_fini(struct osp_device *d);
int osp_object_truncate(const struct lu_env *env, struct dt_object *dt, __u64);
void osp_pre_update_status(struct osp_device *d, int rc);
void osp_statfs_need_now(struct osp_device *d);
int osp_reset_last_used(const struct lu_env *env, struct osp_device *osp);
int osp_write_last_oid_seq_files(struct lu_env *env, struct osp_device *osp,
                                 struct lu_fid *fid, int sync);
int osp_init_pre_fid(struct osp_device *osp);

/* lproc_osp.c */
void osp_lprocfs_init(struct osp_device *osp);

/* osp_sync.c */
int osp_sync_declare_add(const struct lu_env *env, struct osp_object *o,
                         llog_op_type type, struct thandle *th);
int osp_sync_add(const struct lu_env *env, struct osp_object *o,
                 llog_op_type type, struct thandle *th,
                 const struct lu_attr *attr);
int osp_sync_init(const struct lu_env *env, struct osp_device *d);
int osp_sync_fini(struct osp_device *d);
void __osp_sync_check_for_work(struct osp_device *d);

/* lwp_dev.c */
extern struct obd_ops lwp_obd_device_ops;
extern struct lu_device_type lwp_device_type;

#endif