HAMMER 22/many: Recovery and B-Tree work.

[dragonfly.git] / sys / vfs / hammer / hammer.h

/*
 * Copyright (c) 2007 The DragonFly Project.  All rights reserved.
 * 
 * This code is derived from software contributed to The DragonFly Project
 * by Matthew Dillon <dillon@backplane.com>
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in
 *    the documentation and/or other materials provided with the
 *    distribution.
 * 3. Neither the name of The DragonFly Project nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific, prior written permission.
 * 
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE
 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 * 
 * $DragonFly: src/sys/vfs/hammer/hammer.h,v 1.27 2008/01/21 00:00:19 dillon Exp $
 */
/*
 * This header file contains structures used internally by the HAMMERFS
 * implementation.  See hammer_disk.h for on-disk structures.
 */

#include <sys/param.h>
#include <sys/types.h>
#include <sys/kernel.h>
#include <sys/systm.h>
#include <sys/tree.h>
#include <sys/malloc.h>
#include <sys/mount.h>
#include <sys/vnode.h>
#include <sys/globaldata.h>
#include <sys/lockf.h>
#include <sys/buf.h>
#include <sys/queue.h>
#include <sys/globaldata.h>

#include <sys/buf2.h>
#include "hammer_alist.h"
#include "hammer_disk.h"
#include "hammer_mount.h"

#if defined(_KERNEL) || defined(_KERNEL_STRUCTURES)

MALLOC_DECLARE(M_HAMMER);

struct hammer_mount;

/*
 * Key structure used for custom RB tree inode lookups.  This prototypes
 * the function hammer_ino_rb_tree_RB_LOOKUP_INFO(root, info).
 */
typedef struct hammer_inode_info {
        u_int64_t       obj_id;         /* (key) object identifier */
        hammer_tid_t    obj_asof;       /* (key) snapshot transid or 0 */
} *hammer_inode_info_t;

/*
 * HAMMER Transaction tracking
 */
struct hammer_transaction {
        struct hammer_mount *hmp;
        hammer_tid_t    tid;
        struct hammer_volume *rootvol;
};

typedef struct hammer_transaction *hammer_transaction_t;

/*
 * HAMMER locks
 */
struct hammer_lock {
        int     refs;           /* active references delay writes */
        int     lockcount;      /* lock count for exclusive/shared access */
        int     wanted;
        struct thread *locktd;
};

static __inline int
hammer_islocked(struct hammer_lock *lock)
{
        return(lock->lockcount != 0);
}

static __inline int
hammer_isactive(struct hammer_lock *lock)
{
        return(lock->refs != 0);
}

static __inline int
hammer_islastref(struct hammer_lock *lock)
{
        return(lock->refs == 1);
}

/*
 * This inline is specifically optimized for the case where the caller
 * owns the lock, but wants to know what kind of lock he owns.  A
 * negative value indicates a shared lock, a positive value indicates
 * an exclusive lock.
 */
static __inline int
hammer_lock_held(struct hammer_lock *lock)
{
        return(lock->lockcount);
}

/*
 * Structure used to represent an inode in-memory.
 *
 * The record and data associated with an inode may be out of sync with
 * the disk (xDIRTY flags), or not even on the disk at all (ONDISK flag
 * clear).
 *
 * An inode may also hold a cache of unsynchronized records, used for
 * database and directories only.  Unsynchronized regular file data is
 * stored in the buffer cache.
 *
 * NOTE: A file which is created and destroyed within the initial
 * synchronization period can wind up not doing any disk I/O at all.
 *
 * Finally, an inode may cache numerous disk-referencing B-Tree cursors.
 */
struct hammer_ino_rb_tree;
struct hammer_inode;
RB_HEAD(hammer_ino_rb_tree, hammer_inode);
RB_PROTOTYPEX(hammer_ino_rb_tree, INFO, hammer_inode, rb_node,
              hammer_ino_rb_compare, hammer_inode_info_t);

struct hammer_rec_rb_tree;
struct hammer_record;
RB_HEAD(hammer_rec_rb_tree, hammer_record);
RB_PROTOTYPEX(hammer_rec_rb_tree, INFO, hammer_record, rb_node,
              hammer_rec_rb_compare, hammer_base_elm_t);

TAILQ_HEAD(hammer_node_list, hammer_node);

struct hammer_inode {
        RB_ENTRY(hammer_inode) rb_node;
        u_int64_t       obj_id;         /* (key) object identifier */
        hammer_tid_t    obj_asof;       /* (key) snapshot transid or 0 */
        hammer_tid_t    last_tid;       /* last modified tid (for fsync) */
        struct hammer_mount *hmp;
        int             flags;
        struct vnode    *vp;
        struct lockf    advlock;
        struct hammer_lock lock;
        struct hammer_inode_record ino_rec;
        struct hammer_inode_data ino_data;
        struct hammer_rec_rb_tree rec_tree;     /* red-black record tree */
        struct hammer_node      *cache[2];      /* search initiate cache */
};

typedef struct hammer_inode *hammer_inode_t;

#define VTOI(vp)        ((struct hammer_inode *)(vp)->v_data)

#define HAMMER_INODE_DDIRTY     0x0001  /* in-memory ino_data is dirty */
#define HAMMER_INODE_RDIRTY     0x0002  /* in-memory ino_rec is dirty */
#define HAMMER_INODE_ITIMES     0x0004  /* in-memory mtime/atime modified */
#define HAMMER_INODE_XDIRTY     0x0008  /* in-memory records present */
#define HAMMER_INODE_ONDISK     0x0010  /* inode is on-disk (else not yet) */
#define HAMMER_INODE_FLUSH      0x0020  /* flush on last ref */
#define HAMMER_INODE_DELETED    0x0080  /* inode ready for deletion */
#define HAMMER_INODE_DELONDISK  0x0100  /* delete synchronized to disk */
#define HAMMER_INODE_RO         0x0200  /* read-only (because of as-of) */
#define HAMMER_INODE_GONE       0x0400  /* delete flushed out */
#define HAMMER_INODE_DONDISK    0x0800  /* data records may be on disk */
#define HAMMER_INODE_BUFS       0x1000  /* dirty high level bps present */

#define HAMMER_INODE_MODMASK    (HAMMER_INODE_DDIRTY|HAMMER_INODE_RDIRTY| \
                                 HAMMER_INODE_XDIRTY|HAMMER_INODE_BUFS|   \
                                 HAMMER_INODE_ITIMES|HAMMER_INODE_DELETED)

#define HAMMER_MAX_INODE_CURSORS        4

/*
 * Structure used to represent an unsynchronized record in-memory.  This
 * structure is orgranized in a per-inode RB-tree.  If the inode is not
 * on disk then neither are any records and the in-memory record tree
 * represents the entire contents of the inode.  If the inode is on disk
 * then the on-disk B-Tree is scanned in parallel with the in-memory
 * RB-Tree to synthesize the current state of the file.
 *
 * Only current (delete_tid == 0) unsynchronized records are kept in-memory.
 */
struct hammer_record {
        RB_ENTRY(hammer_record)         rb_node;
        struct hammer_lock              lock;
        struct hammer_inode             *ip;
        union hammer_record_ondisk      rec;
        union hammer_data_ondisk        *data;
        int                             flags;
};

typedef struct hammer_record *hammer_record_t;

#define HAMMER_RECF_ALLOCDATA           0x0001
#define HAMMER_RECF_ONRBTREE            0x0002
#define HAMMER_RECF_DELETED             0x0004
#define HAMMER_RECF_EMBEDDED_DATA       0x0008
#define HAMMER_RECF_SYNCING             0x0010

/*
 * Structures used to internally represent a volume and a cluster
 */
struct hammer_volume;
struct hammer_cluster;
struct hammer_supercl;
struct hammer_buffer;
struct hammer_node;
RB_HEAD(hammer_vol_rb_tree, hammer_volume);
RB_HEAD(hammer_clu_rb_tree, hammer_cluster);
RB_HEAD(hammer_scl_rb_tree, hammer_supercl);
RB_HEAD(hammer_buf_rb_tree, hammer_buffer);
RB_HEAD(hammer_nod_rb_tree, hammer_node);

RB_PROTOTYPE2(hammer_vol_rb_tree, hammer_volume, rb_node,
              hammer_vol_rb_compare, int32_t);
RB_PROTOTYPE2(hammer_clu_rb_tree, hammer_cluster, rb_node,
              hammer_clu_rb_compare, int32_t);
RB_PROTOTYPE2(hammer_scl_rb_tree, hammer_supercl, rb_node,
              hammer_scl_rb_compare, int32_t);
RB_PROTOTYPE2(hammer_buf_rb_tree, hammer_buffer, rb_node,
              hammer_buf_rb_compare, int32_t);
RB_PROTOTYPE2(hammer_nod_rb_tree, hammer_node, rb_node,
              hammer_nod_rb_compare, int32_t);

/*
 * IO management - embedded at the head of various in-memory structures
 */
enum hammer_io_type { HAMMER_STRUCTURE_VOLUME,
                      HAMMER_STRUCTURE_SUPERCL,
                      HAMMER_STRUCTURE_CLUSTER,
                      HAMMER_STRUCTURE_BUFFER };

union hammer_io_structure;
struct hammer_io;

struct worklist {
        LIST_ENTRY(worklist) node;
};

TAILQ_HEAD(hammer_io_list, hammer_io);

struct hammer_io {
        struct worklist worklist;
        struct hammer_lock lock;
        enum hammer_io_type type;
        struct buf      *bp;
        int64_t         offset;
        TAILQ_ENTRY(hammer_io) entry;   /* based on modified flag */
        struct hammer_io_list  *entry_list;
        struct hammer_io_list  deplist;
        u_int           modified : 1;   /* bp's data was modified */
        u_int           released : 1;   /* bp released (w/ B_LOCKED set) */
        u_int           running : 1;    /* bp write IO in progress */
        u_int           waiting : 1;    /* someone is waiting on us */
        u_int           loading : 1;    /* ondisk is loading */
};

typedef struct hammer_io *hammer_io_t;

/*
 * In-memory volume representing on-disk buffer
 */
struct hammer_volume {
        struct hammer_io io;
        RB_ENTRY(hammer_volume) rb_node;
        struct hammer_clu_rb_tree rb_clus_root;
        struct hammer_scl_rb_tree rb_scls_root;
        struct hammer_volume_ondisk *ondisk;
        struct hammer_alist_live alist;
        int32_t vol_no;
        int32_t vol_clsize;
        int32_t clu_iterator;   /* cluster allocation iterator */
        int64_t nblocks;        /* note: special calculation for statfs */
        int64_t cluster_base;   /* base offset of cluster 0 */
        char    *vol_name;
        struct vnode *devvp;
        struct hammer_mount *hmp;
        int     vol_flags;
};

typedef struct hammer_volume *hammer_volume_t;

/*
 * In-memory super-cluster representing on-disk buffer
 */
struct hammer_supercl {
        struct hammer_io io;
        RB_ENTRY(hammer_supercl) rb_node;
        struct hammer_supercl_ondisk *ondisk;
        struct hammer_volume *volume;
        struct hammer_alist_live alist;
        int32_t scl_no;
};

typedef struct hammer_supercl *hammer_supercl_t;

/*
 * In-memory cluster representing on-disk buffer
 *
 * The cluster's indexing range is cached in hammer_cluster, separate
 * from the ondisk info in order to allow cursors to point to it.
 */
struct hammer_cluster {
        struct hammer_io io;
        RB_ENTRY(hammer_cluster) rb_node;
        struct hammer_buf_rb_tree rb_bufs_root;
        struct hammer_cluster_ondisk *ondisk;
        struct hammer_volume *volume;
        struct hammer_alist_live alist_master;
        struct hammer_alist_live alist_btree;
        struct hammer_alist_live alist_record;
        struct hammer_alist_live alist_mdata;
        struct hammer_nod_rb_tree rb_nods_root; /* cursors in cluster */
        struct hammer_base_elm clu_btree_beg;   /* copy of on-disk info */
        struct hammer_base_elm clu_btree_end;   /* copy of on-disk info */
        int32_t clu_no;
};

typedef struct hammer_cluster *hammer_cluster_t;

/*
 * Passed to hammer_get_cluster()
 */
#define GET_CLUSTER_NEW         0x0001
#define GET_CLUSTER_NORECOVER   0x0002

/*
 * In-memory buffer (other then volume, super-cluster, or cluster),
 * representing an on-disk buffer.
 */
struct hammer_buffer {
        struct hammer_io io;
        RB_ENTRY(hammer_buffer) rb_node;
        hammer_fsbuf_ondisk_t ondisk;
        struct hammer_volume *volume;
        struct hammer_cluster *cluster;
        int32_t buf_no;
        u_int64_t buf_type;
        struct hammer_alist_live alist;
        struct hammer_node_list clist;
};

typedef struct hammer_buffer *hammer_buffer_t;

/*
 * In-memory B-Tree node, representing an on-disk B-Tree node.
 *
 * This is a hang-on structure which is backed by a hammer_buffer,
 * indexed by a hammer_cluster, and used for fine-grained locking of
 * B-Tree nodes in order to properly control lock ordering.  A hammer_buffer
 * can contain multiple nodes representing wildly disassociated portions
 * of the B-Tree so locking cannot be done on a buffer-by-buffer basis.
 *
 * This structure uses a cluster-relative index to reduce the number
 * of layers required to access it, and also because all on-disk B-Tree
 * references are cluster-relative offsets.
 */
struct hammer_node {
        struct hammer_lock      lock;           /* node-by-node lock */
        TAILQ_ENTRY(hammer_node) entry;         /* per-buffer linkage */
        RB_ENTRY(hammer_node)   rb_node;        /* per-cluster linkage */
        int32_t                 node_offset;    /* cluster-rel offset */
        struct hammer_cluster   *cluster;
        struct hammer_buffer    *buffer;        /* backing buffer */
        hammer_node_ondisk_t    ondisk;         /* ptr to on-disk structure */
        struct hammer_node      **cache1;       /* passive cache(s) */
        struct hammer_node      **cache2;
        int                     flags;
};

#define HAMMER_NODE_DELETED     0x0001
#define HAMMER_NODE_FLUSH       0x0002

typedef struct hammer_node      *hammer_node_t;

/*
 * Common I/O management structure - embedded in in-memory structures
 * which are backed by filesystem buffers.
 */
union hammer_io_structure {
        struct hammer_io        io;
        struct hammer_volume    volume;
        struct hammer_supercl   supercl;
        struct hammer_cluster   cluster;
        struct hammer_buffer    buffer;
};

typedef union hammer_io_structure *hammer_io_structure_t;

#define HAMFS_CLUSTER_DIRTY     0x0001

#include "hammer_cursor.h"

/*
 * Internal hammer mount data structure
 */
struct hammer_mount {
        struct mount *mp;
        /*struct vnode *rootvp;*/
        struct hammer_ino_rb_tree rb_inos_root;
        struct hammer_vol_rb_tree rb_vols_root;
        struct hammer_volume *rootvol;
        struct hammer_cluster *rootcl;
        char    *zbuf;  /* HAMMER_BUFSIZE bytes worth of all-zeros */
        int     hflags;
        int     ronly;
        int     nvolumes;
        int     volume_iterator;
        uuid_t  fsid;
        udev_t  fsid_udev;
        hammer_tid_t asof;
        u_int32_t namekey_iterator;
};

typedef struct hammer_mount     *hammer_mount_t;

struct hammer_sync_info {
        int error;
        int waitfor;
};

#endif

#if defined(_KERNEL)

extern struct vop_ops hammer_vnode_vops;
extern struct vop_ops hammer_spec_vops;
extern struct vop_ops hammer_fifo_vops;
extern struct hammer_alist_config Buf_alist_config;
extern struct hammer_alist_config Vol_normal_alist_config;
extern struct hammer_alist_config Vol_super_alist_config;
extern struct hammer_alist_config Supercl_alist_config;
extern struct hammer_alist_config Clu_master_alist_config;
extern struct hammer_alist_config Clu_slave_alist_config;
extern struct bio_ops hammer_bioops;

extern int hammer_debug_btree;
extern int hammer_debug_tid;
extern int hammer_count_inodes;
extern int hammer_count_records;
extern int hammer_count_record_datas;
extern int hammer_count_volumes;
extern int hammer_count_supercls;
extern int hammer_count_clusters;
extern int hammer_count_buffers;
extern int hammer_count_nodes;
extern int hammer_count_spikes;

int     hammer_vop_inactive(struct vop_inactive_args *);
int     hammer_vop_reclaim(struct vop_reclaim_args *);
int     hammer_vfs_vget(struct mount *mp, ino_t ino, struct vnode **vpp);
int     hammer_get_vnode(struct hammer_inode *ip, int lktype,
                        struct vnode **vpp);
struct hammer_inode *hammer_get_inode(hammer_mount_t hmp,
                        struct hammer_node **cache,
                        u_int64_t obj_id, hammer_tid_t asof, int flags,
                        int *errorp);
void    hammer_put_inode(struct hammer_inode *ip);
void    hammer_put_inode_ref(struct hammer_inode *ip);

int     hammer_unload_inode(hammer_inode_t ip, void *data);
int     hammer_unload_volume(hammer_volume_t volume, void *data __unused);
int     hammer_unload_supercl(hammer_supercl_t supercl, void *data __unused);
int     hammer_unload_cluster(hammer_cluster_t cluster, void *data __unused);
int     hammer_unload_buffer(hammer_buffer_t buffer, void *data __unused);
int     hammer_install_volume(hammer_mount_t hmp, const char *volname);

int     hammer_ip_lookup(hammer_cursor_t cursor, hammer_inode_t ip);
int     hammer_ip_first(hammer_cursor_t cursor, hammer_inode_t ip);
int     hammer_ip_next(hammer_cursor_t cursor);
int     hammer_ip_resolve_data(hammer_cursor_t cursor);
int     hammer_ip_delete_record(hammer_cursor_t cursor, hammer_tid_t tid);
int     hammer_ip_check_directory_empty(hammer_transaction_t trans,
                        hammer_inode_t ip);
int     hammer_sync_hmp(hammer_mount_t hmp, int waitfor);
int     hammer_sync_volume(hammer_volume_t volume, void *data);
int     hammer_sync_cluster(hammer_cluster_t cluster, void *data);
int     hammer_sync_buffer(hammer_buffer_t buffer, void *data);

hammer_record_t
        hammer_alloc_mem_record(hammer_inode_t ip);
void    hammer_rel_mem_record(hammer_record_t record);

int     hammer_cursor_up(hammer_cursor_t cursor);
int     hammer_cursor_toroot(hammer_cursor_t cursor);
int     hammer_cursor_down(hammer_cursor_t cursor);
int     hammer_cursor_upgrade(hammer_cursor_t cursor);
void    hammer_cursor_downgrade(hammer_cursor_t cursor);

void    hammer_lock_ex(struct hammer_lock *lock);
int     hammer_lock_ex_try(struct hammer_lock *lock);
void    hammer_lock_sh(struct hammer_lock *lock);
int     hammer_lock_upgrade(struct hammer_lock *lock);
void    hammer_lock_downgrade(struct hammer_lock *lock);
void    hammer_unlock(struct hammer_lock *lock);
void    hammer_ref(struct hammer_lock *lock);
void    hammer_unref(struct hammer_lock *lock);

u_int32_t hammer_to_unix_xid(uuid_t *uuid);
void hammer_guid_to_uuid(uuid_t *uuid, u_int32_t guid);
void    hammer_to_timespec(hammer_tid_t tid, struct timespec *ts);
hammer_tid_t hammer_timespec_to_transid(struct timespec *ts);
hammer_tid_t hammer_alloc_tid(hammer_transaction_t trans);
hammer_tid_t hammer_now_tid(void);
hammer_tid_t hammer_str_to_tid(const char *str);
u_int64_t hammer_alloc_recid(hammer_cluster_t cluster);

enum vtype hammer_get_vnode_type(u_int8_t obj_type);
int hammer_get_dtype(u_int8_t obj_type);
u_int8_t hammer_get_obj_type(enum vtype vtype);
int64_t hammer_directory_namekey(void *name, int len);

int     hammer_init_cursor_hmp(hammer_cursor_t cursor, struct hammer_node **cache, hammer_mount_t hmp);
int     hammer_init_cursor_cluster(hammer_cursor_t cursor, hammer_cluster_t cluster);

void    hammer_done_cursor(hammer_cursor_t cursor);
void    hammer_mem_done(hammer_cursor_t cursor);

int     hammer_btree_lookup(hammer_cursor_t cursor);
int     hammer_btree_first(hammer_cursor_t cursor);
int     hammer_btree_extract(hammer_cursor_t cursor, int flags);
int     hammer_btree_iterate(hammer_cursor_t cursor);
int     hammer_btree_insert(hammer_cursor_t cursor, hammer_btree_elm_t elm);
int     hammer_btree_insert_cluster(hammer_cursor_t cursor,
                        hammer_cluster_t cluster, int32_t rec_offset);
int     hammer_btree_delete(hammer_cursor_t cursor);
int     hammer_btree_cmp(hammer_base_elm_t key1, hammer_base_elm_t key2);
int     hammer_btree_chkts(hammer_tid_t ts, hammer_base_elm_t key);

void    hammer_print_btree_node(hammer_node_ondisk_t ondisk);
void    hammer_print_btree_elm(hammer_btree_elm_t elm, u_int8_t type, int i);

void    *hammer_bread(struct hammer_cluster *cluster, int32_t cloff,
                        u_int64_t buf_type, int *errorp,
                        struct hammer_buffer **bufferp);

hammer_volume_t hammer_get_root_volume(hammer_mount_t hmp, int *errorp);
hammer_cluster_t hammer_get_root_cluster(hammer_mount_t hmp, int *errorp);

hammer_volume_t hammer_get_volume(hammer_mount_t hmp,
                        int32_t vol_no, int *errorp);
hammer_supercl_t hammer_get_supercl(hammer_volume_t volume, int32_t scl_no,
                        int *errorp, hammer_alloc_state_t isnew);
hammer_cluster_t hammer_get_cluster(hammer_volume_t volume, int32_t clu_no,
                        int *errorp, int getflags);
hammer_buffer_t hammer_get_buffer(hammer_cluster_t cluster,
                        int32_t buf_no, u_int64_t buf_type, int *errorp);

int             hammer_ref_volume(hammer_volume_t volume);
int             hammer_ref_cluster(hammer_cluster_t cluster);
int             hammer_ref_buffer(hammer_buffer_t buffer);
void            hammer_flush_buffer_nodes(hammer_buffer_t buffer);

void            hammer_rel_volume(hammer_volume_t volume, int flush);
void            hammer_rel_supercl(hammer_supercl_t supercl, int flush);
void            hammer_rel_cluster(hammer_cluster_t cluster, int flush);
void            hammer_rel_buffer(hammer_buffer_t buffer, int flush);

hammer_node_t   hammer_get_node(hammer_cluster_t cluster,
                        int32_t node_offset, int *errorp);
int             hammer_ref_node(hammer_node_t node);
hammer_node_t   hammer_ref_node_safe(struct hammer_mount *hmp,
                        struct hammer_node **cache, int *errorp);
void            hammer_rel_node(hammer_node_t node);
void            hammer_cache_node(hammer_node_t node,
                        struct hammer_node **cache);
void            hammer_uncache_node(struct hammer_node **cache);
void            hammer_flush_node(hammer_node_t node);

void hammer_dup_buffer(struct hammer_buffer **bufferp,
                        struct hammer_buffer *buffer);
void hammer_dup_cluster(struct hammer_cluster **clusterp,
                        struct hammer_cluster *cluster);
hammer_cluster_t hammer_alloc_cluster(hammer_mount_t hmp,
                        hammer_cluster_t cluster_hint, int *errorp);
void hammer_init_cluster(hammer_cluster_t cluster,
                        hammer_base_elm_t left_bound,
                        hammer_base_elm_t right_bound);
hammer_node_t hammer_alloc_btree(struct hammer_cluster *cluster, int *errorp);
void *hammer_alloc_data(struct hammer_cluster *cluster, int32_t bytes,
                        int *errorp, struct hammer_buffer **bufferp);
void *hammer_alloc_record(struct hammer_cluster *cluster,
                        int *errorp, struct hammer_buffer **bufferp);
void hammer_initbuffer(hammer_alist_t live, hammer_fsbuf_head_t head,
                        u_int64_t type);
void hammer_free_data_ptr(struct hammer_buffer *buffer, 
                        void *data, int bytes);
void hammer_free_record_ptr(struct hammer_buffer *buffer,
                        union hammer_record_ondisk *rec);
void hammer_free_cluster(hammer_cluster_t cluster);
void hammer_free_btree(struct hammer_cluster *cluster, int32_t bclu_offset);
void hammer_free_data(struct hammer_cluster *cluster, int32_t bclu_offset,
                        int32_t bytes);
void hammer_free_record(struct hammer_cluster *cluster, int32_t bclu_offset);

void hammer_put_volume(struct hammer_volume *volume, int flush);
void hammer_put_supercl(struct hammer_supercl *supercl, int flush);
void hammer_put_cluster(struct hammer_cluster *cluster, int flush);
void hammer_put_buffer(struct hammer_buffer *buffer, int flush);

void hammer_init_alist_config(void);

void hammer_start_transaction(struct hammer_transaction *trans,
                              struct hammer_mount *hmp);
void hammer_start_transaction_tid(struct hammer_transaction *trans,
                                  struct hammer_mount *hmp, hammer_tid_t tid);
void hammer_commit_transaction(struct hammer_transaction *trans);
void hammer_abort_transaction(struct hammer_transaction *trans);

void hammer_modify_inode(struct hammer_transaction *trans,
                        hammer_inode_t ip, int flags);
int  hammer_create_inode(struct hammer_transaction *trans, struct vattr *vap,
                        struct ucred *cred, struct hammer_inode *dip,
                        struct hammer_inode **ipp);
void hammer_rel_inode(hammer_inode_t ip, int flush);
int hammer_sync_inode(hammer_inode_t ip, int waitfor, int handle_delete);

int  hammer_ip_add_directory(struct hammer_transaction *trans,
                        hammer_inode_t dip, struct namecache *ncp,
                        hammer_inode_t nip);
int  hammer_ip_del_directory(struct hammer_transaction *trans,
                        hammer_cursor_t cursor, hammer_inode_t dip,
                        hammer_inode_t ip);
int  hammer_ip_add_record(struct hammer_transaction *trans,
                        hammer_record_t record);
int  hammer_ip_delete_range(struct hammer_transaction *trans,
                        hammer_inode_t ip, int64_t ran_beg, int64_t ran_end,
                        struct hammer_cursor **spikep);
int  hammer_ip_delete_range_all(struct hammer_transaction *trans,
                        hammer_inode_t ip);
int  hammer_ip_sync_data(struct hammer_transaction *trans,
                        hammer_inode_t ip, int64_t offset,
                        void *data, int bytes, struct hammer_cursor **spikep);
int  hammer_ip_sync_record(hammer_record_t rec, struct hammer_cursor **spikep);
int  hammer_write_record(hammer_cursor_t cursor, hammer_record_ondisk_t rec,
                        void *data, int cursor_flags);

void hammer_load_spike(hammer_cursor_t cursor, struct hammer_cursor **spikep);
int hammer_spike(struct hammer_cursor **spikep);
int hammer_recover(struct hammer_cluster *cluster);
int buffer_alist_recover(void *info, int32_t blk, int32_t radix, int32_t count);

void hammer_io_init(hammer_io_t io, enum hammer_io_type type);
int hammer_io_read(struct vnode *devvp, struct hammer_io *io);
int hammer_io_new(struct vnode *devvp, struct hammer_io *io);
void hammer_io_release(struct hammer_io *io, int flush);
void hammer_io_flush(struct hammer_io *io);
int hammer_io_checkflush(hammer_io_t io);
void hammer_io_notify_cluster(hammer_cluster_t cluster);
void hammer_io_clear_modify(struct hammer_io *io);
void hammer_io_waitdep(struct hammer_io *io);

void hammer_modify_volume(hammer_volume_t volume);
void hammer_modify_supercl(hammer_supercl_t supercl);
void hammer_modify_cluster(hammer_cluster_t cluster);
void hammer_modify_buffer(hammer_buffer_t buffer);

#endif

static __inline void
hammer_modify_node(struct hammer_node *node)
{
        hammer_modify_buffer(node->buffer);
}

/*
 * Return the cluster-relative byte offset of an element within a buffer
 */
static __inline int
hammer_bclu_offset(struct hammer_buffer *buffer, void *ptr)
{
        int bclu_offset;

        bclu_offset = buffer->buf_no * HAMMER_BUFSIZE + 
                      ((char *)ptr - (char *)buffer->ondisk);
        return(bclu_offset);
}