xref: /minix/sys/ufs/chfs/chfs.h (revision 0a6a1f1d)

/*	$NetBSD: chfs.h,v 1.9 2015/01/11 17:29:57 hannken Exp $	*/

/*-
 * Copyright (c) 2010 Department of Software Engineering,
 *		      University of Szeged, Hungary
 * Copyright (C) 2009 Ferenc Havasi <havasi@inf.u-szeged.hu>
 * Copyright (C) 2009 Zoltan Sogor <weth@inf.u-szeged.hu>
 * Copyright (C) 2009 David Tengeri <dtengeri@inf.u-szeged.hu>
 * Copyright (C) 2009 Tamas Toth <ttoth@inf.u-szeged.hu>
 * Copyright (C) 2010 Adam Hoka <ahoka@NetBSD.org>
 * All rights reserved.
 *
 * This code is derived from software contributed to The NetBSD Foundation
 * by the Department of Software Engineering, University of Szeged, Hungary
 *
 * 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.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
 */

#ifndef __CHFS_H__
#define __CHFS_H__


#ifdef _KERNEL

#if 0
#define DBG_MSG			/* debug messages */
#define DBG_MSG_GC		/* garbage collector's debug messages */
#endif

#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/cdefs.h>
#include <sys/stdint.h>
#include <sys/types.h>
#include <sys/tree.h>
#include <sys/queue.h>
#include <sys/kmem.h>
#include <sys/endian.h>
#include <sys/rwlock.h>
#include <sys/condvar.h>
#include <sys/mutex.h>
#include <sys/kthread.h>
#include <sys/rbtree.h>
#include <sys/vnode.h>
#include <sys/mount.h>
#include <sys/hash.h>
#include <sys/module.h>
#include <sys/dirent.h>

#include <ufs/ufs/quota.h>
#include <ufs/ufs/ufsmount.h>
#include <ufs/ufs/dir.h>

/* XXX shouldnt be defined here, but needed by chfs_inode.h */
TAILQ_HEAD(chfs_dirent_list, chfs_dirent);

#include "chfs_pool.h"
#endif /* _KERNEL */

#include "ebh.h"
#include "media.h"
#include "chfs_inode.h"

/* padding - last two bits used for node masks */
#define CHFS_PAD(x) (((x)+3)&~3)

#ifdef _KERNEL

#ifndef MOUNT_CHFS
#define MOUNT_CHFS "chfs"
#endif /* MOUNT_CHFS */

/* state of a vnode */
enum {
	VNO_STATE_UNCHECKED,		/* CRC checks not yet done */
	VNO_STATE_CHECKING,			/* CRC checks in progress */
	VNO_STATE_PRESENT,			/* In core */
	VNO_STATE_CHECKEDABSENT,	/* Checked, cleared again */
	VNO_STATE_GC,				/* GCing a 'pristine' node */
	VNO_STATE_READING,			/* In read_inode() */
	VNO_STATE_CLEARING			/* In clear_inode() */
};


/* size of the vnode cache (hashtable) */
#define VNODECACHE_SIZE 128

#define MAX_READ_FREE(chmp) (((chmp)->chm_ebh)->eb_size / 8)
/* an eraseblock will be clean if its dirty size is smaller than this */
#define MAX_DIRTY_TO_CLEAN 255
#define VERY_DIRTY(chmp, size) ((size) >= (((chmp)->chm_ebh)->eb_size / 2))

/* node errors */
enum {
	CHFS_NODE_OK = 0,
	CHFS_NODE_BADMAGIC,
	CHFS_NODE_BADCRC,
	CHFS_NODE_BADNAMECRC
};

/* eraseblock states */
enum {
	CHFS_BLK_STATE_FREE = 100,
	CHFS_BLK_STATE_CLEAN,
	CHFS_BLK_STATE_PARTDIRTY,
	CHFS_BLK_STATE_ALLDIRTY
};

extern struct pool chfs_inode_pool;
extern const struct genfs_ops chfs_genfsops;

/* struct chfs_node_ref - a reference to a node which is on the media */
struct chfs_node_ref
{
	struct chfs_node_ref *nref_next;	/* next data node which belongs to the same vnode */
	uint32_t nref_lnr;					/* nref's LEB number */
	uint32_t nref_offset;				/* nref's offset */
};

/*
 * constants for allocating node refs
 * they're allocated in blocks
 */
#define REFS_BLOCK_LEN (255/sizeof(struct chfs_node_ref))
#define REF_EMPTY_NODE (UINT_MAX)
#define REF_LINK_TO_NEXT (UINT_MAX - 1)

/* node masks - last two bits of the nodes ("state" of an nref) */
enum {
	CHFS_NORMAL_NODE_MASK,
	CHFS_UNCHECKED_NODE_MASK,
	CHFS_OBSOLETE_NODE_MASK,
	CHFS_PRISTINE_NODE_MASK
};

#define CHFS_REF_FLAGS(ref)		((ref)->nref_offset & 3)
#define CHFS_REF_OBSOLETE(ref)	(((ref)->nref_offset & 3) == CHFS_OBSOLETE_NODE_MASK)
#define CHFS_MARK_REF_NORMAL(ref)					      \
	do {								      \
		(ref)->nref_offset = CHFS_GET_OFS((ref)->nref_offset) | CHFS_NORMAL_NODE_MASK; \
	} while(0)

#define CHFS_GET_OFS(ofs) (ofs & ~ 3)

/*
 * Nrefs are allocated in blocks, get the (in-memory) next. Usually the next
 * doesn't belongs to the same vnode.
 */
static inline struct chfs_node_ref *
node_next(struct chfs_node_ref *nref)
{
	/* step to the next nref in the same block */
	nref++;

	/* REF_LINK_TO_NEXT means that the next node will be in the next block */
	if (nref->nref_lnr == REF_LINK_TO_NEXT) {
		nref = nref->nref_next;
		if (!nref)
			return nref;
	}

	/* REF_EMPTY_NODE means that this is the last node */
	if (nref->nref_lnr == REF_EMPTY_NODE) {
		return NULL;
	}

	return nref;
}

/* struct chfs_dirent - full representation of a directory entry */
struct chfs_dirent
{
	struct chfs_node_ref *nref;		/* nref of the dirent */
	TAILQ_ENTRY(chfs_dirent) fds;	/* directory entries */
	uint64_t version;				/* version */
	ino_t vno;						/* vnode number */
	uint32_t nhash;					/* name hash */
	enum chtype type;				/* type of the dirent */
	uint8_t  nsize;					/* length of its name */
	uint8_t  name[0];				/* name of the directory */
};

/* struct chfs_tmp_dnode - used temporarly while building a data node */
struct chfs_tmp_dnode {
	struct chfs_full_dnode *node;	/* associated full dnode */
	uint64_t version;				/* version of the tmp node */
	uint32_t data_crc;				/* CRC of the data */
	uint16_t overlapped;			/* is overlapped */
	struct chfs_tmp_dnode *next;	/* next tmp node */
};

/* struct chfs_tmp_dnode_info - tmp nodes are stored in rb trees */
struct chfs_tmp_dnode_info {
	struct rb_node rb_node;			/* rb tree entry */
	struct chfs_tmp_dnode *tmpnode;	/* associated tmp node */
};

/* struct chfs_readinode_info - collection of tmp_dnodes */
struct chfs_readinode_info {
	struct rb_tree tdi_root;				/* root of the rb tree */
	struct chfs_tmp_dnode_info *mdata_tn;	/* metadata (eg: symlink) */
	uint64_t highest_version;				/* highest version of the nodes */
	struct chfs_node_ref *latest_ref;		/* latest node reference */
};

/* struct chfs_full_dnode - full data node */
struct chfs_full_dnode {
	struct chfs_node_ref *nref;		/* nref of the node */
	uint64_t ofs;					/* offset of the data node */
	uint32_t size;					/* size of the data node */
	uint32_t frags;					/* number of fragmentations */
};

/* struct chfs_node_frag - a fragment of a data node */
struct chfs_node_frag {
	struct rb_node rb_node;			/* rb tree entry */
	struct chfs_full_dnode *node;	/* associated full dnode */
	uint32_t size;					/* size of the fragment */
	uint64_t ofs;					/* offset of the fragment */
};

/* find the first fragment of a data node */
static inline struct chfs_node_frag *
frag_first(struct rb_tree *tree)
{
	struct chfs_node_frag *frag;

	frag = (struct chfs_node_frag *)RB_TREE_MIN(tree);

	return frag;
}

/* find the last fragment of a data node */
static inline struct chfs_node_frag *
frag_last(struct rb_tree *tree)
{
	struct chfs_node_frag *frag;

	frag = (struct chfs_node_frag *)RB_TREE_MAX(tree);

	return frag;
}

/* iterate the fragtree */
#define frag_next(tree, frag) (struct chfs_node_frag *)rb_tree_iterate(tree, frag, RB_DIR_RIGHT)
#define frag_prev(tree, frag) (struct chfs_node_frag *)rb_tree_iterate(tree, frag, RB_DIR_LEFT)


/* struct chfs_vnode_cache - in memory representation of a file or directory */
struct chfs_vnode_cache {
	/*
	 * void *p must be the first field of the structure
	 * but I can't remember where we use it and exactly for what
	 */
	void *p;
	struct chfs_dirent_list scan_dirents;	/* used during scanning */

	struct chfs_node_ref *v;			/* list of node informations */
	struct chfs_node_ref *dnode;		/* list of data nodes */
	struct chfs_node_ref *dirents;		/* list of directory entries */

	uint64_t *vno_version;				/* version of the vnode */
	uint64_t highest_version;			/* highest version of dnodes */

	uint8_t flags;						/* flags */
	uint16_t state;						/* actual state */
	ino_t vno;							/* vnode number */
	ino_t pvno;							/* vnode number of parent */
	struct chfs_vnode_cache* next;		/* next element of vnode cache */
	uint32_t nlink;						/* number of links to the file */
};

/* struct chfs_eraseblock - representation of an eraseblock */
struct chfs_eraseblock
{
	uint32_t lnr;		/* LEB number of the block*/

	TAILQ_ENTRY(chfs_eraseblock) queue;	/* queue entry */

	uint32_t unchecked_size;			/* GC doesn't checked yet */
	uint32_t used_size;					/* size of nodes */
	uint32_t dirty_size;				/* size of obsoleted nodes */
	uint32_t free_size;					/* available size */
	uint32_t wasted_size;				/* paddings */

	struct chfs_node_ref *first_node;	/* first node of the block */
	struct chfs_node_ref *last_node;	/* last node of the block */

	struct chfs_node_ref *gc_node;		/* next node from the block
										   which isn't garbage collected yet */
};

/* eraseblock queue */
TAILQ_HEAD(chfs_eraseblock_queue, chfs_eraseblock);

/* space allocation types */
#define ALLOC_NORMAL    0	/* allocating for normal usage (write, etc.) */
#define ALLOC_DELETION	1	/* allocating for deletion */
#define ALLOC_GC        2	/* allocating for the GC */

/* struct garbage_collector_thread - descriptor of GC thread */
struct garbage_collector_thread {
	lwp_t *gcth_thread;
	kcondvar_t gcth_wakeup;
	bool gcth_running;
};

/* states of mounting */
#define CHFS_MP_FLAG_SCANNING 2
#define CHFS_MP_FLAG_BUILDING 4

/* struct chfs_mount - CHFS main descriptor structure */
struct chfs_mount {
	struct mount *chm_fsmp;		/* general mount descriptor */
	struct chfs_ebh *chm_ebh;	/* eraseblock handler */
	int chm_fs_version;			/* version of the FS */
	uint64_t chm_gbl_version;	/* */
	ino_t chm_max_vno;			/* maximum of vnode numbers */
	ino_t chm_checked_vno;		/* vnode number of the last checked node */
	unsigned int chm_flags;		/* filesystem flags */

	/*
	 * chm_lock_mountfields:
	 * Used to protect all the following fields.
	 */
	kmutex_t chm_lock_mountfields;

	struct chfs_vnode_cache **chm_vnocache_hash;	/* hash table
													   of vnode caches */

	/*
	 * chm_lock_vnocache:
	 * Used to protect the vnode cache.
	 * If you have to lock chm_lock_mountfields and also chm_lock_vnocache,
	 * you must lock chm_lock_mountfields first.
	 */
	kmutex_t chm_lock_vnocache;

	struct chfs_eraseblock *chm_blocks;		/* list of eraseblocks */

	struct chfs_node *chm_root;		/* root node */

	uint32_t chm_free_size;			/* available space */
	uint32_t chm_dirty_size;		/* size of contained obsoleted nodes */
	uint32_t chm_unchecked_size;	/* GC doesn't checked yet */
	uint32_t chm_used_size;			/* size of contained nodes */
	uint32_t chm_wasted_size;		/* padding */

	/*
	 * chm_lock_sizes:
	 * Used to protect the (free, used, etc.) sizes of the FS
	 * (and also the sizes of each eraseblock).
	 * If you have to lock chm_lock_mountfields and also chm_lock_sizes,
	 * you must lock chm_lock_mountfields first.
	 */
	kmutex_t chm_lock_sizes;

	/*
	 * eraseblock queues
	 * free: completly free
	 * clean: contains only valid data
	 * dirty: contains valid and deleted data
	 * very_dirty: contains mostly deleted data (should be GC'd)
	 * erasable: doesn't contain valid data (should be erased)
	 * erase_pending: we can erase blocks from this queue
	 */
	struct chfs_eraseblock_queue chm_free_queue;
	struct chfs_eraseblock_queue chm_clean_queue;
	struct chfs_eraseblock_queue chm_dirty_queue;
	struct chfs_eraseblock_queue chm_very_dirty_queue;
	struct chfs_eraseblock_queue chm_erasable_pending_wbuf_queue;
	struct chfs_eraseblock_queue chm_erase_pending_queue;

	/* reserved blocks */
	uint8_t chm_resv_blocks_deletion;
	uint8_t chm_resv_blocks_write;
	uint8_t chm_resv_blocks_gctrigger;
	uint8_t chm_resv_blocks_gcmerge;
	uint8_t chm_nospc_dirty;

	uint8_t chm_vdirty_blocks_gctrigger;	/* GC trigger if the filesystem is
											   very dirty */

	struct chfs_eraseblock *chm_nextblock;	/* next block for usage */

	struct garbage_collector_thread chm_gc_thread;	/* descriptor of
													   GC thread */
	struct chfs_eraseblock *chm_gcblock;	/* next block for GC */

	int chm_nr_free_blocks;		/* number of free blocks */
	int chm_nr_erasable_blocks;	/* number of eraseable blocks */

	/* FS constants, used during writing */
	int32_t chm_fs_bmask;
	int32_t chm_fs_bsize;
	int32_t chm_fs_qbmask;
	int32_t chm_fs_bshift;
	int32_t chm_fs_fmask;
	int64_t chm_fs_qfmask;

	/* TODO will we use these? */
	unsigned int		chm_pages_max;
	unsigned int		chm_pages_used;
	struct chfs_pool	chm_dirent_pool;
	struct chfs_pool	chm_node_pool;
	struct chfs_str_pool	chm_str_pool;
	/**/

	size_t chm_wbuf_pagesize;	/* writebuffer's size */
	unsigned char* chm_wbuf;	/* writebuffer */
	size_t chm_wbuf_ofs;		/* actual offset of writebuffer */
	size_t chm_wbuf_len;		/* actual length of writebuffer */

	/*
	 * chm_lock_wbuf:
	 * Used to protect the write buffer.
	 * If you have to lock chm_lock_mountfields and also chm_lock_wbuf,
	 * you must lock chm_lock_mountfields first.
	 */
	krwlock_t chm_lock_wbuf;
};

/*
 * TODO we should move here all of these from the bottom of the file
 * Macros/functions to convert from generic data structures to chfs
 * specific ones.
 */

/* directory entry offsets */
#define	CHFS_OFFSET_DOT		0	/* this */
#define	CHFS_OFFSET_DOTDOT	1	/* parent */
#define CHFS_OFFSET_EOF		2	/* after last */
#define CHFS_OFFSET_FIRST	3	/* first */


/*---------------------------------------------------------------------------*/

/* chfs_build.c */
void chfs_calc_trigger_levels(struct chfs_mount *);
int chfs_build_filesystem(struct chfs_mount *);
void chfs_build_set_vnodecache_nlink(struct chfs_mount *,
    struct chfs_vnode_cache *);
void chfs_build_remove_unlinked_vnode(struct chfs_mount *,
    struct chfs_vnode_cache *, struct chfs_dirent_list *);

/* chfs_scan.c */
int chfs_scan_eraseblock(struct chfs_mount *, struct chfs_eraseblock *);
struct chfs_vnode_cache *chfs_scan_make_vnode_cache(struct chfs_mount *,
    ino_t);
int chfs_scan_check_node_hdr(struct chfs_flash_node_hdr *);
int chfs_scan_check_vnode(struct chfs_mount *,
    struct chfs_eraseblock *, void *, off_t);
int chfs_scan_mark_dirent_obsolete(struct chfs_mount *,
    struct chfs_vnode_cache *, struct chfs_dirent *);
void chfs_add_fd_to_list(struct chfs_mount *,
    struct chfs_dirent *, struct chfs_vnode_cache *);
int chfs_scan_check_dirent_node(struct chfs_mount *,
    struct chfs_eraseblock *, void *, off_t);
int chfs_scan_check_data_node(struct chfs_mount *,
    struct chfs_eraseblock *, void *, off_t);
int chfs_scan_classify_cheb(struct chfs_mount *,
    struct chfs_eraseblock *);

/* chfs_nodeops.c */
int chfs_update_eb_dirty(struct chfs_mount *,
    struct chfs_eraseblock *, uint32_t);
void chfs_add_node_to_list(struct chfs_mount *, struct chfs_vnode_cache *,
    struct chfs_node_ref *, struct chfs_node_ref **);
void chfs_remove_node_from_list(struct chfs_mount *, struct chfs_vnode_cache *,
    struct chfs_node_ref *, struct chfs_node_ref **);
void chfs_remove_and_obsolete(struct chfs_mount *, struct chfs_vnode_cache *,
    struct chfs_node_ref *, struct chfs_node_ref **);
void chfs_add_fd_to_inode(struct chfs_mount *,
    struct chfs_inode *, struct chfs_dirent *);
void chfs_add_vnode_ref_to_vc(struct chfs_mount *, struct chfs_vnode_cache *,
    struct chfs_node_ref *);
struct chfs_node_ref* chfs_nref_next(struct chfs_node_ref *);
int chfs_nref_len(struct chfs_mount *,
    struct chfs_eraseblock *, struct chfs_node_ref *);
int chfs_close_eraseblock(struct chfs_mount *,
    struct chfs_eraseblock *);
int chfs_reserve_space_normal(struct chfs_mount *, uint32_t, int);
int chfs_reserve_space_gc(struct chfs_mount *, uint32_t);
int chfs_reserve_space(struct chfs_mount *, uint32_t);
void chfs_mark_node_obsolete(struct chfs_mount *, struct chfs_node_ref *);

/*
 * Find out the corresponding vnode cache from an nref.
 * Every last element of a linked list of nrefs is the vnode cache.
 */
static inline struct chfs_vnode_cache *
chfs_nref_to_vc(struct chfs_node_ref *nref)
{
	/* iterate the whole list */
	while (nref->nref_next) {
		nref = nref->nref_next;
		if (nref->nref_lnr == REF_LINK_TO_NEXT) {
			dbg("Link to next!\n");
		} else if (nref->nref_lnr == REF_EMPTY_NODE) {
			dbg("Empty!\n");
		}
	}

	struct chfs_vnode_cache *vc = (struct chfs_vnode_cache *) nref;
	dbg("vno: %ju, pvno: %ju, hv: %ju, nlink: %u\n", (intmax_t )vc->vno,
	    (intmax_t )vc->pvno, (intmax_t )vc->highest_version, vc->nlink);
	return vc;
}


/* chfs_malloc.c */
int chfs_alloc_pool_caches(void);
void chfs_destroy_pool_caches(void);
struct chfs_vnode_cache* chfs_vnode_cache_alloc(ino_t);
void chfs_vnode_cache_free(struct chfs_vnode_cache *);
struct chfs_node_ref* chfs_alloc_node_ref(
	struct chfs_eraseblock *);
void chfs_free_node_refs(struct chfs_eraseblock *);
struct chfs_dirent* chfs_alloc_dirent(int);
void chfs_free_dirent(struct chfs_dirent *);
struct chfs_flash_vnode* chfs_alloc_flash_vnode(void);
void chfs_free_flash_vnode(struct chfs_flash_vnode *);
struct chfs_flash_dirent_node* chfs_alloc_flash_dirent(void);
void chfs_free_flash_dirent(struct chfs_flash_dirent_node *);
struct chfs_flash_data_node* chfs_alloc_flash_dnode(void);
void chfs_free_flash_dnode(struct chfs_flash_data_node *);
struct chfs_node_frag* chfs_alloc_node_frag(void);
void chfs_free_node_frag(struct chfs_node_frag *);
struct chfs_node_ref* chfs_alloc_refblock(void);
void chfs_free_refblock(struct chfs_node_ref *);
struct chfs_full_dnode* chfs_alloc_full_dnode(void);
void chfs_free_full_dnode(struct chfs_full_dnode *);
struct chfs_tmp_dnode * chfs_alloc_tmp_dnode(void);
void chfs_free_tmp_dnode(struct chfs_tmp_dnode *);
struct chfs_tmp_dnode_info * chfs_alloc_tmp_dnode_info(void);
void chfs_free_tmp_dnode_info(struct chfs_tmp_dnode_info *);

/* chfs_readinode.c */
int chfs_read_inode(struct chfs_mount *, struct chfs_inode *);
int chfs_read_inode_internal(struct chfs_mount *, struct chfs_inode *);
void chfs_remove_frags_of_node(struct chfs_mount *, struct rb_tree *,
	struct chfs_node_ref *);
void chfs_kill_fragtree(struct chfs_mount *, struct rb_tree *);
uint32_t chfs_truncate_fragtree(struct chfs_mount *,
	struct rb_tree *, uint32_t);
int chfs_add_full_dnode_to_inode(struct chfs_mount *,
    struct chfs_inode *,
    struct chfs_full_dnode *);
int chfs_read_data(struct chfs_mount*, struct vnode *,
    struct buf *);

/* chfs_erase.c */
int chfs_remap_leb(struct chfs_mount *);

/* chfs_gc.c */
void chfs_gc_trigger(struct chfs_mount *);
int chfs_gc_thread_should_wake(struct chfs_mount *);
void chfs_gc_thread(void *);
void chfs_gc_thread_start(struct chfs_mount *);
void chfs_gc_thread_stop(struct chfs_mount *);
int chfs_gcollect_pass(struct chfs_mount *);

/* chfs_vfsops.c*/
int chfs_gop_alloc(struct vnode *, off_t, off_t,  int, kauth_cred_t);
int chfs_mountfs(struct vnode *, struct mount *);

/* chfs_vnops.c */
extern int (**chfs_vnodeop_p)(void *);
extern int (**chfs_specop_p)(void *);
extern int (**chfs_fifoop_p)(void *);
int chfs_lookup(void *);
int chfs_create(void *);
int chfs_mknod(void *);
int chfs_open(void *);
int chfs_close(void *);
int chfs_access(void *);
int chfs_getattr(void *);
int chfs_setattr(void *);
int chfs_chown(struct vnode *, uid_t, gid_t, kauth_cred_t);
int chfs_chmod(struct vnode *, int, kauth_cred_t);
int chfs_read(void *);
int chfs_write(void *);
int chfs_fsync(void *);
int chfs_remove(void *);
int chfs_link(void *);
int chfs_rename(void *);
int chfs_mkdir(void *);
int chfs_rmdir(void *);
int chfs_symlink(void *);
int chfs_readdir(void *);
int chfs_readlink(void *);
int chfs_inactive(void *);
int chfs_reclaim(void *);
int chfs_advlock(void *);
int chfs_strategy(void *);
int chfs_bmap(void *);

/* chfs_vnode.c */
struct vnode *chfs_vnode_lookup(struct chfs_mount *, ino_t);
int chfs_readvnode(struct mount *, ino_t, struct vnode **);
int chfs_readdirent(struct mount *, struct chfs_node_ref *,
    struct chfs_inode *);
int chfs_makeinode(int, struct vnode *, struct vnode **,
    struct componentname *, enum vtype );
void chfs_set_vnode_size(struct vnode *, size_t);
void chfs_change_size_free(struct chfs_mount *,
	struct chfs_eraseblock *, int);
void chfs_change_size_dirty(struct chfs_mount *,
	struct chfs_eraseblock *, int);
void chfs_change_size_unchecked(struct chfs_mount *,
	struct chfs_eraseblock *, int);
void chfs_change_size_used(struct chfs_mount *,
	struct chfs_eraseblock *, int);
void chfs_change_size_wasted(struct chfs_mount *,
	struct chfs_eraseblock *, int);

/* chfs_vnode_cache.c */
struct chfs_vnode_cache **chfs_vnocache_hash_init(void);
void chfs_vnocache_hash_destroy(struct chfs_vnode_cache **);
struct chfs_vnode_cache* chfs_vnode_cache_get(struct chfs_mount *, ino_t);
void chfs_vnode_cache_add(struct chfs_mount *, struct chfs_vnode_cache *);
void chfs_vnode_cache_remove(struct chfs_mount *, struct chfs_vnode_cache *);

/* chfs_wbuf.c */
int chfs_write_wbuf(struct chfs_mount*,
    const struct iovec *, long, off_t, size_t *);
int chfs_flush_pending_wbuf(struct chfs_mount *);

/* chfs_write.c */
int chfs_write_flash_vnode(struct chfs_mount *, struct chfs_inode *, int);
int chfs_write_flash_dirent(struct chfs_mount *, struct chfs_inode *,
    struct chfs_inode *, struct chfs_dirent *, ino_t, int);
int chfs_write_flash_dnode(struct chfs_mount *, struct vnode *,
    struct buf *, struct chfs_full_dnode *);
int chfs_do_link(struct chfs_inode *,
    struct chfs_inode *, const char *, int, enum chtype);
int chfs_do_unlink(struct chfs_inode *,
    struct chfs_inode *, const char *, int);

/* chfs_subr.c */
size_t chfs_mem_info(bool);
struct chfs_dirent * chfs_dir_lookup(struct chfs_inode *,
    struct componentname *);
int chfs_filldir (struct uio *, ino_t, const char *, int, enum chtype);
int chfs_chsize(struct vnode *, u_quad_t, kauth_cred_t);
int chfs_chflags(struct vnode *, int, kauth_cred_t);
void chfs_itimes(struct chfs_inode *, const struct timespec *,
    const struct timespec *, const struct timespec *);
int	chfs_update(struct vnode *, const struct timespec *,
    const struct timespec *, int);

/*---------------------------------------------------------------------------*/

/* Some inline functions temporarily placed here */

/* chfs_map_leb - corresponds to ebh_map_leb */
static inline int
chfs_map_leb(struct chfs_mount *chmp, int lnr)
{
	int err;

	err = ebh_map_leb(chmp->chm_ebh, lnr);
	if (err)
		chfs_err("unmap leb %d failed, error: %d\n",lnr, err);

	return err;

}

/* chfs_unmap_leb - corresponds to ebh_unmap_leb */
static inline int
chfs_unmap_leb(struct chfs_mount *chmp, int lnr)
{
	int err;

	err = ebh_unmap_leb(chmp->chm_ebh, lnr);
	if (err)
		chfs_err("unmap leb %d failed, error: %d\n",lnr, err);

	return err;
}

/* chfs_read_leb - corresponds to ebh_read_leb */
static inline int
chfs_read_leb(struct chfs_mount *chmp, int lnr, char *buf,
    int offset, int len, size_t *retlen)
{
	int err;

	err = ebh_read_leb(chmp->chm_ebh, lnr, buf, offset, len, retlen);
	if (err)
		chfs_err("read leb %d:%d failed, error: %d\n",
		    lnr, offset, err);

	return err;
}

/* chfs_write_leb - corresponds to ebh_write_leb */
static inline int chfs_write_leb(struct chfs_mount *chmp, int lnr, char *buf,
    int offset, int len, size_t *retlen)
{
	int err;
	err = ebh_write_leb(chmp->chm_ebh, lnr, buf, offset, len, retlen);
	if (err)
		chfs_err("write leb %d:%d failed, error: %d\n",
		    lnr, offset, err);

	return err;
}

/* --------------------------------------------------------------------- */

#define CHFS_PAGES_RESERVED (4 * 1024 * 1024 / PAGE_SIZE)

static __inline size_t
CHFS_PAGES_MAX(struct chfs_mount *chmp)
{
	size_t freepages;

	freepages = chfs_mem_info(false);
	if (freepages < CHFS_PAGES_RESERVED)
		freepages = 0;
	else
		freepages -= CHFS_PAGES_RESERVED;

	return MIN(chmp->chm_pages_max, freepages + chmp->chm_pages_used);
}

#define	CHFS_ITIMES(ip, acc, mod, cre)				      \
	while ((ip)->iflag & (IN_ACCESS | IN_CHANGE | IN_UPDATE | IN_MODIFY)) \
		chfs_itimes(ip, acc, mod, cre)

/* used for KASSERTs */
#define IMPLIES(a, b) (!(a) || (b))
#define IFF(a, b) (IMPLIES(a, b) && IMPLIES(b, a))

#endif /* _KERNEL */
#endif /* __CHFS_H__ */