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/*
 * fs/f2fs/f2fs.h
 *
 * Copyright (c) 2012 Samsung Electronics Co., Ltd.
 *             http://www.samsung.com/
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 */
#ifndef _LINUX_F2FS_H
#define _LINUX_F2FS_H

#include <linux/types.h>
#include <linux/page-flags.h>
#include <linux/buffer_head.h>
#include <linux/slab.h>
#include <linux/crc32.h>
#include <linux/magic.h>
#include <linux/kobject.h>
#include <linux/sched.h>

#ifdef CONFIG_F2FS_CHECK_FS
#define f2fs_bug_on(sbi, condition)	BUG_ON(condition)
#define f2fs_down_write(x, y)	down_write_nest_lock(x, y)
#else
#define f2fs_bug_on(sbi, condition)					\
	do {								\
		if (unlikely(condition)) {				\
			WARN_ON(1);					\
			sbi->need_fsck = true;				\
		}							\
	} while (0)
#define f2fs_down_write(x, y)	down_write(x)
#endif

/*
 * For mount options
 */
#define F2FS_MOUNT_BG_GC		0x00000001
#define F2FS_MOUNT_DISABLE_ROLL_FORWARD	0x00000002
#define F2FS_MOUNT_DISCARD		0x00000004
#define F2FS_MOUNT_NOHEAP		0x00000008
#define F2FS_MOUNT_XATTR_USER		0x00000010
#define F2FS_MOUNT_POSIX_ACL		0x00000020
#define F2FS_MOUNT_DISABLE_EXT_IDENTIFY	0x00000040
#define F2FS_MOUNT_INLINE_XATTR		0x00000080
#define F2FS_MOUNT_INLINE_DATA		0x00000100
#define F2FS_MOUNT_FLUSH_MERGE		0x00000200
#define F2FS_MOUNT_NOBARRIER		0x00000400

#define clear_opt(sbi, option)	(sbi->mount_opt.opt &= ~F2FS_MOUNT_##option)
#define set_opt(sbi, option)	(sbi->mount_opt.opt |= F2FS_MOUNT_##option)
#define test_opt(sbi, option)	(sbi->mount_opt.opt & F2FS_MOUNT_##option)

#define ver_after(a, b)	(typecheck(unsigned long long, a) &&		\
		typecheck(unsigned long long, b) &&			\
		((long long)((a) - (b)) > 0))

typedef u32 block_t;	/*
			 * should not change u32, since it is the on-disk block
			 * address format, __le32.
			 */
typedef u32 nid_t;

struct f2fs_mount_info {
	unsigned int	opt;
};

#define CRCPOLY_LE 0xedb88320

static inline __u32 f2fs_crc32(void *buf, size_t len)
{
	unsigned char *p = (unsigned char *)buf;
	__u32 crc = F2FS_SUPER_MAGIC;
	int i;

	while (len--) {
		crc ^= *p++;
		for (i = 0; i < 8; i++)
			crc = (crc >> 1) ^ ((crc & 1) ? CRCPOLY_LE : 0);
	}
	return crc;
}

static inline bool f2fs_crc_valid(__u32 blk_crc, void *buf, size_t buf_size)
{
	return f2fs_crc32(buf, buf_size) == blk_crc;
}

/*
 * For checkpoint manager
 */
enum {
	NAT_BITMAP,
	SIT_BITMAP
};

enum {
	CP_UMOUNT,
	CP_SYNC,
	CP_DISCARD,
};

struct cp_control {
	int reason;
	__u64 trim_start;
	__u64 trim_end;
	__u64 trim_minlen;
	__u64 trimmed;
};

/*
 * For CP/NAT/SIT/SSA readahead
 */
enum {
	META_CP,
	META_NAT,
	META_SIT,
	META_SSA,
	META_POR,
};

/* for the list of ino */
enum {
	ORPHAN_INO,		/* for orphan ino list */
	APPEND_INO,		/* for append ino list */
	UPDATE_INO,		/* for update ino list */
	MAX_INO_ENTRY,		/* max. list */
};

struct ino_entry {
	struct list_head list;	/* list head */
	nid_t ino;		/* inode number */
};

/* for the list of directory inodes */
struct dir_inode_entry {
	struct list_head list;	/* list head */
	struct inode *inode;	/* vfs inode pointer */
};

/* for the list of blockaddresses to be discarded */
struct discard_entry {
	struct list_head list;	/* list head */
	block_t blkaddr;	/* block address to be discarded */
	int len;		/* # of consecutive blocks of the discard */
};

/* for the list of fsync inodes, used only during recovery */
struct fsync_inode_entry {
	struct list_head list;	/* list head */
	struct inode *inode;	/* vfs inode pointer */
	block_t blkaddr;	/* block address locating the last fsync */
	block_t last_dentry;	/* block address locating the last dentry */
	block_t last_inode;	/* block address locating the last inode */
};

#define nats_in_cursum(sum)		(le16_to_cpu(sum->n_nats))
#define sits_in_cursum(sum)		(le16_to_cpu(sum->n_sits))

#define nat_in_journal(sum, i)		(sum->nat_j.entries[i].ne)
#define nid_in_journal(sum, i)		(sum->nat_j.entries[i].nid)
#define sit_in_journal(sum, i)		(sum->sit_j.entries[i].se)
#define segno_in_journal(sum, i)	(sum->sit_j.entries[i].segno)

#define MAX_NAT_JENTRIES(sum)	(NAT_JOURNAL_ENTRIES - nats_in_cursum(sum))
#define MAX_SIT_JENTRIES(sum)	(SIT_JOURNAL_ENTRIES - sits_in_cursum(sum))

static inline int update_nats_in_cursum(struct f2fs_summary_block *rs, int i)
{
	int before = nats_in_cursum(rs);
	rs->n_nats = cpu_to_le16(before + i);
	return before;
}

static inline int update_sits_in_cursum(struct f2fs_summary_block *rs, int i)
{
	int before = sits_in_cursum(rs);
	rs->n_sits = cpu_to_le16(before + i);
	return before;
}

static inline bool __has_cursum_space(struct f2fs_summary_block *sum, int size,
								int type)
{
	if (type == NAT_JOURNAL)
		return size <= MAX_NAT_JENTRIES(sum);
	return size <= MAX_SIT_JENTRIES(sum);
}

/*
 * ioctl commands
 */
#define F2FS_IOC_GETFLAGS		FS_IOC_GETFLAGS
#define F2FS_IOC_SETFLAGS		FS_IOC_SETFLAGS

#define F2FS_IOCTL_MAGIC		0xf5
#define F2FS_IOC_START_ATOMIC_WRITE	_IO(F2FS_IOCTL_MAGIC, 1)
#define F2FS_IOC_COMMIT_ATOMIC_WRITE	_IO(F2FS_IOCTL_MAGIC, 2)
#define F2FS_IOC_START_VOLATILE_WRITE	_IO(F2FS_IOCTL_MAGIC, 3)

#if defined(__KERNEL__) && defined(CONFIG_COMPAT)
/*
 * ioctl commands in 32 bit emulation
 */
#define F2FS_IOC32_GETFLAGS             FS_IOC32_GETFLAGS
#define F2FS_IOC32_SETFLAGS             FS_IOC32_SETFLAGS
#endif

/*
 * For INODE and NODE manager
 */
/*
 * XATTR_NODE_OFFSET stores xattrs to one node block per file keeping -1
 * as its node offset to distinguish from index node blocks.
 * But some bits are used to mark the node block.
 */
#define XATTR_NODE_OFFSET	((((unsigned int)-1) << OFFSET_BIT_SHIFT) \
				>> OFFSET_BIT_SHIFT)
enum {
	ALLOC_NODE,			/* allocate a new node page if needed */
	LOOKUP_NODE,			/* look up a node without readahead */
	LOOKUP_NODE_RA,			/*
					 * look up a node with readahead called
					 * by get_data_block.
					 */
};

#define F2FS_LINK_MAX		32000	/* maximum link count per file */

#define MAX_DIR_RA_PAGES	4	/* maximum ra pages of dir */

/* for in-memory extent cache entry */
#define F2FS_MIN_EXTENT_LEN	16	/* minimum extent length */

struct extent_info {
	rwlock_t ext_lock;	/* rwlock for consistency */
	unsigned int fofs;	/* start offset in a file */
	u32 blk_addr;		/* start block address of the extent */
	unsigned int len;	/* length of the extent */
};

/*
 * i_advise uses FADVISE_XXX_BIT. We can add additional hints later.
 */
#define FADVISE_COLD_BIT	0x01
#define FADVISE_LOST_PINO_BIT	0x02

#define DEF_DIR_LEVEL		0

struct f2fs_inode_info {
	struct inode vfs_inode;		/* serve a vfs inode */
	unsigned long i_flags;		/* keep an inode flags for ioctl */
	unsigned char i_advise;		/* use to give file attribute hints */
	unsigned char i_dir_level;	/* use for dentry level for large dir */
	unsigned int i_current_depth;	/* use only in directory structure */
	unsigned int i_pino;		/* parent inode number */
	umode_t i_acl_mode;		/* keep file acl mode temporarily */

	/* Use below internally in f2fs*/
	unsigned long flags;		/* use to pass per-file flags */
	struct rw_semaphore i_sem;	/* protect fi info */
	atomic_t dirty_pages;		/* # of dirty pages */
	f2fs_hash_t chash;		/* hash value of given file name */
	unsigned int clevel;		/* maximum level of given file name */
	nid_t i_xattr_nid;		/* node id that contains xattrs */
	unsigned long long xattr_ver;	/* cp version of xattr modification */
	struct extent_info ext;		/* in-memory extent cache entry */
	struct dir_inode_entry *dirty_dir;	/* the pointer of dirty dir */

	struct list_head inmem_pages;	/* inmemory pages managed by f2fs */
	struct mutex inmem_lock;	/* lock for inmemory pages */
};

static inline void get_extent_info(struct extent_info *ext,
					struct f2fs_extent i_ext)
{
	write_lock(&ext->ext_lock);
	ext->fofs = le32_to_cpu(i_ext.fofs);
	ext->blk_addr = le32_to_cpu(i_ext.blk_addr);
	ext->len = le32_to_cpu(i_ext.len);
	write_unlock(&ext->ext_lock);
}

static inline void set_raw_extent(struct extent_info *ext,
					struct f2fs_extent *i_ext)
{
	read_lock(&ext->ext_lock);
	i_ext->fofs = cpu_to_le32(ext->fofs);
	i_ext->blk_addr = cpu_to_le32(ext->blk_addr);
	i_ext->len = cpu_to_le32(ext->len);
	read_unlock(&ext->ext_lock);
}

struct f2fs_nm_info {
	block_t nat_blkaddr;		/* base disk address of NAT */
	nid_t max_nid;			/* maximum possible node ids */
	nid_t available_nids;		/* maximum available node ids */
	nid_t next_scan_nid;		/* the next nid to be scanned */
	unsigned int ram_thresh;	/* control the memory footprint */

	/* NAT cache management */
	struct radix_tree_root nat_root;/* root of the nat entry cache */
	struct radix_tree_root nat_set_root;/* root of the nat set cache */
	rwlock_t nat_tree_lock;		/* protect nat_tree_lock */
	struct list_head nat_entries;	/* cached nat entry list (clean) */
	unsigned int nat_cnt;		/* the # of cached nat entries */
	unsigned int dirty_nat_cnt;	/* total num of nat entries in set */

	/* free node ids management */
	struct radix_tree_root free_nid_root;/* root of the free_nid cache */
	struct list_head free_nid_list;	/* a list for free nids */
	spinlock_t free_nid_list_lock;	/* protect free nid list */
	unsigned int fcnt;		/* the number of free node id */
	struct mutex build_lock;	/* lock for build free nids */

	/* for checkpoint */
	char *nat_bitmap;		/* NAT bitmap pointer */
	int bitmap_size;		/* bitmap size */
};

/*
 * this structure is used as one of function parameters.
 * all the information are dedicated to a given direct node block determined
 * by the data offset in a file.
 */
struct dnode_of_data {
	struct inode *inode;		/* vfs inode pointer */
	struct page *inode_page;	/* its inode page, NULL is possible */
	struct page *node_page;		/* cached direct node page */
	nid_t nid;			/* node id of the direct node block */
	unsigned int ofs_in_node;	/* data offset in the node page */
	bool inode_page_locked;		/* inode page is locked or not */
	block_t	data_blkaddr;		/* block address of the node block */
};

static inline void set_new_dnode(struct dnode_of_data *dn, struct inode *inode,
		struct page *ipage, struct page *npage, nid_t nid)
{
	memset(dn, 0, sizeof(*dn));
	dn->inode = inode;
	dn->inode_page = ipage;
	dn->node_page = npage;
	dn->nid = nid;
}

/*
 * For SIT manager
 *
 * By default, there are 6 active log areas across the whole main area.
 * When considering hot and cold data separation to reduce cleaning overhead,
 * we split 3 for data logs and 3 for node logs as hot, warm, and cold types,
 * respectively.
 * In the current design, you should not change the numbers intentionally.
 * Instead, as a mount option such as active_logs=x, you can use 2, 4, and 6
 * logs individually according to the underlying devices. (default: 6)
 * Just in case, on-disk layout covers maximum 16 logs that consist of 8 for
 * data and 8 for node logs.
 */
#define	NR_CURSEG_DATA_TYPE	(3)
#define NR_CURSEG_NODE_TYPE	(3)
#define NR_CURSEG_TYPE	(NR_CURSEG_DATA_TYPE + NR_CURSEG_NODE_TYPE)

enum {
	CURSEG_HOT_DATA	= 0,	/* directory entry blocks */
	CURSEG_WARM_DATA,	/* data blocks */
	CURSEG_COLD_DATA,	/* multimedia or GCed data blocks */
	CURSEG_HOT_NODE,	/* direct node blocks of directory files */
	CURSEG_WARM_NODE,	/* direct node blocks of normal files */
	CURSEG_COLD_NODE,	/* indirect node blocks */
	NO_CHECK_TYPE
};

struct flush_cmd {
	struct completion wait;
	struct llist_node llnode;
	int ret;
};

struct flush_cmd_control {
	struct task_struct *f2fs_issue_flush;	/* flush thread */
	wait_queue_head_t flush_wait_queue;	/* waiting queue for wake-up */
	struct llist_head issue_list;		/* list for command issue */
	struct llist_node *dispatch_list;	/* list for command dispatch */
};

struct f2fs_sm_info {
	struct sit_info *sit_info;		/* whole segment information */
	struct free_segmap_info *free_info;	/* free segment information */
	struct dirty_seglist_info *dirty_info;	/* dirty segment information */
	struct curseg_info *curseg_array;	/* active segment information */

	block_t seg0_blkaddr;		/* block address of 0'th segment */
	block_t main_blkaddr;		/* start block address of main area */
	block_t ssa_blkaddr;		/* start block address of SSA area */

	unsigned int segment_count;	/* total # of segments */
	unsigned int main_segments;	/* # of segments in main area */
	unsigned int reserved_segments;	/* # of reserved segments */
	unsigned int ovp_segments;	/* # of overprovision segments */

	/* a threshold to reclaim prefree segments */
	unsigned int rec_prefree_segments;

	/* for small discard management */
	struct list_head discard_list;		/* 4KB discard list */
	int nr_discards;			/* # of discards in the list */
	int max_discards;			/* max. discards to be issued */

	struct list_head sit_entry_set;	/* sit entry set list */

	unsigned int ipu_policy;	/* in-place-update policy */
	unsigned int min_ipu_util;	/* in-place-update threshold */
	unsigned int min_fsync_blocks;	/* threshold for fsync */

	/* for flush command control */
	struct flush_cmd_control *cmd_control_info;

};

/*
 * For superblock
 */
/*
 * COUNT_TYPE for monitoring
 *
 * f2fs monitors the number of several block types such as on-writeback,
 * dirty dentry blocks, dirty node blocks, and dirty meta blocks.
 */
enum count_type {
	F2FS_WRITEBACK,
	F2FS_DIRTY_DENTS,
	F2FS_DIRTY_NODES,
	F2FS_DIRTY_META,
	NR_COUNT_TYPE,
};

/*
 * The below are the page types of bios used in submit_bio().
 * The available types are:
 * DATA			User data pages. It operates as async mode.
 * NODE			Node pages. It operates as async mode.
 * META			FS metadata pages such as SIT, NAT, CP.
 * NR_PAGE_TYPE		The number of page types.
 * META_FLUSH		Make sure the previous pages are written
 *			with waiting the bio's completion
 * ...			Only can be used with META.
 */
#define PAGE_TYPE_OF_BIO(type)	((type) > META ? META : (type))
enum page_type {
	DATA,
	NODE,
	META,
	NR_PAGE_TYPE,
	META_FLUSH,
};

struct f2fs_io_info {
	enum page_type type;	/* contains DATA/NODE/META/META_FLUSH */
	int rw;			/* contains R/RS/W/WS with REQ_META/REQ_PRIO */
};

#define is_read_io(rw)	(((rw) & 1) == READ)
struct f2fs_bio_info {
	struct f2fs_sb_info *sbi;	/* f2fs superblock */
	struct bio *bio;		/* bios to merge */
	sector_t last_block_in_bio;	/* last block number */
	struct f2fs_io_info fio;	/* store buffered io info. */
	struct rw_semaphore io_rwsem;	/* blocking op for bio */
};

struct f2fs_sb_info {
	struct super_block *sb;			/* pointer to VFS super block */
	struct proc_dir_entry *s_proc;		/* proc entry */
	struct buffer_head *raw_super_buf;	/* buffer head of raw sb */
	struct f2fs_super_block *raw_super;	/* raw super block pointer */
	int s_dirty;				/* dirty flag for checkpoint */
	bool need_fsck;				/* need fsck.f2fs to fix */

	/* for node-related operations */
	struct f2fs_nm_info *nm_info;		/* node manager */
	struct inode *node_inode;		/* cache node blocks */

	/* for segment-related operations */
	struct f2fs_sm_info *sm_info;		/* segment manager */

	/* for bio operations */
	struct f2fs_bio_info read_io;			/* for read bios */
	struct f2fs_bio_info write_io[NR_PAGE_TYPE];	/* for write bios */
	struct completion *wait_io;		/* for completion bios */

	/* for checkpoint */
	struct f2fs_checkpoint *ckpt;		/* raw checkpoint pointer */
	struct inode *meta_inode;		/* cache meta blocks */
	struct mutex cp_mutex;			/* checkpoint procedure lock */
	struct rw_semaphore cp_rwsem;		/* blocking FS operations */
	struct rw_semaphore node_write;		/* locking node writes */
	struct mutex writepages;		/* mutex for writepages() */
	bool por_doing;				/* recovery is doing or not */
	wait_queue_head_t cp_wait;

	/* for inode management */
	struct radix_tree_root ino_root[MAX_INO_ENTRY];	/* ino entry array */
	spinlock_t ino_lock[MAX_INO_ENTRY];		/* for ino entry lock */
	struct list_head ino_list[MAX_INO_ENTRY];	/* inode list head */

	/* for orphan inode, use 0'th array */
	unsigned int n_orphans;			/* # of orphan inodes */
	unsigned int max_orphans;		/* max orphan inodes */

	/* for directory inode management */
	struct list_head dir_inode_list;	/* dir inode list */
	spinlock_t dir_inode_lock;		/* for dir inode list lock */

	/* basic filesystem units */
	unsigned int log_sectors_per_block;	/* log2 sectors per block */
	unsigned int log_blocksize;		/* log2 block size */
	unsigned int blocksize;			/* block size */
	unsigned int root_ino_num;		/* root inode number*/
	unsigned int node_ino_num;		/* node inode number*/
	unsigned int meta_ino_num;		/* meta inode number*/
	unsigned int log_blocks_per_seg;	/* log2 blocks per segment */
	unsigned int blocks_per_seg;		/* blocks per segment */
	unsigned int segs_per_sec;		/* segments per section */
	unsigned int secs_per_zone;		/* sections per zone */
	unsigned int total_sections;		/* total section count */
	unsigned int total_node_count;		/* total node block count */
	unsigned int total_valid_node_count;	/* valid node block count */
	unsigned int total_valid_inode_count;	/* valid inode count */
	int active_logs;			/* # of active logs */
	int dir_level;				/* directory level */

	block_t user_block_count;		/* # of user blocks */
	block_t total_valid_block_count;	/* # of valid blocks */
	block_t alloc_valid_block_count;	/* # of allocated blocks */
	block_t last_valid_block_count;		/* for recovery */
	u32 s_next_generation;			/* for NFS support */
	atomic_t nr_pages[NR_COUNT_TYPE];	/* # of pages, see count_type */

	struct f2fs_mount_info mount_opt;	/* mount options */

	/* for cleaning operations */
	struct mutex gc_mutex;			/* mutex for GC */
	struct f2fs_gc_kthread	*gc_thread;	/* GC thread */
	unsigned int cur_victim_sec;		/* current victim section num */

	/* maximum # of trials to find a victim segment for SSR and GC */
	unsigned int max_victim_search;

	/*
	 * for stat information.
	 * one is for the LFS mode, and the other is for the SSR mode.
	 */
#ifdef CONFIG_F2FS_STAT_FS
	struct f2fs_stat_info *stat_info;	/* FS status information */
	unsigned int segment_count[2];		/* # of allocated segments */
	unsigned int block_count[2];		/* # of allocated blocks */
	int total_hit_ext, read_hit_ext;	/* extent cache hit ratio */
	int inline_inode;			/* # of inline_data inodes */
	int bg_gc;				/* background gc calls */
	unsigned int n_dirty_dirs;		/* # of dir inodes */
#endif
	unsigned int last_victim[2];		/* last victim segment # */
	spinlock_t stat_lock;			/* lock for stat operations */

	/* For sysfs suppport */
	struct kobject s_kobj;
	struct completion s_kobj_unregister;
};

/*
 * Inline functions
 */
static inline struct f2fs_inode_info *F2FS_I(struct inode *inode)
{
	return container_of(inode, struct f2fs_inode_info, vfs_inode);
}

static inline struct f2fs_sb_info *F2FS_SB(struct super_block *sb)
{
	return sb->s_fs_info;
}

static inline struct f2fs_sb_info *F2FS_I_SB(struct inode *inode)
{
	return F2FS_SB(inode->i_sb);
}

static inline struct f2fs_sb_info *F2FS_M_SB(struct address_space *mapping)
{
	return F2FS_I_SB(mapping->host);
}

static inline struct f2fs_sb_info *F2FS_P_SB(struct page *page)
{
	return F2FS_M_SB(page->mapping);
}

static inline struct f2fs_super_block *F2FS_RAW_SUPER(struct f2fs_sb_info *sbi)
{
	return (struct f2fs_super_block *)(sbi->raw_super);
}

static inline struct f2fs_checkpoint *F2FS_CKPT(struct f2fs_sb_info *sbi)
{
	return (struct f2fs_checkpoint *)(sbi->ckpt);
}

static inline struct f2fs_node *F2FS_NODE(struct page *page)
{
	return (struct f2fs_node *)page_address(page);
}

static inline struct f2fs_inode *F2FS_INODE(struct page *page)
{
	return &((struct f2fs_node *)page_address(page))->i;
}

static inline struct f2fs_nm_info *NM_I(struct f2fs_sb_info *sbi)
{
	return (struct f2fs_nm_info *)(sbi->nm_info);
}

static inline struct f2fs_sm_info *SM_I(struct f2fs_sb_info *sbi)
{
	return (struct f2fs_sm_info *)(sbi->sm_info);
}

static inline struct sit_info *SIT_I(struct f2fs_sb_info *sbi)
{
	return (struct sit_info *)(SM_I(sbi)->sit_info);
}

static inline struct free_segmap_info *FREE_I(struct f2fs_sb_info *sbi)
{
	return (struct free_segmap_info *)(SM_I(sbi)->free_info);
}

static inline struct dirty_seglist_info *DIRTY_I(struct f2fs_sb_info *sbi)
{
	return (struct dirty_seglist_info *)(SM_I(sbi)->dirty_info);
}

static inline struct address_space *META_MAPPING(struct f2fs_sb_info *sbi)
{
	return sbi->meta_inode->i_mapping;
}

static inline struct address_space *NODE_MAPPING(struct f2fs_sb_info *sbi)
{
	return sbi->node_inode->i_mapping;
}

static inline void F2FS_SET_SB_DIRT(struct f2fs_sb_info *sbi)
{
	sbi->s_dirty = 1;
}

static inline void F2FS_RESET_SB_DIRT(struct f2fs_sb_info *sbi)
{
	sbi->s_dirty = 0;
}

static inline unsigned long long cur_cp_version(struct f2fs_checkpoint *cp)
{
	return le64_to_cpu(cp->checkpoint_ver);
}

static inline bool is_set_ckpt_flags(struct f2fs_checkpoint *cp, unsigned int f)
{
	unsigned int ckpt_flags = le32_to_cpu(cp->ckpt_flags);
	return ckpt_flags & f;
}

static inline void set_ckpt_flags(struct f2fs_checkpoint *cp, unsigned int f)
{
	unsigned int ckpt_flags = le32_to_cpu(cp->ckpt_flags);
	ckpt_flags |= f;
	cp->ckpt_flags = cpu_to_le32(ckpt_flags);
}

static inline void clear_ckpt_flags(struct f2fs_checkpoint *cp, unsigned int f)
{
	unsigned int ckpt_flags = le32_to_cpu(cp->ckpt_flags);
	ckpt_flags &= (~f);
	cp->ckpt_flags = cpu_to_le32(ckpt_flags);
}

static inline void f2fs_lock_op(struct f2fs_sb_info *sbi)
{
	down_read(&sbi->cp_rwsem);
}

static inline void f2fs_unlock_op(struct f2fs_sb_info *sbi)
{
	up_read(&sbi->cp_rwsem);
}

static inline void f2fs_lock_all(struct f2fs_sb_info *sbi)
{
	f2fs_down_write(&sbi->cp_rwsem, &sbi->cp_mutex);
}

static inline void f2fs_unlock_all(struct f2fs_sb_info *sbi)
{
	up_write(&sbi->cp_rwsem);
}

/*
 * Check whether the given nid is within node id range.
 */
static inline int check_nid_range(struct f2fs_sb_info *sbi, nid_t nid)
{
	if (unlikely(nid < F2FS_ROOT_INO(sbi)))
		return -EINVAL;
	if (unlikely(nid >= NM_I(sbi)->max_nid))
		return -EINVAL;
	return 0;
}

#define F2FS_DEFAULT_ALLOCATED_BLOCKS	1

/*
 * Check whether the inode has blocks or not
 */
static inline int F2FS_HAS_BLOCKS(struct inode *inode)
{
	if (F2FS_I(inode)->i_xattr_nid)
		return inode->i_blocks > F2FS_DEFAULT_ALLOCATED_BLOCKS + 1;
	else
		return inode->i_blocks > F2FS_DEFAULT_ALLOCATED_BLOCKS;
}

static inline bool f2fs_has_xattr_block(unsigned int ofs)
{
	return ofs == XATTR_NODE_OFFSET;
}

static inline bool inc_valid_block_count(struct f2fs_sb_info *sbi,
				 struct inode *inode, blkcnt_t count)
{
	block_t	valid_block_count;

	spin_lock(&sbi->stat_lock);
	valid_block_count =
		sbi->total_valid_block_count + (block_t)count;
	if (unlikely(valid_block_count > sbi->user_block_count)) {
		spin_unlock(&sbi->stat_lock);
		return false;
	}
	inode->i_blocks += count;
	sbi->total_valid_block_count = valid_block_count;
	sbi->alloc_valid_block_count += (block_t)count;
	spin_unlock(&sbi->stat_lock);
	return true;
}

static inline void dec_valid_block_count(struct f2fs_sb_info *sbi,
						struct inode *inode,
						blkcnt_t count)
{
	spin_lock(&sbi->stat_lock);
	f2fs_bug_on(sbi, sbi->total_valid_block_count < (block_t) count);
	f2fs_bug_on(sbi, inode->i_blocks < count);
	inode->i_blocks -= count;
	sbi->total_valid_block_count -= (block_t)count;
	spin_unlock(&sbi->stat_lock);
}

static inline void inc_page_count(struct f2fs_sb_info *sbi, int count_type)
{
	atomic_inc(&sbi->nr_pages[count_type]);
	F2FS_SET_SB_DIRT(sbi);
}

static inline void inode_inc_dirty_pages(struct inode *inode)
{
	atomic_inc(&F2FS_I(inode)->dirty_pages);
	if (S_ISDIR(inode->i_mode))
		inc_page_count(F2FS_I_SB(inode), F2FS_DIRTY_DENTS);
}

static inline void dec_page_count(struct f2fs_sb_info *sbi, int count_type)
{
	atomic_dec(&sbi->nr_pages[count_type]);
}

static inline void inode_dec_dirty_pages(struct inode *inode)
{
	if (!S_ISDIR(inode->i_mode) && !S_ISREG(inode->i_mode))
		return;

	atomic_dec(&F2FS_I(inode)->dirty_pages);

	if (S_ISDIR(inode->i_mode))
		dec_page_count(F2FS_I_SB(inode), F2FS_DIRTY_DENTS);
}

static inline int get_pages(struct f2fs_sb_info *sbi, int count_type)
{
	return atomic_read(&sbi->nr_pages[count_type]);
}

static inline int get_dirty_pages(struct inode *inode)
{
	return atomic_read(&F2FS_I(inode)->dirty_pages);
}

static inline int get_blocktype_secs(struct f2fs_sb_info *sbi, int block_type)
{
	unsigned int pages_per_sec = sbi->segs_per_sec *
					(1 << sbi->log_blocks_per_seg);
	return ((get_pages(sbi, block_type) + pages_per_sec - 1)
			>> sbi->log_blocks_per_seg) / sbi->segs_per_sec;
}

static inline block_t valid_user_blocks(struct f2fs_sb_info *sbi)
{
	return sbi->total_valid_block_count;
}

static inline unsigned long __bitmap_size(struct f2fs_sb_info *sbi, int flag)
{
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);

	/* return NAT or SIT bitmap */
	if (flag == NAT_BITMAP)
		return le32_to_cpu(ckpt->nat_ver_bitmap_bytesize);
	else if (flag == SIT_BITMAP)
		return le32_to_cpu(ckpt->sit_ver_bitmap_bytesize);

	return 0;
}

static inline void *__bitmap_ptr(struct f2fs_sb_info *sbi, int flag)
{
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
	int offset;

	if (le32_to_cpu(F2FS_RAW_SUPER(sbi)->cp_payload) > 0) {
		if (flag == NAT_BITMAP)
			return &ckpt->sit_nat_version_bitmap;
		else
			return (unsigned char *)ckpt + F2FS_BLKSIZE;
	} else {
		offset = (flag == NAT_BITMAP) ?
			le32_to_cpu(ckpt->sit_ver_bitmap_bytesize) : 0;
		return &ckpt->sit_nat_version_bitmap + offset;
	}
}

static inline block_t __start_cp_addr(struct f2fs_sb_info *sbi)
{
	block_t start_addr;
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
	unsigned long long ckpt_version = cur_cp_version(ckpt);

	start_addr = le32_to_cpu(F2FS_RAW_SUPER(sbi)->cp_blkaddr);

	/*
	 * odd numbered checkpoint should at cp segment 0
	 * and even segment must be at cp segment 1
	 */
	if (!(ckpt_version & 1))
		start_addr += sbi->blocks_per_seg;

	return start_addr;
}

static inline block_t __start_sum_addr(struct f2fs_sb_info *sbi)
{
	return le32_to_cpu(F2FS_CKPT(sbi)->cp_pack_start_sum);
}

static inline bool inc_valid_node_count(struct f2fs_sb_info *sbi,
						struct inode *inode)
{
	block_t	valid_block_count;
	unsigned int valid_node_count;

	spin_lock(&sbi->stat_lock);

	valid_block_count = sbi->total_valid_block_count + 1;
	if (unlikely(valid_block_count > sbi->user_block_count)) {
		spin_unlock(&sbi->stat_lock);
		return false;
	}

	valid_node_count = sbi->total_valid_node_count + 1;
	if (unlikely(valid_node_count > sbi->total_node_count)) {
		spin_unlock(&sbi->stat_lock);
		return false;
	}

	if (inode)
		inode->i_blocks++;

	sbi->alloc_valid_block_count++;
	sbi->total_valid_node_count++;
	sbi->total_valid_block_count++;
	spin_unlock(&sbi->stat_lock);

	return true;
}

static inline void dec_valid_node_count(struct f2fs_sb_info *sbi,
						struct inode *inode)
{
	spin_lock(&sbi->stat_lock);

	f2fs_bug_on(sbi, !sbi->total_valid_block_count);
	f2fs_bug_on(sbi, !sbi->total_valid_node_count);
	f2fs_bug_on(sbi, !inode->i_blocks);

	inode->i_blocks--;
	sbi->total_valid_node_count--;
	sbi->total_valid_block_count--;

	spin_unlock(&sbi->stat_lock);
}

static inline unsigned int valid_node_count(struct f2fs_sb_info *sbi)
{
	return sbi->total_valid_node_count;
}

static inline void inc_valid_inode_count(struct f2fs_sb_info *sbi)
{
	spin_lock(&sbi->stat_lock);
	f2fs_bug_on(sbi, sbi->total_valid_inode_count == sbi->total_node_count);
	sbi->total_valid_inode_count++;
	spin_unlock(&sbi->stat_lock);
}

static inline void dec_valid_inode_count(struct f2fs_sb_info *sbi)
{
	spin_lock(&sbi->stat_lock);
	f2fs_bug_on(sbi, !sbi->total_valid_inode_count);
	sbi->total_valid_inode_count--;
	spin_unlock(&sbi->stat_lock);
}

static inline unsigned int valid_inode_count(struct f2fs_sb_info *sbi)
{
	return sbi->total_valid_inode_count;
}

static inline void f2fs_put_page(struct page *page, int unlock)
{
	if (!page)
		return;

	if (unlock) {
		f2fs_bug_on(F2FS_P_SB(page), !PageLocked(page));
		unlock_page(page);
	}
	page_cache_release(page);
}

static inline void f2fs_put_dnode(struct dnode_of_data *dn)
{
	if (dn->node_page)
		f2fs_put_page(dn->node_page, 1);
	if (dn->inode_page && dn->node_page != dn->inode_page)
		f2fs_put_page(dn->inode_page, 0);
	dn->node_page = NULL;
	dn->inode_page = NULL;
}

static inline struct kmem_cache *f2fs_kmem_cache_create(const char *name,
					size_t size)
{
	return kmem_cache_create(name, size, 0, SLAB_RECLAIM_ACCOUNT, NULL);
}

static inline void *f2fs_kmem_cache_alloc(struct kmem_cache *cachep,
						gfp_t flags)
{
	void *entry;
retry:
	entry = kmem_cache_alloc(cachep, flags);
	if (!entry) {
		cond_resched();
		goto retry;
	}

	return entry;
}

#define RAW_IS_INODE(p)	((p)->footer.nid == (p)->footer.ino)

static inline bool IS_INODE(struct page *page)
{
	struct f2fs_node *p = F2FS_NODE(page);
	return RAW_IS_INODE(p);
}

static inline __le32 *blkaddr_in_node(struct f2fs_node *node)
{
	return RAW_IS_INODE(node) ? node->i.i_addr : node->dn.addr;
}

static inline block_t datablock_addr(struct page *node_page,
		unsigned int offset)
{
	struct f2fs_node *raw_node;
	__le32 *addr_array;
	raw_node = F2FS_NODE(node_page);
	addr_array = blkaddr_in_node(raw_node);
	return le32_to_cpu(addr_array[offset]);
}

static inline int f2fs_test_bit(unsigned int nr, char *addr)
{
	int mask;

	addr += (nr >> 3);
	mask = 1 << (7 - (nr & 0x07));
	return mask & *addr;
}

static inline int f2fs_set_bit(unsigned int nr, char *addr)
{
	int mask;
	int ret;

	addr += (nr >> 3);
	mask = 1 << (7 - (nr & 0x07));
	ret = mask & *addr;
	*addr |= mask;
	return ret;
}

static inline int f2fs_clear_bit(unsigned int nr, char *addr)
{
	int mask;
	int ret;

	addr += (nr >> 3);
	mask = 1 << (7 - (nr & 0x07));
	ret = mask & *addr;
	*addr &= ~mask;
	return ret;
}

/* used for f2fs_inode_info->flags */
enum {
	FI_NEW_INODE,		/* indicate newly allocated inode */
	FI_DIRTY_INODE,		/* indicate inode is dirty or not */
	FI_DIRTY_DIR,		/* indicate directory has dirty pages */
	FI_INC_LINK,		/* need to increment i_nlink */
	FI_ACL_MODE,		/* indicate acl mode */
	FI_NO_ALLOC,		/* should not allocate any blocks */
	FI_UPDATE_DIR,		/* should update inode block for consistency */
	FI_DELAY_IPUT,		/* used for the recovery */
	FI_NO_EXTENT,		/* not to use the extent cache */
	FI_INLINE_XATTR,	/* used for inline xattr */
	FI_INLINE_DATA,		/* used for inline data*/
	FI_APPEND_WRITE,	/* inode has appended data */
	FI_UPDATE_WRITE,	/* inode has in-place-update data */
	FI_NEED_IPU,		/* used for ipu per file */
	FI_ATOMIC_FILE,		/* indicate atomic file */
	FI_VOLATILE_FILE,	/* indicate volatile file */
};

static inline void set_inode_flag(struct f2fs_inode_info *fi, int flag)
{
	if (!test_bit(flag, &fi->flags))
		set_bit(flag, &fi->flags);
}

static inline int is_inode_flag_set(struct f2fs_inode_info *fi, int flag)
{
	return test_bit(flag, &fi->flags);
}

static inline void clear_inode_flag(struct f2fs_inode_info *fi, int flag)
{
	if (test_bit(flag, &fi->flags))
		clear_bit(flag, &fi->flags);
}

static inline void set_acl_inode(struct f2fs_inode_info *fi, umode_t mode)
{
	fi->i_acl_mode = mode;
	set_inode_flag(fi, FI_ACL_MODE);
}

static inline int cond_clear_inode_flag(struct f2fs_inode_info *fi, int flag)
{
	if (is_inode_flag_set(fi, FI_ACL_MODE)) {
		clear_inode_flag(fi, FI_ACL_MODE);
		return 1;
	}
	return 0;
}

static inline void get_inline_info(struct f2fs_inode_info *fi,
					struct f2fs_inode *ri)
{
	if (ri->i_inline & F2FS_INLINE_XATTR)
		set_inode_flag(fi, FI_INLINE_XATTR);
	if (ri->i_inline & F2FS_INLINE_DATA)
		set_inode_flag(fi, FI_INLINE_DATA);
}

static inline void set_raw_inline(struct f2fs_inode_info *fi,
					struct f2fs_inode *ri)
{
	ri->i_inline = 0;

	if (is_inode_flag_set(fi, FI_INLINE_XATTR))
		ri->i_inline |= F2FS_INLINE_XATTR;
	if (is_inode_flag_set(fi, FI_INLINE_DATA))
		ri->i_inline |= F2FS_INLINE_DATA;
}

static inline int f2fs_has_inline_xattr(struct inode *inode)
{
	return is_inode_flag_set(F2FS_I(inode), FI_INLINE_XATTR);
}

static inline unsigned int addrs_per_inode(struct f2fs_inode_info *fi)
{
	if (f2fs_has_inline_xattr(&fi->vfs_inode))
		return DEF_ADDRS_PER_INODE - F2FS_INLINE_XATTR_ADDRS;
	return DEF_ADDRS_PER_INODE;
}

static inline void *inline_xattr_addr(struct page *page)
{
	struct f2fs_inode *ri = F2FS_INODE(page);
	return (void *)&(ri->i_addr[DEF_ADDRS_PER_INODE -
					F2FS_INLINE_XATTR_ADDRS]);
}

static inline int inline_xattr_size(struct inode *inode)
{
	if (f2fs_has_inline_xattr(inode))
		return F2FS_INLINE_XATTR_ADDRS << 2;
	else
		return 0;
}

static inline int f2fs_has_inline_data(struct inode *inode)
{
	return is_inode_flag_set(F2FS_I(inode), FI_INLINE_DATA);
}

static inline bool f2fs_is_atomic_file(struct inode *inode)
{
	return is_inode_flag_set(F2FS_I(inode), FI_ATOMIC_FILE);
}

static inline bool f2fs_is_volatile_file(struct inode *inode)
{
	return is_inode_flag_set(F2FS_I(inode), FI_VOLATILE_FILE);
}

static inline void *inline_data_addr(struct page *page)
{
	struct f2fs_inode *ri = F2FS_INODE(page);
	return (void *)&(ri->i_addr[1]);
}

static inline int f2fs_readonly(struct super_block *sb)
{
	return sb->s_flags & MS_RDONLY;
}

static inline bool f2fs_cp_error(struct f2fs_sb_info *sbi)
{
	return is_set_ckpt_flags(sbi->ckpt, CP_ERROR_FLAG);
}

static inline void f2fs_stop_checkpoint(struct f2fs_sb_info *sbi)
{
	set_ckpt_flags(sbi->ckpt, CP_ERROR_FLAG);
	sbi->sb->s_flags |= MS_RDONLY;
}

#define get_inode_mode(i) \
	((is_inode_flag_set(F2FS_I(i), FI_ACL_MODE)) ? \
	 (F2FS_I(i)->i_acl_mode) : ((i)->i_mode))

/* get offset of first page in next direct node */
#define PGOFS_OF_NEXT_DNODE(pgofs, fi)				\
	((pgofs < ADDRS_PER_INODE(fi)) ? ADDRS_PER_INODE(fi) :	\
	(pgofs - ADDRS_PER_INODE(fi) + ADDRS_PER_BLOCK) /	\
	ADDRS_PER_BLOCK * ADDRS_PER_BLOCK + ADDRS_PER_INODE(fi))

/*
 * file.c
 */
int f2fs_sync_file(struct file *, loff_t, loff_t, int);
void truncate_data_blocks(struct dnode_of_data *);
int truncate_blocks(struct inode *, u64, bool);
void f2fs_truncate(struct inode *);
int f2fs_getattr(struct vfsmount *, struct dentry *, struct kstat *);
int f2fs_setattr(struct dentry *, struct iattr *);
int truncate_hole(struct inode *, pgoff_t, pgoff_t);
int truncate_data_blocks_range(struct dnode_of_data *, int);
long f2fs_ioctl(struct file *, unsigned int, unsigned long);
long f2fs_compat_ioctl(struct file *, unsigned int, unsigned long);

/*
 * inode.c
 */
void f2fs_set_inode_flags(struct inode *);
struct inode *f2fs_iget(struct super_block *, unsigned long);
int try_to_free_nats(struct f2fs_sb_info *, int);
void update_inode(struct inode *, struct page *);
void update_inode_page(struct inode *);
int f2fs_write_inode(struct inode *, struct writeback_control *);
void f2fs_evict_inode(struct inode *);
void handle_failed_inode(struct inode *);

/*
 * namei.c
 */
struct dentry *f2fs_get_parent(struct dentry *child);

/*
 * dir.c
 */
struct f2fs_dir_entry *f2fs_find_entry(struct inode *, struct qstr *,
							struct page **);
struct f2fs_dir_entry *f2fs_parent_dir(struct inode *, struct page **);
ino_t f2fs_inode_by_name(struct inode *, struct qstr *);
void f2fs_set_link(struct inode *, struct f2fs_dir_entry *,
				struct page *, struct inode *);
int update_dent_inode(struct inode *, const struct qstr *);
int __f2fs_add_link(struct inode *, const struct qstr *, struct inode *);
void f2fs_delete_entry(struct f2fs_dir_entry *, struct page *, struct inode *);
int f2fs_do_tmpfile(struct inode *, struct inode *);
int f2fs_make_empty(struct inode *, struct inode *);
bool f2fs_empty_dir(struct inode *);

static inline int f2fs_add_link(struct dentry *dentry, struct inode *inode)
{
	return __f2fs_add_link(dentry->d_parent->d_inode, &dentry->d_name,
				inode);
}

/*
 * super.c
 */
int f2fs_sync_fs(struct super_block *, int);
extern __printf(3, 4)
void f2fs_msg(struct super_block *, const char *, const char *, ...);

/*
 * hash.c
 */
f2fs_hash_t f2fs_dentry_hash(const struct qstr *);

/*
 * node.c
 */
struct dnode_of_data;
struct node_info;

bool available_free_memory(struct f2fs_sb_info *, int);
bool is_checkpointed_node(struct f2fs_sb_info *, nid_t);
bool has_fsynced_inode(struct f2fs_sb_info *, nid_t);
bool need_inode_block_update(struct f2fs_sb_info *, nid_t);
void get_node_info(struct f2fs_sb_info *, nid_t, struct node_info *);
int get_dnode_of_data(struct dnode_of_data *, pgoff_t, int);
int truncate_inode_blocks(struct inode *, pgoff_t);
int truncate_xattr_node(struct inode *, struct page *);
int wait_on_node_pages_writeback(struct f2fs_sb_info *, nid_t);
void remove_inode_page(struct inode *);
struct page *new_inode_page(struct inode *);
struct page *new_node_page(struct dnode_of_data *, unsigned int, struct page *);
void ra_node_page(struct f2fs_sb_info *, nid_t);
struct page *get_node_page(struct f2fs_sb_info *, pgoff_t);
struct page *get_node_page_ra(struct page *, int);
void sync_inode_page(struct dnode_of_data *);
int sync_node_pages(struct f2fs_sb_info *, nid_t, struct writeback_control *);
bool alloc_nid(struct f2fs_sb_info *, nid_t *);
void alloc_nid_done(struct f2fs_sb_info *, nid_t);
void alloc_nid_failed(struct f2fs_sb_info *, nid_t);
void recover_inline_xattr(struct inode *, struct page *);
void recover_xattr_data(struct inode *, struct page *, block_t);
int recover_inode_page(struct f2fs_sb_info *, struct page *);
int restore_node_summary(struct f2fs_sb_info *, unsigned int,
				struct f2fs_summary_block *);
void flush_nat_entries(struct f2fs_sb_info *);
int build_node_manager(struct f2fs_sb_info *);
void destroy_node_manager(struct f2fs_sb_info *);
int __init create_node_manager_caches(void);
void destroy_node_manager_caches(void);

/*
 * segment.c
 */
void register_inmem_page(struct inode *, struct page *);
void commit_inmem_pages(struct inode *, bool);
void f2fs_balance_fs(struct f2fs_sb_info *);
void f2fs_balance_fs_bg(struct f2fs_sb_info *);
int f2fs_issue_flush(struct f2fs_sb_info *);
int create_flush_cmd_control(struct f2fs_sb_info *);
void destroy_flush_cmd_control(struct f2fs_sb_info *);
void invalidate_blocks(struct f2fs_sb_info *, block_t);
void refresh_sit_entry(struct f2fs_sb_info *, block_t, block_t);
void clear_prefree_segments(struct f2fs_sb_info *);
void release_discard_addrs(struct f2fs_sb_info *);
void discard_next_dnode(struct f2fs_sb_info *, block_t);
int npages_for_summary_flush(struct f2fs_sb_info *);
void allocate_new_segments(struct f2fs_sb_info *);
int f2fs_trim_fs(struct f2fs_sb_info *, struct fstrim_range *);
struct page *get_sum_page(struct f2fs_sb_info *, unsigned int);
void write_meta_page(struct f2fs_sb_info *, struct page *);
void write_node_page(struct f2fs_sb_info *, struct page *,
		struct f2fs_io_info *, unsigned int, block_t, block_t *);
void write_data_page(struct page *, struct dnode_of_data *, block_t *,
					struct f2fs_io_info *);
void rewrite_data_page(struct page *, block_t, struct f2fs_io_info *);
void recover_data_page(struct f2fs_sb_info *, struct page *,
				struct f2fs_summary *, block_t, block_t);
void allocate_data_block(struct f2fs_sb_info *, struct page *,
		block_t, block_t *, struct f2fs_summary *, int);
void f2fs_wait_on_page_writeback(struct page *, enum page_type);
void write_data_summaries(struct f2fs_sb_info *, block_t);
void write_node_summaries(struct f2fs_sb_info *, block_t);
int lookup_journal_in_cursum(struct f2fs_summary_block *,
					int, unsigned int, int);
void flush_sit_entries(struct f2fs_sb_info *, struct cp_control *);
int build_segment_manager(struct f2fs_sb_info *);
void destroy_segment_manager(struct f2fs_sb_info *);
int __init create_segment_manager_caches(void);
void destroy_segment_manager_caches(void);

/*
 * checkpoint.c
 */
struct page *grab_meta_page(struct f2fs_sb_info *, pgoff_t);
struct page *get_meta_page(struct f2fs_sb_info *, pgoff_t);
struct page *get_meta_page_ra(struct f2fs_sb_info *, pgoff_t);
int ra_meta_pages(struct f2fs_sb_info *, block_t, int, int);
long sync_meta_pages(struct f2fs_sb_info *, enum page_type, long);
void add_dirty_inode(struct f2fs_sb_info *, nid_t, int type);
void remove_dirty_inode(struct f2fs_sb_info *, nid_t, int type);
void release_dirty_inode(struct f2fs_sb_info *);
bool exist_written_data(struct f2fs_sb_info *, nid_t, int);
int acquire_orphan_inode(struct f2fs_sb_info *);
void release_orphan_inode(struct f2fs_sb_info *);
void add_orphan_inode(struct f2fs_sb_info *, nid_t);
void remove_orphan_inode(struct f2fs_sb_info *, nid_t);
void recover_orphan_inodes(struct f2fs_sb_info *);
int get_valid_checkpoint(struct f2fs_sb_info *);
void update_dirty_page(struct inode *, struct page *);
void add_dirty_dir_inode(struct inode *);
void remove_dirty_dir_inode(struct inode *);
void sync_dirty_dir_inodes(struct f2fs_sb_info *);
void write_checkpoint(struct f2fs_sb_info *, struct cp_control *);
void init_ino_entry_info(struct f2fs_sb_info *);
int __init create_checkpoint_caches(void);
void destroy_checkpoint_caches(void);

/*
 * data.c
 */
void f2fs_submit_merged_bio(struct f2fs_sb_info *, enum page_type, int);
int f2fs_submit_page_bio(struct f2fs_sb_info *, struct page *, block_t, int);
void f2fs_submit_page_mbio(struct f2fs_sb_info *, struct page *, block_t,
						struct f2fs_io_info *);
int reserve_new_block(struct dnode_of_data *);
int f2fs_reserve_block(struct dnode_of_data *, pgoff_t);
void update_extent_cache(block_t, struct dnode_of_data *);
struct page *find_data_page(struct inode *, pgoff_t, bool);
struct page *get_lock_data_page(struct inode *, pgoff_t);
struct page *get_new_data_page(struct inode *, struct page *, pgoff_t, bool);
int do_write_data_page(struct page *, struct f2fs_io_info *);
int f2fs_fiemap(struct inode *inode, struct fiemap_extent_info *, u64, u64);

/*
 * gc.c
 */
int start_gc_thread(struct f2fs_sb_info *);
void stop_gc_thread(struct f2fs_sb_info *);
block_t start_bidx_of_node(unsigned int, struct f2fs_inode_info *);
int f2fs_gc(struct f2fs_sb_info *);
void build_gc_manager(struct f2fs_sb_info *);
int __init create_gc_caches(void);
void destroy_gc_caches(void);

/*
 * recovery.c
 */
int recover_fsync_data(struct f2fs_sb_info *);
bool space_for_roll_forward(struct f2fs_sb_info *);

/*
 * debug.c
 */
#ifdef CONFIG_F2FS_STAT_FS
struct f2fs_stat_info {
	struct list_head stat_list;
	struct f2fs_sb_info *sbi;
	int all_area_segs, sit_area_segs, nat_area_segs, ssa_area_segs;
	int main_area_segs, main_area_sections, main_area_zones;
	int hit_ext, total_ext;
	int ndirty_node, ndirty_dent, ndirty_dirs, ndirty_meta;
	int nats, sits, fnids;
	int total_count, utilization;
	int bg_gc, inline_inode;
	unsigned int valid_count, valid_node_count, valid_inode_count;
	unsigned int bimodal, avg_vblocks;
	int util_free, util_valid, util_invalid;
	int rsvd_segs, overp_segs;
	int dirty_count, node_pages, meta_pages;
	int prefree_count, call_count, cp_count;
	int tot_segs, node_segs, data_segs, free_segs, free_secs;
	int tot_blks, data_blks, node_blks;
	int curseg[NR_CURSEG_TYPE];
	int cursec[NR_CURSEG_TYPE];
	int curzone[NR_CURSEG_TYPE];

	unsigned int segment_count[2];
	unsigned int block_count[2];
	unsigned base_mem, cache_mem;
};

static inline struct f2fs_stat_info *F2FS_STAT(struct f2fs_sb_info *sbi)
{
	return (struct f2fs_stat_info *)sbi->stat_info;
}

#define stat_inc_cp_count(si)		((si)->cp_count++)
#define stat_inc_call_count(si)		((si)->call_count++)
#define stat_inc_bggc_count(sbi)	((sbi)->bg_gc++)
#define stat_inc_dirty_dir(sbi)		((sbi)->n_dirty_dirs++)
#define stat_dec_dirty_dir(sbi)		((sbi)->n_dirty_dirs--)
#define stat_inc_total_hit(sb)		((F2FS_SB(sb))->total_hit_ext++)
#define stat_inc_read_hit(sb)		((F2FS_SB(sb))->read_hit_ext++)
#define stat_inc_inline_inode(inode)					\
	do {								\
		if (f2fs_has_inline_data(inode))			\
			((F2FS_I_SB(inode))->inline_inode++);		\
	} while (0)
#define stat_dec_inline_inode(inode)					\
	do {								\
		if (f2fs_has_inline_data(inode))			\
			((F2FS_I_SB(inode))->inline_inode--);		\
	} while (0)

#define stat_inc_seg_type(sbi, curseg)					\
		((sbi)->segment_count[(curseg)->alloc_type]++)
#define stat_inc_block_count(sbi, curseg)				\
		((sbi)->block_count[(curseg)->alloc_type]++)

#define stat_inc_seg_count(sbi, type)					\
	do {								\
		struct f2fs_stat_info *si = F2FS_STAT(sbi);		\
		(si)->tot_segs++;					\
		if (type == SUM_TYPE_DATA)				\
			si->data_segs++;				\
		else							\
			si->node_segs++;				\
	} while (0)

#define stat_inc_tot_blk_count(si, blks)				\
	(si->tot_blks += (blks))

#define stat_inc_data_blk_count(sbi, blks)				\
	do {								\
		struct f2fs_stat_info *si = F2FS_STAT(sbi);		\
		stat_inc_tot_blk_count(si, blks);			\
		si->data_blks += (blks);				\
	} while (0)

#define stat_inc_node_blk_count(sbi, blks)				\
	do {								\
		struct f2fs_stat_info *si = F2FS_STAT(sbi);		\
		stat_inc_tot_blk_count(si, blks);			\
		si->node_blks += (blks);				\
	} while (0)

int f2fs_build_stats(struct f2fs_sb_info *);
void f2fs_destroy_stats(struct f2fs_sb_info *);
void __init f2fs_create_root_stats(void);
void f2fs_destroy_root_stats(void);
#else
#define stat_inc_cp_count(si)
#define stat_inc_call_count(si)
#define stat_inc_bggc_count(si)
#define stat_inc_dirty_dir(sbi)
#define stat_dec_dirty_dir(sbi)
#define stat_inc_total_hit(sb)
#define stat_inc_read_hit(sb)
#define stat_inc_inline_inode(inode)
#define stat_dec_inline_inode(inode)
#define stat_inc_seg_type(sbi, curseg)
#define stat_inc_block_count(sbi, curseg)
#define stat_inc_seg_count(si, type)
#define stat_inc_tot_blk_count(si, blks)
#define stat_inc_data_blk_count(si, blks)
#define stat_inc_node_blk_count(sbi, blks)

static inline int f2fs_build_stats(struct f2fs_sb_info *sbi) { return 0; }
static inline void f2fs_destroy_stats(struct f2fs_sb_info *sbi) { }
static inline void __init f2fs_create_root_stats(void) { }
static inline void f2fs_destroy_root_stats(void) { }
#endif

extern const struct file_operations f2fs_dir_operations;
extern const struct file_operations f2fs_file_operations;
extern const struct inode_operations f2fs_file_inode_operations;
extern const struct address_space_operations f2fs_dblock_aops;
extern const struct address_space_operations f2fs_node_aops;
extern const struct address_space_operations f2fs_meta_aops;
extern const struct inode_operations f2fs_dir_inode_operations;
extern const struct inode_operations f2fs_symlink_inode_operations;
extern const struct inode_operations f2fs_special_inode_operations;

/*
 * inline.c
 */
bool f2fs_may_inline(struct inode *);
int f2fs_read_inline_data(struct inode *, struct page *);
int f2fs_convert_inline_data(struct inode *, pgoff_t, struct page *);
int f2fs_write_inline_data(struct inode *, struct page *, unsigned int);
void truncate_inline_data(struct inode *, u64);
bool recover_inline_data(struct inode *, struct page *);
#endif