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/* Copyright 1996-2000 Hans Reiser, see reiserfs/README for licensing
* and copyright details */
#ifndef _LINUX_REISER_FS_SB
#define _LINUX_REISER_FS_SB
#ifdef __KERNEL__
#include <linux/workqueue.h>
#include <linux/rwsem.h>
#include <linux/mutex.h>
#include <linux/sched.h>
#endif
typedef enum {
reiserfs_attrs_cleared = 0x00000001,
} reiserfs_super_block_flags;
/* struct reiserfs_super_block accessors/mutators
* since this is a disk structure, it will always be in
* little endian format. */
#define sb_block_count(sbp) (le32_to_cpu((sbp)->s_v1.s_block_count))
#define set_sb_block_count(sbp,v) ((sbp)->s_v1.s_block_count = cpu_to_le32(v))
#define sb_free_blocks(sbp) (le32_to_cpu((sbp)->s_v1.s_free_blocks))
#define set_sb_free_blocks(sbp,v) ((sbp)->s_v1.s_free_blocks = cpu_to_le32(v))
#define sb_root_block(sbp) (le32_to_cpu((sbp)->s_v1.s_root_block))
#define set_sb_root_block(sbp,v) ((sbp)->s_v1.s_root_block = cpu_to_le32(v))
#define sb_jp_journal_1st_block(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_1st_block))
#define set_sb_jp_journal_1st_block(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_1st_block = cpu_to_le32(v))
#define sb_jp_journal_dev(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_dev))
#define set_sb_jp_journal_dev(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_dev = cpu_to_le32(v))
#define sb_jp_journal_size(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_size))
#define set_sb_jp_journal_size(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_size = cpu_to_le32(v))
#define sb_jp_journal_trans_max(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_trans_max))
#define set_sb_jp_journal_trans_max(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_trans_max = cpu_to_le32(v))
#define sb_jp_journal_magic(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_magic))
#define set_sb_jp_journal_magic(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_magic = cpu_to_le32(v))
#define sb_jp_journal_max_batch(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_max_batch))
#define set_sb_jp_journal_max_batch(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_max_batch = cpu_to_le32(v))
#define sb_jp_jourmal_max_commit_age(sbp) \
(le32_to_cpu((sbp)->s_v1.s_journal.jp_journal_max_commit_age))
#define set_sb_jp_journal_max_commit_age(sbp,v) \
((sbp)->s_v1.s_journal.jp_journal_max_commit_age = cpu_to_le32(v))
#define sb_blocksize(sbp) (le16_to_cpu((sbp)->s_v1.s_blocksize))
#define set_sb_blocksize(sbp,v) ((sbp)->s_v1.s_blocksize = cpu_to_le16(v))
#define sb_oid_maxsize(sbp) (le16_to_cpu((sbp)->s_v1.s_oid_maxsize))
#define set_sb_oid_maxsize(sbp,v) ((sbp)->s_v1.s_oid_maxsize = cpu_to_le16(v))
#define sb_oid_cursize(sbp) (le16_to_cpu((sbp)->s_v1.s_oid_cursize))
#define set_sb_oid_cursize(sbp,v) ((sbp)->s_v1.s_oid_cursize = cpu_to_le16(v))
#define sb_umount_state(sbp) (le16_to_cpu((sbp)->s_v1.s_umount_state))
#define set_sb_umount_state(sbp,v) ((sbp)->s_v1.s_umount_state = cpu_to_le16(v))
#define sb_fs_state(sbp) (le16_to_cpu((sbp)->s_v1.s_fs_state))
#define set_sb_fs_state(sbp,v) ((sbp)->s_v1.s_fs_state = cpu_to_le16(v))
#define sb_hash_function_code(sbp) \
(le32_to_cpu((sbp)->s_v1.s_hash_function_code))
#define set_sb_hash_function_code(sbp,v) \
((sbp)->s_v1.s_hash_function_code = cpu_to_le32(v))
#define sb_tree_height(sbp) (le16_to_cpu((sbp)->s_v1.s_tree_height))
#define set_sb_tree_height(sbp,v) ((sbp)->s_v1.s_tree_height = cpu_to_le16(v))
#define sb_bmap_nr(sbp) (le16_to_cpu((sbp)->s_v1.s_bmap_nr))
#define set_sb_bmap_nr(sbp,v) ((sbp)->s_v1.s_bmap_nr = cpu_to_le16(v))
#define sb_version(sbp) (le16_to_cpu((sbp)->s_v1.s_version))
#define set_sb_version(sbp,v) ((sbp)->s_v1.s_version = cpu_to_le16(v))
#define sb_mnt_count(sbp) (le16_to_cpu((sbp)->s_mnt_count))
#define set_sb_mnt_count(sbp, v) ((sbp)->s_mnt_count = cpu_to_le16(v))
#define sb_reserved_for_journal(sbp) \
(le16_to_cpu((sbp)->s_v1.s_reserved_for_journal))
#define set_sb_reserved_for_journal(sbp,v) \
((sbp)->s_v1.s_reserved_for_journal = cpu_to_le16(v))
/* LOGGING -- */
/* These all interelate for performance.
**
** If the journal block count is smaller than n transactions, you lose speed.
** I don't know what n is yet, I'm guessing 8-16.
**
** typical transaction size depends on the application, how often fsync is
** called, and how many metadata blocks you dirty in a 30 second period.
** The more small files (<16k) you use, the larger your transactions will
** be.
**
** If your journal fills faster than dirty buffers get flushed to disk, it must flush them before allowing the journal
** to wrap, which slows things down. If you need high speed meta data updates, the journal should be big enough
** to prevent wrapping before dirty meta blocks get to disk.
**
** If the batch max is smaller than the transaction max, you'll waste space at the end of the journal
** because journal_end sets the next transaction to start at 0 if the next transaction has any chance of wrapping.
**
** The large the batch max age, the better the speed, and the more meta data changes you'll lose after a crash.
**
*/
/* don't mess with these for a while */
/* we have a node size define somewhere in reiserfs_fs.h. -Hans */
#define JOURNAL_BLOCK_SIZE 4096 /* BUG gotta get rid of this */
#define JOURNAL_MAX_CNODE 1500 /* max cnodes to allocate. */
#define JOURNAL_HASH_SIZE 8192
#define JOURNAL_NUM_BITMAPS 5 /* number of copies of the bitmaps to have floating. Must be >= 2 */
/* One of these for every block in every transaction
** Each one is in two hash tables. First, a hash of the current transaction, and after journal_end, a
** hash of all the in memory transactions.
** next and prev are used by the current transaction (journal_hash).
** hnext and hprev are used by journal_list_hash. If a block is in more than one transaction, the journal_list_hash
** links it in multiple times. This allows flush_journal_list to remove just the cnode belonging
** to a given transaction.
*/
struct reiserfs_journal_cnode {
struct buffer_head *bh; /* real buffer head */
struct super_block *sb; /* dev of real buffer head */
__u32 blocknr; /* block number of real buffer head, == 0 when buffer on disk */
unsigned long state;
struct reiserfs_journal_list *jlist; /* journal list this cnode lives in */
struct reiserfs_journal_cnode *next; /* next in transaction list */
struct reiserfs_journal_cnode *prev; /* prev in transaction list */
struct reiserfs_journal_cnode *hprev; /* prev in hash list */
struct reiserfs_journal_cnode *hnext; /* next in hash list */
};
struct reiserfs_bitmap_node {
int id;
char *data;
struct list_head list;
};
struct reiserfs_list_bitmap {
struct reiserfs_journal_list *journal_list;
struct reiserfs_bitmap_node **bitmaps;
};
/*
** one of these for each transaction. The most important part here is the j_realblock.
** this list of cnodes is used to hash all the blocks in all the commits, to mark all the
** real buffer heads dirty once all the commits hit the disk,
** and to make sure every real block in a transaction is on disk before allowing the log area
** to be overwritten */
struct reiserfs_journal_list {
unsigned long j_start;
unsigned long j_state;
unsigned long j_len;
atomic_t j_nonzerolen;
atomic_t j_commit_left;
atomic_t j_older_commits_done; /* all commits older than this on disk */
struct mutex j_commit_mutex;
unsigned int j_trans_id;
time_t j_timestamp;
struct reiserfs_list_bitmap *j_list_bitmap;
struct buffer_head *j_commit_bh; /* commit buffer head */
struct reiserfs_journal_cnode *j_realblock;
struct reiserfs_journal_cnode *j_freedlist; /* list of buffers that were freed during this trans. free each of these on flush */
/* time ordered list of all active transactions */
struct list_head j_list;
/* time ordered list of all transactions we haven't tried to flush yet */
struct list_head j_working_list;
/* list of tail conversion targets in need of flush before commit */
struct list_head j_tail_bh_list;
/* list of data=ordered buffers in need of flush before commit */
struct list_head j_bh_list;
int j_refcount;
};
struct reiserfs_journal {
struct buffer_head **j_ap_blocks; /* journal blocks on disk */
struct reiserfs_journal_cnode *j_last; /* newest journal block */
struct reiserfs_journal_cnode *j_first; /* oldest journal block. start here for traverse */
struct block_device *j_dev_bd;
fmode_t j_dev_mode;
int j_1st_reserved_block; /* first block on s_dev of reserved area journal */
unsigned long j_state;
unsigned int j_trans_id;
unsigned long j_mount_id;
unsigned long j_start; /* start of current waiting commit (index into j_ap_blocks) */
unsigned long j_len; /* length of current waiting commit */
unsigned long j_len_alloc; /* number of buffers requested by journal_begin() */
atomic_t j_wcount; /* count of writers for current commit */
unsigned long j_bcount; /* batch count. allows turning X transactions into 1 */
unsigned long j_first_unflushed_offset; /* first unflushed transactions offset */
unsigned j_last_flush_trans_id; /* last fully flushed journal timestamp */
struct buffer_head *j_header_bh;
time_t j_trans_start_time; /* time this transaction started */
struct mutex j_mutex;
struct mutex j_flush_mutex;
wait_queue_head_t j_join_wait; /* wait for current transaction to finish before starting new one */
atomic_t j_jlock; /* lock for j_join_wait */
int j_list_bitmap_index; /* number of next list bitmap to use */
int j_must_wait; /* no more journal begins allowed. MUST sleep on j_join_wait */
int j_next_full_flush; /* next journal_end will flush all journal list */
int j_next_async_flush; /* next journal_end will flush all async commits */
int j_cnode_used; /* number of cnodes on the used list */
int j_cnode_free; /* number of cnodes on the free list */
unsigned int j_trans_max; /* max number of blocks in a transaction. */
unsigned int j_max_batch; /* max number of blocks to batch into a trans */
unsigned int j_max_commit_age; /* in seconds, how old can an async commit be */
unsigned int j_max_trans_age; /* in seconds, how old can a transaction be */
unsigned int j_default_max_commit_age; /* the default for the max commit age */
struct reiserfs_journal_cnode *j_cnode_free_list;
struct reiserfs_journal_cnode *j_cnode_free_orig; /* orig pointer returned from vmalloc */
struct reiserfs_journal_list *j_current_jl;
int j_free_bitmap_nodes;
int j_used_bitmap_nodes;
int j_num_lists; /* total number of active transactions */
int j_num_work_lists; /* number that need attention from kreiserfsd */
/* debugging to make sure things are flushed in order */
unsigned int j_last_flush_id;
/* debugging to make sure things are committed in order */
unsigned int j_last_commit_id;
struct list_head j_bitmap_nodes;
struct list_head j_dirty_buffers;
spinlock_t j_dirty_buffers_lock; /* protects j_dirty_buffers */
/* list of all active transactions */
struct list_head j_journal_list;
/* lists that haven't been touched by writeback attempts */
struct list_head j_working_list;
struct reiserfs_list_bitmap j_list_bitmap[JOURNAL_NUM_BITMAPS]; /* array of bitmaps to record the deleted blocks */
struct reiserfs_journal_cnode *j_hash_table[JOURNAL_HASH_SIZE]; /* hash table for real buffer heads in current trans */
struct reiserfs_journal_cnode *j_list_hash_table[JOURNAL_HASH_SIZE]; /* hash table for all the real buffer heads in all
the transactions */
struct list_head j_prealloc_list; /* list of inodes which have preallocated blocks */
int j_persistent_trans;
unsigned long j_max_trans_size;
unsigned long j_max_batch_size;
int j_errno;
/* when flushing ordered buffers, throttle new ordered writers */
struct delayed_work j_work;
struct super_block *j_work_sb;
atomic_t j_async_throttle;
};
enum journal_state_bits {
J_WRITERS_BLOCKED = 1, /* set when new writers not allowed */
J_WRITERS_QUEUED, /* set when log is full due to too many writers */
J_ABORTED, /* set when log is aborted */
};
#define JOURNAL_DESC_MAGIC "ReIsErLB" /* ick. magic string to find desc blocks in the journal */
typedef __u32(*hashf_t) (const signed char *, int);
struct reiserfs_bitmap_info {
__u32 free_count;
};
struct proc_dir_entry;
#if defined( CONFIG_PROC_FS ) && defined( CONFIG_REISERFS_PROC_INFO )
typedef unsigned long int stat_cnt_t;
typedef struct reiserfs_proc_info_data {
spinlock_t lock;
int exiting;
int max_hash_collisions;
stat_cnt_t breads;
stat_cnt_t bread_miss;
stat_cnt_t search_by_key;
stat_cnt_t search_by_key_fs_changed;
stat_cnt_t search_by_key_restarted;
stat_cnt_t insert_item_restarted;
stat_cnt_t paste_into_item_restarted;
stat_cnt_t cut_from_item_restarted;
stat_cnt_t delete_solid_item_restarted;
stat_cnt_t delete_item_restarted;
stat_cnt_t leaked_oid;
stat_cnt_t leaves_removable;
/* balances per level. Use explicit 5 as MAX_HEIGHT is not visible yet. */
stat_cnt_t balance_at[5]; /* XXX */
/* sbk == search_by_key */
stat_cnt_t sbk_read_at[5]; /* XXX */
stat_cnt_t sbk_fs_changed[5];
stat_cnt_t sbk_restarted[5];
stat_cnt_t items_at[5]; /* XXX */
stat_cnt_t free_at[5]; /* XXX */
stat_cnt_t can_node_be_removed[5]; /* XXX */
long int lnum[5]; /* XXX */
long int rnum[5]; /* XXX */
long int lbytes[5]; /* XXX */
long int rbytes[5]; /* XXX */
stat_cnt_t get_neighbors[5];
stat_cnt_t get_neighbors_restart[5];
stat_cnt_t need_l_neighbor[5];
stat_cnt_t need_r_neighbor[5];
stat_cnt_t free_block;
struct __scan_bitmap_stats {
stat_cnt_t call;
stat_cnt_t wait;
stat_cnt_t bmap;
stat_cnt_t retry;
stat_cnt_t in_journal_hint;
stat_cnt_t in_journal_nohint;
stat_cnt_t stolen;
} scan_bitmap;
struct __journal_stats {
stat_cnt_t in_journal;
stat_cnt_t in_journal_bitmap;
stat_cnt_t in_journal_reusable;
stat_cnt_t lock_journal;
stat_cnt_t lock_journal_wait;
stat_cnt_t journal_being;
stat_cnt_t journal_relock_writers;
stat_cnt_t journal_relock_wcount;
stat_cnt_t mark_dirty;
stat_cnt_t mark_dirty_already;
stat_cnt_t mark_dirty_notjournal;
stat_cnt_t restore_prepared;
stat_cnt_t prepare;
stat_cnt_t prepare_retry;
} journal;
} reiserfs_proc_info_data_t;
#else
typedef struct reiserfs_proc_info_data {
} reiserfs_proc_info_data_t;
#endif
/* reiserfs union of in-core super block data */
struct reiserfs_sb_info {
struct buffer_head *s_sbh; /* Buffer containing the super block */
/* both the comment and the choice of
name are unclear for s_rs -Hans */
struct reiserfs_super_block *s_rs; /* Pointer to the super block in the buffer */
struct reiserfs_bitmap_info *s_ap_bitmap;
struct reiserfs_journal *s_journal; /* pointer to journal information */
unsigned short s_mount_state; /* reiserfs state (valid, invalid) */
/* Serialize writers access, replace the old bkl */
struct mutex lock;
/* Owner of the lock (can be recursive) */
struct task_struct *lock_owner;
/* Depth of the lock, start from -1 like the bkl */
int lock_depth;
/* Comment? -Hans */
void (*end_io_handler) (struct buffer_head *, int);
hashf_t s_hash_function; /* pointer to function which is used
to sort names in directory. Set on
mount */
unsigned long s_mount_opt; /* reiserfs's mount options are set
here (currently - NOTAIL, NOLOG,
REPLAYONLY) */
struct { /* This is a structure that describes block allocator options */
unsigned long bits; /* Bitfield for enable/disable kind of options */
unsigned long large_file_size; /* size started from which we consider file to be a large one(in blocks) */
int border; /* percentage of disk, border takes */
int preallocmin; /* Minimal file size (in blocks) starting from which we do preallocations */
int preallocsize; /* Number of blocks we try to prealloc when file
reaches preallocmin size (in blocks) or
prealloc_list is empty. */
} s_alloc_options;
/* Comment? -Hans */
wait_queue_head_t s_wait;
/* To be obsoleted soon by per buffer seals.. -Hans */
atomic_t s_generation_counter; // increased by one every time the
// tree gets re-balanced
unsigned long s_properties; /* File system properties. Currently holds
on-disk FS format */
/* session statistics */
int s_disk_reads;
int s_disk_writes;
int s_fix_nodes;
int s_do_balance;
int s_unneeded_left_neighbor;
int s_good_search_by_key_reada;
int s_bmaps;
int s_bmaps_without_search;
int s_direct2indirect;
int s_indirect2direct;
/* set up when it's ok for reiserfs_read_inode2() to read from
disk inode with nlink==0. Currently this is only used during
finish_unfinished() processing at mount time */
int s_is_unlinked_ok;
reiserfs_proc_info_data_t s_proc_info_data;
struct proc_dir_entry *procdir;
int reserved_blocks; /* amount of blocks reserved for further allocations */
spinlock_t bitmap_lock; /* this lock on now only used to protect reserved_blocks variable */
struct dentry *priv_root; /* root of /.reiserfs_priv */
struct dentry *xattr_root; /* root of /.reiserfs_priv/xattrs */
int j_errno;
#ifdef CONFIG_QUOTA
char *s_qf_names[MAXQUOTAS];
int s_jquota_fmt;
#endif
};
/* Definitions of reiserfs on-disk properties: */
#define REISERFS_3_5 0
#define REISERFS_3_6 1
#define REISERFS_OLD_FORMAT 2
enum reiserfs_mount_options {
/* Mount options */
REISERFS_LARGETAIL, /* large tails will be created in a session */
REISERFS_SMALLTAIL, /* small (for files less than block size) tails will be created in a session */
REPLAYONLY, /* replay journal and return 0. Use by fsck */
REISERFS_CONVERT, /* -o conv: causes conversion of old
format super block to the new
format. If not specified - old
partition will be dealt with in a
manner of 3.5.x */
/* -o hash={tea, rupasov, r5, detect} is meant for properly mounting
** reiserfs disks from 3.5.19 or earlier. 99% of the time, this option
** is not required. If the normal autodection code can't determine which
** hash to use (because both hashes had the same value for a file)
** use this option to force a specific hash. It won't allow you to override
** the existing hash on the FS, so if you have a tea hash disk, and mount
** with -o hash=rupasov, the mount will fail.
*/
FORCE_TEA_HASH, /* try to force tea hash on mount */
FORCE_RUPASOV_HASH, /* try to force rupasov hash on mount */
FORCE_R5_HASH, /* try to force rupasov hash on mount */
FORCE_HASH_DETECT, /* try to detect hash function on mount */
REISERFS_DATA_LOG,
REISERFS_DATA_ORDERED,
REISERFS_DATA_WRITEBACK,
/* used for testing experimental features, makes benchmarking new
features with and without more convenient, should never be used by
users in any code shipped to users (ideally) */
REISERFS_NO_BORDER,
REISERFS_NO_UNHASHED_RELOCATION,
REISERFS_HASHED_RELOCATION,
REISERFS_ATTRS,
REISERFS_XATTRS_USER,
REISERFS_POSIXACL,
REISERFS_EXPOSE_PRIVROOT,
REISERFS_BARRIER_NONE,
REISERFS_BARRIER_FLUSH,
/* Actions on error */
REISERFS_ERROR_PANIC,
REISERFS_ERROR_RO,
REISERFS_ERROR_CONTINUE,
REISERFS_QUOTA, /* Some quota option specified */
REISERFS_TEST1,
REISERFS_TEST2,
REISERFS_TEST3,
REISERFS_TEST4,
REISERFS_UNSUPPORTED_OPT,
};
#define reiserfs_r5_hash(s) (REISERFS_SB(s)->s_mount_opt & (1 << FORCE_R5_HASH))
#define reiserfs_rupasov_hash(s) (REISERFS_SB(s)->s_mount_opt & (1 << FORCE_RUPASOV_HASH))
#define reiserfs_tea_hash(s) (REISERFS_SB(s)->s_mount_opt & (1 << FORCE_TEA_HASH))
#define reiserfs_hash_detect(s) (REISERFS_SB(s)->s_mount_opt & (1 << FORCE_HASH_DETECT))
#define reiserfs_no_border(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_NO_BORDER))
#define reiserfs_no_unhashed_relocation(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_NO_UNHASHED_RELOCATION))
#define reiserfs_hashed_relocation(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_HASHED_RELOCATION))
#define reiserfs_test4(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_TEST4))
#define have_large_tails(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_LARGETAIL))
#define have_small_tails(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_SMALLTAIL))
#define replay_only(s) (REISERFS_SB(s)->s_mount_opt & (1 << REPLAYONLY))
#define reiserfs_attrs(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_ATTRS))
#define old_format_only(s) (REISERFS_SB(s)->s_properties & (1 << REISERFS_3_5))
#define convert_reiserfs(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_CONVERT))
#define reiserfs_data_log(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_DATA_LOG))
#define reiserfs_data_ordered(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_DATA_ORDERED))
#define reiserfs_data_writeback(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_DATA_WRITEBACK))
#define reiserfs_xattrs_user(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_XATTRS_USER))
#define reiserfs_posixacl(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_POSIXACL))
#define reiserfs_expose_privroot(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_EXPOSE_PRIVROOT))
#define reiserfs_xattrs_optional(s) (reiserfs_xattrs_user(s) || reiserfs_posixacl(s))
#define reiserfs_barrier_none(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_BARRIER_NONE))
#define reiserfs_barrier_flush(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_BARRIER_FLUSH))
#define reiserfs_error_panic(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_ERROR_PANIC))
#define reiserfs_error_ro(s) (REISERFS_SB(s)->s_mount_opt & (1 << REISERFS_ERROR_RO))
void reiserfs_file_buffer(struct buffer_head *bh, int list);
extern struct file_system_type reiserfs_fs_type;
int reiserfs_resize(struct super_block *, unsigned long);
#define CARRY_ON 0
#define SCHEDULE_OCCURRED 1
#define SB_BUFFER_WITH_SB(s) (REISERFS_SB(s)->s_sbh)
#define SB_JOURNAL(s) (REISERFS_SB(s)->s_journal)
#define SB_JOURNAL_1st_RESERVED_BLOCK(s) (SB_JOURNAL(s)->j_1st_reserved_block)
#define SB_JOURNAL_LEN_FREE(s) (SB_JOURNAL(s)->j_journal_len_free)
#define SB_AP_BITMAP(s) (REISERFS_SB(s)->s_ap_bitmap)
#define SB_DISK_JOURNAL_HEAD(s) (SB_JOURNAL(s)->j_header_bh->)
/* A safe version of the "bdevname", which returns the "s_id" field of
* a superblock or else "Null superblock" if the super block is NULL.
*/
static inline char *reiserfs_bdevname(struct super_block *s)
{
return (s == NULL) ? "Null superblock" : s->s_id;
}
#define reiserfs_is_journal_aborted(journal) (unlikely (__reiserfs_is_journal_aborted (journal)))
static inline int __reiserfs_is_journal_aborted(struct reiserfs_journal
*journal)
{
return test_bit(J_ABORTED, &journal->j_state);
}
#endif /* _LINUX_REISER_FS_SB */
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