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- /* SPDX-License-Identifier: GPL-2.0 */
- /*
- * Copyright 1996, 1997, 1998 Hans Reiser, see reiserfs/README for
- * licensing and copyright details
- */
- #include <linux/reiserfs_fs.h>
- #include <linux/slab.h>
- #include <linux/interrupt.h>
- #include <linux/sched.h>
- #include <linux/bug.h>
- #include <linux/workqueue.h>
- #include <asm/unaligned.h>
- #include <linux/bitops.h>
- #include <linux/proc_fs.h>
- #include <linux/buffer_head.h>
- /* the 32 bit compat definitions with int argument */
- #define REISERFS_IOC32_UNPACK _IOW(0xCD, 1, int)
- #define REISERFS_IOC32_GETFLAGS FS_IOC32_GETFLAGS
- #define REISERFS_IOC32_SETFLAGS FS_IOC32_SETFLAGS
- #define REISERFS_IOC32_GETVERSION FS_IOC32_GETVERSION
- #define REISERFS_IOC32_SETVERSION FS_IOC32_SETVERSION
- struct reiserfs_journal_list;
- /* bitmasks for i_flags field in reiserfs-specific part of inode */
- typedef enum {
- /*
- * this says what format of key do all items (but stat data) of
- * an object have. If this is set, that format is 3.6 otherwise - 3.5
- */
- i_item_key_version_mask = 0x0001,
- /*
- * If this is unset, object has 3.5 stat data, otherwise,
- * it has 3.6 stat data with 64bit size, 32bit nlink etc.
- */
- i_stat_data_version_mask = 0x0002,
- /* file might need tail packing on close */
- i_pack_on_close_mask = 0x0004,
- /* don't pack tail of file */
- i_nopack_mask = 0x0008,
- /*
- * If either of these are set, "safe link" was created for this
- * file during truncate or unlink. Safe link is used to avoid
- * leakage of disk space on crash with some files open, but unlinked.
- */
- i_link_saved_unlink_mask = 0x0010,
- i_link_saved_truncate_mask = 0x0020,
- i_has_xattr_dir = 0x0040,
- i_data_log = 0x0080,
- } reiserfs_inode_flags;
- struct reiserfs_inode_info {
- __u32 i_key[4]; /* key is still 4 32 bit integers */
- /*
- * transient inode flags that are never stored on disk. Bitmasks
- * for this field are defined above.
- */
- __u32 i_flags;
- /* offset of first byte stored in direct item. */
- __u32 i_first_direct_byte;
- /* copy of persistent inode flags read from sd_attrs. */
- __u32 i_attrs;
- /* first unused block of a sequence of unused blocks */
- int i_prealloc_block;
- int i_prealloc_count; /* length of that sequence */
- /* per-transaction list of inodes which have preallocated blocks */
- struct list_head i_prealloc_list;
- /*
- * new_packing_locality is created; new blocks for the contents
- * of this directory should be displaced
- */
- unsigned new_packing_locality:1;
- /*
- * we use these for fsync or O_SYNC to decide which transaction
- * needs to be committed in order for this inode to be properly
- * flushed
- */
- unsigned int i_trans_id;
- struct reiserfs_journal_list *i_jl;
- atomic_t openers;
- struct mutex tailpack;
- #ifdef CONFIG_REISERFS_FS_XATTR
- struct rw_semaphore i_xattr_sem;
- #endif
- #ifdef CONFIG_QUOTA
- struct dquot *i_dquot[MAXQUOTAS];
- #endif
- struct inode vfs_inode;
- };
- 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
- /* number of copies of the bitmaps to have floating. Must be >= 2 */
- #define JOURNAL_NUM_BITMAPS 5
- /*
- * 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 */
- /* block number of real buffer head, == 0 when buffer on disk */
- __u32 blocknr;
- unsigned long state;
- /* journal list this cnode lives in */
- struct reiserfs_journal_list *jlist;
- 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;
- /* all commits older than this on disk */
- atomic_t j_older_commits_done;
- struct mutex j_commit_mutex;
- unsigned int j_trans_id;
- time64_t j_timestamp; /* write-only but useful for crash dump analysis */
- 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 */
- /* newest journal block */
- struct reiserfs_journal_cnode *j_last;
- /* oldest journal block. start here for traverse */
- struct reiserfs_journal_cnode *j_first;
- struct block_device *j_dev_bd;
- fmode_t j_dev_mode;
- /* first block on s_dev of reserved area journal */
- int j_1st_reserved_block;
- unsigned long j_state;
- unsigned int j_trans_id;
- unsigned long j_mount_id;
- /* start of current waiting commit (index into j_ap_blocks) */
- unsigned long j_start;
- unsigned long j_len; /* length of current waiting commit */
- /* number of buffers requested by journal_begin() */
- unsigned long j_len_alloc;
- atomic_t j_wcount; /* count of writers for current commit */
- /* batch count. allows turning X transactions into 1 */
- unsigned long j_bcount;
- /* first unflushed transactions offset */
- unsigned long j_first_unflushed_offset;
- /* last fully flushed journal timestamp */
- unsigned j_last_flush_trans_id;
- struct buffer_head *j_header_bh;
- time64_t j_trans_start_time; /* time this transaction started */
- struct mutex j_mutex;
- struct mutex j_flush_mutex;
- /* wait for current transaction to finish before starting new one */
- wait_queue_head_t j_join_wait;
- atomic_t j_jlock; /* lock for j_join_wait */
- int j_list_bitmap_index; /* number of next list bitmap to use */
- /* no more journal begins allowed. MUST sleep on j_join_wait */
- int j_must_wait;
- /* next journal_end will flush all journal list */
- int j_next_full_flush;
- /* next journal_end will flush all async commits */
- int j_next_async_flush;
- int j_cnode_used; /* number of cnodes on the used list */
- int j_cnode_free; /* number of cnodes on the free list */
- /* max number of blocks in a transaction. */
- unsigned int j_trans_max;
- /* max number of blocks to batch into a trans */
- unsigned int j_max_batch;
- /* in seconds, how old can an async commit be */
- unsigned int j_max_commit_age;
- /* in seconds, how old can a transaction be */
- unsigned int j_max_trans_age;
- /* the default for the max commit age */
- unsigned int j_default_max_commit_age;
- struct reiserfs_journal_cnode *j_cnode_free_list;
- /* orig pointer returned from vmalloc */
- struct reiserfs_journal_cnode *j_cnode_free_orig;
- 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;
- /* hash table for real buffer heads in current trans */
- struct reiserfs_journal_cnode *j_hash_table[JOURNAL_HASH_SIZE];
- /* hash table for all the real buffer heads in all the transactions */
- struct reiserfs_journal_cnode *j_list_hash_table[JOURNAL_HASH_SIZE];
- /* array of bitmaps to record the deleted blocks */
- struct reiserfs_list_bitmap j_list_bitmap[JOURNAL_NUM_BITMAPS];
- /* list of inodes which have preallocated blocks */
- struct list_head j_prealloc_list;
- 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 */
- };
- /* ick. magic string to find desc blocks in the journal */
- #define JOURNAL_DESC_MAGIC "ReIsErLB"
- 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
- /* Number of quota types we support */
- #define REISERFS_MAXQUOTAS 2
- /* reiserfs union of in-core super block data */
- struct reiserfs_sb_info {
- /* Buffer containing the super block */
- struct buffer_head *s_sbh;
- /* Pointer to the on-disk super block in the buffer */
- struct reiserfs_super_block *s_rs;
- struct reiserfs_bitmap_info *s_ap_bitmap;
- /* pointer to journal information */
- struct reiserfs_journal *s_journal;
- 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;
- struct workqueue_struct *commit_wq;
- /* Comment? -Hans */
- void (*end_io_handler) (struct buffer_head *, int);
- /*
- * pointer to function which is used to sort names in directory.
- * Set on mount
- */
- hashf_t s_hash_function;
- /* reiserfs's mount options are set here */
- unsigned long s_mount_opt;
- /* This is a structure that describes block allocator options */
- struct {
- /* Bitfield for enable/disable kind of options */
- unsigned long bits;
- /*
- * size started from which we consider file
- * to be a large one (in blocks)
- */
- unsigned long large_file_size;
- int border; /* percentage of disk, border takes */
- /*
- * Minimal file size (in blocks) starting
- * from which we do preallocations
- */
- int preallocmin;
- /*
- * Number of blocks we try to prealloc when file
- * reaches preallocmin size (in blocks) or prealloc_list
- is empty.
- */
- int preallocsize;
- } s_alloc_options;
- /* Comment? -Hans */
- wait_queue_head_t s_wait;
- /* increased by one every time the tree gets re-balanced */
- atomic_t s_generation_counter;
- /* File system properties. Currently holds on-disk FS format */
- unsigned long s_properties;
- /* 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;
- /* amount of blocks reserved for further allocations */
- int reserved_blocks;
- /* this lock on now only used to protect reserved_blocks variable */
- spinlock_t bitmap_lock;
- struct dentry *priv_root; /* root of /.reiserfs_priv */
- struct dentry *xattr_root; /* root of /.reiserfs_priv/xattrs */
- int j_errno;
- int work_queued; /* non-zero delayed work is queued */
- struct delayed_work old_work; /* old transactions flush delayed work */
- spinlock_t old_work_lock; /* protects old_work and work_queued */
- #ifdef CONFIG_QUOTA
- char *s_qf_names[REISERFS_MAXQUOTAS];
- int s_jquota_fmt;
- #endif
- char *s_jdev; /* Stored jdev for mount option showing */
- #ifdef CONFIG_REISERFS_CHECK
- /*
- * Detects whether more than one copy of tb exists per superblock
- * as a means of checking whether do_balance is executing
- * concurrently against another tree reader/writer on a same
- * mount point.
- */
- struct tree_balance *cur_tb;
- #endif
- };
- /* Definitions of reiserfs on-disk properties: */
- #define REISERFS_3_5 0
- #define REISERFS_3_6 1
- #define REISERFS_OLD_FORMAT 2
- /* Mount options */
- enum reiserfs_mount_options {
- /* large tails will be created in a session */
- REISERFS_LARGETAIL,
- /*
- * small (for files less than block size) tails will
- * be created in a session
- */
- REISERFS_SMALLTAIL,
- /* replay journal and return 0. Use by fsck */
- REPLAYONLY,
- /*
- * -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
- */
- REISERFS_CONVERT,
- /*
- * -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_USRQUOTA, /* User quota option specified */
- REISERFS_GRPQUOTA, /* Group 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->)
- #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);
- }
- /*
- * Locking primitives. The write lock is a per superblock
- * special mutex that has properties close to the Big Kernel Lock
- * which was used in the previous locking scheme.
- */
- void reiserfs_write_lock(struct super_block *s);
- void reiserfs_write_unlock(struct super_block *s);
- int __must_check reiserfs_write_unlock_nested(struct super_block *s);
- void reiserfs_write_lock_nested(struct super_block *s, int depth);
- #ifdef CONFIG_REISERFS_CHECK
- void reiserfs_lock_check_recursive(struct super_block *s);
- #else
- static inline void reiserfs_lock_check_recursive(struct super_block *s) { }
- #endif
- /*
- * Several mutexes depend on the write lock.
- * However sometimes we want to relax the write lock while we hold
- * these mutexes, according to the release/reacquire on schedule()
- * properties of the Bkl that were used.
- * Reiserfs performances and locking were based on this scheme.
- * Now that the write lock is a mutex and not the bkl anymore, doing so
- * may result in a deadlock:
- *
- * A acquire write_lock
- * A acquire j_commit_mutex
- * A release write_lock and wait for something
- * B acquire write_lock
- * B can't acquire j_commit_mutex and sleep
- * A can't acquire write lock anymore
- * deadlock
- *
- * What we do here is avoiding such deadlock by playing the same game
- * than the Bkl: if we can't acquire a mutex that depends on the write lock,
- * we release the write lock, wait a bit and then retry.
- *
- * The mutexes concerned by this hack are:
- * - The commit mutex of a journal list
- * - The flush mutex
- * - The journal lock
- * - The inode mutex
- */
- static inline void reiserfs_mutex_lock_safe(struct mutex *m,
- struct super_block *s)
- {
- int depth;
- depth = reiserfs_write_unlock_nested(s);
- mutex_lock(m);
- reiserfs_write_lock_nested(s, depth);
- }
- static inline void
- reiserfs_mutex_lock_nested_safe(struct mutex *m, unsigned int subclass,
- struct super_block *s)
- {
- int depth;
- depth = reiserfs_write_unlock_nested(s);
- mutex_lock_nested(m, subclass);
- reiserfs_write_lock_nested(s, depth);
- }
- static inline void
- reiserfs_down_read_safe(struct rw_semaphore *sem, struct super_block *s)
- {
- int depth;
- depth = reiserfs_write_unlock_nested(s);
- down_read(sem);
- reiserfs_write_lock_nested(s, depth);
- }
- /*
- * When we schedule, we usually want to also release the write lock,
- * according to the previous bkl based locking scheme of reiserfs.
- */
- static inline void reiserfs_cond_resched(struct super_block *s)
- {
- if (need_resched()) {
- int depth;
- depth = reiserfs_write_unlock_nested(s);
- schedule();
- reiserfs_write_lock_nested(s, depth);
- }
- }
- struct fid;
- /*
- * in reading the #defines, it may help to understand that they employ
- * the following abbreviations:
- *
- * B = Buffer
- * I = Item header
- * H = Height within the tree (should be changed to LEV)
- * N = Number of the item in the node
- * STAT = stat data
- * DEH = Directory Entry Header
- * EC = Entry Count
- * E = Entry number
- * UL = Unsigned Long
- * BLKH = BLocK Header
- * UNFM = UNForMatted node
- * DC = Disk Child
- * P = Path
- *
- * These #defines are named by concatenating these abbreviations,
- * where first comes the arguments, and last comes the return value,
- * of the macro.
- */
- #define USE_INODE_GENERATION_COUNTER
- #define REISERFS_PREALLOCATE
- #define DISPLACE_NEW_PACKING_LOCALITIES
- #define PREALLOCATION_SIZE 9
- /* n must be power of 2 */
- #define _ROUND_UP(x,n) (((x)+(n)-1u) & ~((n)-1u))
- /*
- * to be ok for alpha and others we have to align structures to 8 byte
- * boundary.
- * FIXME: do not change 4 by anything else: there is code which relies on that
- */
- #define ROUND_UP(x) _ROUND_UP(x,8LL)
- /*
- * debug levels. Right now, CONFIG_REISERFS_CHECK means print all debug
- * messages.
- */
- #define REISERFS_DEBUG_CODE 5 /* extra messages to help find/debug errors */
- void __reiserfs_warning(struct super_block *s, const char *id,
- const char *func, const char *fmt, ...);
- #define reiserfs_warning(s, id, fmt, args...) \
- __reiserfs_warning(s, id, __func__, fmt, ##args)
- /* assertions handling */
- /* always check a condition and panic if it's false. */
- #define __RASSERT(cond, scond, format, args...) \
- do { \
- if (!(cond)) \
- reiserfs_panic(NULL, "assertion failure", "(" #cond ") at " \
- __FILE__ ":%i:%s: " format "\n", \
- __LINE__, __func__ , ##args); \
- } while (0)
- #define RASSERT(cond, format, args...) __RASSERT(cond, #cond, format, ##args)
- #if defined( CONFIG_REISERFS_CHECK )
- #define RFALSE(cond, format, args...) __RASSERT(!(cond), "!(" #cond ")", format, ##args)
- #else
- #define RFALSE( cond, format, args... ) do {;} while( 0 )
- #endif
- #define CONSTF __attribute_const__
- /*
- * Disk Data Structures
- */
- /***************************************************************************
- * SUPER BLOCK *
- ***************************************************************************/
- /*
- * Structure of super block on disk, a version of which in RAM is often
- * accessed as REISERFS_SB(s)->s_rs. The version in RAM is part of a larger
- * structure containing fields never written to disk.
- */
- #define UNSET_HASH 0 /* Detect hash on disk */
- #define TEA_HASH 1
- #define YURA_HASH 2
- #define R5_HASH 3
- #define DEFAULT_HASH R5_HASH
- struct journal_params {
- /* where does journal start from on its * device */
- __le32 jp_journal_1st_block;
- /* journal device st_rdev */
- __le32 jp_journal_dev;
- /* size of the journal */
- __le32 jp_journal_size;
- /* max number of blocks in a transaction. */
- __le32 jp_journal_trans_max;
- /*
- * random value made on fs creation
- * (this was sb_journal_block_count)
- */
- __le32 jp_journal_magic;
- /* max number of blocks to batch into a trans */
- __le32 jp_journal_max_batch;
- /* in seconds, how old can an async commit be */
- __le32 jp_journal_max_commit_age;
- /* in seconds, how old can a transaction be */
- __le32 jp_journal_max_trans_age;
- };
- /* this is the super from 3.5.X, where X >= 10 */
- struct reiserfs_super_block_v1 {
- __le32 s_block_count; /* blocks count */
- __le32 s_free_blocks; /* free blocks count */
- __le32 s_root_block; /* root block number */
- struct journal_params s_journal;
- __le16 s_blocksize; /* block size */
- /* max size of object id array, see get_objectid() commentary */
- __le16 s_oid_maxsize;
- __le16 s_oid_cursize; /* current size of object id array */
- /* this is set to 1 when filesystem was umounted, to 2 - when not */
- __le16 s_umount_state;
- /*
- * reiserfs magic string indicates that file system is reiserfs:
- * "ReIsErFs" or "ReIsEr2Fs" or "ReIsEr3Fs"
- */
- char s_magic[10];
- /*
- * it is set to used by fsck to mark which
- * phase of rebuilding is done
- */
- __le16 s_fs_state;
- /*
- * indicate, what hash function is being use
- * to sort names in a directory
- */
- __le32 s_hash_function_code;
- __le16 s_tree_height; /* height of disk tree */
- /*
- * amount of bitmap blocks needed to address
- * each block of file system
- */
- __le16 s_bmap_nr;
- /*
- * this field is only reliable on filesystem with non-standard journal
- */
- __le16 s_version;
- /*
- * size in blocks of journal area on main device, we need to
- * keep after making fs with non-standard journal
- */
- __le16 s_reserved_for_journal;
- } __attribute__ ((__packed__));
- #define SB_SIZE_V1 (sizeof(struct reiserfs_super_block_v1))
- /* this is the on disk super block */
- struct reiserfs_super_block {
- struct reiserfs_super_block_v1 s_v1;
- __le32 s_inode_generation;
- /* Right now used only by inode-attributes, if enabled */
- __le32 s_flags;
- unsigned char s_uuid[16]; /* filesystem unique identifier */
- unsigned char s_label[16]; /* filesystem volume label */
- __le16 s_mnt_count; /* Count of mounts since last fsck */
- __le16 s_max_mnt_count; /* Maximum mounts before check */
- __le32 s_lastcheck; /* Timestamp of last fsck */
- __le32 s_check_interval; /* Interval between checks */
- /*
- * zero filled by mkreiserfs and reiserfs_convert_objectid_map_v1()
- * so any additions must be updated there as well. */
- char s_unused[76];
- } __attribute__ ((__packed__));
- #define SB_SIZE (sizeof(struct reiserfs_super_block))
- #define REISERFS_VERSION_1 0
- #define REISERFS_VERSION_2 2
- /* on-disk super block fields converted to cpu form */
- #define SB_DISK_SUPER_BLOCK(s) (REISERFS_SB(s)->s_rs)
- #define SB_V1_DISK_SUPER_BLOCK(s) (&(SB_DISK_SUPER_BLOCK(s)->s_v1))
- #define SB_BLOCKSIZE(s) \
- le32_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_blocksize))
- #define SB_BLOCK_COUNT(s) \
- le32_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_block_count))
- #define SB_FREE_BLOCKS(s) \
- le32_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_free_blocks))
- #define SB_REISERFS_MAGIC(s) \
- (SB_V1_DISK_SUPER_BLOCK(s)->s_magic)
- #define SB_ROOT_BLOCK(s) \
- le32_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_root_block))
- #define SB_TREE_HEIGHT(s) \
- le16_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_tree_height))
- #define SB_REISERFS_STATE(s) \
- le16_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_umount_state))
- #define SB_VERSION(s) le16_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_version))
- #define SB_BMAP_NR(s) le16_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_bmap_nr))
- #define PUT_SB_BLOCK_COUNT(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_block_count = cpu_to_le32(val); } while (0)
- #define PUT_SB_FREE_BLOCKS(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_free_blocks = cpu_to_le32(val); } while (0)
- #define PUT_SB_ROOT_BLOCK(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_root_block = cpu_to_le32(val); } while (0)
- #define PUT_SB_TREE_HEIGHT(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_tree_height = cpu_to_le16(val); } while (0)
- #define PUT_SB_REISERFS_STATE(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_umount_state = cpu_to_le16(val); } while (0)
- #define PUT_SB_VERSION(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_version = cpu_to_le16(val); } while (0)
- #define PUT_SB_BMAP_NR(s, val) \
- do { SB_V1_DISK_SUPER_BLOCK(s)->s_bmap_nr = cpu_to_le16 (val); } while (0)
- #define SB_ONDISK_JP(s) (&SB_V1_DISK_SUPER_BLOCK(s)->s_journal)
- #define SB_ONDISK_JOURNAL_SIZE(s) \
- le32_to_cpu ((SB_ONDISK_JP(s)->jp_journal_size))
- #define SB_ONDISK_JOURNAL_1st_BLOCK(s) \
- le32_to_cpu ((SB_ONDISK_JP(s)->jp_journal_1st_block))
- #define SB_ONDISK_JOURNAL_DEVICE(s) \
- le32_to_cpu ((SB_ONDISK_JP(s)->jp_journal_dev))
- #define SB_ONDISK_RESERVED_FOR_JOURNAL(s) \
- le16_to_cpu ((SB_V1_DISK_SUPER_BLOCK(s)->s_reserved_for_journal))
- #define is_block_in_log_or_reserved_area(s, block) \
- block >= SB_JOURNAL_1st_RESERVED_BLOCK(s) \
- && block < SB_JOURNAL_1st_RESERVED_BLOCK(s) + \
- ((!is_reiserfs_jr(SB_DISK_SUPER_BLOCK(s)) ? \
- SB_ONDISK_JOURNAL_SIZE(s) + 1 : SB_ONDISK_RESERVED_FOR_JOURNAL(s)))
- int is_reiserfs_3_5(struct reiserfs_super_block *rs);
- int is_reiserfs_3_6(struct reiserfs_super_block *rs);
- int is_reiserfs_jr(struct reiserfs_super_block *rs);
- /*
- * ReiserFS leaves the first 64k unused, so that partition labels have
- * enough space. If someone wants to write a fancy bootloader that
- * needs more than 64k, let us know, and this will be increased in size.
- * This number must be larger than than the largest block size on any
- * platform, or code will break. -Hans
- */
- #define REISERFS_DISK_OFFSET_IN_BYTES (64 * 1024)
- #define REISERFS_FIRST_BLOCK unused_define
- #define REISERFS_JOURNAL_OFFSET_IN_BYTES REISERFS_DISK_OFFSET_IN_BYTES
- /* the spot for the super in versions 3.5 - 3.5.10 (inclusive) */
- #define REISERFS_OLD_DISK_OFFSET_IN_BYTES (8 * 1024)
- /* reiserfs internal error code (used by search_by_key and fix_nodes)) */
- #define CARRY_ON 0
- #define REPEAT_SEARCH -1
- #define IO_ERROR -2
- #define NO_DISK_SPACE -3
- #define NO_BALANCING_NEEDED (-4)
- #define NO_MORE_UNUSED_CONTIGUOUS_BLOCKS (-5)
- #define QUOTA_EXCEEDED -6
- typedef __u32 b_blocknr_t;
- typedef __le32 unp_t;
- struct unfm_nodeinfo {
- unp_t unfm_nodenum;
- unsigned short unfm_freespace;
- };
- /* there are two formats of keys: 3.5 and 3.6 */
- #define KEY_FORMAT_3_5 0
- #define KEY_FORMAT_3_6 1
- /* there are two stat datas */
- #define STAT_DATA_V1 0
- #define STAT_DATA_V2 1
- static inline struct reiserfs_inode_info *REISERFS_I(const struct inode *inode)
- {
- return container_of(inode, struct reiserfs_inode_info, vfs_inode);
- }
- static inline struct reiserfs_sb_info *REISERFS_SB(const struct super_block *sb)
- {
- return sb->s_fs_info;
- }
- /*
- * Don't trust REISERFS_SB(sb)->s_bmap_nr, it's a u16
- * which overflows on large file systems.
- */
- static inline __u32 reiserfs_bmap_count(struct super_block *sb)
- {
- return (SB_BLOCK_COUNT(sb) - 1) / (sb->s_blocksize * 8) + 1;
- }
- static inline int bmap_would_wrap(unsigned bmap_nr)
- {
- return bmap_nr > ((1LL << 16) - 1);
- }
- extern const struct xattr_handler *reiserfs_xattr_handlers[];
- /*
- * this says about version of key of all items (but stat data) the
- * object consists of
- */
- #define get_inode_item_key_version( inode ) \
- ((REISERFS_I(inode)->i_flags & i_item_key_version_mask) ? KEY_FORMAT_3_6 : KEY_FORMAT_3_5)
- #define set_inode_item_key_version( inode, version ) \
- ({ if((version)==KEY_FORMAT_3_6) \
- REISERFS_I(inode)->i_flags |= i_item_key_version_mask; \
- else \
- REISERFS_I(inode)->i_flags &= ~i_item_key_version_mask; })
- #define get_inode_sd_version(inode) \
- ((REISERFS_I(inode)->i_flags & i_stat_data_version_mask) ? STAT_DATA_V2 : STAT_DATA_V1)
- #define set_inode_sd_version(inode, version) \
- ({ if((version)==STAT_DATA_V2) \
- REISERFS_I(inode)->i_flags |= i_stat_data_version_mask; \
- else \
- REISERFS_I(inode)->i_flags &= ~i_stat_data_version_mask; })
- /*
- * This is an aggressive tail suppression policy, I am hoping it
- * improves our benchmarks. The principle behind it is that percentage
- * space saving is what matters, not absolute space saving. This is
- * non-intuitive, but it helps to understand it if you consider that the
- * cost to access 4 blocks is not much more than the cost to access 1
- * block, if you have to do a seek and rotate. A tail risks a
- * non-linear disk access that is significant as a percentage of total
- * time cost for a 4 block file and saves an amount of space that is
- * less significant as a percentage of space, or so goes the hypothesis.
- * -Hans
- */
- #define STORE_TAIL_IN_UNFM_S1(n_file_size,n_tail_size,n_block_size) \
- (\
- (!(n_tail_size)) || \
- (((n_tail_size) > MAX_DIRECT_ITEM_LEN(n_block_size)) || \
- ( (n_file_size) >= (n_block_size) * 4 ) || \
- ( ( (n_file_size) >= (n_block_size) * 3 ) && \
- ( (n_tail_size) >= (MAX_DIRECT_ITEM_LEN(n_block_size))/4) ) || \
- ( ( (n_file_size) >= (n_block_size) * 2 ) && \
- ( (n_tail_size) >= (MAX_DIRECT_ITEM_LEN(n_block_size))/2) ) || \
- ( ( (n_file_size) >= (n_block_size) ) && \
- ( (n_tail_size) >= (MAX_DIRECT_ITEM_LEN(n_block_size) * 3)/4) ) ) \
- )
- /*
- * Another strategy for tails, this one means only create a tail if all the
- * file would fit into one DIRECT item.
- * Primary intention for this one is to increase performance by decreasing
- * seeking.
- */
- #define STORE_TAIL_IN_UNFM_S2(n_file_size,n_tail_size,n_block_size) \
- (\
- (!(n_tail_size)) || \
- (((n_file_size) > MAX_DIRECT_ITEM_LEN(n_block_size)) ) \
- )
- /*
- * values for s_umount_state field
- */
- #define REISERFS_VALID_FS 1
- #define REISERFS_ERROR_FS 2
- /*
- * there are 5 item types currently
- */
- #define TYPE_STAT_DATA 0
- #define TYPE_INDIRECT 1
- #define TYPE_DIRECT 2
- #define TYPE_DIRENTRY 3
- #define TYPE_MAXTYPE 3
- #define TYPE_ANY 15 /* FIXME: comment is required */
- /***************************************************************************
- * KEY & ITEM HEAD *
- ***************************************************************************/
- /* * directories use this key as well as old files */
- struct offset_v1 {
- __le32 k_offset;
- __le32 k_uniqueness;
- } __attribute__ ((__packed__));
- struct offset_v2 {
- __le64 v;
- } __attribute__ ((__packed__));
- static inline __u16 offset_v2_k_type(const struct offset_v2 *v2)
- {
- __u8 type = le64_to_cpu(v2->v) >> 60;
- return (type <= TYPE_MAXTYPE) ? type : TYPE_ANY;
- }
- static inline void set_offset_v2_k_type(struct offset_v2 *v2, int type)
- {
- v2->v =
- (v2->v & cpu_to_le64(~0ULL >> 4)) | cpu_to_le64((__u64) type << 60);
- }
- static inline loff_t offset_v2_k_offset(const struct offset_v2 *v2)
- {
- return le64_to_cpu(v2->v) & (~0ULL >> 4);
- }
- static inline void set_offset_v2_k_offset(struct offset_v2 *v2, loff_t offset)
- {
- offset &= (~0ULL >> 4);
- v2->v = (v2->v & cpu_to_le64(15ULL << 60)) | cpu_to_le64(offset);
- }
- /*
- * Key of an item determines its location in the S+tree, and
- * is composed of 4 components
- */
- struct reiserfs_key {
- /* packing locality: by default parent directory object id */
- __le32 k_dir_id;
- __le32 k_objectid; /* object identifier */
- union {
- struct offset_v1 k_offset_v1;
- struct offset_v2 k_offset_v2;
- } __attribute__ ((__packed__)) u;
- } __attribute__ ((__packed__));
- struct in_core_key {
- /* packing locality: by default parent directory object id */
- __u32 k_dir_id;
- __u32 k_objectid; /* object identifier */
- __u64 k_offset;
- __u8 k_type;
- };
- struct cpu_key {
- struct in_core_key on_disk_key;
- int version;
- /* 3 in all cases but direct2indirect and indirect2direct conversion */
- int key_length;
- };
- /*
- * Our function for comparing keys can compare keys of different
- * lengths. It takes as a parameter the length of the keys it is to
- * compare. These defines are used in determining what is to be passed
- * to it as that parameter.
- */
- #define REISERFS_FULL_KEY_LEN 4
- #define REISERFS_SHORT_KEY_LEN 2
- /* The result of the key compare */
- #define FIRST_GREATER 1
- #define SECOND_GREATER -1
- #define KEYS_IDENTICAL 0
- #define KEY_FOUND 1
- #define KEY_NOT_FOUND 0
- #define KEY_SIZE (sizeof(struct reiserfs_key))
- /* return values for search_by_key and clones */
- #define ITEM_FOUND 1
- #define ITEM_NOT_FOUND 0
- #define ENTRY_FOUND 1
- #define ENTRY_NOT_FOUND 0
- #define DIRECTORY_NOT_FOUND -1
- #define REGULAR_FILE_FOUND -2
- #define DIRECTORY_FOUND -3
- #define BYTE_FOUND 1
- #define BYTE_NOT_FOUND 0
- #define FILE_NOT_FOUND -1
- #define POSITION_FOUND 1
- #define POSITION_NOT_FOUND 0
- /* return values for reiserfs_find_entry and search_by_entry_key */
- #define NAME_FOUND 1
- #define NAME_NOT_FOUND 0
- #define GOTO_PREVIOUS_ITEM 2
- #define NAME_FOUND_INVISIBLE 3
- /*
- * Everything in the filesystem is stored as a set of items. The
- * item head contains the key of the item, its free space (for
- * indirect items) and specifies the location of the item itself
- * within the block.
- */
- struct item_head {
- /*
- * Everything in the tree is found by searching for it based on
- * its key.
- */
- struct reiserfs_key ih_key;
- union {
- /*
- * The free space in the last unformatted node of an
- * indirect item if this is an indirect item. This
- * equals 0xFFFF iff this is a direct item or stat data
- * item. Note that the key, not this field, is used to
- * determine the item type, and thus which field this
- * union contains.
- */
- __le16 ih_free_space_reserved;
- /*
- * Iff this is a directory item, this field equals the
- * number of directory entries in the directory item.
- */
- __le16 ih_entry_count;
- } __attribute__ ((__packed__)) u;
- __le16 ih_item_len; /* total size of the item body */
- /* an offset to the item body within the block */
- __le16 ih_item_location;
- /*
- * 0 for all old items, 2 for new ones. Highest bit is set by fsck
- * temporary, cleaned after all done
- */
- __le16 ih_version;
- } __attribute__ ((__packed__));
- /* size of item header */
- #define IH_SIZE (sizeof(struct item_head))
- #define ih_free_space(ih) le16_to_cpu((ih)->u.ih_free_space_reserved)
- #define ih_version(ih) le16_to_cpu((ih)->ih_version)
- #define ih_entry_count(ih) le16_to_cpu((ih)->u.ih_entry_count)
- #define ih_location(ih) le16_to_cpu((ih)->ih_item_location)
- #define ih_item_len(ih) le16_to_cpu((ih)->ih_item_len)
- #define put_ih_free_space(ih, val) do { (ih)->u.ih_free_space_reserved = cpu_to_le16(val); } while(0)
- #define put_ih_version(ih, val) do { (ih)->ih_version = cpu_to_le16(val); } while (0)
- #define put_ih_entry_count(ih, val) do { (ih)->u.ih_entry_count = cpu_to_le16(val); } while (0)
- #define put_ih_location(ih, val) do { (ih)->ih_item_location = cpu_to_le16(val); } while (0)
- #define put_ih_item_len(ih, val) do { (ih)->ih_item_len = cpu_to_le16(val); } while (0)
- #define unreachable_item(ih) (ih_version(ih) & (1 << 15))
- #define get_ih_free_space(ih) (ih_version (ih) == KEY_FORMAT_3_6 ? 0 : ih_free_space (ih))
- #define set_ih_free_space(ih,val) put_ih_free_space((ih), ((ih_version(ih) == KEY_FORMAT_3_6) ? 0 : (val)))
- /*
- * these operate on indirect items, where you've got an array of ints
- * at a possibly unaligned location. These are a noop on ia32
- *
- * p is the array of __u32, i is the index into the array, v is the value
- * to store there.
- */
- #define get_block_num(p, i) get_unaligned_le32((p) + (i))
- #define put_block_num(p, i, v) put_unaligned_le32((v), (p) + (i))
- /* * in old version uniqueness field shows key type */
- #define V1_SD_UNIQUENESS 0
- #define V1_INDIRECT_UNIQUENESS 0xfffffffe
- #define V1_DIRECT_UNIQUENESS 0xffffffff
- #define V1_DIRENTRY_UNIQUENESS 500
- #define V1_ANY_UNIQUENESS 555 /* FIXME: comment is required */
- /* here are conversion routines */
- static inline int uniqueness2type(__u32 uniqueness) CONSTF;
- static inline int uniqueness2type(__u32 uniqueness)
- {
- switch ((int)uniqueness) {
- case V1_SD_UNIQUENESS:
- return TYPE_STAT_DATA;
- case V1_INDIRECT_UNIQUENESS:
- return TYPE_INDIRECT;
- case V1_DIRECT_UNIQUENESS:
- return TYPE_DIRECT;
- case V1_DIRENTRY_UNIQUENESS:
- return TYPE_DIRENTRY;
- case V1_ANY_UNIQUENESS:
- default:
- return TYPE_ANY;
- }
- }
- static inline __u32 type2uniqueness(int type) CONSTF;
- static inline __u32 type2uniqueness(int type)
- {
- switch (type) {
- case TYPE_STAT_DATA:
- return V1_SD_UNIQUENESS;
- case TYPE_INDIRECT:
- return V1_INDIRECT_UNIQUENESS;
- case TYPE_DIRECT:
- return V1_DIRECT_UNIQUENESS;
- case TYPE_DIRENTRY:
- return V1_DIRENTRY_UNIQUENESS;
- case TYPE_ANY:
- default:
- return V1_ANY_UNIQUENESS;
- }
- }
- /*
- * key is pointer to on disk key which is stored in le, result is cpu,
- * there is no way to get version of object from key, so, provide
- * version to these defines
- */
- static inline loff_t le_key_k_offset(int version,
- const struct reiserfs_key *key)
- {
- return (version == KEY_FORMAT_3_5) ?
- le32_to_cpu(key->u.k_offset_v1.k_offset) :
- offset_v2_k_offset(&(key->u.k_offset_v2));
- }
- static inline loff_t le_ih_k_offset(const struct item_head *ih)
- {
- return le_key_k_offset(ih_version(ih), &(ih->ih_key));
- }
- static inline loff_t le_key_k_type(int version, const struct reiserfs_key *key)
- {
- if (version == KEY_FORMAT_3_5) {
- loff_t val = le32_to_cpu(key->u.k_offset_v1.k_uniqueness);
- return uniqueness2type(val);
- } else
- return offset_v2_k_type(&(key->u.k_offset_v2));
- }
- static inline loff_t le_ih_k_type(const struct item_head *ih)
- {
- return le_key_k_type(ih_version(ih), &(ih->ih_key));
- }
- static inline void set_le_key_k_offset(int version, struct reiserfs_key *key,
- loff_t offset)
- {
- if (version == KEY_FORMAT_3_5)
- key->u.k_offset_v1.k_offset = cpu_to_le32(offset);
- else
- set_offset_v2_k_offset(&key->u.k_offset_v2, offset);
- }
- static inline void add_le_key_k_offset(int version, struct reiserfs_key *key,
- loff_t offset)
- {
- set_le_key_k_offset(version, key,
- le_key_k_offset(version, key) + offset);
- }
- static inline void add_le_ih_k_offset(struct item_head *ih, loff_t offset)
- {
- add_le_key_k_offset(ih_version(ih), &(ih->ih_key), offset);
- }
- static inline void set_le_ih_k_offset(struct item_head *ih, loff_t offset)
- {
- set_le_key_k_offset(ih_version(ih), &(ih->ih_key), offset);
- }
- static inline void set_le_key_k_type(int version, struct reiserfs_key *key,
- int type)
- {
- if (version == KEY_FORMAT_3_5) {
- type = type2uniqueness(type);
- key->u.k_offset_v1.k_uniqueness = cpu_to_le32(type);
- } else
- set_offset_v2_k_type(&key->u.k_offset_v2, type);
- }
- static inline void set_le_ih_k_type(struct item_head *ih, int type)
- {
- set_le_key_k_type(ih_version(ih), &(ih->ih_key), type);
- }
- static inline int is_direntry_le_key(int version, struct reiserfs_key *key)
- {
- return le_key_k_type(version, key) == TYPE_DIRENTRY;
- }
- static inline int is_direct_le_key(int version, struct reiserfs_key *key)
- {
- return le_key_k_type(version, key) == TYPE_DIRECT;
- }
- static inline int is_indirect_le_key(int version, struct reiserfs_key *key)
- {
- return le_key_k_type(version, key) == TYPE_INDIRECT;
- }
- static inline int is_statdata_le_key(int version, struct reiserfs_key *key)
- {
- return le_key_k_type(version, key) == TYPE_STAT_DATA;
- }
- /* item header has version. */
- static inline int is_direntry_le_ih(struct item_head *ih)
- {
- return is_direntry_le_key(ih_version(ih), &ih->ih_key);
- }
- static inline int is_direct_le_ih(struct item_head *ih)
- {
- return is_direct_le_key(ih_version(ih), &ih->ih_key);
- }
- static inline int is_indirect_le_ih(struct item_head *ih)
- {
- return is_indirect_le_key(ih_version(ih), &ih->ih_key);
- }
- static inline int is_statdata_le_ih(struct item_head *ih)
- {
- return is_statdata_le_key(ih_version(ih), &ih->ih_key);
- }
- /* key is pointer to cpu key, result is cpu */
- static inline loff_t cpu_key_k_offset(const struct cpu_key *key)
- {
- return key->on_disk_key.k_offset;
- }
- static inline loff_t cpu_key_k_type(const struct cpu_key *key)
- {
- return key->on_disk_key.k_type;
- }
- static inline void set_cpu_key_k_offset(struct cpu_key *key, loff_t offset)
- {
- key->on_disk_key.k_offset = offset;
- }
- static inline void set_cpu_key_k_type(struct cpu_key *key, int type)
- {
- key->on_disk_key.k_type = type;
- }
- static inline void cpu_key_k_offset_dec(struct cpu_key *key)
- {
- key->on_disk_key.k_offset--;
- }
- #define is_direntry_cpu_key(key) (cpu_key_k_type (key) == TYPE_DIRENTRY)
- #define is_direct_cpu_key(key) (cpu_key_k_type (key) == TYPE_DIRECT)
- #define is_indirect_cpu_key(key) (cpu_key_k_type (key) == TYPE_INDIRECT)
- #define is_statdata_cpu_key(key) (cpu_key_k_type (key) == TYPE_STAT_DATA)
- /* are these used ? */
- #define is_direntry_cpu_ih(ih) (is_direntry_cpu_key (&((ih)->ih_key)))
- #define is_direct_cpu_ih(ih) (is_direct_cpu_key (&((ih)->ih_key)))
- #define is_indirect_cpu_ih(ih) (is_indirect_cpu_key (&((ih)->ih_key)))
- #define is_statdata_cpu_ih(ih) (is_statdata_cpu_key (&((ih)->ih_key)))
- #define I_K_KEY_IN_ITEM(ih, key, n_blocksize) \
- (!COMP_SHORT_KEYS(ih, key) && \
- I_OFF_BYTE_IN_ITEM(ih, k_offset(key), n_blocksize))
- /* maximal length of item */
- #define MAX_ITEM_LEN(block_size) (block_size - BLKH_SIZE - IH_SIZE)
- #define MIN_ITEM_LEN 1
- /* object identifier for root dir */
- #define REISERFS_ROOT_OBJECTID 2
- #define REISERFS_ROOT_PARENT_OBJECTID 1
- extern struct reiserfs_key root_key;
- /*
- * Picture represents a leaf of the S+tree
- * ______________________________________________________
- * | | Array of | | |
- * |Block | Object-Item | F r e e | Objects- |
- * | head | Headers | S p a c e | Items |
- * |______|_______________|___________________|___________|
- */
- /*
- * Header of a disk block. More precisely, header of a formatted leaf
- * or internal node, and not the header of an unformatted node.
- */
- struct block_head {
- __le16 blk_level; /* Level of a block in the tree. */
- __le16 blk_nr_item; /* Number of keys/items in a block. */
- __le16 blk_free_space; /* Block free space in bytes. */
- __le16 blk_reserved;
- /* dump this in v4/planA */
- /* kept only for compatibility */
- struct reiserfs_key blk_right_delim_key;
- };
- #define BLKH_SIZE (sizeof(struct block_head))
- #define blkh_level(p_blkh) (le16_to_cpu((p_blkh)->blk_level))
- #define blkh_nr_item(p_blkh) (le16_to_cpu((p_blkh)->blk_nr_item))
- #define blkh_free_space(p_blkh) (le16_to_cpu((p_blkh)->blk_free_space))
- #define blkh_reserved(p_blkh) (le16_to_cpu((p_blkh)->blk_reserved))
- #define set_blkh_level(p_blkh,val) ((p_blkh)->blk_level = cpu_to_le16(val))
- #define set_blkh_nr_item(p_blkh,val) ((p_blkh)->blk_nr_item = cpu_to_le16(val))
- #define set_blkh_free_space(p_blkh,val) ((p_blkh)->blk_free_space = cpu_to_le16(val))
- #define set_blkh_reserved(p_blkh,val) ((p_blkh)->blk_reserved = cpu_to_le16(val))
- #define blkh_right_delim_key(p_blkh) ((p_blkh)->blk_right_delim_key)
- #define set_blkh_right_delim_key(p_blkh,val) ((p_blkh)->blk_right_delim_key = val)
- /* values for blk_level field of the struct block_head */
- /*
- * When node gets removed from the tree its blk_level is set to FREE_LEVEL.
- * It is then used to see whether the node is still in the tree
- */
- #define FREE_LEVEL 0
- #define DISK_LEAF_NODE_LEVEL 1 /* Leaf node level. */
- /*
- * Given the buffer head of a formatted node, resolve to the
- * block head of that node.
- */
- #define B_BLK_HEAD(bh) ((struct block_head *)((bh)->b_data))
- /* Number of items that are in buffer. */
- #define B_NR_ITEMS(bh) (blkh_nr_item(B_BLK_HEAD(bh)))
- #define B_LEVEL(bh) (blkh_level(B_BLK_HEAD(bh)))
- #define B_FREE_SPACE(bh) (blkh_free_space(B_BLK_HEAD(bh)))
- #define PUT_B_NR_ITEMS(bh, val) do { set_blkh_nr_item(B_BLK_HEAD(bh), val); } while (0)
- #define PUT_B_LEVEL(bh, val) do { set_blkh_level(B_BLK_HEAD(bh), val); } while (0)
- #define PUT_B_FREE_SPACE(bh, val) do { set_blkh_free_space(B_BLK_HEAD(bh), val); } while (0)
- /* Get right delimiting key. -- little endian */
- #define B_PRIGHT_DELIM_KEY(bh) (&(blk_right_delim_key(B_BLK_HEAD(bh))))
- /* Does the buffer contain a disk leaf. */
- #define B_IS_ITEMS_LEVEL(bh) (B_LEVEL(bh) == DISK_LEAF_NODE_LEVEL)
- /* Does the buffer contain a disk internal node */
- #define B_IS_KEYS_LEVEL(bh) (B_LEVEL(bh) > DISK_LEAF_NODE_LEVEL \
- && B_LEVEL(bh) <= MAX_HEIGHT)
- /***************************************************************************
- * STAT DATA *
- ***************************************************************************/
- /*
- * old stat data is 32 bytes long. We are going to distinguish new one by
- * different size
- */
- struct stat_data_v1 {
- __le16 sd_mode; /* file type, permissions */
- __le16 sd_nlink; /* number of hard links */
- __le16 sd_uid; /* owner */
- __le16 sd_gid; /* group */
- __le32 sd_size; /* file size */
- __le32 sd_atime; /* time of last access */
- __le32 sd_mtime; /* time file was last modified */
- /*
- * time inode (stat data) was last changed
- * (except changes to sd_atime and sd_mtime)
- */
- __le32 sd_ctime;
- union {
- __le32 sd_rdev;
- __le32 sd_blocks; /* number of blocks file uses */
- } __attribute__ ((__packed__)) u;
- /*
- * first byte of file which is stored in a direct item: except that if
- * it equals 1 it is a symlink and if it equals ~(__u32)0 there is no
- * direct item. The existence of this field really grates on me.
- * Let's replace it with a macro based on sd_size and our tail
- * suppression policy. Someday. -Hans
- */
- __le32 sd_first_direct_byte;
- } __attribute__ ((__packed__));
- #define SD_V1_SIZE (sizeof(struct stat_data_v1))
- #define stat_data_v1(ih) (ih_version (ih) == KEY_FORMAT_3_5)
- #define sd_v1_mode(sdp) (le16_to_cpu((sdp)->sd_mode))
- #define set_sd_v1_mode(sdp,v) ((sdp)->sd_mode = cpu_to_le16(v))
- #define sd_v1_nlink(sdp) (le16_to_cpu((sdp)->sd_nlink))
- #define set_sd_v1_nlink(sdp,v) ((sdp)->sd_nlink = cpu_to_le16(v))
- #define sd_v1_uid(sdp) (le16_to_cpu((sdp)->sd_uid))
- #define set_sd_v1_uid(sdp,v) ((sdp)->sd_uid = cpu_to_le16(v))
- #define sd_v1_gid(sdp) (le16_to_cpu((sdp)->sd_gid))
- #define set_sd_v1_gid(sdp,v) ((sdp)->sd_gid = cpu_to_le16(v))
- #define sd_v1_size(sdp) (le32_to_cpu((sdp)->sd_size))
- #define set_sd_v1_size(sdp,v) ((sdp)->sd_size = cpu_to_le32(v))
- #define sd_v1_atime(sdp) (le32_to_cpu((sdp)->sd_atime))
- #define set_sd_v1_atime(sdp,v) ((sdp)->sd_atime = cpu_to_le32(v))
- #define sd_v1_mtime(sdp) (le32_to_cpu((sdp)->sd_mtime))
- #define set_sd_v1_mtime(sdp,v) ((sdp)->sd_mtime = cpu_to_le32(v))
- #define sd_v1_ctime(sdp) (le32_to_cpu((sdp)->sd_ctime))
- #define set_sd_v1_ctime(sdp,v) ((sdp)->sd_ctime = cpu_to_le32(v))
- #define sd_v1_rdev(sdp) (le32_to_cpu((sdp)->u.sd_rdev))
- #define set_sd_v1_rdev(sdp,v) ((sdp)->u.sd_rdev = cpu_to_le32(v))
- #define sd_v1_blocks(sdp) (le32_to_cpu((sdp)->u.sd_blocks))
- #define set_sd_v1_blocks(sdp,v) ((sdp)->u.sd_blocks = cpu_to_le32(v))
- #define sd_v1_first_direct_byte(sdp) \
- (le32_to_cpu((sdp)->sd_first_direct_byte))
- #define set_sd_v1_first_direct_byte(sdp,v) \
- ((sdp)->sd_first_direct_byte = cpu_to_le32(v))
- /* inode flags stored in sd_attrs (nee sd_reserved) */
- /*
- * we want common flags to have the same values as in ext2,
- * so chattr(1) will work without problems
- */
- #define REISERFS_IMMUTABLE_FL FS_IMMUTABLE_FL
- #define REISERFS_APPEND_FL FS_APPEND_FL
- #define REISERFS_SYNC_FL FS_SYNC_FL
- #define REISERFS_NOATIME_FL FS_NOATIME_FL
- #define REISERFS_NODUMP_FL FS_NODUMP_FL
- #define REISERFS_SECRM_FL FS_SECRM_FL
- #define REISERFS_UNRM_FL FS_UNRM_FL
- #define REISERFS_COMPR_FL FS_COMPR_FL
- #define REISERFS_NOTAIL_FL FS_NOTAIL_FL
- /* persistent flags that file inherits from the parent directory */
- #define REISERFS_INHERIT_MASK ( REISERFS_IMMUTABLE_FL | \
- REISERFS_SYNC_FL | \
- REISERFS_NOATIME_FL | \
- REISERFS_NODUMP_FL | \
- REISERFS_SECRM_FL | \
- REISERFS_COMPR_FL | \
- REISERFS_NOTAIL_FL )
- /*
- * Stat Data on disk (reiserfs version of UFS disk inode minus the
- * address blocks)
- */
- struct stat_data {
- __le16 sd_mode; /* file type, permissions */
- __le16 sd_attrs; /* persistent inode flags */
- __le32 sd_nlink; /* number of hard links */
- __le64 sd_size; /* file size */
- __le32 sd_uid; /* owner */
- __le32 sd_gid; /* group */
- __le32 sd_atime; /* time of last access */
- __le32 sd_mtime; /* time file was last modified */
- /*
- * time inode (stat data) was last changed
- * (except changes to sd_atime and sd_mtime)
- */
- __le32 sd_ctime;
- __le32 sd_blocks;
- union {
- __le32 sd_rdev;
- __le32 sd_generation;
- } __attribute__ ((__packed__)) u;
- } __attribute__ ((__packed__));
- /* this is 44 bytes long */
- #define SD_SIZE (sizeof(struct stat_data))
- #define SD_V2_SIZE SD_SIZE
- #define stat_data_v2(ih) (ih_version (ih) == KEY_FORMAT_3_6)
- #define sd_v2_mode(sdp) (le16_to_cpu((sdp)->sd_mode))
- #define set_sd_v2_mode(sdp,v) ((sdp)->sd_mode = cpu_to_le16(v))
- /* sd_reserved */
- /* set_sd_reserved */
- #define sd_v2_nlink(sdp) (le32_to_cpu((sdp)->sd_nlink))
- #define set_sd_v2_nlink(sdp,v) ((sdp)->sd_nlink = cpu_to_le32(v))
- #define sd_v2_size(sdp) (le64_to_cpu((sdp)->sd_size))
- #define set_sd_v2_size(sdp,v) ((sdp)->sd_size = cpu_to_le64(v))
- #define sd_v2_uid(sdp) (le32_to_cpu((sdp)->sd_uid))
- #define set_sd_v2_uid(sdp,v) ((sdp)->sd_uid = cpu_to_le32(v))
- #define sd_v2_gid(sdp) (le32_to_cpu((sdp)->sd_gid))
- #define set_sd_v2_gid(sdp,v) ((sdp)->sd_gid = cpu_to_le32(v))
- #define sd_v2_atime(sdp) (le32_to_cpu((sdp)->sd_atime))
- #define set_sd_v2_atime(sdp,v) ((sdp)->sd_atime = cpu_to_le32(v))
- #define sd_v2_mtime(sdp) (le32_to_cpu((sdp)->sd_mtime))
- #define set_sd_v2_mtime(sdp,v) ((sdp)->sd_mtime = cpu_to_le32(v))
- #define sd_v2_ctime(sdp) (le32_to_cpu((sdp)->sd_ctime))
- #define set_sd_v2_ctime(sdp,v) ((sdp)->sd_ctime = cpu_to_le32(v))
- #define sd_v2_blocks(sdp) (le32_to_cpu((sdp)->sd_blocks))
- #define set_sd_v2_blocks(sdp,v) ((sdp)->sd_blocks = cpu_to_le32(v))
- #define sd_v2_rdev(sdp) (le32_to_cpu((sdp)->u.sd_rdev))
- #define set_sd_v2_rdev(sdp,v) ((sdp)->u.sd_rdev = cpu_to_le32(v))
- #define sd_v2_generation(sdp) (le32_to_cpu((sdp)->u.sd_generation))
- #define set_sd_v2_generation(sdp,v) ((sdp)->u.sd_generation = cpu_to_le32(v))
- #define sd_v2_attrs(sdp) (le16_to_cpu((sdp)->sd_attrs))
- #define set_sd_v2_attrs(sdp,v) ((sdp)->sd_attrs = cpu_to_le16(v))
- /***************************************************************************
- * DIRECTORY STRUCTURE *
- ***************************************************************************/
- /*
- * Picture represents the structure of directory items
- * ________________________________________________
- * | Array of | | | | | |
- * | directory |N-1| N-2 | .... | 1st |0th|
- * | entry headers | | | | | |
- * |_______________|___|_____|________|_______|___|
- * <---- directory entries ------>
- *
- * First directory item has k_offset component 1. We store "." and ".."
- * in one item, always, we never split "." and ".." into differing
- * items. This makes, among other things, the code for removing
- * directories simpler.
- */
- #define SD_OFFSET 0
- #define SD_UNIQUENESS 0
- #define DOT_OFFSET 1
- #define DOT_DOT_OFFSET 2
- #define DIRENTRY_UNIQUENESS 500
- #define FIRST_ITEM_OFFSET 1
- /*
- * Q: How to get key of object pointed to by entry from entry?
- *
- * A: Each directory entry has its header. This header has deh_dir_id
- * and deh_objectid fields, those are key of object, entry points to
- */
- /*
- * NOT IMPLEMENTED:
- * Directory will someday contain stat data of object
- */
- struct reiserfs_de_head {
- __le32 deh_offset; /* third component of the directory entry key */
- /*
- * objectid of the parent directory of the object, that is referenced
- * by directory entry
- */
- __le32 deh_dir_id;
- /* objectid of the object, that is referenced by directory entry */
- __le32 deh_objectid;
- __le16 deh_location; /* offset of name in the whole item */
- /*
- * whether 1) entry contains stat data (for future), and
- * 2) whether entry is hidden (unlinked)
- */
- __le16 deh_state;
- } __attribute__ ((__packed__));
- #define DEH_SIZE sizeof(struct reiserfs_de_head)
- #define deh_offset(p_deh) (le32_to_cpu((p_deh)->deh_offset))
- #define deh_dir_id(p_deh) (le32_to_cpu((p_deh)->deh_dir_id))
- #define deh_objectid(p_deh) (le32_to_cpu((p_deh)->deh_objectid))
- #define deh_location(p_deh) (le16_to_cpu((p_deh)->deh_location))
- #define deh_state(p_deh) (le16_to_cpu((p_deh)->deh_state))
- #define put_deh_offset(p_deh,v) ((p_deh)->deh_offset = cpu_to_le32((v)))
- #define put_deh_dir_id(p_deh,v) ((p_deh)->deh_dir_id = cpu_to_le32((v)))
- #define put_deh_objectid(p_deh,v) ((p_deh)->deh_objectid = cpu_to_le32((v)))
- #define put_deh_location(p_deh,v) ((p_deh)->deh_location = cpu_to_le16((v)))
- #define put_deh_state(p_deh,v) ((p_deh)->deh_state = cpu_to_le16((v)))
- /* empty directory contains two entries "." and ".." and their headers */
- #define EMPTY_DIR_SIZE \
- (DEH_SIZE * 2 + ROUND_UP (sizeof(".") - 1) + ROUND_UP (sizeof("..") - 1))
- /* old format directories have this size when empty */
- #define EMPTY_DIR_SIZE_V1 (DEH_SIZE * 2 + 3)
- #define DEH_Statdata 0 /* not used now */
- #define DEH_Visible 2
- /* 64 bit systems (and the S/390) need to be aligned explicitly -jdm */
- #if BITS_PER_LONG == 64 || defined(__s390__) || defined(__hppa__)
- # define ADDR_UNALIGNED_BITS (3)
- #endif
- /*
- * These are only used to manipulate deh_state.
- * Because of this, we'll use the ext2_ bit routines,
- * since they are little endian
- */
- #ifdef ADDR_UNALIGNED_BITS
- # define aligned_address(addr) ((void *)((long)(addr) & ~((1UL << ADDR_UNALIGNED_BITS) - 1)))
- # define unaligned_offset(addr) (((int)((long)(addr) & ((1 << ADDR_UNALIGNED_BITS) - 1))) << 3)
- # define set_bit_unaligned(nr, addr) \
- __test_and_set_bit_le((nr) + unaligned_offset(addr), aligned_address(addr))
- # define clear_bit_unaligned(nr, addr) \
- __test_and_clear_bit_le((nr) + unaligned_offset(addr), aligned_address(addr))
- # define test_bit_unaligned(nr, addr) \
- test_bit_le((nr) + unaligned_offset(addr), aligned_address(addr))
- #else
- # define set_bit_unaligned(nr, addr) __test_and_set_bit_le(nr, addr)
- # define clear_bit_unaligned(nr, addr) __test_and_clear_bit_le(nr, addr)
- # define test_bit_unaligned(nr, addr) test_bit_le(nr, addr)
- #endif
- #define mark_de_with_sd(deh) set_bit_unaligned (DEH_Statdata, &((deh)->deh_state))
- #define mark_de_without_sd(deh) clear_bit_unaligned (DEH_Statdata, &((deh)->deh_state))
- #define mark_de_visible(deh) set_bit_unaligned (DEH_Visible, &((deh)->deh_state))
- #define mark_de_hidden(deh) clear_bit_unaligned (DEH_Visible, &((deh)->deh_state))
- #define de_with_sd(deh) test_bit_unaligned (DEH_Statdata, &((deh)->deh_state))
- #define de_visible(deh) test_bit_unaligned (DEH_Visible, &((deh)->deh_state))
- #define de_hidden(deh) !test_bit_unaligned (DEH_Visible, &((deh)->deh_state))
- extern void make_empty_dir_item_v1(char *body, __le32 dirid, __le32 objid,
- __le32 par_dirid, __le32 par_objid);
- extern void make_empty_dir_item(char *body, __le32 dirid, __le32 objid,
- __le32 par_dirid, __le32 par_objid);
- /* two entries per block (at least) */
- #define REISERFS_MAX_NAME(block_size) 255
- /*
- * this structure is used for operations on directory entries. It is
- * not a disk structure.
- *
- * When reiserfs_find_entry or search_by_entry_key find directory
- * entry, they return filled reiserfs_dir_entry structure
- */
- struct reiserfs_dir_entry {
- struct buffer_head *de_bh;
- int de_item_num;
- struct item_head *de_ih;
- int de_entry_num;
- struct reiserfs_de_head *de_deh;
- int de_entrylen;
- int de_namelen;
- char *de_name;
- unsigned long *de_gen_number_bit_string;
- __u32 de_dir_id;
- __u32 de_objectid;
- struct cpu_key de_entry_key;
- };
- /*
- * these defines are useful when a particular member of
- * a reiserfs_dir_entry is needed
- */
- /* pointer to file name, stored in entry */
- #define B_I_DEH_ENTRY_FILE_NAME(bh, ih, deh) \
- (ih_item_body(bh, ih) + deh_location(deh))
- /* length of name */
- #define I_DEH_N_ENTRY_FILE_NAME_LENGTH(ih,deh,entry_num) \
- (I_DEH_N_ENTRY_LENGTH (ih, deh, entry_num) - (de_with_sd (deh) ? SD_SIZE : 0))
- /* hash value occupies bits from 7 up to 30 */
- #define GET_HASH_VALUE(offset) ((offset) & 0x7fffff80LL)
- /* generation number occupies 7 bits starting from 0 up to 6 */
- #define GET_GENERATION_NUMBER(offset) ((offset) & 0x7fLL)
- #define MAX_GENERATION_NUMBER 127
- #define SET_GENERATION_NUMBER(offset,gen_number) (GET_HASH_VALUE(offset)|(gen_number))
- /*
- * Picture represents an internal node of the reiserfs tree
- * ______________________________________________________
- * | | Array of | Array of | Free |
- * |block | keys | pointers | space |
- * | head | N | N+1 | |
- * |______|_______________|___________________|___________|
- */
- /***************************************************************************
- * DISK CHILD *
- ***************************************************************************/
- /*
- * Disk child pointer:
- * The pointer from an internal node of the tree to a node that is on disk.
- */
- struct disk_child {
- __le32 dc_block_number; /* Disk child's block number. */
- __le16 dc_size; /* Disk child's used space. */
- __le16 dc_reserved;
- };
- #define DC_SIZE (sizeof(struct disk_child))
- #define dc_block_number(dc_p) (le32_to_cpu((dc_p)->dc_block_number))
- #define dc_size(dc_p) (le16_to_cpu((dc_p)->dc_size))
- #define put_dc_block_number(dc_p, val) do { (dc_p)->dc_block_number = cpu_to_le32(val); } while(0)
- #define put_dc_size(dc_p, val) do { (dc_p)->dc_size = cpu_to_le16(val); } while(0)
- /* Get disk child by buffer header and position in the tree node. */
- #define B_N_CHILD(bh, n_pos) ((struct disk_child *)\
- ((bh)->b_data + BLKH_SIZE + B_NR_ITEMS(bh) * KEY_SIZE + DC_SIZE * (n_pos)))
- /* Get disk child number by buffer header and position in the tree node. */
- #define B_N_CHILD_NUM(bh, n_pos) (dc_block_number(B_N_CHILD(bh, n_pos)))
- #define PUT_B_N_CHILD_NUM(bh, n_pos, val) \
- (put_dc_block_number(B_N_CHILD(bh, n_pos), val))
- /* maximal value of field child_size in structure disk_child */
- /* child size is the combined size of all items and their headers */
- #define MAX_CHILD_SIZE(bh) ((int)( (bh)->b_size - BLKH_SIZE ))
- /* amount of used space in buffer (not including block head) */
- #define B_CHILD_SIZE(cur) (MAX_CHILD_SIZE(cur)-(B_FREE_SPACE(cur)))
- /* max and min number of keys in internal node */
- #define MAX_NR_KEY(bh) ( (MAX_CHILD_SIZE(bh)-DC_SIZE)/(KEY_SIZE+DC_SIZE) )
- #define MIN_NR_KEY(bh) (MAX_NR_KEY(bh)/2)
- /***************************************************************************
- * PATH STRUCTURES AND DEFINES *
- ***************************************************************************/
- /*
- * search_by_key fills up the path from the root to the leaf as it descends
- * the tree looking for the key. It uses reiserfs_bread to try to find
- * buffers in the cache given their block number. If it does not find
- * them in the cache it reads them from disk. For each node search_by_key
- * finds using reiserfs_bread it then uses bin_search to look through that
- * node. bin_search will find the position of the block_number of the next
- * node if it is looking through an internal node. If it is looking through
- * a leaf node bin_search will find the position of the item which has key
- * either equal to given key, or which is the maximal key less than the
- * given key.
- */
- struct path_element {
- /* Pointer to the buffer at the path in the tree. */
- struct buffer_head *pe_buffer;
- /* Position in the tree node which is placed in the buffer above. */
- int pe_position;
- };
- /*
- * maximal height of a tree. don't change this without
- * changing JOURNAL_PER_BALANCE_CNT
- */
- #define MAX_HEIGHT 5
- /* Must be equals MAX_HEIGHT + FIRST_PATH_ELEMENT_OFFSET */
- #define EXTENDED_MAX_HEIGHT 7
- /* Must be equal to at least 2. */
- #define FIRST_PATH_ELEMENT_OFFSET 2
- /* Must be equal to FIRST_PATH_ELEMENT_OFFSET - 1 */
- #define ILLEGAL_PATH_ELEMENT_OFFSET 1
- /* this MUST be MAX_HEIGHT + 1. See about FEB below */
- #define MAX_FEB_SIZE 6
- /*
- * We need to keep track of who the ancestors of nodes are. When we
- * perform a search we record which nodes were visited while
- * descending the tree looking for the node we searched for. This list
- * of nodes is called the path. This information is used while
- * performing balancing. Note that this path information may become
- * invalid, and this means we must check it when using it to see if it
- * is still valid. You'll need to read search_by_key and the comments
- * in it, especially about decrement_counters_in_path(), to understand
- * this structure.
- *
- * Paths make the code so much harder to work with and debug.... An
- * enormous number of bugs are due to them, and trying to write or modify
- * code that uses them just makes my head hurt. They are based on an
- * excessive effort to avoid disturbing the precious VFS code.:-( The
- * gods only know how we are going to SMP the code that uses them.
- * znodes are the way!
- */
- #define PATH_READA 0x1 /* do read ahead */
- #define PATH_READA_BACK 0x2 /* read backwards */
- struct treepath {
- int path_length; /* Length of the array above. */
- int reada;
- /* Array of the path elements. */
- struct path_element path_elements[EXTENDED_MAX_HEIGHT];
- int pos_in_item;
- };
- #define pos_in_item(path) ((path)->pos_in_item)
- #define INITIALIZE_PATH(var) \
- struct treepath var = {.path_length = ILLEGAL_PATH_ELEMENT_OFFSET, .reada = 0,}
- /* Get path element by path and path position. */
- #define PATH_OFFSET_PELEMENT(path, n_offset) ((path)->path_elements + (n_offset))
- /* Get buffer header at the path by path and path position. */
- #define PATH_OFFSET_PBUFFER(path, n_offset) (PATH_OFFSET_PELEMENT(path, n_offset)->pe_buffer)
- /* Get position in the element at the path by path and path position. */
- #define PATH_OFFSET_POSITION(path, n_offset) (PATH_OFFSET_PELEMENT(path, n_offset)->pe_position)
- #define PATH_PLAST_BUFFER(path) (PATH_OFFSET_PBUFFER((path), (path)->path_length))
- /*
- * you know, to the person who didn't write this the macro name does not
- * at first suggest what it does. Maybe POSITION_FROM_PATH_END? Or
- * maybe we should just focus on dumping paths... -Hans
- */
- #define PATH_LAST_POSITION(path) (PATH_OFFSET_POSITION((path), (path)->path_length))
- /*
- * in do_balance leaf has h == 0 in contrast with path structure,
- * where root has level == 0. That is why we need these defines
- */
- /* tb->S[h] */
- #define PATH_H_PBUFFER(path, h) \
- PATH_OFFSET_PBUFFER(path, path->path_length - (h))
- /* tb->F[h] or tb->S[0]->b_parent */
- #define PATH_H_PPARENT(path, h) PATH_H_PBUFFER(path, (h) + 1)
- #define PATH_H_POSITION(path, h) \
- PATH_OFFSET_POSITION(path, path->path_length - (h))
- /* tb->S[h]->b_item_order */
- #define PATH_H_B_ITEM_ORDER(path, h) PATH_H_POSITION(path, h + 1)
- #define PATH_H_PATH_OFFSET(path, n_h) ((path)->path_length - (n_h))
- static inline void *reiserfs_node_data(const struct buffer_head *bh)
- {
- return bh->b_data + sizeof(struct block_head);
- }
- /* get key from internal node */
- static inline struct reiserfs_key *internal_key(struct buffer_head *bh,
- int item_num)
- {
- struct reiserfs_key *key = reiserfs_node_data(bh);
- return &key[item_num];
- }
- /* get the item header from leaf node */
- static inline struct item_head *item_head(const struct buffer_head *bh,
- int item_num)
- {
- struct item_head *ih = reiserfs_node_data(bh);
- return &ih[item_num];
- }
- /* get the key from leaf node */
- static inline struct reiserfs_key *leaf_key(const struct buffer_head *bh,
- int item_num)
- {
- return &item_head(bh, item_num)->ih_key;
- }
- static inline void *ih_item_body(const struct buffer_head *bh,
- const struct item_head *ih)
- {
- return bh->b_data + ih_location(ih);
- }
- /* get item body from leaf node */
- static inline void *item_body(const struct buffer_head *bh, int item_num)
- {
- return ih_item_body(bh, item_head(bh, item_num));
- }
- static inline struct item_head *tp_item_head(const struct treepath *path)
- {
- return item_head(PATH_PLAST_BUFFER(path), PATH_LAST_POSITION(path));
- }
- static inline void *tp_item_body(const struct treepath *path)
- {
- return item_body(PATH_PLAST_BUFFER(path), PATH_LAST_POSITION(path));
- }
- #define get_last_bh(path) PATH_PLAST_BUFFER(path)
- #define get_item_pos(path) PATH_LAST_POSITION(path)
- #define item_moved(ih,path) comp_items(ih, path)
- #define path_changed(ih,path) comp_items (ih, path)
- /* array of the entry headers */
- /* get item body */
- #define B_I_DEH(bh, ih) ((struct reiserfs_de_head *)(ih_item_body(bh, ih)))
- /*
- * length of the directory entry in directory item. This define
- * calculates length of i-th directory entry using directory entry
- * locations from dir entry head. When it calculates length of 0-th
- * directory entry, it uses length of whole item in place of entry
- * location of the non-existent following entry in the calculation.
- * See picture above.
- */
- static inline int entry_length(const struct buffer_head *bh,
- const struct item_head *ih, int pos_in_item)
- {
- struct reiserfs_de_head *deh;
- deh = B_I_DEH(bh, ih) + pos_in_item;
- if (pos_in_item)
- return deh_location(deh - 1) - deh_location(deh);
- return ih_item_len(ih) - deh_location(deh);
- }
- /***************************************************************************
- * MISC *
- ***************************************************************************/
- /* Size of pointer to the unformatted node. */
- #define UNFM_P_SIZE (sizeof(unp_t))
- #define UNFM_P_SHIFT 2
- /* in in-core inode key is stored on le form */
- #define INODE_PKEY(inode) ((struct reiserfs_key *)(REISERFS_I(inode)->i_key))
- #define MAX_UL_INT 0xffffffff
- #define MAX_INT 0x7ffffff
- #define MAX_US_INT 0xffff
- // reiserfs version 2 has max offset 60 bits. Version 1 - 32 bit offset
- static inline loff_t max_reiserfs_offset(struct inode *inode)
- {
- if (get_inode_item_key_version(inode) == KEY_FORMAT_3_5)
- return (loff_t) U32_MAX;
- return (loff_t) ((~(__u64) 0) >> 4);
- }
- #define MAX_KEY_OBJECTID MAX_UL_INT
- #define MAX_B_NUM MAX_UL_INT
- #define MAX_FC_NUM MAX_US_INT
- /* the purpose is to detect overflow of an unsigned short */
- #define REISERFS_LINK_MAX (MAX_US_INT - 1000)
- /*
- * The following defines are used in reiserfs_insert_item
- * and reiserfs_append_item
- */
- #define REISERFS_KERNEL_MEM 0 /* kernel memory mode */
- #define REISERFS_USER_MEM 1 /* user memory mode */
- #define fs_generation(s) (REISERFS_SB(s)->s_generation_counter)
- #define get_generation(s) atomic_read (&fs_generation(s))
- #define FILESYSTEM_CHANGED_TB(tb) (get_generation((tb)->tb_sb) != (tb)->fs_gen)
- #define __fs_changed(gen,s) (gen != get_generation (s))
- #define fs_changed(gen,s) \
- ({ \
- reiserfs_cond_resched(s); \
- __fs_changed(gen, s); \
- })
- /***************************************************************************
- * FIXATE NODES *
- ***************************************************************************/
- #define VI_TYPE_LEFT_MERGEABLE 1
- #define VI_TYPE_RIGHT_MERGEABLE 2
- /*
- * To make any changes in the tree we always first find node, that
- * contains item to be changed/deleted or place to insert a new
- * item. We call this node S. To do balancing we need to decide what
- * we will shift to left/right neighbor, or to a new node, where new
- * item will be etc. To make this analysis simpler we build virtual
- * node. Virtual node is an array of items, that will replace items of
- * node S. (For instance if we are going to delete an item, virtual
- * node does not contain it). Virtual node keeps information about
- * item sizes and types, mergeability of first and last items, sizes
- * of all entries in directory item. We use this array of items when
- * calculating what we can shift to neighbors and how many nodes we
- * have to have if we do not any shiftings, if we shift to left/right
- * neighbor or to both.
- */
- struct virtual_item {
- int vi_index; /* index in the array of item operations */
- unsigned short vi_type; /* left/right mergeability */
- /* length of item that it will have after balancing */
- unsigned short vi_item_len;
- struct item_head *vi_ih;
- const char *vi_item; /* body of item (old or new) */
- const void *vi_new_data; /* 0 always but paste mode */
- void *vi_uarea; /* item specific area */
- };
- struct virtual_node {
- /* this is a pointer to the free space in the buffer */
- char *vn_free_ptr;
- unsigned short vn_nr_item; /* number of items in virtual node */
- /*
- * size of node , that node would have if it has
- * unlimited size and no balancing is performed
- */
- short vn_size;
- /* mode of balancing (paste, insert, delete, cut) */
- short vn_mode;
- short vn_affected_item_num;
- short vn_pos_in_item;
- /* item header of inserted item, 0 for other modes */
- struct item_head *vn_ins_ih;
- const void *vn_data;
- /* array of items (including a new one, excluding item to be deleted) */
- struct virtual_item *vn_vi;
- };
- /* used by directory items when creating virtual nodes */
- struct direntry_uarea {
- int flags;
- __u16 entry_count;
- __u16 entry_sizes[1];
- } __attribute__ ((__packed__));
- /***************************************************************************
- * TREE BALANCE *
- ***************************************************************************/
- /*
- * This temporary structure is used in tree balance algorithms, and
- * constructed as we go to the extent that its various parts are
- * needed. It contains arrays of nodes that can potentially be
- * involved in the balancing of node S, and parameters that define how
- * each of the nodes must be balanced. Note that in these algorithms
- * for balancing the worst case is to need to balance the current node
- * S and the left and right neighbors and all of their parents plus
- * create a new node. We implement S1 balancing for the leaf nodes
- * and S0 balancing for the internal nodes (S1 and S0 are defined in
- * our papers.)
- */
- /* size of the array of buffers to free at end of do_balance */
- #define MAX_FREE_BLOCK 7
- /* maximum number of FEB blocknrs on a single level */
- #define MAX_AMOUNT_NEEDED 2
- /* someday somebody will prefix every field in this struct with tb_ */
- struct tree_balance {
- int tb_mode;
- int need_balance_dirty;
- struct super_block *tb_sb;
- struct reiserfs_transaction_handle *transaction_handle;
- struct treepath *tb_path;
- /* array of left neighbors of nodes in the path */
- struct buffer_head *L[MAX_HEIGHT];
- /* array of right neighbors of nodes in the path */
- struct buffer_head *R[MAX_HEIGHT];
- /* array of fathers of the left neighbors */
- struct buffer_head *FL[MAX_HEIGHT];
- /* array of fathers of the right neighbors */
- struct buffer_head *FR[MAX_HEIGHT];
- /* array of common parents of center node and its left neighbor */
- struct buffer_head *CFL[MAX_HEIGHT];
- /* array of common parents of center node and its right neighbor */
- struct buffer_head *CFR[MAX_HEIGHT];
- /*
- * array of empty buffers. Number of buffers in array equals
- * cur_blknum.
- */
- struct buffer_head *FEB[MAX_FEB_SIZE];
- struct buffer_head *used[MAX_FEB_SIZE];
- struct buffer_head *thrown[MAX_FEB_SIZE];
- /*
- * array of number of items which must be shifted to the left in
- * order to balance the current node; for leaves includes item that
- * will be partially shifted; for internal nodes, it is the number
- * of child pointers rather than items. It includes the new item
- * being created. The code sometimes subtracts one to get the
- * number of wholly shifted items for other purposes.
- */
- int lnum[MAX_HEIGHT];
- /* substitute right for left in comment above */
- int rnum[MAX_HEIGHT];
- /*
- * array indexed by height h mapping the key delimiting L[h] and
- * S[h] to its item number within the node CFL[h]
- */
- int lkey[MAX_HEIGHT];
- /* substitute r for l in comment above */
- int rkey[MAX_HEIGHT];
- /*
- * the number of bytes by we are trying to add or remove from
- * S[h]. A negative value means removing.
- */
- int insert_size[MAX_HEIGHT];
- /*
- * number of nodes that will replace node S[h] after balancing
- * on the level h of the tree. If 0 then S is being deleted,
- * if 1 then S is remaining and no new nodes are being created,
- * if 2 or 3 then 1 or 2 new nodes is being created
- */
- int blknum[MAX_HEIGHT];
- /* fields that are used only for balancing leaves of the tree */
- /* number of empty blocks having been already allocated */
- int cur_blknum;
- /* number of items that fall into left most node when S[0] splits */
- int s0num;
- /*
- * number of bytes which can flow to the left neighbor from the left
- * most liquid item that cannot be shifted from S[0] entirely
- * if -1 then nothing will be partially shifted
- */
- int lbytes;
- /*
- * number of bytes which will flow to the right neighbor from the right
- * most liquid item that cannot be shifted from S[0] entirely
- * if -1 then nothing will be partially shifted
- */
- int rbytes;
- /*
- * index into the array of item headers in
- * S[0] of the affected item
- */
- int item_pos;
- /* new nodes allocated to hold what could not fit into S */
- struct buffer_head *S_new[2];
- /*
- * number of items that will be placed into nodes in S_new
- * when S[0] splits
- */
- int snum[2];
- /*
- * number of bytes which flow to nodes in S_new when S[0] splits
- * note: if S[0] splits into 3 nodes, then items do not need to be cut
- */
- int sbytes[2];
- int pos_in_item;
- int zeroes_num;
- /*
- * buffers which are to be freed after do_balance finishes
- * by unfix_nodes
- */
- struct buffer_head *buf_to_free[MAX_FREE_BLOCK];
- /*
- * kmalloced memory. Used to create virtual node and keep
- * map of dirtied bitmap blocks
- */
- char *vn_buf;
- int vn_buf_size; /* size of the vn_buf */
- /* VN starts after bitmap of bitmap blocks */
- struct virtual_node *tb_vn;
- /*
- * saved value of `reiserfs_generation' counter see
- * FILESYSTEM_CHANGED() macro in reiserfs_fs.h
- */
- int fs_gen;
- #ifdef DISPLACE_NEW_PACKING_LOCALITIES
- /*
- * key pointer, to pass to block allocator or
- * another low-level subsystem
- */
- struct in_core_key key;
- #endif
- };
- /* These are modes of balancing */
- /* When inserting an item. */
- #define M_INSERT 'i'
- /*
- * When inserting into (directories only) or appending onto an already
- * existent item.
- */
- #define M_PASTE 'p'
- /* When deleting an item. */
- #define M_DELETE 'd'
- /* When truncating an item or removing an entry from a (directory) item. */
- #define M_CUT 'c'
- /* used when balancing on leaf level skipped (in reiserfsck) */
- #define M_INTERNAL 'n'
- /*
- * When further balancing is not needed, then do_balance does not need
- * to be called.
- */
- #define M_SKIP_BALANCING 's'
- #define M_CONVERT 'v'
- /* modes of leaf_move_items */
- #define LEAF_FROM_S_TO_L 0
- #define LEAF_FROM_S_TO_R 1
- #define LEAF_FROM_R_TO_L 2
- #define LEAF_FROM_L_TO_R 3
- #define LEAF_FROM_S_TO_SNEW 4
- #define FIRST_TO_LAST 0
- #define LAST_TO_FIRST 1
- /*
- * used in do_balance for passing parent of node information that has
- * been gotten from tb struct
- */
- struct buffer_info {
- struct tree_balance *tb;
- struct buffer_head *bi_bh;
- struct buffer_head *bi_parent;
- int bi_position;
- };
- static inline struct super_block *sb_from_tb(struct tree_balance *tb)
- {
- return tb ? tb->tb_sb : NULL;
- }
- static inline struct super_block *sb_from_bi(struct buffer_info *bi)
- {
- return bi ? sb_from_tb(bi->tb) : NULL;
- }
- /*
- * there are 4 types of items: stat data, directory item, indirect, direct.
- * +-------------------+------------+--------------+------------+
- * | | k_offset | k_uniqueness | mergeable? |
- * +-------------------+------------+--------------+------------+
- * | stat data | 0 | 0 | no |
- * +-------------------+------------+--------------+------------+
- * | 1st directory item| DOT_OFFSET | DIRENTRY_ .. | no |
- * | non 1st directory | hash value | UNIQUENESS | yes |
- * | item | | | |
- * +-------------------+------------+--------------+------------+
- * | indirect item | offset + 1 |TYPE_INDIRECT | [1] |
- * +-------------------+------------+--------------+------------+
- * | direct item | offset + 1 |TYPE_DIRECT | [2] |
- * +-------------------+------------+--------------+------------+
- *
- * [1] if this is not the first indirect item of the object
- * [2] if this is not the first direct item of the object
- */
- struct item_operations {
- int (*bytes_number) (struct item_head * ih, int block_size);
- void (*decrement_key) (struct cpu_key *);
- int (*is_left_mergeable) (struct reiserfs_key * ih,
- unsigned long bsize);
- void (*print_item) (struct item_head *, char *item);
- void (*check_item) (struct item_head *, char *item);
- int (*create_vi) (struct virtual_node * vn, struct virtual_item * vi,
- int is_affected, int insert_size);
- int (*check_left) (struct virtual_item * vi, int free,
- int start_skip, int end_skip);
- int (*check_right) (struct virtual_item * vi, int free);
- int (*part_size) (struct virtual_item * vi, int from, int to);
- int (*unit_num) (struct virtual_item * vi);
- void (*print_vi) (struct virtual_item * vi);
- };
- extern struct item_operations *item_ops[TYPE_ANY + 1];
- #define op_bytes_number(ih,bsize) item_ops[le_ih_k_type (ih)]->bytes_number (ih, bsize)
- #define op_is_left_mergeable(key,bsize) item_ops[le_key_k_type (le_key_version (key), key)]->is_left_mergeable (key, bsize)
- #define op_print_item(ih,item) item_ops[le_ih_k_type (ih)]->print_item (ih, item)
- #define op_check_item(ih,item) item_ops[le_ih_k_type (ih)]->check_item (ih, item)
- #define op_create_vi(vn,vi,is_affected,insert_size) item_ops[le_ih_k_type ((vi)->vi_ih)]->create_vi (vn,vi,is_affected,insert_size)
- #define op_check_left(vi,free,start_skip,end_skip) item_ops[(vi)->vi_index]->check_left (vi, free, start_skip, end_skip)
- #define op_check_right(vi,free) item_ops[(vi)->vi_index]->check_right (vi, free)
- #define op_part_size(vi,from,to) item_ops[(vi)->vi_index]->part_size (vi, from, to)
- #define op_unit_num(vi) item_ops[(vi)->vi_index]->unit_num (vi)
- #define op_print_vi(vi) item_ops[(vi)->vi_index]->print_vi (vi)
- #define COMP_SHORT_KEYS comp_short_keys
- /* number of blocks pointed to by the indirect item */
- #define I_UNFM_NUM(ih) (ih_item_len(ih) / UNFM_P_SIZE)
- /*
- * the used space within the unformatted node corresponding
- * to pos within the item pointed to by ih
- */
- #define I_POS_UNFM_SIZE(ih,pos,size) (((pos) == I_UNFM_NUM(ih) - 1 ) ? (size) - ih_free_space(ih) : (size))
- /*
- * number of bytes contained by the direct item or the
- * unformatted nodes the indirect item points to
- */
- /* following defines use reiserfs buffer header and item header */
- /* get stat-data */
- #define B_I_STAT_DATA(bh, ih) ( (struct stat_data * )((bh)->b_data + ih_location(ih)) )
- /* this is 3976 for size==4096 */
- #define MAX_DIRECT_ITEM_LEN(size) ((size) - BLKH_SIZE - 2*IH_SIZE - SD_SIZE - UNFM_P_SIZE)
- /*
- * indirect items consist of entries which contain blocknrs, pos
- * indicates which entry, and B_I_POS_UNFM_POINTER resolves to the
- * blocknr contained by the entry pos points to
- */
- #define B_I_POS_UNFM_POINTER(bh, ih, pos) \
- le32_to_cpu(*(((unp_t *)ih_item_body(bh, ih)) + (pos)))
- #define PUT_B_I_POS_UNFM_POINTER(bh, ih, pos, val) \
- (*(((unp_t *)ih_item_body(bh, ih)) + (pos)) = cpu_to_le32(val))
- struct reiserfs_iget_args {
- __u32 objectid;
- __u32 dirid;
- };
- /***************************************************************************
- * FUNCTION DECLARATIONS *
- ***************************************************************************/
- #define get_journal_desc_magic(bh) (bh->b_data + bh->b_size - 12)
- #define journal_trans_half(blocksize) \
- ((blocksize - sizeof (struct reiserfs_journal_desc) + sizeof (__u32) - 12) / sizeof (__u32))
- /* journal.c see journal.c for all the comments here */
- /* first block written in a commit. */
- struct reiserfs_journal_desc {
- __le32 j_trans_id; /* id of commit */
- /* length of commit. len +1 is the commit block */
- __le32 j_len;
- __le32 j_mount_id; /* mount id of this trans */
- __le32 j_realblock[1]; /* real locations for each block */
- };
- #define get_desc_trans_id(d) le32_to_cpu((d)->j_trans_id)
- #define get_desc_trans_len(d) le32_to_cpu((d)->j_len)
- #define get_desc_mount_id(d) le32_to_cpu((d)->j_mount_id)
- #define set_desc_trans_id(d,val) do { (d)->j_trans_id = cpu_to_le32 (val); } while (0)
- #define set_desc_trans_len(d,val) do { (d)->j_len = cpu_to_le32 (val); } while (0)
- #define set_desc_mount_id(d,val) do { (d)->j_mount_id = cpu_to_le32 (val); } while (0)
- /* last block written in a commit */
- struct reiserfs_journal_commit {
- __le32 j_trans_id; /* must match j_trans_id from the desc block */
- __le32 j_len; /* ditto */
- __le32 j_realblock[1]; /* real locations for each block */
- };
- #define get_commit_trans_id(c) le32_to_cpu((c)->j_trans_id)
- #define get_commit_trans_len(c) le32_to_cpu((c)->j_len)
- #define get_commit_mount_id(c) le32_to_cpu((c)->j_mount_id)
- #define set_commit_trans_id(c,val) do { (c)->j_trans_id = cpu_to_le32 (val); } while (0)
- #define set_commit_trans_len(c,val) do { (c)->j_len = cpu_to_le32 (val); } while (0)
- /*
- * this header block gets written whenever a transaction is considered
- * fully flushed, and is more recent than the last fully flushed transaction.
- * fully flushed means all the log blocks and all the real blocks are on
- * disk, and this transaction does not need to be replayed.
- */
- struct reiserfs_journal_header {
- /* id of last fully flushed transaction */
- __le32 j_last_flush_trans_id;
- /* offset in the log of where to start replay after a crash */
- __le32 j_first_unflushed_offset;
- __le32 j_mount_id;
- /* 12 */ struct journal_params jh_journal;
- };
- /* biggest tunable defines are right here */
- #define JOURNAL_BLOCK_COUNT 8192 /* number of blocks in the journal */
- /* biggest possible single transaction, don't change for now (8/3/99) */
- #define JOURNAL_TRANS_MAX_DEFAULT 1024
- #define JOURNAL_TRANS_MIN_DEFAULT 256
- /*
- * max blocks to batch into one transaction,
- * don't make this any bigger than 900
- */
- #define JOURNAL_MAX_BATCH_DEFAULT 900
- #define JOURNAL_MIN_RATIO 2
- #define JOURNAL_MAX_COMMIT_AGE 30
- #define JOURNAL_MAX_TRANS_AGE 30
- #define JOURNAL_PER_BALANCE_CNT (3 * (MAX_HEIGHT-2) + 9)
- #define JOURNAL_BLOCKS_PER_OBJECT(sb) (JOURNAL_PER_BALANCE_CNT * 3 + \
- 2 * (REISERFS_QUOTA_INIT_BLOCKS(sb) + \
- REISERFS_QUOTA_TRANS_BLOCKS(sb)))
- #ifdef CONFIG_QUOTA
- #define REISERFS_QUOTA_OPTS ((1 << REISERFS_USRQUOTA) | (1 << REISERFS_GRPQUOTA))
- /* We need to update data and inode (atime) */
- #define REISERFS_QUOTA_TRANS_BLOCKS(s) (REISERFS_SB(s)->s_mount_opt & REISERFS_QUOTA_OPTS ? 2 : 0)
- /* 1 balancing, 1 bitmap, 1 data per write + stat data update */
- #define REISERFS_QUOTA_INIT_BLOCKS(s) (REISERFS_SB(s)->s_mount_opt & REISERFS_QUOTA_OPTS ? \
- (DQUOT_INIT_ALLOC*(JOURNAL_PER_BALANCE_CNT+2)+DQUOT_INIT_REWRITE+1) : 0)
- /* same as with INIT */
- #define REISERFS_QUOTA_DEL_BLOCKS(s) (REISERFS_SB(s)->s_mount_opt & REISERFS_QUOTA_OPTS ? \
- (DQUOT_DEL_ALLOC*(JOURNAL_PER_BALANCE_CNT+2)+DQUOT_DEL_REWRITE+1) : 0)
- #else
- #define REISERFS_QUOTA_TRANS_BLOCKS(s) 0
- #define REISERFS_QUOTA_INIT_BLOCKS(s) 0
- #define REISERFS_QUOTA_DEL_BLOCKS(s) 0
- #endif
- /*
- * both of these can be as low as 1, or as high as you want. The min is the
- * number of 4k bitmap nodes preallocated on mount. New nodes are allocated
- * as needed, and released when transactions are committed. On release, if
- * the current number of nodes is > max, the node is freed, otherwise,
- * it is put on a free list for faster use later.
- */
- #define REISERFS_MIN_BITMAP_NODES 10
- #define REISERFS_MAX_BITMAP_NODES 100
- /* these are based on journal hash size of 8192 */
- #define JBH_HASH_SHIFT 13
- #define JBH_HASH_MASK 8191
- #define _jhashfn(sb,block) \
- (((unsigned long)sb>>L1_CACHE_SHIFT) ^ \
- (((block)<<(JBH_HASH_SHIFT - 6)) ^ ((block) >> 13) ^ ((block) << (JBH_HASH_SHIFT - 12))))
- #define journal_hash(t,sb,block) ((t)[_jhashfn((sb),(block)) & JBH_HASH_MASK])
- /* We need these to make journal.c code more readable */
- #define journal_find_get_block(s, block) __find_get_block(SB_JOURNAL(s)->j_dev_bd, block, s->s_blocksize)
- #define journal_getblk(s, block) __getblk(SB_JOURNAL(s)->j_dev_bd, block, s->s_blocksize)
- #define journal_bread(s, block) __bread(SB_JOURNAL(s)->j_dev_bd, block, s->s_blocksize)
- enum reiserfs_bh_state_bits {
- BH_JDirty = BH_PrivateStart, /* buffer is in current transaction */
- BH_JDirty_wait,
- /*
- * disk block was taken off free list before being in a
- * finished transaction, or written to disk. Can be reused immed.
- */
- BH_JNew,
- BH_JPrepared,
- BH_JRestore_dirty,
- BH_JTest, /* debugging only will go away */
- };
- BUFFER_FNS(JDirty, journaled);
- TAS_BUFFER_FNS(JDirty, journaled);
- BUFFER_FNS(JDirty_wait, journal_dirty);
- TAS_BUFFER_FNS(JDirty_wait, journal_dirty);
- BUFFER_FNS(JNew, journal_new);
- TAS_BUFFER_FNS(JNew, journal_new);
- BUFFER_FNS(JPrepared, journal_prepared);
- TAS_BUFFER_FNS(JPrepared, journal_prepared);
- BUFFER_FNS(JRestore_dirty, journal_restore_dirty);
- TAS_BUFFER_FNS(JRestore_dirty, journal_restore_dirty);
- BUFFER_FNS(JTest, journal_test);
- TAS_BUFFER_FNS(JTest, journal_test);
- /* transaction handle which is passed around for all journal calls */
- struct reiserfs_transaction_handle {
- /*
- * super for this FS when journal_begin was called. saves calls to
- * reiserfs_get_super also used by nested transactions to make
- * sure they are nesting on the right FS _must_ be first
- * in the handle
- */
- struct super_block *t_super;
- int t_refcount;
- int t_blocks_logged; /* number of blocks this writer has logged */
- int t_blocks_allocated; /* number of blocks this writer allocated */
- /* sanity check, equals the current trans id */
- unsigned int t_trans_id;
- void *t_handle_save; /* save existing current->journal_info */
- /*
- * if new block allocation occurres, that block
- * should be displaced from others
- */
- unsigned displace_new_blocks:1;
- struct list_head t_list;
- };
- /*
- * used to keep track of ordered and tail writes, attached to the buffer
- * head through b_journal_head.
- */
- struct reiserfs_jh {
- struct reiserfs_journal_list *jl;
- struct buffer_head *bh;
- struct list_head list;
- };
- void reiserfs_free_jh(struct buffer_head *bh);
- int reiserfs_add_tail_list(struct inode *inode, struct buffer_head *bh);
- int reiserfs_add_ordered_list(struct inode *inode, struct buffer_head *bh);
- int journal_mark_dirty(struct reiserfs_transaction_handle *,
- struct buffer_head *bh);
- static inline int reiserfs_file_data_log(struct inode *inode)
- {
- if (reiserfs_data_log(inode->i_sb) ||
- (REISERFS_I(inode)->i_flags & i_data_log))
- return 1;
- return 0;
- }
- static inline int reiserfs_transaction_running(struct super_block *s)
- {
- struct reiserfs_transaction_handle *th = current->journal_info;
- if (th && th->t_super == s)
- return 1;
- if (th && th->t_super == NULL)
- BUG();
- return 0;
- }
- static inline int reiserfs_transaction_free_space(struct reiserfs_transaction_handle *th)
- {
- return th->t_blocks_allocated - th->t_blocks_logged;
- }
- struct reiserfs_transaction_handle *reiserfs_persistent_transaction(struct
- super_block
- *,
- int count);
- int reiserfs_end_persistent_transaction(struct reiserfs_transaction_handle *);
- void reiserfs_vfs_truncate_file(struct inode *inode);
- int reiserfs_commit_page(struct inode *inode, struct page *page,
- unsigned from, unsigned to);
- void reiserfs_flush_old_commits(struct super_block *);
- int reiserfs_commit_for_inode(struct inode *);
- int reiserfs_inode_needs_commit(struct inode *);
- void reiserfs_update_inode_transaction(struct inode *);
- void reiserfs_wait_on_write_block(struct super_block *s);
- void reiserfs_block_writes(struct reiserfs_transaction_handle *th);
- void reiserfs_allow_writes(struct super_block *s);
- void reiserfs_check_lock_depth(struct super_block *s, char *caller);
- int reiserfs_prepare_for_journal(struct super_block *, struct buffer_head *bh,
- int wait);
- void reiserfs_restore_prepared_buffer(struct super_block *,
- struct buffer_head *bh);
- int journal_init(struct super_block *, const char *j_dev_name, int old_format,
- unsigned int);
- int journal_release(struct reiserfs_transaction_handle *, struct super_block *);
- int journal_release_error(struct reiserfs_transaction_handle *,
- struct super_block *);
- int journal_end(struct reiserfs_transaction_handle *);
- int journal_end_sync(struct reiserfs_transaction_handle *);
- int journal_mark_freed(struct reiserfs_transaction_handle *,
- struct super_block *, b_blocknr_t blocknr);
- int journal_transaction_should_end(struct reiserfs_transaction_handle *, int);
- int reiserfs_in_journal(struct super_block *sb, unsigned int bmap_nr,
- int bit_nr, int searchall, b_blocknr_t *next);
- int journal_begin(struct reiserfs_transaction_handle *,
- struct super_block *sb, unsigned long);
- int journal_join_abort(struct reiserfs_transaction_handle *,
- struct super_block *sb);
- void reiserfs_abort_journal(struct super_block *sb, int errno);
- void reiserfs_abort(struct super_block *sb, int errno, const char *fmt, ...);
- int reiserfs_allocate_list_bitmaps(struct super_block *s,
- struct reiserfs_list_bitmap *, unsigned int);
- void reiserfs_schedule_old_flush(struct super_block *s);
- void reiserfs_cancel_old_flush(struct super_block *s);
- void add_save_link(struct reiserfs_transaction_handle *th,
- struct inode *inode, int truncate);
- int remove_save_link(struct inode *inode, int truncate);
- /* objectid.c */
- __u32 reiserfs_get_unused_objectid(struct reiserfs_transaction_handle *th);
- void reiserfs_release_objectid(struct reiserfs_transaction_handle *th,
- __u32 objectid_to_release);
- int reiserfs_convert_objectid_map_v1(struct super_block *);
- /* stree.c */
- int B_IS_IN_TREE(const struct buffer_head *);
- extern void copy_item_head(struct item_head *to,
- const struct item_head *from);
- /* first key is in cpu form, second - le */
- extern int comp_short_keys(const struct reiserfs_key *le_key,
- const struct cpu_key *cpu_key);
- extern void le_key2cpu_key(struct cpu_key *to, const struct reiserfs_key *from);
- /* both are in le form */
- extern int comp_le_keys(const struct reiserfs_key *,
- const struct reiserfs_key *);
- extern int comp_short_le_keys(const struct reiserfs_key *,
- const struct reiserfs_key *);
- /* * get key version from on disk key - kludge */
- static inline int le_key_version(const struct reiserfs_key *key)
- {
- int type;
- type = offset_v2_k_type(&(key->u.k_offset_v2));
- if (type != TYPE_DIRECT && type != TYPE_INDIRECT
- && type != TYPE_DIRENTRY)
- return KEY_FORMAT_3_5;
- return KEY_FORMAT_3_6;
- }
- static inline void copy_key(struct reiserfs_key *to,
- const struct reiserfs_key *from)
- {
- memcpy(to, from, KEY_SIZE);
- }
- int comp_items(const struct item_head *stored_ih, const struct treepath *path);
- const struct reiserfs_key *get_rkey(const struct treepath *chk_path,
- const struct super_block *sb);
- int search_by_key(struct super_block *, const struct cpu_key *,
- struct treepath *, int);
- #define search_item(s,key,path) search_by_key (s, key, path, DISK_LEAF_NODE_LEVEL)
- int search_for_position_by_key(struct super_block *sb,
- const struct cpu_key *cpu_key,
- struct treepath *search_path);
- extern void decrement_bcount(struct buffer_head *bh);
- void decrement_counters_in_path(struct treepath *search_path);
- void pathrelse(struct treepath *search_path);
- int reiserfs_check_path(struct treepath *p);
- void pathrelse_and_restore(struct super_block *s, struct treepath *search_path);
- int reiserfs_insert_item(struct reiserfs_transaction_handle *th,
- struct treepath *path,
- const struct cpu_key *key,
- struct item_head *ih,
- struct inode *inode, const char *body);
- int reiserfs_paste_into_item(struct reiserfs_transaction_handle *th,
- struct treepath *path,
- const struct cpu_key *key,
- struct inode *inode,
- const char *body, int paste_size);
- int reiserfs_cut_from_item(struct reiserfs_transaction_handle *th,
- struct treepath *path,
- struct cpu_key *key,
- struct inode *inode,
- struct page *page, loff_t new_file_size);
- int reiserfs_delete_item(struct reiserfs_transaction_handle *th,
- struct treepath *path,
- const struct cpu_key *key,
- struct inode *inode, struct buffer_head *un_bh);
- void reiserfs_delete_solid_item(struct reiserfs_transaction_handle *th,
- struct inode *inode, struct reiserfs_key *key);
- int reiserfs_delete_object(struct reiserfs_transaction_handle *th,
- struct inode *inode);
- int reiserfs_do_truncate(struct reiserfs_transaction_handle *th,
- struct inode *inode, struct page *,
- int update_timestamps);
- #define i_block_size(inode) ((inode)->i_sb->s_blocksize)
- #define file_size(inode) ((inode)->i_size)
- #define tail_size(inode) (file_size (inode) & (i_block_size (inode) - 1))
- #define tail_has_to_be_packed(inode) (have_large_tails ((inode)->i_sb)?\
- !STORE_TAIL_IN_UNFM_S1(file_size (inode), tail_size(inode), inode->i_sb->s_blocksize):have_small_tails ((inode)->i_sb)?!STORE_TAIL_IN_UNFM_S2(file_size (inode), tail_size(inode), inode->i_sb->s_blocksize):0 )
- void padd_item(char *item, int total_length, int length);
- /* inode.c */
- /* args for the create parameter of reiserfs_get_block */
- #define GET_BLOCK_NO_CREATE 0 /* don't create new blocks or convert tails */
- #define GET_BLOCK_CREATE 1 /* add anything you need to find block */
- #define GET_BLOCK_NO_HOLE 2 /* return -ENOENT for file holes */
- #define GET_BLOCK_READ_DIRECT 4 /* read the tail if indirect item not found */
- #define GET_BLOCK_NO_IMUX 8 /* i_mutex is not held, don't preallocate */
- #define GET_BLOCK_NO_DANGLE 16 /* don't leave any transactions running */
- void reiserfs_read_locked_inode(struct inode *inode,
- struct reiserfs_iget_args *args);
- int reiserfs_find_actor(struct inode *inode, void *p);
- int reiserfs_init_locked_inode(struct inode *inode, void *p);
- void reiserfs_evict_inode(struct inode *inode);
- int reiserfs_write_inode(struct inode *inode, struct writeback_control *wbc);
- int reiserfs_get_block(struct inode *inode, sector_t block,
- struct buffer_head *bh_result, int create);
- struct dentry *reiserfs_fh_to_dentry(struct super_block *sb, struct fid *fid,
- int fh_len, int fh_type);
- struct dentry *reiserfs_fh_to_parent(struct super_block *sb, struct fid *fid,
- int fh_len, int fh_type);
- int reiserfs_encode_fh(struct inode *inode, __u32 * data, int *lenp,
- struct inode *parent);
- int reiserfs_truncate_file(struct inode *, int update_timestamps);
- void make_cpu_key(struct cpu_key *cpu_key, struct inode *inode, loff_t offset,
- int type, int key_length);
- void make_le_item_head(struct item_head *ih, const struct cpu_key *key,
- int version,
- loff_t offset, int type, int length, int entry_count);
- struct inode *reiserfs_iget(struct super_block *s, const struct cpu_key *key);
- struct reiserfs_security_handle;
- int reiserfs_new_inode(struct reiserfs_transaction_handle *th,
- struct inode *dir, umode_t mode,
- const char *symname, loff_t i_size,
- struct dentry *dentry, struct inode *inode,
- struct reiserfs_security_handle *security);
- void reiserfs_update_sd_size(struct reiserfs_transaction_handle *th,
- struct inode *inode, loff_t size);
- static inline void reiserfs_update_sd(struct reiserfs_transaction_handle *th,
- struct inode *inode)
- {
- reiserfs_update_sd_size(th, inode, inode->i_size);
- }
- void sd_attrs_to_i_attrs(__u16 sd_attrs, struct inode *inode);
- int reiserfs_setattr(struct dentry *dentry, struct iattr *attr);
- int __reiserfs_write_begin(struct page *page, unsigned from, unsigned len);
- /* namei.c */
- void set_de_name_and_namelen(struct reiserfs_dir_entry *de);
- int search_by_entry_key(struct super_block *sb, const struct cpu_key *key,
- struct treepath *path, struct reiserfs_dir_entry *de);
- struct dentry *reiserfs_get_parent(struct dentry *);
- #ifdef CONFIG_REISERFS_PROC_INFO
- int reiserfs_proc_info_init(struct super_block *sb);
- int reiserfs_proc_info_done(struct super_block *sb);
- int reiserfs_proc_info_global_init(void);
- int reiserfs_proc_info_global_done(void);
- #define PROC_EXP( e ) e
- #define __PINFO( sb ) REISERFS_SB(sb) -> s_proc_info_data
- #define PROC_INFO_MAX( sb, field, value ) \
- __PINFO( sb ).field = \
- max( REISERFS_SB( sb ) -> s_proc_info_data.field, value )
- #define PROC_INFO_INC( sb, field ) ( ++ ( __PINFO( sb ).field ) )
- #define PROC_INFO_ADD( sb, field, val ) ( __PINFO( sb ).field += ( val ) )
- #define PROC_INFO_BH_STAT( sb, bh, level ) \
- PROC_INFO_INC( sb, sbk_read_at[ ( level ) ] ); \
- PROC_INFO_ADD( sb, free_at[ ( level ) ], B_FREE_SPACE( bh ) ); \
- PROC_INFO_ADD( sb, items_at[ ( level ) ], B_NR_ITEMS( bh ) )
- #else
- static inline int reiserfs_proc_info_init(struct super_block *sb)
- {
- return 0;
- }
- static inline int reiserfs_proc_info_done(struct super_block *sb)
- {
- return 0;
- }
- static inline int reiserfs_proc_info_global_init(void)
- {
- return 0;
- }
- static inline int reiserfs_proc_info_global_done(void)
- {
- return 0;
- }
- #define PROC_EXP( e )
- #define VOID_V ( ( void ) 0 )
- #define PROC_INFO_MAX( sb, field, value ) VOID_V
- #define PROC_INFO_INC( sb, field ) VOID_V
- #define PROC_INFO_ADD( sb, field, val ) VOID_V
- #define PROC_INFO_BH_STAT(sb, bh, n_node_level) VOID_V
- #endif
- /* dir.c */
- extern const struct inode_operations reiserfs_dir_inode_operations;
- extern const struct inode_operations reiserfs_symlink_inode_operations;
- extern const struct inode_operations reiserfs_special_inode_operations;
- extern const struct file_operations reiserfs_dir_operations;
- int reiserfs_readdir_inode(struct inode *, struct dir_context *);
- /* tail_conversion.c */
- int direct2indirect(struct reiserfs_transaction_handle *, struct inode *,
- struct treepath *, struct buffer_head *, loff_t);
- int indirect2direct(struct reiserfs_transaction_handle *, struct inode *,
- struct page *, struct treepath *, const struct cpu_key *,
- loff_t, char *);
- void reiserfs_unmap_buffer(struct buffer_head *);
- /* file.c */
- extern const struct inode_operations reiserfs_file_inode_operations;
- extern const struct file_operations reiserfs_file_operations;
- extern const struct address_space_operations reiserfs_address_space_operations;
- /* fix_nodes.c */
- int fix_nodes(int n_op_mode, struct tree_balance *tb,
- struct item_head *ins_ih, const void *);
- void unfix_nodes(struct tree_balance *);
- /* prints.c */
- void __reiserfs_panic(struct super_block *s, const char *id,
- const char *function, const char *fmt, ...)
- __attribute__ ((noreturn));
- #define reiserfs_panic(s, id, fmt, args...) \
- __reiserfs_panic(s, id, __func__, fmt, ##args)
- void __reiserfs_error(struct super_block *s, const char *id,
- const char *function, const char *fmt, ...);
- #define reiserfs_error(s, id, fmt, args...) \
- __reiserfs_error(s, id, __func__, fmt, ##args)
- void reiserfs_info(struct super_block *s, const char *fmt, ...);
- void reiserfs_debug(struct super_block *s, int level, const char *fmt, ...);
- void print_indirect_item(struct buffer_head *bh, int item_num);
- void store_print_tb(struct tree_balance *tb);
- void print_cur_tb(char *mes);
- void print_de(struct reiserfs_dir_entry *de);
- void print_bi(struct buffer_info *bi, char *mes);
- #define PRINT_LEAF_ITEMS 1 /* print all items */
- #define PRINT_DIRECTORY_ITEMS 2 /* print directory items */
- #define PRINT_DIRECT_ITEMS 4 /* print contents of direct items */
- void print_block(struct buffer_head *bh, ...);
- void print_bmap(struct super_block *s, int silent);
- void print_bmap_block(int i, char *data, int size, int silent);
- /*void print_super_block (struct super_block * s, char * mes);*/
- void print_objectid_map(struct super_block *s);
- void print_block_head(struct buffer_head *bh, char *mes);
- void check_leaf(struct buffer_head *bh);
- void check_internal(struct buffer_head *bh);
- void print_statistics(struct super_block *s);
- char *reiserfs_hashname(int code);
- /* lbalance.c */
- int leaf_move_items(int shift_mode, struct tree_balance *tb, int mov_num,
- int mov_bytes, struct buffer_head *Snew);
- int leaf_shift_left(struct tree_balance *tb, int shift_num, int shift_bytes);
- int leaf_shift_right(struct tree_balance *tb, int shift_num, int shift_bytes);
- void leaf_delete_items(struct buffer_info *cur_bi, int last_first, int first,
- int del_num, int del_bytes);
- void leaf_insert_into_buf(struct buffer_info *bi, int before,
- struct item_head * const inserted_item_ih,
- const char * const inserted_item_body,
- int zeros_number);
- void leaf_paste_in_buffer(struct buffer_info *bi, int pasted_item_num,
- int pos_in_item, int paste_size,
- const char * const body, int zeros_number);
- void leaf_cut_from_buffer(struct buffer_info *bi, int cut_item_num,
- int pos_in_item, int cut_size);
- void leaf_paste_entries(struct buffer_info *bi, int item_num, int before,
- int new_entry_count, struct reiserfs_de_head *new_dehs,
- const char *records, int paste_size);
- /* ibalance.c */
- int balance_internal(struct tree_balance *, int, int, struct item_head *,
- struct buffer_head **);
- /* do_balance.c */
- void do_balance_mark_leaf_dirty(struct tree_balance *tb,
- struct buffer_head *bh, int flag);
- #define do_balance_mark_internal_dirty do_balance_mark_leaf_dirty
- #define do_balance_mark_sb_dirty do_balance_mark_leaf_dirty
- void do_balance(struct tree_balance *tb, struct item_head *ih,
- const char *body, int flag);
- void reiserfs_invalidate_buffer(struct tree_balance *tb,
- struct buffer_head *bh);
- int get_left_neighbor_position(struct tree_balance *tb, int h);
- int get_right_neighbor_position(struct tree_balance *tb, int h);
- void replace_key(struct tree_balance *tb, struct buffer_head *, int,
- struct buffer_head *, int);
- void make_empty_node(struct buffer_info *);
- struct buffer_head *get_FEB(struct tree_balance *);
- /* bitmap.c */
- /*
- * structure contains hints for block allocator, and it is a container for
- * arguments, such as node, search path, transaction_handle, etc.
- */
- struct __reiserfs_blocknr_hint {
- /* inode passed to allocator, if we allocate unf. nodes */
- struct inode *inode;
- sector_t block; /* file offset, in blocks */
- struct in_core_key key;
- /*
- * search path, used by allocator to deternine search_start by
- * various ways
- */
- struct treepath *path;
- /*
- * transaction handle is needed to log super blocks
- * and bitmap blocks changes
- */
- struct reiserfs_transaction_handle *th;
- b_blocknr_t beg, end;
- /*
- * a field used to transfer search start value (block number)
- * between different block allocator procedures
- * (determine_search_start() and others)
- */
- b_blocknr_t search_start;
- /*
- * is set in determine_prealloc_size() function,
- * used by underlayed function that do actual allocation
- */
- int prealloc_size;
- /*
- * the allocator uses different polices for getting disk
- * space for formatted/unformatted blocks with/without preallocation
- */
- unsigned formatted_node:1;
- unsigned preallocate:1;
- };
- typedef struct __reiserfs_blocknr_hint reiserfs_blocknr_hint_t;
- int reiserfs_parse_alloc_options(struct super_block *, char *);
- void reiserfs_init_alloc_options(struct super_block *s);
- /*
- * given a directory, this will tell you what packing locality
- * to use for a new object underneat it. The locality is returned
- * in disk byte order (le).
- */
- __le32 reiserfs_choose_packing(struct inode *dir);
- void show_alloc_options(struct seq_file *seq, struct super_block *s);
- int reiserfs_init_bitmap_cache(struct super_block *sb);
- void reiserfs_free_bitmap_cache(struct super_block *sb);
- void reiserfs_cache_bitmap_metadata(struct super_block *sb, struct buffer_head *bh, struct reiserfs_bitmap_info *info);
- struct buffer_head *reiserfs_read_bitmap_block(struct super_block *sb, unsigned int bitmap);
- int is_reusable(struct super_block *s, b_blocknr_t block, int bit_value);
- void reiserfs_free_block(struct reiserfs_transaction_handle *th, struct inode *,
- b_blocknr_t, int for_unformatted);
- int reiserfs_allocate_blocknrs(reiserfs_blocknr_hint_t *, b_blocknr_t *, int,
- int);
- static inline int reiserfs_new_form_blocknrs(struct tree_balance *tb,
- b_blocknr_t * new_blocknrs,
- int amount_needed)
- {
- reiserfs_blocknr_hint_t hint = {
- .th = tb->transaction_handle,
- .path = tb->tb_path,
- .inode = NULL,
- .key = tb->key,
- .block = 0,
- .formatted_node = 1
- };
- return reiserfs_allocate_blocknrs(&hint, new_blocknrs, amount_needed,
- 0);
- }
- static inline int reiserfs_new_unf_blocknrs(struct reiserfs_transaction_handle
- *th, struct inode *inode,
- b_blocknr_t * new_blocknrs,
- struct treepath *path,
- sector_t block)
- {
- reiserfs_blocknr_hint_t hint = {
- .th = th,
- .path = path,
- .inode = inode,
- .block = block,
- .formatted_node = 0,
- .preallocate = 0
- };
- return reiserfs_allocate_blocknrs(&hint, new_blocknrs, 1, 0);
- }
- #ifdef REISERFS_PREALLOCATE
- static inline int reiserfs_new_unf_blocknrs2(struct reiserfs_transaction_handle
- *th, struct inode *inode,
- b_blocknr_t * new_blocknrs,
- struct treepath *path,
- sector_t block)
- {
- reiserfs_blocknr_hint_t hint = {
- .th = th,
- .path = path,
- .inode = inode,
- .block = block,
- .formatted_node = 0,
- .preallocate = 1
- };
- return reiserfs_allocate_blocknrs(&hint, new_blocknrs, 1, 0);
- }
- void reiserfs_discard_prealloc(struct reiserfs_transaction_handle *th,
- struct inode *inode);
- void reiserfs_discard_all_prealloc(struct reiserfs_transaction_handle *th);
- #endif
- /* hashes.c */
- __u32 keyed_hash(const signed char *msg, int len);
- __u32 yura_hash(const signed char *msg, int len);
- __u32 r5_hash(const signed char *msg, int len);
- #define reiserfs_set_le_bit __set_bit_le
- #define reiserfs_test_and_set_le_bit __test_and_set_bit_le
- #define reiserfs_clear_le_bit __clear_bit_le
- #define reiserfs_test_and_clear_le_bit __test_and_clear_bit_le
- #define reiserfs_test_le_bit test_bit_le
- #define reiserfs_find_next_zero_le_bit find_next_zero_bit_le
- /*
- * sometimes reiserfs_truncate may require to allocate few new blocks
- * to perform indirect2direct conversion. People probably used to
- * think, that truncate should work without problems on a filesystem
- * without free disk space. They may complain that they can not
- * truncate due to lack of free disk space. This spare space allows us
- * to not worry about it. 500 is probably too much, but it should be
- * absolutely safe
- */
- #define SPARE_SPACE 500
- /* prototypes from ioctl.c */
- long reiserfs_ioctl(struct file *filp, unsigned int cmd, unsigned long arg);
- long reiserfs_compat_ioctl(struct file *filp,
- unsigned int cmd, unsigned long arg);
- int reiserfs_unpack(struct inode *inode, struct file *filp);
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