MIPS: Lantiq: Fix external interrupt sources
[linux-2.6/linux-mips.git] / include / linux / ext3_fs_i.h
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1 /*
2 * linux/include/linux/ext3_fs_i.h
4 * Copyright (C) 1992, 1993, 1994, 1995
5 * Remy Card (card@masi.ibp.fr)
6 * Laboratoire MASI - Institut Blaise Pascal
7 * Universite Pierre et Marie Curie (Paris VI)
9 * from
11 * linux/include/linux/minix_fs_i.h
13 * Copyright (C) 1991, 1992 Linus Torvalds
16 #ifndef _LINUX_EXT3_FS_I
17 #define _LINUX_EXT3_FS_I
19 #include <linux/rwsem.h>
20 #include <linux/rbtree.h>
21 #include <linux/seqlock.h>
22 #include <linux/mutex.h>
24 /* data type for block offset of block group */
25 typedef int ext3_grpblk_t;
27 /* data type for filesystem-wide blocks number */
28 typedef unsigned long ext3_fsblk_t;
30 #define E3FSBLK "%lu"
32 struct ext3_reserve_window {
33 ext3_fsblk_t _rsv_start; /* First byte reserved */
34 ext3_fsblk_t _rsv_end; /* Last byte reserved or 0 */
37 struct ext3_reserve_window_node {
38 struct rb_node rsv_node;
39 __u32 rsv_goal_size;
40 __u32 rsv_alloc_hit;
41 struct ext3_reserve_window rsv_window;
44 struct ext3_block_alloc_info {
45 /* information about reservation window */
46 struct ext3_reserve_window_node rsv_window_node;
48 * was i_next_alloc_block in ext3_inode_info
49 * is the logical (file-relative) number of the
50 * most-recently-allocated block in this file.
51 * We use this for detecting linearly ascending allocation requests.
53 __u32 last_alloc_logical_block;
55 * Was i_next_alloc_goal in ext3_inode_info
56 * is the *physical* companion to i_next_alloc_block.
57 * it the physical block number of the block which was most-recentl
58 * allocated to this file. This give us the goal (target) for the next
59 * allocation when we detect linearly ascending requests.
61 ext3_fsblk_t last_alloc_physical_block;
64 #define rsv_start rsv_window._rsv_start
65 #define rsv_end rsv_window._rsv_end
68 * third extended file system inode data in memory
70 struct ext3_inode_info {
71 __le32 i_data[15]; /* unconverted */
72 __u32 i_flags;
73 #ifdef EXT3_FRAGMENTS
74 __u32 i_faddr;
75 __u8 i_frag_no;
76 __u8 i_frag_size;
77 #endif
78 ext3_fsblk_t i_file_acl;
79 __u32 i_dir_acl;
80 __u32 i_dtime;
83 * i_block_group is the number of the block group which contains
84 * this file's inode. Constant across the lifetime of the inode,
85 * it is ued for making block allocation decisions - we try to
86 * place a file's data blocks near its inode block, and new inodes
87 * near to their parent directory's inode.
89 __u32 i_block_group;
90 unsigned long i_state_flags; /* Dynamic state flags for ext3 */
92 /* block reservation info */
93 struct ext3_block_alloc_info *i_block_alloc_info;
95 __u32 i_dir_start_lookup;
96 #ifdef CONFIG_EXT3_FS_XATTR
98 * Extended attributes can be read independently of the main file
99 * data. Taking i_mutex even when reading would cause contention
100 * between readers of EAs and writers of regular file data, so
101 * instead we synchronize on xattr_sem when reading or changing
102 * EAs.
104 struct rw_semaphore xattr_sem;
105 #endif
107 struct list_head i_orphan; /* unlinked but open inodes */
110 * i_disksize keeps track of what the inode size is ON DISK, not
111 * in memory. During truncate, i_size is set to the new size by
112 * the VFS prior to calling ext3_truncate(), but the filesystem won't
113 * set i_disksize to 0 until the truncate is actually under way.
115 * The intent is that i_disksize always represents the blocks which
116 * are used by this file. This allows recovery to restart truncate
117 * on orphans if we crash during truncate. We actually write i_disksize
118 * into the on-disk inode when writing inodes out, instead of i_size.
120 * The only time when i_disksize and i_size may be different is when
121 * a truncate is in progress. The only things which change i_disksize
122 * are ext3_get_block (growth) and ext3_truncate (shrinkth).
124 loff_t i_disksize;
126 /* on-disk additional length */
127 __u16 i_extra_isize;
130 * truncate_mutex is for serialising ext3_truncate() against
131 * ext3_getblock(). In the 2.4 ext2 design, great chunks of inode's
132 * data tree are chopped off during truncate. We can't do that in
133 * ext3 because whenever we perform intermediate commits during
134 * truncate, the inode and all the metadata blocks *must* be in a
135 * consistent state which allows truncation of the orphans to restart
136 * during recovery. Hence we must fix the get_block-vs-truncate race
137 * by other means, so we have truncate_mutex.
139 struct mutex truncate_mutex;
142 * Transactions that contain inode's metadata needed to complete
143 * fsync and fdatasync, respectively.
145 atomic_t i_sync_tid;
146 atomic_t i_datasync_tid;
148 struct inode vfs_inode;
151 #endif /* _LINUX_EXT3_FS_I */