576 lines
17 KiB
ReStructuredText
576 lines
17 KiB
ReStructuredText
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.. SPDX-License-Identifier: GPL-2.0
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Index Nodes
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-----------
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In a regular UNIX filesystem, the inode stores all the metadata
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pertaining to the file (time stamps, block maps, extended attributes,
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etc), not the directory entry. To find the information associated with a
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file, one must traverse the directory files to find the directory entry
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associated with a file, then load the inode to find the metadata for
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that file. ext4 appears to cheat (for performance reasons) a little bit
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by storing a copy of the file type (normally stored in the inode) in the
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directory entry. (Compare all this to FAT, which stores all the file
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information directly in the directory entry, but does not support hard
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links and is in general more seek-happy than ext4 due to its simpler
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block allocator and extensive use of linked lists.)
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The inode table is a linear array of ``struct ext4_inode``. The table is
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sized to have enough blocks to store at least
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``sb.s_inode_size * sb.s_inodes_per_group`` bytes. The number of the
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block group containing an inode can be calculated as
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``(inode_number - 1) / sb.s_inodes_per_group``, and the offset into the
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group's table is ``(inode_number - 1) % sb.s_inodes_per_group``. There
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is no inode 0.
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The inode checksum is calculated against the FS UUID, the inode number,
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and the inode structure itself.
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The inode table entry is laid out in ``struct ext4_inode``.
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.. list-table::
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:widths: 1 1 1 77
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:header-rows: 1
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* - Offset
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- Size
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- Name
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- Description
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* - 0x0
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- \_\_le16
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- i\_mode
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- File mode. See the table i_mode_ below.
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* - 0x2
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- \_\_le16
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- i\_uid
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- Lower 16-bits of Owner UID.
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* - 0x4
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- \_\_le32
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- i\_size\_lo
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- Lower 32-bits of size in bytes.
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* - 0x8
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- \_\_le32
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- i\_atime
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- Last access time, in seconds since the epoch. However, if the EA\_INODE
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inode flag is set, this inode stores an extended attribute value and
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this field contains the checksum of the value.
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* - 0xC
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- \_\_le32
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- i\_ctime
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- Last inode change time, in seconds since the epoch. However, if the
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EA\_INODE inode flag is set, this inode stores an extended attribute
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value and this field contains the lower 32 bits of the attribute value's
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reference count.
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* - 0x10
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- \_\_le32
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- i\_mtime
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- Last data modification time, in seconds since the epoch. However, if the
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EA\_INODE inode flag is set, this inode stores an extended attribute
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value and this field contains the number of the inode that owns the
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extended attribute.
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* - 0x14
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- \_\_le32
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- i\_dtime
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- Deletion Time, in seconds since the epoch.
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* - 0x18
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- \_\_le16
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- i\_gid
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- Lower 16-bits of GID.
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* - 0x1A
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- \_\_le16
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- i\_links\_count
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- Hard link count. Normally, ext4 does not permit an inode to have more
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than 65,000 hard links. This applies to files as well as directories,
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which means that there cannot be more than 64,998 subdirectories in a
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directory (each subdirectory's '..' entry counts as a hard link, as does
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the '.' entry in the directory itself). With the DIR\_NLINK feature
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enabled, ext4 supports more than 64,998 subdirectories by setting this
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field to 1 to indicate that the number of hard links is not known.
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* - 0x1C
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- \_\_le32
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- i\_blocks\_lo
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- Lower 32-bits of “block” count. If the huge\_file feature flag is not
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set on the filesystem, the file consumes ``i_blocks_lo`` 512-byte blocks
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on disk. If huge\_file is set and EXT4\_HUGE\_FILE\_FL is NOT set in
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``inode.i_flags``, then the file consumes ``i_blocks_lo + (i_blocks_hi
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<< 32)`` 512-byte blocks on disk. If huge\_file is set and
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EXT4\_HUGE\_FILE\_FL IS set in ``inode.i_flags``, then this file
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consumes (``i_blocks_lo + i_blocks_hi`` << 32) filesystem blocks on
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disk.
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* - 0x20
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- \_\_le32
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- i\_flags
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- Inode flags. See the table i_flags_ below.
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* - 0x24
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- 4 bytes
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- i\_osd1
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- See the table i_osd1_ for more details.
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* - 0x28
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- 60 bytes
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- i\_block[EXT4\_N\_BLOCKS=15]
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- Block map or extent tree. See the section “The Contents of inode.i\_block”.
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* - 0x64
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- \_\_le32
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- i\_generation
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- File version (for NFS).
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* - 0x68
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- \_\_le32
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- i\_file\_acl\_lo
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- Lower 32-bits of extended attribute block. ACLs are of course one of
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many possible extended attributes; I think the name of this field is a
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result of the first use of extended attributes being for ACLs.
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* - 0x6C
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- \_\_le32
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- i\_size\_high / i\_dir\_acl
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- Upper 32-bits of file/directory size. In ext2/3 this field was named
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i\_dir\_acl, though it was usually set to zero and never used.
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* - 0x70
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- \_\_le32
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- i\_obso\_faddr
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- (Obsolete) fragment address.
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* - 0x74
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- 12 bytes
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- i\_osd2
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- See the table i_osd2_ for more details.
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* - 0x80
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- \_\_le16
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- i\_extra\_isize
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- Size of this inode - 128. Alternately, the size of the extended inode
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fields beyond the original ext2 inode, including this field.
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* - 0x82
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- \_\_le16
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- i\_checksum\_hi
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- Upper 16-bits of the inode checksum.
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* - 0x84
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- \_\_le32
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- i\_ctime\_extra
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- Extra change time bits. This provides sub-second precision. See Inode
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Timestamps section.
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* - 0x88
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- \_\_le32
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- i\_mtime\_extra
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- Extra modification time bits. This provides sub-second precision.
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* - 0x8C
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- \_\_le32
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- i\_atime\_extra
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- Extra access time bits. This provides sub-second precision.
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* - 0x90
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- \_\_le32
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- i\_crtime
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- File creation time, in seconds since the epoch.
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* - 0x94
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- \_\_le32
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- i\_crtime\_extra
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- Extra file creation time bits. This provides sub-second precision.
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* - 0x98
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- \_\_le32
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- i\_version\_hi
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- Upper 32-bits for version number.
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* - 0x9C
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- \_\_le32
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- i\_projid
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- Project ID.
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.. _i_mode:
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The ``i_mode`` value is a combination of the following flags:
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.. list-table::
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:widths: 1 79
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:header-rows: 1
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* - Value
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- Description
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* - 0x1
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- S\_IXOTH (Others may execute)
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* - 0x2
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- S\_IWOTH (Others may write)
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* - 0x4
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- S\_IROTH (Others may read)
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* - 0x8
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- S\_IXGRP (Group members may execute)
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* - 0x10
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- S\_IWGRP (Group members may write)
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* - 0x20
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- S\_IRGRP (Group members may read)
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* - 0x40
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- S\_IXUSR (Owner may execute)
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* - 0x80
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- S\_IWUSR (Owner may write)
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* - 0x100
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- S\_IRUSR (Owner may read)
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* - 0x200
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- S\_ISVTX (Sticky bit)
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* - 0x400
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- S\_ISGID (Set GID)
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* - 0x800
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- S\_ISUID (Set UID)
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* -
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- These are mutually-exclusive file types:
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* - 0x1000
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- S\_IFIFO (FIFO)
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* - 0x2000
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- S\_IFCHR (Character device)
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* - 0x4000
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- S\_IFDIR (Directory)
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* - 0x6000
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- S\_IFBLK (Block device)
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* - 0x8000
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- S\_IFREG (Regular file)
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* - 0xA000
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- S\_IFLNK (Symbolic link)
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* - 0xC000
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- S\_IFSOCK (Socket)
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.. _i_flags:
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The ``i_flags`` field is a combination of these values:
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.. list-table::
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:widths: 1 79
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:header-rows: 1
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* - Value
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- Description
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* - 0x1
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- This file requires secure deletion (EXT4\_SECRM\_FL). (not implemented)
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* - 0x2
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- This file should be preserved, should undeletion be desired
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(EXT4\_UNRM\_FL). (not implemented)
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* - 0x4
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- File is compressed (EXT4\_COMPR\_FL). (not really implemented)
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* - 0x8
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- All writes to the file must be synchronous (EXT4\_SYNC\_FL).
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* - 0x10
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- File is immutable (EXT4\_IMMUTABLE\_FL).
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* - 0x20
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- File can only be appended (EXT4\_APPEND\_FL).
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* - 0x40
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- The dump(1) utility should not dump this file (EXT4\_NODUMP\_FL).
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* - 0x80
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- Do not update access time (EXT4\_NOATIME\_FL).
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* - 0x100
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- Dirty compressed file (EXT4\_DIRTY\_FL). (not used)
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* - 0x200
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- File has one or more compressed clusters (EXT4\_COMPRBLK\_FL). (not used)
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* - 0x400
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- Do not compress file (EXT4\_NOCOMPR\_FL). (not used)
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* - 0x800
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- Encrypted inode (EXT4\_ENCRYPT\_FL). This bit value previously was
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EXT4\_ECOMPR\_FL (compression error), which was never used.
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* - 0x1000
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- Directory has hashed indexes (EXT4\_INDEX\_FL).
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* - 0x2000
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- AFS magic directory (EXT4\_IMAGIC\_FL).
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* - 0x4000
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- File data must always be written through the journal
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(EXT4\_JOURNAL\_DATA\_FL).
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* - 0x8000
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- File tail should not be merged (EXT4\_NOTAIL\_FL). (not used by ext4)
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* - 0x10000
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- All directory entry data should be written synchronously (see
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``dirsync``) (EXT4\_DIRSYNC\_FL).
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* - 0x20000
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- Top of directory hierarchy (EXT4\_TOPDIR\_FL).
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* - 0x40000
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- This is a huge file (EXT4\_HUGE\_FILE\_FL).
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* - 0x80000
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- Inode uses extents (EXT4\_EXTENTS\_FL).
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* - 0x200000
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- Inode stores a large extended attribute value in its data blocks
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(EXT4\_EA\_INODE\_FL).
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* - 0x400000
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- This file has blocks allocated past EOF (EXT4\_EOFBLOCKS\_FL).
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(deprecated)
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* - 0x01000000
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- Inode is a snapshot (``EXT4_SNAPFILE_FL``). (not in mainline)
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* - 0x04000000
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- Snapshot is being deleted (``EXT4_SNAPFILE_DELETED_FL``). (not in
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mainline)
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* - 0x08000000
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- Snapshot shrink has completed (``EXT4_SNAPFILE_SHRUNK_FL``). (not in
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mainline)
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* - 0x10000000
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- Inode has inline data (EXT4\_INLINE\_DATA\_FL).
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* - 0x20000000
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- Create children with the same project ID (EXT4\_PROJINHERIT\_FL).
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* - 0x80000000
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- Reserved for ext4 library (EXT4\_RESERVED\_FL).
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* -
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- Aggregate flags:
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* - 0x4BDFFF
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- User-visible flags.
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* - 0x4B80FF
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- User-modifiable flags. Note that while EXT4\_JOURNAL\_DATA\_FL and
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EXT4\_EXTENTS\_FL can be set with setattr, they are not in the kernel's
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EXT4\_FL\_USER\_MODIFIABLE mask, since it needs to handle the setting of
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these flags in a special manner and they are masked out of the set of
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flags that are saved directly to i\_flags.
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.. _i_osd1:
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The ``osd1`` field has multiple meanings depending on the creator:
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Linux:
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.. list-table::
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:widths: 1 1 1 77
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:header-rows: 1
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* - Offset
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- Size
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- Name
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- Description
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* - 0x0
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- \_\_le32
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- l\_i\_version
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- Inode version. However, if the EA\_INODE inode flag is set, this inode
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stores an extended attribute value and this field contains the upper 32
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bits of the attribute value's reference count.
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Hurd:
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.. list-table::
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:widths: 1 1 1 77
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:header-rows: 1
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* - Offset
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- Size
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- Name
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- Description
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* - 0x0
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- \_\_le32
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- h\_i\_translator
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- ??
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Masix:
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.. list-table::
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:widths: 1 1 1 77
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:header-rows: 1
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* - Offset
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- Size
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- Name
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- Description
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* - 0x0
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- \_\_le32
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- m\_i\_reserved
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- ??
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.. _i_osd2:
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The ``osd2`` field has multiple meanings depending on the filesystem creator:
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Linux:
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.. list-table::
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:widths: 1 1 1 77
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:header-rows: 1
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* - Offset
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- Size
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- Name
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- Description
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* - 0x0
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- \_\_le16
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- l\_i\_blocks\_high
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- Upper 16-bits of the block count. Please see the note attached to
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i\_blocks\_lo.
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* - 0x2
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- \_\_le16
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- l\_i\_file\_acl\_high
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- Upper 16-bits of the extended attribute block (historically, the file
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ACL location). See the Extended Attributes section below.
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* - 0x4
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- \_\_le16
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- l\_i\_uid\_high
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- Upper 16-bits of the Owner UID.
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* - 0x6
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- \_\_le16
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- l\_i\_gid\_high
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- Upper 16-bits of the GID.
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* - 0x8
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- \_\_le16
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- l\_i\_checksum\_lo
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- Lower 16-bits of the inode checksum.
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* - 0xA
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- \_\_le16
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- l\_i\_reserved
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- Unused.
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Hurd:
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.. list-table::
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||
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:widths: 1 1 1 77
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:header-rows: 1
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* - Offset
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- Size
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- Name
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- Description
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* - 0x0
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- \_\_le16
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- h\_i\_reserved1
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- ??
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* - 0x2
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- \_\_u16
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- h\_i\_mode\_high
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- Upper 16-bits of the file mode.
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* - 0x4
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- \_\_le16
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- h\_i\_uid\_high
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- Upper 16-bits of the Owner UID.
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* - 0x6
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- \_\_le16
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- h\_i\_gid\_high
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- Upper 16-bits of the GID.
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* - 0x8
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- \_\_u32
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- h\_i\_author
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- Author code?
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Masix:
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.. list-table::
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||
|
:widths: 1 1 1 77
|
||
|
:header-rows: 1
|
||
|
|
||
|
* - Offset
|
||
|
- Size
|
||
|
- Name
|
||
|
- Description
|
||
|
* - 0x0
|
||
|
- \_\_le16
|
||
|
- h\_i\_reserved1
|
||
|
- ??
|
||
|
* - 0x2
|
||
|
- \_\_u16
|
||
|
- m\_i\_file\_acl\_high
|
||
|
- Upper 16-bits of the extended attribute block (historically, the file
|
||
|
ACL location).
|
||
|
* - 0x4
|
||
|
- \_\_u32
|
||
|
- m\_i\_reserved2[2]
|
||
|
- ??
|
||
|
|
||
|
Inode Size
|
||
|
~~~~~~~~~~
|
||
|
|
||
|
In ext2 and ext3, the inode structure size was fixed at 128 bytes
|
||
|
(``EXT2_GOOD_OLD_INODE_SIZE``) and each inode had a disk record size of
|
||
|
128 bytes. Starting with ext4, it is possible to allocate a larger
|
||
|
on-disk inode at format time for all inodes in the filesystem to provide
|
||
|
space beyond the end of the original ext2 inode. The on-disk inode
|
||
|
record size is recorded in the superblock as ``s_inode_size``. The
|
||
|
number of bytes actually used by struct ext4\_inode beyond the original
|
||
|
128-byte ext2 inode is recorded in the ``i_extra_isize`` field for each
|
||
|
inode, which allows struct ext4\_inode to grow for a new kernel without
|
||
|
having to upgrade all of the on-disk inodes. Access to fields beyond
|
||
|
EXT2\_GOOD\_OLD\_INODE\_SIZE should be verified to be within
|
||
|
``i_extra_isize``. By default, ext4 inode records are 256 bytes, and (as
|
||
|
of October 2013) the inode structure is 156 bytes
|
||
|
(``i_extra_isize = 28``). The extra space between the end of the inode
|
||
|
structure and the end of the inode record can be used to store extended
|
||
|
attributes. Each inode record can be as large as the filesystem block
|
||
|
size, though this is not terribly efficient.
|
||
|
|
||
|
Finding an Inode
|
||
|
~~~~~~~~~~~~~~~~
|
||
|
|
||
|
Each block group contains ``sb->s_inodes_per_group`` inodes. Because
|
||
|
inode 0 is defined not to exist, this formula can be used to find the
|
||
|
block group that an inode lives in:
|
||
|
``bg = (inode_num - 1) / sb->s_inodes_per_group``. The particular inode
|
||
|
can be found within the block group's inode table at
|
||
|
``index = (inode_num - 1) % sb->s_inodes_per_group``. To get the byte
|
||
|
address within the inode table, use
|
||
|
``offset = index * sb->s_inode_size``.
|
||
|
|
||
|
Inode Timestamps
|
||
|
~~~~~~~~~~~~~~~~
|
||
|
|
||
|
Four timestamps are recorded in the lower 128 bytes of the inode
|
||
|
structure -- inode change time (ctime), access time (atime), data
|
||
|
modification time (mtime), and deletion time (dtime). The four fields
|
||
|
are 32-bit signed integers that represent seconds since the Unix epoch
|
||
|
(1970-01-01 00:00:00 GMT), which means that the fields will overflow in
|
||
|
January 2038. For inodes that are not linked from any directory but are
|
||
|
still open (orphan inodes), the dtime field is overloaded for use with
|
||
|
the orphan list. The superblock field ``s_last_orphan`` points to the
|
||
|
first inode in the orphan list; dtime is then the number of the next
|
||
|
orphaned inode, or zero if there are no more orphans.
|
||
|
|
||
|
If the inode structure size ``sb->s_inode_size`` is larger than 128
|
||
|
bytes and the ``i_inode_extra`` field is large enough to encompass the
|
||
|
respective ``i_[cma]time_extra`` field, the ctime, atime, and mtime
|
||
|
inode fields are widened to 64 bits. Within this “extra” 32-bit field,
|
||
|
the lower two bits are used to extend the 32-bit seconds field to be 34
|
||
|
bit wide; the upper 30 bits are used to provide nanosecond timestamp
|
||
|
accuracy. Therefore, timestamps should not overflow until May 2446.
|
||
|
dtime was not widened. There is also a fifth timestamp to record inode
|
||
|
creation time (crtime); this field is 64-bits wide and decoded in the
|
||
|
same manner as 64-bit [cma]time. Neither crtime nor dtime are accessible
|
||
|
through the regular stat() interface, though debugfs will report them.
|
||
|
|
||
|
We use the 32-bit signed time value plus (2^32 \* (extra epoch bits)).
|
||
|
In other words:
|
||
|
|
||
|
.. list-table::
|
||
|
:widths: 20 20 20 20 20
|
||
|
:header-rows: 1
|
||
|
|
||
|
* - Extra epoch bits
|
||
|
- MSB of 32-bit time
|
||
|
- Adjustment for signed 32-bit to 64-bit tv\_sec
|
||
|
- Decoded 64-bit tv\_sec
|
||
|
- valid time range
|
||
|
* - 0 0
|
||
|
- 1
|
||
|
- 0
|
||
|
- ``-0x80000000 - -0x00000001``
|
||
|
- 1901-12-13 to 1969-12-31
|
||
|
* - 0 0
|
||
|
- 0
|
||
|
- 0
|
||
|
- ``0x000000000 - 0x07fffffff``
|
||
|
- 1970-01-01 to 2038-01-19
|
||
|
* - 0 1
|
||
|
- 1
|
||
|
- 0x100000000
|
||
|
- ``0x080000000 - 0x0ffffffff``
|
||
|
- 2038-01-19 to 2106-02-07
|
||
|
* - 0 1
|
||
|
- 0
|
||
|
- 0x100000000
|
||
|
- ``0x100000000 - 0x17fffffff``
|
||
|
- 2106-02-07 to 2174-02-25
|
||
|
* - 1 0
|
||
|
- 1
|
||
|
- 0x200000000
|
||
|
- ``0x180000000 - 0x1ffffffff``
|
||
|
- 2174-02-25 to 2242-03-16
|
||
|
* - 1 0
|
||
|
- 0
|
||
|
- 0x200000000
|
||
|
- ``0x200000000 - 0x27fffffff``
|
||
|
- 2242-03-16 to 2310-04-04
|
||
|
* - 1 1
|
||
|
- 1
|
||
|
- 0x300000000
|
||
|
- ``0x280000000 - 0x2ffffffff``
|
||
|
- 2310-04-04 to 2378-04-22
|
||
|
* - 1 1
|
||
|
- 0
|
||
|
- 0x300000000
|
||
|
- ``0x300000000 - 0x37fffffff``
|
||
|
- 2378-04-22 to 2446-05-10
|
||
|
|
||
|
This is a somewhat odd encoding since there are effectively seven times
|
||
|
as many positive values as negative values. There have also been
|
||
|
long-standing bugs decoding and encoding dates beyond 2038, which don't
|
||
|
seem to be fixed as of kernel 3.12 and e2fsprogs 1.42.8. 64-bit kernels
|
||
|
incorrectly use the extra epoch bits 1,1 for dates between 1901 and
|
||
|
1970. At some point the kernel will be fixed and e2fsck will fix this
|
||
|
situation, assuming that it is run before 2310.
|