blob: e99ff3fd09f7e7d055d7674e099cbc2b5265c552 [file] [log] [blame]
.. SPDX-License-Identifier: GPL-2.0
Verity files
ext4 supports fs-verity, which is a filesystem feature that provides
Merkle tree based hashing for individual readonly files. Most of
fs-verity is common to all filesystems that support it; see
:ref:`Documentation/filesystems/fsverity.rst <fsverity>` for the
fs-verity documentation. However, the on-disk layout of the verity
metadata is filesystem-specific. On ext4, the verity metadata is
stored after the end of the file data itself, in the following format:
- Zero-padding to the next 65536-byte boundary. This padding need not
actually be allocated on-disk, i.e. it may be a hole.
- The Merkle tree, as documented in
<fsverity_merkle_tree>`, with the tree levels stored in order from
root to leaf, and the tree blocks within each level stored in their
natural order.
- Zero-padding to the next filesystem block boundary.
- The verity descriptor, as documented in
:ref:`Documentation/filesystems/fsverity.rst <fsverity_descriptor>`,
with optionally appended signature blob.
- Zero-padding to the next offset that is 4 bytes before a filesystem
block boundary.
- The size of the verity descriptor in bytes, as a 4-byte little
endian integer.
Verity inodes have EXT4_VERITY_FL set, and they must use extents, i.e.
EXT4_EXTENTS_FL must be set and EXT4_INLINE_DATA_FL must be clear.
They can have EXT4_ENCRYPT_FL set, in which case the verity metadata
is encrypted as well as the data itself.
Verity files cannot have blocks allocated past the end of the verity
Verity and DAX are not compatible and attempts to set both of these flags
on a file will fail.