Ths will allow automatic scan of known formats.
Errors are printed only if something is wrong with already detected metadata.
This change means that it is responsibility of the caller to print an error
message if needed.
Also fix some places without a message.
Fixes: #642
Calculating device sizes for verity devices is a little bit tricky,
Data, hash and FEC can share devices or it can be a separate devices.
This patch prints used device sizes in veritysetup dump command,
but it requires that user specifies all values that are not stored
in superblock (like a FEC device and FEC roots).
Attribute unused is useless and makes code imcomprehensible
when decorates internal functions not exposed via API.
Let's cleanup internal funtion prototypes whenever possible.
The error correction can fix even problem with root hash.
For now, always return fail if initial check of root hash failed.
FIXME: The FEC verify code need to be rewritten to repair only
blocks where hash is wrong and the re-check hash after recovery,
inclkuding root hash.
Now we do not check hash after FEC recovery. The Reed-Solomon
decoder can then "repair" code wrongly if parity is too damaged.
For now, the information about FEC repaired errors is only
advisory, it does not mean device is fully repaireable.
Do not write more than needed header if hash area is not used later.
All space in hash area is then used in FEC calculation, so it makes
no sense to add unused area.
FEC (Forward Error Correction) data should cover the whole data area,
hashes (Merkle tree) and optionally additional metadata (located after hash area).
Unfortunately, if FEC data is stored in the same file as hash, the calculation
wrongly used the whole file size thus overlaps with FEC area itself.
This produces unusable and too large FEC data.
(There is not a problem if FEC image is a separate image.)
This patch fixes the problem, introducing FEC blocks calculation as:
-If hash device is in a separate image, metadata covers the whole rest of the image after hash area.
(Unchanged behaviour.)
-If hash and FEC device is in the image, metadata ends on the FEC area offset.
This should probably fix several issues reported with FEC wrong calculations.
Fixes: #554
If FEC was enabled, the error for bad root hash was replaced
by error correction (datga were ok, only root hash was wrong).
Do not run recovery test if root hash is incorrect.
Optional parameter root hash signature is added that can be added to
veritysetup.
The signature file is opened and the signature is added to the keyring.
The kernel will use the signature to validate the roothash.
Usage: veritysetup open <data_device> name <hash_device> <root_hash> --root-hash-signature=<roothash_p7_sig_file>
Signed-off-by: Jaskaran Khurana <jaskarankhurana@linux.microsoft.com>
Signed-off-by: Luca Boccassi <luca.boccassi@microsoft.com>
[Original patch rewritten by Milan Broz]
Other APIs use the root hash in place of keys when using verity
devices, so do the same for crypt_volume_key_get to allow users
to retrieve the root hash of an active verity device.
Use it in veritysetup status to print the root hash.
[Patch slightly modified by Milan Broz]
Support for multi-segment devices is requirement for online
reencryption to work. Introducing modififed dm backend that
splits data structures describing active device and individual
dm target (or segment).
Almost all the headers in cryptsetup are self-suffienct (in that they
compile on their own). By including <stddef.h>, <stdint.h>, or
<sys/types.h>, all headers will now compile on their own.
This is useful for importing cryptsetup into Bazel/Blaze.
