Refresh (and therefore suspend hotzone) reencryption dm
segments in-before actual hotzone reencryption takes place.
This commit shortens time window during which hotzone is
suspended. Also it avoids eventual deadlock if reencryption process
triggers page miss during storage wrapper reinitialization and required
data is stored in (previously) suspended hotzone (corner case).
Due to commit 0113ac2d88
we recalculate reencryption digest whenever LUKS2 reencryption
keyslot gets updated. Until now we perform reencryption digest
refresh every time we call LUKS2_keyslot_reencrypt_update even
when no metadata was updated.
This improves on it and should speed up reencryption resume
process.
The LUKS2 reencrypt keyslot update process should
not be performed in crypt_reencrypt_run() loop where
data reencryption takes place.
The proper location is reencryption process initialization
when we validate reencryption metadata and decide if
new user provided resilience metadata are valid.
Prior to commit 0113ac2d88 it did
not matter what resilince metadata we stored during initialization.
So we stored 'none' type unless 'datashift' operation was initialized.
After the commit, it triggered reencryption metadata digest refresh
almost each time (except 'datashift') which was suboptimal.
By storing proper resilience type during reencryption initialization
we will avoid the needless reencryption digest refresh later (after
update optimization).
The structure is supposed to store all data necessary to perform
reencryption crash recovery. The data block size stored
in LUKS2 metadata was missing and stored in reencryption top level handle
instead.
Attribute unused is useless and makes code imcomprehensible
when decorates internal functions not exposed via API.
Let's cleanup internal funtion prototypes whenever possible.
crypt_reencrypt_status() returns this flag if old
online-reencrypt requirement is detected and reencryption
keyslot digest is missing.
crypt_reencrypt_init_by_passphrase() with same flag applied
repairs (upgrade) reencryption metadata so that
automatic reencryption recovery during activation
is again possible and reencryption operation can be resumed
post CVE-2021-4122 fix.
The function never writes on-disk. Also removed validation
function call-in since it will be called later before
writing on-disk and metadata does not have to be complete
at the moment of LUKS2_keyslot_reencrypt_allocate call.
The option --disable-luks2-reencryption completely disable
LUKS2 reencryption code.
When used, the libcryptsetup library can read metadata with
reencryption code, but all reencryption API calls and cryptsetup
reencrypt commands are disabled.
Devices with online reencryption in progress cannot be activated.
This option can cause some incompatibilities. Please use with care.
Fix possible attacks against data confidentiality through LUKS2 online
reencryption extension crash recovery.
An attacker can modify on-disk metadata to simulate decryption in
progress with crashed (unfinished) reencryption step and persistently
decrypt part of the LUKS device.
This attack requires repeated physical access to the LUKS device but
no knowledge of user passphrases.
The decryption step is performed after a valid user activates
the device with a correct passphrase and modified metadata.
There are no visible warnings for the user that such recovery happened
(except using the luksDump command). The attack can also be reversed
afterward (simulating crashed encryption from a plaintext) with
possible modification of revealed plaintext.
The problem was caused by reusing a mechanism designed for actual
reencryption operation without reassessing the security impact for new
encryption and decryption operations. While the reencryption requires
calculating and verifying both key digests, no digest was needed to
initiate decryption recovery if the destination is plaintext (no
encryption key). Also, some metadata (like encryption cipher) is not
protected, and an attacker could change it. Note that LUKS2 protects
visible metadata only when a random change occurs. It does not protect
against intentional modification but such modification must not cause
a violation of data confidentiality.
The fix introduces additional digest protection of reencryption
metadata. The digest is calculated from known keys and critical
reencryption metadata. Now an attacker cannot create correct metadata
digest without knowledge of a passphrase for used keyslots.
For more details, see LUKS2 On-Disk Format Specification version 1.1.0.
LUKS2 encryption with data shift required remaining
data size (size remaining after substracting --reduce-data-size value)
to be at least --reduce-data-size. This was wrong. Remaining
data size restriction should be correctly at least single sector
(whatever sector size is selected or auto-detected).
The hotzone segment offset has to be altered
accordingly no matter the segment type.
Note for testing: This feature is currently
blocked in cli but it should be tested via
API tests anyway.
This reverts commit 367cb7a761
and retains original crypt_reencrypt() symbol marked as deprecated
in favour of new crypt_reencrypt_run(). This makes cryptsetup 2.4.0
release fully backward compatible.
Starting with GCC10 and LTO enabled, current symbols
versioning hack does not work anymore. This patch
reflects on that and should be compatible with older
compilers that does not support __attribute__((symver))
yet.
Inspired by following code:
https://github.com/linux-rdma/rdma-core/blob/master/util/symver.h
