blob: bdcc838d3de928fad12483a32040caa1a0c455ab (
plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
|
Integration with kernel keyring service
---------------------------------------
We have two different use cases for kernel keyring service:
I) Volume keys
Since upstream kernel 4.10 dm-crypt device mapper target allows loading volume
key (VK) in kernel keyring service. The key offloaded in kernel keyring service
is only referenced (by key description) in dm-crypt target and the VK is therefore
no longer stored directly in dm-crypt target. Starting with cryptsetup 2.0 we
load VK in kernel keyring by default for LUKSv2 devices (when dm-crypt with the
feature is available).
Currently cryptsetup loads VK in 'logon' type kernel key so that VK is passed in
the kernel and can't be read from userspace afterward. Also cryptsetup loads VK in
thread keyring (before passing the reference to dm-crypt target) so that the key
lifetime is directly bound to the process that performs the dm-crypt setup. When
cryptsetup process exits (for whatever reason) the key gets unlinked in kernel
automatically. In summary, the key description visible in dm-crypt table line is
a reference to VK that usually no longer exists in kernel keyring service if you
used cryptsetup to for device activation.
Using this feature dm-crypt no longer maintains a direct key copy (but there's
always at least one copy in kernel crypto layer).
II) Keyslot passphrase
The second use case for kernel keyring is to allow cryptsetup reading the keyslot
passphrase stored in kernel keyring instead. The user may load passphrase in kernel
keyring and notify cryptsetup to read it from there later. Currently, cryptsetup
cli supports kernel keyring for passphrase only via LUKS2 internal token
(luks2-keyring). Library also provides a general method for device activation by
reading passphrase from keyring: crypt_activate_by_keyring(). The key type
for use case II) must always be 'user' since we need to read the actual key
data from userspace unlike with VK in I). Ability to read keyslot passphrase
from kernel keyring also allows easily auto-activate LUKS2 devices.
Simple example how to use kernel keyring for keyslot passphrase:
1) create LUKS2 keyring token for keyslot 0 (in LUKS2 device/image)
cryptsetup token add --key-description my:key -S 0 /dev/device
2) Load keyslot passphrase in user keyring
read -s -p "Keyslot passphrase: "; echo -n $REPLY | keyctl padd user my:key @u
3) Activate device using passphrase stored in kernel keyring
cryptsetup open /dev/device my_unlocked_device
4a) unlink the key when no longer needed by
keyctl unlink %user:my:key @u
4b) or revoke it immediately by
keyctl revoke %user:my:key
If cryptsetup asks for passphrase in step 3) something went wrong with keyring
activation. See --debug output then.
|
