Disk Encryption
It is possible to enable encryption for system disks at the OS level.
Currently, only STATE and EPHEMERAL partitions can be encrypted.
STATE contains the most sensitive node data: secrets and certs.
The EPHEMERAL partition may contain sensitive workload data.
Data is encrypted using LUKS2, which is provided by the Linux kernel modules and cryptsetup
utility.
The operating system will run additional setup steps when encryption is enabled.
If the disk encryption is enabled for the STATE partition, the system will:
- Save STATE encryption config as JSON in the META partition.
- Before mounting the STATE partition, load encryption configs either from the machine config or from the META partition. Note that the machine config is always preferred over the META one.
- Before mounting the STATE partition, format and encrypt it. This occurs only if the STATE partition is empty and has no filesystem.
If the disk encryption is enabled for the EPHEMERAL partition, the system will:
- Get the encryption config from the machine config.
- Before mounting the EPHEMERAL partition, encrypt and format it.
This occurs only if the EPHEMERAL partition is empty and has no filesystem.
Note: Talos Linux disk encryption is designed to guard against data being leaked or recovered from a drive that has been removed from a Talos Linux node. It uses the hardware characteristics of the machine in order to decrypt the data, so drives that have been removed, or recycled from a cloud environment or attached to a different virtual machine, will maintain their protection and encryption. It is not designed to protect against attacks where physical access to the machine, including the drive, is available.
Configuration
Disk encryption is disabled by default. To enable disk encryption you should modify the machine configuration with the following options:
machine:
...
systemDiskEncryption:
ephemeral:
provider: luks2
keys:
- nodeID: {}
slot: 0
state:
provider: luks2
keys:
- nodeID: {}
slot: 0
Encryption Keys
Note: What the LUKS2 docs call “keys” are, in reality, a passphrase. When this passphrase is added, LUKS2 runs argon2 to create an actual key from that passphrase.
LUKS2 supports up to 32 encryption keys and it is possible to specify all of them in the machine configuration. Talos always tries to sync the keys list defined in the machine config with the actual keys defined for the LUKS2 partition. So if you update the keys list, keep at least one key that is not changed to be used for key management.
When you define a key you should specify the key kind and the slot
:
machine:
...
state:
keys:
- nodeID: {} # key kind
slot: 1
ephemeral:
keys:
- static:
passphrase: supersecret
slot: 0
Take a note that key order does not play any role on which key slot is used. Every key must always have a slot defined.
Encryption Key Kinds
Talos supports two kinds of keys:
nodeID
which is generated using the node UUID and the partition label (note that if the node UUID is not really random it will fail the entropy check).static
which you define right in the configuration.
Note: Use static keys only if your STATE partition is encrypted and only for the EPHEMERAL partition. For the STATE partition it will be stored in the META partition, which is not encrypted.
Key Rotation
In order to completely rotate keys, it is necessary to do talosctl apply-config
a couple of times, since there is a need to always maintain a single working key while changing the other keys around it.
So, for example, first add a new key:
machine:
...
ephemeral:
keys:
- static:
passphrase: oldkey
slot: 0
- static:
passphrase: newkey
slot: 1
...
Run:
talosctl apply-config -n <node> -f config.yaml
Then remove the old key:
machine:
...
ephemeral:
keys:
- static:
passphrase: newkey
slot: 1
...
Run:
talosctl apply-config -n <node> -f config.yaml
Going from Unencrypted to Encrypted and Vice Versa
Ephemeral Partition
There is no in-place encryption support for the partitions right now, so to avoid losing data only empty partitions can be encrypted.
As such, migration from unencrypted to encrypted needs some additional handling, especially around explicitly wiping partitions.
apply-config
should be called with--mode=staged
.- Partition should be wiped after
apply-config
, but before the reboot.
Edit your machine config and add the encryption configuration:
vim config.yaml
Apply the configuration with --mode=staged
:
talosctl apply-config -f config.yaml -n <node ip> --mode=staged
Wipe the partition you’re going to encrypt:
talosctl reset --system-labels-to-wipe EPHEMERAL -n <node ip> --reboot=true
That’s it! After you run the last command, the partition will be wiped and the node will reboot. During the next boot the system will encrypt the partition.
State Partition
Calling wipe against the STATE partition will make the node lose the config, so the previous flow is not going to work.
The flow should be to first wipe the STATE partition:
talosctl reset --system-labels-to-wipe STATE -n <node ip> --reboot=true
Node will enter into maintenance mode, then run apply-config
with --insecure
flag:
talosctl apply-config --insecure -n <node ip> -f config.yaml
After installation is complete the node should encrypt the STATE partition.