Full disk encryption¶
MicroCeph supports automatic full disk encryption (FDE) on OSDs.
Full disk encryption is a security measure that protects the data on a storage device by encrypting all the information on the disk. FDE helps maintain data confidentiality in case the disk is lost or stolen by rendering the data inaccessible without the correct decryption key or password.
In the event of disk loss or theft, unauthorised individuals are unable to access the encrypted data, as the encryption renders the information unreadable without the proper credentials. This helps prevent data breaches and protects sensitive information from being misused.
FDE also eliminates the need for wiping or physically destroying a disk when it is replaced, as the encrypted data remains secure even if the disk is no longer in use. The data on the disk is effectively rendered useless without the decryption key.
Full disk encryption for OSDs has to be requested when adding disks. MicroCeph will then generate a random key, store it in the Ceph cluster configuration, and use it to encrypt the given disk via LUKS/cryptsetup.
To use FDE, the following prerequisites must be met:
The installed snapd daemon version must be >= 2.59.1
dm-cryptkernel module must be available. Note that some cloud-optimised kernels do not ship dm-crypt by default. Check by running
sudo modinfo dm-crypt
The snap dm-crypt plug has to be connected, and
sudo snap connect microceph:dm-crypt sudo snap restart microceph.daemon
It is important to note that MicroCeph FDE only encompasses OSDs. Other data, such as state information for monitors, logs, configuration etc., will not be encrypted by this mechanism.
Also note that the encryption key will be stored on the Ceph monitors as part of the Ceph key/value store
FDE for OSDs is activated by passing the optional
--encrypt flag when adding disks:
sudo microceph disk add /dev/sdx --wipe --encrypt
Note there is no facility to encrypt an OSD that is already part of the cluster. To enable encryption you will have to take the OSD disk out of the cluster, ensure data is replicated and the cluster converged and is healthy, and then re-introduce the OSD with encryption.