ceph/doc/dev/ceph-disk.rst

=========
ceph-disk
=========


device-mapper crypt
===================

Settings
--------

``osd_dmcrypt_type``

:Description: this option specifies the mode in which ``cryptsetup`` works. It can be ``luks`` or ``plain``.  It kicks in only if the ``--dmcrypt`` option is passed to ``ceph-disk``. See also `cryptsetup document <https://gitlab.com/cryptsetup/cryptsetup/wikis/DMCrypt#configuration-using-cryptsetup>`_ for more details.

:Type: String
:Default: ``luks``


``osd_dmcrypt_key_size``

:Description: the size of the random string in bytes used as the LUKS key. The string is read from ``/dev/urandom`` and then encoded using base64. It will be stored with the key of ``dm-crypt/osd/$uuid/luks`` using config-key.

:Type: String
:Default: 1024 if ``osd_dmcrypt_type`` is ``luks``, 256 otherwise.

lockbox
-------

``ceph-disk`` supports dmcrypt (device-mapper crypt). If dmcrypt is enabled, the partitions will be encrypted using this machinary. For each OSD device, a lockbox is introduced for holding the information regarding how the dmcrypt key is stored. To prepare a lockbox, ``ceph-disk``

#. creates a dedicated lockbox partition on device, and
#. populates it with a tiny filesystem, then
#. automounts it at ``/var/lib/ceph/osd-lockbox/$uuid``, read-only. where the ``uuid`` is the lockbox's uuid.

under which, settings are stored using plain files:

- key-management-mode: ``ceph-mon v1``
- osd-uuid: the OSD's uuid
- ceph_fsid: the fsid of the cluster
- keyring: the lockbox's allowing one to fetch the LUKS key
- block_uuid: the partition uuid for the block device
- journal_uuid: the partition uuid for the journal device
- block.db_uuid: the partition uuid for the block.db device
- block.wal_uuid: the partition uuid for the block.wal device
- magic: a magic string indicating that this partition is a lockbox. It's not used currently.
- ``${space_uuid}``: symbolic links named after the uuid of space partitions pointing to  ``/var/lib/ceph/osd-lockbox/$uuid``. in the case of FileStore, the space partitions are ``data`` and ``journal`` partitions, for BlueStore, they are ``data``, ``block.db`` and ``block.wal``.

Currently, ``ceph-mon v1`` is the only supported key-management-mode. In that case, the LUKS key is stored using the config-key in the monitor store with the key of ``dm-crypt/osd/$uuid/luks``.


partitions
==========

``ceph-disk`` creates partitions for preparing a device for OSD deployment. Their partition numbers are hardcoded. For instance, data partition's partition number is always *1* :

1. data partition
2. journal partition, if co-located with data
3. block.db for BlueStore, if co-located with data
4. block.wal for BlueStore, if co-located with data
5. lockbox

prepare class hierarchy
=======================

The ``ceph-disk`` prepare class hierarchy can be challenging to read
and this guide is designed to explain how it is structured.

The ``Prepare`` class roughly replaces the ``prepare_main`` function but also
handles the ``prepare`` subcommand argument parsing. It creates the data
and journal objects and delegate the actual work to them via the
``prepare()`` method.

The ``Prepare`` class assumes that preparing an OSD consists of the
following phases:

* optionally prepare auxiliary devices, such as the journal
* prepare a data directory or device
* populate the data directory with fsid etc. and optionally symbolic
  links to the auxiliary devices

The ``PrepareFilestore`` class is derived from ``Prepare`` and implements the
current model where there only is one auxiliary device, the journal. It
utilizes ``PrepareJournal`` and ``PrepareFilestoredata`` for preparing its
journal and its data directory respectively. The latter is a derived class
of ``PrepareData``.

The ``PrepareJournal`` class implements the *journal* functions and is
based on a generic class ``PrepareSpace``, which handles the allocation of
an auxiliary device. The only journal specific feature is left to the
``PrepareJournal`` class: querying the OSD to figure out if a journal is
wanted or not.

The OSD data directory is prepared via the ``PrepareData`` class. It
creates a file system if necessary (i.e. if a device) and populates the
data directory. Further preparation is then delegated to the auxiliary
devices (i.e. adding a symlink to the device for a journal).

There was some code paths related dmcrypt / multipath devices in the
prepare functions, although it is orthogonal. A class tree for ``Devices``
was created to isolate that.

Although that was the primary reason for adding a new class tree, two
other aspects have also been moved there: ``ptypes`` (i.e. partition
types) and partition creation.  The ``ptypes`` are organized into a data
structure with a few helpers in the hope that it will be easier to
maintain. All references to the ``*_UUID`` variables have been
updated.

The creation of a partition is delegated to sgdisk and a wrapper helps
reduce the code redundancy.

The ``ptype`` of a given partition depends on the type of the device (is
it dmcrypt'ed or a multipath device ?). It is best implemented by
derivation so the prepare function does not need to be concerned about
how the ``ptype`` of a partition is determined.

Many functions could be refactored into a ``Device`` class and its
derivatives, but that was not done to minimize the size of the
refactor.

* ``Device`` knows how to create a partition and figure out the ``ptype`` ``tobe``
* ``DevicePartition`` a regular device partition
* ``DevicePartitionMultipath`` a partition of a multipath device
* ``DevicePartitionCrypt`` base class for luks/plain dmcrypt, can map/unmap
* ``DevicePartitionCryptPlain`` knows how to setup dmcrypt plain
* ``DevicePartitionCryptLuks`` knows how to setup dmcrypt luks

The ``CryptHelpers`` class is introduced to factorize the code snippets
that were duplicated in various places but that do not really belong
because they are convenience wrappers to figure out:

* if dcmrypt should be used
* the keysize
* the dmcrypt type (plain or luks)


state transition of partitions
==============================


.. ditaa::

   /--------\            /---------\           /----------\
   | unused | ---------> | created |---------> | prepared |
   |        |            | (tobe)  |           | (ready)  |
   \--------/            \---------/           \----------/
       |                      ^
       |     /---------\      |
       +-----| zapped  | -----+
   zap-disk  |         |
             \---------/