.. _raid:
==================
RAID Configuration
==================
Overview
========
Ironic supports RAID configuration for bare metal nodes. It allows operators
to specify the desired RAID configuration via the OpenStackClient CLI or REST
API. The desired RAID configuration is applied on the bare metal during manual
cleaning.
The examples described here use the OpenStackClient CLI; please see the
`REST API reference `_
for their corresponding REST API requests.
Prerequisites
=============
The bare metal node needs to use a hardware type that supports RAID
configuration. RAID interfaces may implement RAID configuration either in-band
or out-of-band. Software RAID is supported on all hardware, although with some
caveats - see `Software RAID`_ for details.
In-band RAID configuration (including software RAID) is done using the
Ironic Python Agent ramdisk. For in-band hardware RAID configuration,
a hardware manager which supports RAID should be bundled with the ramdisk.
Whether a node supports RAID configuration could be found using the CLI
command ``baremetal node validate ``. In-band RAID is
usually implemented by the ``agent`` RAID interface.
Build agent ramdisk which supports RAID configuration
=====================================================
For doing in-band hardware RAID configuration, Ironic needs an agent ramdisk
bundled with a hardware manager which supports RAID configuration for your
hardware. For example, the :ref:`DIB_raid_support` should be used for HPE
Proliant Servers.
.. note::
For in-band software RAID, the agent ramdisk does not need to be bundled
with a hardware manager as the generic hardware manager in the Ironic
Python Agent already provides (basic) support for software RAID.
RAID configuration JSON format
==============================
The desired RAID configuration and current RAID configuration are represented
in JSON format.
Target RAID configuration
-------------------------
This is the desired RAID configuration on the bare metal node. Using the
OpenStackClient CLI (or REST API), the operator sets ``target_raid_config``
field of the node. The target RAID configuration will be applied during manual
cleaning.
Target RAID configuration is a dictionary having ``logical_disks``
as the key. The value for the ``logical_disks`` is a list of JSON
dictionaries. It looks like::
{
"logical_disks": [
{},
{},
...
]
}
If the ``target_raid_config`` is an empty dictionary, it unsets the value of
``target_raid_config`` if the value was set with previous RAID configuration
done on the node.
Each dictionary of logical disk contains the desired properties of logical
disk supported by the hardware type. These properties are discoverable by::
baremetal driver raid property list
Mandatory properties
^^^^^^^^^^^^^^^^^^^^
These properties must be specified for each logical
disk and have no default values:
- ``size_gb`` - Size (Integer) of the logical disk to be created in GiB.
``MAX`` may be specified if the logical disk should use all of the
remaining space available. This can be used only when backing physical
disks are specified (see below).
- ``raid_level`` - RAID level for the logical disk. Ironic supports the
following RAID levels: 0, 1, 2, 5, 6, 1+0, 5+0, 6+0.
Optional properties
^^^^^^^^^^^^^^^^^^^
These properties have default values and they may be overridden in the
specification of any logical disk. None of these options are supported for
software RAID.
- ``volume_name`` - Name of the volume. Should be unique within the Node.
If not specified, volume name will be auto-generated.
- ``is_root_volume`` - Set to ``true`` if this is the root volume. At
most one logical disk can have this set to ``true``; the other
logical disks must have this set to ``false``. The
``root device hint`` will be saved, if the RAID interface is capable of
retrieving it. This is ``false`` by default.
Backing physical disk hints
^^^^^^^^^^^^^^^^^^^^^^^^^^^
These hints are specified for each logical disk to let Ironic find the desired
disks for RAID configuration. This is machine-independent information. This
serves the use-case where the operator doesn't want to provide individual
details for each bare metal node. None of these options are supported for
software RAID.
- ``share_physical_disks`` - Set to ``true`` if this logical disk can
share physical disks with other logical disks. The default value is
``false``, except for software RAID which always shares disks.
- ``disk_type`` - ``hdd`` or ``ssd``. If this is not specified, disk type
will not be a criterion to find backing physical disks.
- ``interface_type`` - ``sata`` or ``scsi`` or ``sas``. If this is not
specified, interface type will not be a criterion to
find backing physical disks.
- ``number_of_physical_disks`` - Integer, number of disks to use for the
logical disk. Defaults to minimum number of disks required for the
particular RAID level, except for software RAID which always spans all disks.
Backing physical disks
^^^^^^^^^^^^^^^^^^^^^^
These are the actual machine-dependent information. This is suitable for
environments where the operator wants to automate the selection of physical
disks with a 3rd-party tool based on a wider range of attributes
(eg. S.M.A.R.T. status, physical location). The values for these properties
are hardware dependent.
- ``controller`` - The name of the controller as read by the RAID interface.
In order to trigger the setup of a Software RAID via the Ironic Python
Agent, the value of this property needs to be set to ``software``.
- ``physical_disks`` - A list of physical disks to use as read by the
RAID interface.
For software RAID ``physical_disks`` is a list of device hints in the same
format as used for :ref:`root-device-hints`. The number of provided hints
must match the expected number of backing devices (repeat the same hint if
necessary).
.. note::
If properties from both "Backing physical disk hints" or
"Backing physical disks" are specified, they should be consistent with
each other. If they are not consistent, then the RAID configuration
will fail (because the appropriate backing physical disks could
not be found).
.. _raid-config-examples:
Examples for ``target_raid_config``
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
*Example 1*. Single RAID disk of RAID level 5 with all of the space
available. Make this the root volume to which Ironic deploys the image:
.. code-block:: json
{
"logical_disks": [
{
"size_gb": "MAX",
"raid_level": "5",
"is_root_volume": true
}
]
}
*Example 2*. Two RAID disks. One with RAID level 5 of 100 GiB and make it
root volume and use SSD. Another with RAID level 1 of 500 GiB and use
HDD:
.. code-block:: json
{
"logical_disks": [
{
"size_gb": 100,
"raid_level": "5",
"is_root_volume": true,
"disk_type": "ssd"
},
{
"size_gb": 500,
"raid_level": "1",
"disk_type": "hdd"
}
]
}
*Example 3*. Single RAID disk. I know which disks and controller to use:
.. code-block:: json
{
"logical_disks": [
{
"size_gb": 100,
"raid_level": "5",
"controller": "Smart Array P822 in Slot 3",
"physical_disks": ["6I:1:5", "6I:1:6", "6I:1:7"],
"is_root_volume": true
}
]
}
*Example 4*. Using backing physical disks:
.. code-block:: json
{
"logical_disks": [
{
"size_gb": 50,
"raid_level": "1+0",
"controller": "RAID.Integrated.1-1",
"volume_name": "root_volume",
"is_root_volume": true,
"physical_disks": [
"Disk.Bay.0:Encl.Int.0-1:RAID.Integrated.1-1",
"Disk.Bay.1:Encl.Int.0-1:RAID.Integrated.1-1"
]
},
{
"size_gb": 100,
"raid_level": "5",
"controller": "RAID.Integrated.1-1",
"volume_name": "data_volume",
"physical_disks": [
"Disk.Bay.2:Encl.Int.0-1:RAID.Integrated.1-1",
"Disk.Bay.3:Encl.Int.0-1:RAID.Integrated.1-1",
"Disk.Bay.4:Encl.Int.0-1:RAID.Integrated.1-1"
]
}
]
}
*Example 5*. Software RAID with two RAID devices:
.. code-block:: json
{
"logical_disks": [
{
"size_gb": 100,
"raid_level": "1",
"controller": "software"
},
{
"size_gb": "MAX",
"raid_level": "0",
"controller": "software"
}
]
}
*Example 6*. Software RAID, limiting backing block devices to exactly two
devices with the size exceeding 100 GiB:
.. code-block:: json
{
"logical_disks": [
{
"size_gb": "MAX",
"raid_level": "0",
"controller": "software",
"physical_disks": [
{"size": "> 100"},
{"size": "> 100"}
]
}
]
}
Current RAID configuration
--------------------------
After target RAID configuration is applied on the bare metal node, Ironic
populates the current RAID configuration. This is populated in the
``raid_config`` field in the Ironic node. This contains the details about
every logical disk after they were created on the bare metal node. It
contains details like RAID controller used, the backing physical disks used,
WWN of each logical disk, etc. It also contains information about each
physical disk found on the bare metal node.
To get the current RAID configuration::
baremetal node show
Workflow
========
* Operator configures the bare metal node with a hardware type that has
a ``RAIDInterface`` other than ``no-raid``. For instance, for Software RAID,
this would be ``agent``.
* For in-band RAID configuration, operator builds an agent ramdisk which
supports RAID configuration by bundling the hardware manager with the
ramdisk. See `Build agent ramdisk which supports RAID configuration`_ for
more information.
* Operator prepares the desired target RAID configuration as mentioned in
`Target RAID configuration`_. The target RAID configuration is set on
the Ironic node::
baremetal node set \
--target-raid-config
The CLI command can accept the input from standard input also::
baremetal node set \
--target-raid-config -
* Create a JSON file with the RAID clean steps for manual cleaning. Add other
clean steps as desired::
[{
"interface": "raid",
"step": "delete_configuration"
},
{
"interface": "raid",
"step": "create_configuration"
}]
.. note::
'create_configuration' doesn't remove existing disks. It is recommended
to add 'delete_configuration' before 'create_configuration' to make
sure that only the desired logical disks exist in the system after
manual cleaning.
* Bring the node to ``manageable`` state and do a ``clean`` action to start
cleaning on the node::
baremetal node clean \
--clean-steps
* After manual cleaning is complete, the current RAID configuration is
reported in the ``raid_config`` field when running::
baremetal node show
Software RAID
=============
Building Linux software RAID in-band (via the Ironic Python Agent ramdisk)
is supported starting with the Train release. It is requested by using the
``agent`` RAID interface and RAID configuration with all controllers set
to ``software``. You can find a software RAID configuration example in
:ref:`raid-config-examples`.
There are certain limitations to be aware of:
* Only the mandatory properties (plus the required ``controller`` property)
from `Target RAID configuration`_ are currently supported.
* The number of created Software RAID devices must be 1 or 2. If there is only
one Software RAID device, it has to be a RAID-1. If there are two, the first
one has to be a RAID-1, while the RAID level for the second one can be
0, 1, 1+0, 5, or 6. As the first RAID device will be the deployment device,
enforcing a RAID-1 reduces the risk of ending up with a non-booting node
in case of a disk failure.
* Building RAID will fail if the target disks are already partitioned. Wipe the
disks using e.g. the ``erase_devices_metadata`` clean step before building
RAID::
[{
"interface": "raid",
"step": "delete_configuration"
},
{
"interface": "deploy",
"step": "erase_devices_metadata"
},
{
"interface": "raid",
"step": "create_configuration"
}]
* The final instance image must have the ``mdadm`` utility installed
and needs to be able to detect software RAID devices at boot time
(which is usually done by having the RAID drivers embedded in the
image's initrd).
* Regular cleaning will not remove RAID configuration (similarly to hardware
RAID). To destroy RAID run the ``delete_configuration`` manual clean step.
* There is no support for partition images, only whole-disk images are
supported with Software RAID. See :doc:`/install/configure-glance-images`.
This includes flavors requesting dynamic creation of swap filesystems.
Swap should be pre-allocated inside of a disk image partition layout.
* Images utilizing LVM for their root filesystem are not supported. Patches
are welcome to explicitly support such functionality.
* If the root filesystem UUID is not known to Ironic via metadata, then the
disk image layout **MUST** have the first partition consist of the root
filesystem. Ironic is agnostic if the partition table is a DOS MBR or a
GPT partition.
Starting in Ironic 14.0.0 (Ussuri), the root filesystem UUID can be set
and passed through to Ironic through the Glance Image Service ``properties``
sub-field ``rootfs_uuid`` for the image to be deployed.
Starting in Ironic 16.1.0 (Wallaby), similar functionality is available
via the baremetal node ``instance_info`` field value ``image_rootfs_uuid``.
See :doc:`/install/standalone` for more details on standalone usage
including an example command.
* In UEFI mode, the Ironic Python Agent creates EFI system partitions (ESPs)
for the bootloader and the boot configuration (grub.cfg or grubenv) on all
holder devices. The content of these partitions is populated upon deployment
from the deployed user image. Depending on how the partitions are mounted,
the content of the partitions may get out of sync, e.g. when new kernels
are installed or the bootloader is updated, so measures to keep these
partitions in sync need to be taken. Note that starting with the Victoria
release, the Ironic Python Agent configures a RAID-1 mirror for the ESPs,
so no additional measures to ensure consistency of the ESPs should be
required any longer.
* In BIOS mode, the Ironic Python Agent installs the boot loader onto all
disks. While nothing is required for kernel or grub package updates,
re-installing the bootloader on one disk, e.g. during a disk replacement,
may require to re-install the bootloader on all disks. Otherwise, there
is a risk of an incompatibility of the grub components stored on the device
(i.e. stage1/boot.img in the MBR and stage1.5/core.img in the MBR gap) with
the ones stored in /boot (stage2). This incompatibility can render the node
unbootable if the wrong disk is selected for booting.
* Linux kernel device naming is not consistent across reboots for RAID devices
and may be numbered in a distribution specific pattern. Operators will need
to be mindful of this if a root device hint is utilized.
A particular example of this is that the first "md0" device on a Ubuntu
based ramdisk may start as device "md0", whereas on a Centos or Red Hat
Enterprise Linux based ramdisk may start at device "md127". After a reboot,
these device names may change entirely.
.. NOTE::
:ref:`Root device hints ` should not be explicitly
required to utilize software RAID. Candidate devices are chosen by
sorting the usable device list looking for the smallest usable
device which is then sorted by name. The secondary sort by name
improves the odds for matching the first initialized block device.
In the case of software RAID, they are always a little smaller than
the primary block devices due to metadata overhead, which helps make
them the most likely candidate devices.
Image requirements
------------------
Since Ironic needs to perform additional steps when deploying nodes
with software RAID, there are some requirements the deployed images need
to fulfill. Up to and including the Train release, the image needs to
have its root file system on the first partition. Starting with Ussuri,
the image can also have additional metadata to point Ironic to the
partition with the root file system: for this, the image needs to set
the ``rootfs_uuid`` property with the file system UUID of the root file
system. One way to extract this UUID from an existing image is to
download the image, mount it as a loopback device, and use ``blkid``:
.. code-block:: bash
$ sudo losetup -f
$ sudo losetup /dev/loop0 /tmp/myimage.raw
$ sudo kpartx -a /dev/loop0
$ blkid
The pre-Ussuri approach, i.e. to have the root file system on
the first partition, is kept as a fallback and hence allows software
RAID deployments where Ironic does not have access to any image metadata
(e.g. Ironic stand-alone).
Using RAID in nova flavor for scheduling
========================================
The operator can specify the `raid_level` capability in nova flavor for node to be selected
for scheduling::
openstack flavor set my-baremetal-flavor --property capabilities:raid_level="1+0"
Developer documentation
=======================
In-band RAID configuration is done using IPA ramdisk. IPA ramdisk has
support for pluggable hardware managers which can be used to extend the
functionality offered by IPA ramdisk using stevedore plugins. For more
information, see Ironic Python Agent
:ironic-python-agent-doc:`Hardware Manager `
documentation.
The hardware manager that supports RAID configuration should do the following:
#. Implement a method named ``create_configuration``. This method creates
the RAID configuration as given in ``target_raid_config``. After successful
RAID configuration, it returns the current RAID configuration information
which ironic uses to set ``node.raid_config``.
#. Implement a method named ``delete_configuration``. This method deletes
all the RAID disks on the bare metal.
#. Return these two clean steps in ``get_clean_steps`` method with priority
as 0. Example::
return [{'step': 'create_configuration',
'interface': 'raid',
'priority': 0},
{'step': 'delete_configuration',
'interface': 'raid',
'priority': 0}]