openstack
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python-dracclient
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python-dracclient/dracclient/resources/raid.py

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#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import collections
import logging
from dracclient import constants
from dracclient import exceptions
from dracclient.resources import uris
from dracclient import utils
LOG = logging.getLogger(__name__)
RAID_LEVELS = {
'non-raid': '1',
'0': '2',
'1': '4',
'5': '64',
'6': '128',
'1+0': '2048',
'5+0': '8192',
'6+0': '16384',
}
REVERSE_RAID_LEVELS = dict((v, k) for (k, v) in RAID_LEVELS.items())
RAID_CONTROLLER_IS_REALTIME = {
'1': True,
'0': False
}
DISK_RAID_STATUS = {
'0': 'unknown',
'1': 'ready',
'2': 'online',
'3': 'foreign',
'4': 'offline',
'5': 'blocked',
'6': 'failed',
'7': 'degraded',
'8': 'non-RAID',
'9': 'missing'
}
VIRTUAL_DISK_PENDING_OPERATIONS = {
'0': None,
'1': 'fast_init',
'2': 'pending_delete',
'3': 'pending_create'
}
PHYSICAL_DISK_MEDIA_TYPE = {
'0': 'hdd',
'1': 'ssd'
}
PHYSICAL_DISK_BUS_PROTOCOL = {
'0': 'unknown',
'1': 'scsi',
'2': 'pata',
'3': 'fibre',
'4': 'usb',
'5': 'sata',
'6': 'sas',
'7': 'pcie',
'8': 'nvme'
}
PhysicalDisk = collections.namedtuple(
'PhysicalDisk',
['id', 'description', 'controller', 'manufacturer', 'model', 'media_type',
'interface_type', 'size_mb', 'free_size_mb', 'serial_number',
'firmware_version', 'status', 'raid_status', 'sas_address',
'device_protocol'])
RAIDController = collections.namedtuple(
'RAIDController', ['id', 'description', 'manufacturer', 'model',
'primary_status', 'firmware_version', 'bus',
'supports_realtime'])
VirtualDisk = collections.namedtuple(
'VirtualDisk',
['id', 'name', 'description', 'controller', 'raid_level', 'size_mb',
'status', 'raid_status', 'span_depth', 'span_length',
'pending_operations', 'physical_disks'])
class RAIDManagement(object):
def __init__(self, client):
"""Creates RAIDManagement object
:param client: an instance of WSManClient
"""
self.client = client
def list_raid_controllers(self):
"""Returns the list of RAID controllers
:returns: a list of RAIDController objects
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
"""
doc = self.client.enumerate(uris.DCIM_ControllerView)
drac_raid_controllers = utils.find_xml(doc, 'DCIM_ControllerView',
uris.DCIM_ControllerView,
find_all=True)
return [self._parse_drac_raid_controller(controller)
for controller in drac_raid_controllers]
def _parse_drac_raid_controller(self, drac_controller):
return RAIDController(
id=self._get_raid_controller_attr(drac_controller, 'FQDD'),
description=self._get_raid_controller_attr(
drac_controller, 'DeviceDescription'),
manufacturer=self._get_raid_controller_attr(
drac_controller, 'DeviceCardManufacturer'),
model=self._get_raid_controller_attr(
drac_controller, 'ProductName'),
primary_status=constants.PRIMARY_STATUS[
self._get_raid_controller_attr(drac_controller,
'PrimaryStatus')],
firmware_version=self._get_raid_controller_attr(
drac_controller, 'ControllerFirmwareVersion'),
bus=self._get_raid_controller_attr(drac_controller, 'Bus'),
supports_realtime=RAID_CONTROLLER_IS_REALTIME[
self._get_raid_controller_attr(
drac_controller, 'RealtimeCapability')])
def _get_raid_controller_attr(self, drac_controller, attr_name):
return utils.get_wsman_resource_attr(
drac_controller, uris.DCIM_ControllerView, attr_name,
nullable=True)
def list_virtual_disks(self):
"""Returns the list of virtual disks
:returns: a list of VirtualDisk objects
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
"""
doc = self.client.enumerate(uris.DCIM_VirtualDiskView)
drac_virtual_disks = utils.find_xml(doc, 'DCIM_VirtualDiskView',
uris.DCIM_VirtualDiskView,
find_all=True)
return [self._parse_drac_virtual_disk(disk)
for disk in drac_virtual_disks]
def _parse_drac_virtual_disk(self, drac_disk):
fqdd = self._get_virtual_disk_attr(drac_disk, 'FQDD')
drac_raid_level = self._get_virtual_disk_attr(drac_disk, 'RAIDTypes')
size_b = self._get_virtual_disk_attr(drac_disk, 'SizeInBytes')
drac_status = self._get_virtual_disk_attr(drac_disk, 'PrimaryStatus')
drac_raid_status = self._get_virtual_disk_attr(drac_disk, 'RAIDStatus')
drac_pending_operations = self._get_virtual_disk_attr(
drac_disk, 'PendingOperations')
return VirtualDisk(
id=fqdd,
name=self._get_virtual_disk_attr(drac_disk, 'Name',
nullable=True),
description=self._get_virtual_disk_attr(drac_disk,
'DeviceDescription',
nullable=True),
controller=fqdd.split(':')[-1],
raid_level=REVERSE_RAID_LEVELS[drac_raid_level],
size_mb=int(size_b) // 2 ** 20,
status=constants.PRIMARY_STATUS[drac_status],
raid_status=DISK_RAID_STATUS[drac_raid_status],
span_depth=int(self._get_virtual_disk_attr(drac_disk,
'SpanDepth')),
span_length=int(self._get_virtual_disk_attr(drac_disk,
'SpanLength')),
pending_operations=(
VIRTUAL_DISK_PENDING_OPERATIONS[drac_pending_operations]),
physical_disks=self._get_virtual_disk_attrs(drac_disk,
'PhysicalDiskIDs'))
def _get_virtual_disk_attr(self, drac_disk, attr_name, nullable=False):
return utils.get_wsman_resource_attr(
drac_disk, uris.DCIM_VirtualDiskView, attr_name,
nullable=nullable)
def _get_virtual_disk_attrs(self, drac_disk, attr_name):
return utils.get_all_wsman_resource_attrs(
drac_disk, uris.DCIM_VirtualDiskView, attr_name, nullable=False)
def list_physical_disks(self):
"""Returns the list of physical disks
:returns: a list of PhysicalDisk objects
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
"""
doc = self.client.enumerate(uris.DCIM_PhysicalDiskView)
drac_physical_disks = utils.find_xml(doc, 'DCIM_PhysicalDiskView',
uris.DCIM_PhysicalDiskView,
find_all=True)
physical_disks = [self._parse_drac_physical_disk(disk)
for disk in drac_physical_disks]
drac_pcie_disks = utils.find_xml(doc, 'DCIM_PCIeSSDView',
uris.DCIM_PCIeSSDView,
find_all=True)
pcie_disks = [self._parse_drac_physical_disk(disk,
uris.DCIM_PCIeSSDView) for disk in drac_pcie_disks]
return physical_disks + pcie_disks
def _parse_drac_physical_disk(self,
drac_disk,
uri=uris.DCIM_PhysicalDiskView):
fqdd = self._get_physical_disk_attr(drac_disk, 'FQDD', uri)
size_b = self._get_physical_disk_attr(drac_disk, 'SizeInBytes', uri)
free_size_b = self._get_physical_disk_attr(drac_disk,
'FreeSizeInBytes', uri)
if free_size_b is not None:
free_size_mb = int(free_size_b) // 2 ** 20
else:
free_size_mb = None
drac_status = self._get_physical_disk_attr(drac_disk, 'PrimaryStatus',
uri)
drac_raid_status = self._get_physical_disk_attr(drac_disk,
'RaidStatus', uri)
if drac_raid_status is not None:
raid_status = DISK_RAID_STATUS[drac_raid_status]
else:
raid_status = None
drac_media_type = self._get_physical_disk_attr(drac_disk, 'MediaType',
uri)
drac_bus_protocol = self._get_physical_disk_attr(drac_disk,
'BusProtocol', uri)
return PhysicalDisk(
id=fqdd,
description=self._get_physical_disk_attr(drac_disk,
'DeviceDescription',
uri),
controller=fqdd.split(':')[-1],
manufacturer=self._get_physical_disk_attr(drac_disk,
'Manufacturer', uri),
model=self._get_physical_disk_attr(drac_disk, 'Model', uri),
media_type=PHYSICAL_DISK_MEDIA_TYPE[drac_media_type],
interface_type=PHYSICAL_DISK_BUS_PROTOCOL[drac_bus_protocol],
size_mb=int(size_b) // 2 ** 20,
free_size_mb=free_size_mb,
serial_number=self._get_physical_disk_attr(drac_disk,
'SerialNumber', uri),
firmware_version=self._get_physical_disk_attr(drac_disk,
'Revision', uri),
status=constants.PRIMARY_STATUS[drac_status],
raid_status=raid_status,
sas_address=self._get_physical_disk_attr(drac_disk, 'SASAddress',
uri, allow_missing=True),
device_protocol=self._get_physical_disk_attr(drac_disk,
'DeviceProtocol',
uri,
allow_missing=True))
def _get_physical_disk_attr(self, drac_disk, attr_name, uri,
allow_missing=False):
return utils.get_wsman_resource_attr(
drac_disk, uri, attr_name, nullable=True,
allow_missing=allow_missing)
def convert_physical_disks(self, physical_disks, raid_enable):
"""Converts a list of physical disks into or out of RAID mode.
Disks can be enabled or disabled for RAID mode.
:param physical_disks: list of FQDD ID strings of the physical disks
to update
:param raid_enable: boolean flag, set to True if the disk is to
become part of the RAID. The same flag is applied
to all listed disks
:returns: a dictionary containing:
- The is_commit_required key with the value always set to
True indicating that a config job must be created to
complete disk conversion.
- The is_reboot_required key with a RebootRequired enumerated
value indicating whether the server must be rebooted to
complete disk conversion.
"""
invocation = 'ConvertToRAID' if raid_enable else 'ConvertToNonRAID'
selectors = {'SystemCreationClassName': 'DCIM_ComputerSystem',
'CreationClassName': 'DCIM_RAIDService',
'SystemName': 'DCIM:ComputerSystem',
'Name': 'DCIM:RAIDService'}
properties = {'PDArray': physical_disks}
doc = self.client.invoke(uris.DCIM_RAIDService, invocation,
selectors, properties,
expected_return_value=utils.RET_SUCCESS)
return utils.build_return_dict(doc, uris.DCIM_RAIDService,
is_commit_required_value=True)
def create_virtual_disk(self, raid_controller, physical_disks, raid_level,
size_mb, disk_name=None, span_length=None,
span_depth=None):
"""Creates a virtual disk
The created virtual disk will be in pending state. For the changes to
be applied, a config job must be created and the node must be rebooted.
:param raid_controller: id of the RAID controller
:param physical_disks: ids of the physical disks
:param raid_level: RAID level of the virtual disk
:param size_mb: size of the virtual disk in megabytes
:param disk_name: name of the virtual disk (optional)
:param span_length: number of disks per span (optional)
:param span_depth: number of spans in virtual disk (optional)
:returns: a dictionary containing:
- The is_commit_required key with the value always set to
True indicating that a config job must be created to
complete virtual disk creation.
- The is_reboot_required key with a RebootRequired enumerated
value indicating whether the server must be rebooted to
complete virtual disk creation.
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
:raises: DRACUnexpectedReturnValue on return value mismatch
:raises: InvalidParameterValue on invalid input parameter
"""
virtual_disk_prop_names = []
virtual_disk_prop_values = []
error_msgs = []
# RAID controller validation
if not raid_controller:
error_msgs.append("'raid_controller' is not supplied")
# physical disks validation
if not physical_disks:
error_msgs.append("'physical_disks' is not supplied")
# size validation
utils.validate_integer_value(size_mb, 'size_mb', error_msgs)
virtual_disk_prop_names.append('Size')
virtual_disk_prop_values.append(str(size_mb))
# RAID level validation
virtual_disk_prop_names.append('RAIDLevel')
try:
virtual_disk_prop_values.append(RAID_LEVELS[str(raid_level)])
except KeyError:
error_msgs.append("'raid_level' is invalid")
if disk_name is not None:
virtual_disk_prop_names.append('VirtualDiskName')
virtual_disk_prop_values.append(disk_name)
if span_depth is not None:
utils.validate_integer_value(span_depth, 'span_depth', error_msgs)
virtual_disk_prop_names.append('SpanDepth')
virtual_disk_prop_values.append(str(span_depth))
if span_length is not None:
utils.validate_integer_value(span_length, 'span_length',
error_msgs)
virtual_disk_prop_names.append('SpanLength')
virtual_disk_prop_values.append(str(span_length))
if error_msgs:
msg = ('The following errors were encountered while parsing '
'the provided parameters: %r') % ','.join(error_msgs)
raise exceptions.InvalidParameterValue(reason=msg)
selectors = {'SystemCreationClassName': 'DCIM_ComputerSystem',
'CreationClassName': 'DCIM_RAIDService',
'SystemName': 'DCIM:ComputerSystem',
'Name': 'DCIM:RAIDService'}
properties = {'Target': raid_controller,
'PDArray': physical_disks,
'VDPropNameArray': virtual_disk_prop_names,
'VDPropValueArray': virtual_disk_prop_values}
doc = self.client.invoke(uris.DCIM_RAIDService, 'CreateVirtualDisk',
selectors, properties,
expected_return_value=utils.RET_SUCCESS)
return utils.build_return_dict(doc, uris.DCIM_RAIDService,
is_commit_required_value=True)
def delete_virtual_disk(self, virtual_disk):
"""Deletes a virtual disk
The deleted virtual disk will be in pending state. For the changes to
be applied, a config job must be created and the node must be rebooted.
:param virtual_disk: id of the virtual disk
:returns: a dictionary containing:
- The is_commit_required key with the value always set to
True indicating that a config job must be created to
complete virtual disk deletion.
- The is_reboot_required key with a RebootRequired enumerated
value indicating whether the server must be rebooted to
complete virtual disk deletion.
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
:raises: DRACUnexpectedReturnValue on return value mismatch
"""
selectors = {'SystemCreationClassName': 'DCIM_ComputerSystem',
'CreationClassName': 'DCIM_RAIDService',
'SystemName': 'DCIM:ComputerSystem',
'Name': 'DCIM:RAIDService'}
properties = {'Target': virtual_disk}
doc = self.client.invoke(uris.DCIM_RAIDService, 'DeleteVirtualDisk',
selectors, properties,
expected_return_value=utils.RET_SUCCESS)
return utils.build_return_dict(doc, uris.DCIM_RAIDService,
is_commit_required_value=True)
def is_jbod_capable(self, raid_controller_fqdd):
"""Find out if raid controller supports jbod
:param raid_controller_fqdd: The raid controller's fqdd
being being checked to see if it is jbod
capable.
:raises: DRACRequestFailed if unable to find any disks in the Ready
or non-RAID states
:raises: DRACOperationFailed on error reported back by the DRAC
and the exception message does not contain
NOT_SUPPORTED_MSG constant
"""
is_jbod_capable = False
# Grab all the disks associated with the RAID controller
all_physical_disks = self.list_physical_disks()
physical_disks = [physical_disk for physical_disk in all_physical_disks
if physical_disk.controller == raid_controller_fqdd]
# If there is a disk in the Non-RAID state, then the controller is JBOD
# capable
ready_disk = None
for physical_disk in physical_disks:
if physical_disk.raid_status == 'non-RAID':
is_jbod_capable = True
break
elif not ready_disk and physical_disk.raid_status == 'ready':
ready_disk = physical_disk
if not is_jbod_capable:
if not ready_disk:
msg = "Unable to find a disk in the Ready state"
raise exceptions.DRACRequestFailed(msg)
# Try moving a disk in the Ready state to JBOD mode
try:
self.convert_physical_disks([ready_disk.id], False)
is_jbod_capable = True
# Flip the disk back to the Ready state. This results in the
# pending value being reset to nothing, so it effectively
# undoes the last command and makes the check non-destructive
self.convert_physical_disks([ready_disk.id], True)
except exceptions.DRACOperationFailed as ex:
# Fix for python 3, Exception.message no longer
# a valid attribute, str(ex) works for both 2.7
# and 3.x
if constants.NOT_SUPPORTED_MSG in str(ex):
pass
else:
raise
return is_jbod_capable
def is_raid_controller(self, raid_controller_fqdd):
"""Find out if object's fqdd is for a raid controller or not
:param raid_controller_fqdd: The object's fqdd we are testing to see
if it is a raid controller or not.
:returns: boolean, True if the device is a RAID controller,
False if not.
"""
return raid_controller_fqdd.startswith('RAID.')
def is_boss_controller(self, raid_controller_fqdd, raid_controllers=None):
"""Find out if a RAID controller a BOSS card or not
:param raid_controller_fqdd: The object's fqdd we are testing to see
if it is a BOSS card or not.
:param raid_controllers: A list of RAIDController to scan for presence
of BOSS card, if None the drac will be queried
for the list of controllers which will then be
scanned.
:returns: boolean, True if the device is a BOSS card, False if not.
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
"""
if raid_controllers is None:
raid_controllers = self.list_raid_controllers()
boss_raid_controllers = [
c.id for c in raid_controllers if c.model.startswith('BOSS')]
return raid_controller_fqdd in boss_raid_controllers
def _check_disks_status(self, mode, physical_disks,
controllers_to_physical_disk_ids):
"""Find disks that failed, need to be configured, or need no change.
Inspect all the controllers drives and:
- See if there are any disks in a failed or unknown state and raise
a ValueException where appropriate.
- If a controller has disks that still need to be configured add
them to the controllers_to_physical_disk_ids dict for the
appropriate controller.
- If a disk is already in the appropriate state, do nothing, this
function should behave in an idempotent manner.
:param mode: constants.RaidStatus enumeration used to
determine what raid status to check for.
:param physical_disks: all physical disks
:param controllers_to_physical_disk_ids: Dictionary of controllers
we are inspecting and creating jobs for when needed. If
needed modify this dict so that only drives that need to
be changed to RAID or JBOD are in the list of disk keys
for corresponding controller.
:raises: ValueError: Exception message will list failed drives and
drives whose state cannot be changed at this time, drive
state is not "ready" or "non-RAID".
"""
p_disk_id_to_status = {}
for physical_disk in physical_disks:
p_disk_id_to_status[physical_disk.id] = physical_disk.raid_status
failed_disks = []
bad_disks = []
jbod = constants.RaidStatus.jbod
raid = constants.RaidStatus.raid
for controller, physical_disk_ids \
in controllers_to_physical_disk_ids.items():
final_physical_disk_ids = []
for physical_disk_id in physical_disk_ids:
raid_status = p_disk_id_to_status[physical_disk_id]
LOG.debug("RAID status for disk id: %s is: %s",
physical_disk_id, raid_status)
if ((mode == jbod and raid_status == "non-RAID") or
(mode == raid and raid_status == "ready")):
# This means the disk is already in the desired state,
# so skip it
continue
elif ((mode == jbod and raid_status == "ready") or
(mode == raid and raid_status == "non-RAID")):
# This disk is moving from a state we expect to RAID or
# JBOD, so keep it
final_physical_disk_ids.append(physical_disk_id)
elif raid_status == "failed":
failed_disks.append(physical_disk_id)
else:
# This disk is in one of many states that we don't know
# what to do with, so pitch it
bad_disks.append("{} ({})".format(physical_disk_id,
raid_status))
controllers_to_physical_disk_ids[controller] = (
final_physical_disk_ids)
if failed_disks or bad_disks:
error_msg = ""
if failed_disks:
error_msg += ("The following drives have failed: "
"{failed_disks}. Manually check the status"
" of all drives and replace as necessary, then"
" try again.").format(
failed_disks=" ".join(failed_disks))
if bad_disks:
if failed_disks:
error_msg += "\n"
error_msg += ("Unable to change the state of the following "
"drives because their status is not ready "
"or non-RAID: {}. Bring up the RAID "
"controller GUI on this node and change the "
"drives' status to ready or non-RAID.").format(
", ".join(bad_disks))
raise ValueError(error_msg)
def change_physical_disk_state(self, mode,
controllers_to_physical_disk_ids=None):
"""Convert disks RAID status and return a list of controller IDs
Builds a list of controller ids that have had disks converted to the
specified RAID status by:
- Examining all the disks in the system and filtering out any that are
not attached to a RAID/BOSS controller.
- Inspect the controllers' disks to see if there are any that need to
be converted, if so convert them. If a disk is already in the desired
status the disk is ignored. Also check for failed or unknown disk
statuses and raise an exception where appropriate.
- Return a list of controller IDs for controllers whom have had any of
their disks converted, and whether a reboot is required.
The caller typically should then create a config job for the list of
controllers returned to finalize the RAID configuration.
:param mode: constants.RaidStatus enumeration used to determine what
raid status to check for.
:param controllers_to_physical_disk_ids: Dictionary of controllers and
corresponding disk ids we are inspecting and creating jobs for
when needed.
:returns: a dict containing the following key/values:
- is_reboot_required, a boolean stating whether a reboot is
required or not.
- commit_required_ids, a list of controller ids that will
need to commit their pending RAID changes via a config job.
:raises: DRACOperationFailed on error reported back by the DRAC and the
exception message does not contain NOT_SUPPORTED_MSG constant.
:raises: Exception on unknown error.
"""
physical_disks = self.list_physical_disks()
raid = constants.RaidStatus.raid
if not controllers_to_physical_disk_ids:
controllers_to_physical_disk_ids = collections.defaultdict(list)
for physical_d in physical_disks:
# Weed out disks that are not attached to a RAID controller
if (self.is_raid_controller(physical_d.controller)
or self.is_boss_controller(physical_d.controller)):
physical_disk_ids = controllers_to_physical_disk_ids[
physical_d.controller]
physical_disk_ids.append(physical_d.id)
'''Modify controllers_to_physical_disk_ids dict by inspecting desired
status vs current status of each controller's disks.
Raise exception if there are any failed drives or
drives not in status 'ready' or 'non-RAID'
'''
self._check_disks_status(mode, physical_disks,
controllers_to_physical_disk_ids)
is_reboot_required = False
controllers = []
for controller, physical_disk_ids \
in controllers_to_physical_disk_ids.items():
if physical_disk_ids:
LOG.debug("Converting the following disks to {} on RAID "
"controller {}: {}".format(
mode, controller, str(physical_disk_ids)))
try:
conversion_results = \
self.convert_physical_disks(physical_disk_ids,
mode == raid)
except exceptions.DRACOperationFailed as ex:
if constants.NOT_SUPPORTED_MSG in str(ex):
LOG.debug("Controller {} does not support "
"JBOD mode".format(controller))
pass
else:
raise
else:
if conversion_results:
reboot_true = constants.RebootRequired.true
reboot_optional = constants.RebootRequired.optional
_is_reboot_required = \
conversion_results["is_reboot_required"]
is_reboot_required = is_reboot_required \
or (_is_reboot_required
in [reboot_true, reboot_optional])
if conversion_results["is_commit_required"]:
controllers.append(controller)
return {'is_reboot_required': is_reboot_required,
'commit_required_ids': controllers}
def is_realtime_supported(self, raid_controller_fqdd):
"""Find if controller supports realtime or not
:param raid_controller_fqdd: ID of RAID controller
:returns: True or False
"""
drac_raid_controllers = self.list_raid_controllers()
realtime_controller = [cnt.id for cnt in drac_raid_controllers
if cnt.supports_realtime]
if raid_controller_fqdd in realtime_controller:
return True
return False
def reset_raid_config(self, raid_controller):
"""Delete all virtual disk and unassign all hotspares
The job to reset the RAID controller config will be in pending state.
For the changes to be applied, a config job must be created.
:param raid_controller: id of the RAID controller
:returns: a dictionary containing:
- The is_commit_required key with the value always set to
True indicating that a config job must be created to
reset configuration.
- The is_reboot_required key with a RebootRequired enumerated
value indicating whether the server must be rebooted to
reset configuration.
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
:raises: DRACUnexpectedReturnValue on return value mismatch
"""
selectors = {'SystemCreationClassName': 'DCIM_ComputerSystem',
'CreationClassName': 'DCIM_RAIDService',
'SystemName': 'DCIM:ComputerSystem',
'Name': 'DCIM:RAIDService'}
properties = {'Target': raid_controller}
doc = self.client.invoke(uris.DCIM_RAIDService, 'ResetConfig',
selectors, properties,
expected_return_value=utils.RET_SUCCESS)
return utils.build_return_dict(doc, uris.DCIM_RAIDService,
is_commit_required_value=True)
def clear_foreign_config(self, raid_controller):
"""Free up foreign drives
The job to clear foreign config will be in pending state.
For the changes to be applied, a config job must be created.
:param raid_controller: id of the RAID controller
:returns: a dictionary containing:
- The is_commit_required key with the value always set to
True indicating that a config job must be created to
clear foreign configuration.
- The is_reboot_required key with a RebootRequired enumerated
value indicating whether the server must be rebooted to
clear foreign configuration.
:raises: WSManRequestFailure on request failures
:raises: WSManInvalidResponse when receiving invalid response
:raises: DRACOperationFailed on error reported back by the DRAC
interface
:raises: DRACUnexpectedReturnValue on return value mismatch
"""
selectors = {'SystemCreationClassName': 'DCIM_ComputerSystem',
'CreationClassName': 'DCIM_RAIDService',
'SystemName': 'DCIM:ComputerSystem',
'Name': 'DCIM:RAIDService'}
properties = {'Target': raid_controller}
doc = self.client.invoke(uris.DCIM_RAIDService, 'ClearForeignConfig',
selectors, properties,
expected_return_value=utils.RET_SUCCESS)
return utils.build_return_dict(doc, uris.DCIM_RAIDService,
is_commit_required_value=True)
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