# coding=utf-8
# Copyright 2013 Hewlett-Packard Development Company, L.P.
# Copyright 2013 International Business Machines Corporation
# All Rights Reserved.
#
# 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.
"""Conduct all activity related to bare-metal deployments.
A single instance of :py:class:`ironic.conductor.manager.ConductorManager` is
created within the *ironic-conductor* process, and is responsible for
performing all actions on bare metal resources (Chassis, Nodes, and Ports).
Commands are received via RPCs. The conductor service also performs periodic
tasks, eg. to monitor the status of active deployments.
Drivers are loaded via entrypoints by the
:py:class:`ironic.common.driver_factory` class. Each driver is instantiated
only once, when the ConductorManager service starts. In this way, a single
ConductorManager may use multiple drivers, and manage heterogeneous hardware.
When multiple :py:class:`ConductorManager` are run on different hosts, they are
all active and cooperatively manage all nodes in the deployment. Nodes are
locked by each conductor when performing actions which change the state of that
node; these locks are represented by the
:py:class:`ironic.conductor.task_manager.TaskManager` class.
A `tooz.hashring.HashRing
<https://git.openstack.org/cgit/openstack/tooz/tree/tooz/hashring.py>`_
is used to distribute nodes across the set of active conductors which support
each node's driver. Rebalancing this ring can trigger various actions by each
conductor, such as building or tearing down the TFTP environment for a node,
notifying Neutron of a change, etc.
"""
import collections
import datetime
from six.moves import queue
import tempfile
import eventlet
from futurist import periodics
from futurist import waiters
from ironic_lib import metrics_utils
from oslo_log import log
import oslo_messaging as messaging
from oslo_utils import excutils
from oslo_utils import uuidutils
from ironic.common import driver_factory
from ironic.common import exception
from ironic.common.glance_service import service_utils as glance_utils
from ironic.common.i18n import _, _LE, _LI, _LW
from ironic.common import images
from ironic.common import states
from ironic.common import swift
from ironic.conductor import base_manager
from ironic.conductor import notification_utils as notify_utils
from ironic.conductor import task_manager
from ironic.conductor import utils
from ironic.conf import CONF
from ironic.drivers import base as drivers_base
from ironic.drivers import hardware_type
from ironic import objects
from ironic.objects import base as objects_base
from ironic.objects import fields
MANAGER_TOPIC = 'ironic.conductor_manager'
LOG = log.getLogger(__name__)
METRICS = metrics_utils.get_metrics_logger(__name__)
SYNC_EXCLUDED_STATES = (states.DEPLOYWAIT, states.CLEANWAIT, states.ENROLL)
[docs]class ConductorManager(base_manager.BaseConductorManager):
"""Ironic Conductor manager main class."""
# NOTE(rloo): This must be in sync with rpcapi.ConductorAPI's.
RPC_API_VERSION = '1.40'
target = messaging.Target(version=RPC_API_VERSION)
def __init__(self, host, topic):
super(ConductorManager, self).__init__(host, topic)
self.power_state_sync_count = collections.defaultdict(int)
@METRICS.timer('ConductorManager.create_node')
# No need to add these since they are subclasses of InvalidParameterValue:
# InterfaceNotFoundInEntrypoint
# IncompatibleInterface,
# NoValidDefaultForInterface
# MustBeNone
@messaging.expected_exceptions(exception.InvalidParameterValue,
exception.DriverNotFound)
def create_node(self, context, node_obj):
"""Create a node in database.
:param context: an admin context
:param node_obj: a created (but not saved to the database) node object.
:returns: created node object.
:raises: InterfaceNotFoundInEntrypoint if validation fails for any
dynamic interfaces (e.g. network_interface).
:raises: IncompatibleInterface if one or more of the requested
interfaces are not compatible with the hardware type.
:raises: NoValidDefaultForInterface if no default can be calculated
for some interfaces, and explicit values must be provided.
:raises: InvalidParameterValue if some fields fail validation.
:raises: MustBeNone if one or more of the node's interface
fields were specified when they should not be.
:raises: DriverNotFound if the driver or hardware type is not found.
"""
LOG.debug("RPC create_node called for node %s.", node_obj.uuid)
driver_factory.check_and_update_node_interfaces(node_obj)
node_obj.create()
return node_obj
@METRICS.timer('ConductorManager.update_node')
# No need to add these since they are subclasses of InvalidParameterValue:
# InterfaceNotFoundInEntrypoint
# IncompatibleInterface,
# NoValidDefaultForInterface
# MustBeNone
@messaging.expected_exceptions(exception.InvalidParameterValue,
exception.NodeLocked,
exception.InvalidState,
exception.DriverNotFound)
def update_node(self, context, node_obj):
"""Update a node with the supplied data.
This method is the main "hub" for PUT and PATCH requests in the API.
It ensures that the requested change is safe to perform,
validates the parameters with the node's driver, if necessary.
:param context: an admin context
:param node_obj: a changed (but not saved) node object.
:raises: NoValidDefaultForInterface if no default can be calculated
for some interfaces, and explicit values must be provided.
:raises: MustBeNone if one or more of the node's interface
fields were specified when they should not be.
"""
node_id = node_obj.uuid
LOG.debug("RPC update_node called for node %s.", node_id)
# NOTE(jroll) clear maintenance_reason if node.update sets
# maintenance to False for backwards compatibility, for tools
# not using the maintenance endpoint.
delta = node_obj.obj_what_changed()
if 'maintenance' in delta and not node_obj.maintenance:
node_obj.maintenance_reason = None
# TODO(dtantsur): reconsider allowing changing some (but not all)
# interfaces for active nodes in the future.
allowed_update_states = [states.ENROLL, states.INSPECTING,
states.MANAGEABLE]
for iface in drivers_base.ALL_INTERFACES:
interface_field = '%s_interface' % iface
if interface_field not in delta:
continue
if not (node_obj.provision_state in allowed_update_states or
node_obj.maintenance):
action = _("Node %(node)s can not have %(iface)s "
"updated unless it is in one of allowed "
"(%(allowed)s) states or in maintenance mode.")
raise exception.InvalidState(
action % {'node': node_obj.uuid,
'allowed': ', '.join(allowed_update_states),
'iface': interface_field})
driver_factory.check_and_update_node_interfaces(node_obj)
driver_name = node_obj.driver if 'driver' in delta else None
with task_manager.acquire(context, node_id, shared=False,
driver_name=driver_name,
purpose='node update') as task:
# Prevent instance_uuid overwriting
if ('instance_uuid' in delta and node_obj.instance_uuid and
task.node.instance_uuid):
raise exception.NodeAssociated(
node=node_id, instance=task.node.instance_uuid)
node_obj.save()
return node_obj
@METRICS.timer('ConductorManager.change_node_power_state')
@messaging.expected_exceptions(exception.InvalidParameterValue,
exception.NoFreeConductorWorker,
exception.NodeLocked)
def change_node_power_state(self, context, node_id, new_state,
timeout=None):
"""RPC method to encapsulate changes to a node's state.
Perform actions such as power on, power off. The validation is
performed synchronously, and if successful, the power action is
updated in the background (asynchronously). Once the power action
is finished and successful, it updates the power_state for the
node with the new power state.
:param context: an admin context.
:param node_id: the id or uuid of a node.
:param new_state: the desired power state of the node.
:param timeout: timeout (in seconds) positive integer (> 0) for any
power state. ``None`` indicates to use default timeout.
:raises: NoFreeConductorWorker when there is no free worker to start
async task.
:raises: InvalidParameterValue
:raises: MissingParameterValue
"""
LOG.debug("RPC change_node_power_state called for node %(node)s. "
"The desired new state is %(state)s.",
{'node': node_id, 'state': new_state})
with task_manager.acquire(context, node_id, shared=False,
purpose='changing node power state') as task:
task.driver.power.validate(task)
if (new_state not in
task.driver.power.get_supported_power_states(task)):
# FIXME(naohirot):
# After driver composition, we should print power interface
# name here instead of driver.
raise exception.InvalidParameterValue(
_('The driver %(driver)s does not support the power state,'
' %(state)s') %
{'driver': task.node.driver, 'state': new_state})
if new_state in (states.SOFT_REBOOT, states.SOFT_POWER_OFF):
power_timeout = (timeout or
CONF.conductor.soft_power_off_timeout)
else:
power_timeout = timeout
# Set the target_power_state and clear any last_error, since we're
# starting a new operation. This will expose to other processes
# and clients that work is in progress.
if new_state in (states.POWER_ON, states.REBOOT,
states.SOFT_REBOOT):
task.node.target_power_state = states.POWER_ON
else:
task.node.target_power_state = states.POWER_OFF
task.node.last_error = None
task.node.save()
task.set_spawn_error_hook(utils.power_state_error_handler,
task.node, task.node.power_state)
task.spawn_after(self._spawn_worker, utils.node_power_action,
task, new_state, timeout=power_timeout)
@METRICS.timer('ConductorManager.vendor_passthru')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.NodeLocked,
exception.InvalidParameterValue,
exception.UnsupportedDriverExtension)
def vendor_passthru(self, context, node_id, driver_method,
http_method, info):
"""RPC method to encapsulate vendor action.
Synchronously validate driver specific info, and if successful invoke
the vendor method. If the method mode is 'async' the conductor will
start background worker to perform vendor action.
:param context: an admin context.
:param node_id: the id or uuid of a node.
:param driver_method: the name of the vendor method.
:param http_method: the HTTP method used for the request.
:param info: vendor method args.
:raises: InvalidParameterValue if supplied info is not valid.
:raises: MissingParameterValue if missing supplied info
:raises: UnsupportedDriverExtension if current driver does not have
vendor interface or method is unsupported.
:raises: NoFreeConductorWorker when there is no free worker to start
async task.
:raises: NodeLocked if the vendor passthru method requires an exclusive
lock but the node is locked by another conductor
:returns: A dictionary containing:
:return: The response of the invoked vendor method
:async: Boolean value. Whether the method was invoked
asynchronously (True) or synchronously (False). When invoked
asynchronously the response will be always None.
:attach: Boolean value. Whether to attach the response of
the invoked vendor method to the HTTP response object (True)
or return it in the response body (False).
"""
LOG.debug("RPC vendor_passthru called for node %s.", node_id)
# NOTE(mariojv): Not all vendor passthru methods require an exclusive
# lock on a node, so we acquire a shared lock initially. If a method
# requires an exclusive lock, we'll acquire one after checking
# vendor_opts before starting validation.
with task_manager.acquire(context, node_id, shared=True,
purpose='calling vendor passthru') as task:
if not getattr(task.driver, 'vendor', None):
raise exception.UnsupportedDriverExtension(
driver=task.node.driver,
extension='vendor interface')
vendor_iface = task.driver.vendor
try:
vendor_opts = vendor_iface.vendor_routes[driver_method]
vendor_func = vendor_opts['func']
except KeyError:
raise exception.InvalidParameterValue(
_('No handler for method %s') % driver_method)
http_method = http_method.upper()
if http_method not in vendor_opts['http_methods']:
raise exception.InvalidParameterValue(
_('The method %(method)s does not support HTTP %(http)s') %
{'method': driver_method, 'http': http_method})
# Change shared lock to exclusive if a vendor method requires
# it. Vendor methods default to requiring an exclusive lock.
if vendor_opts['require_exclusive_lock']:
task.upgrade_lock()
vendor_iface.validate(task, method=driver_method,
http_method=http_method, **info)
# Inform the vendor method which HTTP method it was invoked with
info['http_method'] = http_method
# Invoke the vendor method accordingly with the mode
is_async = vendor_opts['async']
ret = None
if is_async:
task.spawn_after(self._spawn_worker, vendor_func, task, **info)
else:
ret = vendor_func(task, **info)
return {'return': ret,
'async': is_async,
'attach': vendor_opts['attach']}
@METRICS.timer('ConductorManager.driver_vendor_passthru')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.InvalidParameterValue,
exception.UnsupportedDriverExtension,
exception.DriverNotFound,
exception.NoValidDefaultForInterface,
exception.InterfaceNotFoundInEntrypoint)
def driver_vendor_passthru(self, context, driver_name, driver_method,
http_method, info):
"""Handle top-level vendor actions.
RPC method which handles driver-level vendor passthru calls. These
calls don't require a node UUID and are executed on a random
conductor with the specified driver. If the method mode is
async the conductor will start background worker to perform
vendor action.
For dynamic drivers, the calculated default vendor interface is used.
:param context: an admin context.
:param driver_name: name of the driver or hardware type on which to
call the method.
:param driver_method: name of the vendor method, for use by the driver.
:param http_method: the HTTP method used for the request.
:param info: user-supplied data to pass through to the driver.
:raises: MissingParameterValue if missing supplied info
:raises: InvalidParameterValue if supplied info is not valid.
:raises: UnsupportedDriverExtension if current driver does not have
vendor interface, if the vendor interface does not implement
driver-level vendor passthru or if the passthru method is
unsupported.
:raises: DriverNotFound if the supplied driver is not loaded.
:raises: NoFreeConductorWorker when there is no free worker to start
async task.
:raises: NoValidDefaultForInterface if no default interface
implementation can be found for this driver's vendor
interface.
:raises: InterfaceNotFoundInEntrypoint if the default interface for a
hardware type is invalid.
:returns: A dictionary containing:
:return: The response of the invoked vendor method
:async: Boolean value. Whether the method was invoked
asynchronously (True) or synchronously (False). When invoked
asynchronously the response will be always None.
:attach: Boolean value. Whether to attach the response of
the invoked vendor method to the HTTP response object (True)
or return it in the response body (False).
"""
# Any locking in a top-level vendor action will need to be done by the
# implementation, as there is little we could reasonably lock on here.
LOG.debug("RPC driver_vendor_passthru for driver %s.", driver_name)
driver = driver_factory.get_driver_or_hardware_type(driver_name)
vendor = None
if isinstance(driver, hardware_type.AbstractHardwareType):
vendor_name = driver_factory.default_interface(
driver, 'vendor', driver_name=driver_name)
vendor = driver_factory.get_interface(driver, 'vendor',
vendor_name)
else:
vendor = getattr(driver, 'vendor', None)
if not vendor:
raise exception.UnsupportedDriverExtension(
driver=driver_name,
extension='vendor interface')
try:
vendor_opts = vendor.driver_routes[driver_method]
vendor_func = vendor_opts['func']
except KeyError:
raise exception.InvalidParameterValue(
_('No handler for method %s') % driver_method)
http_method = http_method.upper()
if http_method not in vendor_opts['http_methods']:
raise exception.InvalidParameterValue(
_('The method %(method)s does not support HTTP %(http)s') %
{'method': driver_method, 'http': http_method})
# Inform the vendor method which HTTP method it was invoked with
info['http_method'] = http_method
# Invoke the vendor method accordingly with the mode
is_async = vendor_opts['async']
ret = None
vendor.driver_validate(method=driver_method, **info)
if is_async:
self._spawn_worker(vendor_func, context, **info)
else:
ret = vendor_func(context, **info)
return {'return': ret,
'async': is_async,
'attach': vendor_opts['attach']}
@METRICS.timer('ConductorManager.get_node_vendor_passthru_methods')
@messaging.expected_exceptions(exception.UnsupportedDriverExtension)
def get_node_vendor_passthru_methods(self, context, node_id):
"""Retrieve information about vendor methods of the given node.
:param context: an admin context.
:param node_id: the id or uuid of a node.
:returns: dictionary of <method name>:<method metadata> entries.
"""
LOG.debug("RPC get_node_vendor_passthru_methods called for node %s",
node_id)
lock_purpose = 'listing vendor passthru methods'
with task_manager.acquire(context, node_id, shared=True,
purpose=lock_purpose) as task:
if not getattr(task.driver, 'vendor', None):
raise exception.UnsupportedDriverExtension(
driver=task.node.driver,
extension='vendor interface')
return get_vendor_passthru_metadata(
task.driver.vendor.vendor_routes)
@METRICS.timer('ConductorManager.get_driver_vendor_passthru_methods')
@messaging.expected_exceptions(exception.UnsupportedDriverExtension,
exception.DriverNotFound,
exception.NoValidDefaultForInterface,
exception.InterfaceNotFoundInEntrypoint)
def get_driver_vendor_passthru_methods(self, context, driver_name):
"""Retrieve information about vendor methods of the given driver.
For dynamic drivers, the default vendor interface is used.
:param context: an admin context.
:param driver_name: name of the driver or hardware_type
:raises: UnsupportedDriverExtension if current driver does not have
vendor interface.
:raises: DriverNotFound if the supplied driver is not loaded.
:raises: NoValidDefaultForInterface if no default interface
implementation can be found for this driver's vendor
interface.
:raises: InterfaceNotFoundInEntrypoint if the default interface for a
hardware type is invalid.
:returns: dictionary of <method name>:<method metadata> entries.
"""
# Any locking in a top-level vendor action will need to be done by the
# implementation, as there is little we could reasonably lock on here.
LOG.debug("RPC get_driver_vendor_passthru_methods for driver %s",
driver_name)
driver = driver_factory.get_driver_or_hardware_type(driver_name)
vendor = None
if isinstance(driver, hardware_type.AbstractHardwareType):
vendor_name = driver_factory.default_interface(
driver, 'vendor', driver_name=driver_name)
vendor = driver_factory.get_interface(driver, 'vendor',
vendor_name)
else:
vendor = getattr(driver, 'vendor', None)
if not vendor:
raise exception.UnsupportedDriverExtension(
driver=driver_name,
extension='vendor interface')
return get_vendor_passthru_metadata(vendor.driver_routes)
@METRICS.timer('ConductorManager.do_node_deploy')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.NodeLocked,
exception.NodeInMaintenance,
exception.InstanceDeployFailure,
exception.InvalidStateRequested)
def do_node_deploy(self, context, node_id, rebuild=False,
configdrive=None):
"""RPC method to initiate deployment to a node.
Initiate the deployment of a node. Validations are done
synchronously and the actual deploy work is performed in
background (asynchronously).
:param context: an admin context.
:param node_id: the id or uuid of a node.
:param rebuild: True if this is a rebuild request. A rebuild will
recreate the instance on the same node, overwriting
all disk. The ephemeral partition, if it exists, can
optionally be preserved.
:param configdrive: Optional. A gzipped and base64 encoded configdrive.
:raises: InstanceDeployFailure
:raises: NodeInMaintenance if the node is in maintenance mode.
:raises: NoFreeConductorWorker when there is no free worker to start
async task.
:raises: InvalidStateRequested when the requested state is not a valid
target from the current state.
"""
LOG.debug("RPC do_node_deploy called for node %s.", node_id)
# NOTE(comstud): If the _sync_power_states() periodic task happens
# to have locked this node, we'll fail to acquire the lock. The
# client should perhaps retry in this case unless we decide we
# want to add retries or extra synchronization here.
with task_manager.acquire(context, node_id, shared=False,
purpose='node deployment') as task:
node = task.node
if node.maintenance:
raise exception.NodeInMaintenance(op=_('provisioning'),
node=node.uuid)
if rebuild:
event = 'rebuild'
# Note(gilliard) Clear these to force the driver to
# check whether they have been changed in glance
# NOTE(vdrok): If image_source is not from Glance we should
# not clear kernel and ramdisk as they're input manually
if glance_utils.is_glance_image(
node.instance_info.get('image_source')):
instance_info = node.instance_info
instance_info.pop('kernel', None)
instance_info.pop('ramdisk', None)
node.instance_info = instance_info
else:
event = 'deploy'
driver_internal_info = node.driver_internal_info
# Infer the image type to make sure the deploy driver
# validates only the necessary variables for different
# image types.
# NOTE(sirushtim): The iwdi variable can be None. It's up to
# the deploy driver to validate this.
iwdi = images.is_whole_disk_image(context, node.instance_info)
driver_internal_info['is_whole_disk_image'] = iwdi
node.driver_internal_info = driver_internal_info
node.save()
try:
task.driver.power.validate(task)
task.driver.deploy.validate(task)
except exception.InvalidParameterValue as e:
raise exception.InstanceDeployFailure(
_("Failed to validate deploy or power info for node "
"%(node_uuid)s. Error: %(msg)s") %
{'node_uuid': node.uuid, 'msg': e})
LOG.debug("do_node_deploy Calling event: %(event)s for node: "
"%(node)s", {'event': event, 'node': node.uuid})
try:
task.process_event(
event,
callback=self._spawn_worker,
call_args=(do_node_deploy, task, self.conductor.id,
configdrive),
err_handler=utils.provisioning_error_handler)
except exception.InvalidState:
raise exception.InvalidStateRequested(
action=event, node=task.node.uuid,
state=task.node.provision_state)
@METRICS.timer('ConductorManager.do_node_tear_down')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.NodeLocked,
exception.InstanceDeployFailure,
exception.InvalidStateRequested)
def do_node_tear_down(self, context, node_id):
"""RPC method to tear down an existing node deployment.
Validate driver specific information synchronously, and then
spawn a background worker to tear down the node asynchronously.
:param context: an admin context.
:param node_id: the id or uuid of a node.
:raises: InstanceDeployFailure
:raises: NoFreeConductorWorker when there is no free worker to start
async task
:raises: InvalidStateRequested when the requested state is not a valid
target from the current state.
"""
LOG.debug("RPC do_node_tear_down called for node %s.", node_id)
with task_manager.acquire(context, node_id, shared=False,
purpose='node tear down') as task:
try:
# NOTE(ghe): Valid power driver values are needed to perform
# a tear-down. Deploy info is useful to purge the cache but not
# required for this method.
task.driver.power.validate(task)
except exception.InvalidParameterValue as e:
raise exception.InstanceDeployFailure(_(
"Failed to validate power driver interface. "
"Can not delete instance. Error: %(msg)s") % {'msg': e})
try:
task.process_event(
'delete',
callback=self._spawn_worker,
call_args=(self._do_node_tear_down, task),
err_handler=utils.provisioning_error_handler)
except exception.InvalidState:
raise exception.InvalidStateRequested(
action='delete', node=task.node.uuid,
state=task.node.provision_state)
@task_manager.require_exclusive_lock
def _do_node_tear_down(self, task):
"""Internal RPC method to tear down an existing node deployment."""
node = task.node
try:
# stop the console
# do it in this thread since we're already out of the main
# conductor thread.
if node.console_enabled:
self._set_console_mode(task, False)
task.driver.deploy.clean_up(task)
task.driver.deploy.tear_down(task)
except Exception as e:
with excutils.save_and_reraise_exception():
LOG.exception(_LE('Error in tear_down of node %(node)s: '
'%(err)s'),
{'node': node.uuid, 'err': e})
node.last_error = _("Failed to tear down. Error: %s") % e
task.process_event('error')
else:
# NOTE(deva): When tear_down finishes, the deletion is done,
# cleaning will start next
LOG.info(_LI('Successfully unprovisioned node %(node)s with '
'instance %(instance)s.'),
{'node': node.uuid, 'instance': node.instance_uuid})
finally:
# NOTE(deva): there is no need to unset conductor_affinity
# because it is a reference to the most recent conductor which
# deployed a node, and does not limit any future actions.
# But we do need to clear the instance-related fields.
node.instance_info = {}
node.instance_uuid = None
driver_internal_info = node.driver_internal_info
driver_internal_info.pop('instance', None)
node.driver_internal_info = driver_internal_info
node.save()
# Begin cleaning
task.process_event('clean')
self._do_node_clean(task)
def _get_node_next_clean_steps(self, task, skip_current_step=True):
"""Get the task's node's next clean steps.
This determines what the next (remaining) clean steps are, and
returns the index into the clean steps list that corresponds to the
next clean step. The remaining clean steps are determined as follows:
* If no clean steps have been started yet, all the clean steps
must be executed
* If skip_current_step is False, the remaining clean steps start
with the current clean step. Otherwise, the remaining clean steps
start with the clean step after the current one.
All the clean steps for an automated or manual cleaning are in
node.driver_internal_info['clean_steps']. node.clean_step is the
current clean step that was just executed (or None, {} if no steps
have been executed yet). node.driver_internal_info['clean_step_index']
is the index into the clean steps list (or None, doesn't exist if no
steps have been executed yet) and corresponds to node.clean_step.
:param task: A TaskManager object
:param skip_current_step: True to skip the current clean step; False to
include it.
:raises: NodeCleaningFailure if an internal error occurred when
getting the next clean steps
:returns: index of the next clean step; None if there are no clean
steps to execute.
"""
node = task.node
if not node.clean_step:
# first time through, all steps need to be done. Return the
# index of the first step in the list.
return 0
ind = node.driver_internal_info.get('clean_step_index')
if ind is None:
return None
if skip_current_step:
ind += 1
if ind >= len(node.driver_internal_info['clean_steps']):
# no steps left to do
ind = None
return ind
@METRICS.timer('ConductorManager.do_node_clean')
@messaging.expected_exceptions(exception.InvalidParameterValue,
exception.InvalidStateRequested,
exception.NodeInMaintenance,
exception.NodeLocked,
exception.NoFreeConductorWorker)
def do_node_clean(self, context, node_id, clean_steps):
"""RPC method to initiate manual cleaning.
:param context: an admin context.
:param node_id: the ID or UUID of a node.
:param clean_steps: an ordered list of clean steps that will be
performed on the node. A clean step is a dictionary with required
keys 'interface' and 'step', and optional key 'args'. If
specified, the 'args' arguments are passed to the clean step
method.::
{ 'interface': <driver_interface>,
'step': <name_of_clean_step>,
'args': {<arg1>: <value1>, ..., <argn>: <valuen>} }
For example (this isn't a real example, this clean step
doesn't exist)::
{ 'interface': deploy',
'step': 'upgrade_firmware',
'args': {'force': True} }
:raises: InvalidParameterValue if power validation fails.
:raises: InvalidStateRequested if the node is not in manageable state.
:raises: NodeLocked if node is locked by another conductor.
:raises: NoFreeConductorWorker when there is no free worker to start
async task.
"""
with task_manager.acquire(context, node_id, shared=False,
purpose='node manual cleaning') as task:
node = task.node
if node.maintenance:
raise exception.NodeInMaintenance(op=_('cleaning'),
node=node.uuid)
# NOTE(rloo): _do_node_clean() will also make similar calls to
# validate power & network, but we are doing it again here so that
# the user gets immediate feedback of any issues. This behaviour
# (of validating) is consistent with other methods like
# self.do_node_deploy().
try:
task.driver.power.validate(task)
task.driver.network.validate(task)
except exception.InvalidParameterValue as e:
msg = (_('Validation failed. Cannot clean node %(node)s. '
'Error: %(msg)s') %
{'node': node.uuid, 'msg': e})
raise exception.InvalidParameterValue(msg)
try:
task.process_event(
'clean',
callback=self._spawn_worker,
call_args=(self._do_node_clean, task, clean_steps),
err_handler=utils.provisioning_error_handler,
target_state=states.MANAGEABLE)
except exception.InvalidState:
raise exception.InvalidStateRequested(
action='manual clean', node=node.uuid,
state=node.provision_state)
@METRICS.timer('ConductorManager.continue_node_clean')
[docs] def continue_node_clean(self, context, node_id):
"""RPC method to continue cleaning a node.
This is useful for cleaning tasks that are async. When they complete,
they call back via RPC, a new worker and lock are set up, and cleaning
continues. This can also be used to resume cleaning on take_over.
:param context: an admin context.
:param node_id: the id or uuid of a node.
:raises: InvalidStateRequested if the node is not in CLEANWAIT state
:raises: NoFreeConductorWorker when there is no free worker to start
async task
:raises: NodeLocked if node is locked by another conductor.
:raises: NodeNotFound if the node no longer appears in the database
:raises: NodeCleaningFailure if an internal error occurred when
getting the next clean steps
"""
LOG.debug("RPC continue_node_clean called for node %s.", node_id)
with task_manager.acquire(context, node_id, shared=False,
purpose='continue node cleaning') as task:
node = task.node
if node.target_provision_state == states.MANAGEABLE:
target_state = states.MANAGEABLE
else:
target_state = None
if node.provision_state != states.CLEANWAIT:
raise exception.InvalidStateRequested(_(
'Cannot continue cleaning on %(node)s, node is in '
'%(state)s state, should be %(clean_state)s') %
{'node': node.uuid,
'state': node.provision_state,
'clean_state': states.CLEANWAIT})
info = node.driver_internal_info
try:
skip_current_step = info.pop('skip_current_clean_step')
except KeyError:
skip_current_step = True
else:
node.driver_internal_info = info
node.save()
next_step_index = self._get_node_next_clean_steps(
task, skip_current_step=skip_current_step)
# If this isn't the final clean step in the cleaning operation
# and it is flagged to abort after the clean step that just
# finished, we abort the cleaning operation.
if node.clean_step.get('abort_after'):
step_name = node.clean_step['step']
if next_step_index is not None:
LOG.debug('The cleaning operation for node %(node)s was '
'marked to be aborted after step "%(step)s '
'completed. Aborting now that it has completed.',
{'node': task.node.uuid, 'step': step_name})
task.process_event(
'abort',
callback=self._spawn_worker,
call_args=(self._do_node_clean_abort,
task, step_name),
err_handler=utils.provisioning_error_handler,
target_state=target_state)
return
LOG.debug('The cleaning operation for node %(node)s was '
'marked to be aborted after step "%(step)s" '
'completed. However, since there are no more '
'clean steps after this, the abort is not going '
'to be done.', {'node': node.uuid,
'step': step_name})
task.process_event('resume', target_state=target_state)
task.set_spawn_error_hook(utils.spawn_cleaning_error_handler,
task.node)
task.spawn_after(
self._spawn_worker,
self._do_next_clean_step,
task, next_step_index)
@task_manager.require_exclusive_lock
def _do_node_clean(self, task, clean_steps=None):
"""Internal RPC method to perform cleaning of a node.
:param task: a TaskManager instance with an exclusive lock on its node
:param clean_steps: For a manual clean, the list of clean steps to
perform. Is None For automated cleaning (default).
For more information, see the clean_steps parameter
of :func:`ConductorManager.do_node_clean`.
"""
node = task.node
manual_clean = clean_steps is not None
clean_type = 'manual' if manual_clean else 'automated'
LOG.debug('Starting %(type)s cleaning for node %(node)s',
{'type': clean_type, 'node': node.uuid})
if not manual_clean and not CONF.conductor.automated_clean:
# Skip cleaning, move to AVAILABLE.
node.clean_step = None
node.save()
task.process_event('done')
LOG.info(_LI('Automated cleaning is disabled, node %s has been '
'successfully moved to AVAILABLE state.'), node.uuid)
return
try:
# NOTE(ghe): Valid power and network values are needed to perform
# a cleaning.
task.driver.power.validate(task)
task.driver.network.validate(task)
except exception.InvalidParameterValue as e:
msg = (_('Validation failed. Cannot clean node %(node)s. '
'Error: %(msg)s') %
{'node': node.uuid, 'msg': e})
return utils.cleaning_error_handler(task, msg)
if manual_clean:
info = node.driver_internal_info
info['clean_steps'] = clean_steps
node.driver_internal_info = info
node.save()
# Allow the deploy driver to set up the ramdisk again (necessary for
# IPA cleaning)
try:
prepare_result = task.driver.deploy.prepare_cleaning(task)
except Exception as e:
msg = (_('Failed to prepare node %(node)s for cleaning: %(e)s')
% {'node': node.uuid, 'e': e})
LOG.exception(msg)
return utils.cleaning_error_handler(task, msg)
if prepare_result == states.CLEANWAIT:
# Prepare is asynchronous, the deploy driver will need to
# set node.driver_internal_info['clean_steps'] and
# node.clean_step and then make an RPC call to
# continue_node_cleaning to start cleaning.
# For manual cleaning, the target provision state is MANAGEABLE,
# whereas for automated cleaning, it is AVAILABLE (the default).
target_state = states.MANAGEABLE if manual_clean else None
task.process_event('wait', target_state=target_state)
return
try:
utils.set_node_cleaning_steps(task)
except (exception.InvalidParameterValue,
exception.NodeCleaningFailure) as e:
msg = (_('Cannot clean node %(node)s. Error: %(msg)s')
% {'node': node.uuid, 'msg': e})
return utils.cleaning_error_handler(task, msg)
steps = node.driver_internal_info.get('clean_steps', [])
step_index = 0 if steps else None
self._do_next_clean_step(task, step_index)
@task_manager.require_exclusive_lock
def _do_next_clean_step(self, task, step_index):
"""Do cleaning, starting from the specified clean step.
:param task: a TaskManager instance with an exclusive lock
:param step_index: The first clean step in the list to execute. This
is the index (from 0) into the list of clean steps in the node's
driver_internal_info['clean_steps']. Is None if there are no steps
to execute.
"""
node = task.node
# For manual cleaning, the target provision state is MANAGEABLE,
# whereas for automated cleaning, it is AVAILABLE.
manual_clean = node.target_provision_state == states.MANAGEABLE
driver_internal_info = node.driver_internal_info
if step_index is None:
steps = []
else:
steps = driver_internal_info['clean_steps'][step_index:]
LOG.info(_LI('Executing %(state)s on node %(node)s, remaining steps: '
'%(steps)s'), {'node': node.uuid, 'steps': steps,
'state': node.provision_state})
# Execute each step until we hit an async step or run out of steps
for ind, step in enumerate(steps):
# Save which step we're about to start so we can restart
# if necessary
node.clean_step = step
driver_internal_info['clean_step_index'] = step_index + ind
node.driver_internal_info = driver_internal_info
node.save()
interface = getattr(task.driver, step.get('interface'))
LOG.info(_LI('Executing %(step)s on node %(node)s'),
{'step': step, 'node': node.uuid})
try:
result = interface.execute_clean_step(task, step)
except Exception as e:
msg = (_('Node %(node)s failed step %(step)s: '
'%(exc)s') %
{'node': node.uuid, 'exc': e,
'step': node.clean_step})
LOG.exception(msg)
utils.cleaning_error_handler(task, msg)
return
# Check if the step is done or not. The step should return
# states.CLEANWAIT if the step is still being executed, or
# None if the step is done.
if result == states.CLEANWAIT:
# Kill this worker, the async step will make an RPC call to
# continue_node_clean to continue cleaning
LOG.info(_LI('Clean step %(step)s on node %(node)s being '
'executed asynchronously, waiting for driver.'),
{'node': node.uuid, 'step': step})
target_state = states.MANAGEABLE if manual_clean else None
task.process_event('wait', target_state=target_state)
return
elif result is not None:
msg = (_('While executing step %(step)s on node '
'%(node)s, step returned invalid value: %(val)s')
% {'step': step, 'node': node.uuid, 'val': result})
LOG.error(msg)
return utils.cleaning_error_handler(task, msg)
LOG.info(_LI('Node %(node)s finished clean step %(step)s'),
{'node': node.uuid, 'step': step})
# Clear clean_step
node.clean_step = None
driver_internal_info['clean_steps'] = None
driver_internal_info.pop('clean_step_index', None)
node.driver_internal_info = driver_internal_info
node.save()
try:
task.driver.deploy.tear_down_cleaning(task)
except Exception as e:
msg = (_('Failed to tear down from cleaning for node %(node)s, '
'reason: %(err)s')
% {'node': node.uuid, 'err': e})
LOG.exception(msg)
return utils.cleaning_error_handler(task, msg,
tear_down_cleaning=False)
LOG.info(_LI('Node %s cleaning complete'), node.uuid)
event = 'manage' if manual_clean else 'done'
# NOTE(rloo): No need to specify target prov. state; we're done
task.process_event(event)
@task_manager.require_exclusive_lock
def _do_node_verify(self, task):
"""Internal method to perform power credentials verification."""
node = task.node
LOG.debug('Starting power credentials verification for node %s',
node.uuid)
error = None
try:
task.driver.power.validate(task)
except Exception as e:
error = (_('Failed to validate power driver interface for node '
'%(node)s. Error: %(msg)s') %
{'node': node.uuid, 'msg': e})
else:
try:
power_state = task.driver.power.get_power_state(task)
except Exception as e:
error = (_('Failed to get power state for node '
'%(node)s. Error: %(msg)s') %
{'node': node.uuid, 'msg': e})
if error is None:
if power_state != node.power_state:
old_power_state = node.power_state
node.power_state = power_state
task.process_event('done')
notify_utils.emit_power_state_corrected_notification(
task, old_power_state)
else:
task.process_event('done')
else:
LOG.error(error)
node.last_error = error
task.process_event('fail')
@task_manager.require_exclusive_lock
def _do_node_clean_abort(self, task, step_name=None):
"""Internal method to abort an ongoing operation.
:param task: a TaskManager instance with an exclusive lock
:param step_name: The name of the clean step.
"""
node = task.node
try:
task.driver.deploy.tear_down_cleaning(task)
except Exception as e:
LOG.exception(_LE('Failed to tear down cleaning for node %(node)s '
'after aborting the operation. Error: %(err)s'),
{'node': node.uuid, 'err': e})
error_msg = _('Failed to tear down cleaning after aborting '
'the operation')
utils.cleaning_error_handler(task, error_msg,
tear_down_cleaning=False,
set_fail_state=False)
return
info_message = _('Clean operation aborted for node %s') % node.uuid
last_error = _('By request, the clean operation was aborted')
if step_name:
msg = _(' after the completion of step "%s"') % step_name
last_error += msg
info_message += msg
node.last_error = last_error
node.clean_step = None
node.save()
LOG.info(info_message)
@METRICS.timer('ConductorManager.do_provisioning_action')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.NodeLocked,
exception.InvalidParameterValue,
exception.InvalidStateRequested)
def do_provisioning_action(self, context, node_id, action):
"""RPC method to initiate certain provisioning state transitions.
Initiate a provisioning state change through the state machine,
rather than through an RPC call to do_node_deploy / do_node_tear_down
:param context: an admin context.
:param node_id: the id or uuid of a node.
:param action: an action. One of ironic.common.states.VERBS
:raises: InvalidParameterValue
:raises: InvalidStateRequested
:raises: NoFreeConductorWorker
"""
with task_manager.acquire(context, node_id, shared=False,
purpose='provision action %s'
% action) as task:
node = task.node
if (action == states.VERBS['provide'] and
node.provision_state == states.MANAGEABLE):
task.process_event(
'provide',
callback=self._spawn_worker,
call_args=(self._do_node_clean, task),
err_handler=utils.provisioning_error_handler)
return
if (action == states.VERBS['manage'] and
node.provision_state == states.ENROLL):
task.process_event(
'manage',
callback=self._spawn_worker,
call_args=(self._do_node_verify, task),
err_handler=utils.provisioning_error_handler)
return
if (action == states.VERBS['adopt'] and
node.provision_state in (states.MANAGEABLE,
states.ADOPTFAIL)):
task.process_event(
'adopt',
callback=self._spawn_worker,
call_args=(self._do_adoption, task),
err_handler=utils.provisioning_error_handler)
return
if (action == states.VERBS['abort'] and
node.provision_state == states.CLEANWAIT):
# Check if the clean step is abortable; if so abort it.
# Otherwise, indicate in that clean step, that cleaning
# should be aborted after that step is done.
if (node.clean_step and not
node.clean_step.get('abortable')):
LOG.info(_LI('The current clean step "%(clean_step)s" for '
'node %(node)s is not abortable. Adding a '
'flag to abort the cleaning after the clean '
'step is completed.'),
{'clean_step': node.clean_step['step'],
'node': node.uuid})
clean_step = node.clean_step
if not clean_step.get('abort_after'):
clean_step['abort_after'] = True
node.clean_step = clean_step
node.save()
return
LOG.debug('Aborting the cleaning operation during clean step '
'"%(step)s" for node %(node)s in provision state '
'"%(prov)s".',
{'node': node.uuid,
'prov': node.provision_state,
'step': node.clean_step.get('step')})
target_state = None
if node.target_provision_state == states.MANAGEABLE:
target_state = states.MANAGEABLE
task.process_event(
'abort',
callback=self._spawn_worker,
call_args=(self._do_node_clean_abort, task),
err_handler=utils.provisioning_error_handler,
target_state=target_state)
return
try:
task.process_event(action)
except exception.InvalidState:
raise exception.InvalidStateRequested(
action=action, node=node.uuid,
state=node.provision_state)
@METRICS.timer('ConductorManager._sync_power_states')
@periodics.periodic(spacing=CONF.conductor.sync_power_state_interval)
def _sync_power_states(self, context):
"""Periodic task to sync power states for the nodes.
Attempt to grab a lock and sync only if the following
conditions are met:
1) Node is mapped to this conductor.
2) Node is not in maintenance mode.
3) Node is not in DEPLOYWAIT/CLEANWAIT provision state.
4) Node doesn't have a reservation
NOTE: Grabbing a lock here can cause other methods to fail to
grab it. We want to avoid trying to grab a lock while a node
is in the DEPLOYWAIT/CLEANWAIT state so we don't unnecessarily
cause a deploy/cleaning callback to fail. There's not much we
can do here to avoid failing a brand new deploy to a node that
we've locked here, though.
"""
# FIXME(comstud): Since our initial state checks are outside
# of the lock (to try to avoid the lock), some checks are
# repeated after grabbing the lock so we can unlock quickly.
# The node mapping is not re-checked because it doesn't much
# matter if things happened to re-balance.
#
# This is inefficient and racey. We end up with calling DB API's
# get_node() twice (once here, and once in acquire(). Ideally we
# add a way to pass constraints to task_manager.acquire()
# (through to its DB API call) so that we can eliminate our call
# and first set of checks below.
filters = {'maintenance': False}
node_iter = self.iter_nodes(fields=['id'], filters=filters)
for (node_uuid, driver, node_id) in node_iter:
try:
# NOTE(dtantsur): start with a shared lock, upgrade if needed
with task_manager.acquire(context, node_uuid,
purpose='power state sync',
shared=True) as task:
# NOTE(deva): we should not acquire a lock on a node in
# DEPLOYWAIT/CLEANWAIT, as this could cause
# an error within a deploy ramdisk POSTing back
# at the same time.
# NOTE(dtantsur): it's also pointless (and dangerous) to
# sync power state when a power action is in progress
if (task.node.provision_state in SYNC_EXCLUDED_STATES or
task.node.maintenance or
task.node.target_power_state or
task.node.reservation):
continue
count = do_sync_power_state(
task, self.power_state_sync_count[node_uuid])
if count:
self.power_state_sync_count[node_uuid] = count
else:
# don't bloat the dict with non-failing nodes
del self.power_state_sync_count[node_uuid]
except exception.NodeNotFound:
LOG.info(_LI("During sync_power_state, node %(node)s was not "
"found and presumed deleted by another process."),
{'node': node_uuid})
except exception.NodeLocked:
LOG.info(_LI("During sync_power_state, node %(node)s was "
"already locked by another process. Skip."),
{'node': node_uuid})
finally:
# Yield on every iteration
eventlet.sleep(0)
@METRICS.timer('ConductorManager._check_deploy_timeouts')
@periodics.periodic(spacing=CONF.conductor.check_provision_state_interval)
def _check_deploy_timeouts(self, context):
"""Periodically checks whether a deploy RPC call has timed out.
If a deploy call has timed out, the deploy failed and we clean up.
:param context: request context.
"""
callback_timeout = CONF.conductor.deploy_callback_timeout
if not callback_timeout:
return
filters = {'reserved': False,
'provision_state': states.DEPLOYWAIT,
'maintenance': False,
'provisioned_before': callback_timeout}
sort_key = 'provision_updated_at'
callback_method = utils.cleanup_after_timeout
err_handler = utils.provisioning_error_handler
self._fail_if_in_state(context, filters, states.DEPLOYWAIT,
sort_key, callback_method, err_handler)
@METRICS.timer('ConductorManager._check_deploying_status')
@periodics.periodic(spacing=CONF.conductor.check_provision_state_interval)
def _check_deploying_status(self, context):
"""Periodically checks the status of nodes in DEPLOYING state.
Periodically checks the nodes in DEPLOYING and the state of the
conductor deploying them. If we find out that a conductor that
was provisioning the node has died we then break release the
node and gracefully mark the deployment as failed.
:param context: request context.
"""
offline_conductors = self.dbapi.get_offline_conductors()
if not offline_conductors:
return
node_iter = self.iter_nodes(
fields=['id', 'reservation'],
filters={'provision_state': states.DEPLOYING,
'maintenance': False,
'reserved_by_any_of': offline_conductors})
for node_uuid, driver, node_id, conductor_hostname in node_iter:
# NOTE(lucasagomes): Although very rare, this may lead to a
# race condition. By the time we release the lock the conductor
# that was previously managing the node could be back online.
try:
objects.Node.release(context, conductor_hostname, node_id)
except exception.NodeNotFound:
LOG.warning(_LW("During checking for deploying state, node "
"%s was not found and presumed deleted by "
"another process. Skipping."), node_uuid)
continue
except exception.NodeLocked:
LOG.warning(_LW("During checking for deploying state, when "
"releasing the lock of the node %s, it was "
"locked by another process. Skipping."),
node_uuid)
continue
except exception.NodeNotLocked:
LOG.warning(_LW("During checking for deploying state, when "
"releasing the lock of the node %s, it was "
"already unlocked."), node_uuid)
self._fail_if_in_state(
context, {'id': node_id}, states.DEPLOYING,
'provision_updated_at',
callback_method=utils.cleanup_after_timeout,
err_handler=utils.provisioning_error_handler)
@METRICS.timer('ConductorManager._do_adoption')
@task_manager.require_exclusive_lock
def _do_adoption(self, task):
"""Adopt the node.
Similar to node takeover, adoption performs a driver boot
validation and then triggers node takeover in order to make the
conductor responsible for the node. Upon completion of takeover,
the node is moved to ACTIVE state.
The goal of this method is to set the conditions for the node to
be managed by Ironic as an ACTIVE node without having performed
a deployment operation.
:param task: a TaskManager instance
"""
node = task.node
LOG.debug('Conductor %(cdr)s attempting to adopt node %(node)s',
{'cdr': self.host, 'node': node.uuid})
try:
# NOTE(TheJulia): A number of drivers expect to know if a
# whole disk image was used prior to their takeover logic
# being triggered, as such we need to populate the
# internal info based on the configuration the user has
# supplied.
iwdi = images.is_whole_disk_image(task.context,
task.node.instance_info)
node.driver_internal_info['is_whole_disk_image'] = iwdi
# Calling boot validate to ensure that sufficient information
# is supplied to allow the node to be able to boot if takeover
# writes items such as kernel/ramdisk data to disk.
task.driver.boot.validate(task)
# NOTE(TheJulia): While task.driver.boot.validate() is called
# above, and task.driver.power.validate() could be called, it
# is called as part of the transition from ENROLL to MANAGEABLE
# states. As such it is redundant to call here.
self._do_takeover(task)
LOG.info(_LI("Successfully adopted node %(node)s"),
{'node': node.uuid})
task.process_event('done')
except Exception as err:
msg = (_('Error while attempting to adopt node %(node)s: '
'%(err)s.') % {'node': node.uuid, 'err': err})
LOG.error(msg)
node.last_error = msg
task.process_event('fail')
@METRICS.timer('ConductorManager._do_takeover')
def _do_takeover(self, task):
"""Take over this node.
Prepares a node for takeover by this conductor, performs the takeover,
and changes the conductor associated with the node. The node with the
new conductor affiliation is saved to the DB.
:param task: a TaskManager instance
"""
LOG.debug(('Conductor %(cdr)s taking over node %(node)s'),
{'cdr': self.host, 'node': task.node.uuid})
task.driver.deploy.prepare(task)
task.driver.deploy.take_over(task)
# NOTE(zhenguo): If console enabled, take over the console session
# as well.
console_error = None
if task.node.console_enabled:
notify_utils.emit_console_notification(
task, 'console_restore', fields.NotificationStatus.START)
try:
task.driver.console.start_console(task)
except Exception as err:
msg = (_('Failed to start console while taking over the '
'node %(node)s: %(err)s.') % {'node': task.node.uuid,
'err': err})
LOG.error(msg)
# If taking over console failed, set node's console_enabled
# back to False and set node's last error.
task.node.last_error = msg
task.node.console_enabled = False
console_error = True
else:
notify_utils.emit_console_notification(
task, 'console_restore', fields.NotificationStatus.END)
# NOTE(lucasagomes): Set the ID of the new conductor managing
# this node
task.node.conductor_affinity = self.conductor.id
task.node.save()
if console_error:
notify_utils.emit_console_notification(
task, 'console_restore', fields.NotificationStatus.ERROR)
@METRICS.timer('ConductorManager._check_cleanwait_timeouts')
@periodics.periodic(spacing=CONF.conductor.check_provision_state_interval)
def _check_cleanwait_timeouts(self, context):
"""Periodically checks for nodes being cleaned.
If a node doing cleaning is unresponsive (detected when it stops
heart beating), the operation should be aborted.
:param context: request context.
"""
callback_timeout = CONF.conductor.clean_callback_timeout
if not callback_timeout:
return
filters = {'reserved': False,
'provision_state': states.CLEANWAIT,
'maintenance': False,
'provisioned_before': callback_timeout}
self._fail_if_in_state(context, filters, states.CLEANWAIT,
'provision_updated_at',
keep_target_state=True,
callback_method=utils.cleanup_cleanwait_timeout)
@METRICS.timer('ConductorManager._sync_local_state')
@periodics.periodic(spacing=CONF.conductor.sync_local_state_interval)
def _sync_local_state(self, context):
"""Perform any actions necessary to sync local state.
This is called periodically to refresh the conductor's copy of the
consistent hash ring. If any mappings have changed, this method then
determines which, if any, nodes need to be "taken over".
The ensuing actions could include preparing a PXE environment,
updating the DHCP server, and so on.
"""
filters = {'reserved': False,
'maintenance': False,
'provision_state': states.ACTIVE}
node_iter = self.iter_nodes(fields=['id', 'conductor_affinity'],
filters=filters)
workers_count = 0
for node_uuid, driver, node_id, conductor_affinity in node_iter:
if conductor_affinity == self.conductor.id:
continue
# Node is mapped here, but not updated by this conductor last
try:
with task_manager.acquire(context, node_uuid,
purpose='node take over') as task:
# NOTE(deva): now that we have the lock, check again to
# avoid racing with deletes and other state changes
node = task.node
if (node.maintenance or
node.conductor_affinity == self.conductor.id or
node.provision_state != states.ACTIVE):
continue
task.spawn_after(self._spawn_worker,
self._do_takeover, task)
except exception.NoFreeConductorWorker:
break
except (exception.NodeLocked, exception.NodeNotFound):
continue
workers_count += 1
if workers_count == CONF.conductor.periodic_max_workers:
break
@METRICS.timer('ConductorManager.validate_driver_interfaces')
@messaging.expected_exceptions(exception.NodeLocked)
def validate_driver_interfaces(self, context, node_id):
"""Validate the `core` and `standardized` interfaces for drivers.
:param context: request context.
:param node_id: node id or uuid.
:returns: a dictionary containing the results of each
interface validation.
"""
LOG.debug('RPC validate_driver_interfaces called for node %s.',
node_id)
ret_dict = {}
lock_purpose = 'driver interface validation'
with task_manager.acquire(context, node_id, shared=True,
purpose=lock_purpose) as task:
# NOTE(sirushtim): the is_whole_disk_image variable is needed by
# deploy drivers for doing their validate(). Since the deploy
# isn't being done yet and the driver information could change in
# the meantime, we don't know if the is_whole_disk_image value will
# change or not. It isn't saved to the DB, but only used with this
# node instance for the current validations.
iwdi = images.is_whole_disk_image(context,
task.node.instance_info)
task.node.driver_internal_info['is_whole_disk_image'] = iwdi
for iface_name in task.driver.non_vendor_interfaces:
iface = getattr(task.driver, iface_name, None)
result = reason = None
if iface:
try:
iface.validate(task)
result = True
except (exception.InvalidParameterValue,
exception.UnsupportedDriverExtension) as e:
result = False
reason = str(e)
except Exception as e:
result = False
reason = (_('Unexpected exception, traceback saved '
'into log by ironic conductor service '
'that is running on %(host)s: %(error)s')
% {'host': self.host, 'error': e})
LOG.exception(_LE(
'Unexpected exception occurred while validating '
'%(iface)s driver interface for driver '
'%(driver)s: %(err)s on node %(node)s.'),
{'iface': iface_name, 'driver': task.node.driver,
'err': e, 'node': task.node.uuid})
else:
reason = _('not supported')
ret_dict[iface_name] = {}
ret_dict[iface_name]['result'] = result
if reason is not None:
ret_dict[iface_name]['reason'] = reason
return ret_dict
@METRICS.timer('ConductorManager.destroy_node')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NodeAssociated,
exception.InvalidState)
def destroy_node(self, context, node_id):
"""Delete a node.
:param context: request context.
:param node_id: node id or uuid.
:raises: NodeLocked if node is locked by another conductor.
:raises: NodeAssociated if the node contains an instance
associated with it.
:raises: InvalidState if the node is in the wrong provision
state to perform deletion.
"""
# NOTE(dtantsur): we allow deleting a node in maintenance mode even if
# we would disallow it otherwise. That's done for recovering hopelessly
# broken nodes (e.g. with broken BMC).
with task_manager.acquire(context, node_id,
purpose='node deletion') as task:
node = task.node
if not node.maintenance and node.instance_uuid is not None:
raise exception.NodeAssociated(node=node.uuid,
instance=node.instance_uuid)
# NOTE(lucasagomes): For the *FAIL states we users should
# move it to a safe state prior to deletion. This is because we
# should try to avoid deleting a node in a dirty/whacky state,
# e.g: A node in DEPLOYFAIL, if deleted without passing through
# tear down/cleaning may leave data from the previous tenant
# in the disk. So nodes in *FAIL states should first be moved to:
# CLEANFAIL -> MANAGEABLE
# INSPECTIONFAIL -> MANAGEABLE
# DEPLOYFAIL -> DELETING
if (not node.maintenance and
node.provision_state not in states.DELETE_ALLOWED_STATES):
msg = (_('Can not delete node "%(node)s" while it is in '
'provision state "%(state)s". Valid provision states '
'to perform deletion are: "%(valid_states)s"') %
{'node': node.uuid, 'state': node.provision_state,
'valid_states': states.DELETE_ALLOWED_STATES})
raise exception.InvalidState(msg)
if node.console_enabled:
notify_utils.emit_console_notification(
task, 'console_set', fields.NotificationStatus.START)
try:
task.driver.console.stop_console(task)
except Exception as err:
LOG.error(_LE('Failed to stop console while deleting '
'the node %(node)s: %(err)s.'),
{'node': node.uuid, 'err': err})
notify_utils.emit_console_notification(
task, 'console_set', fields.NotificationStatus.ERROR)
else:
node.console_enabled = False
notify_utils.emit_console_notification(
task, 'console_set', fields.NotificationStatus.END)
node.destroy()
LOG.info(_LI('Successfully deleted node %(node)s.'),
{'node': node.uuid})
@METRICS.timer('ConductorManager.destroy_port')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NodeNotFound)
def destroy_port(self, context, port):
"""Delete a port.
:param context: request context.
:param port: port object
:raises: NodeLocked if node is locked by another conductor.
:raises: NodeNotFound if the node associated with the port does not
exist.
"""
LOG.debug('RPC destroy_port called for port %(port)s',
{'port': port.uuid})
with task_manager.acquire(context, port.node_id,
purpose='port deletion') as task:
port.destroy()
LOG.info(_LI('Successfully deleted port %(port)s. '
'The node associated with the port was '
'%(node)s'),
{'port': port.uuid, 'node': task.node.uuid})
@METRICS.timer('ConductorManager.destroy_portgroup')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NodeNotFound,
exception.PortgroupNotEmpty)
def destroy_portgroup(self, context, portgroup):
"""Delete a portgroup.
:param context: request context.
:param portgroup: portgroup object
:raises: NodeLocked if node is locked by another conductor.
:raises: NodeNotFound if the node associated with the portgroup does
not exist.
:raises: PortgroupNotEmpty if portgroup is not empty
"""
LOG.debug('RPC destroy_portgroup called for portgroup %(portgroup)s',
{'portgroup': portgroup.uuid})
with task_manager.acquire(context, portgroup.node_id,
purpose='portgroup deletion') as task:
portgroup.destroy()
LOG.info(_LI('Successfully deleted portgroup %(portgroup)s. '
'The node associated with the portgroup was '
'%(node)s'),
{'portgroup': portgroup.uuid, 'node': task.node.uuid})
@METRICS.timer('ConductorManager.destroy_volume_connector')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NodeNotFound,
exception.VolumeConnectorNotFound)
def destroy_volume_connector(self, context, connector):
"""Delete a volume connector.
:param context: request context
:param connector: volume connector object
:raises: NodeLocked if node is locked by another conductor
:raises: NodeNotFound if the node associated with the connector does
not exist
:raises: VolumeConnectorNotFound if the volume connector cannot be
found
"""
LOG.debug('RPC destroy_volume_connector called for volume connector '
'%(connector)s',
{'connector': connector.uuid})
with task_manager.acquire(context, connector.node_id,
purpose='volume connector deletion') as task:
connector.destroy()
LOG.info(_LI('Successfully deleted volume connector '
'%(connector)s. '
'The node associated with the connector was '
'%(node)s'),
{'connector': connector.uuid, 'node': task.node.uuid})
@METRICS.timer('ConductorManager.destroy_volume_target')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NodeNotFound,
exception.VolumeTargetNotFound)
def destroy_volume_target(self, context, target):
"""Delete a volume target.
:param context: request context
:param target: volume target object
:raises: NodeLocked if node is locked by another conductor
:raises: NodeNotFound if the node associated with the target does
not exist
:raises: VolumeTargetNotFound if the volume target cannot be found
"""
LOG.debug('RPC destroy_volume_target called for volume target '
'%(target)s',
{'target': target.uuid})
with task_manager.acquire(context, target.node_id,
purpose='volume target deletion') as task:
target.destroy()
LOG.info(_LI('Successfully deleted volume target %(target)s. '
'The node associated with the target was %(node)s'),
{'target': target.uuid, 'node': task.node.uuid})
@METRICS.timer('ConductorManager.get_console_information')
@messaging.expected_exceptions(exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.NodeConsoleNotEnabled,
exception.InvalidParameterValue)
def get_console_information(self, context, node_id):
"""Get connection information about the console.
:param context: request context.
:param node_id: node id or uuid.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support console.
:raises: NodeConsoleNotEnabled if the console is not enabled.
:raises: InvalidParameterValue when the wrong driver info is specified.
:raises: MissingParameterValue if missing supplied info.
"""
LOG.debug('RPC get_console_information called for node %s', node_id)
lock_purpose = 'getting console information'
with task_manager.acquire(context, node_id, shared=True,
purpose=lock_purpose) as task:
node = task.node
if not getattr(task.driver, 'console', None):
raise exception.UnsupportedDriverExtension(driver=node.driver,
extension='console')
if not node.console_enabled:
raise exception.NodeConsoleNotEnabled(node=node.uuid)
task.driver.console.validate(task)
return task.driver.console.get_console(task)
@METRICS.timer('ConductorManager.set_console_mode')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.InvalidParameterValue)
def set_console_mode(self, context, node_id, enabled):
"""Enable/Disable the console.
Validate driver specific information synchronously, and then
spawn a background worker to set console mode asynchronously.
:param context: request context.
:param node_id: node id or uuid.
:param enabled: Boolean value; whether the console is enabled or
disabled.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support console.
:raises: InvalidParameterValue when the wrong driver info is specified.
:raises: MissingParameterValue if missing supplied info.
:raises: NoFreeConductorWorker when there is no free worker to start
async task
"""
LOG.debug('RPC set_console_mode called for node %(node)s with '
'enabled %(enabled)s', {'node': node_id, 'enabled': enabled})
with task_manager.acquire(context, node_id, shared=False,
purpose='setting console mode') as task:
node = task.node
if not getattr(task.driver, 'console', None):
raise exception.UnsupportedDriverExtension(driver=node.driver,
extension='console')
task.driver.console.validate(task)
if enabled == node.console_enabled:
op = _('enabled') if enabled else _('disabled')
LOG.info(_LI("No console action was triggered because the "
"console is already %s"), op)
else:
node.last_error = None
node.save()
task.spawn_after(self._spawn_worker,
self._set_console_mode, task, enabled)
@task_manager.require_exclusive_lock
def _set_console_mode(self, task, enabled):
"""Internal method to set console mode on a node."""
node = task.node
notify_utils.emit_console_notification(
task, 'console_set', fields.NotificationStatus.START)
try:
if enabled:
task.driver.console.start_console(task)
# TODO(deva): We should be updating conductor_affinity here
# but there is no support for console sessions in
# take_over() right now.
else:
task.driver.console.stop_console(task)
except Exception as e:
with excutils.save_and_reraise_exception():
op = _('enabling') if enabled else _('disabling')
msg = (_('Error %(op)s the console on node %(node)s. '
'Reason: %(error)s') % {'op': op,
'node': node.uuid,
'error': e})
node.last_error = msg
LOG.error(msg)
node.save()
notify_utils.emit_console_notification(
task, 'console_set', fields.NotificationStatus.ERROR)
node.console_enabled = enabled
node.last_error = None
node.save()
notify_utils.emit_console_notification(
task, 'console_set', fields.NotificationStatus.END)
@METRICS.timer('ConductorManager.update_port')
@messaging.expected_exceptions(exception.NodeLocked,
exception.FailedToUpdateMacOnPort,
exception.MACAlreadyExists,
exception.InvalidState,
exception.FailedToUpdateDHCPOptOnPort,
exception.Conflict,
exception.InvalidParameterValue,
exception.NetworkError)
def update_port(self, context, port_obj):
"""Update a port.
:param context: request context.
:param port_obj: a changed (but not saved) port object.
:raises: DHCPLoadError if the dhcp_provider cannot be loaded.
:raises: FailedToUpdateMacOnPort if MAC address changed and update
failed.
:raises: MACAlreadyExists if the update is setting a MAC which is
registered on another port already.
:raises: InvalidState if port connectivity attributes
are updated while node not in a MANAGEABLE or ENROLL or
INSPECTING state or not in MAINTENANCE mode.
:raises: Conflict if trying to set extra/vif_port_id or
pxe_enabled=True on port which is a member of portgroup with
standalone_ports_supported=False.
"""
port_uuid = port_obj.uuid
LOG.debug("RPC update_port called for port %s.", port_uuid)
with task_manager.acquire(context, port_obj.node_id,
purpose='port update') as task:
node = task.node
# Only allow updating MAC addresses for active nodes if maintenance
# mode is on.
if ((node.provision_state == states.ACTIVE or node.instance_uuid)
and 'address' in port_obj.obj_what_changed() and
not node.maintenance):
action = _("Cannot update hardware address for port "
"%(port)s as node %(node)s is active or has "
"instance UUID assigned")
raise exception.InvalidState(action % {'node': node.uuid,
'port': port_uuid})
# If port update is modifying the portgroup membership of the port
# or modifying the local_link_connection or pxe_enabled flags then
# node should be in MANAGEABLE/INSPECTING/ENROLL provisioning state
# or in maintenance mode.
# Otherwise InvalidState exception is raised.
connectivity_attr = {'portgroup_id',
'pxe_enabled',
'local_link_connection'}
allowed_update_states = [states.ENROLL,
states.INSPECTING,
states.MANAGEABLE]
if (set(port_obj.obj_what_changed()) & connectivity_attr
and not (node.provision_state in allowed_update_states
or node.maintenance)):
action = _("Port %(port)s can not have any connectivity "
"attributes (%(connect)s) updated unless "
"node %(node)s is in a %(allowed)s state "
"or in maintenance mode.")
raise exception.InvalidState(
action % {'port': port_uuid,
'node': node.uuid,
'connect': ', '.join(connectivity_attr),
'allowed': ', '.join(allowed_update_states)})
task.driver.network.validate(task)
# Handle mac_address update and VIF attach/detach stuff.
task.driver.network.port_changed(task, port_obj)
port_obj.save()
return port_obj
@METRICS.timer('ConductorManager.update_portgroup')
@messaging.expected_exceptions(exception.NodeLocked,
exception.FailedToUpdateMacOnPort,
exception.PortgroupMACAlreadyExists,
exception.PortgroupNotEmpty,
exception.InvalidState,
exception.Conflict,
exception.InvalidParameterValue,
exception.NetworkError)
def update_portgroup(self, context, portgroup_obj):
"""Update a portgroup.
:param context: request context.
:param portgroup_obj: a changed (but not saved) portgroup object.
:raises: DHCPLoadError if the dhcp_provider cannot be loaded.
:raises: FailedToUpdateMacOnPort if MAC address changed and update
failed.
:raises: PortgroupMACAlreadyExists if the update is setting a MAC which
is registered on another portgroup already.
:raises: InvalidState if portgroup-node association is updated while
node not in a MANAGEABLE or ENROLL or INSPECTING state or not
in MAINTENANCE mode.
:raises: PortgroupNotEmpty if there are ports associated with this
portgroup.
:raises: Conflict when trying to set standalone_ports_supported=False
on portgroup with ports that has pxe_enabled=True and vice
versa.
"""
portgroup_uuid = portgroup_obj.uuid
LOG.debug("RPC update_portgroup called for portgroup %s.",
portgroup_uuid)
lock_purpose = 'update portgroup'
with task_manager.acquire(context,
portgroup_obj.node_id,
purpose=lock_purpose) as task:
node = task.node
if 'node_id' in portgroup_obj.obj_what_changed():
# NOTE(zhenguo): If portgroup update is modifying the
# portgroup-node association then node should be in
# MANAGEABLE/INSPECTING/ENROLL provisioning state or in
# maintenance mode, otherwise InvalidState is raised.
allowed_update_states = [states.ENROLL,
states.INSPECTING,
states.MANAGEABLE]
if (node.provision_state not in allowed_update_states
and not node.maintenance):
action = _("Portgroup %(portgroup)s can not be associated "
"to node %(node)s unless the node is in a "
"%(allowed)s state or in maintenance mode.")
raise exception.InvalidState(
action % {'portgroup': portgroup_uuid,
'node': node.uuid,
'allowed': ', '.join(allowed_update_states)})
# NOTE(zhenguo): If portgroup update is modifying the
# portgroup-node association then there should not be
# any Port associated to the PortGroup, otherwise
# PortgroupNotEmpty exception is raised.
associated_ports = self.dbapi.get_ports_by_portgroup_id(
portgroup_uuid)
if associated_ports:
action = _("Portgroup %(portgroup)s can not be associated "
"with node %(node)s because there are ports "
"associated with this portgroup.")
raise exception.PortgroupNotEmpty(
action % {'portgroup': portgroup_uuid,
'node': node.uuid})
task.driver.network.validate(task)
# Handle mac_address update and VIF attach/detach stuff.
task.driver.network.portgroup_changed(task, portgroup_obj)
portgroup_obj.save()
return portgroup_obj
@METRICS.timer('ConductorManager.update_volume_connector')
@messaging.expected_exceptions(
exception.InvalidParameterValue,
exception.NodeLocked,
exception.NodeNotFound,
exception.VolumeConnectorNotFound,
exception.VolumeConnectorTypeAndIdAlreadyExists)
def update_volume_connector(self, context, connector):
"""Update a volume connector.
:param context: request context
:param connector: a changed (but not saved) volume connector object
:returns: an updated volume connector object
:raises: InvalidParameterValue if the volume connector's UUID is being
changed
:raises: NodeLocked if the node is already locked
:raises: NodeNotFound if the node associated with the conductor does
not exist
:raises: VolumeConnectorNotFound if the volume connector cannot be
found
:raises: VolumeConnectorTypeAndIdAlreadyExists if another connector
already exists with the same values for type and connector_id
fields
"""
LOG.debug("RPC update_volume_connector called for connector "
"%(connector)s.",
{'connector': connector.uuid})
with task_manager.acquire(context, connector.node_id,
purpose='volume connector update'):
connector.save()
LOG.info(_LI("Successfully updated volume connector "
"%(connector)s."),
{'connector': connector.uuid})
return connector
@METRICS.timer('ConductorManager.update_volume_target')
@messaging.expected_exceptions(
exception.InvalidParameterValue,
exception.NodeLocked,
exception.NodeNotFound,
exception.VolumeTargetNotFound,
exception.VolumeTargetBootIndexAlreadyExists)
def update_volume_target(self, context, target):
"""Update a volume target.
:param context: request context
:param target: a changed (but not saved) volume target object
:returns: an updated volume target object
:raises: InvalidParameterValue if the volume target's UUID is being
changed
:raises: NodeLocked if the node is already locked
:raises: NodeNotFound if the node associated with the volume target
does not exist
:raises: VolumeTargetNotFound if the volume target cannot be found
:raises: VolumeTargetBootIndexAlreadyExists if a volume target already
exists with the same node ID and boot index values
"""
LOG.debug("RPC update_volume_target called for target %(target)s.",
{'target': target.uuid})
with task_manager.acquire(context, target.node_id,
purpose='volume target update'):
target.save()
LOG.info(_LI("Successfully updated volume target %(target)s."),
{'target': target.uuid})
return target
@METRICS.timer('ConductorManager.get_driver_properties')
@messaging.expected_exceptions(exception.DriverNotFound)
def get_driver_properties(self, context, driver_name):
"""Get the properties of the driver.
:param context: request context.
:param driver_name: name of the driver.
:returns: a dictionary with <property name>:<property description>
entries.
:raises: DriverNotFound if the driver is not loaded.
"""
LOG.debug("RPC get_driver_properties called for driver %s.",
driver_name)
driver = driver_factory.get_driver_or_hardware_type(driver_name)
return driver.get_properties()
@METRICS.timer('ConductorManager._sensors_nodes_task')
def _sensors_nodes_task(self, context, nodes):
"""Sends sensors data for nodes from synchronized queue."""
while True:
try:
node_uuid, driver, instance_uuid = nodes.get_nowait()
except queue.Empty:
break
# populate the message which will be sent to ceilometer
message = {'message_id': uuidutils.generate_uuid(),
'instance_uuid': instance_uuid,
'node_uuid': node_uuid,
'timestamp': datetime.datetime.utcnow(),
'event_type': 'hardware.ipmi.metrics.update'}
try:
lock_purpose = 'getting sensors data'
with task_manager.acquire(context,
node_uuid,
shared=True,
purpose=lock_purpose) as task:
if not getattr(task.driver, 'management', None):
continue
task.driver.management.validate(task)
sensors_data = task.driver.management.get_sensors_data(
task)
except NotImplementedError:
LOG.warning(_LW(
'get_sensors_data is not implemented for driver'
' %(driver)s, node_uuid is %(node)s'),
{'node': node_uuid, 'driver': driver})
except exception.FailedToParseSensorData as fps:
LOG.warning(_LW(
"During get_sensors_data, could not parse "
"sensor data for node %(node)s. Error: %(err)s."),
{'node': node_uuid, 'err': str(fps)})
except exception.FailedToGetSensorData as fgs:
LOG.warning(_LW(
"During get_sensors_data, could not get "
"sensor data for node %(node)s. Error: %(err)s."),
{'node': node_uuid, 'err': str(fgs)})
except exception.NodeNotFound:
LOG.warning(_LW(
"During send_sensor_data, node %(node)s was not "
"found and presumed deleted by another process."),
{'node': node_uuid})
except Exception as e:
LOG.warning(_LW(
"Failed to get sensor data for node %(node)s. "
"Error: %(error)s"), {'node': node_uuid, 'error': str(e)})
else:
message['payload'] = (
self._filter_out_unsupported_types(sensors_data))
if message['payload']:
self.sensors_notifier.info(
context, "hardware.ipmi.metrics", message)
finally:
# Yield on every iteration
eventlet.sleep(0)
@METRICS.timer('ConductorManager._send_sensor_data')
@periodics.periodic(spacing=CONF.conductor.send_sensor_data_interval)
def _send_sensor_data(self, context):
"""Periodically sends sensor data to Ceilometer."""
# do nothing if send_sensor_data option is False
if not CONF.conductor.send_sensor_data:
return
filters = {'associated': True}
nodes = queue.Queue()
for node_info in self.iter_nodes(fields=['instance_uuid'],
filters=filters):
nodes.put_nowait(node_info)
number_of_threads = min(CONF.conductor.send_sensor_data_workers,
nodes.qsize())
futures = []
for thread_number in range(number_of_threads):
try:
futures.append(
self._spawn_worker(self._sensors_nodes_task,
context, nodes))
except exception.NoFreeConductorWorker:
LOG.warning(_LW("There is no more conductor workers for "
"task of sending sensors data. %(workers)d "
"workers has been already spawned."),
{'workers': thread_number})
break
done, not_done = waiters.wait_for_all(
futures, timeout=CONF.conductor.send_sensor_data_wait_timeout)
if not_done:
LOG.warning(_LW("%d workers for send sensors data did not "
"complete"), len(not_done))
def _filter_out_unsupported_types(self, sensors_data):
"""Filters out sensor data types that aren't specified in the config.
Removes sensor data types that aren't specified in
CONF.conductor.send_sensor_data_types.
:param sensors_data: dict containing sensor types and the associated
data
:returns: dict with unsupported sensor types removed
"""
allowed = set(x.lower() for x in CONF.conductor.send_sensor_data_types)
if 'all' in allowed:
return sensors_data
return dict((sensor_type, sensor_value) for (sensor_type, sensor_value)
in sensors_data.items() if sensor_type.lower() in allowed)
@METRICS.timer('ConductorManager.set_boot_device')
@messaging.expected_exceptions(exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.InvalidParameterValue)
def set_boot_device(self, context, node_id, device, persistent=False):
"""Set the boot device for a node.
Set the boot device to use on next reboot of the node.
:param context: request context.
:param node_id: node id or uuid.
:param device: the boot device, one of
:mod:`ironic.common.boot_devices`.
:param persistent: Whether to set next-boot, or make the change
permanent. Default: False.
:raises: NodeLocked if node is locked by another conductor.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support management.
:raises: InvalidParameterValue when the wrong driver info is
specified or an invalid boot device is specified.
:raises: MissingParameterValue if missing supplied info.
"""
LOG.debug('RPC set_boot_device called for node %(node)s with '
'device %(device)s', {'node': node_id, 'device': device})
with task_manager.acquire(context, node_id,
purpose='setting boot device') as task:
node = task.node
if not getattr(task.driver, 'management', None):
raise exception.UnsupportedDriverExtension(
driver=node.driver, extension='management')
task.driver.management.validate(task)
task.driver.management.set_boot_device(task, device,
persistent=persistent)
@METRICS.timer('ConductorManager.get_boot_device')
@messaging.expected_exceptions(exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.InvalidParameterValue)
def get_boot_device(self, context, node_id):
"""Get the current boot device.
Returns the current boot device of a node.
:param context: request context.
:param node_id: node id or uuid.
:raises: NodeLocked if node is locked by another conductor.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support management.
:raises: InvalidParameterValue when the wrong driver info is
specified.
:raises: MissingParameterValue if missing supplied info.
:returns: a dictionary containing:
:boot_device: the boot device, one of
:mod:`ironic.common.boot_devices` or None if it is unknown.
:persistent: Whether the boot device will persist to all
future boots or not, None if it is unknown.
"""
LOG.debug('RPC get_boot_device called for node %s', node_id)
with task_manager.acquire(context, node_id,
purpose='getting boot device') as task:
if not getattr(task.driver, 'management', None):
raise exception.UnsupportedDriverExtension(
driver=task.node.driver, extension='management')
task.driver.management.validate(task)
return task.driver.management.get_boot_device(task)
@METRICS.timer('ConductorManager.inject_nmi')
@messaging.expected_exceptions(exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.InvalidParameterValue)
def inject_nmi(self, context, node_id):
"""Inject NMI for a node.
Inject NMI (Non Maskable Interrupt) for a node immediately.
:param context: request context.
:param node_id: node id or uuid.
:raises: NodeLocked if node is locked by another conductor.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support management or management.inject_nmi.
:raises: InvalidParameterValue when the wrong driver info is
specified or an invalid boot device is specified.
:raises: MissingParameterValue if missing supplied info.
"""
LOG.debug('RPC inject_nmi called for node %s', node_id)
with task_manager.acquire(context, node_id,
purpose='inject nmi') as task:
node = task.node
if not getattr(task.driver, 'management', None):
raise exception.UnsupportedDriverExtension(
driver=node.driver, extension='management')
task.driver.management.validate(task)
task.driver.management.inject_nmi(task)
@METRICS.timer('ConductorManager.get_supported_boot_devices')
@messaging.expected_exceptions(exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.InvalidParameterValue)
def get_supported_boot_devices(self, context, node_id):
"""Get the list of supported devices.
Returns the list of supported boot devices of a node.
:param context: request context.
:param node_id: node id or uuid.
:raises: NodeLocked if node is locked by another conductor.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support management.
:raises: InvalidParameterValue when the wrong driver info is
specified.
:raises: MissingParameterValue if missing supplied info.
:returns: A list with the supported boot devices defined
in :mod:`ironic.common.boot_devices`.
"""
LOG.debug('RPC get_supported_boot_devices called for node %s', node_id)
lock_purpose = 'getting supported boot devices'
with task_manager.acquire(context, node_id, shared=True,
purpose=lock_purpose) as task:
if not getattr(task.driver, 'management', None):
raise exception.UnsupportedDriverExtension(
driver=task.node.driver, extension='management')
return task.driver.management.get_supported_boot_devices(task)
@METRICS.timer('ConductorManager.inspect_hardware')
@messaging.expected_exceptions(exception.NoFreeConductorWorker,
exception.NodeLocked,
exception.HardwareInspectionFailure,
exception.InvalidStateRequested,
exception.UnsupportedDriverExtension)
def inspect_hardware(self, context, node_id):
"""Inspect hardware to obtain hardware properties.
Initiate the inspection of a node. Validations are done
synchronously and the actual inspection work is performed in
background (asynchronously).
:param context: request context.
:param node_id: node id or uuid.
:raises: NodeLocked if node is locked by another conductor.
:raises: UnsupportedDriverExtension if the node's driver doesn't
support inspect.
:raises: NoFreeConductorWorker when there is no free worker to start
async task
:raises: HardwareInspectionFailure when unable to get
essential scheduling properties from hardware.
:raises: InvalidStateRequested if 'inspect' is not a
valid action to do in the current state.
"""
LOG.debug('RPC inspect_hardware called for node %s', node_id)
with task_manager.acquire(context, node_id, shared=False,
purpose='hardware inspection') as task:
if not getattr(task.driver, 'inspect', None):
raise exception.UnsupportedDriverExtension(
driver=task.node.driver, extension='inspect')
try:
task.driver.power.validate(task)
task.driver.inspect.validate(task)
except exception.InvalidParameterValue as e:
error = (_("Failed to validate inspection or power info. "
"Error: %(msg)s")
% {'msg': e})
raise exception.HardwareInspectionFailure(error=error)
try:
task.process_event(
'inspect',
callback=self._spawn_worker,
call_args=(_do_inspect_hardware, task),
err_handler=utils.provisioning_error_handler)
except exception.InvalidState:
raise exception.InvalidStateRequested(
action='inspect', node=task.node.uuid,
state=task.node.provision_state)
@METRICS.timer('ConductorManager._check_inspect_timeouts')
@periodics.periodic(spacing=CONF.conductor.check_provision_state_interval)
def _check_inspect_timeouts(self, context):
"""Periodically checks inspect_timeout and fails upon reaching it.
:param: context: request context
"""
callback_timeout = CONF.conductor.inspect_timeout
if not callback_timeout:
return
filters = {'reserved': False,
'provision_state': states.INSPECTING,
'inspection_started_before': callback_timeout}
sort_key = 'inspection_started_at'
last_error = _("timeout reached while inspecting the node")
self._fail_if_in_state(context, filters, states.INSPECTING,
sort_key, last_error=last_error)
@METRICS.timer('ConductorManager.set_target_raid_config')
@messaging.expected_exceptions(exception.NodeLocked,
exception.UnsupportedDriverExtension,
exception.InvalidParameterValue)
def set_target_raid_config(self, context, node_id, target_raid_config):
"""Stores the target RAID configuration on the node.
Stores the target RAID configuration on node.target_raid_config
:param context: request context.
:param node_id: node id or uuid.
:param target_raid_config: Dictionary containing the target RAID
configuration. It may be an empty dictionary as well.
:raises: UnsupportedDriverExtension, if the node's driver doesn't
support RAID configuration.
:raises: InvalidParameterValue, if validation of target raid config
fails.
:raises: MissingParameterValue, if some required parameters are
missing.
:raises: NodeLocked if node is locked by another conductor.
"""
LOG.debug('RPC set_target_raid_config called for node %(node)s with '
'RAID configuration %(target_raid_config)s',
{'node': node_id, 'target_raid_config': target_raid_config})
with task_manager.acquire(
context, node_id,
purpose='setting target RAID config') as task:
node = task.node
if not getattr(task.driver, 'raid', None):
raise exception.UnsupportedDriverExtension(
driver=task.node.driver, extension='raid')
# Operator may try to unset node.target_raid_config. So, try to
# validate only if it is not empty.
if target_raid_config:
task.driver.raid.validate_raid_config(task, target_raid_config)
node.target_raid_config = target_raid_config
node.save()
@METRICS.timer('ConductorManager.get_raid_logical_disk_properties')
@messaging.expected_exceptions(exception.UnsupportedDriverExtension,
exception.NoValidDefaultForInterface,
exception.InterfaceNotFoundInEntrypoint)
def get_raid_logical_disk_properties(self, context, driver_name):
"""Get the logical disk properties for RAID configuration.
Gets the information about logical disk properties which can
be specified in the input RAID configuration. For dynamic drivers,
the default vendor interface is used.
:param context: request context.
:param driver_name: name of the driver
:raises: UnsupportedDriverExtension, if the driver doesn't
support RAID configuration.
:raises: NoValidDefaultForInterface if no default interface
implementation can be found for this driver's RAID
interface.
:raises: InterfaceNotFoundInEntrypoint if the default interface for a
hardware type is invalid.
:returns: A dictionary containing the properties and a textual
description for them.
"""
LOG.debug("RPC get_raid_logical_disk_properties "
"called for driver %s", driver_name)
driver = driver_factory.get_driver_or_hardware_type(driver_name)
raid_iface = None
if isinstance(driver, hardware_type.AbstractHardwareType):
raid_iface_name = driver_factory.default_interface(
driver, 'raid', driver_name=driver_name)
raid_iface = driver_factory.get_interface(driver, 'raid',
raid_iface_name)
else:
raid_iface = getattr(driver, 'raid', None)
if not raid_iface:
raise exception.UnsupportedDriverExtension(
driver=driver_name, extension='raid')
return raid_iface.get_logical_disk_properties()
@METRICS.timer('ConductorManager.heartbeat')
@messaging.expected_exceptions(exception.NoFreeConductorWorker)
def heartbeat(self, context, node_id, callback_url):
"""Process a heartbeat from the ramdisk.
:param context: request context.
:param node_id: node id or uuid.
:param callback_url: URL to reach back to the ramdisk.
:raises: NoFreeConductorWorker if there are no conductors to process
this heartbeat request.
"""
LOG.debug('RPC heartbeat called for node %s', node_id)
# NOTE(dtantsur): we acquire a shared lock to begin with, drivers are
# free to promote it to an exclusive one.
with task_manager.acquire(context, node_id, shared=True,
purpose='heartbeat') as task:
task.spawn_after(self._spawn_worker, task.driver.deploy.heartbeat,
task, callback_url)
@METRICS.timer('ConductorManager.vif_list')
@messaging.expected_exceptions(exception.NetworkError,
exception.InvalidParameterValue)
def vif_list(self, context, node_id):
"""List attached VIFs for a node
:param context: request context.
:param node_id: node ID or UUID.
:returns: List of VIF dictionaries, each dictionary will have an
'id' entry with the ID of the VIF.
:raises: NetworkError, if something goes wrong during list the VIFs.
:raises: InvalidParameterValue, if a parameter that's required for
VIF list is wrong/missing.
"""
LOG.debug("RPC vif_list called for the node %s", node_id)
with task_manager.acquire(context, node_id,
purpose='list vifs',
shared=True) as task:
task.driver.network.validate(task)
return task.driver.network.vif_list(task)
@METRICS.timer('ConductorManager.vif_attach')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NetworkError,
exception.VifAlreadyAttached,
exception.NoFreePhysicalPorts,
exception.InvalidParameterValue)
def vif_attach(self, context, node_id, vif_info):
"""Attach a VIF to a node
:param context: request context.
:param node_id: node ID or UUID.
:param vif_info: a dictionary representing VIF object.
It must have an 'id' key, whose value is a unique
identifier for that VIF.
:raises: VifAlreadyAttached, if VIF is already attached to node
:raises: NoFreePhysicalPorts, if no free physical ports left to attach
:raises: NodeLocked, if node has an exclusive lock held on it
:raises: NetworkError, if an error occurs during attaching the VIF.
:raises: InvalidParameterValue, if a parameter that's required for
VIF attach is wrong/missing.
"""
LOG.debug("RPC vif_attach called for the node %(node_id)s with "
"vif_info %(vif_info)s", {'node_id': node_id,
'vif_info': vif_info})
with task_manager.acquire(context, node_id,
purpose='attach vif') as task:
task.driver.network.validate(task)
task.driver.network.vif_attach(task, vif_info)
LOG.info(_LI("VIF %(vif_id)s successfully attached to node "
"%(node_id)s"), {'vif_id': vif_info['id'],
'node_id': node_id})
@METRICS.timer('ConductorManager.vif_detach')
@messaging.expected_exceptions(exception.NodeLocked,
exception.NetworkError,
exception.VifNotAttached,
exception.InvalidParameterValue)
def vif_detach(self, context, node_id, vif_id):
"""Detach a VIF from a node
:param context: request context.
:param node_id: node ID or UUID.
:param vif_id: A VIF ID.
:raises: VifNotAttached, if VIF not attached to node
:raises: NodeLocked, if node has an exclusive lock held on it
:raises: NetworkError, if an error occurs during detaching the VIF.
:raises: InvalidParameterValue, if a parameter that's required for
VIF detach is wrong/missing.
"""
LOG.debug("RPC vif_detach called for the node %(node_id)s with "
"vif_id %(vif_id)s", {'node_id': node_id, 'vif_id': vif_id})
with task_manager.acquire(context, node_id,
purpose='detach vif') as task:
task.driver.network.validate(task)
task.driver.network.vif_detach(task, vif_id)
LOG.info(_LI("VIF %(vif_id)s successfully detached from node "
"%(node_id)s"), {'vif_id': vif_id,
'node_id': node_id})
def _object_dispatch(self, target, method, context, args, kwargs):
"""Dispatch a call to an object method.
This ensures that object methods get called and any exception
that is raised gets wrapped in an ExpectedException for forwarding
back to the caller (without spamming the conductor logs).
"""
try:
# NOTE(danms): Keep the getattr inside the try block since
# a missing method is really a client problem
return getattr(target, method)(context, *args, **kwargs)
except Exception:
# NOTE(danms): This is oslo.messaging fu. ExpectedException()
# grabs sys.exc_info here and forwards it along. This allows the
# caller to see the exception information, but causes us *not* to
# log it as such in this service. This is something that is quite
# critical so that things that conductor does on behalf of another
# node are not logged as exceptions in conductor logs. Otherwise,
# you'd have the same thing logged in both places, even though an
# exception here *always* means that the caller screwed up, so
# there's no reason to log it here.
raise messaging.ExpectedException()
@METRICS.timer('ConductorManager.object_class_action_versions')
[docs] def object_class_action_versions(self, context, objname, objmethod,
object_versions, args, kwargs):
"""Perform an action on a VersionedObject class.
:param context: The context within which to perform the action
:param objname: The registry name of the object
:param objmethod: The name of the action method to call
:param object_versions: A dict of {objname: version} mappings
:param args: The positional arguments to the action method
:param kwargs: The keyword arguments to the action method
:returns: The result of the action method, which may (or may not)
be an instance of the implementing VersionedObject class.
"""
objclass = objects_base.IronicObject.obj_class_from_name(
objname, object_versions[objname])
result = self._object_dispatch(objclass, objmethod, context,
args, kwargs)
# NOTE(danms): The RPC layer will convert to primitives for us,
# but in this case, we need to honor the version the client is
# asking for, so we do it before returning here.
if isinstance(result, objects_base.IronicObject):
result = result.obj_to_primitive(
target_version=object_versions[objname],
version_manifest=object_versions)
return result
@METRICS.timer('ConductorManager.object_action')
[docs] def object_action(self, context, objinst, objmethod, args, kwargs):
"""Perform an action on a VersionedObject instance.
:param context: The context within which to perform the action
:param objinst: The object instance on which to perform the action
:param objmethod: The name of the action method to call
:param args: The positional arguments to the action method
:param kwargs: The keyword arguments to the action method
:returns: A tuple with the updates made to the object and
the result of the action method
"""
oldobj = objinst.obj_clone()
result = self._object_dispatch(objinst, objmethod, context,
args, kwargs)
updates = dict()
# NOTE(danms): Diff the object with the one passed to us and
# generate a list of changes to forward back
for name, field in objinst.fields.items():
if not objinst.obj_attr_is_set(name):
# Avoid demand-loading anything
continue
if (not oldobj.obj_attr_is_set(name) or
getattr(oldobj, name) != getattr(objinst, name)):
updates[name] = field.to_primitive(objinst, name,
getattr(objinst, name))
# This is safe since a field named this would conflict with the
# method anyway
updates['obj_what_changed'] = objinst.obj_what_changed()
return updates, result
@METRICS.timer('ConductorManager.object_backport_versions')
[docs] def object_backport_versions(self, context, objinst, object_versions):
"""Perform a backport of an object instance.
The default behavior of the base VersionedObjectSerializer, upon
receiving an object with a version newer than what is in the local
registry, is to call this method to request a backport of the object.
:param context: The context within which to perform the backport
:param objinst: An instance of a VersionedObject to be backported
:param object_versions: A dict of {objname: version} mappings
:returns: The downgraded instance of objinst
"""
target = object_versions[objinst.obj_name()]
LOG.debug('Backporting %(obj)s to %(ver)s with versions %(manifest)s',
{'obj': objinst.obj_name(),
'ver': target,
'manifest': ','.join(
['%s=%s' % (name, ver)
for name, ver in object_versions.items()])})
return objinst.obj_to_primitive(target_version=target,
version_manifest=object_versions)
@METRICS.timer('get_vendor_passthru_metadata')
def get_vendor_passthru_metadata(route_dict):
d = {}
for method, metadata in route_dict.items():
# 'func' is the vendor method reference, ignore it
d[method] = {k: metadata[k] for k in metadata if k != 'func'}
return d
def _get_configdrive_obj_name(node):
"""Generate the object name for the config drive."""
return 'configdrive-%s' % node.uuid
def _store_configdrive(node, configdrive):
"""Handle the storage of the config drive.
If configured, the config drive data are uploaded to Swift. The Node's
instance_info is updated to include either the temporary Swift URL
from the upload, or if no upload, the actual config drive data.
:param node: an Ironic node object.
:param configdrive: A gzipped and base64 encoded configdrive.
:raises: SwiftOperationError if an error occur when uploading the
config drive to Swift.
"""
if CONF.conductor.configdrive_use_swift:
# NOTE(lucasagomes): No reason to use a different timeout than
# the one used for deploying the node
timeout = CONF.conductor.deploy_callback_timeout
container = CONF.conductor.configdrive_swift_container
object_name = _get_configdrive_obj_name(node)
object_headers = {'X-Delete-After': str(timeout)}
with tempfile.NamedTemporaryFile(dir=CONF.tempdir) as fileobj:
fileobj.write(configdrive)
fileobj.flush()
swift_api = swift.SwiftAPI()
swift_api.create_object(container, object_name, fileobj.name,
object_headers=object_headers)
configdrive = swift_api.get_temp_url(container, object_name,
timeout)
i_info = node.instance_info
i_info['configdrive'] = configdrive
node.instance_info = i_info
@METRICS.timer('do_node_deploy')
@task_manager.require_exclusive_lock
def do_node_deploy(task, conductor_id, configdrive=None):
"""Prepare the environment and deploy a node."""
node = task.node
def handle_failure(e, task, logmsg, errmsg):
# NOTE(deva): there is no need to clear conductor_affinity
task.process_event('fail')
args = {'node': task.node.uuid, 'err': e}
LOG.error(logmsg, args)
node.last_error = errmsg % e
try:
try:
if configdrive:
_store_configdrive(node, configdrive)
except exception.SwiftOperationError as e:
with excutils.save_and_reraise_exception():
handle_failure(
e, task,
_LE('Error while uploading the configdrive for '
'%(node)s to Swift'),
_('Failed to upload the configdrive to Swift. '
'Error: %s'))
try:
task.driver.deploy.prepare(task)
except Exception as e:
with excutils.save_and_reraise_exception():
handle_failure(
e, task,
_LE('Error while preparing to deploy to node %(node)s: '
'%(err)s'),
_("Failed to prepare to deploy. Error: %s"))
try:
new_state = task.driver.deploy.deploy(task)
except Exception as e:
with excutils.save_and_reraise_exception():
handle_failure(
e, task,
_LE('Error in deploy of node %(node)s: %(err)s'),
_("Failed to deploy. Error: %s"))
# Update conductor_affinity to reference this conductor's ID
# since there may be local persistent state
node.conductor_affinity = conductor_id
# NOTE(deva): Some drivers may return states.DEPLOYWAIT
# eg. if they are waiting for a callback
if new_state == states.DEPLOYDONE:
task.process_event('done')
LOG.info(_LI('Successfully deployed node %(node)s with '
'instance %(instance)s.'),
{'node': node.uuid, 'instance': node.instance_uuid})
elif new_state == states.DEPLOYWAIT:
task.process_event('wait')
else:
LOG.error(_LE('Unexpected state %(state)s returned while '
'deploying node %(node)s.'),
{'state': new_state, 'node': node.uuid})
finally:
node.save()
@task_manager.require_exclusive_lock
def handle_sync_power_state_max_retries_exceeded(task, actual_power_state,
exception=None):
"""Handles power state sync exceeding the max retries.
When synchronizing the power state between a node and the DB has exceeded
the maximum number of retries, change the DB power state to be the actual
node power state and place the node in maintenance.
:param task: a TaskManager instance with an exclusive lock
:param actual_power_state: the actual power state of the node; a power
state from ironic.common.states
:param exception: the exception object that caused the sync power state
to fail, if present.
"""
node = task.node
msg = (_("During sync_power_state, max retries exceeded "
"for node %(node)s, node state %(actual)s "
"does not match expected state '%(state)s'. "
"Updating DB state to '%(actual)s' "
"Switching node to maintenance mode.") %
{'node': node.uuid, 'actual': actual_power_state,
'state': node.power_state})
if exception is not None:
msg += _(" Error: %s") % exception
old_power_state = node.power_state
node.power_state = actual_power_state
node.last_error = msg
node.maintenance = True
node.maintenance_reason = msg
node.save()
if old_power_state != actual_power_state:
notify_utils.emit_power_state_corrected_notification(
task, old_power_state)
LOG.error(msg)
@METRICS.timer('do_sync_power_state')
def do_sync_power_state(task, count):
"""Sync the power state for this node, incrementing the counter on failure.
When the limit of power_state_sync_max_retries is reached, the node is put
into maintenance mode and the error recorded.
:param task: a TaskManager instance
:param count: number of times this node has previously failed a sync
:raises: NodeLocked if unable to upgrade task lock to an exclusive one
:returns: Count of failed attempts.
On success, the counter is set to 0.
On failure, the count is incremented by one
"""
node = task.node
old_power_state = node.power_state
power_state = None
count += 1
max_retries = CONF.conductor.power_state_sync_max_retries
# If power driver info can not be validated, and node has no prior state,
# do not attempt to sync the node's power state.
if node.power_state is None:
try:
task.driver.power.validate(task)
except exception.InvalidParameterValue:
return 0
try:
# The driver may raise an exception, or may return ERROR.
# Handle both the same way.
power_state = task.driver.power.get_power_state(task)
if power_state == states.ERROR:
raise exception.PowerStateFailure(
_("Power driver returned ERROR state "
"while trying to sync power state."))
except Exception as e:
# Stop if any exception is raised when getting the power state
if count > max_retries:
task.upgrade_lock()
handle_sync_power_state_max_retries_exceeded(task, power_state,
exception=e)
else:
LOG.warning(_LW("During sync_power_state, could not get power "
"state for node %(node)s, attempt %(attempt)s of "
"%(retries)s. Error: %(err)s."),
{'node': node.uuid, 'attempt': count,
'retries': max_retries, 'err': e})
return count
if node.power_state and node.power_state == power_state:
# No action is needed
return 0
# We will modify a node, so upgrade our lock and use reloaded node.
# This call may raise NodeLocked that will be caught on upper level.
task.upgrade_lock()
node = task.node
# Repeat all checks with exclusive lock to avoid races
if node.power_state and node.power_state == power_state:
# Node power state was updated to the correct value
return 0
elif node.provision_state in SYNC_EXCLUDED_STATES or node.maintenance:
# Something was done to a node while a shared lock was held
return 0
elif node.power_state is None:
# If node has no prior state AND we successfully got a state,
# simply record that and send a notification.
LOG.info(_LI("During sync_power_state, node %(node)s has no "
"previous known state. Recording current state "
"'%(state)s'."),
{'node': node.uuid, 'state': power_state})
node.power_state = power_state
node.save()
notify_utils.emit_power_state_corrected_notification(
task, None)
return 0
if count > max_retries:
handle_sync_power_state_max_retries_exceeded(task, power_state)
return count
if CONF.conductor.force_power_state_during_sync:
LOG.warning(_LW("During sync_power_state, node %(node)s state "
"'%(actual)s' does not match expected state. "
"Changing hardware state to '%(state)s'."),
{'node': node.uuid, 'actual': power_state,
'state': node.power_state})
try:
# node_power_action will update the node record
# so don't do that again here.
utils.node_power_action(task, node.power_state)
except Exception as e:
LOG.error(_LE(
"Failed to change power state of node %(node)s "
"to '%(state)s', attempt %(attempt)s of %(retries)s."),
{'node': node.uuid,
'state': node.power_state,
'attempt': count,
'retries': max_retries})
else:
LOG.warning(_LW("During sync_power_state, node %(node)s state "
"does not match expected state '%(state)s'. "
"Updating recorded state to '%(actual)s'."),
{'node': node.uuid, 'actual': power_state,
'state': node.power_state})
node.power_state = power_state
node.save()
notify_utils.emit_power_state_corrected_notification(
task, old_power_state)
return count
@task_manager.require_exclusive_lock
def _do_inspect_hardware(task):
"""Initiates inspection.
:param: task: a TaskManager instance with an exclusive lock
on its node.
:raises: HardwareInspectionFailure if driver doesn't
return the state as states.MANAGEABLE or
states.INSPECTING.
"""
node = task.node
def handle_failure(e, log_func=LOG.error):
node.last_error = e
task.process_event('fail')
log_func(_LE("Failed to inspect node %(node)s: %(err)s"),
{'node': node.uuid, 'err': e})
try:
new_state = task.driver.inspect.inspect_hardware(task)
except exception.IronicException as e:
with excutils.save_and_reraise_exception():
error = str(e)
handle_failure(error)
except Exception as e:
error = (_('Unexpected exception of type %(type)s: %(msg)s') %
{'type': type(e).__name__, 'msg': e})
handle_failure(error, log_func=LOG.exception)
raise exception.HardwareInspectionFailure(error=error)
if new_state == states.MANAGEABLE:
task.process_event('done')
LOG.info(_LI('Successfully inspected node %(node)s'),
{'node': node.uuid})
elif new_state != states.INSPECTING:
error = (_("During inspection, driver returned unexpected "
"state %(state)s") % {'state': new_state})
handle_failure(error)
raise exception.HardwareInspectionFailure(error=error)