# Copyright 2014 Rackspace, Inc. # # 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. from urllib import parse as urlparse from ironic_lib import metrics_utils from oslo_log import log from oslo_utils import excutils from oslo_utils import units from ironic.common import exception from ironic.common.glance_service import service_utils from ironic.common.i18n import _ from ironic.common import images from ironic.common import raid from ironic.common import states from ironic.common import utils from ironic.conductor import deployments from ironic.conductor import task_manager from ironic.conductor import utils as manager_utils from ironic.conf import CONF from ironic.drivers import base from ironic.drivers.modules import agent_base from ironic.drivers.modules import boot_mode_utils from ironic.drivers.modules import deploy_utils LOG = log.getLogger(__name__) METRICS = metrics_utils.get_metrics_logger(__name__) REQUIRED_PROPERTIES = { 'deploy_kernel': _('UUID (from Glance) of the deployment kernel. ' 'Required.'), 'deploy_ramdisk': _('UUID (from Glance) of the ramdisk with agent that is ' 'used at deploy time. Required.'), } OPTIONAL_PROPERTIES = { 'image_http_proxy': _('URL of a proxy server for HTTP connections. ' 'Optional.'), 'image_https_proxy': _('URL of a proxy server for HTTPS connections. ' 'Optional.'), 'image_no_proxy': _('A comma-separated list of host names, IP addresses ' 'and domain names (with optional :port) that will be ' 'excluded from proxying. To denote a domain name, use ' 'a dot to prefix the domain name. This value will be ' 'ignored if ``image_http_proxy`` and ' '``image_https_proxy`` are not specified. Optional.'), 'image_download_source': _('Specifies whether direct deploy interface ' 'should try to use the image source directly ' 'or if ironic should cache the image on the ' 'conductor and serve it from ironic\'s own ' 'HTTP server. Accepted values are "swift", ' '"http" and "local". Optional.'), } _RAID_APPLY_CONFIGURATION_ARGSINFO = { "raid_config": { "description": "The RAID configuration to apply.", "required": True, }, "delete_existing": { "description": ( "Setting this to 'True' indicates to delete existing RAID " "configuration prior to creating the new configuration. " "Default value is 'True'." ), "required": False, } } COMMON_PROPERTIES = REQUIRED_PROPERTIES.copy() COMMON_PROPERTIES.update(OPTIONAL_PROPERTIES) COMMON_PROPERTIES.update(agent_base.VENDOR_PROPERTIES) PARTITION_IMAGE_LABELS = ('kernel', 'ramdisk', 'root_gb', 'root_mb', 'swap_mb', 'ephemeral_mb', 'ephemeral_format', 'configdrive', 'preserve_ephemeral', 'image_type', 'deploy_boot_mode') @METRICS.timer('check_image_size') def check_image_size(task, image_source, image_disk_format=None): """Check if the requested image is larger than the ram size. :param task: a TaskManager instance containing the node to act on. :param image_source: href of the image. :param image_disk_format: The disk format of the image if provided :raises: InvalidParameterValue if size of the image is greater than the available ram size. """ node = task.node properties = node.properties # skip check if 'memory_mb' is not defined if 'memory_mb' not in properties: LOG.warning('Skip the image size check as memory_mb is not ' 'defined in properties on node %s.', node.uuid) return image_show = images.image_show(task.context, image_source) if CONF.agent.stream_raw_images and (image_show.get('disk_format') == 'raw' or image_disk_format == 'raw'): LOG.debug('Skip the image size check since the image is going to be ' 'streamed directly onto the disk for node %s', node.uuid) return memory_size = int(properties.get('memory_mb')) image_size = int(image_show['size']) reserved_size = CONF.agent.memory_consumed_by_agent if (image_size + (reserved_size * units.Mi)) > (memory_size * units.Mi): msg = (_('Memory size is too small for requested image, if it is ' 'less than (image size + reserved RAM size), will break ' 'the IPA deployments. Image size: %(image_size)d MiB, ' 'Memory size: %(memory_size)d MiB, Reserved size: ' '%(reserved_size)d MiB.') % {'image_size': image_size / units.Mi, 'memory_size': memory_size, 'reserved_size': reserved_size}) raise exception.InvalidParameterValue(msg) @METRICS.timer('validate_image_proxies') def validate_image_proxies(node): """Check that the provided proxy parameters are valid. :param node: an Ironic node. :raises: InvalidParameterValue if any of the provided proxy parameters are incorrect. """ invalid_proxies = {} for scheme in ('http', 'https'): proxy_param = 'image_%s_proxy' % scheme proxy = node.driver_info.get(proxy_param) if proxy: chunks = urlparse.urlparse(proxy) # NOTE(vdrok) If no scheme specified, this is still a valid # proxy address. It is also possible for a proxy to have a # scheme different from the one specified in the image URL, # e.g. it is possible to use https:// proxy for downloading # http:// image. if chunks.scheme not in ('', 'http', 'https'): invalid_proxies[proxy_param] = proxy msg = '' if invalid_proxies: msg += _("Proxy URL should either have HTTP(S) scheme " "or no scheme at all, the following URLs are " "invalid: %s.") % invalid_proxies no_proxy = node.driver_info.get('image_no_proxy') if no_proxy is not None and not utils.is_valid_no_proxy(no_proxy): msg += _( "image_no_proxy should be a list of host names, IP addresses " "or domain names to exclude from proxying, the specified list " "%s is incorrect. To denote a domain name, prefix it with a dot " "(instead of e.g. '.*').") % no_proxy if msg: raise exception.InvalidParameterValue(msg) def validate_http_provisioning_configuration(node): """Validate configuration options required to perform HTTP provisioning. :param node: an ironic node object :raises: MissingParameterValue if required option(s) is not set. """ image_source = node.instance_info.get('image_source') image_download_source = deploy_utils.get_image_download_source(node) if image_download_source not in ('swift', 'http', 'local'): raise exception.InvalidParameterValue( _('Invalid value for image_download_source: "%s". Valid values ' 'are swift, http or local.') % image_download_source) # NOTE(dtantsur): local HTTP configuration is required in two cases: # 1. Glance images with image_download_source == http # 2. File images (since we need to serve them to IPA) if (not image_source.startswith('file://') and image_download_source != 'local' and (not service_utils.is_glance_image(image_source) or image_download_source == 'swift')): return params = { '[deploy]http_url': CONF.deploy.http_url, '[deploy]http_root': CONF.deploy.http_root, '[deploy]http_image_subdir': CONF.deploy.http_image_subdir } error_msg = _('Node %s failed to validate http provisoning. Some ' 'configuration options were missing') % node.uuid deploy_utils.check_for_missing_params(params, error_msg) class CustomAgentDeploy(agent_base.AgentDeployMixin, agent_base.AgentBaseMixin, base.DeployInterface): """A deploy interface that relies on a custom agent to deploy. Only provides the basic deploy steps to start the ramdisk, tear down the ramdisk and prepare the instance boot. """ def get_properties(self): """Return the properties of the interface. :returns: dictionary of : entries. """ return COMMON_PROPERTIES def should_manage_boot(self, task): """Whether agent boot is managed by ironic.""" return CONF.agent.manage_agent_boot @METRICS.timer('CustomAgentDeploy.validate') def validate(self, task): """Validate the driver-specific Node deployment info. This method validates whether the properties of the supplied node contain the required information for this driver to deploy images to the node. :param task: a TaskManager instance :raises: MissingParameterValue, if any of the required parameters are missing. :raises: InvalidParameterValue, if any of the parameters have invalid value. """ if CONF.agent.manage_agent_boot: task.driver.boot.validate(task) deploy_utils.validate_capabilities(task.node) # Validate the root device hints deploy_utils.get_root_device_for_deploy(task.node) @METRICS.timer('CustomAgentDeploy.deploy') @base.deploy_step(priority=100) @task_manager.require_exclusive_lock def deploy(self, task): """Perform a deployment to a node. Perform the necessary work to deploy an image onto the specified node. This method will be called after prepare(), which may have already performed any preparatory steps, such as pre-caching some data for the node. :param task: a TaskManager instance. :returns: status of the deploy. One of ironic.common.states. """ if manager_utils.is_fast_track(task): # NOTE(mgoddard): For fast track we can skip this step and proceed # immediately to the next deploy step. LOG.debug('Performing a fast track deployment for %(node)s.', {'node': task.node.uuid}) # NOTE(dtantsur): while the node is up and heartbeating, we don't # necessary have the deploy steps cached. Force a refresh here. self.refresh_steps(task, 'deploy') deployments.validate_deploy_steps(task) elif task.driver.storage.should_write_image(task): # Check if the driver has already performed a reboot in a previous # deploy step. if not task.node.driver_internal_info.get('deployment_reboot'): manager_utils.node_power_action(task, states.REBOOT) info = task.node.driver_internal_info info.pop('deployment_reboot', None) task.node.driver_internal_info = info task.node.save() return states.DEPLOYWAIT @METRICS.timer('CustomAgentDeployMixin.prepare_instance_boot') @base.deploy_step(priority=60) @task_manager.require_exclusive_lock def prepare_instance_boot(self, task): """Prepare instance for booting. The base version only calls prepare_instance on the boot interface. """ try: task.driver.boot.prepare_instance(task) except Exception as e: LOG.error('Preparing instance for booting failed for node ' '%(node)s. %(cls)s: %(error)s', {'node': task.node.uuid, 'cls': e.__class__.__name__, 'error': e}) msg = _('Failed to prepare instance for booting') agent_base.log_and_raise_deployment_error(task, msg, exc=e) def _update_instance_info(self, task): """Update instance information with extra data for deploy. Called from `prepare` to populate fields that can be deduced from the already provided information. Does nothing in the base class. """ @METRICS.timer('CustomAgentDeploy.prepare') @task_manager.require_exclusive_lock def prepare(self, task): """Prepare the deployment environment for this node. :param task: a TaskManager instance. :raises: NetworkError: if the previous cleaning ports cannot be removed or if new cleaning ports cannot be created. :raises: InvalidParameterValue when the wrong power state is specified or the wrong driver info is specified for power management. :raises: StorageError If the storage driver is unable to attach the configured volumes. :raises: other exceptions by the node's power driver if something wrong occurred during the power action. :raises: exception.ImageRefValidationFailed if image_source is not Glance href and is not HTTP(S) URL. :raises: exception.InvalidParameterValue if network validation fails. :raises: any boot interface's prepare_ramdisk exceptions. """ node = task.node deploy_utils.populate_storage_driver_internal_info(task) if node.provision_state == states.DEPLOYING: # Validate network interface to ensure that it supports boot # options configured on the node. try: task.driver.network.validate(task) except exception.InvalidParameterValue: # For 'neutron' network interface validation will fail # if node is using 'netboot' boot option while provisioning # a whole disk image. Updating 'boot_option' in node's # 'instance_info' to 'local for backward compatibility. # TODO(stendulker): Fail here once the default boot # option is local. # NOTE(TheJulia): Fixing the default boot mode only # masks the failure as the lack of a user definition # can be perceived as both an invalid configuration and # reliance upon the default configuration. The reality # being that in most scenarios, users do not want network # booting, so the changed default should be valid. with excutils.save_and_reraise_exception(reraise=False) as ctx: instance_info = node.instance_info capabilities = utils.parse_instance_info_capabilities(node) if 'boot_option' not in capabilities: capabilities['boot_option'] = 'local' instance_info['capabilities'] = capabilities node.instance_info = instance_info node.save() # Re-validate the network interface task.driver.network.validate(task) else: ctx.reraise = True # Determine if this is a fast track sequence fast_track_deploy = manager_utils.is_fast_track(task) if fast_track_deploy: # The agent has already recently checked in and we are # configured to take that as an indicator that we can # skip ahead. LOG.debug('The agent for node %(node)s has recently checked ' 'in, and the node power will remain unmodified.', {'node': task.node.uuid}) else: # Powering off node to setup networking for port and # ensure that the state is reset if it is inadvertently # on for any unknown reason. manager_utils.node_power_action(task, states.POWER_OFF) if task.driver.storage.should_write_image(task): # NOTE(vdrok): in case of rebuild, we have tenant network # already configured, unbind tenant ports if present if not fast_track_deploy: power_state_to_restore = ( manager_utils.power_on_node_if_needed(task)) task.driver.network.unconfigure_tenant_networks(task) task.driver.network.add_provisioning_network(task) if not fast_track_deploy: manager_utils.restore_power_state_if_needed( task, power_state_to_restore) else: # Fast track sequence in progress self._update_instance_info(task) # Signal to storage driver to attach volumes task.driver.storage.attach_volumes(task) if (not task.driver.storage.should_write_image(task) or fast_track_deploy): # We have nothing else to do as this is handled in the # backend storage system, and we can return to the caller # as we do not need to boot the agent to deploy. # Alternatively, we could be in a fast track deployment # and again, we should have nothing to do here. return if node.provision_state in (states.ACTIVE, states.UNRESCUING): # Call is due to conductor takeover task.driver.boot.prepare_instance(task) elif node.provision_state != states.ADOPTING: if node.provision_state not in (states.RESCUING, states.RESCUEWAIT, states.RESCUE, states.RESCUEFAIL): self._update_instance_info(task) if CONF.agent.manage_agent_boot: deploy_opts = deploy_utils.build_agent_options(node) task.driver.boot.prepare_ramdisk(task, deploy_opts) @METRICS.timer('CustomAgentDeploy.clean_up') @task_manager.require_exclusive_lock def clean_up(self, task): """Clean up the deployment environment for this node. If preparation of the deployment environment ahead of time is possible, this method should be implemented by the driver. It should erase anything cached by the `prepare` method. If implemented, this method must be idempotent. It may be called multiple times for the same node on the same conductor, and it may be called by multiple conductors in parallel. Therefore, it must not require an exclusive lock. This method is called before `tear_down`. :param task: a TaskManager instance. """ super().clean_up(task) deploy_utils.destroy_http_instance_images(task.node) class AgentDeploy(CustomAgentDeploy): """Interface for deploy-related actions.""" def _update_instance_info(self, task): """Update instance information with extra data for deploy.""" task.node.instance_info = ( deploy_utils.build_instance_info_for_deploy(task)) task.node.save() @METRICS.timer('AgentDeploy.validate') def validate(self, task): """Validate the driver-specific Node deployment info. This method validates whether the properties of the supplied node contain the required information for this driver to deploy images to the node. :param task: a TaskManager instance :raises: MissingParameterValue, if any of the required parameters are missing. :raises: InvalidParameterValue, if any of the parameters have invalid value. """ super().validate(task) node = task.node if not task.driver.storage.should_write_image(task): # NOTE(TheJulia): There is no reason to validate # image properties if we will not be writing an image # in a boot from volume case. As such, return to the caller. LOG.debug('Skipping complete deployment interface validation ' 'for node %s as it is set to boot from a remote ' 'volume.', node.uuid) return params = {} image_source = node.instance_info.get('image_source') image_checksum = node.instance_info.get('image_checksum') image_disk_format = node.instance_info.get('image_disk_format') os_hash_algo = node.instance_info.get('image_os_hash_algo') os_hash_value = node.instance_info.get('image_os_hash_value') params['instance_info.image_source'] = image_source error_msg = _('Node %s failed to validate deploy image info. Some ' 'parameters were missing') % node.uuid deploy_utils.check_for_missing_params(params, error_msg) # NOTE(dtantsur): glance images contain a checksum; for file images we # will recalculate the checksum anyway. if (not service_utils.is_glance_image(image_source) and not image_source.startswith('file://')): def _raise_missing_checksum_exception(node): raise exception.MissingParameterValue(_( 'image_source\'s "image_checksum", or ' '"image_os_hash_algo" and "image_os_hash_value" ' 'must be provided in instance_info for ' 'node %s') % node.uuid) if os_hash_value and not os_hash_algo: # We are missing a piece of information, # so we still need to raise an error. _raise_missing_checksum_exception(node) elif not os_hash_value and os_hash_algo: # We have the hash setting, but not the hash. _raise_missing_checksum_exception(node) elif not os_hash_value and not image_checksum: # We are lacking the original image_checksum, # so we raise the error. _raise_missing_checksum_exception(node) validate_http_provisioning_configuration(node) check_image_size(task, image_source, image_disk_format) validate_image_proxies(node) @METRICS.timer('AgentDeployMixin.write_image') @base.deploy_step(priority=80) @task_manager.require_exclusive_lock def write_image(self, task): if not task.driver.storage.should_write_image(task): return node = task.node image_source = node.instance_info.get('image_source') LOG.debug('Continuing deploy for node %(node)s with image %(img)s', {'node': node.uuid, 'img': image_source}) image_info = { 'id': image_source.split('/')[-1], 'urls': [node.instance_info['image_url']], # NOTE(comstud): Older versions of ironic do not set # 'disk_format' nor 'container_format', so we use .get() # to maintain backwards compatibility in case code was # upgraded in the middle of a build request. 'disk_format': node.instance_info.get('image_disk_format'), 'container_format': node.instance_info.get( 'image_container_format'), 'stream_raw_images': CONF.agent.stream_raw_images, } if node.instance_info.get('image_checksum'): image_info['checksum'] = node.instance_info['image_checksum'] if (node.instance_info.get('image_os_hash_algo') and node.instance_info.get('image_os_hash_value')): image_info['os_hash_algo'] = node.instance_info[ 'image_os_hash_algo'] image_info['os_hash_value'] = node.instance_info[ 'image_os_hash_value'] proxies = {} for scheme in ('http', 'https'): proxy_param = 'image_%s_proxy' % scheme proxy = node.driver_info.get(proxy_param) if proxy: proxies[scheme] = proxy if proxies: image_info['proxies'] = proxies no_proxy = node.driver_info.get('image_no_proxy') if no_proxy is not None: image_info['no_proxy'] = no_proxy image_info['node_uuid'] = node.uuid iwdi = node.driver_internal_info.get('is_whole_disk_image') if not iwdi: for label in PARTITION_IMAGE_LABELS: image_info[label] = node.instance_info.get(label) boot_option = deploy_utils.get_boot_option(node) image_info['deploy_boot_mode'] = ( boot_mode_utils.get_boot_mode(node)) image_info['boot_option'] = boot_option disk_label = deploy_utils.get_disk_label(node) if disk_label is not None: image_info['disk_label'] = disk_label configdrive = node.instance_info.get('configdrive') # Now switch into the corresponding in-band deploy step and let the # result be polled normally. new_step = {'interface': 'deploy', 'step': 'write_image', 'args': {'image_info': image_info, 'configdrive': configdrive}} return agent_base.execute_step(task, new_step, 'deploy', client=self._client) @METRICS.timer('AgentDeployMixin.prepare_instance_boot') @base.deploy_step(priority=60) @task_manager.require_exclusive_lock def prepare_instance_boot(self, task): if not task.driver.storage.should_write_image(task): task.driver.boot.prepare_instance(task) # Move straight to the final steps return node = task.node iwdi = task.node.driver_internal_info.get('is_whole_disk_image') cpu_arch = task.node.properties.get('cpu_arch') # If `boot_option` is set to `netboot`, PXEBoot.prepare_instance() # would need root_uuid of the whole disk image to add it into the # pxe config to perform chain boot. # IPA would have returned us the 'root_uuid_or_disk_id' if image # being provisioned is a whole disk image. IPA would also provide us # 'efi_system_partition_uuid' if the image being provisioned is a # partition image. # In case of local boot using partition image, we need both # 'root_uuid_or_disk_id' and 'efi_system_partition_uuid' to configure # bootloader for local boot. # NOTE(mjturek): In the case of local boot using a partition image on # ppc64* hardware we need to provide the 'PReP_Boot_partition_uuid' to # direct where the bootloader should be installed. driver_internal_info = task.node.driver_internal_info partition_uuids = self._client.get_partition_uuids(node).get( 'command_result') or {} root_uuid = partition_uuids.get('root uuid') if root_uuid: driver_internal_info['root_uuid_or_disk_id'] = root_uuid task.node.driver_internal_info = driver_internal_info task.node.save() elif not iwdi: LOG.error('No root UUID returned from the ramdisk for node ' '%(node)s, the deploy will likely fail. Partition ' 'UUIDs are %(uuids)s', {'node': node.uuid, 'uuid': partition_uuids}) efi_sys_uuid = None if not iwdi: if boot_mode_utils.get_boot_mode(node) == 'uefi': efi_sys_uuid = partition_uuids.get( 'efi system partition uuid') prep_boot_part_uuid = None if cpu_arch is not None and cpu_arch.startswith('ppc64'): prep_boot_part_uuid = partition_uuids.get( 'PReP Boot partition uuid') LOG.info('Image successfully written to node %s', node.uuid) if CONF.agent.manage_agent_boot: # It is necessary to invoke prepare_instance() of the node's # boot interface, so that the any necessary configurations like # setting of the boot mode (e.g. UEFI secure boot) which cannot # be done on node during deploy stage can be performed. LOG.debug('Executing driver specific tasks before booting up the ' 'instance for node %s', node.uuid) self.prepare_instance_to_boot(task, root_uuid, efi_sys_uuid, prep_boot_part_uuid) else: manager_utils.node_set_boot_device(task, 'disk', persistent=True) # Remove symbolic link when deploy is done. deploy_utils.remove_http_instance_symlink(task.node.uuid) class AgentRAID(base.RAIDInterface): """Implementation of RAIDInterface which uses agent ramdisk.""" def get_properties(self): """Return the properties of the interface.""" return {} @METRICS.timer('AgentRAID.get_clean_steps') def get_clean_steps(self, task): """Get the list of clean steps from the agent. :param task: a TaskManager object containing the node :raises NodeCleaningFailure: if the clean steps are not yet available (cached), for example, when a node has just been enrolled and has not been cleaned yet. :returns: A list of clean step dictionaries """ new_priorities = { 'delete_configuration': CONF.deploy.delete_configuration_priority, 'create_configuration': CONF.deploy.create_configuration_priority } return agent_base.get_steps( task, 'clean', interface='raid', override_priorities=new_priorities) @METRICS.timer('AgentRAID.get_deploy_steps') def get_deploy_steps(self, task): """Get the list of deploy steps from the agent. :param task: a TaskManager object containing the node :raises InstanceDeployFailure: if the deploy steps are not yet available (cached), for example, when a node has just been enrolled and has not been deployed yet. :returns: A list of deploy step dictionaries """ return agent_base.get_steps(task, 'deploy', interface='raid') @METRICS.timer('AgentRAID.apply_configuration') @base.deploy_step(priority=0, argsinfo=_RAID_APPLY_CONFIGURATION_ARGSINFO) def apply_configuration(self, task, raid_config, delete_existing=True): """Applies RAID configuration on the given node. :param task: A TaskManager instance. :param raid_config: The RAID configuration to apply. :param delete_existing: Setting this to True indicates to delete RAID configuration prior to creating the new configuration. :raises: InvalidParameterValue, if the RAID configuration is invalid. :returns: states.DEPLOYWAIT if RAID configuration is in progress asynchronously or None if it is complete. """ self.validate_raid_config(task, raid_config) step = task.node.deploy_step return agent_base.execute_step(task, step, 'deploy') @METRICS.timer('AgentRAID.create_configuration') @base.clean_step(priority=0) def create_configuration(self, task, create_root_volume=True, create_nonroot_volumes=True): """Create a RAID configuration on a bare metal using agent ramdisk. This method creates a RAID configuration on the given node. :param task: a TaskManager instance. :param create_root_volume: If True, a root volume is created during RAID configuration. Otherwise, no root volume is created. Default is True. :param create_nonroot_volumes: If True, non-root volumes are created. If False, no non-root volumes are created. Default is True. :returns: states.CLEANWAIT if operation was successfully invoked. :raises: MissingParameterValue, if node.target_raid_config is missing or was found to be empty after skipping root volume and/or non-root volumes. """ node = task.node LOG.debug("Agent RAID create_configuration invoked for node %(node)s " "with create_root_volume=%(create_root_volume)s and " "create_nonroot_volumes=%(create_nonroot_volumes)s with the " "following target_raid_config: %(target_raid_config)s.", {'node': node.uuid, 'create_root_volume': create_root_volume, 'create_nonroot_volumes': create_nonroot_volumes, 'target_raid_config': node.target_raid_config}) target_raid_config = raid.filter_target_raid_config( node, create_root_volume=create_root_volume, create_nonroot_volumes=create_nonroot_volumes) # Rewrite it back to the node object, but no need to save it as # we need to just send this to the agent ramdisk. node.driver_internal_info['target_raid_config'] = target_raid_config LOG.debug("Calling agent RAID create_configuration for node %(node)s " "with the following target RAID configuration: %(target)s", {'node': node.uuid, 'target': target_raid_config}) step = node.clean_step return agent_base.execute_clean_step(task, step) @staticmethod @agent_base.post_clean_step_hook( interface='raid', step='create_configuration') @agent_base.post_deploy_step_hook( interface='raid', step='apply_configuration') def _create_configuration_final(task, command): """Clean step hook after a RAID configuration was created. This method is invoked as a post clean step hook by the Ironic conductor once a create raid configuration is completed successfully. The node (properties, capabilities, RAID information) will be updated to reflect the actual RAID configuration that was created. :param task: a TaskManager instance. :param command: A command result structure of the RAID operation returned from agent ramdisk on query of the status of command(s). :raises: InvalidParameterValue, if 'current_raid_config' has more than one root volume or if node.properties['capabilities'] is malformed. :raises: IronicException, if clean_result couldn't be found within the 'command' argument passed. """ try: if task.node.provision_state == states.DEPLOYWAIT: result = command['command_result']['deploy_result'] else: result = command['command_result']['clean_result'] except KeyError: result = None if not result: raise exception.IronicException( _("Agent ramdisk didn't return a proper command result while " "building RAID on %(node)s. It returned '%(result)s' after " "command execution.") % {'node': task.node.uuid, 'result': command}) raid.update_raid_info(task.node, result) @METRICS.timer('AgentRAID.delete_configuration') @base.clean_step(priority=0) def delete_configuration(self, task): """Deletes RAID configuration on the given node. :param task: a TaskManager instance. :returns: states.CLEANWAIT if operation was successfully invoked """ LOG.debug("Agent RAID delete_configuration invoked for node %s.", task.node.uuid) step = task.node.clean_step return agent_base.execute_clean_step(task, step) @staticmethod @agent_base.post_clean_step_hook( interface='raid', step='delete_configuration') def _delete_configuration_final(task, command): """Clean step hook after RAID configuration was deleted. This method is invoked as a post clean step hook by the Ironic conductor once a delete raid configuration is completed successfully. It sets node.raid_config to empty dictionary. :param task: a TaskManager instance. :param command: A command result structure of the RAID operation returned from agent ramdisk on query of the status of command(s). :returns: None """ prop = task.node.properties prop.pop('root_device', None) task.node.properties = prop task.node.raid_config = {} task.node.save() class AgentRescue(base.RescueInterface): """Implementation of RescueInterface which uses agent ramdisk.""" def get_properties(self): """Return the properties of the interface. """ return {} @METRICS.timer('AgentRescue.rescue') @task_manager.require_exclusive_lock def rescue(self, task): """Boot a rescue ramdisk on the node. :param task: a TaskManager instance. :raises: NetworkError if the tenant ports cannot be removed. :raises: InvalidParameterValue when the wrong power state is specified or the wrong driver info is specified for power management. :raises: other exceptions by the node's power driver if something wrong occurred during the power action. :raises: any boot interface's prepare_ramdisk exceptions. :returns: Returns states.RESCUEWAIT """ manager_utils.node_power_action(task, states.POWER_OFF) # NOTE(TheJulia): Revealing that the power is off at any time can # cause external power sync to decide that the node must be off. # This may result in a post-rescued instance being turned off # unexpectedly after rescue has started. # TODO(TheJulia): Once we have power/state callbacks to nova, # the reset of the power_state can be removed. task.node.power_state = states.POWER_ON task.node.save() task.driver.boot.clean_up_instance(task) with manager_utils.power_state_for_network_configuration(task): task.driver.network.unconfigure_tenant_networks(task) task.driver.network.add_rescuing_network(task) if CONF.agent.manage_agent_boot: ramdisk_opts = deploy_utils.build_agent_options(task.node) # prepare_ramdisk will set the boot device task.driver.boot.prepare_ramdisk(task, ramdisk_opts) manager_utils.node_power_action(task, states.POWER_ON) return states.RESCUEWAIT @METRICS.timer('AgentRescue.unrescue') @task_manager.require_exclusive_lock def unrescue(self, task): """Attempt to move a rescued node back to active state. :param task: a TaskManager instance. :raises: NetworkError if the rescue ports cannot be removed. :raises: InvalidParameterValue when the wrong power state is specified or the wrong driver info is specified for power management. :raises: other exceptions by the node's power driver if something wrong occurred during the power action. :raises: any boot interface's prepare_instance exceptions. :returns: Returns states.ACTIVE """ manager_utils.node_power_action(task, states.POWER_OFF) # NOTE(TheJulia): Revealing that the power is off at any time can # cause external power sync to decide that the node must be off. # This may result in a post-rescued insance being turned off # unexpectedly after unrescue. # TODO(TheJulia): Once we have power/state callbacks to nova, # the reset of the power_state can be removed. task.node.power_state = states.POWER_ON task.node.save() self.clean_up(task) with manager_utils.power_state_for_network_configuration(task): task.driver.network.configure_tenant_networks(task) task.driver.boot.prepare_instance(task) manager_utils.node_power_action(task, states.POWER_ON) return states.ACTIVE @METRICS.timer('AgentRescue.validate') def validate(self, task): """Validate that the node has required properties for agent rescue. :param task: a TaskManager instance with the node being checked :raises: InvalidParameterValue if 'instance_info/rescue_password' has empty password or rescuing network UUID config option has an invalid value. :raises: MissingParameterValue if node is missing one or more required parameters """ # Validate rescuing network task.driver.network.validate_rescue(task) if CONF.agent.manage_agent_boot: # Validate boot properties task.driver.boot.validate(task) # Validate boot properties related to rescue task.driver.boot.validate_rescue(task) node = task.node rescue_pass = node.instance_info.get('rescue_password') if rescue_pass is None: msg = _("Node %(node)s is missing " "'instance_info/rescue_password'. " "It is required for rescuing node.") raise exception.MissingParameterValue(msg % {'node': node.uuid}) if not rescue_pass.strip(): msg = (_("The 'instance_info/rescue_password' is an empty string " "for node %s. The 'rescue_password' must be a non-empty " "string value.") % node.uuid) raise exception.InvalidParameterValue(msg) @METRICS.timer('AgentRescue.clean_up') def clean_up(self, task): """Clean up after RESCUEWAIT timeout/failure or finishing rescue. Rescue password should be removed from the node and ramdisk boot environment should be cleaned if Ironic is managing the ramdisk boot. :param task: a TaskManager instance with the node. :raises: NetworkError if the rescue ports cannot be removed. """ manager_utils.remove_node_rescue_password(task.node, save=True) if CONF.agent.manage_agent_boot: task.driver.boot.clean_up_ramdisk(task) with manager_utils.power_state_for_network_configuration(task): task.driver.network.remove_rescuing_network(task)