# Copyright (c) 2012 NTT DOCOMO, INC.
# 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.
import contextlib
import glob
import os
import re
import time
from ironic_lib import disk_utils
from ironic_lib import metrics_utils
from ironic_lib import utils as il_utils
from oslo_concurrency import processutils
from oslo_log import log as logging
from oslo_utils import excutils
from oslo_utils import fileutils
from oslo_utils import netutils
from oslo_utils import strutils
import six
from ironic.common import exception
from ironic.common import faults
from ironic.common.glance_service import service_utils
from ironic.common.i18n import _
from ironic.common import image_service
from ironic.common import keystone
from ironic.common import states
from ironic.common import utils
from ironic.conductor import utils as manager_utils
from ironic.conf import CONF
from ironic.drivers.modules import agent_client
from ironic.drivers.modules import boot_mode_utils
from ironic.drivers.modules import image_cache
from ironic.drivers import utils as driver_utils
from ironic import objects
# TODO(Faizan): Move this logic to common/utils.py and deprecate
# rootwrap_config.
# This is required to set the default value of ironic_lib option
# only if rootwrap_config does not contain the default value.
if CONF.rootwrap_config != '/etc/ironic/rootwrap.conf':
root_helper = 'sudo ironic-rootwrap %s' % CONF.rootwrap_config
CONF.set_default('root_helper', root_helper, 'ironic_lib')
LOG = logging.getLogger(__name__)
METRICS = metrics_utils.get_metrics_logger(__name__)
SUPPORTED_CAPABILITIES = {
'boot_option': ('local', 'netboot', 'ramdisk'),
'boot_mode': ('bios', 'uefi'),
'secure_boot': ('true', 'false'),
'trusted_boot': ('true', 'false'),
'disk_label': ('msdos', 'gpt'),
}
# States related to rescue mode.
RESCUE_LIKE_STATES = (states.RESCUING, states.RESCUEWAIT, states.RESCUEFAIL,
states.UNRESCUING, states.UNRESCUEFAIL)
DISK_LAYOUT_PARAMS = ('root_gb', 'swap_mb', 'ephemeral_gb')
# All functions are called from deploy() directly or indirectly.
# They are split for stub-out.
_IRONIC_SESSION = None
def _get_ironic_session():
global _IRONIC_SESSION
if not _IRONIC_SESSION:
_IRONIC_SESSION = keystone.get_session('service_catalog')
return _IRONIC_SESSION
# TODO(dtantsur): just use CONF.iscsi.verify_attempts when
# iscsi_verify_attempts is removed from ironic-lib.
def _iscsi_verify_attempts():
# Be prepared for eventual removal, hardcode the default of 3
return (getattr(CONF.disk_utils, 'iscsi_verify_attempts', 3)
if CONF.iscsi.verify_attempts is None
else CONF.iscsi.verify_attempts)
def _wrap_ipv6(ip):
if netutils.is_valid_ipv6(ip):
return "[%s]" % ip
return ip
[docs]def get_ironic_api_url():
"""Resolve Ironic API endpoint
either from config of from Keystone catalog.
"""
adapter_opts = {'session': _get_ironic_session()}
# NOTE(pas-ha) force 'none' auth plugin for noauth mode
if CONF.auth_strategy != 'keystone':
CONF.set_override('auth_type', 'none', group='service_catalog')
adapter_opts['auth'] = keystone.get_auth('service_catalog')
# TODO(pas-ha) remove in Rocky
# NOTE(pas-ha) if both set, the new options win
if CONF.conductor.api_url and not CONF.service_catalog.endpoint_override:
adapter_opts['endpoint_override'] = CONF.conductor.api_url
try:
ironic_api = keystone.get_endpoint('service_catalog', **adapter_opts)
except (exception.KeystoneFailure,
exception.CatalogNotFound,
exception.KeystoneUnauthorized) as e:
raise exception.InvalidParameterValue(_(
"Couldn't get the URL of the Ironic API service from the "
"configuration file or keystone catalog. Keystone error: "
"%s") % six.text_type(e))
# NOTE: we should strip '/' from the end because it might be used in
# hardcoded ramdisk script
ironic_api = ironic_api.rstrip('/')
return ironic_api
[docs]def rescue_or_deploy_mode(node):
return ('rescue' if node.provision_state in RESCUE_LIKE_STATES
else 'deploy')
[docs]def discovery(portal_address, portal_port):
"""Do iSCSI discovery on portal."""
utils.execute('iscsiadm',
'-m', 'discovery',
'-t', 'st',
'-p', '%s:%s' % (_wrap_ipv6(portal_address), portal_port),
run_as_root=True,
check_exit_code=[0],
attempts=5,
delay_on_retry=True)
[docs]def login_iscsi(portal_address, portal_port, target_iqn):
"""Login to an iSCSI target."""
utils.execute('iscsiadm',
'-m', 'node',
'-p', '%s:%s' % (_wrap_ipv6(portal_address), portal_port),
'-T', target_iqn,
'--login',
run_as_root=True,
check_exit_code=[0],
attempts=5,
delay_on_retry=True)
error_occurred = False
try:
# Ensure the login complete
verify_iscsi_connection(target_iqn)
# force iSCSI initiator to re-read luns
force_iscsi_lun_update(target_iqn)
# ensure file system sees the block device
check_file_system_for_iscsi_device(portal_address,
portal_port,
target_iqn)
except (exception.InstanceDeployFailure,
processutils.ProcessExecutionError) as e:
with excutils.save_and_reraise_exception():
error_occurred = True
LOG.error("Failed to login to an iSCSI target due to %s", e)
finally:
if error_occurred:
try:
logout_iscsi(portal_address, portal_port, target_iqn)
delete_iscsi(portal_address, portal_port, target_iqn)
except processutils.ProcessExecutionError as e:
LOG.warning("An error occurred when trying to cleanup "
"failed ISCSI session error %s", e)
[docs]def check_file_system_for_iscsi_device(portal_address,
portal_port,
target_iqn):
"""Ensure the file system sees the iSCSI block device."""
check_dir = "/dev/disk/by-path/ip-%s:%s-iscsi-%s-lun-1" % (portal_address,
portal_port,
target_iqn)
total_checks = _iscsi_verify_attempts()
for attempt in range(total_checks):
if os.path.exists(check_dir):
break
time.sleep(1)
if LOG.isEnabledFor(logging.DEBUG):
existing_devs = ', '.join(glob.iglob('/dev/disk/by-path/*iscsi*'))
LOG.debug("iSCSI connection not seen by file system. Rechecking. "
"Attempt %(attempt)d out of %(total)d. Available iSCSI "
"devices: %(devs)s.",
{"attempt": attempt + 1,
"total": total_checks,
"devs": existing_devs})
else:
msg = _("iSCSI connection was not seen by the file system after "
"attempting to verify %d times.") % total_checks
LOG.error(msg)
raise exception.InstanceDeployFailure(msg)
[docs]def verify_iscsi_connection(target_iqn):
"""Verify iscsi connection."""
LOG.debug("Checking for iSCSI target to become active.")
total_checks = _iscsi_verify_attempts()
for attempt in range(total_checks):
out, _err = utils.execute('iscsiadm',
'-m', 'node',
'-S',
run_as_root=True,
check_exit_code=[0])
if target_iqn in out:
break
time.sleep(1)
LOG.debug("iSCSI connection not active. Rechecking. Attempt "
"%(attempt)d out of %(total)d",
{"attempt": attempt + 1, "total": total_checks})
else:
msg = _("iSCSI connection did not become active after attempting to "
"verify %d times.") % total_checks
LOG.error(msg)
raise exception.InstanceDeployFailure(msg)
[docs]def force_iscsi_lun_update(target_iqn):
"""force iSCSI initiator to re-read luns."""
LOG.debug("Re-reading iSCSI luns.")
utils.execute('iscsiadm',
'-m', 'node',
'-T', target_iqn,
'-R',
run_as_root=True,
check_exit_code=[0])
[docs]def logout_iscsi(portal_address, portal_port, target_iqn):
"""Logout from an iSCSI target."""
utils.execute('iscsiadm',
'-m', 'node',
'-p', '%s:%s' % (_wrap_ipv6(portal_address), portal_port),
'-T', target_iqn,
'--logout',
run_as_root=True,
check_exit_code=[0],
attempts=5,
delay_on_retry=True)
[docs]def delete_iscsi(portal_address, portal_port, target_iqn):
"""Delete the iSCSI target."""
# Retry delete until it succeeds (exit code 0) or until there is
# no longer a target to delete (exit code 21).
utils.execute('iscsiadm',
'-m', 'node',
'-p', '%s:%s' % (_wrap_ipv6(portal_address), portal_port),
'-T', target_iqn,
'-o', 'delete',
run_as_root=True,
check_exit_code=[0, 21],
attempts=5,
delay_on_retry=True)
def _replace_lines_in_file(path, regex_pattern, replacement):
with open(path) as f:
lines = f.readlines()
compiled_pattern = re.compile(regex_pattern)
with open(path, 'w') as f:
for line in lines:
line = compiled_pattern.sub(replacement, line)
f.write(line)
def _replace_root_uuid(path, root_uuid):
root = 'UUID=%s' % root_uuid
pattern = r'(\(\(|\{\{) ROOT (\)\)|\}\})'
_replace_lines_in_file(path, pattern, root)
def _replace_boot_line(path, boot_mode, is_whole_disk_image,
trusted_boot=False, iscsi_boot=False,
ramdisk_boot=False, ipxe_enabled=False):
if is_whole_disk_image:
boot_disk_type = 'boot_whole_disk'
elif trusted_boot:
boot_disk_type = 'trusted_boot'
elif iscsi_boot:
boot_disk_type = 'boot_iscsi'
elif ramdisk_boot:
boot_disk_type = 'boot_ramdisk'
else:
boot_disk_type = 'boot_partition'
if boot_mode == 'uefi' and not ipxe_enabled:
pattern = '^((set )?default)=.*$'
boot_line = '\\1=%s' % boot_disk_type
else:
pxe_cmd = 'goto' if ipxe_enabled else 'default'
pattern = '^%s .*$' % pxe_cmd
boot_line = '%s %s' % (pxe_cmd, boot_disk_type)
_replace_lines_in_file(path, pattern, boot_line)
def _replace_disk_identifier(path, disk_identifier):
pattern = r'(\(\(|\{\{) DISK_IDENTIFIER (\)\)|\}\})'
_replace_lines_in_file(path, pattern, disk_identifier)
# NOTE(TheJulia): This should likely be migrated to pxe_utils.
[docs]def switch_pxe_config(path, root_uuid_or_disk_id, boot_mode,
is_whole_disk_image, trusted_boot=False,
iscsi_boot=False, ramdisk_boot=False,
ipxe_enabled=False):
"""Switch a pxe config from deployment mode to service mode.
:param path: path to the pxe config file in tftpboot.
:param root_uuid_or_disk_id: root uuid in case of partition image or
disk_id in case of whole disk image.
:param boot_mode: if boot mode is uefi or bios.
:param is_whole_disk_image: if the image is a whole disk image or not.
:param trusted_boot: if boot with trusted_boot or not. The usage of
is_whole_disk_image and trusted_boot are mutually exclusive. You can
have one or neither, but not both.
:param iscsi_boot: if boot is from an iSCSI volume or not.
:param ramdisk_boot: if the boot is to be to a ramdisk configuration.
:param ipxe_enabled: A default False boolean value to tell the method
if the caller is using iPXE.
"""
if not ramdisk_boot:
if not is_whole_disk_image:
_replace_root_uuid(path, root_uuid_or_disk_id)
else:
_replace_disk_identifier(path, root_uuid_or_disk_id)
_replace_boot_line(path, boot_mode, is_whole_disk_image, trusted_boot,
iscsi_boot, ramdisk_boot, ipxe_enabled)
[docs]def get_dev(address, port, iqn, lun):
"""Returns a device path for given parameters."""
dev = ("/dev/disk/by-path/ip-%s:%s-iscsi-%s-lun-%s"
% (address, port, iqn, lun))
return dev
[docs]def deploy_partition_image(
address, port, iqn, lun, image_path,
root_mb, swap_mb, ephemeral_mb, ephemeral_format, node_uuid,
preserve_ephemeral=False, configdrive=None,
boot_option=None, boot_mode="bios", disk_label=None,
cpu_arch=""):
"""All-in-one function to deploy a partition image to a node.
:param address: The iSCSI IP address.
:param port: The iSCSI port number.
:param iqn: The iSCSI qualified name.
:param lun: The iSCSI logical unit number.
:param image_path: Path for the instance's disk image.
:param root_mb: Size of the root partition in megabytes.
:param swap_mb: Size of the swap partition in megabytes.
:param ephemeral_mb: Size of the ephemeral partition in megabytes. If 0,
no ephemeral partition will be created.
:param ephemeral_format: The type of file system to format the ephemeral
partition.
:param node_uuid: node's uuid. Used for logging.
:param preserve_ephemeral: If True, no filesystem is written to the
ephemeral block device, preserving whatever
content it had (if the partition table has
not changed).
:param configdrive: Optional. Base64 encoded Gzipped configdrive content
or configdrive HTTP URL.
:param boot_option: Can be "local" or "netboot".
"netboot" by default.
:param boot_mode: Can be "bios" or "uefi". "bios" by default.
:param disk_label: The disk label to be used when creating the
partition table. Valid values are: "msdos",
"gpt" or None; If None ironic will figure it
out according to the boot_mode parameter.
:param cpu_arch: Architecture of the node being deployed to.
:raises: InstanceDeployFailure if image virtual size is bigger than root
partition size.
:returns: a dictionary containing the following keys:
'root uuid': UUID of root partition
'efi system partition uuid': UUID of the uefi system partition
(if boot mode is uefi).
NOTE: If key exists but value is None, it means partition doesn't
exist.
"""
boot_option = boot_option or get_default_boot_option()
image_mb = disk_utils.get_image_mb(image_path)
if image_mb > root_mb:
msg = (_('Root partition is too small for requested image. Image '
'virtual size: %(image_mb)d MB, Root size: %(root_mb)d MB')
% {'image_mb': image_mb, 'root_mb': root_mb})
raise exception.InstanceDeployFailure(msg)
with _iscsi_setup_and_handle_errors(address, port, iqn, lun) as dev:
uuid_dict_returned = disk_utils.work_on_disk(
dev, root_mb, swap_mb, ephemeral_mb, ephemeral_format, image_path,
node_uuid, preserve_ephemeral=preserve_ephemeral,
configdrive=configdrive, boot_option=boot_option,
boot_mode=boot_mode, disk_label=disk_label, cpu_arch=cpu_arch)
return uuid_dict_returned
[docs]def deploy_disk_image(address, port, iqn, lun,
image_path, node_uuid, configdrive=None,
conv_flags=None):
"""All-in-one function to deploy a whole disk image to a node.
:param address: The iSCSI IP address.
:param port: The iSCSI port number.
:param iqn: The iSCSI qualified name.
:param lun: The iSCSI logical unit number.
:param image_path: Path for the instance's disk image.
:param node_uuid: node's uuid.
:param configdrive: Optional. Base64 encoded Gzipped configdrive content
or configdrive HTTP URL.
:param conv_flags: Optional. Add a flag that will modify the behaviour of
the image copy to disk.
:returns: a dictionary containing the key 'disk identifier' to identify
the disk which was used for deployment.
"""
with _iscsi_setup_and_handle_errors(address, port, iqn,
lun) as dev:
disk_utils.populate_image(image_path, dev, conv_flags=conv_flags)
if configdrive:
disk_utils.create_config_drive_partition(node_uuid, dev,
configdrive)
disk_identifier = disk_utils.get_disk_identifier(dev)
return {'disk identifier': disk_identifier}
@contextlib.contextmanager
def _iscsi_setup_and_handle_errors(address, port, iqn, lun):
"""Function that yields an iSCSI target device to work on.
:param address: The iSCSI IP address.
:param port: The iSCSI port number.
:param iqn: The iSCSI qualified name.
:param lun: The iSCSI logical unit number.
"""
dev = get_dev(address, port, iqn, lun)
discovery(address, port)
login_iscsi(address, port, iqn)
if not disk_utils.is_block_device(dev):
raise exception.InstanceDeployFailure(_("Parent device '%s' not found")
% dev)
try:
yield dev
except processutils.ProcessExecutionError as err:
with excutils.save_and_reraise_exception():
LOG.error("Deploy to address %s failed.", address)
LOG.error("Command: %s", err.cmd)
LOG.error("StdOut: %r", err.stdout)
LOG.error("StdErr: %r", err.stderr)
except exception.InstanceDeployFailure as e:
with excutils.save_and_reraise_exception():
LOG.error("Deploy to address %s failed.", address)
LOG.error(e)
finally:
logout_iscsi(address, port, iqn)
delete_iscsi(address, port, iqn)
[docs]def check_for_missing_params(info_dict, error_msg, param_prefix=''):
"""Check for empty params in the provided dictionary.
:param info_dict: The dictionary to inspect.
:param error_msg: The error message to prefix before printing the
information about missing parameters.
:param param_prefix: Add this prefix to each parameter for error messages
:raises: MissingParameterValue, if one or more parameters are
empty in the provided dictionary.
"""
missing_info = []
for label, value in info_dict.items():
if not value:
missing_info.append(param_prefix + label)
if missing_info:
exc_msg = _("%(error_msg)s. Missing are: %(missing_info)s")
raise exception.MissingParameterValue(
exc_msg % {'error_msg': error_msg,
'missing_info': missing_info})
[docs]def fetch_images(ctx, cache, images_info, force_raw=True):
"""Check for available disk space and fetch images using ImageCache.
:param ctx: context
:param cache: ImageCache instance to use for fetching
:param images_info: list of tuples (image href, destination path)
:param force_raw: boolean value, whether to convert the image to raw
format
:raises: InstanceDeployFailure if unable to find enough disk space
"""
try:
image_cache.clean_up_caches(ctx, cache.master_dir, images_info)
except exception.InsufficientDiskSpace as e:
raise exception.InstanceDeployFailure(reason=e)
# NOTE(dtantsur): This code can suffer from race condition,
# if disk space is used between the check and actual download.
# This is probably unavoidable, as we can't control other
# (probably unrelated) processes
for href, path in images_info:
cache.fetch_image(href, path, ctx=ctx, force_raw=force_raw)
[docs]def set_failed_state(task, msg, collect_logs=True):
"""Sets the deploy status as failed with relevant messages.
This method sets the deployment as fail with the given message.
It sets node's provision_state to DEPLOYFAIL and updates last_error
with the given error message. It also powers off the baremetal node.
:param task: a TaskManager instance containing the node to act on.
:param msg: the message to set in logs and last_error of the node.
:param collect_logs: Boolean indicating whether to attempt to collect
logs from IPA-based ramdisk. Defaults to True.
Actual log collection is also affected by
CONF.agent.deploy_logs_collect config option.
"""
node = task.node
if (collect_logs
and CONF.agent.deploy_logs_collect in ('on_failure', 'always')):
driver_utils.collect_ramdisk_logs(node)
try:
manager_utils.deploying_error_handler(task, msg, msg, clean_up=False)
except exception.InvalidState:
msg2 = ('Internal error. Node %(node)s in provision state '
'"%(state)s" could not transition to a failed state.'
% {'node': node.uuid, 'state': node.provision_state})
LOG.exception(msg2)
if CONF.deploy.power_off_after_deploy_failure:
try:
manager_utils.node_power_action(task, states.POWER_OFF)
except Exception:
msg2 = ('Node %s failed to power off while handling deploy '
'failure. This may be a serious condition. Node '
'should be removed from Ironic or put in maintenance '
'mode until the problem is resolved.' % node.uuid)
LOG.exception(msg2)
# NOTE(deva): node_power_action() erases node.last_error
# so we need to set it here.
node.last_error = msg
node.save()
[docs]def get_single_nic_with_vif_port_id(task):
"""Returns the MAC address of a port which has a VIF port id.
:param task: a TaskManager instance containing the ports to act on.
:returns: MAC address of the port connected to deployment network.
None if it cannot find any port with vif id.
"""
# NOTE(vdrok): We are booting the node only in one network at a time,
# and presence of cleaning_vif_port_id means we're doing cleaning, of
# provisioning_vif_port_id - provisioning. Otherwise it's a tenant network
for port in task.ports:
if task.driver.network.get_current_vif(task, port):
return port.address
[docs]def agent_get_clean_steps(task, interface=None, override_priorities=None):
"""Get the list of cached clean steps from the agent.
#TODO(JoshNang) move to BootInterface
The clean steps cache is updated at the beginning of cleaning.
:param task: a TaskManager object containing the node
:param interface: The interface for which clean steps
are to be returned. If this is not provided, it returns the
clean steps for all interfaces.
:param override_priorities: a dictionary with keys being step names and
values being new priorities for them. If a step isn't in this
dictionary, the step's original priority is used.
:raises NodeCleaningFailure: if the clean steps are not yet cached,
for example, when a node has just been enrolled and has not been
cleaned yet.
:returns: A list of clean step dictionaries
"""
node = task.node
try:
all_steps = node.driver_internal_info['agent_cached_clean_steps']
except KeyError:
raise exception.NodeCleaningFailure(_('Cleaning steps are not yet '
'available for node %(node)s')
% {'node': node.uuid})
if interface:
steps = [step.copy() for step in all_steps.get(interface, [])]
else:
steps = [step.copy() for step_list in all_steps.values()
for step in step_list]
if not steps or not override_priorities:
return steps
for step in steps:
new_priority = override_priorities.get(step.get('step'))
if new_priority is not None:
step['priority'] = new_priority
return steps
[docs]def agent_execute_clean_step(task, step):
"""Execute a clean step asynchronously on the agent.
#TODO(JoshNang) move to BootInterface
:param task: a TaskManager object containing the node
:param step: a clean step dictionary to execute
:raises: NodeCleaningFailure if the agent does not return a command status
:returns: states.CLEANWAIT to signify the step will be completed async
"""
client = agent_client.AgentClient()
ports = objects.Port.list_by_node_id(
task.context, task.node.id)
result = client.execute_clean_step(step, task.node, ports)
if not result.get('command_status'):
raise exception.NodeCleaningFailure(_(
'Agent on node %(node)s returned bad command result: '
'%(result)s') % {'node': task.node.uuid,
'result': result.get('command_error')})
return states.CLEANWAIT
[docs]def agent_add_clean_params(task):
"""Add required config parameters to node's driver_internal_info.
Adds the required conf options to node's driver_internal_info.
It is Required to pass the information to IPA.
:param task: a TaskManager instance.
"""
info = task.node.driver_internal_info
random_iterations = CONF.deploy.shred_random_overwrite_iterations
info['agent_erase_devices_iterations'] = random_iterations
zeroize = CONF.deploy.shred_final_overwrite_with_zeros
info['agent_erase_devices_zeroize'] = zeroize
erase_fallback = CONF.deploy.continue_if_disk_secure_erase_fails
info['agent_continue_if_ata_erase_failed'] = erase_fallback
secure_erase = CONF.deploy.enable_ata_secure_erase
info['agent_enable_ata_secure_erase'] = secure_erase
info['disk_erasure_concurrency'] = CONF.deploy.disk_erasure_concurrency
task.node.driver_internal_info = info
task.node.save()
[docs]def try_set_boot_device(task, device, persistent=True):
"""Tries to set the boot device on the node.
This method tries to set the boot device on the node to the given
boot device. Under uefi boot mode, setting of boot device may differ
between different machines. IPMI does not work for setting boot
devices in uefi mode for certain machines. This method ignores the
expected IPMI failure for uefi boot mode and just logs a message.
In error cases, it is expected the operator has to manually set the
node to boot from the correct device.
:param task: a TaskManager object containing the node
:param device: the boot device
:param persistent: Whether to set the boot device persistently
:raises: Any exception from set_boot_device except IPMIFailure
(setting of boot device using ipmi is expected to fail).
"""
try:
manager_utils.node_set_boot_device(task, device,
persistent=persistent)
except exception.IPMIFailure:
with excutils.save_and_reraise_exception() as ctxt:
if boot_mode_utils.get_boot_mode(task.node) == 'uefi':
ctxt.reraise = False
LOG.warning("ipmitool is unable to set boot device while "
"the node %s is in UEFI boot mode. Please set "
"the boot device manually.", task.node.uuid)
[docs]def get_disk_label(node):
"""Return the disk label requested for deploy, if any.
:param node: a single Node.
:raises: InvalidParameterValue if the capabilities string is not a
dictionary or is malformed.
:returns: the disk label or None if no disk label was specified.
"""
capabilities = utils.parse_instance_info_capabilities(node)
return capabilities.get('disk_label')
[docs]def get_pxe_boot_file(node):
"""Return the PXE boot file name requested for deploy.
This method returns PXE boot file name to be used for deploy.
Architecture specific boot file is searched first. BIOS/UEFI
boot file is used if no valid architecture specific file found.
:param node: A single Node.
:returns: The PXE boot file name.
"""
cpu_arch = node.properties.get('cpu_arch')
boot_file = CONF.pxe.pxe_bootfile_name_by_arch.get(cpu_arch)
if boot_file is None:
if boot_mode_utils.get_boot_mode(node) == 'uefi':
boot_file = CONF.pxe.uefi_pxe_bootfile_name
else:
boot_file = CONF.pxe.pxe_bootfile_name
return boot_file
[docs]def get_ipxe_boot_file(node):
"""Return the iPXE boot file name requested for deploy.
This method returns iPXE boot file name to be used for deploy.
Architecture specific boot file is searched first. BIOS/UEFI
boot file is used if no valid architecture specific file found.
If no valid value is found, the default reverts to the
``get_pxe_boot_file`` method and thus the
``[pxe]pxe_bootfile_name`` and ``[pxe]uefi_ipxe_bootfile_name``
settings.
:param node: A single Node.
:returns: The iPXE boot file name.
"""
cpu_arch = node.properties.get('cpu_arch')
boot_file = CONF.pxe.ipxe_bootfile_name_by_arch.get(cpu_arch)
if boot_file is None:
if boot_mode_utils.get_boot_mode(node) == 'uefi':
boot_file = CONF.pxe.uefi_ipxe_bootfile_name
else:
boot_file = CONF.pxe.ipxe_bootfile_name
if boot_file is None:
boot_file = get_pxe_boot_file(node)
return boot_file
[docs]def get_ipxe_config_template(node):
"""Return the iPXE config template file name requested of deploy.
This method returns the iPXE configuration template file.
:param node: A single Node.
:returns: The iPXE config template file name.
"""
# NOTE(TheJulia): iPXE configuration files don't change based upon the
# architecture and we're not trying to support multiple different boot
# loaders by architecture as they are all consistent. Where as PXE
# could need to be grub for one arch, PXELINUX for another.
configured_template = CONF.pxe.ipxe_config_template
override_template = node.driver_info.get('pxe_template')
if override_template:
configured_template = override_template
return configured_template or get_pxe_config_template(node)
[docs]def get_pxe_config_template(node):
"""Return the PXE config template file name requested for deploy.
This method returns PXE config template file to be used for deploy.
First specific pxe template is searched in the node. After that
architecture specific template file is searched. BIOS/UEFI template file
is used if no valid architecture specific file found.
:param node: A single Node.
:returns: The PXE config template file name.
"""
config_template = node.driver_info.get("pxe_template", None)
if config_template is None:
cpu_arch = node.properties.get('cpu_arch')
config_template = CONF.pxe.pxe_config_template_by_arch.get(cpu_arch)
if config_template is None:
if boot_mode_utils.get_boot_mode(node) == 'uefi':
config_template = CONF.pxe.uefi_pxe_config_template
else:
config_template = CONF.pxe.pxe_config_template
return config_template
[docs]def validate_capabilities(node):
"""Validates that specified supported capabilities have valid value
This method checks if the any of the supported capability is present in
Node capabilities. For all supported capabilities specified for a Node,
it validates that it has a valid value.
The node can have capability as part of the 'properties' or
'instance_info' or both.
Note that the actual value of a capability does not need to be the same
in the node's 'properties' and 'instance_info'.
:param node: an ironic node object.
:raises: InvalidParameterValue, if the capability is not set to a
valid value.
"""
exp_str = _("The parameter '%(capability)s' from %(field)s has an "
"invalid value: '%(value)s'. Acceptable values are: "
"%(valid_values)s.")
for capability_name, valid_values in SUPPORTED_CAPABILITIES.items():
# Validate capability_name in node's properties/capabilities
value = driver_utils.get_node_capability(node, capability_name)
if value and (value not in valid_values):
field = "properties/capabilities"
raise exception.InvalidParameterValue(
exp_str %
{'capability': capability_name, 'field': field,
'value': value, 'valid_values': ', '.join(valid_values)})
# Validate capability_name in node's instance_info/['capabilities']
capabilities = utils.parse_instance_info_capabilities(node)
value = capabilities.get(capability_name)
if value and (value not in valid_values):
field = "instance_info['capabilities']"
raise exception.InvalidParameterValue(
exp_str %
{'capability': capability_name, 'field': field,
'value': value, 'valid_values': ', '.join(valid_values)})
[docs]def validate_image_properties(ctx, deploy_info, properties):
"""Validate the image.
For Glance images it checks that the image exists in Glance and its
properties or deployment info contain the properties passed. If it's not a
Glance image, it checks that deployment info contains needed properties.
:param ctx: security context
:param deploy_info: the deploy_info to be validated
:param properties: the list of image meta-properties to be validated.
:raises: InvalidParameterValue if:
* connection to glance failed;
* authorization for accessing image failed;
* HEAD request to image URL failed or returned response code != 200;
* HEAD request response does not contain Content-Length header;
* the protocol specified in image URL is not supported.
:raises: MissingParameterValue if the image doesn't contain
the mentioned properties.
"""
image_href = deploy_info['image_source']
try:
img_service = image_service.get_image_service(image_href, context=ctx)
image_props = img_service.show(image_href)['properties']
except (exception.GlanceConnectionFailed,
exception.ImageNotAuthorized,
exception.Invalid):
raise exception.InvalidParameterValue(_(
"Failed to connect to Glance to get the properties "
"of the image %s") % image_href)
except exception.ImageNotFound:
raise exception.InvalidParameterValue(_(
"Image %s can not be found.") % image_href)
except exception.ImageRefValidationFailed as e:
raise exception.InvalidParameterValue(err=e)
missing_props = []
for prop in properties:
if not (deploy_info.get(prop) or image_props.get(prop)):
missing_props.append(prop)
if missing_props:
props = ', '.join(missing_props)
raise exception.MissingParameterValue(_(
"Image %(image)s is missing the following properties: "
"%(properties)s") % {'image': image_href, 'properties': props})
[docs]def get_default_boot_option():
"""Gets the default boot option."""
return CONF.deploy.default_boot_option or 'netboot'
[docs]def get_boot_option(node):
"""Gets the boot option.
:param node: A single Node.
:raises: InvalidParameterValue if the capabilities string is not a
dict or is malformed.
:returns: A string representing the boot option type. Defaults to
'netboot'.
"""
capabilities = utils.parse_instance_info_capabilities(node)
return capabilities.get('boot_option', get_default_boot_option()).lower()
[docs]def build_agent_options(node):
"""Build the options to be passed to the agent ramdisk.
:param node: an ironic node object
:returns: a dictionary containing the parameters to be passed to
agent ramdisk.
"""
agent_config_opts = {
'ipa-api-url': get_ironic_api_url(),
}
return agent_config_opts
[docs]def prepare_inband_cleaning(task, manage_boot=True):
"""Prepares the node to boot into agent for in-band cleaning.
This method does the following:
1. Prepares the cleaning ports for the bare metal
node and updates the clean parameters in node's driver_internal_info.
2. If 'manage_boot' parameter is set to true, it also calls the
'prepare_ramdisk' method of boot interface to boot the agent ramdisk.
3. Reboots the bare metal node.
:param task: a TaskManager object containing the node
:param manage_boot: If this is set to True, this method calls the
'prepare_ramdisk' method of boot interface to boot the
agent ramdisk. If False, it skips preparing the boot
agent ramdisk using boot interface, and assumes that
the environment is setup to automatically boot agent
ramdisk every time bare metal node is rebooted.
:returns: states.CLEANWAIT to signify an asynchronous prepare.
:raises: NetworkError, NodeCleaningFailure if the previous cleaning ports
cannot be removed or if new cleaning ports cannot be created.
:raises: InvalidParameterValue if cleaning network UUID config option has
an invalid value.
"""
fast_track = manager_utils.is_fast_track(task)
if not fast_track:
power_state_to_restore = manager_utils.power_on_node_if_needed(task)
# WARNING(TheJulia): When fast track is available, trying to plug the
# cleaning network is problematic and in practice this may fail if
# cleaning/provisioning/discovery all take place on different
# networks when..
# Translation: Here be a realistically unavoidable footgun
# fast track support.
# TODO(TheJulia): Lets improve this somehow such that the agent host
# gracefully handles these sorts of changes.
task.driver.network.add_cleaning_network(task)
if not fast_track:
manager_utils.restore_power_state_if_needed(
task, power_state_to_restore)
# Append required config parameters to node's driver_internal_info
# to pass to IPA.
agent_add_clean_params(task)
if manage_boot:
ramdisk_opts = build_agent_options(task.node)
task.driver.boot.prepare_ramdisk(task, ramdisk_opts)
if not fast_track:
manager_utils.node_power_action(task, states.REBOOT)
# Tell the conductor we are waiting for the agent to boot.
return states.CLEANWAIT
[docs]def tear_down_inband_cleaning(task, manage_boot=True):
"""Tears down the environment setup for in-band cleaning.
This method does the following:
1. Powers off the bare metal node (unless the node is fast
tracked or there was a cleaning failure).
2. If 'manage_boot' parameter is set to true, it also calls
the 'clean_up_ramdisk' method of boot interface to clean
up the environment that was set for booting agent ramdisk.
3. Deletes the cleaning ports which were setup as part
of cleaning.
:param task: a TaskManager object containing the node
:param manage_boot: If this is set to True, this method calls the
'clean_up_ramdisk' method of boot interface to boot the agent
ramdisk. If False, it skips this step.
:raises: NetworkError, NodeCleaningFailure if the cleaning ports cannot be
removed.
"""
fast_track = manager_utils.is_fast_track(task)
node = task.node
cleaning_failure = (node.fault == faults.CLEAN_FAILURE)
if not (fast_track or cleaning_failure):
manager_utils.node_power_action(task, states.POWER_OFF)
if manage_boot:
task.driver.boot.clean_up_ramdisk(task)
power_state_to_restore = manager_utils.power_on_node_if_needed(task)
task.driver.network.remove_cleaning_network(task)
if not (fast_track or cleaning_failure):
manager_utils.restore_power_state_if_needed(
task, power_state_to_restore)
[docs]def get_image_instance_info(node):
"""Gets the image information from the node.
Get image information for the given node instance from its
'instance_info' property.
:param node: a single Node.
:returns: A dict with required image properties retrieved from
node's 'instance_info'.
:raises: MissingParameterValue, if image_source is missing in node's
instance_info. Also raises same exception if kernel/ramdisk is
missing in instance_info for non-glance images.
"""
info = {}
info['image_source'] = node.instance_info.get('image_source')
is_whole_disk_image = node.driver_internal_info.get('is_whole_disk_image')
if not is_whole_disk_image:
if not service_utils.is_glance_image(info['image_source']):
info['kernel'] = node.instance_info.get('kernel')
info['ramdisk'] = node.instance_info.get('ramdisk')
error_msg = (_("Cannot validate image information for node %s because one "
"or more parameters are missing from its instance_info and "
"insufficent information is present to boot from a remote "
"volume")
% node.uuid)
check_for_missing_params(info, error_msg)
return info
_ERR_MSG_INVALID_DEPLOY = _("Cannot validate parameter for driver deploy. "
"Invalid parameter %(param)s. Reason: %(reason)s")
[docs]def parse_instance_info(node):
"""Gets the instance specific Node deployment info.
This method validates whether the 'instance_info' property of the
supplied node contains the required information for this driver to
deploy images to the node.
:param node: a single Node.
:returns: A dict with the instance_info values.
:raises: MissingParameterValue, if any of the required parameters are
missing.
:raises: InvalidParameterValue, if any of the parameters have invalid
value.
"""
info = node.instance_info
i_info = {}
i_info['image_source'] = info.get('image_source')
iwdi = node.driver_internal_info.get('is_whole_disk_image')
if not iwdi:
if (i_info['image_source']
and not service_utils.is_glance_image(
i_info['image_source'])):
i_info['kernel'] = info.get('kernel')
i_info['ramdisk'] = info.get('ramdisk')
i_info['root_gb'] = info.get('root_gb')
error_msg = _("Cannot validate driver deploy. Some parameters were missing"
" in node's instance_info")
check_for_missing_params(i_info, error_msg)
# This is used in many places, so keep it even for whole-disk images.
# There is also a potential use case of creating an ephemeral partition via
# cloud-init and telling ironic to avoid metadata wipe via setting
# preserve_ephemeral (not saying it will work, but it seems possible).
preserve_ephemeral = info.get('preserve_ephemeral', False)
try:
i_info['preserve_ephemeral'] = (
strutils.bool_from_string(preserve_ephemeral, strict=True))
except ValueError as e:
raise exception.InvalidParameterValue(
_ERR_MSG_INVALID_DEPLOY % {'param': 'preserve_ephemeral',
'reason': e})
if iwdi:
if i_info.get('swap_mb') or i_info.get('ephemeral_mb'):
err_msg_invalid = _("Cannot deploy whole disk image with "
"swap or ephemeral size set")
raise exception.InvalidParameterValue(err_msg_invalid)
else:
_validate_layout_properties(node, info, i_info)
i_info['configdrive'] = info.get('configdrive')
return i_info
def _validate_layout_properties(node, info, i_info):
i_info['swap_mb'] = info.get('swap_mb', 0)
i_info['ephemeral_gb'] = info.get('ephemeral_gb', 0)
# NOTE(vdrok): We're casting disk layout parameters to int only after
# ensuring that it is possible
for param in DISK_LAYOUT_PARAMS:
try:
int(i_info[param])
except ValueError:
reason = _("%s is not an integer value.") % i_info[param]
raise exception.InvalidParameterValue(_ERR_MSG_INVALID_DEPLOY %
{'param': param,
'reason': reason})
i_info['root_mb'] = 1024 * int(i_info['root_gb'])
i_info['swap_mb'] = int(i_info['swap_mb'])
i_info['ephemeral_mb'] = 1024 * int(i_info['ephemeral_gb'])
i_info['ephemeral_format'] = info.get('ephemeral_format')
if i_info['ephemeral_gb'] and not i_info['ephemeral_format']:
i_info['ephemeral_format'] = CONF.pxe.default_ephemeral_format
# NOTE(Zhenguo): If rebuilding with preserve_ephemeral option, check
# that the disk layout is unchanged.
if i_info['preserve_ephemeral']:
_check_disk_layout_unchanged(node, i_info)
def _check_disk_layout_unchanged(node, i_info):
"""Check whether disk layout is unchanged.
If the node has already been deployed to, this checks whether the disk
layout for the node is the same as when it had been deployed to.
:param node: the node of interest
:param i_info: instance information (a dictionary) for the node, containing
disk layout information
:raises: InvalidParameterValue if the disk layout changed
"""
# If a node has been deployed to, this is the instance information
# used for that deployment.
driver_internal_info = node.driver_internal_info
if 'instance' not in driver_internal_info:
return
error_msg = ''
for param in DISK_LAYOUT_PARAMS:
param_value = int(driver_internal_info['instance'][param])
if param_value != int(i_info[param]):
error_msg += (_(' Deployed value of %(param)s was %(param_value)s '
'but requested value is %(request_value)s.') %
{'param': param, 'param_value': param_value,
'request_value': i_info[param]})
if error_msg:
err_msg_invalid = _("The following parameters have different values "
"from previous deployment:%(error_msg)s")
raise exception.InvalidParameterValue(err_msg_invalid %
{'error_msg': error_msg})
def _get_image_dir_path(node_uuid):
"""Generate the dir for an instances disk."""
return os.path.join(CONF.pxe.images_path, node_uuid)
def _get_image_file_path(node_uuid):
"""Generate the full path for an instances disk."""
return os.path.join(_get_image_dir_path(node_uuid), 'disk')
def _get_http_image_symlink_dir_path():
"""Generate the dir for storing symlinks to cached instance images."""
return os.path.join(CONF.deploy.http_root, CONF.deploy.http_image_subdir)
def _get_http_image_symlink_file_path(node_uuid):
"""Generate the full path for the symlink to an cached instance image."""
return os.path.join(_get_http_image_symlink_dir_path(), node_uuid)
[docs]def direct_deploy_should_convert_raw_image(node):
"""Whether converts image to raw format for specified node.
:param node: ironic node object
:returns: Boolean, whether the direct deploy interface should convert
image to raw.
"""
return CONF.force_raw_images and CONF.agent.stream_raw_images
[docs]@image_cache.cleanup(priority=50)
class InstanceImageCache(image_cache.ImageCache):
def __init__(self):
master_path = CONF.pxe.instance_master_path or None
super(self.__class__, self).__init__(
master_path,
# MiB -> B
cache_size=CONF.pxe.image_cache_size * 1024 * 1024,
# min -> sec
cache_ttl=CONF.pxe.image_cache_ttl * 60)
[docs]@METRICS.timer('cache_instance_image')
def cache_instance_image(ctx, node, force_raw=CONF.force_raw_images):
"""Fetch the instance's image from Glance
This method pulls the AMI and writes them to the appropriate place
on local disk.
:param ctx: context
:param node: an ironic node object
:param force_raw: whether convert image to raw format
:returns: a tuple containing the uuid of the image and the path in
the filesystem where image is cached.
"""
i_info = parse_instance_info(node)
fileutils.ensure_tree(_get_image_dir_path(node.uuid))
image_path = _get_image_file_path(node.uuid)
uuid = i_info['image_source']
LOG.debug("Fetching image %(image)s for node %(uuid)s",
{'image': uuid, 'uuid': node.uuid})
fetch_images(ctx, InstanceImageCache(), [(uuid, image_path)],
force_raw)
return (uuid, image_path)
[docs]@METRICS.timer('destroy_images')
def destroy_images(node_uuid):
"""Delete instance's image file.
:param node_uuid: the uuid of the ironic node.
"""
il_utils.unlink_without_raise(_get_image_file_path(node_uuid))
utils.rmtree_without_raise(_get_image_dir_path(node_uuid))
InstanceImageCache().clean_up()
[docs]@METRICS.timer('compute_image_checksum')
def compute_image_checksum(image_path, algorithm='md5'):
"""Compute checksum by given image path and algorithm."""
time_start = time.time()
LOG.debug('Start computing %(algo)s checksum for image %(image)s.',
{'algo': algorithm, 'image': image_path})
checksum = fileutils.compute_file_checksum(image_path,
algorithm=algorithm)
time_elapsed = time.time() - time_start
LOG.debug('Computed %(algo)s checksum for image %(image)s in '
'%(delta).2f seconds, checksum value: %(checksum)s.',
{'algo': algorithm, 'image': image_path, 'delta': time_elapsed,
'checksum': checksum})
return checksum
[docs]def remove_http_instance_symlink(node_uuid):
symlink_path = _get_http_image_symlink_file_path(node_uuid)
il_utils.unlink_without_raise(symlink_path)
[docs]def destroy_http_instance_images(node):
"""Delete instance image file and symbolic link refers to it."""
remove_http_instance_symlink(node.uuid)
destroy_images(node.uuid)
[docs]@METRICS.timer('build_instance_info_for_deploy')
def build_instance_info_for_deploy(task):
"""Build instance_info necessary for deploying to a node.
:param task: a TaskManager object containing the node
:returns: a dictionary containing the properties to be updated
in instance_info
:raises: exception.ImageRefValidationFailed if image_source is not
Glance href and is not HTTP(S) URL.
"""
def validate_image_url(url, secret=False):
"""Validates image URL through the HEAD request.
:param url: URL to be validated
:param secret: if URL is secret (e.g. swift temp url),
it will not be shown in logs.
"""
try:
image_service.HttpImageService().validate_href(url, secret)
except exception.ImageRefValidationFailed as e:
with excutils.save_and_reraise_exception():
LOG.error("Agent deploy supports only HTTP(S) URLs as "
"instance_info['image_source'] or swift "
"temporary URL. Either the specified URL is not "
"a valid HTTP(S) URL or is not reachable "
"for node %(node)s. Error: %(msg)s",
{'node': node.uuid, 'msg': e})
node = task.node
instance_info = node.instance_info
iwdi = node.driver_internal_info.get('is_whole_disk_image')
image_source = instance_info['image_source']
if service_utils.is_glance_image(image_source):
glance = image_service.GlanceImageService(context=task.context)
image_info = glance.show(image_source)
LOG.debug('Got image info: %(info)s for node %(node)s.',
{'info': image_info, 'node': node.uuid})
if CONF.agent.image_download_source == 'swift':
swift_temp_url = glance.swift_temp_url(image_info)
validate_image_url(swift_temp_url, secret=True)
instance_info['image_url'] = swift_temp_url
instance_info['image_checksum'] = image_info['checksum']
instance_info['image_disk_format'] = image_info['disk_format']
instance_info['image_os_hash_algo'] = image_info['os_hash_algo']
instance_info['image_os_hash_value'] = image_info['os_hash_value']
else:
# Ironic cache and serve images from httpboot server
force_raw = direct_deploy_should_convert_raw_image(node)
_, image_path = cache_instance_image(task.context, node,
force_raw=force_raw)
if force_raw:
instance_info['image_disk_format'] = 'raw'
# Standard behavior is for image_checksum to be MD5,
# so if the hash algorithm is None, then we will use
# sha256.
os_hash_algo = image_info.get('os_hash_algo')
if os_hash_algo == 'md5':
LOG.debug('Checksum calculation for image %(image)s is '
'set to \'%(algo)s\', changing to \'sha256\'',
{'algo': os_hash_algo,
'image': image_path})
os_hash_algo = 'sha256'
LOG.debug('Recalculating checksum for image %(image)s due to '
'image conversion.', {'image': image_path})
instance_info['image_checksum'] = 'md5-not-supported'
hash_value = compute_image_checksum(image_path, os_hash_algo)
instance_info['image_os_hash_algo'] = os_hash_algo
instance_info['image_os_hash_value'] = hash_value
else:
instance_info['image_checksum'] = image_info['checksum']
instance_info['image_disk_format'] = image_info['disk_format']
instance_info['image_os_hash_algo'] = image_info[
'os_hash_algo']
instance_info['image_os_hash_value'] = image_info[
'os_hash_value']
# Create symlink and update image url
symlink_dir = _get_http_image_symlink_dir_path()
fileutils.ensure_tree(symlink_dir)
symlink_path = _get_http_image_symlink_file_path(node.uuid)
utils.create_link_without_raise(image_path, symlink_path)
base_url = CONF.deploy.http_url
if base_url.endswith('/'):
base_url = base_url[:-1]
http_image_url = '/'.join(
[base_url, CONF.deploy.http_image_subdir,
node.uuid])
validate_image_url(http_image_url, secret=True)
instance_info['image_url'] = http_image_url
instance_info['image_container_format'] = (
image_info['container_format'])
instance_info['image_tags'] = image_info.get('tags', [])
instance_info['image_properties'] = image_info['properties']
if not iwdi:
instance_info['kernel'] = image_info['properties']['kernel_id']
instance_info['ramdisk'] = image_info['properties']['ramdisk_id']
else:
validate_image_url(image_source)
instance_info['image_url'] = image_source
if not iwdi:
instance_info['image_type'] = 'partition'
i_info = parse_instance_info(node)
instance_info.update(i_info)
else:
instance_info['image_type'] = 'whole-disk-image'
return instance_info
[docs]def check_interface_capability(interface, capability):
"""Evaluate interface to determine if capability is present.
:param interface: The interface object to check.
:param capability: The value representing the capability that
the caller wishes to check if present.
:returns: True if capability found, otherwise False.
"""
return capability in getattr(interface, 'capabilities', [])
[docs]def get_remote_boot_volume(task):
"""Identify a boot volume from any configured volumes.
:returns: None or the volume target representing the volume.
"""
targets = task.volume_targets
for volume in targets:
if volume['boot_index'] == 0:
return volume
[docs]def populate_storage_driver_internal_info(task):
"""Set node driver_internal_info for boot from volume parameters.
:param task: a TaskManager object containing the node.
:raises: StorageError when a node has an iSCSI or FibreChannel boot volume
defined but is not capable to support it.
"""
node = task.node
boot_volume = get_remote_boot_volume(task)
if not boot_volume:
return
vol_type = str(boot_volume.volume_type).lower()
node_caps = driver_utils.capabilities_to_dict(
node.properties.get('capabilities'))
if vol_type == 'iscsi' and 'iscsi_boot' not in node_caps:
# TODO(TheJulia): In order to support the FCoE and HBA boot cases,
# some additional logic will be needed here to ensure we align.
# The deployment, in theory, should never reach this point
# if the interfaces all validated, but we shouldn't use that
# as the only guard against bad configurations.
raise exception.StorageError(_('Node %(node)s has an iSCSI boot '
'volume defined and no iSCSI boot '
'support available.') %
{'node': node.uuid})
if vol_type == 'fibre_channel' and 'fibre_channel_boot' not in node_caps:
raise exception.StorageError(_('Node %(node)s has a Fibre Channel '
'boot volume defined and no Fibre '
'Channel boot support available.') %
{'node': node.uuid})
boot_capability = ("%s_volume_boot" % vol_type)
deploy_capability = ("%s_volume_deploy" % vol_type)
vol_uuid = boot_volume['uuid']
driver_internal_info = node.driver_internal_info
if check_interface_capability(task.driver.boot, boot_capability):
driver_internal_info['boot_from_volume'] = vol_uuid
# NOTE(TheJulia): This would be a convenient place to check
# if we need to know about deploying the volume.
if (check_interface_capability(task.driver.deploy, deploy_capability)
and task.driver.storage.should_write_image(task)):
driver_internal_info['boot_from_volume_deploy'] = vol_uuid
# NOTE(TheJulia): This is also a useful place to include a
# root device hint since we should/might/be able to obtain
# and supply that information to IPA if it needs to write
# the image to the volume.
node.driver_internal_info = driver_internal_info
node.save()
[docs]def tear_down_storage_configuration(task):
"""Clean up storage configuration.
Remove entries from driver_internal_info for storage and
deletes the volume targets from the database. This is done
to ensure a clean state for the next boot of the machine.
"""
# TODO(mjturek): TheJulia mentioned that this should
# possibly be configurable for the standalone case. However,
# this is dangerous if IPA is not handling the cleaning.
for volume in task.volume_targets:
volume.destroy()
LOG.info('Successfully deleted volume target %(target)s. '
'The node associated with the target was %(node)s.',
{'target': volume.uuid, 'node': task.node.uuid})
node = task.node
driver_internal_info = node.driver_internal_info
driver_internal_info.pop('boot_from_volume', None)
driver_internal_info.pop('boot_from_volume_deploy', None)
node.driver_internal_info = driver_internal_info
node.save()
[docs]def is_iscsi_boot(task):
"""Return true if booting from an iscsi volume."""
node = task.node
volume = node.driver_internal_info.get('boot_from_volume')
if volume:
try:
boot_volume = objects.VolumeTarget.get_by_uuid(
task.context, volume)
if boot_volume.volume_type == 'iscsi':
return True
except exception.VolumeTargetNotFound:
return False
return False
# NOTE(etingof): retain original location of these funcs for compatibility
is_secure_boot_requested = boot_mode_utils.is_secure_boot_requested
is_trusted_boot_requested = boot_mode_utils.is_trusted_boot_requested
get_boot_mode_for_deploy = boot_mode_utils.get_boot_mode_for_deploy
parse_instance_info_capabilities = (
utils.parse_instance_info_capabilities
)
[docs]def get_async_step_return_state(node):
"""Returns state based on operation (cleaning/deployment) being invoked
:param node: an ironic node object.
:returns: states.CLEANWAIT if cleaning operation in progress
or states.DEPLOYWAIT if deploy operation in progress.
"""
return states.CLEANWAIT if node.clean_step else states.DEPLOYWAIT
[docs]def set_async_step_flags(node, reboot=None, skip_current_step=None,
polling=None):
"""Sets appropriate reboot flags in driver_internal_info based on operation
:param node: an ironic node object.
:param reboot: Boolean value to set for node's driver_internal_info flag
cleaning_reboot or deployment_reboot based on cleaning or deployment
operation in progress. If it is None, corresponding reboot flag is
not set in node's driver_internal_info.
:param skip_current_step: Boolean value to set for node's
driver_internal_info flag skip_current_clean_step or
skip_current_deploy_step based on cleaning or deployment operation
in progress. If it is None, corresponding skip step flag is not set
in node's driver_internal_info.
:param polling: Boolean value to set for node's driver_internal_info flag
deployment_polling or cleaning_polling. If it is None, the
corresponding polling flag is not set in the node's
driver_internal_info.
"""
info = node.driver_internal_info
cleaning = {'reboot': 'cleaning_reboot',
'skip': 'skip_current_clean_step',
'polling': 'cleaning_polling'}
deployment = {'reboot': 'deployment_reboot',
'skip': 'skip_current_deploy_step',
'polling': 'deployment_polling'}
fields = cleaning if node.clean_step else deployment
if reboot is not None:
info[fields['reboot']] = reboot
if skip_current_step is not None:
info[fields['skip']] = skip_current_step
if polling is not None:
info[fields['polling']] = polling
node.driver_internal_info = info
node.save()
