tripleo-common/tripleo_common/utils/nodes.py
Dmitry Tantsur 44f5abab8e Remove support for enrolling nodes with Cisco hardware types
Removed from ironic in https://review.opendev.org/#/c/653282/

Change-Id: I76e1438e8d532beefbab4079216e01ad52c0c3fd
2019-08-05 20:15:56 +02:00

753 lines
25 KiB
Python

# Copyright (c) 2014 Hewlett-Packard Development Company, L.P.
#
# 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 logging
import re
from oslo_utils import netutils
import six
from oslo_concurrency import processutils
from tripleo_common import exception
from tripleo_common.utils import glance
LOG = logging.getLogger(__name__)
_KNOWN_INTERFACE_FIELDS = [
'%s_interface' % field for field in ('boot', 'console', 'deploy',
'inspect', 'management', 'network',
'power', 'raid', 'rescue', 'storage',
'vendor')
]
CTLPLANE_NETWORK = 'ctlplane'
def convert_nodes_json_mac_to_ports(nodes_json):
for node in nodes_json:
if node.get('mac'):
LOG.warning('Key mac is deprecated, please use ports.')
for address in node['mac']:
try:
node['ports'].append({'address': address})
except KeyError:
node['ports'] = [{'address': address}]
del node['mac']
return nodes_json
class DriverInfo(object):
"""Class encapsulating field conversion logic."""
DEFAULTS = {}
def __init__(self, prefix, mapping, deprecated_mapping=None,
mandatory_fields=(), default_port=None, hardware_type=None):
self._prefix = prefix
self._mapping = mapping
self._deprecated_mapping = deprecated_mapping or {}
self._mandatory_fields = mandatory_fields
self._default_port = default_port
self._hardware_type = hardware_type
@property
def default_port(self):
return self._default_port
@property
def hardware_type(self):
return self._hardware_type
def convert_key(self, key):
if key in self._mapping:
return self._mapping[key]
elif key in self._deprecated_mapping:
real = self._deprecated_mapping[key]
LOG.warning('Key %s is deprecated, please use %s',
key, real)
return real
elif key.startswith(self._prefix):
return key
elif key != 'pm_type' and key.startswith('pm_'):
LOG.warning('Key %s is not supported and will not be passed',
key)
else:
LOG.debug('Skipping key %s not starting with prefix %s',
key, self._prefix)
def convert(self, fields):
"""Convert fields from instackenv.json format to ironic names."""
result = self.DEFAULTS.copy()
for key, value in fields.items():
new_key = self.convert_key(key)
if new_key is not None:
result[new_key] = value
return result
def unique_id_from_fields(self, fields):
"""Return a string uniquely identifying a node in instackenv."""
def unique_id_from_node(self, node):
"""Return a string uniquely identifying a node in ironic db."""
def validate(self, node):
"""Validate node record supplied by a user.
:param node: node record before convert()
:raises: exception.InvalidNode
"""
missing = []
for field in self._mandatory_fields:
if not node.get(field):
missing.append(field)
if missing:
raise exception.InvalidNode(
'The following fields are missing: %s' % ', '.join(missing))
class PrefixedDriverInfo(DriverInfo):
def __init__(self, prefix, deprecated_mapping=None,
has_port=False, address_field='address',
default_port=None, hardware_type=None,
mandatory_fields=None):
mapping = {
'pm_addr': '%s_%s' % (prefix, address_field),
'pm_user': '%s_username' % prefix,
'pm_password': '%s_password' % prefix,
}
mandatory_fields = mandatory_fields or list(mapping)
if has_port:
mapping['pm_port'] = '%s_port' % prefix
self._has_port = has_port
super(PrefixedDriverInfo, self).__init__(
prefix, mapping,
deprecated_mapping=deprecated_mapping,
mandatory_fields=mandatory_fields,
default_port=default_port,
hardware_type=hardware_type,
)
def unique_id_from_fields(self, fields):
try:
result = fields['pm_addr']
except KeyError:
return
if self._has_port and 'pm_port' in fields:
result = '%s:%s' % (result, fields['pm_port'])
return result
def unique_id_from_node(self, node):
new_key = self.convert_key('pm_addr')
assert new_key is not None
try:
result = node.driver_info[new_key]
except KeyError:
# Node cannot be identified
return
if self._has_port:
new_port = self.convert_key('pm_port')
assert new_port
try:
return '%s:%s' % (result, node.driver_info[new_port])
except KeyError:
pass
return result
class RedfishDriverInfo(DriverInfo):
def __init__(self):
mapping = {
'pm_addr': 'redfish_address',
'pm_user': 'redfish_username',
'pm_password': 'redfish_password',
'pm_system_id': 'redfish_system_id'
}
mandatory_fields = ['pm_addr', 'pm_system_id']
super(RedfishDriverInfo, self).__init__(
'redfish', mapping,
deprecated_mapping=None,
mandatory_fields=mandatory_fields,
hardware_type='redfish',
)
def _build_id(self, address, system):
address = re.sub(r'https?://', '', address, count=1, flags=re.I)
return '%s/%s' % (address.rstrip('/'), system.lstrip('/'))
def unique_id_from_fields(self, fields):
try:
return self._build_id(fields['pm_addr'], fields['pm_system_id'])
except KeyError:
return
def unique_id_from_node(self, node):
try:
return self._build_id(node.driver_info['redfish_address'],
node.driver_info['redfish_system_id'])
except KeyError:
return
class oVirtDriverInfo(DriverInfo):
def __init__(self):
mapping = {
'pm_addr': 'ovirt_address',
'pm_user': 'ovirt_username',
'pm_password': 'ovirt_password',
'pm_vm_name': 'ovirt_vm_name'
}
super(oVirtDriverInfo, self).__init__(
'ovirt', mapping,
mandatory_fields=list(mapping),
hardware_type='staging-ovirt',
)
def unique_id_from_fields(self, fields):
try:
return '%s:%s' % (fields['pm_addr'], fields['pm_vm_name'])
except KeyError:
return
def unique_id_from_node(self, node):
try:
return '%s:%s' % (node.driver_info['ovirt_address'],
node.driver_info['ovirt_vm_name'])
except KeyError:
return
class iBootDriverInfo(PrefixedDriverInfo):
def __init__(self):
super(iBootDriverInfo, self).__init__(
'iboot', has_port=True,
deprecated_mapping={
'pm_relay_id': 'iboot_relay_id',
},
hardware_type='staging-iboot',
)
def unique_id_from_fields(self, fields):
result = super(iBootDriverInfo, self).unique_id_from_fields(fields)
if 'iboot_relay_id' in fields:
result = '%s#%s' % (result, fields['iboot_relay_id'])
return result
def unique_id_from_node(self, node):
try:
result = super(iBootDriverInfo, self).unique_id_from_node(node)
except IndexError:
return
if node.driver_info.get('iboot_relay_id'):
result = '%s#%s' % (result, node.driver_info['iboot_relay_id'])
return result
DRIVER_INFO = {
# production drivers
'(ipmi|.*_ipmitool)': PrefixedDriverInfo('ipmi', has_port=True,
default_port=623,
hardware_type='ipmi',
mandatory_fields=['pm_addr']
),
'(idrac|.*_drac)': PrefixedDriverInfo('drac', has_port=True,
hardware_type='idrac'),
'(ilo|.*_ilo)': PrefixedDriverInfo('ilo', has_port=True,
hardware_type='ilo'),
'(irmc|.*_irmc)': PrefixedDriverInfo('irmc', has_port=True,
hardware_type='irmc'),
'redfish': RedfishDriverInfo(),
'xclarity': PrefixedDriverInfo('xclarity', has_port=True),
# test drivers
r'staging\-ovirt': oVirtDriverInfo(),
r'(staging\-iboot|.*_iboot)': iBootDriverInfo(),
r'(staging\-wol|.*wol)': DriverInfo(
'wol',
mapping={
'pm_addr': 'wol_host',
'pm_port': 'wol_port',
},
hardware_type='staging-wol'),
r'(staging\-amt|.*_amt)': PrefixedDriverInfo('amt',
hardware_type='staging-amt'),
# fake_pxe was used when no management interface was supported, now
# manual-management is used for the same purpose
r'(manual\-management|fake_pxe|fake_agent)': DriverInfo(
'fake', mapping={}, hardware_type='manual-management'),
r'^fake(|\-hardware)$': DriverInfo('fake', mapping={},
hardware_type='fake-hardware'),
}
def find_driver_handler(driver):
for driver_tpl, handler in DRIVER_INFO.items():
if re.match(driver_tpl, driver) is not None:
return handler
# FIXME(dtantsur): handle all drivers without hardcoding them
raise exception.InvalidNode('unknown pm_type (ironic driver to use): '
'%s' % driver)
def _find_node_handler(fields):
try:
driver = fields['pm_type']
except KeyError:
raise exception.InvalidNode('pm_type (ironic driver to use) is '
'required', node=fields)
return find_driver_handler(driver)
def register_ironic_node(node, client):
driver_info = {}
handler = _find_node_handler(node)
if "kernel_id" in node:
driver_info["deploy_kernel"] = node["kernel_id"]
driver_info["rescue_kernel"] = node["kernel_id"]
if "ramdisk_id" in node:
driver_info["deploy_ramdisk"] = node["ramdisk_id"]
driver_info["rescue_ramdisk"] = node["ramdisk_id"]
interface_fields = {field: node.pop(field)
for field in _KNOWN_INTERFACE_FIELDS
if field in node}
resource_class = node.pop('resource_class', 'baremetal')
if resource_class != 'baremetal':
LOG.warning('Resource class for a new node will be set to %s, which '
'is different from the default "baremetal". A custom '
'flavor will be required to deploy on such node',
resource_class)
driver_info.update(handler.convert(node))
mapping = {'cpus': 'cpu',
'memory_mb': 'memory',
'local_gb': 'disk',
'cpu_arch': 'arch',
'root_device': 'root_device'}
properties = {k: node[v]
for k, v in mapping.items()
if node.get(v) is not None}
extra = {}
platform = node.get('platform')
if platform:
extra = dict(tripleo_platform=platform)
if 'capabilities' in node:
caps = capabilities_to_dict(node['capabilities'])
else:
caps = {}
if 'profile' in node:
caps['profile'] = node['profile']
if caps:
properties["capabilities"] = dict_to_capabilities(caps)
driver = node['pm_type']
if handler.hardware_type and handler.hardware_type != driver:
LOG.warning('Replacing deprecated driver %(old)s with the '
'hardware type %(new)s, please update your inventory',
{'old': driver, 'new': handler.hardware_type})
driver = handler.hardware_type
create_map = {"driver": driver,
"properties": properties,
"driver_info": driver_info,
"resource_class": resource_class}
create_map.update(interface_fields)
if extra:
create_map["extra"] = extra
for field in ('name', 'uuid'):
if field in node:
create_map.update({field: six.text_type(node[field])})
conductor_group = node.get("conductor_group")
if conductor_group:
create_map["conductor_group"] = conductor_group
node_id = handler.unique_id_from_fields(node)
LOG.debug('Registering node %s with ironic.', node_id)
ironic_node = client.node.create(**create_map)
for port in node.get('ports', []):
LOG.debug('Creating Bare Metal port for node: %s, with properties: %s.'
% (ironic_node.uuid, port))
client.port.create(
address=port.get('address'),
physical_network=port.get('physical_network', 'ctlplane'),
local_link_connection=port.get('local_link_connection'),
node_uuid=ironic_node.uuid)
validation = client.node.validate(ironic_node.uuid)
if not validation.power['result']:
LOG.warning('Node %s did not pass power credentials validation: %s',
ironic_node.uuid, validation.power['reason'])
return ironic_node
def _populate_node_mapping(client):
LOG.debug('Populating list of registered nodes.')
node_map = {'mac': {}, 'pm_addr': {}, 'uuids': set()}
nodes = client.node.list(detail=True)
for node in nodes:
for port in client.node.list_ports(node.uuid):
node_map['mac'][port.address] = node.uuid
handler = find_driver_handler(node.driver)
unique_id = handler.unique_id_from_node(node)
if unique_id:
node_map['pm_addr'][unique_id] = node.uuid
node_map['uuids'].add(node.uuid)
return node_map
def _get_node_id(node, handler, node_map):
candidates = set()
for port in node.get('ports', []):
try:
candidates.add(node_map['mac'][port['address'].lower()])
except KeyError:
pass
unique_id = handler.unique_id_from_fields(node)
if unique_id:
try:
candidates.add(node_map['pm_addr'][unique_id])
except KeyError:
pass
uuid = node.get('uuid')
if uuid and uuid in node_map['uuids']:
candidates.add(uuid)
if len(candidates) > 1:
raise exception.InvalidNode('Several candidates found for the same '
'node data: %s' % candidates,
node=node)
elif candidates:
return list(candidates)[0]
_NON_DRIVER_FIELDS = {'cpu': '/properties/cpus',
'memory': '/properties/memory_mb',
'disk': '/properties/local_gb',
'arch': '/properties/cpu_arch',
'root_device': '/properties/root_device',
'name': '/name',
'resource_class': '/resource_class',
'kernel_id': ['/driver_info/deploy_kernel',
'/driver_info/rescue_kernel'],
'ramdisk_id': ['/driver_info/deploy_ramdisk',
'/driver_info/rescue_ramdisk'],
'platform': '/extra/tripleo_platform',
'conductor_group': '/conductor_group',
}
_NON_DRIVER_FIELDS.update({field: '/%s' % field
for field in _KNOWN_INTERFACE_FIELDS})
def _update_or_register_ironic_node(node, node_map, client):
handler = _find_node_handler(node)
node_uuid = _get_node_id(node, handler, node_map)
if node_uuid:
LOG.info('Node %s already registered, updating details.',
node_uuid)
patched = {}
for field, paths in _NON_DRIVER_FIELDS.items():
if isinstance(paths, six.string_types):
paths = [paths]
if field in node:
value = node.pop(field)
for path in paths:
patched[path] = value
if 'capabilities' in node:
caps = capabilities_to_dict(node.pop('capabilities'))
else:
caps = {}
if 'profile' in node:
caps['profile'] = node.pop('profile')
if caps:
patched['/properties/capabilities'] = dict_to_capabilities(caps)
driver_info = handler.convert(node)
for key, value in driver_info.items():
patched['/driver_info/%s' % key] = value
node_patch = []
for key, value in patched.items():
if key == 'uuid':
continue # not needed during update
node_patch.append({'path': key, 'value': value, 'op': 'add'})
ironic_node = client.node.update(node_uuid, node_patch)
else:
ironic_node = register_ironic_node(node, client)
return ironic_node
def _clean_up_extra_nodes(seen, client, remove=False):
all_nodes = {n.uuid for n in client.node.list()}
remove_func = client.node.delete
extra_nodes = all_nodes - {n.uuid for n in seen}
for node in extra_nodes:
if remove:
LOG.debug('Removing extra registered node %s.' % node)
remove_func(node)
else:
LOG.debug('Extra registered node %s found.' % node)
def register_all_nodes(nodes_list, client, remove=False, glance_client=None,
kernel_name=None, ramdisk_name=None):
"""Register all nodes in nodes_list in the baremetal service.
:param nodes_list: The list of nodes to register.
:param client: An Ironic client object.
:param remove: Should nodes not in the list be removed?
:param glance_client: A Glance client object, for fetching ramdisk images.
:param kernel_name: Glance ID of the kernel to use for the nodes.
:param ramdisk_name: Glance ID of the ramdisk to use for the nodes.
:return: list of node objects representing the new nodes.
"""
LOG.debug('Registering all nodes.')
node_map = _populate_node_mapping(client)
glance_ids = {'kernel': None, 'ramdisk': None}
if kernel_name and ramdisk_name:
glance_ids = glance.create_or_find_kernel_and_ramdisk(
glance_client, kernel_name, ramdisk_name)
seen = []
for node in nodes_list:
if glance_ids['kernel'] and 'kernel_id' not in node:
node['kernel_id'] = glance_ids['kernel']
if glance_ids['ramdisk'] and 'ramdisk_id' not in node:
node['ramdisk_id'] = glance_ids['ramdisk']
node = _update_or_register_ironic_node(node, node_map, client=client)
seen.append(node)
_clean_up_extra_nodes(seen, client, remove=remove)
return seen
# These fields are treated specially during enrolling/updating
_SPECIAL_NON_DRIVER_FIELDS = {'ports', 'pm_type', 'capabilities'}
def validate_nodes(nodes_list):
"""Validate all nodes list.
:param nodes_list: The list of nodes to register.
:raises: InvalidNode on one or more invalid nodes
"""
failures = []
unique_ids = set()
names = set()
macs = set()
for index, node in enumerate(nodes_list):
# Remove any comment
node.pop("_comment", None)
handler = _find_node_handler(node)
try:
handler.validate(node)
except exception.InvalidNode as exc:
failures.append((index, exc))
for port in node.get('ports', ()):
if not netutils.is_valid_mac(port['address']):
failures.append((index, 'MAC address %s is invalid' %
port['address']))
if port['address'] in macs:
failures.append(
(index, 'MAC %s is not unique' % port['address']))
else:
macs.add(port['address'])
unique_id = handler.unique_id_from_fields(node)
if unique_id:
if unique_id in unique_ids:
failures.append(
(index,
"Node identified by %s is already present" % unique_id))
else:
unique_ids.add(unique_id)
if node.get('name'):
if node['name'] in names:
failures.append(
(index, 'Name "%s" is not unique' % node['name']))
else:
names.add(node['name'])
if node.get('platform') and not node.get('arch'):
failures.append(
(index,
'You have specified a platform without an architecture'))
try:
capabilities_to_dict(node.get('capabilities'))
except (ValueError, TypeError):
failures.append(
(index, 'Invalid capabilities: %s' % node.get('capabilities')))
if node.get('root_device') is not None:
if not isinstance(node['root_device'], dict):
failures.append(
(index,
'Invalid root device: expected dict, got %s' %
node['root_device']))
for field in node:
converted = handler.convert_key(field)
if (converted is None and field not in _NON_DRIVER_FIELDS and
field not in _SPECIAL_NON_DRIVER_FIELDS):
failures.append((index, 'Unknown field %s' % field))
if failures:
raise exception.InvalidNode(
'\n'.join('node #%d: %s' % tpl for tpl in failures))
def dict_to_capabilities(caps_dict):
"""Convert a dictionary into a string with the capabilities syntax."""
if isinstance(caps_dict, six.string_types):
return caps_dict
# NOTE(dtantsur): sort capabilities so that their order does not change
# between updates.
items = sorted(caps_dict.items(), key=lambda tpl: tpl[0])
return ','.join(["%s:%s" % (key, value)
for key, value in items
if value is not None])
def capabilities_to_dict(caps):
"""Convert the Node's capabilities into a dictionary."""
if not caps:
return {}
if isinstance(caps, dict):
return caps
return dict([key.split(':', 1) for key in caps.split(',')])
def _get_capability_patch(node, capability, value):
"""Return a JSON patch updating a node capability"""
capabilities = node.properties.get('capabilities')
capabilities_dict = capabilities_to_dict(capabilities)
if value is None:
del capabilities_dict[capability]
else:
capabilities_dict[capability] = value
capabilities = dict_to_capabilities(capabilities_dict)
return [{
"op": "replace",
"path": "/properties/capabilities",
"value": capabilities
}]
def update_node_capability(node_uuid, capability, value, client):
"""Update a node's capability
:param node_uuid: The UUID of the node
:param capability: The name of the capability to update
:param value: The value to update token
:param client: An Ironic client object
:return: Result of updating the node
"""
node = client.node.get(node_uuid)
patch = _get_capability_patch(node, capability, value)
return client.node.update(node_uuid, patch)
def generate_hostmap(baremetal_client, compute_client):
"""Create a map between Compute nodes and Baremetal nodes"""
hostmap = {}
for node in compute_client.servers.list():
bm_node = baremetal_client.node.get_by_instance_uuid(node.id)
for port in baremetal_client.port.list(node=bm_node.uuid):
hostmap[port.address] = {"compute_name": node.name,
"baremetal_name": bm_node.name}
if hostmap == {}:
return None
else:
return hostmap
def run_nova_cell_v2_discovery():
return processutils.execute(
'/usr/bin/sudo',
'/bin/nova-manage',
'cell_v2',
'discover_hosts',
'--verbose'
)
def get_node_profile(node):
"""Return the profile assosicated with the node """
capabilities = node.get('properties').get('capabilities')
capabilities_dict = capabilities_to_dict(capabilities)
if 'profile' in capabilities_dict:
return capabilities_dict['profile']
return None
def get_node_hint(node):
"""Return the 'capabilities:node' hint associated with the node """
capabilities = node.get('properties').get('capabilities')
capabilities_dict = capabilities_to_dict(capabilities)
if 'node' in capabilities_dict:
return capabilities_dict['node']
return None