starlingx
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distcloud
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distcloud/distributedcloud/dcmanager/manager/subcloud_manager.py

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# Copyright 2017 Ericsson AB.
# Copyright (c) 2017-2023 Wind River Systems, 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 __future__ import division
import base64
import collections
import copy
import datetime
import filecmp
import functools
import json
import os
import shutil
import threading
import time
from eventlet import greenpool
from fm_api import constants as fm_const
from fm_api import fm_api
import keyring
import netaddr
from oslo_log import log as logging
from oslo_messaging import RemoteError
from tsconfig.tsconfig import CONFIG_PATH
from tsconfig.tsconfig import SW_VERSION
import yaml
from dccommon import consts as dccommon_consts
from dccommon.drivers.openstack.sdk_platform import OpenStackDriver
from dccommon.drivers.openstack.sysinv_v1 import SysinvClient
from dccommon.exceptions import PlaybookExecutionFailed
from dccommon import kubeoperator
from dccommon.subcloud_install import SubcloudInstall
from dccommon.subcloud_install import SubcloudShutdown
from dccommon.utils import run_playbook
from dccommon.utils import RunAnsible
from dcmanager.audit import rpcapi as dcmanager_audit_rpc_client
from dcmanager.common import consts
from dcmanager.common.consts import INVENTORY_FILE_POSTFIX
from dcmanager.common import context as dcmanager_context
from dcmanager.common import exceptions
from dcmanager.common.exceptions import DCManagerException
from dcmanager.common.i18n import _
from dcmanager.common import manager
from dcmanager.common import phased_subcloud_deploy as psd_common
from dcmanager.common import prestage
from dcmanager.common import utils
from dcmanager.db import api as db_api
from dcmanager.db.sqlalchemy.models import Subcloud
from dcmanager.rpc import client as dcmanager_rpc_client
from dcorch.rpc import client as dcorch_rpc_client
LOG = logging.getLogger(__name__)
# Name of our distributed cloud addn_hosts file for dnsmasq
# to read. This file is referenced in dnsmasq.conf
ADDN_HOSTS_DC = 'dnsmasq.addn_hosts_dc'
# Subcloud configuration paths
ANSIBLE_SUBCLOUD_BACKUP_CREATE_PLAYBOOK = \
'/usr/share/ansible/stx-ansible/playbooks/create_subcloud_backup.yml'
ANSIBLE_SUBCLOUD_BACKUP_DELETE_PLAYBOOK = \
'/usr/share/ansible/stx-ansible/playbooks/delete_subcloud_backup.yml'
ANSIBLE_SUBCLOUD_BACKUP_RESTORE_PLAYBOOK = \
'/usr/share/ansible/stx-ansible/playbooks/restore_subcloud_backup.yml'
ANSIBLE_SUBCLOUD_PLAYBOOK = \
'/usr/share/ansible/stx-ansible/playbooks/bootstrap.yml'
ANSIBLE_SUBCLOUD_REHOME_PLAYBOOK = \
'/usr/share/ansible/stx-ansible/playbooks/rehome_subcloud.yml'
ANSIBLE_SUBCLOUD_UPDATE_PLAYBOOK = \
'/usr/share/ansible/stx-ansible/playbooks/update_subcloud.yml'
USERS_TO_REPLICATE = [
'sysinv',
'patching',
'vim',
'mtce',
'fm',
'barbican',
'dcmanager'
]
# The timeout of the rehome playbook is set to 180 seconds as it takes a
# long time for privilege escalation before resetting the host route and
# LDAP server address in a subcloud.
REHOME_PLAYBOOK_TIMEOUT = "180" # 180 seconds
UPDATE_PLAYBOOK_TIMEOUT = "180"
SC_INTERMEDIATE_CERT_DURATION = "8760h" # 1 year = 24 hours x 365
SC_INTERMEDIATE_CERT_RENEW_BEFORE = "720h" # 30 days
CERT_NAMESPACE = "dc-cert"
TRANSITORY_STATES = {
consts.DEPLOY_STATE_NONE: consts.DEPLOY_STATE_CREATE_FAILED,
consts.DEPLOY_STATE_CREATING: consts.DEPLOY_STATE_CREATE_FAILED,
consts.DEPLOY_STATE_PRE_INSTALL: consts.DEPLOY_STATE_PRE_INSTALL_FAILED,
consts.DEPLOY_STATE_INSTALLING: consts.DEPLOY_STATE_INSTALL_FAILED,
consts.DEPLOY_STATE_PRE_BOOTSTRAP: consts.DEPLOY_STATE_PRE_BOOTSTRAP_FAILED,
consts.DEPLOY_STATE_BOOTSTRAPPING: consts.DEPLOY_STATE_BOOTSTRAP_FAILED,
consts.DEPLOY_STATE_PRE_CONFIG: consts.DEPLOY_STATE_PRE_CONFIG_FAILED,
consts.DEPLOY_STATE_CONFIGURING: consts.DEPLOY_STATE_CONFIG_FAILED,
consts.DEPLOY_STATE_ABORTING_INSTALL: consts.DEPLOY_STATE_INSTALL_FAILED,
consts.DEPLOY_STATE_ABORTING_BOOTSTRAP: consts.DEPLOY_STATE_BOOTSTRAP_FAILED,
consts.DEPLOY_STATE_ABORTING_CONFIG: consts.DEPLOY_STATE_CONFIG_FAILED,
consts.DEPLOY_STATE_MIGRATING_DATA: consts.DEPLOY_STATE_DATA_MIGRATION_FAILED,
consts.DEPLOY_STATE_PRE_RESTORE: consts.DEPLOY_STATE_RESTORE_PREP_FAILED,
consts.DEPLOY_STATE_RESTORING: consts.DEPLOY_STATE_RESTORE_FAILED,
consts.DEPLOY_STATE_PRE_REHOME: consts.DEPLOY_STATE_REHOME_PREP_FAILED,
consts.DEPLOY_STATE_REHOMING: consts.DEPLOY_STATE_REHOME_FAILED,
consts.PRESTAGE_STATE_PACKAGES: consts.PRESTAGE_STATE_FAILED,
consts.PRESTAGE_STATE_IMAGES: consts.PRESTAGE_STATE_FAILED,
# The next two states are needed due to upgrade scenario:
# TODO(gherzman): remove states when they are no longer needed
consts.DEPLOY_STATE_PRE_DEPLOY: consts.DEPLOY_STATE_PRE_CONFIG_FAILED,
consts.DEPLOY_STATE_DEPLOYING: consts.DEPLOY_STATE_CONFIG_FAILED,
}
TRANSITORY_BACKUP_STATES = {
consts.BACKUP_STATE_VALIDATING: consts.BACKUP_STATE_VALIDATE_FAILED,
consts.BACKUP_STATE_PRE_BACKUP: consts.BACKUP_STATE_PREP_FAILED,
consts.BACKUP_STATE_IN_PROGRESS: consts.BACKUP_STATE_FAILED
}
MAX_PARALLEL_SUBCLOUD_BACKUP_CREATE = 250
MAX_PARALLEL_SUBCLOUD_BACKUP_DELETE = 250
MAX_PARALLEL_SUBCLOUD_BACKUP_RESTORE = 100
CENTRAL_BACKUP_DIR = '/opt/dc-vault/backups'
ENDPOINT_URLS = {
dccommon_consts.ENDPOINT_TYPE_PLATFORM: "https://{}:6386/v1",
dccommon_consts.ENDPOINT_TYPE_IDENTITY: "https://{}:5001/v3",
dccommon_consts.ENDPOINT_TYPE_PATCHING: "https://{}:5492",
dccommon_consts.ENDPOINT_TYPE_FM: "https://{}:18003",
dccommon_consts.ENDPOINT_TYPE_NFV: "https://{}:4546",
dccommon_consts.ENDPOINT_TYPE_SOFTWARE: "https://{}:5498",
}
class SubcloudManager(manager.Manager):
"""Manages tasks related to subclouds."""
regionone_data = collections.defaultdict(dict)
def __init__(self, *args, **kwargs):
LOG.debug(_('SubcloudManager initialization...'))
super(SubcloudManager, self).__init__(service_name="subcloud_manager",
*args, **kwargs)
self.context = dcmanager_context.get_admin_context()
self.dcorch_rpc_client = dcorch_rpc_client.EngineClient()
self.fm_api = fm_api.FaultAPIs()
self.audit_rpc_client = dcmanager_audit_rpc_client.ManagerAuditClient()
self.state_rpc_client = dcmanager_rpc_client.SubcloudStateClient()
@staticmethod
def _get_subcloud_cert_name(subcloud_name):
cert_name = "%s-adminep-ca-certificate" % subcloud_name
return cert_name
@staticmethod
def _get_subcloud_cert_secret_name(subcloud_name):
secret_name = "%s-adminep-ca-certificate" % subcloud_name
return secret_name
@staticmethod
def _create_intermediate_ca_cert(payload):
subcloud_name = payload["name"]
cert_name = SubcloudManager._get_subcloud_cert_name(subcloud_name)
secret_name = SubcloudManager._get_subcloud_cert_secret_name(
subcloud_name)
cert = {
"apiVersion": "%s/%s" % (kubeoperator.CERT_MANAGER_GROUP,
kubeoperator.CERT_MANAGER_VERSION),
"kind": "Certificate",
"metadata": {
"namespace": CERT_NAMESPACE,
"name": cert_name
},
"spec": {
"secretName": secret_name,
"duration": SC_INTERMEDIATE_CERT_DURATION,
"renewBefore": SC_INTERMEDIATE_CERT_RENEW_BEFORE,
"issuerRef": {
"kind": "Issuer",
"name": "dc-adminep-root-ca-issuer"
},
"commonName": cert_name,
"isCA": True,
},
}
kube = kubeoperator.KubeOperator()
kube.apply_cert_manager_certificate(CERT_NAMESPACE, cert_name, cert)
for count in range(1, 20):
secret = kube.kube_get_secret(secret_name, CERT_NAMESPACE)
if not hasattr(secret, 'data'):
time.sleep(1)
LOG.debug('Wait for %s ... %s' % (secret_name, count))
continue
data = secret.data
if ('ca.crt' not in data or
'tls.crt' not in data or 'tls.key' not in data) or \
not (data['ca.crt'] and data['tls.crt'] and data['tls.key']):
# ca cert, certificate and key pair are needed and must exist
# for creating an intermediate ca. If not, certificate is not
# ready yet.
time.sleep(1)
LOG.debug('Wait for %s ... %s' % (secret_name, count))
continue
payload['dc_root_ca_cert'] = data['ca.crt']
payload['sc_ca_cert'] = data['tls.crt']
payload['sc_ca_key'] = data['tls.key']
return
raise Exception("Secret for certificate %s is not ready." % cert_name)
# TODO(kmacleod) switch to using utils.get_ansible_filename
@staticmethod
def _get_ansible_filename(subcloud_name, postfix='.yml'):
ansible_filename = os.path.join(
dccommon_consts.ANSIBLE_OVERRIDES_PATH,
subcloud_name + postfix)
return ansible_filename
def compose_install_command(self, subcloud_name,
ansible_subcloud_inventory_file,
software_version=None):
install_command = [
"ansible-playbook", dccommon_consts.ANSIBLE_SUBCLOUD_INSTALL_PLAYBOOK,
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name,
"-e", "@%s" % dccommon_consts.ANSIBLE_OVERRIDES_PATH + "/" +
subcloud_name + '/' + "install_values.yml",
"-e", "install_release_version=%s" %
software_version if software_version else SW_VERSION]
return install_command
def compose_bootstrap_command(self, subcloud_name,
ansible_subcloud_inventory_file,
software_version=None):
bootstrap_command = [
"ansible-playbook",
utils.get_playbook_for_software_version(
ANSIBLE_SUBCLOUD_PLAYBOOK, software_version),
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name
]
# Add the overrides dir and region_name so the playbook knows
# which overrides to load
bootstrap_command += [
"-e", str("override_files_dir='%s' region_name=%s") % (
dccommon_consts.ANSIBLE_OVERRIDES_PATH, subcloud_name),
"-e", "install_release_version=%s" %
software_version if software_version else SW_VERSION]
return bootstrap_command
def compose_config_command(self, subcloud_name, ansible_subcloud_inventory_file, payload):
config_command = [
"ansible-playbook", payload[consts.DEPLOY_PLAYBOOK],
"-e", "@%s" % dccommon_consts.ANSIBLE_OVERRIDES_PATH + "/" +
subcloud_name + '_deploy_values.yml',
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name
]
return config_command
def compose_backup_command(self, subcloud_name, ansible_subcloud_inventory_file):
backup_command = [
"ansible-playbook", ANSIBLE_SUBCLOUD_BACKUP_CREATE_PLAYBOOK,
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name,
"-e", "subcloud_bnr_overrides=%s" % dccommon_consts.ANSIBLE_OVERRIDES_PATH + "/" +
subcloud_name + "_backup_create_values.yml"]
return backup_command
def compose_backup_delete_command(self, subcloud_name,
ansible_subcloud_inventory_file):
backup_command = [
"ansible-playbook", ANSIBLE_SUBCLOUD_BACKUP_DELETE_PLAYBOOK,
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name,
"-e", "subcloud_bnr_overrides=%s" % dccommon_consts.ANSIBLE_OVERRIDES_PATH + "/" +
subcloud_name + "_backup_delete_values.yml"]
return backup_command
def compose_backup_restore_command(self, subcloud_name, ansible_subcloud_inventory_file):
backup_command = [
"ansible-playbook", ANSIBLE_SUBCLOUD_BACKUP_RESTORE_PLAYBOOK,
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name,
"-e", "subcloud_bnr_overrides=%s" % dccommon_consts.ANSIBLE_OVERRIDES_PATH + "/" +
subcloud_name + "_backup_restore_values.yml"]
return backup_command
def compose_update_command(self, subcloud_name, ansible_subcloud_inventory_file):
subcloud_update_command = [
"ansible-playbook", ANSIBLE_SUBCLOUD_UPDATE_PLAYBOOK,
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name,
"--timeout", UPDATE_PLAYBOOK_TIMEOUT,
"-e", "subcloud_update_overrides=%s" % dccommon_consts.ANSIBLE_OVERRIDES_PATH + "/" +
subcloud_name + "_update_values.yml"]
return subcloud_update_command
def compose_rehome_command(self, subcloud_name,
ansible_subcloud_inventory_file,
software_version):
rehome_command = [
"ansible-playbook",
utils.get_playbook_for_software_version(
ANSIBLE_SUBCLOUD_REHOME_PLAYBOOK, software_version),
"-i", ansible_subcloud_inventory_file,
"--limit", subcloud_name,
"--timeout", REHOME_PLAYBOOK_TIMEOUT,
"-e", str("override_files_dir='%s' region_name=%s") % (
dccommon_consts.ANSIBLE_OVERRIDES_PATH, subcloud_name)]
return rehome_command
def migrate_subcloud(self, context, subcloud_ref, payload):
'''migrate_subcloud function is for day-2's rehome purpose.
This is called by 'dcmanager subcloud migrate <subcloud>'.
This function is used to migrate those 'secondary' subcloud.
:param context: request context object
:param subcloud_ref: id or name of the subcloud
:param payload: subcloud configuration
'''
subcloud = None
try:
# subcloud_ref could be int type id.
subcloud = utils.subcloud_get_by_ref(context, str(subcloud_ref))
if not subcloud:
LOG.exception("Failed to migrate, non-existent subcloud %s" % subcloud_ref)
raise Exception("Failed to migrate, non-existent subcloud %s" % subcloud_ref)
if 'sysadmin_password' not in payload:
raise Exception("Failed to migrate subcloud: %s, must provide sysadmin_password" %
subcloud.name)
if subcloud.deploy_status not in [consts.DEPLOY_STATE_SECONDARY,
consts.DEPLOY_STATE_REHOME_FAILED,
consts.DEPLOY_STATE_REHOME_PREP_FAILED]:
raise Exception("Failed to migrate subcloud: %s, "
"must be in secondary or rehome failure state" %
subcloud.name)
rehome_data = json.loads(subcloud.rehome_data)
saved_payload = rehome_data['saved_payload']
# Update sysadmin_password/ansible_ssh_pass
sysadmin_password = base64.b64decode(payload['sysadmin_password']).decode('utf-8')
saved_payload['sysadmin_password'] = sysadmin_password
saved_payload['ansible_ssh_pass'] = sysadmin_password
# Re-generate ansible config based on latest rehome_data
subcloud = self.subcloud_migrate_generate_ansible_config(
context, subcloud.id,
saved_payload)
self.rehome_subcloud(context, subcloud, saved_payload)
except Exception:
# If we failed to migrate the subcloud, update the
# deployment status
if subcloud:
LOG.exception("Failed to migrate subcloud %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_REHOME_FAILED)
def rehome_subcloud(self, context, subcloud, payload):
# Ansible inventory filename for the specified subcloud
ansible_subcloud_inventory_file = self._get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
rehome_command = self.compose_rehome_command(
subcloud.name,
ansible_subcloud_inventory_file,
subcloud.software_version)
self.run_deploy_thread(subcloud, payload, context,
rehome_command=rehome_command)
def add_subcloud(self, context, subcloud_id, payload):
"""Add subcloud and notify orchestrators.
:param context: request context object
:param subcloud_id: id of the subcloud
:param payload: subcloud configuration
"""
LOG.info(f"Adding subcloud {payload['name']}.")
rehoming = payload.get('migrate', '').lower() == "true"
secondary = (payload.get('secondary', '').lower() == "true")
# Create the subcloud
subcloud = self.subcloud_deploy_create(context, subcloud_id,
payload, rehoming,
return_as_dict=False)
# return if 'secondary' subcloud
if secondary:
return
# Return if create failed
if rehoming:
success_state = consts.DEPLOY_STATE_PRE_REHOME
else:
success_state = consts.DEPLOY_STATE_CREATED
if subcloud.deploy_status != success_state:
return
# Rehome subcloud
if rehoming:
self.rehome_subcloud(context, subcloud, payload)
return
# Define which deploy phases should be run
phases_to_run = []
if consts.INSTALL_VALUES in payload:
phases_to_run.append(consts.DEPLOY_PHASE_INSTALL)
phases_to_run.append(consts.DEPLOY_PHASE_BOOTSTRAP)
if consts.DEPLOY_CONFIG in payload:
phases_to_run.append(consts.DEPLOY_PHASE_CONFIG)
# Finish adding the subcloud by running the deploy phases
succeeded = self.run_deploy_phases(
context, subcloud_id, payload, phases_to_run)
if succeeded:
subcloud = db_api.subcloud_update(
context, subcloud_id, deploy_status=consts.DEPLOY_STATE_DONE)
LOG.info(f"Finished adding subcloud {subcloud['name']}.")
def redeploy_subcloud(self, context, subcloud_id, payload):
"""Redeploy subcloud
:param context: request context object
:param subcloud_id: subcloud id from db
:param payload: subcloud redeploy
"""
# Retrieve the subcloud details from the database
subcloud = db_api.subcloud_get(context, subcloud_id)
LOG.info("Redeploying subcloud %s." % subcloud.name)
# Define which deploy phases to run
phases_to_run = [consts.DEPLOY_PHASE_INSTALL,
consts.DEPLOY_PHASE_BOOTSTRAP]
if consts.DEPLOY_CONFIG in payload:
phases_to_run.append(consts.DEPLOY_PHASE_CONFIG)
succeeded = self.run_deploy_phases(context, subcloud_id, payload,
phases_to_run)
if succeeded:
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_DONE,
error_description=consts.ERROR_DESC_EMPTY)
LOG.info(f"Finished redeploying subcloud {subcloud['name']}.")
def create_subcloud_backups(self, context, payload):
"""Backup subcloud or group of subclouds
:param context: request context object
:param payload: subcloud backup create detail
"""
subcloud_id = payload.get('subcloud')
group_id = payload.get('group')
# Retrieve either a single subcloud or all subclouds in a group
subclouds = [db_api.subcloud_get(context, subcloud_id)] if subcloud_id\
else db_api.subcloud_get_for_group(context, group_id)
self._filter_subclouds_with_ongoing_backup(subclouds)
self._update_backup_status(context, subclouds,
consts.BACKUP_STATE_INITIAL)
# Validate the subclouds and filter the ones applicable for backup
self._update_backup_status(context, subclouds,
consts.BACKUP_STATE_VALIDATING)
subclouds_to_backup, invalid_subclouds = \
self._validate_subclouds_for_backup(subclouds, 'create')
self._mark_invalid_subclouds_for_backup(context, invalid_subclouds)
# Use thread pool to limit number of operations in parallel
backup_pool = greenpool.GreenPool(size=MAX_PARALLEL_SUBCLOUD_BACKUP_CREATE)
# Spawn threads to back up each applicable subcloud
backup_function = functools.partial(self._backup_subcloud, context,
payload)
self._run_parallel_group_operation('backup create',
backup_function,
backup_pool,
subclouds_to_backup)
LOG.info("Subcloud backup operation finished")
def delete_subcloud_backups(self, context, release_version, payload):
"""Delete backups for subcloud or group of subclouds for a given release
:param context: request context object
:param release_version Backup release version to be deleted
:param payload: subcloud backup delete detail
"""
local_delete = payload.get('local_only')
subclouds_to_delete_backup, invalid_subclouds = \
self._filter_subclouds_for_backup_delete(context, payload, local_delete)
# Spawn threads to back up each applicable subcloud
backup_delete_function = functools.partial(
self._delete_subcloud_backup, context, payload, release_version)
# Use thread pool to limit number of operations in parallel
max_parallel_operations = MAX_PARALLEL_SUBCLOUD_BACKUP_DELETE
backup_delete_pool = greenpool.GreenPool(size=max_parallel_operations)
failed_subclouds = self._run_parallel_group_operation(
'backup delete', backup_delete_function, backup_delete_pool,
subclouds_to_delete_backup)
LOG.info("Subcloud backup delete operation finished")
return self._subcloud_operation_notice('delete', subclouds_to_delete_backup,
failed_subclouds, invalid_subclouds)
def restore_subcloud_backups(self, context, payload):
"""Restore a subcloud or group of subclouds from backup data
:param context: request context object
:param payload: restore backup subcloud detail
"""
subcloud_id = payload.get('subcloud')
group_id = payload.get('group')
# Initialize subclouds lists
restore_subclouds, invalid_subclouds, failed_subclouds = (
list(), list(), list())
# Retrieve either a single subcloud or all subclouds in a group
subclouds = (
[db_api.subcloud_get(context, subcloud_id)] if subcloud_id
else db_api.subcloud_get_for_group(context, group_id)
)
restore_subclouds, invalid_subclouds = (
self._validate_subclouds_for_backup(subclouds, 'restore')
)
if restore_subclouds:
# Use thread pool to limit number of operations in parallel
restore_pool = greenpool.GreenPool(
size=MAX_PARALLEL_SUBCLOUD_BACKUP_RESTORE)
# Spawn threads to back up each applicable subcloud
restore_function = functools.partial(
self._restore_subcloud_backup, context, payload)
failed_subclouds = self._run_parallel_group_operation(
'backup restore', restore_function,
restore_pool, restore_subclouds
)
restored_subclouds = len(restore_subclouds) - len(failed_subclouds)
LOG.info("Subcloud restore backup operation finished.\n"
"Restored subclouds: %s. Invalid subclouds: %s. "
"Failed subclouds: %s." % (restored_subclouds,
len(invalid_subclouds),
len(failed_subclouds)))
return self._subcloud_operation_notice('restore', restore_subclouds,
failed_subclouds, invalid_subclouds)
def _deploy_bootstrap_prep(self, context, subcloud, payload: dict,
ansible_subcloud_inventory_file):
"""Run the preparation steps needed to run the bootstrap operation
:param context: target request context object
:param subcloud: subcloud model object
:param payload: bootstrap request parameters
:param ansible_subcloud_inventory_file: the ansible inventory file path
:return: ansible command needed to run the bootstrap playbook
"""
network_reconfig = utils.has_network_reconfig(payload, subcloud)
if network_reconfig:
self._configure_system_controller_network(context, payload, subcloud,
update_db=False)
# Regenerate the addn_hosts_dc file
self._create_addn_hosts_dc(context)
# Update subcloud
subcloud = db_api.subcloud_update(
context,
subcloud.id,
description=payload.get("description"),
management_subnet=utils.get_management_subnet(payload),
management_gateway_ip=utils.get_management_gateway_address(
payload),
management_start_ip=utils.get_management_start_address(
payload),
management_end_ip=utils.get_management_end_address(payload),
systemcontroller_gateway_ip=payload.get(
"systemcontroller_gateway_address"),
location=payload.get("location"),
deploy_status=consts.DEPLOY_STATE_PRE_BOOTSTRAP)
# Populate payload with passwords
payload['ansible_become_pass'] = payload['sysadmin_password']
payload['ansible_ssh_pass'] = payload['sysadmin_password']
payload['admin_password'] = str(keyring.get_password('CGCS', 'admin'))
payload_without_sysadmin_password = payload.copy()
if 'sysadmin_password' in payload_without_sysadmin_password:
del payload_without_sysadmin_password['sysadmin_password']
# Update the ansible overrides file
overrides_file = os.path.join(dccommon_consts.ANSIBLE_OVERRIDES_PATH,
subcloud.name + '.yml')
utils.update_values_on_yaml_file(overrides_file,
payload_without_sysadmin_password)
# Update the ansible inventory for the subcloud
utils.create_subcloud_inventory(payload,
ansible_subcloud_inventory_file)
bootstrap_command = self.compose_bootstrap_command(
subcloud.name,
ansible_subcloud_inventory_file,
subcloud.software_version)
return bootstrap_command
def _deploy_config_prep(self, subcloud, payload: dict,
ansible_subcloud_inventory_file):
"""Run the preparation steps needed to run the config operation
:param subcloud: target subcloud model object
:param payload: config request parameters
:param ansible_subcloud_inventory_file: the ansible inventory file path
:return: ansible command needed to run the config playbook
"""
self._prepare_for_deployment(payload, subcloud.name)
config_command = self.compose_config_command(
subcloud.name,
ansible_subcloud_inventory_file,
payload)
return config_command
def _deploy_install_prep(self, subcloud, payload: dict,
ansible_subcloud_inventory_file):
"""Run the preparation steps needed to run the install operation
:param subcloud: target subcloud model object
:param payload: install request parameters
:param ansible_subcloud_inventory_file: the ansible inventory file path
:return: ansible command needed to run the install playbook
"""
payload['install_values']['ansible_ssh_pass'] = \
payload['sysadmin_password']
payload['install_values']['ansible_become_pass'] = \
payload['sysadmin_password']
# If all update_values already exists on override file or are
# the same as the existing ones, the update won't happen
# and the file will remain untouched
bootstrap_file = psd_common.get_config_file_path(subcloud.name,
consts.BOOTSTRAP_VALUES)
update_values = {'software_version': payload['software_version'],
'bmc_password': payload['bmc_password'],
'ansible_ssh_pass': payload['sysadmin_password'],
'ansible_become_pass': payload['sysadmin_password']
}
utils.update_values_on_yaml_file(bootstrap_file,
update_values)
install_command = self.compose_install_command(
subcloud.name,
ansible_subcloud_inventory_file,
payload['software_version'])
return install_command
def subcloud_deploy_abort(self, context, subcloud_id, deploy_status):
"""Abort the subcloud deploy
:param context: request context object
:param subcloud_id: subcloud id from db
:param deploy_status: subcloud deploy status from db
"""
LOG.info("Aborting deployment of subcloud %s." % subcloud_id)
subcloud = utils.update_abort_status(context, subcloud_id, deploy_status)
try:
run_ansible = RunAnsible()
aborted = run_ansible.run_abort(subcloud.name)
if not aborted:
LOG.warning("Ansible deploy phase subprocess of %s "
"was terminated before it could be aborted"
% subcloud.name)
# let the main phase thread handle the state update
return
if subcloud.deploy_status == consts.DEPLOY_STATE_ABORTING_INSTALL:
# First delete the k8s job and pod, stopping the current
# installation attempt if exists
# Then send shutdown signal to subcloud
kube = kubeoperator.KubeOperator()
shutdown_subcloud = SubcloudShutdown(subcloud.name)
namespace = dccommon_consts.RVMC_NAME_PREFIX
jobname = '%s-%s' % (namespace, subcloud.name)
pod_basename = '%s-' % jobname
all_pods = kube.get_pods_by_namespace(namespace)
desired_pod = next((s for s in all_pods if pod_basename in s), None)
if desired_pod:
kube.kube_delete_job(jobname, namespace)
kube.kube_delete_pod(desired_pod, namespace)
while kube.pod_exists(desired_pod, namespace):
time.sleep(2)
shutdown_subcloud.send_shutdown_signal()
except Exception as ex:
LOG.error("Subcloud deploy abort failed for subcloud %s" % subcloud.name)
utils.update_abort_status(context, subcloud.id, subcloud.deploy_status,
abort_failed=True)
# exception is logged above
raise ex
LOG.info("Successfully aborted deployment of %s" % subcloud.name)
utils.update_abort_status(context, subcloud.id, subcloud.deploy_status)
def subcloud_deploy_resume(self, context, subcloud_id, subcloud_name,
payload: dict, deploy_states_to_run):
"""Resume the subcloud deployment
:param context: request context object
:param subcloud_id: subcloud id from db
:param subcloud_name: name of the subcloud
:param payload: subcloud resume payload
:param deploy_states_to_run: deploy phases pending execution
"""
LOG.info("Resuming deployment of subcloud %s. Deploy phases to be executed: %s"
% (subcloud_name, ', '.join(deploy_states_to_run)))
self.run_deploy_phases(context, subcloud_id, payload,
deploy_states_to_run)
def subcloud_migrate_generate_ansible_config(self, context, subcloud_id, payload):
"""Generate latest ansible config based on given payload for day-2 rehoming purpose.
:param context: request context object
:param subcloud_id: subcloud_id from db
:param payload: subcloud configuration
:return: resulting subcloud DB object
"""
LOG.info("Generate subcloud %s ansible config." % payload['name'])
deploy_state = consts.DEPLOY_STATE_PRE_REHOME
subcloud = db_api.subcloud_update(
context, subcloud_id,
deploy_status=deploy_state)
try:
# Write ansible based on rehome_data
m_ks_client = OpenStackDriver(
region_name=dccommon_consts.DEFAULT_REGION_NAME,
region_clients=None).keystone_client
endpoint = m_ks_client.endpoint_cache.get_endpoint('sysinv')
sysinv_client = SysinvClient(dccommon_consts.DEFAULT_REGION_NAME,
m_ks_client.session,
endpoint=endpoint)
LOG.debug("Getting cached regionone data for %s" % subcloud.name)
cached_regionone_data = self._get_cached_regionone_data(
m_ks_client, sysinv_client)
self._populate_payload_with_cached_keystone_data(
cached_regionone_data, payload, populate_passwords=False)
payload['users'] = {}
for user in USERS_TO_REPLICATE:
payload['users'][user] = \
str(keyring.get_password(
user, dccommon_consts.SERVICES_USER_NAME))
# Ansible inventory filename for the specified subcloud
ansible_subcloud_inventory_file = utils.get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
# Create the ansible inventory for the new subcloud
utils.create_subcloud_inventory(payload,
ansible_subcloud_inventory_file)
# create subcloud intermediate certificate and pass in keys
self._create_intermediate_ca_cert(payload)
# Write this subclouds overrides to file
# NOTE: This file should not be deleted if subcloud migrate fails
# as it is used for debugging
self._write_subcloud_ansible_config(cached_regionone_data, payload)
return subcloud
except Exception:
LOG.exception("Failed to generate subcloud %s config" % payload['name'])
# If we failed to generate the subcloud config, update the deployment status
deploy_state = consts.DEPLOY_STATE_REHOME_PREP_FAILED
subcloud = db_api.subcloud_update(
context, subcloud_id,
deploy_status=deploy_state)
return subcloud
def subcloud_deploy_create(self, context, subcloud_id, payload,
rehoming=False, return_as_dict=True):
"""Create subcloud and notify orchestrators.
:param context: request context object
:param subcloud_id: subcloud_id from db
:param payload: subcloud configuration
:param rehoming: flag indicating if this is part of a rehoming operation
:param return_as_dict: converts the subcloud DB object to a dict before returning
:return: resulting subcloud DB object or dictionary
"""
LOG.info("Creating subcloud %s." % payload['name'])
# cache original payload data for day-2's rehome usage
original_payload = copy.deepcopy(payload)
# Check the secondary option from payload
secondary_str = payload.get('secondary', '')
secondary = (secondary_str.lower() == 'true')
if rehoming:
deploy_state = consts.DEPLOY_STATE_PRE_REHOME
elif secondary:
deploy_state = consts.DEPLOY_STATE_SECONDARY
else:
deploy_state = consts.DEPLOY_STATE_CREATING
subcloud = db_api.subcloud_update(
context, subcloud_id,
deploy_status=deploy_state)
rehome_data = None
try:
# Create a new route to this subcloud on the management interface
# on both controllers.
m_ks_client = OpenStackDriver(
region_name=dccommon_consts.DEFAULT_REGION_NAME,
region_clients=None).keystone_client
subcloud_subnet = netaddr.IPNetwork(
utils.get_management_subnet(payload))
endpoint = m_ks_client.endpoint_cache.get_endpoint('sysinv')
sysinv_client = SysinvClient(dccommon_consts.DEFAULT_REGION_NAME,
m_ks_client.session,
endpoint=endpoint)
LOG.debug("Getting cached regionone data for %s" % subcloud.name)
cached_regionone_data = self._get_cached_regionone_data(
m_ks_client, sysinv_client)
for mgmt_if_uuid in cached_regionone_data['mgmt_interface_uuids']:
sysinv_client.create_route(
mgmt_if_uuid,
str(subcloud_subnet.ip),
subcloud_subnet.prefixlen,
payload['systemcontroller_gateway_address'],
1)
# Create endpoints to this subcloud on the
# management-start-ip of the subcloud which will be allocated
# as the floating Management IP of the Subcloud if the
# Address Pool is not shared. Incase the endpoint entries
# are incorrect, or the management IP of the subcloud is changed
# in the future, it will not go managed or will show up as
# out of sync. To fix this use Openstack endpoint commands
# on the SystemController to change the subcloud endpoints.
# The non-identity endpoints are added to facilitate horizon access
# from the System Controller to the subcloud.
endpoint_config = []
endpoint_ip = utils.get_management_start_address(payload)
if netaddr.IPAddress(endpoint_ip).version == 6:
endpoint_ip = '[' + endpoint_ip + ']'
for service in m_ks_client.services_list:
admin_endpoint_url = ENDPOINT_URLS.get(service.type, None)
if admin_endpoint_url:
admin_endpoint_url = admin_endpoint_url.format(endpoint_ip)
endpoint_config.append(
{"id": service.id,
"admin_endpoint_url": admin_endpoint_url})
if len(endpoint_config) < len(ENDPOINT_URLS):
raise exceptions.BadRequest(
resource='subcloud',
msg='Missing service in SystemController')
for endpoint in endpoint_config:
try:
m_ks_client.keystone_client.endpoints.create(
endpoint["id"],
endpoint['admin_endpoint_url'],
interface=dccommon_consts.KS_ENDPOINT_ADMIN,
region=subcloud.name)
except Exception as e:
# Keystone service must be temporarily busy, retry
LOG.error(str(e))
m_ks_client.keystone_client.endpoints.create(
endpoint["id"],
endpoint['admin_endpoint_url'],
interface=dccommon_consts.KS_ENDPOINT_ADMIN,
region=subcloud.name)
# Inform orchestrator that subcloud has been added
self.dcorch_rpc_client.add_subcloud(
context, subcloud.name, subcloud.software_version)
# create entry into alarm summary table, will get real values later
alarm_updates = {'critical_alarms': -1,
'major_alarms': -1,
'minor_alarms': -1,
'warnings': -1,
'cloud_status': consts.ALARMS_DISABLED}
db_api.subcloud_alarms_create(context, subcloud.name,
alarm_updates)
# Regenerate the addn_hosts_dc file
self._create_addn_hosts_dc(context)
# Passwords need to be populated when rehoming
self._populate_payload_with_cached_keystone_data(
cached_regionone_data, payload, populate_passwords=rehoming)
if "deploy_playbook" in payload:
self._prepare_for_deployment(payload, subcloud.name,
populate_passwords=False)
payload['users'] = {}
for user in USERS_TO_REPLICATE:
payload['users'][user] = \
str(keyring.get_password(
user, dccommon_consts.SERVICES_USER_NAME))
# Ansible inventory filename for the specified subcloud
ansible_subcloud_inventory_file = utils.get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
# Create the ansible inventory for the new subcloud
utils.create_subcloud_inventory(payload,
ansible_subcloud_inventory_file)
# create subcloud intermediate certificate and pass in keys
self._create_intermediate_ca_cert(payload)
# Write this subclouds overrides to file
# NOTE: This file should not be deleted if subcloud add fails
# as it is used for debugging
self._write_subcloud_ansible_config(cached_regionone_data, payload)
# To add a 'secondary' subcloud, save payload into DB
# for day-2's migrate purpose.
if secondary:
# remove unused parameters
if 'secondary' in original_payload:
del original_payload['secondary']
if 'ansible_ssh_pass' in original_payload:
del original_payload['ansible_ssh_pass']
if 'sysadmin_password' in original_payload:
del original_payload['sysadmin_password']
bootstrap_info = utils.create_subcloud_rehome_data_template()
bootstrap_info['saved_payload'] = original_payload
rehome_data = json.dumps(bootstrap_info)
deploy_state = consts.DEPLOY_STATE_SECONDARY
if not rehoming and not secondary:
deploy_state = consts.DEPLOY_STATE_CREATED
except Exception:
LOG.exception("Failed to create subcloud %s" % payload['name'])
# If we failed to create the subcloud, update the deployment status
if rehoming:
deploy_state = consts.DEPLOY_STATE_REHOME_PREP_FAILED
elif secondary:
deploy_state = consts.DEPLOY_STATE_SECONDARY_FAILED
else:
deploy_state = consts.DEPLOY_STATE_CREATE_FAILED
subcloud = db_api.subcloud_update(
context, subcloud.id,
deploy_status=deploy_state,
rehome_data=rehome_data)
# The RPC call must return the subcloud as a dictionary, otherwise it
# should return the DB object for dcmanager internal use (subcloud add)
if return_as_dict:
subcloud = db_api.subcloud_db_model_to_dict(subcloud)
return subcloud
def subcloud_deploy_install(self, context, subcloud_id, payload: dict) -> bool:
"""Install subcloud
:param context: request context object
:param subcloud_id: subcloud id from db
:param payload: subcloud Install
:return: success status
"""
# Retrieve the subcloud details from the database
subcloud = db_api.subcloud_update(
context,
subcloud_id,
software_version=payload['software_version'],
deploy_status=consts.DEPLOY_STATE_PRE_INSTALL,
data_install=json.dumps(payload['install_values']))
LOG.info("Installing subcloud %s." % subcloud.name)
try:
log_file = (
os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name)
+ "_playbook_output.log"
)
ansible_subcloud_inventory_file = self._get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
install_command = self._deploy_install_prep(
subcloud, payload, ansible_subcloud_inventory_file)
install_success = self._run_subcloud_install(
context, subcloud, install_command,
log_file, payload['install_values'],
abortable=True)
if install_success:
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_INSTALLED,
error_description=consts.ERROR_DESC_EMPTY)
return install_success
except Exception:
LOG.exception("Failed to install subcloud %s" % subcloud.name)
# If we failed to install the subcloud,
# update the deployment status
db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_PRE_INSTALL_FAILED)
return False
def subcloud_deploy_bootstrap(self, context, subcloud_id, payload):
"""Bootstrap subcloud
:param context: request context object
:param subcloud_id: subcloud_id from db
:param payload: subcloud bootstrap configuration
:return: success status
"""
LOG.info("Bootstrapping subcloud %s." % payload['name'])
# Retrieve the subcloud details from the database
subcloud = db_api.subcloud_get(context, subcloud_id)
try:
log_file = (
os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name)
+ "_playbook_output.log"
)
ansible_subcloud_inventory_file = self._get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
bootstrap_command = self._deploy_bootstrap_prep(
context, subcloud, payload,
ansible_subcloud_inventory_file)
bootstrap_success = self._run_subcloud_bootstrap(
context, subcloud, bootstrap_command, log_file)
return bootstrap_success
except Exception:
LOG.exception("Failed to bootstrap subcloud %s" % payload['name'])
db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_PRE_BOOTSTRAP_FAILED)
return False
def subcloud_deploy_config(self, context, subcloud_id, payload: dict) -> bool:
"""Configure subcloud
:param context: request context object
:param subcloud_id: subcloud_id from db
:param payload: subcloud configuration
:return: success status
"""
LOG.info("Configuring subcloud %s." % subcloud_id)
subcloud = db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_PRE_CONFIG)
try:
log_file = (
os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name)
+ "_playbook_output.log"
)
# Ansible inventory filename for the specified subcloud
ansible_subcloud_inventory_file = self._get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
self._prepare_for_deployment(payload, subcloud.name)
config_command = self.compose_config_command(
subcloud.name,
ansible_subcloud_inventory_file,
payload)
config_success = self._run_subcloud_config(subcloud, context,
config_command, log_file)
return config_success
except Exception:
LOG.exception("Failed to configure %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_PRE_CONFIG_FAILED)
return False
def subcloud_deploy_complete(self, context, subcloud_id):
"""Completes the subcloud deployment.
:param context: request context object
:param subcloud_id: subcloud_id from db
:return: resulting subcloud dictionary
"""
LOG.info("Completing subcloud %s deployment." % subcloud_id)
# Just update the deploy status
subcloud = db_api.subcloud_update(context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_DONE)
LOG.info("Subcloud %s deploy status set to: %s"
% (subcloud_id, consts.DEPLOY_STATE_DONE))
return db_api.subcloud_db_model_to_dict(subcloud)
def _subcloud_operation_notice(
self, operation, restore_subclouds, failed_subclouds,
invalid_subclouds):
all_failed = ((not set(restore_subclouds) - set(failed_subclouds))
and not invalid_subclouds)
if all_failed:
LOG.error("Backup %s failed for all applied subclouds" % operation)
raise exceptions.SubcloudBackupOperationFailed(operation=operation)
if invalid_subclouds:
self._warn_for_invalid_subclouds_on_backup_operation(invalid_subclouds)
if failed_subclouds:
self._warn_for_failed_subclouds_on_backup_operation(operation,
failed_subclouds)
if invalid_subclouds or failed_subclouds:
return self._build_subcloud_operation_notice(operation,
failed_subclouds,
invalid_subclouds)
return
def _filter_subclouds_with_ongoing_backup(self, subclouds):
i = 0
while i < len(subclouds):
subcloud = subclouds[i]
if subcloud.backup_status in consts.STATES_FOR_ONGOING_BACKUP:
LOG.info(_('Subcloud %s already has a backup operation in '
'progress' % subcloud.name))
subclouds.pop(i)
else:
i += 1
def _validate_subclouds_for_backup(self, subclouds, operation):
valid_subclouds = []
invalid_subclouds = []
for subcloud in subclouds:
is_valid = False
try:
if utils.is_valid_for_backup_operation(operation, subcloud):
is_valid = True
except exceptions.ValidateFail:
is_valid = False
if is_valid:
valid_subclouds.append(subcloud)
else:
invalid_subclouds.append(subcloud)
return valid_subclouds, invalid_subclouds
@staticmethod
def _mark_invalid_subclouds_for_backup(context, invalid_subclouds):
try:
invalid_ids = {subcloud.id for subcloud in invalid_subclouds}
invalid_names = {subcloud.name for subcloud in invalid_subclouds}
if invalid_ids:
# Set state on subclouds that failed validation
LOG.warn('The following subclouds are not online and/or managed '
'and/or in a valid deploy state, and will not be backed '
'up: %s', ', '.join(list(invalid_names)))
SubcloudManager._update_backup_status_by_ids(
context, invalid_ids,
consts.BACKUP_STATE_VALIDATE_FAILED)
except DCManagerException as ex:
LOG.exception("Subcloud backup validation failed")
raise ex
@staticmethod
def _warn_for_invalid_subclouds_on_backup_operation(invalid_subclouds):
invalid_names = {subcloud.name for subcloud in invalid_subclouds}
LOG.warn('The following subclouds were not online and/or in a valid '
'deploy/management state, and thus were not be reached '
'for backup operation: %s', ', '.join(list(invalid_names)))
@staticmethod
def _warn_for_failed_subclouds_on_backup_operation(operation, failed_subclouds):
failed_names = {subcloud.name for subcloud in failed_subclouds}
LOG.warn('Backup %s operation failed for some subclouds, '
'check previous logs for details. Failed subclouds: %s' %
(operation, ', '.join(list(failed_names))))
@staticmethod
def _update_backup_status(context, subclouds, backup_status):
subcloud_ids = [subcloud.id for subcloud in subclouds]
return SubcloudManager.\
_update_backup_status_by_ids(context, subcloud_ids,
backup_status)
@staticmethod
def _update_backup_status_by_ids(context, subcloud_ids, backup_status):
validate_state_form = {
Subcloud.backup_status.name: backup_status
}
db_api.subcloud_bulk_update_by_ids(context, subcloud_ids,
validate_state_form)
@staticmethod
def _run_parallel_group_operation(op_type, op_function, thread_pool, subclouds):
failed_subclouds = []
processed = 0
for subcloud, success in thread_pool.imap(op_function, subclouds):
processed += 1
if not success:
failed_subclouds.append(subcloud)
completion = float(processed) / float(len(subclouds)) * 100
remaining = len(subclouds) - processed
LOG.info("Processed subcloud %s for %s (operation %.0f%% "
"complete, %d subcloud(s) remaining)" %
(subcloud.name, op_type, completion, remaining))
return failed_subclouds
def _backup_subcloud(self, context, payload, subcloud):
try:
# Health check validation
if not utils.is_subcloud_healthy(subcloud.name):
db_api.subcloud_update(
context,
subcloud.id,
backup_status=consts.BACKUP_STATE_VALIDATE_FAILED,
)
LOG.info(
("Subcloud %s is not in good health for subcloud-backup create")
% subcloud.name
)
return subcloud, False
db_api.subcloud_update(
context,
subcloud.id,
backup_status=consts.BACKUP_STATE_PRE_BACKUP,
)
subcloud_inventory_file = self._create_subcloud_inventory_file(subcloud)
# Prepare for backup
overrides_file = self._create_overrides_for_backup_or_restore(
'create', payload, subcloud.name
)
backup_command = self.compose_backup_command(
subcloud.name, subcloud_inventory_file)
self._clear_subcloud_backup_failure_alarm_if_exists(subcloud)
except Exception:
self._fail_subcloud_backup_prep(context, subcloud)
return subcloud, False
local_only = payload.get('local_only') or False
success = self._run_subcloud_backup_create_playbook(
subcloud, backup_command, context, local_only)
if success:
utils.delete_subcloud_inventory(overrides_file)
return subcloud, success
def _filter_subclouds_for_backup_delete(self, context, payload, local_delete):
subcloud_id = payload.get('subcloud')
group_id = payload.get('group')
# Retrieve either a single subcloud or all subclouds in a group
subclouds = [db_api.subcloud_get(context, subcloud_id)] if subcloud_id \
else db_api.subcloud_get_for_group(context, group_id)
invalid_subclouds = []
# Subcloud state validation only required for local delete
if local_delete:
# Use same criteria defined for subcloud backup create
subclouds_to_delete_backup, invalid_subclouds = \
self._validate_subclouds_for_backup(subclouds, 'delete')
else:
# Otherwise, validation is unnecessary, since connection is not required
subclouds_to_delete_backup = subclouds
return subclouds_to_delete_backup, invalid_subclouds
def _delete_subcloud_backup(self, context, payload, release_version, subcloud):
try:
overrides_file = self._create_overrides_for_backup_delete(
payload, subcloud.name, release_version
)
inventory_file = self._create_subcloud_inventory_file(subcloud)
delete_command = self.compose_backup_delete_command(
subcloud.name, inventory_file)
except Exception:
LOG.exception("Failed to prepare subcloud %s for backup delete"
% subcloud.name)
return subcloud, False
success = self._run_subcloud_backup_delete_playbook(context, subcloud,
delete_command)
if success:
utils.delete_subcloud_inventory(overrides_file)
return subcloud, success
def _restore_subcloud_backup(self, context, payload, subcloud):
log_file = (os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name) +
'_playbook_output.log')
data_install = json.loads(subcloud.data_install)
try:
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_PRE_RESTORE
)
subcloud_inventory_file = self._create_subcloud_inventory_file(
subcloud, data_install=data_install)
# Prepare for restore
overrides_file = self._create_overrides_for_backup_or_restore(
'restore', payload, subcloud.name
)
restore_command = self.compose_backup_restore_command(
subcloud.name, subcloud_inventory_file)
except Exception:
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_RESTORE_PREP_FAILED
)
LOG.exception("Failed to prepare subcloud %s for backup restore"
% subcloud.name)
return subcloud, False
if payload.get('with_install'):
software_version = payload.get('software_version')
install_command = self.compose_install_command(
subcloud.name, subcloud_inventory_file, software_version)
# Update data_install with missing data
matching_iso, _ = utils.get_vault_load_files(software_version)
data_install['software_version'] = software_version
data_install['image'] = matching_iso
data_install['ansible_ssh_pass'] = payload['sysadmin_password']
data_install['ansible_become_pass'] = payload['sysadmin_password']
install_success = self._run_subcloud_install(
context, subcloud, install_command, log_file, data_install)
if not install_success:
return subcloud, False
success = self._run_subcloud_backup_restore_playbook(
subcloud, restore_command, context, log_file)
if success:
utils.delete_subcloud_inventory(overrides_file)
return subcloud, success
@staticmethod
def _build_subcloud_operation_notice(operation, failed_subclouds, invalid_subclouds):
invalid_subcloud_names = [subcloud.name for subcloud in invalid_subclouds]
failed_subcloud_names = [subcloud.name for subcloud in failed_subclouds]
notice = "Subcloud backup %s operation completed with warnings:\n" % operation
if invalid_subclouds:
notice += ("The following subclouds were skipped for local backup "
"%s operation: %s."
% (operation, ' ,'.join(invalid_subcloud_names)))
if failed_subclouds:
notice += ("The following subclouds failed during backup "
"%s operation: %s."
% (operation, ' ,'.join(failed_subcloud_names)))
return notice
def _create_subcloud_inventory_file(self, subcloud, data_install=None):
# Ansible inventory filename for the specified subcloud
ansible_subcloud_inventory_file = self._get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
oam_fip = None
# Restore is restrict to Redfish enabled subclouds
if data_install:
oam_fip = data_install.get('bootstrap_address')
else:
# Use subcloud floating IP for host reachability
keystone_client = OpenStackDriver(
region_name=subcloud.name,
region_clients=None).keystone_client
oam_fip = utils.get_oam_addresses(subcloud.name, keystone_client)\
.oam_floating_ip
# Add parameters used to generate inventory
subcloud_params = {'name': subcloud.name,
'bootstrap-address': oam_fip}
utils.create_subcloud_inventory(subcloud_params,
ansible_subcloud_inventory_file)
return ansible_subcloud_inventory_file
def _create_overrides_for_backup_or_restore(self, op, payload, subcloud_name):
# Set override names as expected by the playbook
if not payload.get('override_values'):
payload['override_values'] = {}
payload['override_values']['local'] = \
payload['local_only'] or False
if op == 'create':
payload['override_values']['backup_registry_images'] = \
payload['registry_images'] or False
suffix = 'backup_create_values'
else:
payload['override_values']['restore_registry_images'] = \
payload['registry_images'] or False
suffix = 'backup_restore_values'
if not payload['local_only']:
payload['override_values']['central_backup_dir'] = CENTRAL_BACKUP_DIR
payload['override_values']['ansible_ssh_pass'] = \
payload['sysadmin_password']
payload['override_values']['ansible_become_pass'] = \
payload['sysadmin_password']
payload['override_values']['admin_password'] = \
str(keyring.get_password('CGCS', 'admin'))
if payload.get('backup_values'):
LOG.info('Backup create: Received backup_values for subcloud %s'
% subcloud_name)
for key, value in payload.get('backup_values').items():
payload['override_values'][key] = value
elif payload.get('restore_values'):
LOG.info('Backup restore: Received restore_values for subcloud %s'
% subcloud_name)
for key, value in payload.get('restore_values').items():
payload['override_values'][key] = value
return self._create_backup_overrides_file(payload, subcloud_name, suffix)
def _create_overrides_for_backup_delete(self, payload, subcloud_name,
release_version):
# Set override names as expected by the playbook
if not payload.get('override_values'):
payload['override_values'] = {}
payload['override_values']['software_version'] = release_version
payload['override_values']['local'] = \
payload['local_only'] or False
if not payload['local_only']:
payload['override_values']['central_backup_dir'] = CENTRAL_BACKUP_DIR
else:
payload['override_values']['ansible_ssh_pass'] = \
payload['sysadmin_password']
payload['override_values']['ansible_become_pass'] = \
payload['sysadmin_password']
return self._create_backup_overrides_file(
payload, subcloud_name, 'backup_delete_values'
)
def _create_backup_overrides_file(self, payload, subcloud_name, filename_suffix):
backup_overrides_file = os.path.join(
dccommon_consts.ANSIBLE_OVERRIDES_PATH, subcloud_name + '_' +
filename_suffix + '.yml')
with open(backup_overrides_file, 'w') as f_out:
f_out.write(
'---\n'
)
for k, v in payload['override_values'].items():
f_out.write("%s: %s\n" % (k, v))
return backup_overrides_file
def _run_subcloud_backup_create_playbook(self, subcloud, backup_command,
context, local_only):
log_file = os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name) + \
'_playbook_output.log'
db_api.subcloud_update(
context, subcloud.id,
backup_status=consts.BACKUP_STATE_IN_PROGRESS,
error_description=consts.ERROR_DESC_EMPTY)
# Run the subcloud backup playbook
try:
run_playbook(log_file, backup_command)
# Decide between complete-local or complete-central
if local_only:
backup_status = consts.BACKUP_STATE_COMPLETE_LOCAL
else:
backup_status = consts.BACKUP_STATE_COMPLETE_CENTRAL
db_api.subcloud_update(
context, subcloud.id,
backup_status=backup_status,
backup_datetime=datetime.datetime.utcnow())
LOG.info("Successfully backed up subcloud %s" % subcloud.name)
return True
except PlaybookExecutionFailed:
self._fail_subcloud_backup_operation(context, log_file, subcloud)
return False
@staticmethod
def _run_subcloud_backup_delete_playbook(context, subcloud, delete_command):
log_file = os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name) + \
'_playbook_output.log'
try:
# Run the subcloud backup delete playbook
run_playbook(log_file, delete_command)
# Set backup status to unknown after delete, since most recent backup may
# have been deleted
db_api.subcloud_bulk_update_by_ids(
context, [subcloud.id],
{Subcloud.backup_status.name: consts.BACKUP_STATE_UNKNOWN,
Subcloud.backup_datetime.name: None})
LOG.info("Successfully deleted backup for subcloud %s" % subcloud.name)
return True
except PlaybookExecutionFailed:
LOG.error("Failed to delete backup for subcloud %s, check individual "
"log at %s for detailed output." % (subcloud.name, log_file))
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.BACKUP_STATE_FAILED)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
return False
def _run_subcloud_backup_restore_playbook(
self, subcloud, restore_command, context, log_file):
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_RESTORING,
error_description=consts.ERROR_DESC_EMPTY
)
# Run the subcloud backup restore playbook
try:
run_playbook(log_file, restore_command)
LOG.info("Successfully restore subcloud %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_DONE
)
return True
except PlaybookExecutionFailed:
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.DEPLOY_STATE_RESTORING)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_RESTORE_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH]
)
return False
@staticmethod
def _fail_subcloud_backup_prep(context, subcloud):
LOG.exception("Failed to prepare subcloud %s for backup" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
backup_status=consts.BACKUP_STATE_PREP_FAILED)
def _fail_subcloud_backup_operation(self, context, log_file, subcloud):
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.BACKUP_STATE_IN_PROGRESS)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
backup_status=consts.BACKUP_STATE_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
self._set_subcloud_backup_failure_alarm(subcloud)
def _clear_subcloud_backup_failure_alarm_if_exists(self, subcloud):
entity_instance_id = "subcloud=%s" % subcloud.name
try:
fault = self.fm_api.get_fault(
fm_const.FM_ALARM_ID_DC_SUBCLOUD_BACKUP_FAILED,
entity_instance_id)
if fault:
self.fm_api.clear_fault(
fm_const.FM_ALARM_ID_DC_SUBCLOUD_BACKUP_FAILED, # noqa
entity_instance_id)
except Exception as e:
LOG.exception(e)
def _set_subcloud_backup_failure_alarm(self, subcloud):
entity_instance_id = "subcloud=%s" % subcloud.name
try:
fault = fm_api.Fault(
alarm_id=fm_const.FM_ALARM_ID_DC_SUBCLOUD_BACKUP_FAILED, # noqa
alarm_state=fm_const.FM_ALARM_STATE_SET,
entity_type_id=fm_const.FM_ENTITY_TYPE_SUBCLOUD,
entity_instance_id=entity_instance_id,
severity=fm_const.FM_ALARM_SEVERITY_MINOR,
reason_text=("Subcloud Backup Failure (subcloud=%s)"
% subcloud.name),
alarm_type=fm_const.FM_ALARM_TYPE_3,
probable_cause=fm_const.ALARM_PROBABLE_CAUSE_UNKNOWN,
proposed_repair_action="Retry subcloud backup after checking input "
"file. If problem persists, please contact "
"next level of support.",
service_affecting=False)
self.fm_api.set_fault(fault)
except Exception as e:
LOG.exception(e)
def run_deploy_thread(self, subcloud, payload, context,
install_command=None, bootstrap_command=None,
config_command=None, rehome_command=None,
network_reconfig=None):
try:
self._run_deploy(subcloud, payload, context,
install_command, bootstrap_command,
config_command, rehome_command,
network_reconfig)
except Exception as ex:
LOG.exception("run_deploy failed")
raise ex
def _run_deploy(self, subcloud, payload, context,
install_command, bootstrap_command,
config_command, rehome_command,
network_reconfig):
log_file = (
os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud.name)
+ "_playbook_output.log"
)
if install_command:
install_success = self._run_subcloud_install(
context, subcloud, install_command,
log_file, payload['install_values']
)
if not install_success:
return
if bootstrap_command:
try:
# Update the subcloud to bootstrapping
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_BOOTSTRAPPING,
error_description=consts.ERROR_DESC_EMPTY)
except Exception:
LOG.error("DB subcloud_update failed")
# exception is logged above
raise
# Run the ansible boostrap-subcloud playbook
LOG.info("Starting bootstrap of %s" % subcloud.name)
try:
run_playbook(log_file, bootstrap_command)
except PlaybookExecutionFailed:
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.DEPLOY_STATE_BOOTSTRAPPING)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_BOOTSTRAP_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
return
LOG.info("Successfully bootstrapped %s" % subcloud.name)
if config_command:
# Run the custom deploy playbook
LOG.info("Starting deploy of %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_DEPLOYING,
error_description=consts.ERROR_DESC_EMPTY)
try:
run_playbook(log_file, config_command)
except PlaybookExecutionFailed:
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.DEPLOY_STATE_DEPLOYING)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_DEPLOY_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
return
LOG.info("Successfully deployed %s" % subcloud.name)
if rehome_command:
# Update the deploy status to rehoming
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_REHOMING)
# Run the rehome-subcloud playbook
try:
run_playbook(log_file, rehome_command)
except PlaybookExecutionFailed:
msg = "Failed to run the subcloud rehome playbook" \
" for subcloud %s, check individual log at " \
"%s for detailed output." % (
subcloud.name,
log_file)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_REHOME_FAILED)
return
LOG.info("Successfully rehomed subcloud %s" %
subcloud.name)
if network_reconfig:
self._configure_system_controller_network(context, payload, subcloud)
subcloud = db_api.subcloud_update(
context,
subcloud.id,
description=payload.get('description', subcloud.description),
management_subnet=utils.get_management_subnet(payload),
management_gateway_ip=utils.get_management_gateway_address(payload),
management_start_ip=utils.get_management_start_address(payload),
management_end_ip=utils.get_management_end_address(payload),
location=payload.get('location', subcloud.location),
group_id=payload.get('group_id', subcloud.group_id),
data_install=payload.get('data_install', subcloud.data_install)
)
# Regenerate the addn_hosts_dc file
self._create_addn_hosts_dc(context)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_DONE,
error_description=consts.ERROR_DESC_EMPTY)
def run_deploy_phases(self, context, subcloud_id, payload,
deploy_phases_to_run):
"""Run one or more deployment phases, ensuring correct order
:param context: request context object
:param subcloud_id: subcloud id from db
:param payload: deploy phases payload
:param deploy_phases_to_run: deploy phases that should run
"""
try:
succeeded = True
if consts.DEPLOY_PHASE_INSTALL in deploy_phases_to_run:
succeeded = self.subcloud_deploy_install(
context, subcloud_id, payload)
if succeeded and consts.DEPLOY_PHASE_BOOTSTRAP in deploy_phases_to_run:
succeeded = self.subcloud_deploy_bootstrap(
context, subcloud_id, payload)
if succeeded and consts.DEPLOY_PHASE_CONFIG in deploy_phases_to_run:
succeeded = self.subcloud_deploy_config(
context, subcloud_id, payload)
return succeeded
except Exception as ex:
LOG.exception("run_deploy_phases failed")
raise ex
def _run_subcloud_config(self, subcloud, context,
config_command, log_file):
# Run the custom deploy playbook
LOG.info("Starting deploy of %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_CONFIGURING,
error_description=consts.ERROR_DESC_EMPTY)
try:
run_ansible = RunAnsible()
aborted = run_ansible.exec_playbook(
log_file, config_command, subcloud.name)
except PlaybookExecutionFailed:
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.DEPLOY_STATE_CONFIGURING)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_CONFIG_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
return False
if aborted:
return False
LOG.info("Successfully deployed %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_DONE,
error_description=consts.ERROR_DESC_EMPTY)
@staticmethod
def _run_subcloud_install(context, subcloud, install_command,
log_file, payload, abortable=False):
software_version = str(payload['software_version'])
LOG.info("Preparing remote install of %s, version: %s",
subcloud.name, software_version)
if (subcloud.deploy_status != consts.DEPLOY_STATE_PRE_INSTALL or
subcloud.software_version != software_version):
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_PRE_INSTALL,
software_version=software_version)
try:
install = SubcloudInstall(context, subcloud.name)
install.prep(dccommon_consts.ANSIBLE_OVERRIDES_PATH, payload)
except Exception as e:
LOG.exception(e)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_PRE_INSTALL_FAILED)
LOG.error(str(e))
install.cleanup(software_version)
return False
# Run the remote install playbook
LOG.info("Starting remote install of %s" % subcloud.name)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_INSTALLING,
error_description=consts.ERROR_DESC_EMPTY)
try:
aborted = install.install(
consts.DC_ANSIBLE_LOG_DIR, install_command, abortable=abortable)
except Exception as e:
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.DEPLOY_STATE_INSTALLING)
LOG.error(str(e))
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_INSTALL_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
install.cleanup(software_version)
return False
install.cleanup(software_version)
if aborted:
return False
LOG.info("Successfully installed %s" % subcloud.name)
return True
def _run_subcloud_bootstrap(self, context, subcloud,
bootstrap_command, log_file):
# Update the subcloud deploy_status to bootstrapping
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_BOOTSTRAPPING,
error_description=consts.ERROR_DESC_EMPTY)
# Run the ansible subcloud boostrap playbook
LOG.info("Starting bootstrap of %s" % subcloud.name)
try:
run_ansible = RunAnsible()
aborted = run_ansible.exec_playbook(
log_file, bootstrap_command, subcloud.name)
except PlaybookExecutionFailed:
msg = utils.find_ansible_error_msg(
subcloud.name, log_file, consts.DEPLOY_STATE_BOOTSTRAPPING)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_BOOTSTRAP_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH])
return False
if aborted:
return False
db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_BOOTSTRAPPED,
error_description=consts.ERROR_DESC_EMPTY)
LOG.info("Successfully bootstrapped %s" % subcloud.name)
return True
def _create_addn_hosts_dc(self, context):
"""Generate the addn_hosts_dc file for hostname/ip translation"""
addn_hosts_dc = os.path.join(CONFIG_PATH, ADDN_HOSTS_DC)
addn_hosts_dc_temp = addn_hosts_dc + '.temp'
subclouds = db_api.subcloud_get_all(context)
with open(addn_hosts_dc_temp, 'w') as f_out_addn_dc_temp:
for subcloud in subclouds:
addn_dc_line = subcloud.management_start_ip + ' ' + \
subcloud.name + '\n'
f_out_addn_dc_temp.write(addn_dc_line)
# if no more subclouds, create empty file so dnsmasq does not
# emit an error log.
if not subclouds:
f_out_addn_dc_temp.write(' ')
if not filecmp.cmp(addn_hosts_dc_temp, addn_hosts_dc):
os.rename(addn_hosts_dc_temp, addn_hosts_dc)
# restart dnsmasq so it can re-read our addn_hosts file.
os.system("pkill -HUP dnsmasq")
def _write_subcloud_ansible_config(self, cached_regionone_data, payload):
"""Create the override file for usage with the specified subcloud"""
overrides_file = os.path.join(dccommon_consts.ANSIBLE_OVERRIDES_PATH,
payload['name'] + '.yml')
mgmt_pool = cached_regionone_data['mgmt_pool']
mgmt_floating_ip = mgmt_pool.floating_address
mgmt_subnet = "%s/%d" % (mgmt_pool.network, mgmt_pool.prefix)
oam_addresses = cached_regionone_data['oam_addresses']
oam_floating_ip = oam_addresses.oam_floating_ip
oam_subnet = oam_addresses.oam_subnet
with open(overrides_file, 'w') as f_out_overrides_file:
f_out_overrides_file.write(
'---'
'\nregion_config: yes'
'\ndistributed_cloud_role: subcloud'
'\nsystem_controller_subnet: ' + mgmt_subnet +
'\nsystem_controller_floating_address: ' + mgmt_floating_ip +
'\nsystem_controller_oam_subnet: ' + oam_subnet +
'\nsystem_controller_oam_floating_address: ' + oam_floating_ip
+ '\n'
)
for k, v in payload.items():
if k not in ['deploy_playbook', 'deploy_values',
'deploy_config', 'deploy_chart',
'deploy_overrides', 'install_values']:
f_out_overrides_file.write("%s: %s\n" % (k, json.dumps(v)))
def _write_deploy_files(self, payload, subcloud_name):
"""Create the deploy value files for the subcloud"""
deploy_values_file = os.path.join(
dccommon_consts.ANSIBLE_OVERRIDES_PATH, subcloud_name +
'_deploy_values.yml')
with open(deploy_values_file, 'w') as f_out_deploy_values_file:
json.dump(payload['deploy_values'], f_out_deploy_values_file)
def _prepare_for_deployment(self, payload, subcloud_name,
populate_passwords=True):
payload['deploy_values'] = dict()
if populate_passwords:
payload['deploy_values']['ansible_become_pass'] = \
payload['sysadmin_password']
payload['deploy_values']['ansible_ssh_pass'] = \
payload['sysadmin_password']
payload['deploy_values']['admin_password'] = \
str(keyring.get_password('CGCS', 'admin'))
payload['deploy_values']['deployment_config'] = \
payload[consts.DEPLOY_CONFIG]
payload['deploy_values']['deployment_manager_chart'] = \
payload[consts.DEPLOY_CHART]
payload['deploy_values']['deployment_manager_overrides'] = \
payload[consts.DEPLOY_OVERRIDES]
payload['deploy_values']['user_uploaded_artifacts'] = \
payload["user_uploaded_artifacts"]
self._write_deploy_files(payload, subcloud_name)
def _delete_subcloud_routes(self, keystone_client, subcloud):
"""Delete the routes to this subcloud"""
# Delete the route to this subcloud on the management interface on
# both controllers.
management_subnet = netaddr.IPNetwork(subcloud.management_subnet)
endpoint = keystone_client.endpoint_cache.get_endpoint('sysinv')
sysinv_client = SysinvClient(dccommon_consts.DEFAULT_REGION_NAME, keystone_client.session,
endpoint=endpoint)
cached_regionone_data = self._get_cached_regionone_data(keystone_client, sysinv_client)
for mgmt_if_uuid in cached_regionone_data['mgmt_interface_uuids']:
sysinv_client.delete_route(mgmt_if_uuid,
str(management_subnet.ip),
management_subnet.prefixlen,
str(netaddr.IPAddress(subcloud.systemcontroller_gateway_ip)),
1)
@staticmethod
def _delete_subcloud_cert(subcloud_name):
cert_name = SubcloudManager._get_subcloud_cert_name(subcloud_name)
secret_name = SubcloudManager._get_subcloud_cert_secret_name(
subcloud_name)
kube = kubeoperator.KubeOperator()
kube.delete_cert_manager_certificate(CERT_NAMESPACE, cert_name)
kube.kube_delete_secret(secret_name, CERT_NAMESPACE)
LOG.info("cert %s and secret %s are deleted" % (cert_name, secret_name))
def _remove_subcloud_details(self, context,
subcloud,
ansible_subcloud_inventory_file):
"""Remove subcloud details from database and inform orchestrators"""
# Inform orchestrators that subcloud has been deleted
try:
self.dcorch_rpc_client.del_subcloud(context, subcloud.name)
except RemoteError as e:
# TODO(kmacleod): this should be caught as explicit remote exception
# Fix when centos/python2 is no longer supported
if "SubcloudNotFound" in str(e):
pass
# delete the associated alarm entry
try:
db_api.subcloud_alarms_delete(context, subcloud.name)
except RemoteError as e:
# TODO(kmacleod): fix same with above
if "SubcloudNotFound" in str(e):
pass
# We only delete subcloud endpoints, region and user information
# in the Central Region. The subcloud is already unmanaged and powered
# down so is not accessible. Therefore set up a session with the
# Central Region Keystone ONLY.
keystone_client = OpenStackDriver(
region_name=dccommon_consts.DEFAULT_REGION_NAME,
region_clients=None).keystone_client
# Delete keystone endpoints for subcloud
keystone_client.delete_endpoints(subcloud.name)
keystone_client.delete_region(subcloud.name)
# Delete the routes to this subcloud
self._delete_subcloud_routes(keystone_client, subcloud)
# Remove the subcloud from the database
try:
db_api.subcloud_destroy(context, subcloud.id)
except Exception as e:
LOG.exception(e)
raise e
# Delete the ansible inventory for the new subcloud
utils.delete_subcloud_inventory(ansible_subcloud_inventory_file)
# Delete the subcloud intermediate certificate
SubcloudManager._delete_subcloud_cert(subcloud.name)
# Delete the subcloud backup path
self._delete_subcloud_backup_data(subcloud.name)
# Regenerate the addn_hosts_dc file
self._create_addn_hosts_dc(context)
@staticmethod
def _delete_subcloud_backup_data(subcloud_name):
try:
backup_path = os.path.join(CENTRAL_BACKUP_DIR, subcloud_name)
if os.path.exists(backup_path):
shutil.rmtree(backup_path)
except Exception as e:
LOG.exception(e)
def delete_subcloud(self, context, subcloud_id):
"""Delete subcloud and notify orchestrators.
:param context: request context object.
:param subcloud_id: id of subcloud to delete
"""
LOG.info("Deleting subcloud %s." % subcloud_id)
# Retrieve the subcloud details from the database
subcloud = db_api.subcloud_get(context, subcloud_id)
# Semantic checking
if subcloud.management_state != dccommon_consts.MANAGEMENT_UNMANAGED:
raise exceptions.SubcloudNotUnmanaged()
if subcloud.availability_status == \
dccommon_consts.AVAILABILITY_ONLINE:
raise exceptions.SubcloudNotOffline()
# Ansible inventory filename for the specified subcloud
ansible_subcloud_inventory_file = self._get_ansible_filename(
subcloud.name, INVENTORY_FILE_POSTFIX)
self._remove_subcloud_details(context,
subcloud,
ansible_subcloud_inventory_file)
# Clear any subcloud alarms.
# Note that endpoint out-of-sync alarms should have been cleared when
# the subcloud was unmanaged and the endpoint sync statuses were set to
# unknown.
#
# TODO(kmacleod): Until an API is available to clear all alarms
# for a subcloud, we manually clear the following:
# - subcloud offline
# - subloud resource out of sync
# - Subcloud Backup Failure
for alarm_id, entity_instance_id in (
(fm_const.FM_ALARM_ID_DC_SUBCLOUD_OFFLINE,
"subcloud=%s" % subcloud.name),
(fm_const.FM_ALARM_ID_DC_SUBCLOUD_RESOURCE_OUT_OF_SYNC,
"subcloud=%s.resource=%s" %
(subcloud.name, dccommon_consts.ENDPOINT_TYPE_DC_CERT)),
(fm_const.FM_ALARM_ID_DC_SUBCLOUD_BACKUP_FAILED,
"subcloud=%s" % subcloud.name)):
try:
fault = self.fm_api.get_fault(alarm_id,
entity_instance_id)
if fault:
self.fm_api.clear_fault(alarm_id,
entity_instance_id)
except Exception as e:
LOG.info(
"Problem clearing fault for subcloud %s, alarm_id=%s" %
(subcloud.name, alarm_id))
LOG.exception(e)
def update_subcloud(self,
context,
subcloud_id,
management_state=None,
description=None,
location=None,
group_id=None,
data_install=None,
force=None,
deploy_status=None,
bootstrap_values=None,
bootstrap_address=None):
"""Update subcloud and notify orchestrators.
:param context: request context object
:param subcloud_id: id of subcloud to update
:param management_state: new management state
:param description: new description
:param location: new location
:param group_id: new subcloud group id
:param data_install: subcloud install values
:param force: force flag
:param deploy_status: update to expected deploy status
:param bootstrap_values: bootstrap_values yaml content
:param bootstrap_address: oam IP for rehome
"""
LOG.info("Updating subcloud %s." % subcloud_id)
# Get the subcloud details from the database
subcloud = db_api.subcloud_get(context, subcloud_id)
original_management_state = subcloud.management_state
# Semantic checking
if management_state:
if management_state == dccommon_consts.MANAGEMENT_UNMANAGED:
if subcloud.management_state == dccommon_consts.MANAGEMENT_UNMANAGED:
LOG.warning("Subcloud %s already unmanaged" % subcloud_id)
raise exceptions.BadRequest(
resource='subcloud',
msg='Subcloud is already unmanaged')
elif management_state == dccommon_consts.MANAGEMENT_MANAGED:
if subcloud.management_state == dccommon_consts.MANAGEMENT_MANAGED:
LOG.warning("Subcloud %s already managed" % subcloud_id)
raise exceptions.BadRequest(
resource='subcloud',
msg='Subcloud is already managed')
elif not force:
if (subcloud.deploy_status != consts.DEPLOY_STATE_DONE and
not prestage.is_deploy_status_prestage(
subcloud.deploy_status)):
LOG.warning("Subcloud %s can be managed only when"
"deploy_status is complete" % subcloud_id)
raise exceptions.BadRequest(
resource='subcloud',
msg='Subcloud can be managed only if deploy status is complete')
if subcloud.availability_status != \
dccommon_consts.AVAILABILITY_ONLINE:
LOG.warning("Subcloud %s is not online" % subcloud_id)
raise exceptions.SubcloudNotOnline()
else:
LOG.error("Invalid management_state %s" % management_state)
raise exceptions.InternalError()
# update bootstrap values into rehome_data
rehome_data_dict = None
# load the existing data if it exists
if subcloud.rehome_data:
rehome_data_dict = json.loads(subcloud.rehome_data)
# update saved_payload with the bootstrap values
if bootstrap_values:
_bootstrap_address = None
if not rehome_data_dict:
rehome_data_dict = utils.create_subcloud_rehome_data_template()
else:
# Since bootstrap-address is not original data in bootstrap-values
# it's necessary to save it first, then put it back after
# after bootstrap_values is updated.
if 'bootstrap-address' in rehome_data_dict['saved_payload']:
_bootstrap_address = rehome_data_dict['saved_payload']['bootstrap-address']
bootstrap_values_dict = yaml.load(bootstrap_values, Loader=yaml.SafeLoader)
rehome_data_dict['saved_payload'] = bootstrap_values_dict
# put bootstrap_address back into rehome_data_dict
if _bootstrap_address:
rehome_data_dict['saved_payload']['bootstrap-address'] = _bootstrap_address
# update deploy status, ONLY apply for unmanaged subcloud
new_deploy_status = None
if deploy_status is not None:
if subcloud.management_state != dccommon_consts.MANAGEMENT_UNMANAGED:
raise exceptions.BadRequest(
resource='subcloud',
msg='deploy_status can only be updated on unmanaged subcloud')
new_deploy_status = deploy_status
# set all endpoint statuses to unknown
# no endpoint will be audited for secondary
# subclouds
self.state_rpc_client.update_subcloud_endpoint_status_sync(
context,
subcloud_name=subcloud.name,
endpoint_type=None,
sync_status=dccommon_consts.SYNC_STATUS_UNKNOWN)
# clear existing fault alarm of secondary subcloud
for alarm_id, entity_instance_id in (
(fm_const.FM_ALARM_ID_DC_SUBCLOUD_OFFLINE,
"subcloud=%s" % subcloud.name),
(fm_const.FM_ALARM_ID_DC_SUBCLOUD_RESOURCE_OUT_OF_SYNC,
"subcloud=%s.resource=%s" %
(subcloud.name, dccommon_consts.ENDPOINT_TYPE_DC_CERT)),
(fm_const.FM_ALARM_ID_DC_SUBCLOUD_BACKUP_FAILED,
"subcloud=%s" % subcloud.name)):
try:
fault = self.fm_api.get_fault(alarm_id,
entity_instance_id)
if fault:
self.fm_api.clear_fault(alarm_id,
entity_instance_id)
except Exception as e:
LOG.info(
"Failed to clear fault for subcloud %s, alarm_id=%s" %
(subcloud.name, alarm_id))
LOG.exception(e)
# update bootstrap_address
if bootstrap_address:
if rehome_data_dict is None:
raise exceptions.BadRequest(
resource='subcloud',
msg='Cannot update bootstrap_address into rehome data, '
'need to import bootstrap_values first')
rehome_data_dict['saved_payload']['bootstrap-address'] = bootstrap_address
if rehome_data_dict:
rehome_data = json.dumps(rehome_data_dict)
else:
rehome_data = None
subcloud = db_api.subcloud_update(
context,
subcloud_id,
management_state=management_state,
description=description,
location=location,
group_id=group_id,
data_install=data_install,
deploy_status=new_deploy_status,
rehome_data=rehome_data
)
# Inform orchestrators that subcloud has been updated
if management_state:
try:
# Inform orchestrator of state change
self.dcorch_rpc_client.update_subcloud_states(
context,
subcloud.name,
management_state,
subcloud.availability_status)
LOG.info('Notifying dcorch, subcloud:%s management: %s, '
'availability:%s' % (subcloud.name,
management_state,
subcloud.availability_status))
except Exception as e:
LOG.exception(e)
LOG.warn('Problem informing dcorch of subcloud '
'state change, resume to original state, subcloud: %s'
% subcloud.name)
management_state = original_management_state
subcloud = \
db_api.subcloud_update(context, subcloud_id,
management_state=management_state,
description=description,
location=location)
if management_state == dccommon_consts.MANAGEMENT_UNMANAGED:
# set all endpoint statuses to unknown, except the dc-cert
# endpoint which continues to be audited for unmanaged
# subclouds
self.state_rpc_client.update_subcloud_endpoint_status_sync(
context,
subcloud_name=subcloud.name,
endpoint_type=None,
sync_status=dccommon_consts.SYNC_STATUS_UNKNOWN,
ignore_endpoints=[dccommon_consts.ENDPOINT_TYPE_DC_CERT])
elif management_state == dccommon_consts.MANAGEMENT_MANAGED:
# Subcloud is managed
# Tell cert-mon to audit endpoint certificate
LOG.info('Request certmon audit for %s' % subcloud.name)
dc_notification = dcmanager_rpc_client.DCManagerNotifications()
dc_notification.subcloud_managed(context, subcloud.name)
return db_api.subcloud_db_model_to_dict(subcloud)
def update_subcloud_with_network_reconfig(self, context, subcloud_id, payload):
subcloud = db_api.subcloud_get(context, subcloud_id)
subcloud = db_api.subcloud_update(
context, subcloud.id,
deploy_status=consts.DEPLOY_STATE_RECONFIGURING_NETWORK
)
subcloud_name = payload['name']
try:
self._create_intermediate_ca_cert(payload)
subcloud_inventory_file = self._get_ansible_filename(
subcloud_name, INVENTORY_FILE_POSTFIX)
subcloud_params = {'name': subcloud_name,
'bootstrap-address': payload.get('bootstrap_address')}
utils.create_subcloud_inventory(subcloud_params, subcloud_inventory_file)
overrides_file = self._create_subcloud_update_overrides_file(
payload, subcloud_name, 'update_values')
update_command = self.compose_update_command(
subcloud_name, subcloud_inventory_file)
except Exception:
LOG.exception(
"Failed to prepare subcloud %s for update." % subcloud_name)
return
try:
apply_thread = threading.Thread(
target=self._run_network_reconfiguration,
args=(subcloud_name, update_command, overrides_file,
payload, context, subcloud))
apply_thread.start()
except Exception:
LOG.exception("Failed to update subcloud %s" % subcloud_name)
def _run_network_reconfiguration(
self, subcloud_name, update_command, overrides_file,
payload, context, subcloud
):
log_file = (os.path.join(consts.DC_ANSIBLE_LOG_DIR, subcloud_name) +
'_playbook_output.log')
subcloud_id = subcloud.id
try:
run_playbook(log_file, update_command)
utils.delete_subcloud_inventory(overrides_file)
except PlaybookExecutionFailed:
msg = utils.find_ansible_error_msg(
subcloud_name, log_file, consts.DEPLOY_STATE_RECONFIGURING_NETWORK)
LOG.error(msg)
db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_RECONFIGURING_NETWORK_FAILED,
error_description=msg[0:consts.ERROR_DESCRIPTION_LENGTH]
)
return
self._configure_system_controller_network(context, payload, subcloud)
db_api.subcloud_update(
context, subcloud_id, deploy_status=consts.DEPLOY_STATE_DONE
)
subcloud = db_api.subcloud_update(
context,
subcloud_id,
description=payload.get('description', subcloud.description),
management_subnet=payload.get('management_subnet'),
management_gateway_ip=payload.get('management_gateway_ip'),
management_start_ip=payload.get('management_start_ip'),
management_end_ip=payload.get('management_end_ip'),
location=payload.get('location', subcloud.location),
group_id=payload.get('group_id', subcloud.group_id),
data_install=payload.get('data_install', subcloud.data_install)
)
# Regenerate the addn_hosts_dc file
self._create_addn_hosts_dc(context)
def _configure_system_controller_network(self, context, payload, subcloud,
update_db=True):
"""Configure system controller network
:param context: request context object
:param payload: subcloud bootstrap configuration
:param subcloud: subcloud model object
:param update_db: whether it should update the db on success/failure
"""
subcloud_name = subcloud.name
subcloud_id = subcloud.id
sys_controller_gw_ip = payload.get("systemcontroller_gateway_address",
subcloud.systemcontroller_gateway_ip)
try:
m_ks_client = OpenStackDriver(
region_name=dccommon_consts.DEFAULT_REGION_NAME,
region_clients=None).keystone_client
self._create_subcloud_route(payload, m_ks_client,
sys_controller_gw_ip)
except Exception:
LOG.exception(
"Failed to create route to subcloud %s." % subcloud_name)
if update_db:
db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_RECONFIGURING_NETWORK_FAILED,
error_description=consts.ERROR_DESC_EMPTY
)
return
try:
self._update_services_endpoint(
context, payload, subcloud_name, m_ks_client)
except Exception:
LOG.exception("Failed to update subcloud %s endpoints" % subcloud_name)
if update_db:
db_api.subcloud_update(
context, subcloud_id,
deploy_status=consts.DEPLOY_STATE_RECONFIGURING_NETWORK_FAILED,
error_description=consts.ERROR_DESC_EMPTY
)
return
# Delete old routes
if utils.get_management_subnet(payload) != subcloud.management_subnet:
self._delete_subcloud_routes(m_ks_client, subcloud)
def _create_subcloud_route(self, payload, keystone_client,
systemcontroller_gateway_ip):
subcloud_subnet = netaddr.IPNetwork(utils.get_management_subnet(payload))
endpoint = keystone_client.endpoint_cache.get_endpoint('sysinv')
sysinv_client = SysinvClient(dccommon_consts.DEFAULT_REGION_NAME,
keystone_client.session,
endpoint=endpoint)
cached_regionone_data = self._get_cached_regionone_data(
keystone_client, sysinv_client)
for mgmt_if_uuid in cached_regionone_data['mgmt_interface_uuids']:
sysinv_client.create_route(mgmt_if_uuid,
str(subcloud_subnet.ip),
subcloud_subnet.prefixlen,
systemcontroller_gateway_ip,
1)
def _update_services_endpoint(
self, context, payload, subcloud_name, m_ks_client):
endpoint_ip = utils.get_management_start_address(payload)
if netaddr.IPAddress(endpoint_ip).version == 6:
endpoint_ip = f"[{endpoint_ip}]"
services_endpoints = {
"keystone": "https://{}:5001/v3".format(endpoint_ip),
"sysinv": "https://{}:6386/v1".format(endpoint_ip),
"fm": "https://{}:18003".format(endpoint_ip),
"patching": "https://{}:5492".format(endpoint_ip),
"vim": "https://{}:4546".format(endpoint_ip),
"usm": "https://{}:5498".format(endpoint_ip),
}
for endpoint in m_ks_client.keystone_client.endpoints.list(
region=subcloud_name):
service_type = m_ks_client.keystone_client.services.get(
endpoint.service_id).type
if service_type == dccommon_consts.ENDPOINT_TYPE_PLATFORM:
admin_endpoint_url = services_endpoints.get('sysinv')
elif service_type == dccommon_consts.ENDPOINT_TYPE_IDENTITY:
admin_endpoint_url = services_endpoints.get('keystone')
elif service_type == dccommon_consts.ENDPOINT_TYPE_PATCHING:
admin_endpoint_url = services_endpoints.get('patching')
elif service_type == dccommon_consts.ENDPOINT_TYPE_FM:
admin_endpoint_url = services_endpoints.get('fm')
elif service_type == dccommon_consts.ENDPOINT_TYPE_NFV:
admin_endpoint_url = services_endpoints.get('vim')
elif service_type == dccommon_consts.ENDPOINT_TYPE_SOFTWARE:
admin_endpoint_url = services_endpoints.get('usm')
else:
LOG.exception("Endpoint Type Error: %s" % service_type)
m_ks_client.keystone_client.endpoints.update(
endpoint, url=admin_endpoint_url)
LOG.info("Update services endpoint to %s in subcloud %s" % (
endpoint_ip, subcloud_name))
# Update service URLs in subcloud endpoint cache
self.audit_rpc_client.trigger_subcloud_endpoints_update(
context, subcloud_name, services_endpoints)
self.dcorch_rpc_client.update_subcloud_endpoints(
context, subcloud_name, services_endpoints)
# Update sysinv URL in cert-mon cache
dc_notification = dcmanager_rpc_client.DCManagerNotifications()
dc_notification.subcloud_sysinv_endpoint_update(
context, subcloud_name, services_endpoints.get("sysinv"))
def _create_subcloud_update_overrides_file(
self, payload, subcloud_name, filename_suffix):
update_overrides_file = os.path.join(
dccommon_consts.ANSIBLE_OVERRIDES_PATH, subcloud_name + '_' +
filename_suffix + '.yml')
self._update_override_values(payload)
with open(update_overrides_file, 'w', encoding='UTF-8') as f_out:
f_out.write('---\n')
for key, value in payload['override_values'].items():
if key in ['ansible_ssh_pass', 'ansible_become_pass']:
f_out.write(f"{key}: {value}\n")
else:
f_out.write(f"{key}: {json.dumps(value)}\n")
return update_overrides_file
def _update_override_values(self, payload):
if not payload.get('override_values'):
payload['override_values'] = {}
payload['override_values']['ansible_ssh_pass'] = (
payload['sysadmin_password'])
payload['override_values']['ansible_become_pass'] = (
payload['sysadmin_password'])
payload['override_values']['sc_gateway_address'] = (
payload['management_gateway_ip'])
payload['override_values']['sc_floating_address'] = (
payload['management_start_ip'])
payload['override_values']['system_controller_network'] = (
payload['system_controller_network'])
payload['override_values']['system_controller_network_prefix'] = (
payload['system_controller_network_prefix'])
payload['override_values']['sc_subnet'] = payload['management_subnet']
payload['override_values']['dc_root_ca_cert'] = payload['dc_root_ca_cert']
payload['override_values']['sc_ca_cert'] = payload['sc_ca_cert']
payload['override_values']['sc_ca_key'] = payload['sc_ca_key']
def update_subcloud_sync_endpoint_type(self, context,
subcloud_name,
endpoint_type_list,
openstack_installed):
operation = 'add' if openstack_installed else 'remove'
func_switcher = {
'add': (
self.dcorch_rpc_client.add_subcloud_sync_endpoint_type,
db_api.subcloud_status_create
),
'remove': (
self.dcorch_rpc_client.remove_subcloud_sync_endpoint_type,
db_api.subcloud_status_delete
)
}
try:
subcloud = db_api.subcloud_get_by_name(context, subcloud_name)
except Exception:
LOG.exception("Failed to get subcloud by name: %s" % subcloud_name)
raise
try:
# Notify dcorch to add/remove sync endpoint type list
func_switcher[operation][0](self.context, subcloud_name,
endpoint_type_list)
LOG.info('Notifying dcorch, subcloud: %s new sync endpoint: %s' %
(subcloud_name, endpoint_type_list))
# Update subcloud status table by adding/removing openstack sync
# endpoint types
for endpoint_type in endpoint_type_list:
func_switcher[operation][1](self.context, subcloud.id,
endpoint_type)
# Update openstack_installed of subcloud table
db_api.subcloud_update(self.context, subcloud.id,
openstack_installed=openstack_installed)
except Exception:
LOG.exception('Problem informing dcorch of subcloud sync endpoint'
' type change, subcloud: %s' % subcloud_name)
def handle_subcloud_operations_in_progress(self):
"""Identify subclouds in transitory stages and update subcloud
state to failure.
"""
LOG.info('Identifying subclouds in transitory stages.')
subclouds = db_api.subcloud_get_all(self.context)
for subcloud in subclouds:
# Identify subclouds in transitory states
new_deploy_status = TRANSITORY_STATES.get(subcloud.deploy_status)
new_backup_status = TRANSITORY_BACKUP_STATES.get(subcloud.backup_status)
# update deploy and backup states to the corresponding failure states
if new_deploy_status or new_backup_status:
if new_deploy_status:
LOG.info("Changing subcloud %s deploy status from %s to %s."
% (subcloud.name, subcloud.deploy_status,
new_deploy_status))
if new_backup_status:
LOG.info("Changing subcloud %s backup status from %s to %s."
% (subcloud.name, subcloud.backup_status,
new_backup_status))
db_api.subcloud_update(
self.context,
subcloud.id,
deploy_status=new_deploy_status or subcloud.deploy_status,
backup_status=new_backup_status or subcloud.backup_status
)
@staticmethod
def prestage_subcloud(context, payload):
"""Subcloud prestaging"""
return prestage.prestage_subcloud(context, payload)
@utils.synchronized("regionone-data-cache", external=False)
def _get_cached_regionone_data(self, regionone_keystone_client, regionone_sysinv_client=None):
if (not SubcloudManager.regionone_data or
SubcloudManager.regionone_data['expiry'] <= datetime.datetime.utcnow()):
user_list = regionone_keystone_client.get_enabled_users(id_only=False)
for user in user_list:
if user.name == dccommon_consts.ADMIN_USER_NAME:
SubcloudManager.regionone_data['admin_user_id'] = user.id
elif user.name == dccommon_consts.SYSINV_USER_NAME:
SubcloudManager.regionone_data['sysinv_user_id'] = user.id
elif user.name == dccommon_consts.DCMANAGER_USER_NAME:
SubcloudManager.regionone_data['dcmanager_user_id'] = user.id
project_list = regionone_keystone_client.get_enabled_projects(id_only=False)
for project in project_list:
if project.name == dccommon_consts.ADMIN_PROJECT_NAME:
SubcloudManager.regionone_data['admin_project_id'] = project.id
elif project.name == dccommon_consts.SERVICES_USER_NAME:
SubcloudManager.regionone_data['services_project_id'] = project.id
if regionone_sysinv_client is None:
endpoint = regionone_keystone_client.endpoint_cache.get_endpoint('sysinv')
regionone_sysinv_client = SysinvClient(
dccommon_consts.DEFAULT_REGION_NAME,
regionone_keystone_client.session,
endpoint=endpoint)
controllers = regionone_sysinv_client.get_controller_hosts()
mgmt_interface_uuids = []
for controller in controllers:
mgmt_interface = regionone_sysinv_client.get_management_interface(
controller.hostname)
if mgmt_interface is not None:
mgmt_interface_uuids.append(mgmt_interface.uuid)
SubcloudManager.regionone_data['mgmt_interface_uuids'] = mgmt_interface_uuids
SubcloudManager.regionone_data['mgmt_pool'] = \
regionone_sysinv_client.get_management_address_pool()
SubcloudManager.regionone_data['oam_addresses'] = \
regionone_sysinv_client.get_oam_addresses()
SubcloudManager.regionone_data['expiry'] = \
datetime.datetime.utcnow() + datetime.timedelta(hours=1)
LOG.info("RegionOne cached data updated %s" % SubcloudManager.regionone_data)
cached_regionone_data = SubcloudManager.regionone_data
return cached_regionone_data
def _populate_payload_with_cached_keystone_data(self, cached_data, payload,
populate_passwords=True):
payload['system_controller_keystone_admin_user_id'] = \
cached_data['admin_user_id']
payload['system_controller_keystone_admin_project_id'] = \
cached_data['admin_project_id']
payload['system_controller_keystone_services_project_id'] = \
cached_data['services_project_id']
payload['system_controller_keystone_sysinv_user_id'] = \
cached_data['sysinv_user_id']
payload['system_controller_keystone_dcmanager_user_id'] = \
cached_data['dcmanager_user_id']
if populate_passwords:
# While at it, add the admin and service user passwords to the
# payload so they get copied to the overrides file
payload['ansible_become_pass'] = payload['sysadmin_password']
payload['ansible_ssh_pass'] = payload['sysadmin_password']
payload['admin_password'] = str(keyring.get_password('CGCS',
'admin'))
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