Merge "Refactor the source code of infra_driver/openstack"

This commit is contained in:
Jenkins 2016-12-21 06:41:07 +00:00 committed by Gerrit Code Review
commit a1dd7fd73d
6 changed files with 735 additions and 661 deletions

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@ -66,7 +66,7 @@ class TestDeviceHeat(base.TestCase):
fake_heat_client = mock.Mock()
fake_heat_client.return_value = self.heat_client
self._mock(
'tacker.vnfm.infra_drivers.openstack.openstack.HeatClient',
'tacker.vnfm.infra_drivers.openstack.heat_client.HeatClient',
fake_heat_client)
def _mock(self, target, new=mock.DEFAULT):

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@ -66,7 +66,7 @@ class TestOpenStack(base.TestCase):
fake_heat_client = mock.Mock()
fake_heat_client.return_value = self.heat_client
self._mock(
'tacker.vnfm.infra_drivers.openstack.openstack.HeatClient',
'tacker.vnfm.infra_drivers.openstack.heat_client.HeatClient',
fake_heat_client)
def _mock(self, target, new=mock.DEFAULT):

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@ -0,0 +1,74 @@
# 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 sys
from heatclient import exc as heatException
from oslo_log import log as logging
from tacker.common import clients
from tacker.extensions import vnfm
LOG = logging.getLogger(__name__)
class HeatClient(object):
def __init__(self, auth_attr, region_name=None):
# context, password are unused
self.heat = clients.OpenstackClients(auth_attr, region_name).heat
self.stacks = self.heat.stacks
self.resource_types = self.heat.resource_types
self.resources = self.heat.resources
def create(self, fields):
fields = fields.copy()
fields.update({
'timeout_mins': 10,
'disable_rollback': True})
if 'password' in fields.get('template', {}):
fields['password'] = fields['template']['password']
try:
return self.stacks.create(**fields)
except heatException.HTTPException:
type_, value, tb = sys.exc_info()
raise vnfm.HeatClientException(msg=value)
def delete(self, stack_id):
try:
self.stacks.delete(stack_id)
except heatException.HTTPNotFound:
LOG.warning(_("Stack %(stack)s created by service chain driver is "
"not found at cleanup"), {'stack': stack_id})
def get(self, stack_id):
return self.stacks.get(stack_id)
def resource_attr_support(self, resource_name, property_name):
resource = self.resource_types.get(resource_name)
return property_name in resource['attributes']
def resource_get_list(self, stack_id, nested_depth=0):
return self.heat.resources.list(stack_id,
nested_depth=nested_depth)
def resource_signal(self, stack_id, rsc_name):
return self.heat.resources.signal(stack_id, rsc_name)
def resource_get(self, stack_id, rsc_name):
return self.heat.resources.get(stack_id, rsc_name)
def resource_event_list(self, stack_id, rsc_name, **kwargs):
return self.heat.events.list(stack_id, rsc_name, **kwargs)
def resource_metadata(self, stack_id, rsc_name):
return self.heat.resources.metadata(stack_id, rsc_name)

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@ -13,26 +13,21 @@
# 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 copy
import sys
import time
from heatclient import exc as heatException
from oslo_config import cfg
from oslo_log import log as logging
from oslo_serialization import jsonutils
from six import iteritems
from toscaparser import tosca_template
from toscaparser.utils import yamlparser
from translator.hot import tosca_translator
import yaml
from tacker.common import clients
from tacker.common import log
from tacker.extensions import vnfm
from tacker.vnfm.infra_drivers import abstract_driver
from tacker.vnfm.infra_drivers.openstack import heat_client as hc
from tacker.vnfm.infra_drivers.openstack import translate_template
from tacker.vnfm.infra_drivers import scale_driver
from tacker.vnfm.tosca import utils as toscautils
LOG = logging.getLogger(__name__)
@ -47,9 +42,6 @@ OPTS = [
default=5,
help=_("Wait time (in seconds) between consecutive stack"
" create/delete retries")),
cfg.DictOpt('flavor_extra_specs',
default={},
help=_("Flavor Extra Specs")),
]
CONF.register_opts(OPTS, group='openstack_vim')
@ -74,6 +66,8 @@ heat_template_version: 2013-05-23
"""
OUTPUT_PREFIX = 'mgmt_ip-'
ALARMING_POLICY = 'tosca.policies.tacker.Alarming'
SCALING_POLICY = 'tosca.policies.tacker.Scaling'
def get_scaling_policy_name(action, policy_name):
@ -88,7 +82,6 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
super(OpenStack, self).__init__()
self.STACK_RETRIES = cfg.CONF.openstack_vim.stack_retries
self.STACK_RETRY_WAIT = cfg.CONF.openstack_vim.stack_retry_wait
self.STACK_FLAVOR_EXTRA = cfg.CONF.openstack_vim.flavor_extra_specs
def get_type(self):
return 'openstack'
@ -99,542 +92,49 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
def get_description(self):
return 'Openstack infra driver'
@log.log
def _update_params(self, original, paramvalues, match=False):
for key, value in iteritems(original):
if not isinstance(value, dict) or 'get_input' not in str(value):
pass
elif isinstance(value, dict):
if not match:
if key in paramvalues and 'param' in paramvalues[key]:
self._update_params(value, paramvalues[key]['param'],
True)
elif key in paramvalues:
self._update_params(value, paramvalues[key], False)
else:
LOG.debug('Key missing Value: %s', key)
raise vnfm.InputValuesMissing(key=key)
elif 'get_input' in value:
if value['get_input'] in paramvalues:
original[key] = paramvalues[value['get_input']]
else:
LOG.debug('Key missing Value: %s', key)
raise vnfm.InputValuesMissing(key=key)
else:
self._update_params(value, paramvalues, True)
@log.log
def _process_parameterized_input(self, dev_attrs, vnfd_dict):
param_vattrs_yaml = dev_attrs.pop('param_values', None)
if param_vattrs_yaml:
try:
param_vattrs_dict = yaml.load(param_vattrs_yaml)
LOG.debug('param_vattrs_yaml', param_vattrs_dict)
except Exception as e:
LOG.debug("Not Well Formed: %s", str(e))
raise vnfm.ParamYAMLNotWellFormed(
error_msg_details=str(e))
else:
self._update_params(vnfd_dict, param_vattrs_dict)
else:
raise vnfm.ParamYAMLInputMissing()
@log.log
def _process_vdu_network_interfaces(self, vdu_id, vdu_dict, properties,
template_dict,
unsupported_res_prop=None):
def make_port_dict():
port_dict = {'type': 'OS::Neutron::Port'}
port_dict['properties'] = {'value_specs': {
'port_security_enabled': False}} if unsupported_res_prop \
else {'port_security_enabled': False}
port_dict['properties'].setdefault('fixed_ips', [])
return port_dict
def make_mgmt_outputs_dict(port):
mgmt_ip = 'mgmt_ip-%s' % vdu_id
outputs_dict[mgmt_ip] = {
'description': 'management ip address',
'value': {
'get_attr': [port, 'fixed_ips',
0, 'ip_address']
}
}
def handle_port_creation(network_param, ip_list=None,
mgmt_port=False):
ip_list = ip_list or []
port = '%s-%s-port' % (vdu_id, network_param['network'])
port_dict = make_port_dict()
if mgmt_port:
make_mgmt_outputs_dict(port)
for ip in ip_list:
port_dict['properties']['fixed_ips'].append({"ip_address": ip})
port_dict['properties'].update(network_param)
template_dict['resources'][port] = port_dict
return port
networks_list = []
outputs_dict = template_dict['outputs']
properties['networks'] = networks_list
for network_param in vdu_dict[
'network_interfaces'].values():
port = None
if 'addresses' in network_param:
ip_list = network_param.pop('addresses', [])
if not isinstance(ip_list, list):
raise vnfm.IPAddrInvalidInput()
mgmt_flag = network_param.pop('management', False)
port = handle_port_creation(network_param, ip_list, mgmt_flag)
if network_param.pop('management', False):
port = handle_port_creation(network_param, [], True)
if port is not None:
network_param = {
'port': {'get_resource': port}
}
networks_list.append(dict(network_param))
def fetch_unsupported_resource_prop(self, heat_client):
unsupported_resource_prop = {}
for res, prop_dict in iteritems(HEAT_VERSION_INCOMPATIBILITY_MAP):
unsupported_prop = {}
for prop, val in iteritems(prop_dict):
if not heat_client.resource_attr_support(res, prop):
unsupported_prop.update(prop_dict)
if unsupported_prop:
unsupported_resource_prop[res] = unsupported_prop
return unsupported_resource_prop
@log.log
def create(self, plugin, context, vnf, auth_attr):
LOG.debug(_('vnf %s'), vnf)
attributes = vnf['vnfd']['attributes'].copy()
vnfd_yaml = attributes.pop('vnfd', None)
if vnfd_yaml is None:
# TODO(kangaraj-manickam) raise user level exception
LOG.info(_("VNFD is not provided, so no vnf is created !!"))
return
LOG.debug('vnfd_yaml %s', vnfd_yaml)
def update_fields():
fields = dict((key, attributes.pop(key)) for key
in ('stack_name', 'template_url', 'template')
if key in attributes)
for key in ('files', 'parameters'):
if key in attributes:
fields[key] = jsonutils.loads(attributes.pop(key))
# overwrite parameters with given dev_attrs for vnf creation
dev_attrs = vnf['attributes'].copy()
fields.update(dict((key, dev_attrs.pop(key)) for key
in ('stack_name', 'template_url', 'template')
if key in dev_attrs))
for key in ('files', 'parameters'):
if key in dev_attrs:
fields.setdefault(key, {}).update(
jsonutils.loads(dev_attrs.pop(key)))
return fields, dev_attrs
fields, dev_attrs = update_fields()
region_name = vnf.get('placement_attr', {}).get('region_name', None)
heatclient_ = HeatClient(auth_attr, region_name)
unsupported_res_prop = self.fetch_unsupported_resource_prop(
heatclient_)
heatclient = hc.HeatClient(auth_attr, region_name)
def generate_hot_from_tosca(vnfd_dict):
parsed_params = {}
if ('param_values' in dev_attrs and
dev_attrs['param_values'] != ""):
try:
parsed_params = yaml.load(dev_attrs['param_values'])
except Exception as e:
LOG.debug("Params not Well Formed: %s", str(e))
raise vnfm.ParamYAMLNotWellFormed(
error_msg_details=str(e))
toscautils.updateimports(vnfd_dict)
try:
tosca = tosca_template.ToscaTemplate(
parsed_params=parsed_params, a_file=False,
yaml_dict_tpl=vnfd_dict)
except Exception as e:
LOG.debug("tosca-parser error: %s", str(e))
raise vnfm.ToscaParserFailed(error_msg_details=str(e))
monitoring_dict = toscautils.get_vdu_monitoring(tosca)
mgmt_ports = toscautils.get_mgmt_ports(tosca)
res_tpl = toscautils.get_resources_dict(tosca,
self.STACK_FLAVOR_EXTRA)
toscautils.post_process_template(tosca)
try:
translator = tosca_translator.TOSCATranslator(tosca,
parsed_params)
heat_template_yaml = translator.translate()
except Exception as e:
LOG.debug("heat-translator error: %s", str(e))
raise vnfm.HeatTranslatorFailed(error_msg_details=str(e))
heat_template_yaml = toscautils.post_process_heat_template(
heat_template_yaml, mgmt_ports, res_tpl,
unsupported_res_prop)
return heat_template_yaml, monitoring_dict
def generate_hot_scaling(vnfd_dict,
scale_resource_type="OS::Nova::Server"):
# Initialize the template
template_dict = yaml.load(HEAT_TEMPLATE_BASE)
template_dict['description'] = 'Tacker scaling template'
parameters = {}
template_dict['parameters'] = parameters
# Add scaling related resource defs
resources = {}
scaling_group_names = {}
# TODO(kanagaraj-manickam) now only one group is supported, so name
# is hard-coded with G1
def _get_scale_group_name(targets):
return 'G1'
def _convert_to_heat_scaling_group(policy_prp,
scale_resource_type,
name):
group_hot = {'type': 'OS::Heat::AutoScalingGroup'}
properties = {}
properties['min_size'] = policy_prp['min_instances']
properties['max_size'] = policy_prp['max_instances']
properties['desired_capacity'] = policy_prp[
'default_instances']
properties['cooldown'] = policy_prp['cooldown']
properties['resource'] = {}
# TODO(kanagaraj-manickam) all VDU memebers are considered as 1
# group now and make it to form the groups based on the VDU
# list mentioned in the policy's targets
# scale_resource_type is custome type mapped the HOT template
# generated for all VDUs in the tosca template
properties['resource']['type'] = scale_resource_type
# TODO(kanagraj-manickam) add custom type params here, to
# support parameterized template
group_hot['properties'] = properties
return group_hot
# tosca policies
#
# properties:
# adjust_by: 1
# cooldown: 120
# targets: [G1]
def _convert_to_heat_scaling_policy(policy_prp, name):
# Form the group
scale_grp = _get_scale_group_name(policy_prp['targets'])
scaling_group_names[name] = scale_grp
resources[scale_grp] = _convert_to_heat_scaling_group(
policy_prp,
scale_resource_type,
scale_grp)
grp_id = {'get_resource': scale_grp}
policy_hot = {'type': 'OS::Heat::ScalingPolicy'}
properties = {}
properties['adjustment_type'] = 'change_in_capacity'
properties['cooldown'] = policy_prp['cooldown']
properties['scaling_adjustment'] = policy_prp['increment']
properties['auto_scaling_group_id'] = grp_id
policy_hot['properties'] = properties
# Add scale_out policy
policy_rsc_name = get_scaling_policy_name(
action='out',
policy_name=name
)
resources[policy_rsc_name] = policy_hot
# Add scale_in policy
in_value = '-%d' % int(policy_prp['increment'])
policy_hot_in = copy.deepcopy(policy_hot)
policy_hot_in['properties'][
'scaling_adjustment'] = in_value
policy_rsc_name = get_scaling_policy_name(
action='in',
policy_name=name
)
resources[policy_rsc_name] = policy_hot_in
# policies:
# - SP1:
# type: tosca.policies.tacker.Scaling
if 'policies' in vnfd_dict:
for policy_dict in vnfd_dict['policies']:
name, policy = list(policy_dict.items())[0]
if policy['type'] == 'tosca.policies.tacker.Scaling':
_convert_to_heat_scaling_policy(policy['properties'],
name)
# TODO(kanagaraj-manickam) only one policy is supported
# for all vdus. remove this break, once this limitation
# is addressed.
break
template_dict['resources'] = resources
# First return value helps to check if scaling resources exist
return ((len(template_dict['resources']) > 0),
scaling_group_names,
template_dict)
def generate_hot_alarm_resource(topology_tpl_dict, heat_tpl):
alarm_resource = dict()
heat_dict = yamlparser.simple_ordered_parse(heat_tpl)
sub_heat_dict = copy.deepcopy(heat_dict)
is_enabled_alarm = False
def _convert_to_heat_monitoring_prop(mon_policy):
name, mon_policy_dict = list(mon_policy.items())[0]
tpl_trigger_name = \
mon_policy_dict['triggers']['resize_compute']
tpl_condition = tpl_trigger_name['condition']
properties = {}
properties['meter_name'] = tpl_trigger_name['metrics']
properties['comparison_operator'] = \
tpl_condition['comparison_operator']
properties['period'] = tpl_condition['period']
properties['evaluation_periods'] = tpl_condition['evaluations']
properties['statistic'] = tpl_condition['method']
properties['description'] = tpl_condition['constraint']
properties['threshold'] = tpl_condition['threshold']
# alarm url process here
alarm_url = str(vnf['attributes'].get('alarm_url'))
if alarm_url:
LOG.debug('Alarm url in heat %s', alarm_url)
properties['alarm_actions'] = [alarm_url]
return properties
def _convert_to_heat_monitoring_resource(mon_policy):
mon_policy_hot = {'type': 'OS::Aodh::Alarm'}
mon_policy_hot['properties'] = \
_convert_to_heat_monitoring_prop(mon_policy)
if 'policies' in topology_tpl_dict:
for policies in topology_tpl_dict['policies']:
policy_name, policy_dt = list(policies.items())[0]
if policy_dt['type'] == \
'tosca.policies.tacker.Scaling':
# Fixed metadata. it will be fixed
# once targets are supported
metadata_dict = dict()
metadata_dict['metering.vnf_id'] = vnf['id']
sub_heat_dict['resources']['VDU1']['properties']['metadata'] =\
metadata_dict
matching_metadata_dict = dict()
matching_metadata_dict['metadata.user_metadata.vnf_id'] =\
vnf['id']
mon_policy_hot['properties']['matching_metadata'] =\
matching_metadata_dict
break
return mon_policy_hot
if 'policies' in topology_tpl_dict:
for policy_dict in topology_tpl_dict['policies']:
name, policy_tpl_dict = list(policy_dict.items())[0]
if policy_tpl_dict['type'] == \
'tosca.policies.tacker.Alarming':
is_enabled_alarm = True
alarm_resource[name] =\
_convert_to_heat_monitoring_resource(policy_dict)
heat_dict['resources'].update(alarm_resource)
break
heat_tpl_yaml = yaml.dump(heat_dict)
sub_heat_tpl_yaml = yaml.dump(sub_heat_dict)
return (is_enabled_alarm,
alarm_resource,
heat_tpl_yaml,
sub_heat_tpl_yaml)
def generate_hot_from_legacy(vnfd_dict):
assert 'template' not in fields
assert 'template_url' not in fields
monitoring_dict = {}
template_dict = yaml.load(HEAT_TEMPLATE_BASE)
outputs_dict = {}
template_dict['outputs'] = outputs_dict
if 'get_input' in vnfd_yaml:
self._process_parameterized_input(dev_attrs, vnfd_dict)
KEY_LIST = (('description', 'description'), )
for (key, vnfd_key) in KEY_LIST:
if vnfd_key in vnfd_dict:
template_dict[key] = vnfd_dict[vnfd_key]
for vdu_id, vdu_dict in vnfd_dict.get('vdus', {}).items():
template_dict.setdefault('resources', {})[vdu_id] = {
"type": "OS::Nova::Server"
}
resource_dict = template_dict['resources'][vdu_id]
KEY_LIST = (('image', 'vm_image'),
('flavor', 'instance_type'))
resource_dict['properties'] = {}
properties = resource_dict['properties']
for (key, vdu_key) in KEY_LIST:
properties[key] = vdu_dict[vdu_key]
if 'network_interfaces' in vdu_dict:
self._process_vdu_network_interfaces(vdu_id,
vdu_dict, properties, template_dict,
unsupported_res_prop)
if ('user_data' in vdu_dict and
'user_data_format' in vdu_dict):
properties['user_data_format'] = vdu_dict[
'user_data_format']
properties['user_data'] = vdu_dict['user_data']
elif ('user_data' in vdu_dict or
'user_data_format' in vdu_dict):
raise vnfm.UserDataFormatNotFound()
if 'placement_policy' in vdu_dict:
if 'availability_zone' in vdu_dict['placement_policy']:
properties['availability_zone'] = vdu_dict[
'placement_policy']['availability_zone']
if 'config' in vdu_dict:
properties['config_drive'] = True
metadata = properties.setdefault('metadata', {})
metadata.update(vdu_dict['config'])
for key, value in metadata.items():
metadata[key] = value[:255]
if 'key_name' in vdu_dict:
properties['key_name'] = vdu_dict['key_name']
monitoring_policy = vdu_dict.get('monitoring_policy',
'noop')
failure_policy = vdu_dict.get('failure_policy', 'noop')
# Convert the old monitoring specification to the new
# network. This should be removed after Mitaka
if (monitoring_policy == 'ping' and
failure_policy == 'respawn'):
vdu_dict['monitoring_policy'] = {
'ping': {'actions': {'failure': 'respawn'}}}
vdu_dict.pop('failure_policy')
if monitoring_policy != 'noop':
monitoring_dict['vdus'] = {}
monitoring_dict['vdus'][vdu_id] = \
vdu_dict['monitoring_policy']
# to pass necessary parameters to plugin upwards.
for key in ('service_type',):
if key in vdu_dict:
vnf.setdefault(
'attributes', {})[vdu_id] = jsonutils.dumps(
{key: vdu_dict[key]})
heat_template_yaml = yaml.dump(template_dict)
return heat_template_yaml, monitoring_dict
def generate_hot():
vnfd_dict = yamlparser.simple_ordered_parse(vnfd_yaml)
LOG.debug('vnfd_dict %s', vnfd_dict)
is_tosca_format = False
if 'tosca_definitions_version' in vnfd_dict:
(heat_template_yaml,
monitoring_dict) = generate_hot_from_tosca(vnfd_dict)
is_tosca_format = True
else:
(heat_template_yaml,
monitoring_dict) = generate_hot_from_legacy(vnfd_dict)
fields['template'] = heat_template_yaml
if is_tosca_format:
(is_scaling_needed, scaling_group_names,
main_dict) = generate_hot_scaling(
vnfd_dict['topology_template'],
'scaling.yaml')
(is_enabled_alarm, alarm_resource,
heat_tpl_yaml, sub_heat_tpl_yaml) =\
generate_hot_alarm_resource(vnfd_dict['topology_template'],
heat_template_yaml)
if is_enabled_alarm and not is_scaling_needed:
heat_template_yaml = heat_tpl_yaml
fields['template'] = heat_template_yaml
if is_scaling_needed:
if is_enabled_alarm:
main_dict['resources'].update(alarm_resource)
main_yaml = yaml.dump(main_dict)
fields['template'] = main_yaml
fields['files'] = {'scaling.yaml': sub_heat_tpl_yaml}\
if is_enabled_alarm else {
'scaling.yaml': heat_template_yaml}
vnf['attributes']['heat_template'] = main_yaml
# TODO(kanagaraj-manickam) when multiple groups are
# supported, make this scaling atribute as
# scaling name vs scaling template map and remove
# scaling_group_names
vnf['attributes']['scaling.yaml'] = heat_template_yaml
vnf['attributes'][
'scaling_group_names'] = jsonutils.dumps(
scaling_group_names
)
elif not is_scaling_needed:
if not vnf['attributes'].get('heat_template'):
vnf['attributes'][
'heat_template'] = fields['template']
if monitoring_dict:
vnf['attributes']['monitoring_policy'] = \
jsonutils.dumps(monitoring_dict)
generate_hot()
def create_stack():
if 'stack_name' not in fields:
name = (__name__ + '_' + self.__class__.__name__ + '-' +
vnf['id'])
if vnf['attributes'].get('failure_count'):
name += ('-RESPAWN-%s') % str(vnf['attributes'][
'failure_count'])
fields['stack_name'] = name
# service context is ignored
LOG.debug(_('service_context: %s'),
vnf.get('service_context', []))
LOG.debug(_('fields: %s'), fields)
LOG.debug(_('template: %s'), fields['template'])
stack = heatclient_.create(fields)
return stack
stack = create_stack()
tth = translate_template.TOSCAToHOT(vnf, heatclient)
tth.generate_hot()
stack = self._create_stack(heatclient, tth.vnf, tth.fields)
return stack['stack']['id']
@log.log
def _create_stack(self, heatclient, vnf, fields):
if 'stack_name' not in fields:
name = __name__ + '_' + self.__class__.__name__ + '-' + vnf['id']
if vnf['attributes'].get('failure_count'):
name += ('-RESPAWN-%s') % str(vnf['attributes'][
'failure_count'])
fields['stack_name'] = name
# service context is ignored
LOG.debug(_('service_context: %s'), vnf.get('service_context', []))
LOG.debug(_('fields: %s'), fields)
LOG.debug(_('template: %s'), fields['template'])
stack = heatclient.create(fields)
return stack
@log.log
def create_wait(self, plugin, context, vnf_dict, vnf_id, auth_attr):
region_name = vnf_dict.get('placement_attr', {}).get(
'region_name', None)
heatclient_ = HeatClient(auth_attr, region_name)
heatclient = hc.HeatClient(auth_attr, region_name)
stack = heatclient_.get(vnf_id)
stack = heatclient.get(vnf_id)
status = stack.stack_status
stack_retries = self.STACK_RETRIES
error_reason = None
while status == 'CREATE_IN_PROGRESS' and stack_retries > 0:
time.sleep(self.STACK_RETRY_WAIT)
try:
stack = heatclient_.get(vnf_id)
stack = heatclient.get(vnf_id)
except Exception:
LOG.exception(_("VNF Instance cleanup may not have "
"happened because Heat API request failed "
@ -677,7 +177,7 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
if vnf_dict['attributes'].get('scaling_group_names'):
group_names = jsonutils.loads(
vnf_dict['attributes'].get('scaling_group_names')).values()
mgmt_ips = self._find_mgmt_ips_from_groups(heatclient_,
mgmt_ips = self._find_mgmt_ips_from_groups(heatclient,
vnf_id,
group_names)
else:
@ -691,8 +191,8 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
auth_attr):
region_name = vnf_dict.get('placement_attr', {}).get(
'region_name', None)
heatclient_ = HeatClient(auth_attr, region_name)
heatclient_.get(vnf_id)
heatclient = hc.HeatClient(auth_attr, region_name)
heatclient.get(vnf_id)
# update config attribute
config_yaml = vnf_dict.get('attributes', {}).get('config', '')
@ -728,29 +228,31 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
new_yaml = yaml.dump(config_dict)
vnf_dict.setdefault('attributes', {})['config'] = new_yaml
@log.log
def update_wait(self, plugin, context, vnf_id, auth_attr,
region_name=None):
# do nothing but checking if the stack exists at the moment
heatclient_ = HeatClient(auth_attr, region_name)
heatclient_.get(vnf_id)
heatclient = hc.HeatClient(auth_attr, region_name)
heatclient.get(vnf_id)
@log.log
def delete(self, plugin, context, vnf_id, auth_attr, region_name=None):
heatclient_ = HeatClient(auth_attr, region_name)
heatclient_.delete(vnf_id)
heatclient = hc.HeatClient(auth_attr, region_name)
heatclient.delete(vnf_id)
@log.log
def delete_wait(self, plugin, context, vnf_id, auth_attr,
region_name=None):
heatclient_ = HeatClient(auth_attr, region_name)
heatclient = hc.HeatClient(auth_attr, region_name)
stack = heatclient_.get(vnf_id)
stack = heatclient.get(vnf_id)
status = stack.stack_status
error_reason = None
stack_retries = self.STACK_RETRIES
while (status == 'DELETE_IN_PROGRESS' and stack_retries > 0):
time.sleep(self.STACK_RETRY_WAIT)
try:
stack = heatclient_.get(vnf_id)
stack = heatclient.get(vnf_id)
except heatException.HTTPNotFound:
return
except Exception:
@ -781,10 +283,7 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
eason=error_reason)
@classmethod
def _find_mgmt_ips_from_groups(cls,
heat_client,
instance_id,
group_names):
def _find_mgmt_ips_from_groups(cls, heat_client, instance_id, group_names):
def _find_mgmt_ips(attributes):
mgmt_ips = {}
@ -797,14 +296,11 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
mgmt_ips = {}
for group_name in group_names:
# Get scale group
grp = heat_client.resource_get(instance_id,
group_name)
for rsc in heat_client.resource_get_list(
grp.physical_resource_id):
grp = heat_client.resource_get(instance_id, group_name)
for rsc in heat_client.resource_get_list(grp.physical_resource_id):
# Get list of resources in scale group
scale_rsc = heat_client.resource_get(
grp.physical_resource_id,
rsc.resource_name)
scale_rsc = heat_client.resource_get(grp.physical_resource_id,
rsc.resource_name)
# findout the mgmt ips from attributes
for k, v in _find_mgmt_ips(scale_rsc.attributes).items():
@ -816,38 +312,22 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
return mgmt_ips
@log.log
def scale(self,
context,
plugin,
auth_attr,
policy,
region_name):
heatclient_ = HeatClient(auth_attr, region_name)
policy_rsc = get_scaling_policy_name(
policy_name=policy['id'],
action=policy['action']
)
events = heatclient_.resource_event_list(
policy['instance_id'],
policy_rsc,
limit=1,
sort_dir='desc',
sort_keys='event_time'
)
def scale(self, context, plugin, auth_attr, policy, region_name):
heatclient = hc.HeatClient(auth_attr, region_name)
policy_rsc = get_scaling_policy_name(policy_name=policy['id'],
action=policy['action'])
events = heatclient.resource_event_list(policy['instance_id'],
policy_rsc, limit=1,
sort_dir='desc',
sort_keys='event_time')
heatclient_.resource_signal(policy['instance_id'],
policy_rsc)
heatclient.resource_signal(policy['instance_id'], policy_rsc)
return events[0].id
@log.log
def scale_wait(self,
context,
plugin,
auth_attr,
policy,
region_name,
def scale_wait(self, context, plugin, auth_attr, policy, region_name,
last_event_id):
heatclient_ = HeatClient(auth_attr, region_name)
heatclient = hc.HeatClient(auth_attr, region_name)
# TODO(kanagaraj-manickam) make wait logic into separate utility method
# and make use of it here and other actions like create and delete
@ -856,15 +336,12 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
try:
time.sleep(self.STACK_RETRY_WAIT)
stack_id = policy['instance_id']
policy_name = get_scaling_policy_name(
policy_name=policy['id'],
action=policy['action'])
events = heatclient_.resource_event_list(
stack_id,
policy_name,
limit=1,
sort_dir='desc',
sort_keys='event_time')
policy_name = get_scaling_policy_name(policy_name=policy['id'],
action=policy['action'])
events = heatclient.resource_event_list(stack_id, policy_name,
limit=1,
sort_dir='desc',
sort_keys='event_time')
if events[0].id != last_event_id:
if events[0].resource_status == 'SIGNAL_COMPLETE':
@ -872,16 +349,14 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
except Exception as e:
error_reason = _("VNF scaling failed for stack %(stack)s with "
"error %(error)s") % {
'stack': policy['instance_id'],
'error': e.message
}
'stack': policy['instance_id'],
'error': e.message}
LOG.warning(error_reason)
raise vnfm.VNFScaleWaitFailed(
vnf_id=policy['vnf']['id'],
reason=error_reason)
raise vnfm.VNFScaleWaitFailed(vnf_id=policy['vnf']['id'],
reason=error_reason)
if stack_retries == 0:
metadata = heatclient_.resource_metadata(stack_id, policy_name)
metadata = heatclient.resource_metadata(stack_id, policy_name)
if not metadata['scaling_in_progress']:
error_reason = _('when signal occurred within cool down '
'window, no events generated from heat, '
@ -895,9 +370,8 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
'wait': self.STACK_RETRIES *
self.STACK_RETRY_WAIT}
LOG.warning(error_reason)
raise vnfm.VNFScaleWaitFailed(
vnf_id=policy['vnf']['id'],
reason=error_reason)
raise vnfm.VNFScaleWaitFailed(vnf_id=policy['vnf']['id'],
reason=error_reason)
stack_retries -= 1
def _fill_scaling_group_name():
@ -908,19 +382,19 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
_fill_scaling_group_name()
mgmt_ips = self._find_mgmt_ips_from_groups(
heatclient_,
policy['instance_id'],
[policy['group_name']])
mgmt_ips = self._find_mgmt_ips_from_groups(heatclient,
policy['instance_id'],
[policy['group_name']])
return jsonutils.dumps(mgmt_ips)
@log.log
def get_resource_info(self, plugin, context, vnf_info, auth_attr,
region_name=None):
stack_id = vnf_info['instance_id']
heatclient_ = HeatClient(auth_attr, region_name)
heatclient = hc.HeatClient(auth_attr, region_name)
try:
resources_ids = heatclient_.resource_get_list(stack_id)
resources_ids = heatclient.resource_get_list(stack_id)
details_dict = {resource.resource_name:
{"id": resource.physical_resource_id,
"type": resource.resource_type}
@ -929,56 +403,3 @@ class OpenStack(abstract_driver.DeviceAbstractDriver,
# Raise exception when Heat API service is not available
except Exception:
raise vnfm.InfraDriverUnreachable(service="Heat API service")
class HeatClient(object):
def __init__(self, auth_attr, region_name=None):
# context, password are unused
self.heat = clients.OpenstackClients(auth_attr, region_name).heat
self.stacks = self.heat.stacks
self.resource_types = self.heat.resource_types
self.resources = self.heat.resources
def create(self, fields):
fields = fields.copy()
fields.update({
'timeout_mins': 10,
'disable_rollback': True})
if 'password' in fields.get('template', {}):
fields['password'] = fields['template']['password']
try:
return self.stacks.create(**fields)
except heatException.HTTPException:
type_, value, tb = sys.exc_info()
raise vnfm.HeatClientException(msg=value)
def delete(self, stack_id):
try:
self.stacks.delete(stack_id)
except heatException.HTTPNotFound:
LOG.warning(_("Stack %(stack)s created by service chain driver is "
"not found at cleanup"), {'stack': stack_id})
def get(self, stack_id):
return self.stacks.get(stack_id)
def resource_attr_support(self, resource_name, property_name):
resource = self.resource_types.get(resource_name)
return property_name in resource['attributes']
def resource_get_list(self, stack_id, nested_depth=0):
return self.heat.resources.list(stack_id,
nested_depth=nested_depth)
def resource_signal(self, stack_id, rsc_name):
return self.heat.resources.signal(stack_id, rsc_name)
def resource_get(self, stack_id, rsc_name):
return self.heat.resources.get(stack_id, rsc_name)
def resource_event_list(self, stack_id, rsc_name, **kwargs):
return self.heat.events.list(stack_id, rsc_name, **kwargs)
def resource_metadata(self, stack_id, rsc_name):
return self.heat.resources.metadata(stack_id, rsc_name)

View File

@ -0,0 +1,579 @@
# 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 copy
from oslo_config import cfg
from oslo_log import log as logging
from oslo_serialization import jsonutils
from six import iteritems
from toscaparser import tosca_template
from toscaparser.utils import yamlparser
from translator.hot import tosca_translator
import yaml
from tacker.common import log
from tacker.extensions import vnfm
from tacker.vnfm.tosca import utils as toscautils
LOG = logging.getLogger(__name__)
CONF = cfg.CONF
OPTS = [
cfg.DictOpt('flavor_extra_specs',
default={},
help=_("Flavor Extra Specs")),
]
CONF.register_opts(OPTS, group='openstack_vim')
HEAT_VERSION_INCOMPATIBILITY_MAP = {'OS::Neutron::Port': {
'port_security_enabled': 'value_specs', }, }
HEAT_TEMPLATE_BASE = """
heat_template_version: 2013-05-23
"""
ALARMING_POLICY = 'tosca.policies.tacker.Alarming'
SCALING_POLICY = 'tosca.policies.tacker.Scaling'
def get_scaling_policy_name(action, policy_name):
return '%s_scale_%s' % (policy_name, action)
class TOSCAToHOT(object):
"""Convert TOSCA template to HOT template."""
def __init__(self, vnf, heatclient):
self.vnf = vnf
self.heatclient = heatclient
self.attributes = {}
self.vnfd_yaml = None
self.unsupported_props = {}
self.heat_template_yaml = None
self.monitoring_dict = None
self.fields = None
self.STACK_FLAVOR_EXTRA = cfg.CONF.openstack_vim.flavor_extra_specs
@log.log
def generate_hot(self):
self._get_vnfd()
dev_attrs = self._update_fields()
vnfd_dict = yamlparser.simple_ordered_parse(self.vnfd_yaml)
LOG.debug('vnfd_dict %s', vnfd_dict)
self._get_unsupported_resource_props(self.heatclient)
is_tosca_format = False
if 'tosca_definitions_version' in vnfd_dict:
self._generate_hot_from_tosca(vnfd_dict, dev_attrs)
is_tosca_format = True
else:
self._generate_hot_from_legacy(vnfd_dict, dev_attrs)
self.fields['template'] = self.heat_template_yaml
if is_tosca_format:
self._handle_scaling(vnfd_dict)
if self.monitoring_dict:
self.vnf['attributes']['monitoring_policy'] = jsonutils.dumps(
self.monitoring_dict)
@log.log
def _get_vnfd(self):
self.attributes = self.vnf['vnfd']['attributes'].copy()
self.vnfd_yaml = self.attributes.pop('vnfd', None)
if self.vnfd_yaml is None:
# TODO(kangaraj-manickam) raise user level exception
LOG.info(_("VNFD is not provided, so no vnf is created !!"))
return
LOG.debug('vnfd_yaml %s', self.vnfd_yaml)
@log.log
def _update_fields(self):
attributes = self.attributes
fields = dict((key, attributes.pop(key)) for key
in ('stack_name', 'template_url', 'template')
if key in attributes)
for key in ('files', 'parameters'):
if key in attributes:
fields[key] = jsonutils.loads(attributes.pop(key))
# overwrite parameters with given dev_attrs for vnf creation
dev_attrs = self.vnf['attributes'].copy()
fields.update(dict((key, dev_attrs.pop(key)) for key
in ('stack_name', 'template_url', 'template')
if key in dev_attrs))
for key in ('files', 'parameters'):
if key in dev_attrs:
fields.setdefault(key, {}).update(
jsonutils.loads(dev_attrs.pop(key)))
self.attributes = attributes
self.fields = fields
return dev_attrs
@log.log
def _handle_scaling(self, vnfd_dict):
vnf = self.vnf
(is_scaling_needed, scaling_group_names,
main_dict) = self._generate_hot_scaling(
vnfd_dict['topology_template'], 'scaling.yaml')
(is_enabled_alarm, alarm_resource, sub_heat_tpl_yaml) =\
self._generate_hot_alarm_resource(vnfd_dict['topology_template'])
if is_enabled_alarm and not is_scaling_needed:
self.fields['template'] = self.heat_template_yaml
if is_scaling_needed:
if is_enabled_alarm:
main_dict['resources'].update(alarm_resource)
main_yaml = yaml.dump(main_dict)
self.fields['template'] = main_yaml
if is_enabled_alarm:
self.fields['files'] = {
'scaling.yaml': sub_heat_tpl_yaml
}
else:
self.fields['files'] = {
'scaling.yaml': self.heat_template_yaml
}
vnf['attributes']['heat_template'] = main_yaml
# TODO(kanagaraj-manickam) when multiple groups are
# supported, make this scaling atribute as
# scaling name vs scaling template map and remove
# scaling_group_names
vnf['attributes']['scaling.yaml'] = self.heat_template_yaml
vnf['attributes']['scaling_group_names'] = jsonutils.dumps(
scaling_group_names)
elif not vnf['attributes'].get('heat_template'):
vnf['attributes']['heat_template'] = self.fields['template']
self.vnf = vnf
@log.log
def _update_params(self, original, paramvalues, match=False):
for key, value in iteritems(original):
if not isinstance(value, dict) or 'get_input' not in str(value):
pass
elif isinstance(value, dict):
if not match:
if key in paramvalues and 'param' in paramvalues[key]:
self._update_params(value, paramvalues[key]['param'],
True)
elif key in paramvalues:
self._update_params(value, paramvalues[key], False)
else:
LOG.debug('Key missing Value: %s', key)
raise vnfm.InputValuesMissing(key=key)
elif 'get_input' in value:
if value['get_input'] in paramvalues:
original[key] = paramvalues[value['get_input']]
else:
LOG.debug('Key missing Value: %s', key)
raise vnfm.InputValuesMissing(key=key)
else:
self._update_params(value, paramvalues, True)
@log.log
def _process_parameterized_input(self, dev_attrs, vnfd_dict):
param_vattrs_yaml = dev_attrs.pop('param_values', None)
if param_vattrs_yaml:
try:
param_vattrs_dict = yaml.load(param_vattrs_yaml)
LOG.debug('param_vattrs_yaml', param_vattrs_dict)
except Exception as e:
LOG.debug("Not Well Formed: %s", str(e))
raise vnfm.ParamYAMLNotWellFormed(
error_msg_details=str(e))
else:
self._update_params(vnfd_dict, param_vattrs_dict)
else:
raise vnfm.ParamYAMLInputMissing()
@log.log
def _process_vdu_network_interfaces(self, vdu_id, vdu_dict, properties,
template_dict):
networks_list = []
properties['networks'] = networks_list
for network_param in vdu_dict['network_interfaces'].values():
port = None
if 'addresses' in network_param:
ip_list = network_param.pop('addresses', [])
if not isinstance(ip_list, list):
raise vnfm.IPAddrInvalidInput()
mgmt_flag = network_param.pop('management', False)
port, template_dict =\
self._handle_port_creation(vdu_id, network_param,
template_dict,
ip_list, mgmt_flag)
if network_param.pop('management', False):
port, template_dict = self._handle_port_creation(vdu_id,
network_param,
template_dict,
[], True)
if port is not None:
network_param = {
'port': {'get_resource': port}
}
networks_list.append(dict(network_param))
return vdu_dict, template_dict
@log.log
def _make_port_dict(self):
port_dict = {'type': 'OS::Neutron::Port'}
if self.unsupported_props:
port_dict['properties'] = {
'value_specs': {
'port_security_enabled': False
}
}
else:
port_dict['properties'] = {
'port_security_enabled': False
}
port_dict['properties'].setdefault('fixed_ips', [])
return port_dict
@log.log
def _make_mgmt_outputs_dict(self, vdu_id, port, template_dict):
mgmt_ip = 'mgmt_ip-%s' % vdu_id
outputs_dict = template_dict['outputs']
outputs_dict[mgmt_ip] = {
'description': 'management ip address',
'value': {
'get_attr': [port, 'fixed_ips', 0, 'ip_address']
}
}
template_dict['outputs'] = outputs_dict
return template_dict
@log.log
def _handle_port_creation(self, vdu_id, network_param,
template_dict, ip_list=None,
mgmt_flag=False):
ip_list = ip_list or []
port = '%s-%s-port' % (vdu_id, network_param['network'])
port_dict = self._make_port_dict()
if mgmt_flag:
template_dict = self._make_mgmt_outputs_dict(vdu_id, port,
template_dict)
for ip in ip_list:
port_dict['properties']['fixed_ips'].append({"ip_address": ip})
port_dict['properties'].update(network_param)
template_dict['resources'][port] = port_dict
return port, template_dict
@log.log
def _get_unsupported_resource_props(self, heat_client):
unsupported_resource_props = {}
for res, prop_dict in iteritems(HEAT_VERSION_INCOMPATIBILITY_MAP):
unsupported_props = {}
for prop, val in iteritems(prop_dict):
if not heat_client.resource_attr_support(res, prop):
unsupported_props.update(prop_dict)
if unsupported_props:
unsupported_resource_props[res] = unsupported_props
self.unsupported_props = unsupported_resource_props
@log.log
def _generate_hot_from_tosca(self, vnfd_dict, dev_attrs):
parsed_params = {}
if 'param_values' in dev_attrs and dev_attrs['param_values'] != "":
try:
parsed_params = yaml.load(dev_attrs['param_values'])
except Exception as e:
LOG.debug("Params not Well Formed: %s", str(e))
raise vnfm.ParamYAMLNotWellFormed(error_msg_details=str(e))
toscautils.updateimports(vnfd_dict)
try:
tosca = tosca_template.ToscaTemplate(parsed_params=parsed_params,
a_file=False,
yaml_dict_tpl=vnfd_dict)
except Exception as e:
LOG.debug("tosca-parser error: %s", str(e))
raise vnfm.ToscaParserFailed(error_msg_details=str(e))
monitoring_dict = toscautils.get_vdu_monitoring(tosca)
mgmt_ports = toscautils.get_mgmt_ports(tosca)
res_tpl = toscautils.get_resources_dict(tosca,
self.STACK_FLAVOR_EXTRA)
toscautils.post_process_template(tosca)
try:
translator = tosca_translator.TOSCATranslator(tosca,
parsed_params)
heat_template_yaml = translator.translate()
except Exception as e:
LOG.debug("heat-translator error: %s", str(e))
raise vnfm.HeatTranslatorFailed(error_msg_details=str(e))
heat_template_yaml = toscautils.post_process_heat_template(
heat_template_yaml, mgmt_ports, res_tpl, self.unsupported_props)
self.heat_template_yaml = heat_template_yaml
self.monitoring_dict = monitoring_dict
@log.log
def _generate_hot_from_legacy(self, vnfd_dict, dev_attrs):
assert 'template' not in self.fields
assert 'template_url' not in self.fields
monitoring_dict = {}
template_dict = yaml.load(HEAT_TEMPLATE_BASE)
outputs_dict = {}
template_dict['outputs'] = outputs_dict
if 'get_input' in self.vnfd_yaml:
self._process_parameterized_input(dev_attrs, vnfd_dict)
KEY_LIST = (('description', 'description'), )
for (key, vnfd_key) in KEY_LIST:
if vnfd_key in vnfd_dict:
template_dict[key] = vnfd_dict[vnfd_key]
for vdu_id, vdu_dict in vnfd_dict.get('vdus', {}).items():
template_dict.setdefault('resources', {})[vdu_id] = {
"type": "OS::Nova::Server"
}
resource_dict = template_dict['resources'][vdu_id]
KEY_LIST = (('image', 'vm_image'),
('flavor', 'instance_type'))
resource_dict['properties'] = {}
properties = resource_dict['properties']
for (key, vdu_key) in KEY_LIST:
properties[key] = vdu_dict[vdu_key]
if 'network_interfaces' in vdu_dict:
vdu_dict, template_dict =\
self._process_vdu_network_interfaces(vdu_id, vdu_dict,
properties, template_dict)
if 'user_data' in vdu_dict and 'user_data_format' in vdu_dict:
properties['user_data_format'] = vdu_dict['user_data_format']
properties['user_data'] = vdu_dict['user_data']
elif 'user_data' in vdu_dict or 'user_data_format' in vdu_dict:
raise vnfm.UserDataFormatNotFound()
if 'placement_policy' in vdu_dict:
if 'availability_zone' in vdu_dict['placement_policy']:
properties['availability_zone'] = vdu_dict[
'placement_policy']['availability_zone']
if 'config' in vdu_dict:
properties['config_drive'] = True
metadata = properties.setdefault('metadata', {})
metadata.update(vdu_dict['config'])
for key, value in metadata.items():
metadata[key] = value[:255]
if 'key_name' in vdu_dict:
properties['key_name'] = vdu_dict['key_name']
monitoring_policy = vdu_dict.get('monitoring_policy', 'noop')
failure_policy = vdu_dict.get('failure_policy', 'noop')
# Convert the old monitoring specification to the new
# network. This should be removed after Mitaka
if monitoring_policy == 'ping' and failure_policy == 'respawn':
vdu_dict['monitoring_policy'] = {
'ping': {'actions': {'failure': 'respawn'}}}
vdu_dict.pop('failure_policy')
if monitoring_policy != 'noop':
monitoring_dict['vdus'] = {}
monitoring_dict['vdus'][vdu_id] = vdu_dict['monitoring_policy']
# to pass necessary parameters to plugin upwards.
for key in ('service_type',):
if key in vdu_dict:
self.vnf.setdefault('attributes', {})[vdu_id] =\
jsonutils.dumps({key: vdu_dict[key]})
heat_template_yaml = yaml.dump(template_dict)
self.heat_template_yaml = heat_template_yaml
self.monitoring_dict = monitoring_dict
@log.log
def _generate_hot_scaling(self, vnfd_dict,
scale_resource_type="OS::Nova::Server"):
# Initialize the template
template_dict = yaml.load(HEAT_TEMPLATE_BASE)
template_dict['description'] = 'Tacker scaling template'
parameters = {}
template_dict['parameters'] = parameters
# Add scaling related resource defs
resources = {}
scaling_group_names = {}
# policies:
# - SP1:
# type: tosca.policies.tacker.Scaling
if 'policies' in vnfd_dict:
for policy_dict in vnfd_dict['policies']:
name, policy = list(policy_dict.items())[0]
if policy['type'] == SCALING_POLICY:
resources, scaling_group_names =\
self._convert_to_heat_scaling_policy(
policy['properties'], scale_resource_type, name)
# TODO(kanagaraj-manickam) only one policy is supported
# for all vdus. remove this break, once this limitation
# is addressed.
break
template_dict['resources'] = resources
# First return value helps to check if scaling resources exist
return ((len(template_dict['resources']) > 0), scaling_group_names,
template_dict)
@log.log
def _convert_to_heat_scaling_group(self, policy_prp, scale_resource_type,
name):
group_hot = {'type': 'OS::Heat::AutoScalingGroup'}
properties = {}
properties['min_size'] = policy_prp['min_instances']
properties['max_size'] = policy_prp['max_instances']
properties['desired_capacity'] = policy_prp['default_instances']
properties['cooldown'] = policy_prp['cooldown']
properties['resource'] = {}
# TODO(kanagaraj-manickam) all VDU memebers are considered as 1
# group now and make it to form the groups based on the VDU
# list mentioned in the policy's targets
# scale_resource_type is custome type mapped the HOT template
# generated for all VDUs in the tosca template
properties['resource']['type'] = scale_resource_type
# TODO(kanagraj-manickam) add custom type params here, to
# support parameterized template
group_hot['properties'] = properties
return group_hot
# TODO(kanagaraj-manickam) now only one group is supported, so name
# is hard-coded with G1
@log.log
def _get_scale_group_name(self, targets):
return 'G1'
# tosca policies
#
# properties:
# adjust_by: 1
# cooldown: 120
# targets: [G1]
@log.log
def _convert_to_heat_scaling_policy(self, policy_prp, scale_resource_type,
name):
# Add scaling related resource defs
resources = {}
scaling_group_names = {}
# Form the group
scale_grp = self._get_scale_group_name(policy_prp['targets'])
scaling_group_names[name] = scale_grp
resources[scale_grp] = self._convert_to_heat_scaling_group(
policy_prp, scale_resource_type, scale_grp)
grp_id = {'get_resource': scale_grp}
policy_hot = {'type': 'OS::Heat::ScalingPolicy'}
properties = {}
properties['adjustment_type'] = 'change_in_capacity'
properties['cooldown'] = policy_prp['cooldown']
properties['scaling_adjustment'] = policy_prp['increment']
properties['auto_scaling_group_id'] = grp_id
policy_hot['properties'] = properties
# Add scale_out policy
policy_rsc_name = get_scaling_policy_name(action='out',
policy_name=name)
resources[policy_rsc_name] = policy_hot
# Add scale_in policy
in_value = '-%d' % int(policy_prp['increment'])
policy_hot_in = copy.deepcopy(policy_hot)
policy_hot_in['properties']['scaling_adjustment'] = in_value
policy_rsc_name = get_scaling_policy_name(action='in',
policy_name=name)
resources[policy_rsc_name] = policy_hot_in
return resources, scaling_group_names
@log.log
def _generate_hot_alarm_resource(self, topology_tpl_dict):
alarm_resource = dict()
heat_tpl = self.heat_template_yaml
heat_dict = yamlparser.simple_ordered_parse(heat_tpl)
sub_heat_dict = copy.deepcopy(heat_dict)
is_enabled_alarm = False
if 'policies' in topology_tpl_dict:
for policy_dict in topology_tpl_dict['policies']:
name, policy_tpl_dict = list(policy_dict.items())[0]
if policy_tpl_dict['type'] == ALARMING_POLICY:
is_enabled_alarm = True
alarm_resource[name], sub_heat_dict =\
self._convert_to_heat_monitoring_resource(policy_dict,
self.vnf, sub_heat_dict, topology_tpl_dict)
heat_dict['resources'].update(alarm_resource)
break
self.heat_template_yaml = yaml.dump(heat_dict)
sub_heat_tpl_yaml = yaml.dump(sub_heat_dict)
return (is_enabled_alarm, alarm_resource, sub_heat_tpl_yaml)
@log.log
def _convert_to_heat_monitoring_resource(self, mon_policy, vnf,
sub_heat_dict, topology_tpl_dict):
mon_policy_hot = {'type': 'OS::Aodh::Alarm'}
mon_policy_hot['properties'] = self._convert_to_heat_monitoring_prop(
mon_policy, vnf)
if 'policies' in topology_tpl_dict:
for policies in topology_tpl_dict['policies']:
policy_name, policy_dt = list(policies.items())[0]
if policy_dt['type'] == SCALING_POLICY:
# Fixed metadata. it will be fixed
# once targets are supported
metadata_dict = dict()
metadata_dict['metering.vnf_id'] = vnf['id']
sub_heat_dict['resources']['VDU1']['properties']['metadata'] =\
metadata_dict
matching_metadata_dict = dict()
matching_metadata_dict['metadata.user_metadata.vnf_id'] =\
vnf['id']
mon_policy_hot['properties']['matching_metadata'] =\
matching_metadata_dict
break
return mon_policy_hot, sub_heat_dict
@log.log
def _convert_to_heat_monitoring_prop(self, mon_policy, vnf):
name, mon_policy_dict = list(mon_policy.items())[0]
tpl_trigger_name = mon_policy_dict['triggers']['resize_compute']
tpl_condition = tpl_trigger_name['condition']
properties = {}
properties['meter_name'] = tpl_trigger_name['metrics']
properties['comparison_operator'] =\
tpl_condition['comparison_operator']
properties['period'] = tpl_condition['period']
properties['evaluation_periods'] = tpl_condition['evaluations']
properties['statistic'] = tpl_condition['method']
properties['description'] = tpl_condition['constraint']
properties['threshold'] = tpl_condition['threshold']
# alarm url process here
alarm_url = str(vnf['attributes'].get('alarm_url'))
if alarm_url:
LOG.debug('Alarm url in heat %s', alarm_url)
properties['alarm_actions'] = [alarm_url]
return properties

View File

@ -30,7 +30,7 @@ from tacker.common import driver_manager
from tacker import context as t_context
from tacker.db.common_services import common_services_db
from tacker.plugins.common import constants
from tacker.vnfm.infra_drivers.openstack import openstack
from tacker.vnfm.infra_drivers.openstack import heat_client as hc
from tacker.vnfm import vim_client
LOG = logging.getLogger(__name__)
@ -359,8 +359,8 @@ class ActionRespawnHeat(ActionPolicy):
def _delete_heat_stack(vim_auth):
placement_attr = vnf_dict.get('placement_attr', {})
region_name = placement_attr.get('region_name')
heatclient = openstack.HeatClient(auth_attr=vim_auth,
region_name=region_name)
heatclient = hc.HeatClient(auth_attr=vim_auth,
region_name=region_name)
heatclient.delete(vnf_dict['instance_id'])
LOG.debug(_("Heat stack %s delete initiated"), vnf_dict[
'instance_id'])