ceilometer.network.statistics.opendaylight.driver

Source code for ceilometer.network.statistics.opendaylight.driver

#
# Copyright 2013 NEC Corporation.  All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
#      http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.

from oslo_log import log
import six
from six import moves
from six.moves.urllib import parse as urlparse

from ceilometer.network.statistics import driver
from ceilometer.network.statistics.opendaylight import client
from ceilometer import utils


LOG = log.getLogger(__name__)


def _get_properties(properties, prefix='properties'):
    resource_meta = {}
    if properties is not None:
        for k, v in six.iteritems(properties):
            value = v['value']
            key = prefix + '_' + k
            if 'name' in v:
                key += '_' + v['name']
            resource_meta[key] = value
    return resource_meta


def _get_int_sample(key, statistic, resource_id, resource_meta):
    if key not in statistic:
        return None
    return int(statistic[key]), resource_id, resource_meta


[docs]class OpenDayLightDriver(driver.Driver): """Driver of network info collector from OpenDaylight. This driver uses resources in "pipeline.yaml". Resource requires below conditions: * resource is url * scheme is "opendaylight" This driver can be configured via query parameters. Supported parameters: * scheme: The scheme of request url to OpenDaylight REST API endpoint. (default http) * auth: Auth strategy of http. This parameter can be set basic and digest.(default None) * user: This is username that is used by auth.(default None) * password: This is password that is used by auth.(default None) * container_name: Name of container of OpenDaylight.(default "default") This parameter allows multi values. e.g.:: opendaylight://127.0.0.1:8080/controller/nb/v2?container_name=default& container_name=egg&auth=basic&user=admin&password=admin&scheme=http In this case, the driver send request to below URLs: http://127.0.0.1:8080/controller/nb/v2/statistics/default/flow http://127.0.0.1:8080/controller/nb/v2/statistics/egg/flow """ def _prepare_cache(self, endpoint, params, cache): if 'network.statistics.opendaylight' in cache: return cache['network.statistics.opendaylight'] data = {} container_names = params.get('container_name', ['default']) odl_params = {} if 'auth' in params: odl_params['auth'] = params['auth'][0] if 'user' in params: odl_params['user'] = params['user'][0] if 'password' in params: odl_params['password'] = params['password'][0] cs = client.Client(self.conf, endpoint, odl_params) for container_name in container_names: try: container_data = {} # get flow statistics container_data['flow'] = cs.statistics.get_flow_statistics( container_name) # get port statistics container_data['port'] = cs.statistics.get_port_statistics( container_name) # get table statistics container_data['table'] = cs.statistics.get_table_statistics( container_name) # get topology container_data['topology'] = cs.topology.get_topology( container_name) # get switch information container_data['switch'] = cs.switch_manager.get_nodes( container_name) # get and optimize user links # e.g. # before: # "OF|2@OF|00:00:00:00:00:00:00:02" # after: # { # 'port': { # 'type': 'OF', # 'id': '2'}, # 'node': { # 'type': 'OF', # 'id': '00:00:00:00:00:00:00:02' # } # } user_links_raw = cs.topology.get_user_links(container_name) user_links = [] container_data['user_links'] = user_links for user_link_row in user_links_raw['userLinks']: user_link = {} for k, v in six.iteritems(user_link_row): if (k == "dstNodeConnector" or k == "srcNodeConnector"): port_raw, node_raw = v.split('@') port = {} port['type'], port['id'] = port_raw.split('|') node = {} node['type'], node['id'] = node_raw.split('|') v = {'port': port, 'node': node} user_link[k] = v user_links.append(user_link) # get link status to hosts container_data['active_hosts'] = ( cs.host_tracker.get_active_hosts(container_name)) container_data['inactive_hosts'] = ( cs.host_tracker.get_inactive_hosts(container_name)) data[container_name] = container_data except Exception: LOG.exception('Request failed to connect to OpenDaylight' ' with NorthBound REST API') cache['network.statistics.opendaylight'] = data return data
[docs] def get_sample_data(self, meter_name, parse_url, params, cache): extractor = self._get_extractor(meter_name) if extractor is None: # The way to getting meter is not implemented in this driver or # OpenDaylight REST API has not api to getting meter. return None iter = self._get_iter(meter_name) if iter is None: # The way to getting meter is not implemented in this driver or # OpenDaylight REST API has not api to getting meter. return None parts = urlparse.ParseResult(params.get('scheme', ['http'])[0], parse_url.netloc, parse_url.path, None, None, None) endpoint = urlparse.urlunparse(parts) data = self._prepare_cache(endpoint, params, cache) samples = [] for name, value in six.iteritems(data): for sample in iter(extractor, value): if sample is not None: # set controller name and container name # to resource_metadata sample[2]['controller'] = 'OpenDaylight' sample[2]['container'] = name samples.append(sample + (None, )) return samples
def _get_iter(self, meter_name): if meter_name == 'switch': return self._iter_switch elif meter_name.startswith('switch.flow'): return self._iter_flow elif meter_name.startswith('switch.table'): return self._iter_table elif meter_name.startswith('switch.port'): return self._iter_port def _get_extractor(self, meter_name): method_name = '_' + meter_name.replace('.', '_') return getattr(self, method_name, None) @staticmethod def _iter_switch(extractor, data): for switch in data['switch']['nodeProperties']: yield extractor(switch, switch['node']['id'], {}) @staticmethod def _switch(statistic, resource_id, resource_meta): resource_meta.update(_get_properties(statistic.get('properties'))) return 1, resource_id, resource_meta @staticmethod def _iter_port(extractor, data): for port_statistic in data['port']['portStatistics']: for statistic in port_statistic['portStatistic']: resource_meta = {'port': statistic['nodeConnector']['id']} yield extractor(statistic, port_statistic['node']['id'], resource_meta, data) @staticmethod def _switch_port(statistic, resource_id, resource_meta, data): my_node_id = resource_id my_port_id = statistic['nodeConnector']['id'] # link status from topology edge_properties = data['topology']['edgeProperties'] for edge_property in edge_properties: edge = edge_property['edge'] if (edge['headNodeConnector']['node']['id'] == my_node_id and edge['headNodeConnector']['id'] == my_port_id): target_node = edge['tailNodeConnector'] elif (edge['tailNodeConnector']['node']['id'] == my_node_id and edge['tailNodeConnector']['id'] == my_port_id): target_node = edge['headNodeConnector'] else: continue resource_meta['topology_node_id'] = target_node['node']['id'] resource_meta['topology_node_port'] = target_node['id'] resource_meta.update(_get_properties( edge_property.get('properties'), prefix='topology')) break # link status from user links for user_link in data['user_links']: if (user_link['dstNodeConnector']['node']['id'] == my_node_id and user_link['dstNodeConnector']['port']['id'] == my_port_id): target_node = user_link['srcNodeConnector'] elif (user_link['srcNodeConnector']['node']['id'] == my_node_id and user_link['srcNodeConnector']['port']['id'] == my_port_id): target_node = user_link['dstNodeConnector'] else: continue resource_meta['user_link_node_id'] = target_node['node']['id'] resource_meta['user_link_node_port'] = target_node['port']['id'] resource_meta['user_link_status'] = user_link['status'] resource_meta['user_link_name'] = user_link['name'] break # link status to hosts for hosts, status in moves.zip( [data['active_hosts'], data['inactive_hosts']], ['active', 'inactive']): for host_config in hosts['hostConfig']: if (host_config['nodeId'] != my_node_id or host_config['nodeConnectorId'] != my_port_id): continue resource_meta['host_status'] = status for key in ['dataLayerAddress', 'vlan', 'staticHost', 'networkAddress']: if key in host_config: resource_meta['host_' + key] = host_config[key] break return 1, resource_id, resource_meta @staticmethod def _switch_port_receive_packets(statistic, resource_id, resource_meta, data): return _get_int_sample('receivePackets', statistic, resource_id, resource_meta) @staticmethod def _switch_port_transmit_packets(statistic, resource_id, resource_meta, data): return _get_int_sample('transmitPackets', statistic, resource_id, resource_meta) @staticmethod def _switch_port_receive_bytes(statistic, resource_id, resource_meta, data): return _get_int_sample('receiveBytes', statistic, resource_id, resource_meta) @staticmethod def _switch_port_transmit_bytes(statistic, resource_id, resource_meta, data): return _get_int_sample('transmitBytes', statistic, resource_id, resource_meta) @staticmethod def _switch_port_receive_drops(statistic, resource_id, resource_meta, data): return _get_int_sample('receiveDrops', statistic, resource_id, resource_meta) @staticmethod def _switch_port_transmit_drops(statistic, resource_id, resource_meta, data): return _get_int_sample('transmitDrops', statistic, resource_id, resource_meta) @staticmethod def _switch_port_receive_errors(statistic, resource_id, resource_meta, data): return _get_int_sample('receiveErrors', statistic, resource_id, resource_meta) @staticmethod def _switch_port_transmit_errors(statistic, resource_id, resource_meta, data): return _get_int_sample('transmitErrors', statistic, resource_id, resource_meta) @staticmethod def _switch_port_receive_frame_error(statistic, resource_id, resource_meta, data): return _get_int_sample('receiveFrameError', statistic, resource_id, resource_meta) @staticmethod def _switch_port_receive_overrun_error(statistic, resource_id, resource_meta, data): return _get_int_sample('receiveOverRunError', statistic, resource_id, resource_meta) @staticmethod def _switch_port_receive_crc_error(statistic, resource_id, resource_meta, data): return _get_int_sample('receiveCrcError', statistic, resource_id, resource_meta) @staticmethod def _switch_port_collision_count(statistic, resource_id, resource_meta, data): return _get_int_sample('collisionCount', statistic, resource_id, resource_meta) @staticmethod def _iter_table(extractor, data): for table_statistic in data['table']['tableStatistics']: for statistic in table_statistic['tableStatistic']: resource_meta = {'table_id': statistic['nodeTable']['id']} yield extractor(statistic, table_statistic['node']['id'], resource_meta) @staticmethod def _switch_table(statistic, resource_id, resource_meta): return 1, resource_id, resource_meta @staticmethod def _switch_table_active_entries(statistic, resource_id, resource_meta): return _get_int_sample('activeCount', statistic, resource_id, resource_meta) @staticmethod def _switch_table_lookup_packets(statistic, resource_id, resource_meta): return _get_int_sample('lookupCount', statistic, resource_id, resource_meta) @staticmethod def _switch_table_matched_packets(statistic, resource_id, resource_meta): return _get_int_sample('matchedCount', statistic, resource_id, resource_meta) @staticmethod def _iter_flow(extractor, data): for flow_statistic in data['flow']['flowStatistics']: for statistic in flow_statistic['flowStatistic']: resource_meta = {'flow_id': statistic['flow']['id'], 'table_id': statistic['tableId']} for key, value in utils.dict_to_keyval(statistic['flow'], 'flow'): resource_meta[key.replace('.', '_')] = value yield extractor(statistic, flow_statistic['node']['id'], resource_meta) @staticmethod def _switch_flow(statistic, resource_id, resource_meta): return 1, resource_id, resource_meta @staticmethod def _switch_flow_duration_seconds(statistic, resource_id, resource_meta): return _get_int_sample('durationSeconds', statistic, resource_id, resource_meta) @staticmethod def _switch_flow_duration_nanoseconds(statistic, resource_id, resource_meta): return _get_int_sample('durationNanoseconds', statistic, resource_id, resource_meta) @staticmethod def _switch_flow_packets(statistic, resource_id, resource_meta): return _get_int_sample('packetCount', statistic, resource_id, resource_meta) @staticmethod def _switch_flow_bytes(statistic, resource_id, resource_meta): return _get_int_sample('byteCount', statistic, resource_id, resource_meta)
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