python/adapters/openolt/openolt_statistics.py - voltha-openolt-adapter - Gitiles

 #
 # Copyright 2018 the original author or authors.
 #
 # 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 twisted.internet import reactor, defer
 from pyvoltha.adapters.extensions.kpi.olt.olt_pm_metrics import OltPmMetrics
 from voltha_protos.device_pb2 import PmConfig, PmConfigs, PmGroupConfig, Port


 class OpenOltStatisticsMgr(object):
     def __init__(self, openolt_device, log, platform, **kargs):

         """
         kargs are used to pass debugging flags at this time.
         :param openolt_device:
         :param log:
         :param kargs:
         """
         self.device = openolt_device
         self.log = log
         self.platform = platform
         # Northbound and Southbound ports
         # added to initialize the pm_metrics
         self.northbound_ports = self.init_ports(type="nni")
         self.southbound_ports = self.init_ports(type='pon')

         self.pm_metrics = None
         # The following can be used to allow a standalone test routine to start
         # the metrics independently
         self.metrics_init = kargs.pop("metrics_init", True)
         if self.metrics_init == True:
             self.init_pm_metrics()

     def init_pm_metrics(self):
         # Setup PM configuration for this device
         if self.pm_metrics is None:
             try:
                 self.device.reason = 'setting up Performance Monitoring configuration'
                 kwargs = {
                     'nni-ports': self.northbound_ports.values(),
                     'pon-ports': self.southbound_ports.values()
                 }
                 self.pm_metrics = OltPmMetrics(self.device.core_proxy, self.device.device_id,
                                                self.device.logical_device_id, self.device.serial_number,
                                                grouped=True, freq_override=False,
                                                **kwargs)
                 """
                     override the default naming structures in the OltPmMetrics class.
                     This is being done until the protos can be modified in the BAL driver

                 """
                 self.pm_metrics.nni_pm_names = (self.get_openolt_port_pm_names())['nni_pm_names']
                 self.pm_metrics.nni_metrics_config = {m: PmConfig(name=m, type=t, enabled=True)
                                                  for (m, t) in self.pm_metrics.nni_pm_names}

                 self.pm_metrics.pon_pm_names = (self.get_openolt_port_pm_names())['pon_pm_names']
                 self.pm_metrics.pon_metrics_config = {m: PmConfig(name=m, type=t, enabled=True)
                                                  for (m, t) in self.pm_metrics.pon_pm_names}
                 pm_config = self.pm_metrics.make_proto()
                 self.log.info("initial-pm-config", pm_config=pm_config)
                 self.device.core_proxy.device_pm_config_update(pm_config, init=True)
                 # Start collecting stats from the device after a brief pause
                 reactor.callLater(10, self.pm_metrics.start_collector)
             except Exception as e:
                 self.log.exception('pm-setup', e=e)

     def port_statistics_indication(self, port_stats):
         # self.log.info('port-stats-collected', stats=port_stats)
         self.ports_statistics_kpis(port_stats)
         #FIXME: etcd problem, do not update objects for now

         #
         #
         # #FIXME : only the first uplink is a logical port
         # if platform.intf_id_to_port_type_name(port_stats.intf_id) ==
         #   Port.ETHERNET_NNI:
         #     # ONOS update
         #     self.update_logical_port_stats(port_stats)
         # # update port object stats
         # port = self.device.core_proxy.get_port(self.device.device_id,
         #     port_no=port_stats.intf_id)
         #
         # if port is None:
         #     self.log.warn('port associated with this stats does not exist')
         #     return
         #
         # port.rx_packets = port_stats.rx_packets
         # port.rx_bytes = port_stats.rx_bytes
         # port.rx_errors = port_stats.rx_error_packets
         # port.tx_packets = port_stats.tx_packets
         # port.tx_bytes = port_stats.tx_bytes
         # port.tx_errors = port_stats.tx_error_packets
         #
         # # Add port does an update if port exists
         # self.device.core_proxy.add_port(self.device.device_id, port)

     def flow_statistics_indication(self, flow_stats):
         self.log.info('flow-stats-collected', stats=flow_stats)
         # TODO: send to kafka ?
         # FIXME: etcd problem, do not update objects for now
         # # UNTESTED : the openolt driver does not yet provide flow stats
         # self.device.core_proxy.update_flow_stats(
         #       self.device.logical_device_id,
         #       flow_id=flow_stats.flow_id, packet_count=flow_stats.tx_packets,
         #       byte_count=flow_stats.tx_bytes)

     def ports_statistics_kpis(self, port_stats):
         """
         map the port stats values into a dictionary
         Create a kpoEvent and publish to Kafka

         :param port_stats:
         :return:
         """

         try:
             intf_id = port_stats.intf_id

             if self.platform.intf_id_to_port_no(0, Port.ETHERNET_NNI) < intf_id < \
                     self.platform.intf_id_to_port_no(4, Port.ETHERNET_NNI) :
                 """
                 for this release we are only interested in the first NNI for
                 Northbound.
                 we are not using the other 3
                 """
                 return
             else:

                 pm_data = {}
                 pm_data["rx_bytes"] = port_stats.rx_bytes
                 pm_data["rx_packets"] = port_stats.rx_packets
                 pm_data["rx_ucast_packets"] = port_stats.rx_ucast_packets
                 pm_data["rx_mcast_packets"] = port_stats.rx_mcast_packets
                 pm_data["rx_bcast_packets"] = port_stats.rx_bcast_packets
                 pm_data["rx_error_packets"] = port_stats.rx_error_packets
                 pm_data["tx_bytes"] = port_stats.tx_bytes
                 pm_data["tx_packets"] = port_stats.tx_packets
                 pm_data["tx_ucast_packets"] = port_stats.tx_ucast_packets
                 pm_data["tx_mcast_packets"] = port_stats.tx_mcast_packets
                 pm_data["tx_bcast_packets"] = port_stats.tx_bcast_packets
                 pm_data["tx_error_packets"] = port_stats.tx_error_packets
                 pm_data["rx_crc_errors"] = port_stats.rx_crc_errors
                 pm_data["bip_errors"] = port_stats.bip_errors

                 pm_data["intf_id"] = intf_id

                 """
                    Based upon the intf_id map to an nni port or a pon port
                     the intf_id is the key to the north or south bound collections

                     Based upon the intf_id the port object (nni_port or pon_port) will
                     have its data attr. updated by the current dataset collected.

                     For prefixing the rule is currently to use the port number and not the intf_id

                 """
                 #FIXME : Just use first NNI for now
                 if intf_id == self.platform.intf_id_to_port_no(0,
                                                           Port.ETHERNET_NNI):
                     #NNI port (just the first one)
                     self.update_port_object_kpi_data(
                         port_object=self.northbound_ports[port_stats.intf_id], datadict=pm_data)
                 else:
                     #PON ports
                     self.update_port_object_kpi_data(
                         port_object=self.southbound_ports[port_stats.intf_id],datadict=pm_data)
         except Exception as err:
             self.log.exception("Error publishing kpi statistics. ", errmessage=err)

     """
     The following 4 methods customer naming, the generation of the port objects, building of those
     objects and populating new data.   The pm metrics operate on the value that are contained in the Port objects.
     This class updates those port objects with the current data from the grpc indication and
     post the data on a fixed interval.

     """
     def get_openolt_port_pm_names(self):
         """
         This collects a dictionary of the custom port names
         used by the openolt.

         Some of these are the same as the pm names used by the olt_pm_metrics class
         if the set is the same then there is no need to call this method.   However, when
         custom names are used in the protos then the specific names should be pushed into
         the olt_pm_metrics class.

         :return:
         """
         nni_pm_names = {
             ('intf_id', PmConfig.CONTEXT),  # Physical device interface ID/Port number

             ('admin_state', PmConfig.STATE),
             ('oper_status', PmConfig.STATE),
             ('port_no', PmConfig.GAUGE),
             ('rx_bytes', PmConfig.COUNTER),
             ('rx_packets', PmConfig.COUNTER),
             ('rx_ucast_packets', PmConfig.COUNTER),
             ('rx_mcast_packets', PmConfig.COUNTER),
             ('rx_bcast_packets', PmConfig.COUNTER),
             ('rx_error_packets', PmConfig.COUNTER),
             ('tx_bytes', PmConfig.COUNTER),
             ('tx_packets', PmConfig.COUNTER),
             ('tx_ucast_packets', PmConfig.COUNTER),
             ('tx_mcast_packets', PmConfig.COUNTER),
             ('tx_bcast_packets', PmConfig.COUNTER),
             ('tx_error_packets', PmConfig.COUNTER)
         }
         nni_pm_names_from_kpi_extension = {
             ('intf_id', PmConfig.CONTEXT),  # Physical device interface ID/Port number

             ('admin_state', PmConfig.STATE),
             ('oper_status', PmConfig.STATE),

             ('rx_bytes', PmConfig.COUNTER),
             ('rx_packets', PmConfig.COUNTER),
             ('rx_ucast_packets', PmConfig.COUNTER),
             ('rx_mcast_packets', PmConfig.COUNTER),
             ('rx_bcast_packets', PmConfig.COUNTER),
             ('rx_error_packets', PmConfig.COUNTER),

             ('tx_bytes', PmConfig.COUNTER),
             ('tx_packets', PmConfig.COUNTER),
             ('tx_ucast_packets', PmConfig.COUNTER),
             ('tx_mcast_packets', PmConfig.COUNTER),
             ('tx_bcast_packets', PmConfig.COUNTER),
             ('tx_error_packets', PmConfig.COUNTER),
             ('rx_crc_errors', PmConfig.COUNTER),
             ('bip_errors', PmConfig.COUNTER),
         }

         # pon_names uses same structure as nmi_names with the addition of pon_id to context
         pon_pm_names = {
             ('pon_id', PmConfig.CONTEXT),  # PON ID (0..n)
             ('port_no', PmConfig.CONTEXT),

             ('admin_state', PmConfig.STATE),
             ('oper_status', PmConfig.STATE),
             ('rx_bytes', PmConfig.COUNTER),
             ('rx_packets', PmConfig.COUNTER),
             ('rx_ucast_packets', PmConfig.COUNTER),
             ('rx_mcast_packets', PmConfig.COUNTER),
             ('rx_bcast_packets', PmConfig.COUNTER),
             ('rx_error_packets', PmConfig.COUNTER),
             ('tx_bytes', PmConfig.COUNTER),
             ('tx_packets', PmConfig.COUNTER),
             ('tx_ucast_packets', PmConfig.COUNTER),
             ('tx_mcast_packets', PmConfig.COUNTER),
             ('tx_bcast_packets', PmConfig.COUNTER),
             ('tx_error_packets', PmConfig.COUNTER)
         }
         pon_pm_names_from_kpi_extension = {
             ('intf_id', PmConfig.CONTEXT),        # Physical device port number (PON)
             ('pon_id', PmConfig.CONTEXT),         # PON ID (0..n)

             ('admin_state', PmConfig.STATE),
             ('oper_status', PmConfig.STATE),
             ('rx_packets', PmConfig.COUNTER),
             ('rx_bytes', PmConfig.COUNTER),
             ('tx_packets', PmConfig.COUNTER),
             ('tx_bytes', PmConfig.COUNTER),
             ('tx_bip_errors', PmConfig.COUNTER),
             ('in_service_onus', PmConfig.GAUGE),
             ('closest_onu_distance', PmConfig.GAUGE)
         }
         onu_pm_names = {
             ('intf_id', PmConfig.CONTEXT),        # Physical device port number (PON)
             ('pon_id', PmConfig.CONTEXT),
             ('onu_id', PmConfig.CONTEXT),

             ('fiber_length', PmConfig.GAUGE),
             ('equalization_delay', PmConfig.GAUGE),
             ('rssi', PmConfig.GAUGE),
         }
         gem_pm_names = {
             ('intf_id', PmConfig.CONTEXT),        # Physical device port number (PON)
             ('pon_id', PmConfig.CONTEXT),
             ('onu_id', PmConfig.CONTEXT),
             ('gem_id', PmConfig.CONTEXT),

             ('alloc_id', PmConfig.GAUGE),
             ('rx_packets', PmConfig.COUNTER),
             ('rx_bytes', PmConfig.COUNTER),
             ('tx_packets', PmConfig.COUNTER),
             ('tx_bytes', PmConfig.COUNTER),
         }
         # Build a dict for the names.  The caller will index to the correct values
         names_dict = {"nni_pm_names": nni_pm_names,
                       "pon_pm_names": pon_pm_names,
                       "pon_pm_names_orig": pon_pm_names_from_kpi_extension,
                       "onu_pm_names": onu_pm_names,
                       "gem_pm_names": gem_pm_names,

                       }

         return names_dict

     def init_ports(self,  device_id=12345, type="nni", log=None):
         """
         This method collects the port objects:  nni and pon that are updated with the
         current data from the OLT

         Both the northbound (nni) and southbound ports are indexed by the interface id (intf_id)
         and NOT the port number. When the port object is instantiated it will contain the intf_id and
         port_no values

         :param type:
         :param device_id:
         :param log:
         :return:
         """
         try:
             if type == "nni":
                 nni_ports = {}
                 for i in range(0, 1):
                     nni_port = self.build_port_object(i, type='nni')
                     nni_ports[nni_port.intf_id] = nni_port
                 return nni_ports
             elif type == "pon":
                 pon_ports = {}
                 for i in range(0, 16):
                     pon_port = self.build_port_object(i, type="pon")
                     pon_ports[pon_port.intf_id] = pon_port
                 return pon_ports
             else:
                 self.log.exception("Unmapped port type requested = " , type=type)
                 raise Exception("Unmapped port type requested = " + type)

         except Exception as err:
             raise Exception(err)

     def build_port_object(self, port_num, type="nni"):
         """
         Seperate method to allow for updating north and southbound ports
         newly discovered ports and devices

         :param port_num:
         :param type:
         :return:
         """
         try:
             """
              This builds a port object which is added to the
              appropriate northbound or southbound values
             """
             if type == "nni":
                 kwargs = {
                     'port_no': port_num,
                     'intf_id': self.platform.intf_id_to_port_no(port_num,
                                                            Port.ETHERNET_NNI),
                     "device_id": self.device.device_id
                 }
                 nni_port = NniPort
                 port = nni_port( **kwargs)
                 return port
             elif type == "pon":
                 # PON ports require a different configuration
                 #  intf_id and pon_id are currently equal.
                 kwargs = {
                     'port_no': port_num,
                     'intf_id':  self.platform.intf_id_to_port_no(port_num,
                                                            Port.PON_OLT),
                     'pon-id':  self.platform.intf_id_to_port_no(port_num,
                                                            Port.PON_OLT),
                     "device_id": self.device.device_id
                 }
                 pon_port = PonPort
                 port = pon_port(**kwargs)
                 return port

             else:
                 self.log.exception("Unknown port type")
                 raise Exception("Unknown port type")

         except Exception as err:
             self.log.exception("Unknown port type", error=err)
             raise Exception(err)

     def update_port_object_kpi_data(self, port_object, datadict={}):
         """
         This method takes the formatted data the is marshalled from
         the initicator collector and updates the corresponding property by
         attr get and set.

         :param port: The port class to be updated
         :param datadict:
         :return:
         """

         try:
             cur_attr = ""
             if isinstance(port_object, NniPort):
                 for k, v in datadict.items():
                     cur_attr = k
                     if hasattr(port_object, k):
                         setattr(port_object, k, v)
             elif isinstance(port_object, PonPort):
                 for k, v in datadict.items():
                     cur_attr = k
                     if hasattr(port_object, k):
                         setattr(port_object, k, v)
             else:
                 raise Exception("Must be either PON or NNI port.")
             return
         except Exception as err:
             self.log.exception("Caught error updating port data: ", cur_attr=cur_attr, errormsg=err.message)
             raise Exception(err)


 class PonPort(object):
     """
     This is a highly reduced version taken from the adtran pon_port.
     TODO: Extend for use in the openolt adapter set.
     """
     MAX_ONUS_SUPPORTED = 256
     DEFAULT_ENABLED = False
     MAX_DEPLOYMENT_RANGE = 25000  # Meters (OLT-PB maximum)

     _MCAST_ONU_ID = 253
     _MCAST_ALLOC_BASE = 0x500

     _SUPPORTED_ACTIVATION_METHODS = ['autodiscovery']  # , 'autoactivate']
     _SUPPORTED_AUTHENTICATION_METHODS = ['serial-number']

     def __init__(self, **kwargs):
         assert 'pon-id' in kwargs, 'PON ID not found'

         self._pon_id = kwargs['pon-id']
         self._device_id = kwargs['device_id']
         self._intf_id = kwargs['intf_id']
         self._port_no = kwargs['port_no']
         self._port_id = 0
         # self._name = 'xpon 0/{}'.format(self._pon_id+1)
         self._label = 'pon-{}'.format(self._pon_id)

         self._onus = {}  # serial_number-base64 -> ONU  (allowed list)
         self._onu_by_id = {}  # onu-id -> ONU

         """
         Statistics  taken from nni_port
         self.intf_id = 0  #handled by getter
         self.port_no = 0  #handled by getter
         self.port_id = 0  #handled by getter

         Note:  In the current implementation of the kpis coming from the BAL the stats are the
         samne model for NNI and PON.

         TODO:   Integrate additional kpis for the PON and other southbound port objecgts.

         """

         self.rx_bytes = 0
         self.rx_packets = 0
         self.rx_mcast_packets = 0
         self.rx_bcast_packets = 0
         self.rx_error_packets = 0
         self.tx_bytes = 0
         self.tx_packets = 0
         self.tx_ucast_packets = 0
         self.tx_mcast_packets = 0
         self.tx_bcast_packets = 0
         self.tx_error_packets = 0
         return

     def __str__(self):
         return "PonPort-{}: Admin: {}, Oper: {}, OLT: {}".format(self._label,
                                                                  self._admin_state,
                                                                  self._oper_status,
                                                                  self.olt)

     @property
     def intf_id(self):
         return self._intf_id

     @intf_id.setter
     def intf_id(self, value):
         self._intf_id = value

     @property
     def pon_id(self):
         return self._pon_id

     @pon_id.setter
     def pon_id(self, value):
         self._pon_id = value

     @property
     def port_no(self):
         return self._port_no

     @port_no.setter
     def port_no(self, value):
         self._port_no = value

     @property
     def port_id(self):
         return self._port_id

     @intf_id.setter
     def port_id(self, value):
         self._port_id = value

     @property
     def onus(self):
         """
         Get a set of all ONUs.  While the set is immutable, do not use this method
         to get a collection that you will iterate through that my yield the CPU
         such as inline callback.  ONUs may be deleted at any time and they will
         set some references to other objects to NULL during the 'delete' call.
         Instead, get a list of ONU-IDs and iterate on these and call the 'onu'
         method below (which will return 'None' if the ONU has been deleted.

         :return: (frozenset) collection of ONU objects on this PON
         """
         return frozenset(self._onus.values())

     @property
     def onu_ids(self):
         return frozenset(self._onu_by_id.keys())

     def onu(self, onu_id):
         return self._onu_by_id.get(onu_id)


 class NniPort(object):
     """
     Northbound network port, often Ethernet-based

     This is a highly reduced version taken from the adtran nni_port code set
     TODO:   add functions to allow for port specific values and operations

     """
     def __init__(self, **kwargs):
         # TODO: Extend for use in the openolt adapter set.
         self.port_no = kwargs.get('port_no')
         self._port_no = self.port_no
         self._name = kwargs.get('name', 'nni-{}'.format(self._port_no))
         self._logical_port = None

         # Statistics
         self.intf_id = kwargs.pop('intf_id', None)
         self.port_no = 0
         self.rx_bytes = 0
         self.rx_packets = 0
         self.rx_mcast_packets = 0
         self.rx_bcast_packets = 0
         self.rx_error_packets = 0
         self.tx_bytes = 0
         self.tx_packets = 0
         self.tx_ucast_packets = 0
         self.tx_mcast_packets = 0
         self.tx_bcast_packets = 0
         self.tx_error_packets = 0
         return

     def __str__(self):
         return "NniPort-{}: Admin: {}, Oper: {}, parent: {}".format(self._port_no,
                                                                     self._admin_state,
                                                                     self._oper_status,
                                                                     self._parent)
	#
	# Copyright 2018 the original author or authors.
	#
	# 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 twisted.internet import reactor, defer
	from pyvoltha.adapters.extensions.kpi.olt.olt_pm_metrics import OltPmMetrics
	from voltha_protos.device_pb2 import PmConfig, PmConfigs, PmGroupConfig, Port


	class OpenOltStatisticsMgr(object):
	def __init__(self, openolt_device, log, platform, **kargs):

	"""
	kargs are used to pass debugging flags at this time.
	:param openolt_device:
	:param log:
	:param kargs:
	"""
	self.device = openolt_device
	self.log = log
	self.platform = platform
	# Northbound and Southbound ports
	# added to initialize the pm_metrics
	self.northbound_ports = self.init_ports(type="nni")
	self.southbound_ports = self.init_ports(type='pon')

	self.pm_metrics = None
	# The following can be used to allow a standalone test routine to start
	# the metrics independently
	self.metrics_init = kargs.pop("metrics_init", True)
	if self.metrics_init == True:
	self.init_pm_metrics()

	def init_pm_metrics(self):
	# Setup PM configuration for this device
	if self.pm_metrics is None:
	try:
	self.device.reason = 'setting up Performance Monitoring configuration'
	kwargs = {
	'nni-ports': self.northbound_ports.values(),
	'pon-ports': self.southbound_ports.values()
	}
	self.pm_metrics = OltPmMetrics(self.device.core_proxy, self.device.device_id,
	self.device.logical_device_id, self.device.serial_number,
	grouped=True, freq_override=False,
	**kwargs)
	"""
	override the default naming structures in the OltPmMetrics class.
	This is being done until the protos can be modified in the BAL driver

	"""
	self.pm_metrics.nni_pm_names = (self.get_openolt_port_pm_names())['nni_pm_names']
	self.pm_metrics.nni_metrics_config = {m: PmConfig(name=m, type=t, enabled=True)
	for (m, t) in self.pm_metrics.nni_pm_names}

	self.pm_metrics.pon_pm_names = (self.get_openolt_port_pm_names())['pon_pm_names']
	self.pm_metrics.pon_metrics_config = {m: PmConfig(name=m, type=t, enabled=True)
	for (m, t) in self.pm_metrics.pon_pm_names}
	pm_config = self.pm_metrics.make_proto()
	self.log.info("initial-pm-config", pm_config=pm_config)
	self.device.core_proxy.device_pm_config_update(pm_config, init=True)
	# Start collecting stats from the device after a brief pause
	reactor.callLater(10, self.pm_metrics.start_collector)
	except Exception as e:
	self.log.exception('pm-setup', e=e)

	def port_statistics_indication(self, port_stats):
	# self.log.info('port-stats-collected', stats=port_stats)
	self.ports_statistics_kpis(port_stats)
	#FIXME: etcd problem, do not update objects for now

	#
	#
	# #FIXME : only the first uplink is a logical port
	# if platform.intf_id_to_port_type_name(port_stats.intf_id) ==
	# Port.ETHERNET_NNI:
	# # ONOS update
	# self.update_logical_port_stats(port_stats)
	# # update port object stats
	# port = self.device.core_proxy.get_port(self.device.device_id,
	# port_no=port_stats.intf_id)
	#
	# if port is None:
	# self.log.warn('port associated with this stats does not exist')
	# return
	#
	# port.rx_packets = port_stats.rx_packets
	# port.rx_bytes = port_stats.rx_bytes
	# port.rx_errors = port_stats.rx_error_packets
	# port.tx_packets = port_stats.tx_packets
	# port.tx_bytes = port_stats.tx_bytes
	# port.tx_errors = port_stats.tx_error_packets
	#
	# # Add port does an update if port exists
	# self.device.core_proxy.add_port(self.device.device_id, port)

	def flow_statistics_indication(self, flow_stats):
	self.log.info('flow-stats-collected', stats=flow_stats)
	# TODO: send to kafka ?
	# FIXME: etcd problem, do not update objects for now
	# # UNTESTED : the openolt driver does not yet provide flow stats
	# self.device.core_proxy.update_flow_stats(
	# self.device.logical_device_id,
	# flow_id=flow_stats.flow_id, packet_count=flow_stats.tx_packets,
	# byte_count=flow_stats.tx_bytes)

	def ports_statistics_kpis(self, port_stats):
	"""
	map the port stats values into a dictionary
	Create a kpoEvent and publish to Kafka

	:param port_stats:
	:return:
	"""

	try:
	intf_id = port_stats.intf_id

	if self.platform.intf_id_to_port_no(0, Port.ETHERNET_NNI) < intf_id < \
	self.platform.intf_id_to_port_no(4, Port.ETHERNET_NNI) :
	"""
	for this release we are only interested in the first NNI for
	Northbound.
	we are not using the other 3
	"""
	return
	else:

	pm_data = {}
	pm_data["rx_bytes"] = port_stats.rx_bytes
	pm_data["rx_packets"] = port_stats.rx_packets
	pm_data["rx_ucast_packets"] = port_stats.rx_ucast_packets
	pm_data["rx_mcast_packets"] = port_stats.rx_mcast_packets
	pm_data["rx_bcast_packets"] = port_stats.rx_bcast_packets
	pm_data["rx_error_packets"] = port_stats.rx_error_packets
	pm_data["tx_bytes"] = port_stats.tx_bytes
	pm_data["tx_packets"] = port_stats.tx_packets
	pm_data["tx_ucast_packets"] = port_stats.tx_ucast_packets
	pm_data["tx_mcast_packets"] = port_stats.tx_mcast_packets
	pm_data["tx_bcast_packets"] = port_stats.tx_bcast_packets
	pm_data["tx_error_packets"] = port_stats.tx_error_packets
	pm_data["rx_crc_errors"] = port_stats.rx_crc_errors
	pm_data["bip_errors"] = port_stats.bip_errors

	pm_data["intf_id"] = intf_id

	"""
	Based upon the intf_id map to an nni port or a pon port
	the intf_id is the key to the north or south bound collections

	Based upon the intf_id the port object (nni_port or pon_port) will
	have its data attr. updated by the current dataset collected.

	For prefixing the rule is currently to use the port number and not the intf_id

	"""
	#FIXME : Just use first NNI for now
	if intf_id == self.platform.intf_id_to_port_no(0,
	Port.ETHERNET_NNI):
	#NNI port (just the first one)
	self.update_port_object_kpi_data(
	port_object=self.northbound_ports[port_stats.intf_id], datadict=pm_data)
	else:
	#PON ports
	self.update_port_object_kpi_data(
	port_object=self.southbound_ports[port_stats.intf_id],datadict=pm_data)
	except Exception as err:
	self.log.exception("Error publishing kpi statistics. ", errmessage=err)

	"""
	The following 4 methods customer naming, the generation of the port objects, building of those
	objects and populating new data. The pm metrics operate on the value that are contained in the Port objects.
	This class updates those port objects with the current data from the grpc indication and
	post the data on a fixed interval.

	"""
	def get_openolt_port_pm_names(self):
	"""
	This collects a dictionary of the custom port names
	used by the openolt.

	Some of these are the same as the pm names used by the olt_pm_metrics class
	if the set is the same then there is no need to call this method. However, when
	custom names are used in the protos then the specific names should be pushed into
	the olt_pm_metrics class.

	:return:
	"""
	nni_pm_names = {
	('intf_id', PmConfig.CONTEXT), # Physical device interface ID/Port number

	('admin_state', PmConfig.STATE),
	('oper_status', PmConfig.STATE),
	('port_no', PmConfig.GAUGE),
	('rx_bytes', PmConfig.COUNTER),
	('rx_packets', PmConfig.COUNTER),
	('rx_ucast_packets', PmConfig.COUNTER),
	('rx_mcast_packets', PmConfig.COUNTER),
	('rx_bcast_packets', PmConfig.COUNTER),
	('rx_error_packets', PmConfig.COUNTER),
	('tx_bytes', PmConfig.COUNTER),
	('tx_packets', PmConfig.COUNTER),
	('tx_ucast_packets', PmConfig.COUNTER),
	('tx_mcast_packets', PmConfig.COUNTER),
	('tx_bcast_packets', PmConfig.COUNTER),
	('tx_error_packets', PmConfig.COUNTER)
	}
	nni_pm_names_from_kpi_extension = {
	('intf_id', PmConfig.CONTEXT), # Physical device interface ID/Port number

	('admin_state', PmConfig.STATE),
	('oper_status', PmConfig.STATE),

	('rx_bytes', PmConfig.COUNTER),
	('rx_packets', PmConfig.COUNTER),
	('rx_ucast_packets', PmConfig.COUNTER),
	('rx_mcast_packets', PmConfig.COUNTER),
	('rx_bcast_packets', PmConfig.COUNTER),
	('rx_error_packets', PmConfig.COUNTER),

	('tx_bytes', PmConfig.COUNTER),
	('tx_packets', PmConfig.COUNTER),
	('tx_ucast_packets', PmConfig.COUNTER),
	('tx_mcast_packets', PmConfig.COUNTER),
	('tx_bcast_packets', PmConfig.COUNTER),
	('tx_error_packets', PmConfig.COUNTER),
	('rx_crc_errors', PmConfig.COUNTER),
	('bip_errors', PmConfig.COUNTER),
	}

	# pon_names uses same structure as nmi_names with the addition of pon_id to context
	pon_pm_names = {
	('pon_id', PmConfig.CONTEXT), # PON ID (0..n)
	('port_no', PmConfig.CONTEXT),

	('admin_state', PmConfig.STATE),
	('oper_status', PmConfig.STATE),
	('rx_bytes', PmConfig.COUNTER),
	('rx_packets', PmConfig.COUNTER),
	('rx_ucast_packets', PmConfig.COUNTER),
	('rx_mcast_packets', PmConfig.COUNTER),
	('rx_bcast_packets', PmConfig.COUNTER),
	('rx_error_packets', PmConfig.COUNTER),
	('tx_bytes', PmConfig.COUNTER),
	('tx_packets', PmConfig.COUNTER),
	('tx_ucast_packets', PmConfig.COUNTER),
	('tx_mcast_packets', PmConfig.COUNTER),
	('tx_bcast_packets', PmConfig.COUNTER),
	('tx_error_packets', PmConfig.COUNTER)
	}
	pon_pm_names_from_kpi_extension = {
	('intf_id', PmConfig.CONTEXT), # Physical device port number (PON)
	('pon_id', PmConfig.CONTEXT), # PON ID (0..n)

	('admin_state', PmConfig.STATE),
	('oper_status', PmConfig.STATE),
	('rx_packets', PmConfig.COUNTER),
	('rx_bytes', PmConfig.COUNTER),
	('tx_packets', PmConfig.COUNTER),
	('tx_bytes', PmConfig.COUNTER),
	('tx_bip_errors', PmConfig.COUNTER),
	('in_service_onus', PmConfig.GAUGE),
	('closest_onu_distance', PmConfig.GAUGE)
	}
	onu_pm_names = {
	('intf_id', PmConfig.CONTEXT), # Physical device port number (PON)
	('pon_id', PmConfig.CONTEXT),
	('onu_id', PmConfig.CONTEXT),

	('fiber_length', PmConfig.GAUGE),
	('equalization_delay', PmConfig.GAUGE),
	('rssi', PmConfig.GAUGE),
	}
	gem_pm_names = {
	('intf_id', PmConfig.CONTEXT), # Physical device port number (PON)
	('pon_id', PmConfig.CONTEXT),
	('onu_id', PmConfig.CONTEXT),
	('gem_id', PmConfig.CONTEXT),

	('alloc_id', PmConfig.GAUGE),
	('rx_packets', PmConfig.COUNTER),
	('rx_bytes', PmConfig.COUNTER),
	('tx_packets', PmConfig.COUNTER),
	('tx_bytes', PmConfig.COUNTER),
	}
	# Build a dict for the names. The caller will index to the correct values
	names_dict = {"nni_pm_names": nni_pm_names,
	"pon_pm_names": pon_pm_names,
	"pon_pm_names_orig": pon_pm_names_from_kpi_extension,
	"onu_pm_names": onu_pm_names,
	"gem_pm_names": gem_pm_names,

	}

	return names_dict

	def init_ports(self, device_id=12345, type="nni", log=None):
	"""
	This method collects the port objects: nni and pon that are updated with the
	current data from the OLT

	Both the northbound (nni) and southbound ports are indexed by the interface id (intf_id)
	and NOT the port number. When the port object is instantiated it will contain the intf_id and
	port_no values

	:param type:
	:param device_id:
	:param log:
	:return:
	"""
	try:
	if type == "nni":
	nni_ports = {}
	for i in range(0, 1):
	nni_port = self.build_port_object(i, type='nni')
	nni_ports[nni_port.intf_id] = nni_port
	return nni_ports
	elif type == "pon":
	pon_ports = {}
	for i in range(0, 16):
	pon_port = self.build_port_object(i, type="pon")
	pon_ports[pon_port.intf_id] = pon_port
	return pon_ports
	else:
	self.log.exception("Unmapped port type requested = " , type=type)
	raise Exception("Unmapped port type requested = " + type)

	except Exception as err:
	raise Exception(err)

	def build_port_object(self, port_num, type="nni"):
	"""
	Seperate method to allow for updating north and southbound ports
	newly discovered ports and devices

	:param port_num:
	:param type:
	:return:
	"""
	try:
	"""
	This builds a port object which is added to the
	appropriate northbound or southbound values
	"""
	if type == "nni":
	kwargs = {
	'port_no': port_num,
	'intf_id': self.platform.intf_id_to_port_no(port_num,
	Port.ETHERNET_NNI),
	"device_id": self.device.device_id
	}
	nni_port = NniPort
	port = nni_port( **kwargs)
	return port
	elif type == "pon":
	# PON ports require a different configuration
	# intf_id and pon_id are currently equal.
	kwargs = {
	'port_no': port_num,
	'intf_id': self.platform.intf_id_to_port_no(port_num,
	Port.PON_OLT),
	'pon-id': self.platform.intf_id_to_port_no(port_num,
	Port.PON_OLT),
	"device_id": self.device.device_id
	}
	pon_port = PonPort
	port = pon_port(**kwargs)
	return port

	else:
	self.log.exception("Unknown port type")
	raise Exception("Unknown port type")

	except Exception as err:
	self.log.exception("Unknown port type", error=err)
	raise Exception(err)

	def update_port_object_kpi_data(self, port_object, datadict={}):
	"""
	This method takes the formatted data the is marshalled from
	the initicator collector and updates the corresponding property by
	attr get and set.

	:param port: The port class to be updated
	:param datadict:
	:return:
	"""

	try:
	cur_attr = ""
	if isinstance(port_object, NniPort):
	for k, v in datadict.items():
	cur_attr = k
	if hasattr(port_object, k):
	setattr(port_object, k, v)
	elif isinstance(port_object, PonPort):
	for k, v in datadict.items():
	cur_attr = k
	if hasattr(port_object, k):
	setattr(port_object, k, v)
	else:
	raise Exception("Must be either PON or NNI port.")
	return
	except Exception as err:
	self.log.exception("Caught error updating port data: ", cur_attr=cur_attr, errormsg=err.message)
	raise Exception(err)


	class PonPort(object):
	"""
	This is a highly reduced version taken from the adtran pon_port.
	TODO: Extend for use in the openolt adapter set.
	"""
	MAX_ONUS_SUPPORTED = 256
	DEFAULT_ENABLED = False
	MAX_DEPLOYMENT_RANGE = 25000 # Meters (OLT-PB maximum)

	_MCAST_ONU_ID = 253
	_MCAST_ALLOC_BASE = 0x500

	_SUPPORTED_ACTIVATION_METHODS = ['autodiscovery'] # , 'autoactivate']
	_SUPPORTED_AUTHENTICATION_METHODS = ['serial-number']

	def __init__(self, **kwargs):
	assert 'pon-id' in kwargs, 'PON ID not found'

	self._pon_id = kwargs['pon-id']
	self._device_id = kwargs['device_id']
	self._intf_id = kwargs['intf_id']
	self._port_no = kwargs['port_no']
	self._port_id = 0
	# self._name = 'xpon 0/{}'.format(self._pon_id+1)
	self._label = 'pon-{}'.format(self._pon_id)

	self._onus = {} # serial_number-base64 -> ONU (allowed list)
	self._onu_by_id = {} # onu-id -> ONU

	"""
	Statistics taken from nni_port
	self.intf_id = 0 #handled by getter
	self.port_no = 0 #handled by getter
	self.port_id = 0 #handled by getter

	Note: In the current implementation of the kpis coming from the BAL the stats are the
	samne model for NNI and PON.

	TODO: Integrate additional kpis for the PON and other southbound port objecgts.

	"""

	self.rx_bytes = 0
	self.rx_packets = 0
	self.rx_mcast_packets = 0
	self.rx_bcast_packets = 0
	self.rx_error_packets = 0
	self.tx_bytes = 0
	self.tx_packets = 0
	self.tx_ucast_packets = 0
	self.tx_mcast_packets = 0
	self.tx_bcast_packets = 0
	self.tx_error_packets = 0
	return

	def __str__(self):
	return "PonPort-{}: Admin: {}, Oper: {}, OLT: {}".format(self._label,
	self._admin_state,
	self._oper_status,
	self.olt)

	@property
	def intf_id(self):
	return self._intf_id

	@intf_id.setter
	def intf_id(self, value):
	self._intf_id = value

	@property
	def pon_id(self):
	return self._pon_id

	@pon_id.setter
	def pon_id(self, value):
	self._pon_id = value

	@property
	def port_no(self):
	return self._port_no

	@port_no.setter
	def port_no(self, value):
	self._port_no = value

	@property
	def port_id(self):
	return self._port_id

	@intf_id.setter
	def port_id(self, value):
	self._port_id = value

	@property
	def onus(self):
	"""
	Get a set of all ONUs. While the set is immutable, do not use this method
	to get a collection that you will iterate through that my yield the CPU
	such as inline callback. ONUs may be deleted at any time and they will
	set some references to other objects to NULL during the 'delete' call.
	Instead, get a list of ONU-IDs and iterate on these and call the 'onu'
	method below (which will return 'None' if the ONU has been deleted.

	:return: (frozenset) collection of ONU objects on this PON
	"""
	return frozenset(self._onus.values())

	@property
	def onu_ids(self):
	return frozenset(self._onu_by_id.keys())

	def onu(self, onu_id):
	return self._onu_by_id.get(onu_id)


	class NniPort(object):
	"""
	Northbound network port, often Ethernet-based

	This is a highly reduced version taken from the adtran nni_port code set
	TODO: add functions to allow for port specific values and operations

	"""
	def __init__(self, **kwargs):
	# TODO: Extend for use in the openolt adapter set.
	self.port_no = kwargs.get('port_no')
	self._port_no = self.port_no
	self._name = kwargs.get('name', 'nni-{}'.format(self._port_no))
	self._logical_port = None

	# Statistics
	self.intf_id = kwargs.pop('intf_id', None)
	self.port_no = 0
	self.rx_bytes = 0
	self.rx_packets = 0
	self.rx_mcast_packets = 0
	self.rx_bcast_packets = 0
	self.rx_error_packets = 0
	self.tx_bytes = 0
	self.tx_packets = 0
	self.tx_ucast_packets = 0
	self.tx_mcast_packets = 0
	self.tx_bcast_packets = 0
	self.tx_error_packets = 0
	return

	def __str__(self):
	return "NniPort-{}: Admin: {}, Oper: {}, parent: {}".format(self._port_no,
	self._admin_state,
	self._oper_status,
	self._parent)