adapters/adtran_common/flow/mcast.py - voltha-adtran-adapter - Gitiles

 # Copyright 2017-present Adtran, Inc.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 # http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 from pyvoltha.common.openflow.utils import *
 from evc import EVC
 from flow_entry import FlowEntry
 from twisted.internet import defer
 from twisted.internet.defer import returnValue, inlineCallbacks

 log = structlog.get_logger()

 EVC_NAME_FORMAT = 'VOLTHA-MCAST-{}'                      # format(flow.vlan_id)
 EVC_NAME_REGEX_ALL = EVC_NAME_FORMAT.format('*')


 _mcast_evcs = {}  # device-id -> flow dictionary
                   #                  |
                   #                  +-> vlan-id -> evcs


 class MCastEVC(EVC):
     """
     Class to wrap Multicast EVC and EVC-MAP functionality
     """
     def __init__(self, flow_entry):
         super(MCastEVC, self).__init__(flow_entry)
         self._downstream_flows = {flow_entry.flow_id}     # Matching Downstream Flow IDs

     def __str__(self):
         return "MCAST-{}: MEN: {}, VLAN: {}".format(self._name, self._men_ports, self._s_tag)

     def _create_name(self):
         #
         # TODO: Take into account selection criteria and output to make the name
         #
         return EVC_NAME_FORMAT.format(self._flow.vlan_id)

     def _create_evc_map(self, flow_entry):
         from evc_map import EVCMap
         flow = FakeUpstreamFlow(flow_entry.flow, flow_entry.handler)
         return EVCMap.create_ingress_map(flow, self)

     @staticmethod
     def create(flow_entry):
         from evc_map import EVCMap

         device_id = flow_entry.device_id
         if device_id not in _mcast_evcs:
             _mcast_evcs[device_id] = {}

         evc_table = _mcast_evcs[device_id]

         try:
             evc = evc_table.get(flow_entry.vlan_id)

             if evc is None:
                 # Create EVC and initial EVC Map
                 evc = MCastEVC(flow_entry)
                 evc_table[flow_entry.vlan_id] = evc
             else:
                 if flow_entry.flow_id in evc.downstream_flows:       # TODO: Debug only to see if flow_ids are unique
                     pass
                 else:
                     evc.add_downstream_flows(flow_entry.flow_id)

             fake_flow = FakeUpstreamFlow(flow_entry.flow, flow_entry.handler)
             evc_map_name = EVCMap.create_evc_map_name(fake_flow)

             if evc_map_name not in evc.evc_map_names:
                 EVCMap.create_ingress_map(fake_flow, evc)

             return evc

         except Exception as e:
             log.exception('mcast-create', e=e)
             return None

     @property
     def flow_entry(self):
         return self._flow

     @property
     def downstream_flows(self):
         return frozenset(self._downstream_flows)

     def add_downstream_flows(self, flow_id):
         self._downstream_flows.add(flow_id)

     def remove_downstream_flows(self, flow_id):
         self._downstream_flows.discard(flow_id)

     @inlineCallbacks
     def remove(self, remove_maps=True):
         """
         Remove EVC (and optional associated EVC-MAPs) from hardware
         :param remove_maps: (boolean)
         :return: (deferred)
         """
         log.info('removing', evc=self, remove_maps=remove_maps)

         device_id = self._handler.device_id
         flow_id = self._flow.id
         evc_table = _mcast_evcs.get(device_id)

         if evc_table is None or flow_id not in evc_table:
             returnValue('NOP')

         # Remove flow reference
         if self._flow.flow_id in self._downstream_flows:
             del self._downstream_flows[self._flow.flow_id]

         if len(self._downstream_flows) == 0:
             # Use base class to clean up
             returnValue(super(MCastEVC, self).remove(remove_maps=True))

         returnValue('More references')

     @inlineCallbacks
     def delete(self, delete_maps=True):
         """
         Remove from hardware and delete/clean-up EVC Object
         """
         log.info('deleting', evc=self, delete_maps=delete_maps)

         try:
             dl = [self.remove()]
             if delete_maps:
                 for evc_map in self.evc_maps:
                     dl.append(evc_map.delete(self))   # TODO: implement bulk-flow procedures

             yield defer.gatherResults(dl, consumeErrors=True)

         except Exception as e:
             log.exception('removal', e=e)

         self._evc_maps = None
         f, self._flow = self._flow, None
         if f is not None and f.handler is not None:
             f.handler.remove_evc(self)

     def reflow(self, reflow_maps=True):
         pass    # TODO: Implement or use base class?

     @staticmethod
     def remove_all(client, regex_=EVC_NAME_REGEX_ALL):
         """
         Remove all matching EVCs from hardware
         :param client: (ncclient) NETCONF Client to use
         :param regex_: (String) Regular expression for name matching
         :return: (deferred)
         """
         pass    # TODO: ???


 class FakeUpstreamFlow(FlowEntry):
     def __init__(self, flow, handler):
         super(FakeUpstreamFlow, self).__init__(flow, handler)
         self._decode()
         # Change name that the base class set
         self._name = self.create_flow_name()
         self._flow_direction = FlowEntry.FlowDirection.UPSTREAM
         self.in_port, self.output = self.output, self.in_port
         self.flow_id = '{}-MCAST'.format(self.vlan_id)
         self._logical_port = self.vlan_id
         self.push_vlan_id = self.vlan_id
         self.vlan_id = None
         self.signature = None
         self.inner_vid = None
         self.pop_vlan = False

     def create_flow_name(self):
         return 'flow-{}-{}-MCAST'.format(self.device_id, self.vlan_id)
	# Copyright 2017-present Adtran, Inc.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	from pyvoltha.common.openflow.utils import *
	from evc import EVC
	from flow_entry import FlowEntry
	from twisted.internet import defer
	from twisted.internet.defer import returnValue, inlineCallbacks

	log = structlog.get_logger()

	EVC_NAME_FORMAT = 'VOLTHA-MCAST-{}' # format(flow.vlan_id)
	EVC_NAME_REGEX_ALL = EVC_NAME_FORMAT.format('*')


	_mcast_evcs = {} # device-id -> flow dictionary
	# \|
	# +-> vlan-id -> evcs


	class MCastEVC(EVC):
	"""
	Class to wrap Multicast EVC and EVC-MAP functionality
	"""
	def __init__(self, flow_entry):
	super(MCastEVC, self).__init__(flow_entry)
	self._downstream_flows = {flow_entry.flow_id} # Matching Downstream Flow IDs

	def __str__(self):
	return "MCAST-{}: MEN: {}, VLAN: {}".format(self._name, self._men_ports, self._s_tag)

	def _create_name(self):
	#
	# TODO: Take into account selection criteria and output to make the name
	#
	return EVC_NAME_FORMAT.format(self._flow.vlan_id)

	def _create_evc_map(self, flow_entry):
	from evc_map import EVCMap
	flow = FakeUpstreamFlow(flow_entry.flow, flow_entry.handler)
	return EVCMap.create_ingress_map(flow, self)

	@staticmethod
	def create(flow_entry):
	from evc_map import EVCMap

	device_id = flow_entry.device_id
	if device_id not in _mcast_evcs:
	_mcast_evcs[device_id] = {}

	evc_table = _mcast_evcs[device_id]

	try:
	evc = evc_table.get(flow_entry.vlan_id)

	if evc is None:
	# Create EVC and initial EVC Map
	evc = MCastEVC(flow_entry)
	evc_table[flow_entry.vlan_id] = evc
	else:
	if flow_entry.flow_id in evc.downstream_flows: # TODO: Debug only to see if flow_ids are unique
	pass
	else:
	evc.add_downstream_flows(flow_entry.flow_id)

	fake_flow = FakeUpstreamFlow(flow_entry.flow, flow_entry.handler)
	evc_map_name = EVCMap.create_evc_map_name(fake_flow)

	if evc_map_name not in evc.evc_map_names:
	EVCMap.create_ingress_map(fake_flow, evc)

	return evc

	except Exception as e:
	log.exception('mcast-create', e=e)
	return None

	@property
	def flow_entry(self):
	return self._flow

	@property
	def downstream_flows(self):
	return frozenset(self._downstream_flows)

	def add_downstream_flows(self, flow_id):
	self._downstream_flows.add(flow_id)

	def remove_downstream_flows(self, flow_id):
	self._downstream_flows.discard(flow_id)

	@inlineCallbacks
	def remove(self, remove_maps=True):
	"""
	Remove EVC (and optional associated EVC-MAPs) from hardware
	:param remove_maps: (boolean)
	:return: (deferred)
	"""
	log.info('removing', evc=self, remove_maps=remove_maps)

	device_id = self._handler.device_id
	flow_id = self._flow.id
	evc_table = _mcast_evcs.get(device_id)

	if evc_table is None or flow_id not in evc_table:
	returnValue('NOP')

	# Remove flow reference
	if self._flow.flow_id in self._downstream_flows:
	del self._downstream_flows[self._flow.flow_id]

	if len(self._downstream_flows) == 0:
	# Use base class to clean up
	returnValue(super(MCastEVC, self).remove(remove_maps=True))

	returnValue('More references')

	@inlineCallbacks
	def delete(self, delete_maps=True):
	"""
	Remove from hardware and delete/clean-up EVC Object
	"""
	log.info('deleting', evc=self, delete_maps=delete_maps)

	try:
	dl = [self.remove()]
	if delete_maps:
	for evc_map in self.evc_maps:
	dl.append(evc_map.delete(self)) # TODO: implement bulk-flow procedures

	yield defer.gatherResults(dl, consumeErrors=True)

	except Exception as e:
	log.exception('removal', e=e)

	self._evc_maps = None
	f, self._flow = self._flow, None
	if f is not None and f.handler is not None:
	f.handler.remove_evc(self)

	def reflow(self, reflow_maps=True):
	pass # TODO: Implement or use base class?

	@staticmethod
	def remove_all(client, regex_=EVC_NAME_REGEX_ALL):
	"""
	Remove all matching EVCs from hardware
	:param client: (ncclient) NETCONF Client to use
	:param regex_: (String) Regular expression for name matching
	:return: (deferred)
	"""
	pass # TODO: ???


	class FakeUpstreamFlow(FlowEntry):
	def __init__(self, flow, handler):
	super(FakeUpstreamFlow, self).__init__(flow, handler)
	self._decode()
	# Change name that the base class set
	self._name = self.create_flow_name()
	self._flow_direction = FlowEntry.FlowDirection.UPSTREAM
	self.in_port, self.output = self.output, self.in_port
	self.flow_id = '{}-MCAST'.format(self.vlan_id)
	self._logical_port = self.vlan_id
	self.push_vlan_id = self.vlan_id
	self.vlan_id = None
	self.signature = None
	self.inner_vid = None
	self.pop_vlan = False

	def create_flow_name(self):
	return 'flow-{}-{}-MCAST'.format(self.device_id, self.vlan_id)