test/unit/extensions/omci/mock/mock_adapter_agent.py - pyvoltha - Gitiles

 #
 # Copyright 2017 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.
 #
 # import binascii
 import structlog
 # from twisted.internet.defer import Deferred
 # from voltha.core.config.config_root import ConfigRoot
 # from pyvoltha.protos.voltha_pb2 import VolthaInstance
 # from pyvoltha.adapters.extensions.omci.omci_frame import OmciFrame


 class MockProxyAddress(object):
     def __init__(self, device_id, pon_id, onu_id):
         self.device_id = device_id  # Device ID of proxy (OLT)
         self.onu_id = onu_id
         self.onu_session_id = onu_id

         self.channel_group_id = pon_id  # close enough for mock
         self.channel_id = pon_id
         self.channel_termination = pon_id


 class MockDevice(object):
     def __init__(self, device_id, proxy_address=None, serial_number=None):
         from pyvoltha.adapters.extensions.omci.omci_entities import entity_id_to_class_map
         self.id = device_id
         self.parent_id = None
         self.proxy_address = proxy_address
         self.serial_number = serial_number
         self.me_map = entity_id_to_class_map


 class MockCore(object):
     def __init__(self):
         self.root = None   # ConfigRoot(VolthaInstance())
         if self.root is None:
             from nose import SkipTest
             msg = "TODO: Unit tests involving the kv-store are not yet supported by pyvoltha"
             raise SkipTest(msg)

     def get_proxy(self, path):
         return self.root.get_proxy(path)


 class MockAdapterAgent(object):
     """
     Minimal class to handle adapter-agent needs in OpenOMCI. It can be
     used by a mock OLT or ONU.

     So that we do not have to duplicate the IAdapter functionality, just
     the handler, the OLT and ONU handlers are derived from a mock Device
     base class so that we can access the _devices map and get either a
     Device to play with (like the real thing) or the associated handler
     """
     def __init__(self, d=None):
         self.log = structlog.get_logger()
         self._devices = dict()      # device-id -> mock device
         self.core = MockCore()
         self.deferred = d
         self.timeout_the_message = False

     @property
     def send_omci_defer(self):
         return self.deferred

     @send_omci_defer.setter
     def send_omci_defer(self, value):
         self.deferred = value

     @property
     def name(self):
         return "cig_mock_ont"

     def tearDown(self):
         """Test case cleanup"""
         for device in self._devices.itervalues():
             device.tearDown()
         self._devices.clear()

     def add_device(self, device):
         self._devices[device.id] = device

     def add_child_device(self, parent_device, child_device):
         # Set parent
         child_device.parent_id = parent_device.id

         # Add ONU serial number if PON and ONU enabled

         if (child_device.enabled and
                 child_device.serial_number is not None and
                 child_device.proxy_address.channel_id in parent_device.enabled_pons):
             parent_device.activated_onus.add(child_device.serial_number)

         self.add_device(child_device)

     def get_device(self, device_id):
         return self._devices[device_id]

     def get_child_device(self, parent_device_id, **kwargs):
         onu_id = kwargs.pop('onu_id', None)
         pon_id = kwargs.pop('pon_id', None)
         if onu_id is None and pon_id is None:
             return None

         # Get all child devices with the same parent ID
         children_ids = set(d.id for d in self._devices.itervalues()
                            if d.parent_id == parent_device_id)

         # Loop through all the child devices with this parent ID
         for child_id in children_ids:
             device = self.get_device(child_id)

             # Does this child device match the passed in ONU ID?
             found_onu_id = False
             if onu_id is not None:
                 if device.proxy_address.onu_id == onu_id:
                     found_onu_id = True

             # Does this child device match the passed in SERIAL NUMBER?
             found_pon_id = False
             if pon_id is not None:
                 if device.proxy_address.channel_id == pon_id:
                     found_pon_id = True
             # Match ONU ID and PON ID
             if onu_id is not None and pon_id is not None:
                 found = found_onu_id & found_pon_id
             # Otherwise ONU ID or PON ID
             else:
                 found = found_onu_id | found_pon_id

             # Return the matched child device
             if found:
                 return device

         return None

     def send_proxied_message(self, proxy_address, msg):
         # Look up ONU handler and forward the message
         self.log.debug("--> send_proxied_message", message=msg)

         # if proxy_address is None:
         if self.deferred is not None and not self.timeout_the_message:
             self.deferred.callback(msg)
         #     return None

         # olt_handler = self.get_device(proxy_address.device_id)

         # if olt_handler is not None:
         #    olt_handler.send_proxied_message(proxy_address, msg)

     def receive_proxied_message(self, proxy_address, msg):
         # Look up ONU handler and forward the message

         onu_handler = self.get_child_device(proxy_address.device_id,
                                             onu_id=proxy_address.onu_id,
                                             pon_id=proxy_address.channel_id)
         if onu_handler is not None:
             onu_handler.receive_proxied_message(proxy_address, msg)
	#
	# Copyright 2017 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.
	#
	# import binascii
	import structlog
	# from twisted.internet.defer import Deferred
	# from voltha.core.config.config_root import ConfigRoot
	# from pyvoltha.protos.voltha_pb2 import VolthaInstance
	# from pyvoltha.adapters.extensions.omci.omci_frame import OmciFrame


	class MockProxyAddress(object):
	def __init__(self, device_id, pon_id, onu_id):
	self.device_id = device_id # Device ID of proxy (OLT)
	self.onu_id = onu_id
	self.onu_session_id = onu_id

	self.channel_group_id = pon_id # close enough for mock
	self.channel_id = pon_id
	self.channel_termination = pon_id


	class MockDevice(object):
	def __init__(self, device_id, proxy_address=None, serial_number=None):
	from pyvoltha.adapters.extensions.omci.omci_entities import entity_id_to_class_map
	self.id = device_id
	self.parent_id = None
	self.proxy_address = proxy_address
	self.serial_number = serial_number
	self.me_map = entity_id_to_class_map


	class MockCore(object):
	def __init__(self):
	self.root = None # ConfigRoot(VolthaInstance())
	if self.root is None:
	from nose import SkipTest
	msg = "TODO: Unit tests involving the kv-store are not yet supported by pyvoltha"
	raise SkipTest(msg)

	def get_proxy(self, path):
	return self.root.get_proxy(path)


	class MockAdapterAgent(object):
	"""
	Minimal class to handle adapter-agent needs in OpenOMCI. It can be
	used by a mock OLT or ONU.

	So that we do not have to duplicate the IAdapter functionality, just
	the handler, the OLT and ONU handlers are derived from a mock Device
	base class so that we can access the _devices map and get either a
	Device to play with (like the real thing) or the associated handler
	"""
	def __init__(self, d=None):
	self.log = structlog.get_logger()
	self._devices = dict() # device-id -> mock device
	self.core = MockCore()
	self.deferred = d
	self.timeout_the_message = False

	@property
	def send_omci_defer(self):
	return self.deferred

	@send_omci_defer.setter
	def send_omci_defer(self, value):
	self.deferred = value

	@property
	def name(self):
	return "cig_mock_ont"

	def tearDown(self):
	"""Test case cleanup"""
	for device in self._devices.itervalues():
	device.tearDown()
	self._devices.clear()

	def add_device(self, device):
	self._devices[device.id] = device

	def add_child_device(self, parent_device, child_device):
	# Set parent
	child_device.parent_id = parent_device.id

	# Add ONU serial number if PON and ONU enabled

	if (child_device.enabled and
	child_device.serial_number is not None and
	child_device.proxy_address.channel_id in parent_device.enabled_pons):
	parent_device.activated_onus.add(child_device.serial_number)

	self.add_device(child_device)

	def get_device(self, device_id):
	return self._devices[device_id]

	def get_child_device(self, parent_device_id, **kwargs):
	onu_id = kwargs.pop('onu_id', None)
	pon_id = kwargs.pop('pon_id', None)
	if onu_id is None and pon_id is None:
	return None

	# Get all child devices with the same parent ID
	children_ids = set(d.id for d in self._devices.itervalues()
	if d.parent_id == parent_device_id)

	# Loop through all the child devices with this parent ID
	for child_id in children_ids:
	device = self.get_device(child_id)

	# Does this child device match the passed in ONU ID?
	found_onu_id = False
	if onu_id is not None:
	if device.proxy_address.onu_id == onu_id:
	found_onu_id = True

	# Does this child device match the passed in SERIAL NUMBER?
	found_pon_id = False
	if pon_id is not None:
	if device.proxy_address.channel_id == pon_id:
	found_pon_id = True
	# Match ONU ID and PON ID
	if onu_id is not None and pon_id is not None:
	found = found_onu_id & found_pon_id
	# Otherwise ONU ID or PON ID
	else:
	found = found_onu_id \| found_pon_id

	# Return the matched child device
	if found:
	return device

	return None

	def send_proxied_message(self, proxy_address, msg):
	# Look up ONU handler and forward the message
	self.log.debug("--> send_proxied_message", message=msg)

	# if proxy_address is None:
	if self.deferred is not None and not self.timeout_the_message:
	self.deferred.callback(msg)
	# return None

	# olt_handler = self.get_device(proxy_address.device_id)

	# if olt_handler is not None:
	# olt_handler.send_proxied_message(proxy_address, msg)

	def receive_proxied_message(self, proxy_address, msg):
	# Look up ONU handler and forward the message

	onu_handler = self.get_child_device(proxy_address.device_id,
	onu_id=proxy_address.onu_id,
	pon_id=proxy_address.channel_id)
	if onu_handler is not None:
	onu_handler.receive_proxied_message(proxy_address, msg)