python/adapters/brcm_openomci_onu/omci/brcm_tp_service_specific_task.py - voltha-openonu-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.

 import structlog
 from common.frameio.frameio import hexify
 from twisted.internet import reactor
 from twisted.internet.defer import inlineCallbacks, returnValue, TimeoutError, failure
 from voltha.extensions.omci.omci_me import *
 from voltha.extensions.omci.tasks.task import Task
 from voltha.extensions.omci.omci_defs import *
 from voltha.adapters.brcm_openomci_onu.uni_port import *
 from voltha.adapters.brcm_openomci_onu.pon_port \
     import BRDCM_DEFAULT_VLAN, TASK_PRIORITY, DEFAULT_TPID, DEFAULT_GEM_PAYLOAD

 OP = EntityOperations
 RC = ReasonCodes


 class TechProfileDownloadFailure(Exception):
     """
     This error is raised by default when the download fails
     """


 class TechProfileResourcesFailure(Exception):
     """
     This error is raised by when one or more resources required is not available
     """


 class BrcmTpServiceSpecificTask(Task):
     """
     OpenOMCI Tech-Profile Download Task

     """

     name = "Broadcom Tech-Profile Download Task"

     def __init__(self, omci_agent, handler, uni_id):
         """
         Class initialization

         :param omci_agent: (OmciAdapterAgent) OMCI Adapter agent
         :param device_id: (str) ONU Device ID
         """
         log = structlog.get_logger(device_id=handler.device_id, uni_id=uni_id)
         log.debug('function-entry')

         super(BrcmTpServiceSpecificTask, self).__init__(BrcmTpServiceSpecificTask.name,
                                                         omci_agent,
                                                         handler.device_id,
                                                         priority=TASK_PRIORITY,
                                                         exclusive=True)

         self.log = log

         self._onu_device = omci_agent.get_device(handler.device_id)
         self._local_deferred = None

         # Frame size
         self._max_gem_payload = DEFAULT_GEM_PAYLOAD

         self._uni_port = handler.uni_ports[uni_id]
         assert self._uni_port.uni_id == uni_id

         # Port numbers
         self._input_tpid = DEFAULT_TPID
         self._output_tpid = DEFAULT_TPID

         self._vlan_tcis_1 = BRDCM_DEFAULT_VLAN
         self._cvid = BRDCM_DEFAULT_VLAN
         self._vlan_config_entity_id = self._vlan_tcis_1

         # Entity IDs. IDs with values can probably be most anything for most ONUs,
         #             IDs set to None are discovered/set

         self._mac_bridge_service_profile_entity_id = \
             handler.mac_bridge_service_profile_entity_id
         self._ieee_mapper_service_profile_entity_id = \
             handler.pon_port.ieee_mapper_service_profile_entity_id
         self._mac_bridge_port_ani_entity_id = \
             handler.pon_port.mac_bridge_port_ani_entity_id
         self._gal_enet_profile_entity_id = \
             handler.gal_enet_profile_entity_id

         # Extract the current set of TCONT and GEM Ports from the Handler's pon_port that are
         # relevant to this task's UNI. It won't change. But, the underlying pon_port may change
         # due to additional tasks on different UNIs. So, it we cannot use the pon_port affter
         # this initializer
         self._tconts = []
         for tcont in handler.pon_port.tconts.itervalues():
             if tcont.uni_id is not None and tcont.uni_id != self._uni_port.uni_id: continue
             self._tconts.append(tcont)

         self._gem_ports = []
         for gem_port in handler.pon_port.gem_ports.itervalues():
             if gem_port.uni_id is not None and gem_port.uni_id != self._uni_port.uni_id: continue
             self._gem_ports.append(gem_port)

         self.tcont_me_to_queue_map = dict()
         self.uni_port_to_queue_map = dict()

     def cancel_deferred(self):
         self.log.debug('function-entry')
         super(BrcmTpServiceSpecificTask, self).cancel_deferred()

         d, self._local_deferred = self._local_deferred, None
         try:
             if d is not None and not d.called:
                 d.cancel()
         except:
             pass

     def start(self):
         """
         Start the Tech-Profile Download
         """
         self.log.debug('function-entry')
         super(BrcmTpServiceSpecificTask, self).start()
         self._local_deferred = reactor.callLater(0, self.perform_service_specific_steps)

     def stop(self):
         """
         Shutdown Tech-Profile download tasks
         """
         self.log.debug('function-entry')
         self.log.debug('stopping')

         self.cancel_deferred()
         super(BrcmTpServiceSpecificTask, self).stop()

     def check_status_and_state(self, results, operation=''):
         """
         Check the results of an OMCI response.  An exception is thrown
         if the task was cancelled or an error was detected.

         :param results: (OmciFrame) OMCI Response frame
         :param operation: (str) what operation was being performed
         :return: True if successful, False if the entity existed (already created)
         """
         self.log.debug('function-entry')

         omci_msg = results.fields['omci_message'].fields
         status = omci_msg['success_code']
         error_mask = omci_msg.get('parameter_error_attributes_mask', 'n/a')
         failed_mask = omci_msg.get('failed_attributes_mask', 'n/a')
         unsupported_mask = omci_msg.get('unsupported_attributes_mask', 'n/a')

         self.log.debug("OMCI Result: %s", operation, omci_msg=omci_msg, status=status, error_mask=error_mask,
                        failed_mask=failed_mask, unsupported_mask=unsupported_mask)

         if status == RC.Success:
             self.strobe_watchdog()
             return True

         elif status == RC.InstanceExists:
             return False

         raise TechProfileDownloadFailure(
             '{} failed with a status of {}, error_mask: {}, failed_mask: {}, unsupported_mask: {}'
             .format(operation, status, error_mask, failed_mask, unsupported_mask))

     @inlineCallbacks
     def perform_service_specific_steps(self):
         self.log.debug('function-entry')

         omci_cc = self._onu_device.omci_cc

         try:
             ################################################################################
             # TCONTS
             #
             #  EntityID will be referenced by:
             #            - GemPortNetworkCtp
             #  References:
             #            - ONU created TCONT (created on ONU startup)

             tcont_idents = self._onu_device.query_mib(Tcont.class_id)
             self.log.debug('tcont-idents', tcont_idents=tcont_idents)

             for tcont in self._tconts:
                 self.log.debug('tcont-loop', tcont=tcont)

                 if tcont.entity_id is None:
                     free_entity_id = None
                     for k, v in tcont_idents.items():
                         alloc_check = v.get('attributes', {}).get('alloc_id', 0)
                         # Some onu report both to indicate an available tcont
                         if alloc_check == 0xFF or alloc_check == 0xFFFF:
                             free_entity_id = k
                             break

                     self.log.debug('tcont-loop-free', free_entity_id=free_entity_id, alloc_id=tcont.alloc_id)

                     if free_entity_id is None:
                         self.log.error('no-available-tconts')
                         break

                     # Also assign entity id within tcont object
                     results = yield tcont.add_to_hardware(omci_cc, free_entity_id)
                     self.check_status_and_state(results, 'new-tcont-added')
                 else:
                     # likely already added given entity_id is set, but no harm in doing it again
                     results = yield tcont.add_to_hardware(omci_cc, tcont.entity_id)
                     self.check_status_and_state(results, 'existing-tcont-added')

             ################################################################################
             # GEMS  (GemPortNetworkCtp and GemInterworkingTp)
             #
             #  For both of these MEs, the entity_id is the GEM Port ID. The entity id of the
             #  GemInterworkingTp ME could be different since it has an attribute to specify
             #  the GemPortNetworkCtp entity id.
             #
             #        for the GemPortNetworkCtp ME
             #
             #  GemPortNetworkCtp
             #    EntityID will be referenced by:
             #              - GemInterworkingTp
             #    References:
             #              - TCONT
             #              - Hardcoded upstream TM Entity ID
             #              - (Possibly in Future) Upstream Traffic descriptor profile pointer
             #
             #  GemInterworkingTp
             #    EntityID will be referenced by:
             #              - Ieee8021pMapperServiceProfile
             #    References:
             #              - GemPortNetworkCtp
             #              - Ieee8021pMapperServiceProfile
             #              - GalEthernetProfile
             #

             onu_g = self._onu_device.query_mib(OntG.class_id)
             # If the traffic management option attribute in the ONU-G ME is 0
             # (priority controlled) or 2 (priority and rate controlled), this
             # pointer specifies the priority queue ME serving this GEM port
             # network CTP. If the traffic management option attribute is 1
             # (rate controlled), this attribute redundantly points to the
             # T-CONT serving this GEM port network CTP.
             traffic_mgmt_opt = \
                 onu_g.get('attributes', {}).get('traffic_management_options', 0)
             self.log.debug("traffic-mgmt-option", traffic_mgmt_opt=traffic_mgmt_opt)

             prior_q = self._onu_device.query_mib(PriorityQueueG.class_id)
             for k, v in prior_q.items():
                 self.log.debug("prior-q", k=k, v=v)

                 try:
                     _ = iter(v)
                 except TypeError:
                     continue

                 if 'instance_id' in v:
                     related_port = v['attributes']['related_port']
                     if v['instance_id'] & 0b1000000000000000:
                         tcont_me = (related_port & 0xffff0000) >> 16
                         if tcont_me not in self.tcont_me_to_queue_map:
                             self.log.debug("prior-q-related-port-and-tcont-me",
                                             related_port=related_port,
                                             tcont_me=tcont_me)
                             self.tcont_me_to_queue_map[tcont_me] = list()

                         self.tcont_me_to_queue_map[tcont_me].append(k)
                     else:
                         uni_port = (related_port & 0xffff0000) >> 16
                         if uni_port ==  self._uni_port.entity_id:
                             if uni_port not in self.uni_port_to_queue_map:
                                 self.log.debug("prior-q-related-port-and-uni-port-me",
                                                 related_port=related_port,
                                                 uni_port_me=uni_port)
                                 self.uni_port_to_queue_map[uni_port] = list()

                             self.uni_port_to_queue_map[uni_port].append(k)


             self.log.debug("ul-prior-q", ul_prior_q=self.tcont_me_to_queue_map)
             self.log.debug("dl-prior-q", dl_prior_q=self.uni_port_to_queue_map)

             for gem_port in self._gem_ports:
                 # TODO: Traffic descriptor will be available after meter bands are available
                 tcont = gem_port.tcont
                 if tcont is None:
                     self.log.error('unknown-tcont-reference', gem_id=gem_port.gem_id)
                     continue

                 ul_prior_q_entity_id = None
                 dl_prior_q_entity_id = None
                 if gem_port.direction == "upstream" or \
                         gem_port.direction == "bi-directional":

                     # Sort the priority queue list in order of priority.
                     # 0 is highest priority and 0x0fff is lowest.
                     self.tcont_me_to_queue_map[tcont.entity_id].sort()
                     self.uni_port_to_queue_map[self._uni_port.entity_id].sort()
                     # Get the priority queue associated with p-bit that is
                     # mapped to the gem port.
                     # p-bit-7 is highest priority and p-bit-0 is lowest
                     # Gem port associated with p-bit-7 should be mapped to
                     # highest priority queue and gem port associated with p-bit-0
                     # should be mapped to lowest priority queue.
                     # The self.tcont_me_to_queue_map and self.uni_port_to_queue_map
                     # have priority queue entities ordered in descending order
                     # of priority
                     for i, p in enumerate(gem_port.pbit_map):
                         if p == '1':
                             ul_prior_q_entity_id = \
                                 self.tcont_me_to_queue_map[tcont.entity_id][i]
                             dl_prior_q_entity_id = \
                                 self.uni_port_to_queue_map[self._uni_port.entity_id][i]
                             break

                     assert ul_prior_q_entity_id is not None and \
                            dl_prior_q_entity_id is not None

                     # TODO: Need to restore on failure.  Need to check status/results
                     results = yield gem_port.add_to_hardware(omci_cc,
                                              tcont.entity_id,
                                              self._ieee_mapper_service_profile_entity_id +
                                                       self._uni_port.mac_bridge_port_num,
                                              self._gal_enet_profile_entity_id,
                                              ul_prior_q_entity_id, dl_prior_q_entity_id)
                     self.check_status_and_state(results, 'assign-gem-port')
                 elif gem_port.direction == "downstream":
                     # Downstream is inverse of upstream
                     # TODO: could also be a case of multicast. Not supported for now
                     self.log.debug("skipping-downstream-gem", gem_port=gem_port)
                     pass

             ################################################################################
             # Update the IEEE 802.1p Mapper Service Profile config
             #
             #  EntityID was created prior to this call. This is a set
             #
             #  References:
             #            - Gem Interwork TPs are set here
             #

             gem_entity_ids = [OmciNullPointer] * 8
             for gem_port in self._gem_ports:
                 self.log.debug("tp-gem-port", entity_id=gem_port.entity_id, uni_id=gem_port.uni_id)

                 if gem_port.direction == "upstream" or \
                         gem_port.direction == "bi-directional":
                     for i, p in enumerate(reversed(gem_port.pbit_map)):
                         if p == '1':
                             gem_entity_ids[i] = gem_port.entity_id
                 elif gem_port.direction == "downstream":
                     # Downstream gem port p-bit mapper is inverse of upstream
                     # TODO: Could also be a case of multicast. Not supported for now
                     pass

             msg = Ieee8021pMapperServiceProfileFrame(
                 self._ieee_mapper_service_profile_entity_id + self._uni_port.mac_bridge_port_num,  # 802.1p mapper Service Mapper Profile ID
                 interwork_tp_pointers=gem_entity_ids  # Interworking TP IDs
             )
             frame = msg.set()
             self.log.debug('openomci-msg', omci_msg=msg)
             results = yield omci_cc.send(frame)
             self.check_status_and_state(results, 'set-8021p-mapper-service-profile-ul')

             ################################################################################
             # Create Extended VLAN Tagging Operation config (PON-side)
             #
             #  EntityID relates to the VLAN TCIS
             #  References:
             #            - VLAN TCIS from previously created VLAN Tagging filter data
             #            - PPTP Ethernet or VEIP UNI
             #

             # TODO: do this for all uni/ports...
             # TODO: magic.  static variable for assoc_type

             # default to PPTP
             if self._uni_port.type is UniType.VEIP:
                 association_type = 10
             elif self._uni_port.type is UniType.PPTP:
                 association_type = 2
             else:
                 association_type = 2

             attributes = dict(
                 association_type=association_type,                  # Assoc Type, PPTP/VEIP Ethernet UNI
                 associated_me_pointer=self._uni_port.entity_id,      # Assoc ME, PPTP/VEIP Entity Id

                 # See VOL-1311 - Need to set table during create to avoid exception
                 # trying to read back table during post-create-read-missing-attributes
                 # But, because this is a R/W attribute. Some ONU may not accept the
                 # value during create. It is repeated again in a set below.
                 input_tpid=self._input_tpid,  # input TPID
                 output_tpid=self._output_tpid,  # output TPID
             )

             msg = ExtendedVlanTaggingOperationConfigurationDataFrame(
                 self._mac_bridge_service_profile_entity_id + self._uni_port.mac_bridge_port_num,  # Bridge Entity ID
                 attributes=attributes
             )

             frame = msg.create()
             self.log.debug('openomci-msg', omci_msg=msg)
             results = yield omci_cc.send(frame)
             self.check_status_and_state(results, 'create-extended-vlan-tagging-operation-configuration-data')

             attributes = dict(
                 # Specifies the TPIDs in use and that operations in the downstream direction are
                 # inverse to the operations in the upstream direction
                 input_tpid=self._input_tpid,    # input TPID
                 output_tpid=self._output_tpid,  # output TPID
                 downstream_mode=0,              # inverse of upstream
             )

             msg = ExtendedVlanTaggingOperationConfigurationDataFrame(
                 self._mac_bridge_service_profile_entity_id + self._uni_port.mac_bridge_port_num,  # Bridge Entity ID
                 attributes=attributes
             )

             frame = msg.set()
             self.log.debug('openomci-msg', omci_msg=msg)
             results = yield omci_cc.send(frame)
             self.check_status_and_state(results, 'set-extended-vlan-tagging-operation-configuration-data')

             attributes = dict(
                 # parameters: Entity Id ( 0x900), Filter Inner Vlan Id(0x1000-4096,do not filter on Inner vid,
                 #             Treatment Inner Vlan Id : 2

                 # Update uni side extended vlan filter
                 # filter for untagged
                 # probably for eapol
                 # TODO: lots of magic
                 # TODO: magic 0x1000 / 4096?
                 received_frame_vlan_tagging_operation_table=
                 VlanTaggingOperation(
                     filter_outer_priority=15,  # This entry is not a double-tag rule
                     filter_outer_vid=4096,     # Do not filter on the outer VID value
                     filter_outer_tpid_de=0,    # Do not filter on the outer TPID field

                     filter_inner_priority=15,
                     filter_inner_vid=4096,
                     filter_inner_tpid_de=0,
                     filter_ether_type=0,

                     treatment_tags_to_remove=0,
                     treatment_outer_priority=15,
                     treatment_outer_vid=0,
                     treatment_outer_tpid_de=0,

                     treatment_inner_priority=0,
                     treatment_inner_vid=self._cvid,
                     treatment_inner_tpid_de=4,
                 )
             )

             msg = ExtendedVlanTaggingOperationConfigurationDataFrame(
                 self._mac_bridge_service_profile_entity_id + self._uni_port.mac_bridge_port_num,  # Bridge Entity ID
                 attributes=attributes
             )

             frame = msg.set()
             self.log.debug('openomci-msg', omci_msg=msg)
             results = yield omci_cc.send(frame)
             self.check_status_and_state(results, 'set-extended-vlan-tagging-operation-configuration-data-table')

             self.deferred.callback("tech-profile-download-success")

         except TimeoutError as e:
             self.log.warn('rx-timeout-2', e=e)
             self.deferred.errback(failure.Failure(e))

         except Exception as e:
             self.log.exception('omci-setup-2', e=e)
             self.deferred.errback(failure.Failure(e))
	#
	# 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.

	import structlog
	from common.frameio.frameio import hexify
	from twisted.internet import reactor
	from twisted.internet.defer import inlineCallbacks, returnValue, TimeoutError, failure
	from voltha.extensions.omci.omci_me import *
	from voltha.extensions.omci.tasks.task import Task
	from voltha.extensions.omci.omci_defs import *
	from voltha.adapters.brcm_openomci_onu.uni_port import *
	from voltha.adapters.brcm_openomci_onu.pon_port \
	import BRDCM_DEFAULT_VLAN, TASK_PRIORITY, DEFAULT_TPID, DEFAULT_GEM_PAYLOAD

	OP = EntityOperations
	RC = ReasonCodes


	class TechProfileDownloadFailure(Exception):
	"""
	This error is raised by default when the download fails
	"""


	class TechProfileResourcesFailure(Exception):
	"""
	This error is raised by when one or more resources required is not available
	"""


	class BrcmTpServiceSpecificTask(Task):
	"""
	OpenOMCI Tech-Profile Download Task

	"""

	name = "Broadcom Tech-Profile Download Task"

	def __init__(self, omci_agent, handler, uni_id):
	"""
	Class initialization

	:param omci_agent: (OmciAdapterAgent) OMCI Adapter agent
	:param device_id: (str) ONU Device ID
	"""
	log = structlog.get_logger(device_id=handler.device_id, uni_id=uni_id)
	log.debug('function-entry')

	super(BrcmTpServiceSpecificTask, self).__init__(BrcmTpServiceSpecificTask.name,
	omci_agent,
	handler.device_id,
	priority=TASK_PRIORITY,
	exclusive=True)

	self.log = log

	self._onu_device = omci_agent.get_device(handler.device_id)
	self._local_deferred = None

	# Frame size
	self._max_gem_payload = DEFAULT_GEM_PAYLOAD

	self._uni_port = handler.uni_ports[uni_id]
	assert self._uni_port.uni_id == uni_id

	# Port numbers
	self._input_tpid = DEFAULT_TPID
	self._output_tpid = DEFAULT_TPID

	self._vlan_tcis_1 = BRDCM_DEFAULT_VLAN
	self._cvid = BRDCM_DEFAULT_VLAN
	self._vlan_config_entity_id = self._vlan_tcis_1

	# Entity IDs. IDs with values can probably be most anything for most ONUs,
	# IDs set to None are discovered/set

	self._mac_bridge_service_profile_entity_id = \
	handler.mac_bridge_service_profile_entity_id
	self._ieee_mapper_service_profile_entity_id = \
	handler.pon_port.ieee_mapper_service_profile_entity_id
	self._mac_bridge_port_ani_entity_id = \
	handler.pon_port.mac_bridge_port_ani_entity_id
	self._gal_enet_profile_entity_id = \
	handler.gal_enet_profile_entity_id

	# Extract the current set of TCONT and GEM Ports from the Handler's pon_port that are
	# relevant to this task's UNI. It won't change. But, the underlying pon_port may change
	# due to additional tasks on different UNIs. So, it we cannot use the pon_port affter
	# this initializer
	self._tconts = []
	for tcont in handler.pon_port.tconts.itervalues():
	if tcont.uni_id is not None and tcont.uni_id != self._uni_port.uni_id: continue
	self._tconts.append(tcont)

	self._gem_ports = []
	for gem_port in handler.pon_port.gem_ports.itervalues():
	if gem_port.uni_id is not None and gem_port.uni_id != self._uni_port.uni_id: continue
	self._gem_ports.append(gem_port)

	self.tcont_me_to_queue_map = dict()
	self.uni_port_to_queue_map = dict()

	def cancel_deferred(self):
	self.log.debug('function-entry')
	super(BrcmTpServiceSpecificTask, self).cancel_deferred()

	d, self._local_deferred = self._local_deferred, None
	try:
	if d is not None and not d.called:
	d.cancel()
	except:
	pass

	def start(self):
	"""
	Start the Tech-Profile Download
	"""
	self.log.debug('function-entry')
	super(BrcmTpServiceSpecificTask, self).start()
	self._local_deferred = reactor.callLater(0, self.perform_service_specific_steps)

	def stop(self):
	"""
	Shutdown Tech-Profile download tasks
	"""
	self.log.debug('function-entry')
	self.log.debug('stopping')

	self.cancel_deferred()
	super(BrcmTpServiceSpecificTask, self).stop()

	def check_status_and_state(self, results, operation=''):
	"""
	Check the results of an OMCI response. An exception is thrown
	if the task was cancelled or an error was detected.

	:param results: (OmciFrame) OMCI Response frame
	:param operation: (str) what operation was being performed
	:return: True if successful, False if the entity existed (already created)
	"""
	self.log.debug('function-entry')

	omci_msg = results.fields['omci_message'].fields
	status = omci_msg['success_code']
	error_mask = omci_msg.get('parameter_error_attributes_mask', 'n/a')
	failed_mask = omci_msg.get('failed_attributes_mask', 'n/a')
	unsupported_mask = omci_msg.get('unsupported_attributes_mask', 'n/a')

	self.log.debug("OMCI Result: %s", operation, omci_msg=omci_msg, status=status, error_mask=error_mask,
	failed_mask=failed_mask, unsupported_mask=unsupported_mask)

	if status == RC.Success:
	self.strobe_watchdog()
	return True

	elif status == RC.InstanceExists:
	return False

	raise TechProfileDownloadFailure(
	'{} failed with a status of {}, error_mask: {}, failed_mask: {}, unsupported_mask: {}'
	.format(operation, status, error_mask, failed_mask, unsupported_mask))

	@inlineCallbacks
	def perform_service_specific_steps(self):
	self.log.debug('function-entry')

	omci_cc = self._onu_device.omci_cc

	try:
	################################################################################
	# TCONTS
	#
	# EntityID will be referenced by:
	# - GemPortNetworkCtp
	# References:
	# - ONU created TCONT (created on ONU startup)

	tcont_idents = self._onu_device.query_mib(Tcont.class_id)
	self.log.debug('tcont-idents', tcont_idents=tcont_idents)

	for tcont in self._tconts:
	self.log.debug('tcont-loop', tcont=tcont)

	if tcont.entity_id is None:
	free_entity_id = None
	for k, v in tcont_idents.items():
	alloc_check = v.get('attributes', {}).get('alloc_id', 0)
	# Some onu report both to indicate an available tcont
	if alloc_check == 0xFF or alloc_check == 0xFFFF:
	free_entity_id = k
	break

	self.log.debug('tcont-loop-free', free_entity_id=free_entity_id, alloc_id=tcont.alloc_id)

	if free_entity_id is None:
	self.log.error('no-available-tconts')
	break

	# Also assign entity id within tcont object
	results = yield tcont.add_to_hardware(omci_cc, free_entity_id)
	self.check_status_and_state(results, 'new-tcont-added')
	else:
	# likely already added given entity_id is set, but no harm in doing it again
	results = yield tcont.add_to_hardware(omci_cc, tcont.entity_id)
	self.check_status_and_state(results, 'existing-tcont-added')

	################################################################################
	# GEMS (GemPortNetworkCtp and GemInterworkingTp)
	#
	# For both of these MEs, the entity_id is the GEM Port ID. The entity id of the
	# GemInterworkingTp ME could be different since it has an attribute to specify
	# the GemPortNetworkCtp entity id.
	#
	# for the GemPortNetworkCtp ME
	#
	# GemPortNetworkCtp
	# EntityID will be referenced by:
	# - GemInterworkingTp
	# References:
	# - TCONT
	# - Hardcoded upstream TM Entity ID
	# - (Possibly in Future) Upstream Traffic descriptor profile pointer
	#
	# GemInterworkingTp
	# EntityID will be referenced by:
	# - Ieee8021pMapperServiceProfile
	# References:
	# - GemPortNetworkCtp
	# - Ieee8021pMapperServiceProfile
	# - GalEthernetProfile
	#

	onu_g = self._onu_device.query_mib(OntG.class_id)
	# If the traffic management option attribute in the ONU-G ME is 0
	# (priority controlled) or 2 (priority and rate controlled), this
	# pointer specifies the priority queue ME serving this GEM port
	# network CTP. If the traffic management option attribute is 1
	# (rate controlled), this attribute redundantly points to the
	# T-CONT serving this GEM port network CTP.
	traffic_mgmt_opt = \
	onu_g.get('attributes', {}).get('traffic_management_options', 0)
	self.log.debug("traffic-mgmt-option", traffic_mgmt_opt=traffic_mgmt_opt)

	prior_q = self._onu_device.query_mib(PriorityQueueG.class_id)
	for k, v in prior_q.items():
	self.log.debug("prior-q", k=k, v=v)

	try:
	_ = iter(v)
	except TypeError:
	continue

	if 'instance_id' in v:
	related_port = v['attributes']['related_port']
	if v['instance_id'] & 0b1000000000000000:
	tcont_me = (related_port & 0xffff0000) >> 16
	if tcont_me not in self.tcont_me_to_queue_map:
	self.log.debug("prior-q-related-port-and-tcont-me",
	related_port=related_port,
	tcont_me=tcont_me)
	self.tcont_me_to_queue_map[tcont_me] = list()

	self.tcont_me_to_queue_map[tcont_me].append(k)
	else:
	uni_port = (related_port & 0xffff0000) >> 16
	if uni_port == self._uni_port.entity_id:
	if uni_port not in self.uni_port_to_queue_map:
	self.log.debug("prior-q-related-port-and-uni-port-me",
	related_port=related_port,
	uni_port_me=uni_port)
	self.uni_port_to_queue_map[uni_port] = list()

	self.uni_port_to_queue_map[uni_port].append(k)


	self.log.debug("ul-prior-q", ul_prior_q=self.tcont_me_to_queue_map)
	self.log.debug("dl-prior-q", dl_prior_q=self.uni_port_to_queue_map)

	for gem_port in self._gem_ports:
	# TODO: Traffic descriptor will be available after meter bands are available
	tcont = gem_port.tcont
	if tcont is None:
	self.log.error('unknown-tcont-reference', gem_id=gem_port.gem_id)
	continue

	ul_prior_q_entity_id = None
	dl_prior_q_entity_id = None
	if gem_port.direction == "upstream" or \
	gem_port.direction == "bi-directional":

	# Sort the priority queue list in order of priority.
	# 0 is highest priority and 0x0fff is lowest.
	self.tcont_me_to_queue_map[tcont.entity_id].sort()
	self.uni_port_to_queue_map[self._uni_port.entity_id].sort()
	# Get the priority queue associated with p-bit that is
	# mapped to the gem port.
	# p-bit-7 is highest priority and p-bit-0 is lowest
	# Gem port associated with p-bit-7 should be mapped to
	# highest priority queue and gem port associated with p-bit-0
	# should be mapped to lowest priority queue.
	# The self.tcont_me_to_queue_map and self.uni_port_to_queue_map
	# have priority queue entities ordered in descending order
	# of priority
	for i, p in enumerate(gem_port.pbit_map):
	if p == '1':
	ul_prior_q_entity_id = \
	self.tcont_me_to_queue_map[tcont.entity_id][i]
	dl_prior_q_entity_id = \
	self.uni_port_to_queue_map[self._uni_port.entity_id][i]
	break

	assert ul_prior_q_entity_id is not None and \
	dl_prior_q_entity_id is not None

	# TODO: Need to restore on failure. Need to check status/results
	results = yield gem_port.add_to_hardware(omci_cc,
	tcont.entity_id,
	self._ieee_mapper_service_profile_entity_id +
	self._uni_port.mac_bridge_port_num,
	self._gal_enet_profile_entity_id,
	ul_prior_q_entity_id, dl_prior_q_entity_id)
	self.check_status_and_state(results, 'assign-gem-port')
	elif gem_port.direction == "downstream":
	# Downstream is inverse of upstream
	# TODO: could also be a case of multicast. Not supported for now
	self.log.debug("skipping-downstream-gem", gem_port=gem_port)
	pass

	################################################################################
	# Update the IEEE 802.1p Mapper Service Profile config
	#
	# EntityID was created prior to this call. This is a set
	#
	# References:
	# - Gem Interwork TPs are set here
	#

	gem_entity_ids = [OmciNullPointer] * 8
	for gem_port in self._gem_ports:
	self.log.debug("tp-gem-port", entity_id=gem_port.entity_id, uni_id=gem_port.uni_id)

	if gem_port.direction == "upstream" or \
	gem_port.direction == "bi-directional":
	for i, p in enumerate(reversed(gem_port.pbit_map)):
	if p == '1':
	gem_entity_ids[i] = gem_port.entity_id
	elif gem_port.direction == "downstream":
	# Downstream gem port p-bit mapper is inverse of upstream
	# TODO: Could also be a case of multicast. Not supported for now
	pass

	msg = Ieee8021pMapperServiceProfileFrame(
	self._ieee_mapper_service_profile_entity_id + self._uni_port.mac_bridge_port_num, # 802.1p mapper Service Mapper Profile ID
	interwork_tp_pointers=gem_entity_ids # Interworking TP IDs
	)
	frame = msg.set()
	self.log.debug('openomci-msg', omci_msg=msg)
	results = yield omci_cc.send(frame)
	self.check_status_and_state(results, 'set-8021p-mapper-service-profile-ul')

	################################################################################
	# Create Extended VLAN Tagging Operation config (PON-side)
	#
	# EntityID relates to the VLAN TCIS
	# References:
	# - VLAN TCIS from previously created VLAN Tagging filter data
	# - PPTP Ethernet or VEIP UNI
	#

	# TODO: do this for all uni/ports...
	# TODO: magic. static variable for assoc_type

	# default to PPTP
	if self._uni_port.type is UniType.VEIP:
	association_type = 10
	elif self._uni_port.type is UniType.PPTP:
	association_type = 2
	else:
	association_type = 2

	attributes = dict(
	association_type=association_type, # Assoc Type, PPTP/VEIP Ethernet UNI
	associated_me_pointer=self._uni_port.entity_id, # Assoc ME, PPTP/VEIP Entity Id

	# See VOL-1311 - Need to set table during create to avoid exception
	# trying to read back table during post-create-read-missing-attributes
	# But, because this is a R/W attribute. Some ONU may not accept the
	# value during create. It is repeated again in a set below.
	input_tpid=self._input_tpid, # input TPID
	output_tpid=self._output_tpid, # output TPID
	)

	msg = ExtendedVlanTaggingOperationConfigurationDataFrame(
	self._mac_bridge_service_profile_entity_id + self._uni_port.mac_bridge_port_num, # Bridge Entity ID
	attributes=attributes
	)

	frame = msg.create()
	self.log.debug('openomci-msg', omci_msg=msg)
	results = yield omci_cc.send(frame)
	self.check_status_and_state(results, 'create-extended-vlan-tagging-operation-configuration-data')

	attributes = dict(
	# Specifies the TPIDs in use and that operations in the downstream direction are
	# inverse to the operations in the upstream direction
	input_tpid=self._input_tpid, # input TPID
	output_tpid=self._output_tpid, # output TPID
	downstream_mode=0, # inverse of upstream
	)

	msg = ExtendedVlanTaggingOperationConfigurationDataFrame(
	self._mac_bridge_service_profile_entity_id + self._uni_port.mac_bridge_port_num, # Bridge Entity ID
	attributes=attributes
	)

	frame = msg.set()
	self.log.debug('openomci-msg', omci_msg=msg)
	results = yield omci_cc.send(frame)
	self.check_status_and_state(results, 'set-extended-vlan-tagging-operation-configuration-data')

	attributes = dict(
	# parameters: Entity Id ( 0x900), Filter Inner Vlan Id(0x1000-4096,do not filter on Inner vid,
	# Treatment Inner Vlan Id : 2

	# Update uni side extended vlan filter
	# filter for untagged
	# probably for eapol
	# TODO: lots of magic
	# TODO: magic 0x1000 / 4096?
	received_frame_vlan_tagging_operation_table=
	VlanTaggingOperation(
	filter_outer_priority=15, # This entry is not a double-tag rule
	filter_outer_vid=4096, # Do not filter on the outer VID value
	filter_outer_tpid_de=0, # Do not filter on the outer TPID field

	filter_inner_priority=15,
	filter_inner_vid=4096,
	filter_inner_tpid_de=0,
	filter_ether_type=0,

	treatment_tags_to_remove=0,
	treatment_outer_priority=15,
	treatment_outer_vid=0,
	treatment_outer_tpid_de=0,

	treatment_inner_priority=0,
	treatment_inner_vid=self._cvid,
	treatment_inner_tpid_de=4,
	)
	)

	msg = ExtendedVlanTaggingOperationConfigurationDataFrame(
	self._mac_bridge_service_profile_entity_id + self._uni_port.mac_bridge_port_num, # Bridge Entity ID
	attributes=attributes
	)

	frame = msg.set()
	self.log.debug('openomci-msg', omci_msg=msg)
	results = yield omci_cc.send(frame)
	self.check_status_and_state(results, 'set-extended-vlan-tagging-operation-configuration-data-table')

	self.deferred.callback("tech-profile-download-success")

	except TimeoutError as e:
	self.log.warn('rx-timeout-2', e=e)
	self.deferred.errback(failure.Failure(e))

	except Exception as e:
	self.log.exception('omci-setup-2', e=e)
	self.deferred.errback(failure.Failure(e))