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gerrit.opencord.org / voltha / refs/heads/cord-3.0 / . / voltha / adapters / broadcom_onu / broadcom_onu.py
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#
# 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.
#
"""
Broadcom OLT/ONU adapter.
"""
from uuid import uuid4
import structlog
from twisted.internet import reactor
from twisted.internet.defer import DeferredQueue, inlineCallbacks
from zope.interface import implementer
from voltha.adapters.interface import IAdapterInterface
from voltha.core.logical_device_agent import mac_str_to_tuple
import voltha.core.flow_decomposer as fd
from voltha.protos import third_party
from voltha.protos.adapter_pb2 import Adapter
from voltha.protos.adapter_pb2 import AdapterConfig
from voltha.protos.common_pb2 import LogLevel, OperStatus, ConnectStatus, \
AdminState
from voltha.protos.device_pb2 import DeviceType, DeviceTypes, Port
from voltha.protos.health_pb2 import HealthStatus
from voltha.protos.logical_device_pb2 import LogicalPort
from voltha.protos.openflow_13_pb2 import OFPPS_LIVE, OFPPF_FIBER, OFPPF_1GB_FD
from voltha.protos.openflow_13_pb2 import OFPXMC_OPENFLOW_BASIC, ofp_port
from common.frameio.frameio import hexify
from voltha.extensions.omci.omci import *
_ = third_party
log = structlog.get_logger()
@implementer(IAdapterInterface)
class BroadcomOnuAdapter(object):
name = 'broadcom_onu'
supported_device_types = [
DeviceType(
id=name,
adapter=name,
accepts_bulk_flow_update=True
)
]
def __init__(self, adapter_agent, config):
self.adapter_agent = adapter_agent
self.config = config
self.descriptor = Adapter(
id=self.name,
vendor='Voltha project',
version='0.4',
config=AdapterConfig(log_level=LogLevel.INFO)
)
self.devices_handlers = dict() # device_id -> BroadcomOnuHandler()
# register for adapter messages
self.adapter_agent.register_for_inter_adapter_messages()
def start(self):
log.debug('starting')
log.info('started')
def stop(self):
log.debug('stopping')
log.info('stopped')
def adapter_descriptor(self):
return self.descriptor
def device_types(self):
return DeviceTypes(items=self.supported_device_types)
def health(self):
return HealthStatus(state=HealthStatus.HealthState.HEALTHY)
def change_master_state(self, master):
raise NotImplementedError()
def adopt_device(self, device):
log.info('adopt_device', device_id=device.id)
self.devices_handlers[device.proxy_address.channel_id] = BroadcomOnuHandler(self, device.id)
reactor.callLater(0, self.devices_handlers[device.proxy_address.channel_id].activate, device)
return device
def abandon_device(self, device):
raise NotImplementedError()
def disable_device(self, device):
raise NotImplementedError()
def reenable_device(self, device):
raise NotImplementedError()
def reboot_device(self, device):
raise NotImplementedError()
def delete_device(self, device):
raise NotImplementedError()
def get_device_details(self, device):
raise NotImplementedError()
def update_pm_config(self, device, pm_configs):
raise NotImplementedError()
def update_flows_bulk(self, device, flows, groups):
log.info('bulk-flow-update', device_id=device.id,
flows=flows, groups=groups)
assert len(groups.items) == 0
handler = self.devices_handlers[device.proxy_address.channel_id]
return handler.update_flow_table(device, flows.items)
def update_flows_incrementally(self, device, flow_changes, group_changes):
raise NotImplementedError()
def send_proxied_message(self, proxy_address, msg):
log.info('send-proxied-message', proxy_address=proxy_address, msg=msg)
def receive_proxied_message(self, proxy_address, msg):
log.info('receive-proxied-message', proxy_address=proxy_address,
device_id=proxy_address.device_id, msg=hexify(msg))
handler = self.devices_handlers[proxy_address.channel_id]
handler.receive_message(msg)
def receive_packet_out(self, logical_device_id, egress_port_no, msg):
log.info('packet-out', logical_device_id=logical_device_id,
egress_port_no=egress_port_no, msg_len=len(msg))
def receive_inter_adapter_message(self, msg):
log.info('receive_inter_adapter_message', msg=msg)
class BroadcomOnuHandler(object):
def __init__(self, adapter, device_id):
self.adapter = adapter
self.adapter_agent = adapter.adapter_agent
self.device_id = device_id
self.log = structlog.get_logger(device_id=device_id)
self.incoming_messages = DeferredQueue()
self.proxy_address = None
self.tx_id = 0
def receive_message(self, msg):
self.incoming_messages.put(msg)
def activate(self, device):
self.log.info('activating')
# first we verify that we got parent reference and proxy info
assert device.parent_id
assert device.proxy_address.device_id
#assert device.proxy_address.channel_id # c-vid
# register for proxied messages right away
self.proxy_address = device.proxy_address
self.adapter_agent.register_for_proxied_messages(device.proxy_address)
# populate device info
device.root = True
device.vendor = 'Broadcom'
device.model = 'n/a'
device.hardware_version = 'to be filled'
device.firmware_version = 'to be filled'
device.software_version = 'to be filled'
device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(device)
self.adapter_agent.add_port(device.id, Port(
port_no=100,
label='PON port',
type=Port.PON_ONU,
admin_state=AdminState.ENABLED,
oper_status=OperStatus.ACTIVE,
peers=[
Port.PeerPort(
device_id=device.parent_id,
port_no=device.parent_port_no
)
]
))
parent_device = self.adapter_agent.get_device(device.parent_id)
logical_device_id = parent_device.parent_id
assert logical_device_id
# query ONU for number of supported uni ports
# temporarily set number of ports to 1 - port #2
uni_ports = (2,)
for uni in uni_ports:
# register physical ports
uni_port = Port(
port_no=uni,
label='UNI facing Ethernet port '+str(uni),
type=Port.ETHERNET_UNI,
admin_state=AdminState.ENABLED,
oper_status=OperStatus.ACTIVE
)
self.adapter_agent.add_port(device.id, uni_port)
# add uni port to logical device
port_no = device.proxy_address.channel_id + uni
cap = OFPPF_1GB_FD | OFPPF_FIBER
self.adapter_agent.add_logical_port(logical_device_id, LogicalPort(
id='uni-{}'.format(port_no),
ofp_port=ofp_port(
port_no=port_no,
hw_addr=mac_str_to_tuple('00:00:00:%02x:%02x:%02x' %
(device.proxy_address.onu_id & 0xff,
(port_no >> 8) & 0xff,
port_no & 0xff)),
name='uni-{}'.format(port_no),
config=0,
state=OFPPS_LIVE,
curr=cap,
advertised=cap,
peer=cap,
curr_speed=OFPPF_1GB_FD,
max_speed=OFPPF_1GB_FD
),
device_id=device.id,
device_port_no=uni_port.port_no
))
reactor.callLater(10,
self.message_exchange,
self.proxy_address.onu_id,
self.proxy_address.onu_session_id,
port_no)
device = self.adapter_agent.get_device(device.id)
device.oper_status = OperStatus.ACTIVE
self.adapter_agent.update_device(device)
@inlineCallbacks
def update_flow_table(self, device, flows):
#
# We need to proxy through the OLT to get to the ONU
# Configuration from here should be using OMCI
#
self.log.info('bulk-flow-update', device_id=device.id, flows=flows)
def is_downstream(port):
return port == 100 # Need a better way
def is_upstream(port):
return not is_downstream(port)
for flow in flows:
_type = None
_port = None
_vlan_vid = None
_udp_dst = None
_udp_src = None
_ipv4_dst = None
_ipv4_src = None
_metadata = None
_output = None
_push_tpid = None
_field = None
_set_vlan_vid = None
try:
_in_port = fd.get_in_port(flow)
assert _in_port is not None
if is_downstream(_in_port):
self.log.info('downstream-flow')
elif is_upstream(_in_port):
self.log.info('upstream-flow')
else:
raise Exception('port should be 1 or 2 by our convention')
_out_port = fd.get_out_port(flow) # may be None
self.log.info('out-port', out_port=_out_port)
for field in fd.get_ofb_fields(flow):
if field.type == fd.ETH_TYPE:
_type = field.eth_type
self.log.info('field-type-eth-type',
eth_type=_type)
elif field.type == fd.IP_PROTO:
_proto = field.ip_proto
self.log.info('field-type-ip-proto',
ip_proto=_proto)
elif field.type == fd.IN_PORT:
_port = field.port
self.log.info('field-type-in-port',
in_port=_port)
elif field.type == fd.VLAN_VID:
_vlan_vid = field.vlan_vid & 0xfff
self.log.info('field-type-vlan-vid',
vlan=_vlan_vid)
elif field.type == fd.VLAN_PCP:
_vlan_pcp = field.vlan_pcp
self.log.info('field-type-vlan-pcp',
pcp=_vlan_pcp)
elif field.type == fd.UDP_DST:
_udp_dst = field.udp_dst
self.log.info('field-type-udp-dst',
udp_dst=_udp_dst)
elif field.type == fd.UDP_SRC:
_udp_src = field.udp_src
self.log.info('field-type-udp-src',
udp_src=_udp_src)
elif field.type == fd.IPV4_DST:
_ipv4_dst = field.ipv4_dst
self.log.info('field-type-ipv4-dst',
ipv4_dst=_ipv4_dst)
elif field.type == fd.IPV4_SRC:
_ipv4_src = field.ipv4_src
self.log.info('field-type-ipv4-src',
ipv4_dst=_ipv4_src)
elif field.type == fd.METADATA:
_metadata = field.table_metadata
self.log.info('field-type-metadata',
metadata=_metadata)
else:
raise NotImplementedError('field.type={}'.format(
field.type))
for action in fd.get_actions(flow):
if action.type == fd.OUTPUT:
_output = action.output.port
self.log.info('action-type-output',
output=_output, in_port=_in_port)
elif action.type == fd.POP_VLAN:
self.log.info('action-type-pop-vlan',
in_port=_in_port)
elif action.type == fd.PUSH_VLAN:
_push_tpid = action.push.ethertype
log.info('action-type-push-vlan',
push_tpid=_push_tpid, in_port=_in_port)
if action.push.ethertype != 0x8100:
self.log.error('unhandled-tpid',
ethertype=action.push.ethertype)
elif action.type == fd.SET_FIELD:
_field = action.set_field.field.ofb_field
assert (action.set_field.field.oxm_class ==
OFPXMC_OPENFLOW_BASIC)
self.log.info('action-type-set-field',
field=_field, in_port=_in_port)
if _field.type == fd.VLAN_VID:
_set_vlan_vid = _field.vlan_vid & 0xfff
self.log.info('set-field-type-valn-vid', _set_vlan_vid)
else:
self.log.error('unsupported-action-set-field-type',
field_type=_field.type)
else:
log.error('unsupported-action-type',
action_type=action.type, in_port=_in_port)
#
# All flows created from ONU adapter should be OMCI based
#
if _vlan_vid == 0:
# allow priority tagged packets
# Set AR - ExtendedVlanTaggingOperationConfigData
# 514 - RxVlanTaggingOperationTable - add VLAN <cvid> to priority tagged pkts - c-vid
self.send_set_extended_vlan_tagging_operation_vlan_configuration_data_single_tag(0x202, 8, 0, 0,
1, 8, _in_port)
yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData
# 514 - RxVlanTaggingOperationTable - add VLAN <cvid> to priority tagged pkts - c-vid
self.send_set_extended_vlan_tagging_operation_vlan_configuration_data_single_tag(0x205, 8, 0, 0,
1, 8, _in_port)
yield self.wait_for_response()
except Exception as e:
log.exception('failed-to-install-flow', e=e, flow=flow)
def get_tx_id(self):
self.tx_id += 1
return self.tx_id
def send_omci_message(self, frame):
_frame = hexify(str(frame))
self.log.info('send-omci-message-%s' % _frame)
device = self.adapter_agent.get_device(self.device_id)
try:
self.adapter_agent.send_proxied_message(device.proxy_address, _frame)
except Exception as e:
self.log.info('send-omci-message-exception', exc=str(e))
def send_get_circuit_pack(self, entity_id=0):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciGet.message_id,
omci_message=OmciGet(
entity_class=CircuitPack.class_id,
entity_id=entity_id,
attributes_mask=CircuitPack.mask_for('vendor_id')
)
)
self.send_omci_message(frame)
def send_mib_reset(self, entity_id=0):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciMibReset.message_id,
omci_message=OmciMibReset(
entity_class=OntData.class_id,
entity_id=entity_id
)
)
self.send_omci_message(frame)
def send_create_gal_ethernet_profile(self,
entity_id,
max_gem_payload_size):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=GalEthernetProfile.class_id,
entity_id=entity_id,
data=dict(
max_gem_payload_size=max_gem_payload_size
)
)
)
self.send_omci_message(frame)
def send_set_tcont(self,
entity_id,
alloc_id):
data = dict(
alloc_id=alloc_id
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=Tcont.class_id,
entity_id=entity_id,
attributes_mask=Tcont.mask_for(*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_create_8021p_mapper_service_profile(self,
entity_id):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=Ieee8021pMapperServiceProfile.class_id,
entity_id=entity_id,
data=dict(
tp_pointer=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_0=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_1=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_2=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_3=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_4=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_5=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_6=OmciNullPointer,
interwork_tp_pointer_for_p_bit_priority_7=OmciNullPointer
)
)
)
self.send_omci_message(frame)
def send_create_mac_bridge_service_profile(self,
entity_id):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=MacBridgeServiceProfile.class_id,
entity_id=entity_id,
data=dict(
spanning_tree_ind=False,
learning_ind=True,
priority=0x8000,
max_age=20 * 256,
hello_time=2 * 256,
forward_delay=15 * 256,
unknown_mac_address_discard=True
)
)
)
self.send_omci_message(frame)
def send_create_gem_port_network_ctp(self,
entity_id,
port_id,
tcont_id,
direction,
tm):
_directions = {"upstream": 1, "downstream": 2, "bi-directional": 3}
if _directions.has_key(direction):
_direction = _directions[direction]
else:
self.log.error('invalid-gem-port-direction', direction=direction)
raise ValueError('Invalid GEM port direction: {_dir}'.format(_dir=direction))
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=GemPortNetworkCtp.class_id,
entity_id=entity_id,
data=dict(
port_id=port_id,
tcont_pointer=tcont_id,
direction=_direction,
traffic_management_pointer_upstream=tm
)
)
)
self.send_omci_message(frame)
def send_create_multicast_gem_interworking_tp(self,
entity_id,
gem_port_net_ctp_id):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=MulticastGemInterworkingTp.class_id,
entity_id=entity_id,
data=dict(
gem_port_network_ctp_pointer=gem_port_net_ctp_id,
interworking_option=0,
service_profile_pointer=0x1
)
)
)
self.send_omci_message(frame)
def send_create_gem_inteworking_tp(self,
entity_id,
gem_port_net_ctp_id,
service_profile_id):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=GemInterworkingTp.class_id,
entity_id=entity_id,
data=dict(
gem_port_network_ctp_pointer=gem_port_net_ctp_id,
interworking_option=5,
service_profile_pointer=service_profile_id,
interworking_tp_pointer=0x0,
gal_profile_pointer=0x1
)
)
)
self.send_omci_message(frame)
def send_set_8021p_mapper_service_profile(self,
entity_id,
interwork_tp_id):
data = dict(
interwork_tp_pointer_for_p_bit_priority_0=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_1=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_2=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_3=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_4=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_5=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_6=interwork_tp_id,
interwork_tp_pointer_for_p_bit_priority_7=interwork_tp_id
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=Ieee8021pMapperServiceProfile.class_id,
entity_id=entity_id,
attributes_mask=Ieee8021pMapperServiceProfile.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_create_mac_bridge_port_configuration_data(self,
entity_id,
bridge_id,
port_id,
tp_type,
tp_id):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=MacBridgePortConfigurationData.class_id,
entity_id=entity_id,
data=dict(
bridge_id_pointer = bridge_id,
port_num=port_id,
tp_type=tp_type,
tp_pointer=tp_id
)
)
)
self.send_omci_message(frame)
def send_create_vlan_tagging_filter_data(self,
entity_id,
vlan_id):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=VlanTaggingFilterData.class_id,
entity_id=entity_id,
data=dict(
vlan_filter_0=vlan_id,
forward_operation=0x10,
number_of_entries=1
)
)
)
self.send_omci_message(frame)
def send_create_extended_vlan_tagging_operation_configuration_data(self,
entity_id,
assoc_type,
assoc_me):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=
ExtendedVlanTaggingOperationConfigurationData.class_id,
entity_id=entity_id,
data=dict(
association_type=assoc_type,
associated_me_pointer=assoc_me
)
)
)
self.send_omci_message(frame)
def send_set_extended_vlan_tagging_operation_tpid_configuration_data(self,
entity_id,
input_tpid,
output_tpid):
data = dict(
input_tpid=input_tpid,
output_tpid=output_tpid,
downstream_mode=0, # inverse of upstream
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=
ExtendedVlanTaggingOperationConfigurationData.class_id,
entity_id=entity_id,
attributes_mask=
ExtendedVlanTaggingOperationConfigurationData.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_set_extended_vlan_tagging_operation_vlan_configuration_data_untagged(self,
entity_id,
filter_inner_vid,
treatment_inner_vid):
data = dict(
received_frame_vlan_tagging_operation_table=
VlanTaggingOperation(
filter_outer_priority=15,
filter_outer_vid=4096,
filter_outer_tpid_de=0,
filter_inner_priority=15,
filter_inner_vid=filter_inner_vid,
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=treatment_inner_vid,
treatment_inner_tpid_de=4
)
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=
ExtendedVlanTaggingOperationConfigurationData.class_id,
entity_id=entity_id,
attributes_mask=
ExtendedVlanTaggingOperationConfigurationData.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_set_extended_vlan_tagging_operation_vlan_configuration_data_single_tag(self,
entity_id,
filter_inner_priority,
filter_inner_vid,
filter_inner_tpid_de,
treatment_tags_to_remove,
treatment_inner_priority,
treatment_inner_vid):
data = dict(
received_frame_vlan_tagging_operation_table=
VlanTaggingOperation(
filter_outer_priority=15,
filter_outer_vid=4096,
filter_outer_tpid_de=0,
filter_inner_priority=filter_inner_priority,
filter_inner_vid=filter_inner_vid,
filter_inner_tpid_de=filter_inner_tpid_de,
filter_ether_type=0,
treatment_tags_to_remove=treatment_tags_to_remove,
treatment_outer_priority=15,
treatment_outer_vid=0,
treatment_outer_tpid_de=0,
treatment_inner_priority=treatment_inner_priority,
treatment_inner_vid=treatment_inner_vid,
treatment_inner_tpid_de=4
)
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=
ExtendedVlanTaggingOperationConfigurationData.class_id,
entity_id=entity_id,
attributes_mask=
ExtendedVlanTaggingOperationConfigurationData.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_create_multicast_operations_profile(self,
entity_id,
igmp_ver):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=
MulticastOperationsProfile.class_id,
entity_id=entity_id,
data=dict(
igmp_version=igmp_ver,
igmp_function=0,
immediate_leave=0
)
)
)
self.send_omci_message(frame)
def send_set_multicast_operations_profile_acl_row0(self,
entity_id,
acl_table,
row_key,
gem_port,
vlan,
src_ip,
dst_ip_start,
dst_ip_end):
row0 = AccessControlRow0(
set_ctrl=1,
row_part_id=0,
test=0,
row_key=row_key,
gem_port_id=gem_port,
vlan_id=vlan,
src_ip=src_ip,
dst_ip_start=dst_ip_start,
dst_ip_end=dst_ip_end,
ipm_group_bw=0
)
if acl_table == 'dynamic':
data = dict(
dynamic_access_control_list_table=row0
)
else:
data = dict(
static_access_control_list_table=row0
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=MulticastOperationsProfile.class_id,
entity_id=entity_id,
attributes_mask=MulticastOperationsProfile.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_set_multicast_operations_profile_ds_igmp_mcast_tci(self,
entity_id,
ctrl_type,
tci):
data = dict(
ds_igmp_mcast_tci=
DownstreamIgmpMulticastTci(
ctrl_type=ctrl_type,
tci=tci
)
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=MulticastOperationsProfile.class_id,
entity_id=entity_id,
attributes_mask=MulticastOperationsProfile.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_create_multicast_subscriber_config_info(self,
entity_id,
me_type,
mcast_oper_profile):
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciCreate.message_id,
omci_message=OmciCreate(
entity_class=
MulticastSubscriberConfigInfo.class_id,
entity_id=entity_id,
data=dict(
me_type=me_type,
mcast_operations_profile_pointer=mcast_oper_profile
)
)
)
self.send_omci_message(frame)
def send_set_multicast_subscriber_config_info(self,
entity_id,
max_groups=0,
max_mcast_bw=0,
bw_enforcement=0):
data = dict(
max_simultaneous_groups=max_groups,
max_multicast_bandwidth=max_mcast_bw,
bandwidth_enforcement=bw_enforcement
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=MulticastSubscriberConfigInfo.class_id,
entity_id=entity_id,
attributes_mask=MulticastSubscriberConfigInfo.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_set_multicast_service_package(self,
entity_id,
row_key,
vid_uni,
max_groups,
max_mcast_bw,
mcast_oper_profile):
data = dict(
multicast_service_package_table=
MulticastServicePackage(
set_ctrl=1,
row_key=row_key,
vid_uni=vid_uni,
max_simultaneous_groups=max_groups,
max_multicast_bw=max_mcast_bw,
mcast_operations_profile_pointer=mcast_oper_profile
)
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=MulticastSubscriberConfigInfo.class_id,
entity_id=entity_id,
attributes_mask=MulticastSubscriberConfigInfo.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_set_multicast_allowed_preview_groups_row0(self,
entity_id,
row_key,
src_ip,
vlan_id_ani,
vlan_id_uni):
data = dict(
allowed_preview_groups_table=
AllowedPreviewGroupsRow0(
set_ctrl=1,
row_part_id=0,
row_key=row_key,
src_ip=src_ip,
vlan_id_ani=vlan_id_ani,
vlan_id_uni=vlan_id_uni
)
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=MulticastSubscriberConfigInfo.class_id,
entity_id=entity_id,
attributes_mask=MulticastSubscriberConfigInfo.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
def send_set_multicast_allowed_preview_groups_row1(self,
entity_id,
row_key,
dst_ip,
duration,
time_left):
data = dict(
allowed_preview_groups_table=
AllowedPreviewGroupsRow1(
set_ctrl=1,
row_part_id=1,
row_key=row_key,
dst_ip=dst_ip,
duration=duration,
time_left=time_left
)
)
frame = OmciFrame(
transaction_id=self.get_tx_id(),
message_type=OmciSet.message_id,
omci_message=OmciSet(
entity_class=MulticastSubscriberConfigInfo.class_id,
entity_id=entity_id,
attributes_mask=MulticastSubscriberConfigInfo.mask_for(
*data.keys()),
data=data
)
)
self.send_omci_message(frame)
@inlineCallbacks
def wait_for_response(self):
log.info('wait-for-response')
try:
response = yield self.incoming_messages.get()
log.info('got-response')
# resp = OmciFrame(response)
# resp.show()
except Exception as e:
self.log.info('wait-for-response-exception', exc=str(e))
@inlineCallbacks
def message_exchange(self, onu, gem, cvid):
log.info('message_exchange', onu=onu, gem=gem, cvid=cvid)
# reset incoming message queue
while self.incoming_messages.pending:
_ = yield self.incoming_messages.get()
tcont = gem
# construct message
# MIB Reset - OntData - 0
self.send_mib_reset()
yield self.wait_for_response()
# Create AR - GalEthernetProfile - 1
self.send_create_gal_ethernet_profile(1, 48)
yield self.wait_for_response()
# TCONT config
# Set AR - TCont - 32769 - (1025 or 1026)
self.send_set_tcont(0x8001, tcont)
yield self.wait_for_response()
# Mapper Service config
# Create AR - 802.1pMapperServiceProfile - 32769
self.send_create_8021p_mapper_service_profile(0x8001)
yield self.wait_for_response()
# MAC Bridge Service config
# Create AR - MacBridgeServiceProfile - 513
self.send_create_mac_bridge_service_profile(0x201)
yield self.wait_for_response()
# GEM Port Network CTP config
# Create AR - GemPortNetworkCtp - 257 - <gem> - 32769
self.send_create_gem_port_network_ctp(0x101, gem, 0x8001, "bi-directional", 0x100)
yield self.wait_for_response()
# Create AR - GemPortNetworkCtp - 260 - 4000 - 0
self.send_create_gem_port_network_ctp(0x104, 0x0FA0, 0, "downstream", 0)
yield self.wait_for_response()
# Multicast GEM Interworking config
# Create AR - MulticastGemInterworkingTp - 6 - 260
self.send_create_multicast_gem_interworking_tp(0x6, 0x104)
yield self.wait_for_response()
# GEM Interworking config
# Create AR - GemInterworkingTp - 32770 - 257 -32769 - 1
self.send_create_gem_inteworking_tp(0x8002, 0x101, 0x8001)
yield self.wait_for_response()
# Mapper Service Profile config
# Set AR - 802.1pMapperServiceProfile - 32769 - 32770
self.send_set_8021p_mapper_service_profile(0x8001, 0x8002)
yield self.wait_for_response()
# MAC Bridge Port config
# Create AR - MacBridgePortConfigData - 8450 - 513 - 3 - 3 - 32769
self.send_create_mac_bridge_port_configuration_data(0x2102, 0x201, 3, 3, 0x8001)
yield self.wait_for_response()
# Create AR - MacBridgePortConfigData - 9000 - 513 - 6 - 6 - 6
self.send_create_mac_bridge_port_configuration_data(0x2328, 0x201, 6, 6, 6)
yield self.wait_for_response()
# VLAN Tagging Filter config
# Create AR - VlanTaggingFilterData - 8450 - c-vid
self.send_create_vlan_tagging_filter_data(0x2102, cvid)
yield self.wait_for_response()
# Multicast Operation Profile config
# Create AR - MulticastOperationsProfile
self.send_create_multicast_operations_profile(0x201, 3)
yield self.wait_for_response()
# Set AR - MulticastOperationsProfile - Dynamic Access Control List table
self.send_set_multicast_operations_profile_acl_row0(0x201,
'dynamic',
0,
0x0fa0,
0x0fa0,
'0.0.0.0',
'224.0.0.0',
'239.255.255.255')
yield self.wait_for_response()
# Multicast Subscriber config
# Create AR - MulticastSubscriberConfigInfo
self.send_create_multicast_subscriber_config_info(0x201, 0, 0x201)
yield self.wait_for_response()
# Multicast Operation Profile config
# Set AR - MulticastOperationsProfile - Downstream IGMP Multicast TCI
self.send_set_multicast_operations_profile_ds_igmp_mcast_tci(0x201, 4, cvid)
yield self.wait_for_response()
# Port 2
# Extended VLAN Tagging Operation config
# Create AR - ExtendedVlanTaggingOperationConfigData - 514 - 2 - 0x102
# TODO: add entry here for additional UNI interfaces
self.send_create_extended_vlan_tagging_operation_configuration_data(0x202, 2, 0x102)
yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData - 514 - 8100 - 8100
self.send_set_extended_vlan_tagging_operation_tpid_configuration_data(0x202, 0x8100, 0x8100)
yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData
# 514 - RxVlanTaggingOperationTable - add VLAN <cvid> to priority tagged pkts - c-vid
#self.send_set_extended_vlan_tagging_operation_vlan_configuration_data_single_tag(0x202, 8, 0, 0, 1, 8, cvid)
#yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData
# 514 - RxVlanTaggingOperationTable - add VLAN <cvid> to untagged pkts - c-vid
self.send_set_extended_vlan_tagging_operation_vlan_configuration_data_untagged(0x202, 0x1000, cvid)
yield self.wait_for_response()
# MAC Bridge Port config
# Create AR - MacBridgePortConfigData - 513 - 513 - 1 - 1 - 0x102
# TODO: add more entries here for other UNI ports
self.send_create_mac_bridge_port_configuration_data(0x201, 0x201, 2, 1, 0x102)
yield self.wait_for_response()
# Port 5
# Extended VLAN Tagging Operation config
# Create AR - ExtendedVlanTaggingOperationConfigData - 514 - 2 - 0x102
# TODO: add entry here for additional UNI interfaces
self.send_create_extended_vlan_tagging_operation_configuration_data(0x205, 2, 0x105)
yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData - 514 - 8100 - 8100
self.send_set_extended_vlan_tagging_operation_tpid_configuration_data(0x205, 0x8100, 0x8100)
yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData
# 514 - RxVlanTaggingOperationTable - add VLAN <cvid> to priority tagged pkts - c-vid
#self.send_set_extended_vlan_tagging_operation_vlan_configuration_data_single_tag(0x205, 8, 0, 0, 1, 8, cvid)
#yield self.wait_for_response()
# Set AR - ExtendedVlanTaggingOperationConfigData
# 514 - RxVlanTaggingOperationTable - add VLAN <cvid> to untagged pkts - c-vid
self.send_set_extended_vlan_tagging_operation_vlan_configuration_data_untagged(0x205, 0x1000, cvid)
yield self.wait_for_response()
# MAC Bridge Port config
# Create AR - MacBridgePortConfigData - 513 - 513 - 1 - 1 - 0x102
# TODO: add more entries here for other UNI ports
self.send_create_mac_bridge_port_configuration_data(0x205, 0x201, 5, 1, 0x105)
yield self.wait_for_response()