Gitiles
Code Review Sign In
gerrit.opencord.org / voltha / 1f2f5d347654a07e0f998d4d684f14e9f2aa39ba / . / voltha / adapters / openolt / openolt_device.py
blob: 42440637fd497ec85797787fd96394a096d46043 [file] [log] [blame]
#
# 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
import threading
import grpc
import time
from twisted.internet import reactor
from scapy.layers.l2 import Ether, Dot1Q
import binascii
from transitions import Machine
from voltha.protos.device_pb2 import Port, Device
from voltha.protos.common_pb2 import OperStatus, AdminState, ConnectStatus
from voltha.protos.logical_device_pb2 import LogicalDevice
from voltha.protos.openflow_13_pb2 import OFPPS_LIVE, OFPPF_FIBER, \
OFPPS_LINK_DOWN, OFPPF_1GB_FD, OFPC_GROUP_STATS, OFPC_PORT_STATS, \
OFPC_TABLE_STATS, OFPC_FLOW_STATS, ofp_switch_features, ofp_port
from voltha.protos.logical_device_pb2 import LogicalPort
from voltha.core.logical_device_agent import mac_str_to_tuple
from voltha.registry import registry
from voltha.adapters.openolt.protos import openolt_pb2_grpc, openolt_pb2
from voltha.protos.bbf_fiber_tcont_body_pb2 import TcontsConfigData
from voltha.protos.bbf_fiber_gemport_body_pb2 import GemportsConfigData
from voltha.protos.bbf_fiber_base_pb2 import VEnetConfig
import voltha.core.flow_decomposer as fd
import openolt_platform as platform
from openolt_flow_mgr import OpenOltFlowMgr
MAX_HEARTBEAT_MISS = 3
HEARTBEAT_PERIOD = 1
GRPC_TIMEOUT = 5
"""
OpenoltDevice represents an OLT.
"""
class OpenoltDevice(object):
states = ['up', 'down']
transitions = [
{'trigger': 'olt_up', 'source': 'down', 'dest': 'up',
'before': 'olt_indication_up'},
{'trigger': 'olt_down', 'source': 'up', 'dest': 'down',
'before': 'olt_indication_down'}
]
def __init__(self, **kwargs):
super(OpenoltDevice, self).__init__()
self.adapter_agent = kwargs['adapter_agent']
self.device_num = kwargs['device_num']
device = kwargs['device']
is_reconciliation = kwargs.get('reconciliation', False)
self.device_id = device.id
self.host_and_port = device.host_and_port
self.log = structlog.get_logger(id=self.device_id,
ip=self.host_and_port)
self.proxy = registry('core').get_proxy('/')
# Device already set in the event of reconciliation
if not is_reconciliation:
# It is a new device
# Update device
device.root = True
device.serial_number = self.host_and_port # FIXME
device.connect_status = ConnectStatus.REACHABLE
device.oper_status = OperStatus.ACTIVATING
self.adapter_agent.update_device(device)
# Initialize the OLT state machine
self.machine = Machine(model=self, states=OpenoltDevice.states,
transitions=OpenoltDevice.transitions,
send_event=True, initial='down',
ignore_invalid_triggers=True)
self.machine.add_transition(trigger='olt_ind_up', source='down',
dest='up')
self.machine.add_transition(trigger='olt_ind_loss', source='up',
dest='down')
# Initialize gRPC
self.channel = grpc.insecure_channel(self.host_and_port)
self.channel_ready_future = grpc.channel_ready_future(self.channel)
self.stub = openolt_pb2_grpc.OpenoltStub(self.channel)
self.flow_mgr = OpenOltFlowMgr(self.log, self.stub)
# Indications thread plcaholder (started by heartbeat thread)
self.indications_thread = None
self.indications_thread_active = False
# Start heartbeat thread
self.heartbeat_thread = threading.Thread(target=self.heartbeat)
self.heartbeat_thread.setDaemon(True)
self.heartbeat_thread_active = True
self.heartbeat_miss = 0
self.heartbeat_signature = None
self.heartbeat_thread.start()
self.log.debug('openolt-device-created', device_id=self.device_id)
def process_indications(self):
self.log.debug('starting-indications-thread')
self.indications = self.stub.EnableIndication(openolt_pb2.Empty())
while self.indications_thread_active:
try:
# get the next indication from olt
ind = next(self.indications)
except Exception as e:
self.log.warn('GRPC-connection-lost-stoping-indication-thread',
error=e)
self.indications_thread_active = False
else:
self.log.debug("rx indication", indication=ind)
# indication handlers run in the main event loop
if ind.HasField('olt_ind'):
reactor.callFromThread(self.olt_indication, ind.olt_ind)
elif ind.HasField('intf_ind'):
reactor.callFromThread(self.intf_indication, ind.intf_ind)
elif ind.HasField('intf_oper_ind'):
reactor.callFromThread(self.intf_oper_indication,
ind.intf_oper_ind)
elif ind.HasField('onu_disc_ind'):
reactor.callFromThread(self.onu_discovery_indication,
ind.onu_disc_ind)
elif ind.HasField('onu_ind'):
reactor.callFromThread(self.onu_indication, ind.onu_ind)
elif ind.HasField('omci_ind'):
reactor.callFromThread(self.omci_indication, ind.omci_ind)
elif ind.HasField('pkt_ind'):
reactor.callFromThread(self.packet_indication, ind.pkt_ind)
elif ind.HasField('port_stats'):
reactor.callFromThread(self.port_statistics_indication,
ind.port_stats)
elif ind.HasField('flow_stats'):
reactor.callFromThread(self.flow_statistics_indication,
ind.flow_stats)
else:
self.log.warn('unknown indication type')
self.log.debug('stopping-indications-thread', device_id=self.device_id)
def olt_indication(self, olt_indication):
if olt_indication.oper_state == "up":
self.olt_up(ind=olt_indication)
elif olt_indication.oper_state == "down":
self.olt_down(ind=olt_indication)
def olt_indication_up(self, event):
olt_indication = event.kwargs.get('ind', None)
self.log.debug("olt indication", olt_ind=olt_indication)
device = self.adapter_agent.get_device(self.device_id)
# If logical device does not exist create it
if len(device.parent_id) == 0:
dpid = '00:00:' + self.ip_hex(self.host_and_port.split(":")[0])
# Create logical OF device
ld = LogicalDevice(
root_device_id=self.device_id,
switch_features=ofp_switch_features(
n_buffers=256, # TODO fake for now
n_tables=2, # TODO ditto
capabilities=( # TODO and ditto
OFPC_FLOW_STATS
| OFPC_TABLE_STATS
| OFPC_PORT_STATS
| OFPC_GROUP_STATS
)
)
)
ld_init = self.adapter_agent.create_logical_device(ld,
dpid=dpid)
self.logical_device_id = ld_init.id
else:
# logical device already exists
self.logical_device_id = device.parent_id
# Update phys OF device
device.parent_id = self.logical_device_id
device.oper_status = OperStatus.ACTIVE
self.adapter_agent.update_device(device)
def olt_indication_down(self, event):
olt_indication = event.kwargs.get('ind', None)
new_admin_state = event.kwargs.get('admin_state', None)
new_oper_state = event.kwargs.get('oper_state', None)
new_connect_state = event.kwargs.get('connect_state', None)
self.log.debug("olt indication", olt_ind=olt_indication,
admin_state=new_admin_state, oper_state=new_oper_state,
connect_state=new_connect_state)
# Propagating to the children
# Children ports
child_devices = self.adapter_agent.get_child_devices(self.device_id)
for onu_device in child_devices:
uni_no = platform.mk_uni_port_num(
onu_device.proxy_address.channel_id,
onu_device.proxy_address.onu_id)
uni_name = self.port_name(uni_no, Port.ETHERNET_UNI,
serial_number=onu_device.serial_number)
self.onu_ports_down(onu_device, uni_no, uni_name, new_oper_state)
# Children devices
self.adapter_agent.update_child_devices_state(
self.device_id, oper_status=new_oper_state,
connect_status=ConnectStatus.UNREACHABLE,
admin_state=new_admin_state)
# Device Ports
device_ports = self.adapter_agent.get_ports(self.device_id,
Port.ETHERNET_NNI)
logical_ports_ids = [port.label for port in device_ports]
device_ports += self.adapter_agent.get_ports(self.device_id,
Port.PON_OLT)
for port in device_ports:
if new_admin_state is not None:
port.admin_state = new_admin_state
if new_oper_state is not None:
port.oper_status = new_oper_state
self.adapter_agent.add_port(self.device_id, port)
# Device logical port
for logical_port_id in logical_ports_ids:
logical_port = self.adapter_agent.get_logical_port(
self.logical_device_id, logical_port_id)
logical_port.ofp_port.state = OFPPS_LINK_DOWN
self.adapter_agent.update_logical_port(self.logical_device_id,
logical_port)
# Device
device = self.adapter_agent.get_device(self.device_id)
if new_admin_state is not None:
device.admin_state = new_admin_state
if new_oper_state is not None:
device.oper_status = new_oper_state
if new_connect_state is not None:
device.connect_status = new_connect_state
self.adapter_agent.update_device(device)
def intf_indication(self, intf_indication):
self.log.debug("intf indication", intf_id=intf_indication.intf_id,
oper_state=intf_indication.oper_state)
if intf_indication.oper_state == "up":
oper_status = OperStatus.ACTIVE
else:
oper_status = OperStatus.DISCOVERED
# add_port update the port if it exists
self.add_port(intf_indication.intf_id, Port.PON_OLT, oper_status)
def intf_oper_indication(self, intf_oper_indication):
self.log.debug("Received interface oper state change indication",
intf_id=intf_oper_indication.intf_id,
type=intf_oper_indication.type,
oper_state=intf_oper_indication.oper_state)
if intf_oper_indication.oper_state == "up":
oper_state = OperStatus.ACTIVE
else:
oper_state = OperStatus.DISCOVERED
if intf_oper_indication.type == "nni":
# FIXME - creating logical port for 2nd interface throws exception!
if intf_oper_indication.intf_id != 0:
return
# add_(logical_)port update the port if it exists
port_no, label = self.add_port(intf_oper_indication.intf_id,
Port.ETHERNET_NNI, oper_state)
self.log.debug("int_oper_indication", port_no=port_no, label=label)
self.add_logical_port(port_no, intf_oper_indication.intf_id,
oper_state)
elif intf_oper_indication.type == "pon":
# FIXME - handle PON oper state change
pass
def onu_discovery_indication(self, onu_disc_indication):
intf_id = onu_disc_indication.intf_id
serial_number = onu_disc_indication.serial_number
serial_number_str = self.stringify_serial_number(serial_number)
self.log.debug("onu discovery indication", intf_id=intf_id,
serial_number=serial_number_str)
onu_device = self.adapter_agent.get_child_device(
self.device_id,
serial_number=serial_number_str)
if onu_device is None:
onu_id = self.new_onu_id(intf_id)
try:
self.add_onu_device(
intf_id,
platform.intf_id_to_port_no(intf_id, Port.PON_OLT),
onu_id, serial_number)
self.log.info("activate-onu", intf_id=intf_id, onu_id=onu_id,
serial_number=serial_number_str)
onu = openolt_pb2.Onu(intf_id=intf_id, onu_id=onu_id,
serial_number=serial_number)
self.stub.ActivateOnu(onu)
except Exception as e:
self.log.exception('onu-activation-failed', e=e)
else:
if onu_device.connect_status != ConnectStatus.REACHABLE:
onu_device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(onu_device)
onu_id = onu_device.proxy_address.onu_id
if onu_device.oper_status == OperStatus.DISCOVERED \
or onu_device.oper_status == OperStatus.ACTIVATING:
self.log.debug("ignore onu discovery indication, \
the onu has been discovered and should be \
activating shorlty", intf_id=intf_id,
onu_id=onu_id, state=onu_device.oper_status)
elif onu_device.oper_status == OperStatus.ACTIVE:
self.log.warn("onu discovery indication whereas onu is \
supposed to be active",
intf_id=intf_id, onu_id=onu_id,
state=onu_device.oper_status)
elif onu_device.oper_status == OperStatus.UNKNOWN:
self.log.info("onu in unknown state, recovering from olt \
reboot, activate onu", intf_id=intf_id,
onu_id=onu_id, serial_number=serial_number_str)
onu_device.oper_status = OperStatus.DISCOVERED
self.adapter_agent.update_device(onu_device)
onu = openolt_pb2.Onu(intf_id=intf_id, onu_id=onu_id,
serial_number=serial_number)
self.stub.ActivateOnu(onu)
else:
self.log.warn('unexpected state', onu_id=onu_id,
onu_device_oper_state=onu_device.oper_status)
def onu_indication(self, onu_indication):
self.log.debug("onu indication", intf_id=onu_indication.intf_id,
onu_id=onu_indication.onu_id,
serial_number=onu_indication.serial_number,
oper_state=onu_indication.oper_state,
admin_state=onu_indication.admin_state)
if onu_indication.serial_number:
onu_device = self.adapter_agent.get_child_device(
self.device_id,
serial_number=self.stringify_serial_number(
onu_indication.serial_number))
else:
onu_device = self.adapter_agent.get_child_device(
self.device_id,
parent_port_no=platform.intf_id_to_port_no(
onu_indication.intf_id, Port.PON_OLT),
onu_id=onu_indication.onu_id)
if onu_device is None:
self.log.error('onu not found', intf_id=onu_indication.intf_id,
onu_id=onu_indication.onu_id)
return
if onu_device.connect_status != ConnectStatus.REACHABLE:
onu_device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(onu_device)
if platform.intf_id_from_pon_port_no(onu_device.parent_port_no) \
!= onu_indication.intf_id:
self.log.warn('ONU-is-on-a-different-intf-id-now',
previous_intf_id=platform.intf_id_from_pon_port_no(
onu_device.parent_port_no),
current_intf_id=onu_indication.intf_id)
# FIXME - handle intf_id mismatch (ONU move?)
if onu_device.proxy_address.onu_id != onu_indication.onu_id:
# FIXME - handle onu id mismatch
self.log.warn('ONU-id-mismatch',
expected_onu_id=onu_device.proxy_address.onu_id,
received_onu_id=onu_indication.onu_id)
uni_no = platform.mk_uni_port_num(onu_indication.intf_id,
onu_indication.onu_id)
uni_name = self.port_name(uni_no, Port.ETHERNET_UNI,
serial_number=onu_device.serial_number)
self.log.debug('port-number-ready', uni_no=uni_no, uni_name=uni_name)
# Admin state
if onu_indication.admin_state == 'down':
if onu_indication.oper_state != 'down':
self.log.error('ONU-admin-state-down-and-oper-status-not-down',
oper_state=onu_indication.oper_state)
# Forcing the oper state change code to execute
onu_indication.oper_state = 'down'
if onu_device.admin_state != AdminState.DISABLED:
onu_device.admin_state = AdminState.DISABLED
self.adapter_agent.update(onu_device)
self.log.debug('putting-onu-in-disabled-state',
onu_serial_number=onu_device.serial_number)
# Port and logical port update is taken care of by oper state block
elif onu_indication.admin_state == 'up':
if onu_device.admin_state != AdminState.ENABLED:
onu_device.admin_state = AdminState.ENABLED
self.adapter_agent.update(onu_device)
self.log.debug('putting-onu-in-enabled-state',
onu_serial_number=onu_device.serial_number)
else:
self.log.warn('Invalid-or-not-implemented-admin-state',
received_admin_state=onu_indication.admin_state)
self.log.debug('admin-state-dealt-with')
# Operating state
if onu_indication.oper_state == 'down':
# Move to discovered state
self.log.debug('onu-oper-state-is-down')
if onu_device.oper_status != OperStatus.DISCOVERED:
onu_device.oper_status = OperStatus.DISCOVERED
self.adapter_agent.update_device(onu_device)
# Set port oper state to Discovered
self.onu_ports_down(onu_device, uni_no, uni_name,
OperStatus.DISCOVERED)
elif onu_indication.oper_state == 'up':
if onu_device.oper_status != OperStatus.DISCOVERED:
self.log.debug("ignore onu indication",
intf_id=onu_indication.intf_id,
onu_id=onu_indication.onu_id,
state=onu_device.oper_status,
msg_oper_state=onu_indication.oper_state)
return
# Device was in Discovered state, setting it to active
onu_adapter_agent = \
registry('adapter_loader').get_agent(onu_device.adapter)
if onu_adapter_agent is None:
self.log.error('onu_adapter_agent-could-not-be-retrieved',
onu_device=onu_device)
return
# Prepare onu configuration
# onu initialization, base configuration (bridge setup ...)
def onu_initialization():
# FIXME: that's definitely cheating
if onu_device.adapter == 'broadcom_onu':
onu_adapter_agent.adapter.devices_handlers[onu_device.id] \
.message_exchange()
self.log.debug('broadcom-message-exchange-started')
# tcont creation (onu)
tcont = TcontsConfigData()
tcont.alloc_id = platform.mk_alloc_id(onu_indication.onu_id)
# gem port creation
gem_port = GemportsConfigData()
gem_port.gemport_id = platform.mk_gemport_id(onu_indication.onu_id)
# ports creation/update
def port_config():
# "v_enet" creation (olt)
# add_port update port when it exists
self.adapter_agent.add_port(
self.device_id,
Port(
port_no=uni_no,
label=uni_name,
type=Port.ETHERNET_UNI,
admin_state=AdminState.ENABLED,
oper_status=OperStatus.ACTIVE))
# v_enet creation (onu)
venet = VEnetConfig(name=uni_name)
venet.interface.name = uni_name
onu_adapter_agent.create_interface(onu_device, venet)
# ONU device status update in the datastore
def onu_update_oper_status():
onu_device.oper_status = OperStatus.ACTIVE
onu_device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(onu_device)
# FIXME : the asynchronicity has to be taken care of properly
onu_initialization()
reactor.callLater(10, onu_adapter_agent.create_tcont,
device=onu_device, tcont_data=tcont,
traffic_descriptor_data=None)
reactor.callLater(11, onu_adapter_agent.create_gemport, onu_device,
gem_port)
reactor.callLater(12, port_config)
reactor.callLater(12, onu_update_oper_status)
else:
self.log.warn('Not-implemented-or-invalid-value-of-oper-state',
oper_state=onu_indication.oper_state)
def onu_ports_down(self, onu_device, uni_no, uni_name, oper_state):
# Set port oper state to Discovered
# add port will update port if it exists
self.adapter_agent.add_port(
self.device_id,
Port(
port_no=uni_no,
label=uni_name,
type=Port.ETHERNET_UNI,
admin_state=onu_device.admin_state,
oper_status=oper_state))
# Disable logical port
onu_ports = self.proxy.get('devices/{}/ports'.format(onu_device.id))
onu_port_id = None
for onu_port in onu_ports:
if onu_port.port_no == uni_no:
onu_port_id = onu_port.label
if onu_port_id is None:
self.log.error('matching-onu-port-label-not-found',
onu_id=onu_device.id, olt_id=self.device_id,
onu_ports=onu_ports)
return
try:
onu_logical_port = self.adapter_agent.get_logical_port(
logical_device_id=self.logical_device_id, port_id=onu_port_id)
onu_logical_port.ofp_port.state = OFPPS_LINK_DOWN
self.adapter_agent.update_logical_port(
logical_device_id=self.logical_device_id,
port=onu_logical_port)
self.log.debug('cascading-oper-state-to-port-and-logical-port')
except KeyError as e:
self.log.error('matching-onu-port-label-invalid',
onu_id=onu_device.id, olt_id=self.device_id,
onu_ports=onu_ports, onu_port_id=onu_port_id,
error=e)
def omci_indication(self, omci_indication):
self.log.debug("omci indication", intf_id=omci_indication.intf_id,
onu_id=omci_indication.onu_id)
onu_device = self.adapter_agent.get_child_device(
self.device_id, onu_id=omci_indication.onu_id)
self.adapter_agent.receive_proxied_message(onu_device.proxy_address,
omci_indication.pkt)
def packet_indication(self, pkt_indication):
self.log.debug("packet indication", intf_id=pkt_indication.intf_id,
gemport_id=pkt_indication.gemport_id,
flow_id=pkt_indication.flow_id)
onu_id = platform.onu_id_from_gemport_id(pkt_indication.gemport_id)
logical_port_num = platform.mk_uni_port_num(pkt_indication.intf_id,
onu_id)
pkt = Ether(pkt_indication.pkt)
kw = dict(logical_device_id=self.logical_device_id,
logical_port_no=logical_port_num)
self.adapter_agent.send_packet_in(packet=str(pkt), **kw)
def olt_reachable(self):
device = self.adapter_agent.get_device(self.device_id)
device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(device)
# Not changing its child devices state, we cannot guaranty that
def heartbeat(self):
# block till gRPC connection is complete
self.channel_ready_future.result()
while self.heartbeat_thread_active:
try:
heartbeat = self.stub.HeartbeatCheck(openolt_pb2.Empty(),
timeout=GRPC_TIMEOUT)
except Exception as e:
self.heartbeat_miss += 1
self.log.warn('heartbeat-miss',
missed_heartbeat=self.heartbeat_miss, error=e)
if self.heartbeat_miss == MAX_HEARTBEAT_MISS:
self.log.error('lost-connectivity-to-olt')
# TODO : send alarm/notify monitoring system
# Using reactor to synchronize update
# flagging it as unreachable and in unknow state
reactor.callFromThread(
self.olt_down,
oper_state=OperStatus.UNKNOWN,
connect_state=ConnectStatus.UNREACHABLE)
else:
# heartbeat received
if self.heartbeat_signature is None:
# Initialize heartbeat signature
self.heartbeat_signature = heartbeat.heartbeat_signature
self.log.debug(
'heartbeat-signature',
device_id=self.device_id,
heartbeat_signature=self.heartbeat_signature)
# Check if signature is different
if self.heartbeat_signature != heartbeat.heartbeat_signature:
# OLT has rebooted
self.log.warn('OLT-was-rebooted', device_id=self.device_id)
# TODO: notify monitoring system
self.heartbeat_signature = heartbeat.heartbeat_signature
else:
self.log.debug('valid-heartbeat-received')
if self.heartbeat_miss > MAX_HEARTBEAT_MISS:
self.log.info('OLT-connection-restored')
# TODO : suppress alarm/notify monitoring system
# flagging it as reachable again
reactor.callFromThread(self.olt_reachable)
if not self.indications_thread_active:
self.log.info('(re)starting-indications-thread')
# reset indications thread
self.indications_thread = threading.Thread(
target=self.process_indications)
self.indications_thread.setDaemon(True)
self.indications_thread_active = True
self.indications_thread.start()
self.heartbeat_miss = 0
time.sleep(HEARTBEAT_PERIOD)
self.log.debug('stopping-heartbeat-thread', device_id=self.device_id)
def port_statistics_indication(self, port_stats):
# TODO: send to kafka
# TODO : update ONOS counters
self.log.info('port-stats-collected', stats=port_stats)
def flow_statistics_indication(self, flow_stats):
# TODO: send to kafka
# TODO : update ONOS counters
self.log.info('flow-stats-collected', stats=flow_stats)
def packet_out(self, egress_port, msg):
pkt = Ether(msg)
self.log.info('packet out', egress_port=egress_port,
packet=str(pkt).encode("HEX"))
# Find port type
egress_port_type = self.port_type(egress_port)
if egress_port_type == Port.ETHERNET_UNI:
if pkt.haslayer(Dot1Q):
outer_shim = pkt.getlayer(Dot1Q)
if isinstance(outer_shim.payload, Dot1Q):
# If double tag, remove the outer tag
payload = (
Ether(src=pkt.src, dst=pkt.dst, type=outer_shim.type) /
outer_shim.payload
)
else:
payload = pkt
else:
payload = pkt
send_pkt = binascii.unhexlify(str(payload).encode("HEX"))
self.log.info(
'sending-packet-to-ONU', egress_port=egress_port,
intf_id=platform.intf_id_from_pon_port_no(egress_port),
onu_id=platform.onu_id_from_port_num(egress_port),
packet=str(payload).encode("HEX"))
onu_pkt = openolt_pb2.OnuPacket(
intf_id=platform.intf_id_from_pon_port_no(egress_port),
onu_id=platform.onu_id_from_port_num(egress_port),
pkt=send_pkt)
self.stub.OnuPacketOut(onu_pkt)
elif egress_port_type == Port.ETHERNET_NNI:
self.log.info('sending-packet-to-uplink', egress_port=egress_port,
packet=str(pkt).encode("HEX"))
send_pkt = binascii.unhexlify(str(pkt).encode("HEX"))
uplink_pkt = openolt_pb2.UplinkPacket(
intf_id=platform.intf_id_from_nni_port_num(egress_port),
pkt=send_pkt)
self.stub.UplinkPacketOut(uplink_pkt)
else:
self.log.warn('Packet-out-to-this-interface-type-not-implemented',
egress_port=egress_port,
port_type=egress_port_type)
def send_proxied_message(self, proxy_address, msg):
omci = openolt_pb2.OmciMsg(intf_id=proxy_address.channel_id,
onu_id=proxy_address.onu_id, pkt=str(msg))
self.stub.OmciMsgOut(omci)
def add_onu_device(self, intf_id, port_no, onu_id, serial_number):
self.log.info("Adding ONU", port_no=port_no, onu_id=onu_id,
serial_number=serial_number)
# NOTE - channel_id of onu is set to intf_id
proxy_address = Device.ProxyAddress(device_id=self.device_id,
channel_id=intf_id, onu_id=onu_id,
onu_session_id=onu_id)
self.log.info("Adding ONU", proxy_address=proxy_address)
serial_number_str = self.stringify_serial_number(serial_number)
self.adapter_agent.add_onu_device(
parent_device_id=self.device_id, parent_port_no=port_no,
vendor_id=serial_number.vendor_id, proxy_address=proxy_address,
root=True, serial_number=serial_number_str,
admin_state=AdminState.ENABLED)
def port_name(self, port_no, port_type, intf_id=None, serial_number=None):
if port_type is Port.ETHERNET_NNI:
return "nni-" + str(port_no)
elif port_type is Port.PON_OLT:
return "pon" + str(intf_id)
elif port_type is Port.ETHERNET_UNI:
if serial_number is not None:
return serial_number
else:
return "uni-{}".format(port_no)
def port_type(self, port_no):
ports = self.adapter_agent.get_ports(self.device_id)
for port in ports:
if port.port_no == port_no:
return port.type
return None
def add_logical_port(self, port_no, intf_id, oper_state):
self.log.info('adding-logical-port', port_no=port_no)
label = self.port_name(port_no, Port.ETHERNET_NNI)
cap = OFPPF_1GB_FD | OFPPF_FIBER
curr_speed = OFPPF_1GB_FD
max_speed = OFPPF_1GB_FD
if oper_state == OperStatus.ACTIVE:
of_oper_state = OFPPS_LIVE
else:
of_oper_state = OFPPS_LINK_DOWN
ofp = ofp_port(
port_no=port_no,
hw_addr=mac_str_to_tuple('00:00:00:00:00:%02x' % port_no),
name=label, config=0, state=of_oper_state, curr=cap,
advertised=cap, peer=cap, curr_speed=curr_speed,
max_speed=max_speed)
logical_port = LogicalPort(
id=label, ofp_port=ofp, device_id=self.device_id,
device_port_no=port_no, root_port=True)
self.adapter_agent.add_logical_port(self.logical_device_id,
logical_port)
def add_port(self, intf_id, port_type, oper_status):
port_no = platform.intf_id_to_port_no(intf_id, port_type)
label = self.port_name(port_no, port_type, intf_id)
self.log.info('adding-port', port_no=port_no, label=label,
port_type=port_type)
port = Port(port_no=port_no, label=label, type=port_type,
admin_state=AdminState.ENABLED, oper_status=oper_status)
self.adapter_agent.add_port(self.device_id, port)
return port_no, label
def new_onu_id(self, intf_id):
onu_id = None
onu_devices = self.adapter_agent.get_child_devices(self.device_id)
for i in range(1, 512):
id_not_taken = True
for child_device in onu_devices:
if child_device.proxy_address.onu_id == i:
id_not_taken = False
break
if id_not_taken:
onu_id = i
break
return onu_id
def stringify_vendor_specific(self, vendor_specific):
return ''.join(str(i) for i in [
hex(ord(vendor_specific[0]) >> 4 & 0x0f)[2:],
hex(ord(vendor_specific[0]) & 0x0f)[2:],
hex(ord(vendor_specific[1]) >> 4 & 0x0f)[2:],
hex(ord(vendor_specific[1]) & 0x0f)[2:],
hex(ord(vendor_specific[2]) >> 4 & 0x0f)[2:],
hex(ord(vendor_specific[2]) & 0x0f)[2:],
hex(ord(vendor_specific[3]) >> 4 & 0x0f)[2:],
hex(ord(vendor_specific[3]) & 0x0f)[2:]])
def update_flow_table(self, flows):
device = self.adapter_agent.get_device(self.device_id)
self.log.debug('update flow table')
in_port = None
for flow in flows:
is_down_stream = None
in_port = fd.get_in_port(flow)
assert in_port is not None
# Right now there is only one NNI port. Get the NNI PORT and
# compare with IN_PUT port number. Need to find better way.
ports = self.adapter_agent.get_ports(device.id, Port.ETHERNET_NNI)
for port in ports:
if (port.port_no == in_port):
self.log.info('downstream-flow')
is_down_stream = True
break
if is_down_stream is None:
is_down_stream = False
self.log.info('upstream-flow')
for flow in flows:
try:
self.flow_mgr.add_flow(flow, is_down_stream)
except Exception as e:
self.log.exception('failed-to-install-flow', e=e,
flow=flow)
# There has to be a better way to do this
def ip_hex(self, ip):
octets = ip.split(".")
hex_ip = []
for octet in octets:
octet_hex = hex(int(octet))
octet_hex = octet_hex.split('0x')[1]
octet_hex = octet_hex.rjust(2, '0')
hex_ip.append(octet_hex)
return ":".join(hex_ip)
def stringify_serial_number(self, serial_number):
return ''.join([serial_number.vendor_id,
self.stringify_vendor_specific(
serial_number.vendor_specific)])
def disable(self):
self.log.info('sending-deactivate-olt-message',
device_id=self.device_id)
# Send grpc call
# self.stub.DeactivateOlt(openolt_pb2.Empty())
# Soft deactivate. Turning down hardware should remove flows,
# but we are not doing that presently
# Bring OLT down
self.olt_down(oper_state=OperStatus.UNKNOWN,
admin_state=AdminState.DISABLED,
connect_state=ConnectStatus.UNREACHABLE)
def delete(self):
self.log.info('delete-olt', device_id=self.device_id)
# Stop the grpc communication threads
self.log.info('stopping-grpc-threads', device_id=self.device_id)
self.indications_thread_active = False
self.heartbeat_thread_active = False
# Close the grpc channel
# self.log.info('unsubscribing-grpc-channel', device_id=self.device_id)
# self.channel.unsubscribe()
self.log.info('successfully-deleted-olt', device_id=self.device_id)
def reenable(self):
self.log.info('reenable-olt', device_id=self.device_id)
# Bring up OLT
self.olt_up()
# Enable all child devices
self.log.info('enabling-child-devices', device_id=self.device_id)
self.log.info('enabling-child-devices', olt_device_id=self.device_id)
self.adapter_agent.update_child_devices_state(
parent_device_id=self.device_id,
admin_state=AdminState.ENABLED)
# Set all ports to enabled
self.log.info('enabling-all-ports', device_id=self.device_id)
self.adapter_agent.enable_all_ports(self.device_id)