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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.
#
"""
Fully simulated OLT/ONU adapter.
"""
import sys
import structlog
from twisted.internet.defer import DeferredQueue, inlineCallbacks
from adapters.common.utils.asleep import asleep
from adapters.iadapter import OnuAdapter
from adapters.protos import third_party
from adapters.protos.common_pb2 import OperStatus, ConnectStatus, AdminState
from adapters.protos.device_pb2 import Port
from adapters.protos.logical_device_pb2 import LogicalPort
from adapters.protos.openflow_13_pb2 import OFPPS_LIVE, OFPPF_FIBER, \
OFPPF_1GB_FD
from adapters.protos.openflow_13_pb2 import ofp_port
from adapters.protos.ponsim_pb2 import FlowTable
from adapters.protos.core_adapter_pb2 import PortCapability
_ = third_party
log = structlog.get_logger()
def mac_str_to_tuple(mac):
return tuple(int(d, 16) for d in mac.split(':'))
class PonSimOnuAdapter(OnuAdapter):
def __init__(self, adapter_agent, config):
# DeviceType of ONU should be same as VENDOR ID of ONU Serial Number as specified by standard
# requires for identifying correct adapter or ranged ONU
super(PonSimOnuAdapter, self).__init__(adapter_agent=adapter_agent,
config=config,
device_handler_class=PonSimOnuHandler,
name='ponsim_onu',
vendor='Voltha project',
version='0.4',
device_type='ponsim_onu',
vendor_id='PSMO',
accepts_bulk_flow_update=True,
accepts_add_remove_flow_updates=False)
class PonSimOnuHandler(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
# reference of uni_port is required when re-enabling the device if
# it was disabled previously
self.uni_port = None
self.pon_port = None
def receive_message(self, msg):
self.incoming_messages.put(msg)
@inlineCallbacks
def activate(self, device):
self.log.info('activating')
# TODO: Register for proxy address
# # 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
#
# # 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 = False
device.vendor = 'ponsim'
device.model = 'n/a'
device.connect_status = ConnectStatus.REACHABLE
yield self.adapter_agent.device_update(device)
# register physical ports
self.uni_port = Port(
port_no=2,
label='UNI facing Ethernet port',
type=Port.ETHERNET_UNI,
admin_state=AdminState.ENABLED,
oper_status=OperStatus.ACTIVE
)
self.pon_port = Port(
port_no=1,
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
)
]
)
self.adapter_agent.port_created(device.id, self.uni_port)
self.adapter_agent.port_created(device.id, self.pon_port)
yield self.adapter_agent.device_state_update(device.id, oper_status=OperStatus.ACTIVE)
def get_ofp_port_info(self, device, port_no):
# Since the adapter created the device port then it has the reference of the port to
# return the capability. TODO: Do a lookup on the NNI port number and return the
# appropriate attributes
self.log.info('get_ofp_port_info', port_no=port_no, device_id=device.id)
# port_no = device.proxy_address.channel_id
cap = OFPPF_1GB_FD | OFPPF_FIBER
return PortCapability(
port = LogicalPort (
id='uni-{}'.format(port_no),
ofp_port=ofp_port(
port_no=port_no,
hw_addr=mac_str_to_tuple('00:00:00:00:00:%02x' % port_no),
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
)
)
)
def _get_uni_port(self):
ports = self.adapter_agent.get_ports(self.device_id, Port.ETHERNET_UNI)
if ports:
# For now, we use on one uni port
return ports[0]
def _get_pon_port(self):
ports = self.adapter_agent.get_ports(self.device_id, Port.PON_ONU)
if ports:
# For now, we use on one uni port
return ports[0]
def reconcile(self, device):
self.log.info('reconciling-ONU-device-starts')
# 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
# register for proxied messages right away
self.proxy_address = device.proxy_address
self.adapter_agent.register_for_proxied_messages(device.proxy_address)
# Set the connection status to REACHABLE
device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(device)
# TODO: Verify that the uni, pon and logical ports exists
# Mark the device as REACHABLE and ACTIVE
device = self.adapter_agent.get_device(device.id)
device.connect_status = ConnectStatus.REACHABLE
device.oper_status = OperStatus.ACTIVE
self.adapter_agent.update_device(device)
self.log.info('reconciling-ONU-device-ends')
@inlineCallbacks
def update_flow_table(self, flows):
# we need to proxy through the OLT to get to the ONU
# reset response queue
while self.incoming_messages.pending:
yield self.incoming_messages.get()
msg = FlowTable(
port=self.proxy_address.channel_id,
flows=flows
)
self.adapter_agent.send_proxied_message(self.proxy_address, msg)
yield self.incoming_messages.get()
def remove_from_flow_table(self, flows):
self.log.debug('remove-from-flow-table', flows=flows)
# TODO: Update PONSIM code to accept incremental flow changes.
# Once completed, the accepts_add_remove_flow_updates for this
# device type can be set to True
def add_to_flow_table(self, flows):
self.log.debug('add-to-flow-table', flows=flows)
# TODO: Update PONSIM code to accept incremental flow changes
# Once completed, the accepts_add_remove_flow_updates for this
# device type can be set to True
@inlineCallbacks
def reboot(self):
self.log.info('rebooting', device_id=self.device_id)
# Update the operational status to ACTIVATING and connect status to
# UNREACHABLE
device = self.adapter_agent.get_device(self.device_id)
previous_oper_status = device.oper_status
previous_conn_status = device.connect_status
device.oper_status = OperStatus.ACTIVATING
device.connect_status = ConnectStatus.UNREACHABLE
self.adapter_agent.update_device(device)
# Sleep 10 secs, simulating a reboot
# TODO: send alert and clear alert after the reboot
yield asleep(10)
# Change the operational status back to its previous state. With a
# real OLT the operational state should be the state the device is
# after a reboot.
# Get the latest device reference
device = self.adapter_agent.get_device(self.device_id)
device.oper_status = previous_oper_status
device.connect_status = previous_conn_status
self.adapter_agent.update_device(device)
self.log.info('rebooted', device_id=self.device_id)
def self_test_device(self, device):
"""
This is called to Self a device based on a NBI call.
:param device: A Voltha.Device object.
:return: Will return result of self test
"""
log.info('self-test-device', device=device.id)
raise NotImplementedError()
def disable(self):
self.log.info('disabling', device_id=self.device_id)
# Get the latest device reference
device = self.adapter_agent.get_device(self.device_id)
# Disable all ports on that device
self.adapter_agent.disable_all_ports(self.device_id)
# Update the device operational status to UNKNOWN
device.oper_status = OperStatus.UNKNOWN
device.connect_status = ConnectStatus.UNREACHABLE
self.adapter_agent.update_device(device)
# Remove the uni logical port from the OLT, if still present
parent_device = self.adapter_agent.get_device(device.parent_id)
assert parent_device
logical_device_id = parent_device.parent_id
assert logical_device_id
port_no = device.proxy_address.channel_id
port_id = 'uni-{}'.format(port_no)
try:
port = self.adapter_agent.get_logical_port(logical_device_id,
port_id)
self.adapter_agent.delete_logical_port(logical_device_id, port)
except KeyError:
self.log.info('logical-port-not-found', device_id=self.device_id,
portid=port_id)
# Remove pon port from parent
self.pon_port = self._get_pon_port()
self.adapter_agent.delete_port_reference_from_parent(self.device_id,
self.pon_port)
# Just updating the port status may be an option as well
# port.ofp_port.config = OFPPC_NO_RECV
# yield self.adapter_agent.update_logical_port(logical_device_id,
# port)
# Unregister for proxied message
self.adapter_agent.unregister_for_proxied_messages(
device.proxy_address)
# TODO:
# 1) Remove all flows from the device
# 2) Remove the device from ponsim
self.log.info('disabled', device_id=device.id)
def reenable(self):
self.log.info('re-enabling', device_id=self.device_id)
try:
# Get the latest device reference
device = self.adapter_agent.get_device(self.device_id)
# 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
# Re-register for proxied messages right away
self.proxy_address = device.proxy_address
self.adapter_agent.register_for_proxied_messages(
device.proxy_address)
# Re-enable the ports on that device
self.adapter_agent.enable_all_ports(self.device_id)
# Refresh the port reference
self.uni_port = self._get_uni_port()
self.pon_port = self._get_pon_port()
# Add the pon port reference to the parent
self.adapter_agent.add_port_reference_to_parent(device.id,
self.pon_port)
# Update the connect status to REACHABLE
device.connect_status = ConnectStatus.REACHABLE
self.adapter_agent.update_device(device)
# re-add uni port to logical device
parent_device = self.adapter_agent.get_device(device.parent_id)
logical_device_id = parent_device.parent_id
assert logical_device_id
port_no = device.proxy_address.channel_id
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('00:00:00:00:00:%02x' % port_no),
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=self.uni_port.port_no
))
device = self.adapter_agent.get_device(device.id)
device.oper_status = OperStatus.ACTIVE
self.adapter_agent.update_device(device)
self.log.info('re-enabled', device_id=device.id)
except Exception, e:
self.log.exception('error-reenabling', e=e)
def delete(self):
self.log.info('deleting', device_id=self.device_id)
# A delete request may be received when an OLT is dsiabled
# TODO:
# 1) Remove all flows from the device
# 2) Remove the device from ponsim
self.log.info('deleted', device_id=self.device_id)