blob: df834e557ea4690b59fec9a07234d963afd5dfec [file] [log] [blame]
#
# 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 adapter.
"""
import arrow
import grpc
import structlog
from google.protobuf.empty_pb2 import Empty
from google.protobuf.json_format import MessageToDict
from scapy.layers.inet import Raw
import json
from google.protobuf.message import Message
from grpc._channel import _Rendezvous
from scapy.layers.l2 import Ether, Dot1Q
from simplejson import dumps
from twisted.internet import reactor
from twisted.internet.defer import inlineCallbacks, returnValue
from twisted.internet.task import LoopingCall
from python.adapters.common.frameio.frameio import BpfProgramFilter, hexify
from python.common.utils.asleep import asleep
from python.common.utils.registry import registry
from python.adapters.iadapter import OltAdapter
from python.adapters.kafka.kafka_proxy import get_kafka_proxy
from python.protos import ponsim_pb2
from python.protos import third_party
from python.protos.common_pb2 import OperStatus, ConnectStatus
from python.protos.core_adapter_pb2 import SwitchCapability, PortCapability, \
InterAdapterMessageType, InterAdapterResponseBody
from python.protos.device_pb2 import Port, PmConfig, PmConfigs
from python.protos.events_pb2 import KpiEvent, KpiEventType, MetricValuePairs
from python.protos.logical_device_pb2 import LogicalPort
from python.protos.openflow_13_pb2 import OFPPS_LIVE, OFPPF_FIBER, \
OFPPF_1GB_FD, \
OFPC_GROUP_STATS, OFPC_PORT_STATS, OFPC_TABLE_STATS, OFPC_FLOW_STATS, \
ofp_switch_features, ofp_desc
from python.protos.openflow_13_pb2 import ofp_port
from python.protos.ponsim_pb2 import FlowTable, PonSimFrame, PonSimMetricsRequest
_ = third_party
log = structlog.get_logger()
PACKET_IN_VLAN = 4000
is_inband_frame = BpfProgramFilter('(ether[14:2] & 0xfff) = 0x{:03x}'.format(
PACKET_IN_VLAN))
def mac_str_to_tuple(mac):
return tuple(int(d, 16) for d in mac.split(':'))
class AdapterPmMetrics:
def __init__(self, device):
self.pm_names = {'tx_64_pkts', 'tx_65_127_pkts', 'tx_128_255_pkts',
'tx_256_511_pkts', 'tx_512_1023_pkts',
'tx_1024_1518_pkts', 'tx_1519_9k_pkts',
'rx_64_pkts', 'rx_65_127_pkts',
'rx_128_255_pkts', 'rx_256_511_pkts',
'rx_512_1023_pkts', 'rx_1024_1518_pkts',
'rx_1519_9k_pkts'}
self.device = device
self.id = device.id
self.name = 'ponsim_olt'
self.default_freq = 150
self.grouped = False
self.freq_override = False
self.pon_metrics_config = dict()
self.nni_metrics_config = dict()
self.lc = None
for m in self.pm_names:
self.pon_metrics_config[m] = PmConfig(name=m,
type=PmConfig.COUNTER,
enabled=True)
self.nni_metrics_config[m] = PmConfig(name=m,
type=PmConfig.COUNTER,
enabled=True)
def update(self, pm_config):
if self.default_freq != pm_config.default_freq:
# Update the callback to the new frequency.
self.default_freq = pm_config.default_freq
self.lc.stop()
self.lc.start(interval=self.default_freq / 10)
for m in pm_config.metrics:
self.pon_metrics_config[m.name].enabled = m.enabled
self.nni_metrics_config[m.name].enabled = m.enabled
def make_proto(self):
pm_config = PmConfigs(
id=self.id,
default_freq=self.default_freq,
grouped=False,
freq_override=False)
for m in sorted(self.pon_metrics_config):
pm = self.pon_metrics_config[m] # Either will do they're the same
pm_config.metrics.extend([PmConfig(name=pm.name,
type=pm.type,
enabled=pm.enabled)])
return pm_config
def collect_port_metrics(self, channel):
rtrn_port_metrics = dict()
stub = ponsim_pb2.PonSimStub(channel)
stats = stub.GetStats(Empty())
rtrn_port_metrics['pon'] = self.extract_pon_metrics(stats)
rtrn_port_metrics['nni'] = self.extract_nni_metrics(stats)
return rtrn_port_metrics
def extract_pon_metrics(self, stats):
rtrn_pon_metrics = dict()
for m in stats.metrics:
if m.port_name == "pon":
for p in m.packets:
if self.pon_metrics_config[p.name].enabled:
rtrn_pon_metrics[p.name] = p.value
return rtrn_pon_metrics
def extract_nni_metrics(self, stats):
rtrn_pon_metrics = dict()
for m in stats.metrics:
if m.port_name == "nni":
for p in m.packets:
if self.pon_metrics_config[p.name].enabled:
rtrn_pon_metrics[p.name] = p.value
return rtrn_pon_metrics
def start_collector(self, callback):
log.info("starting-pm-collection", device_name=self.name,
device_id=self.device.id)
prefix = 'voltha.{}.{}'.format(self.name, self.device.id)
self.lc = LoopingCall(callback, self.device.id, prefix)
self.lc.start(interval=self.default_freq / 10)
def stop_collector(self):
log.info("stopping-pm-collection", device_name=self.name,
device_id=self.device.id)
self.lc.stop()
class AdapterAlarms:
def __init__(self, adapter, device):
self.adapter = adapter
self.device = device
self.lc = None
# TODO: Implement code to send to kafka cluster directly instead of
# going through the voltha core.
def send_alarm(self, context_data, alarm_data):
log.debug("send-alarm-not-implemented")
return
class PonSimOltAdapter(OltAdapter):
def __init__(self, core_proxy, adapter_proxy, config):
super(PonSimOltAdapter, self).__init__(core_proxy=core_proxy,
adapter_proxy=adapter_proxy,
config=config,
device_handler_class=PonSimOltHandler,
name='ponsim_olt',
vendor='Voltha project',
version='0.4',
device_type='ponsim_olt',
accepts_bulk_flow_update=True,
accepts_add_remove_flow_updates=False)
def update_pm_config(self, device, pm_config):
log.info("adapter-update-pm-config", device=device,
pm_config=pm_config)
handler = self.devices_handlers[device.id]
handler.update_pm_config(device, pm_config)
class PonSimOltHandler(object):
def __init__(self, adapter, device_id):
self.adapter = adapter
self.core_proxy = adapter.core_proxy
self.adapter_proxy = adapter.adapter_proxy
self.device_id = device_id
self.log = structlog.get_logger(device_id=device_id)
self.channel = None
self.io_port = None
self.logical_device_id = None
self.nni_port = None
self.ofp_port_no = None
self.interface = registry('main').get_args().interface
self.pm_metrics = None
self.alarms = None
self.frames = None
@inlineCallbacks
def get_channel(self):
if self.channel is None:
try:
device = yield self.core_proxy.get_device(self.device_id)
self.log.info('device-info', device=device,
host_port=device.host_and_port)
self.channel = grpc.insecure_channel(device.host_and_port)
except Exception as e:
log.exception("ponsim-connection-failure", e=e)
# returnValue(self.channel)
def close_channel(self):
if self.channel is None:
self.log.info('grpc-channel-already-closed')
return
else:
if self.frames is not None:
self.frames.cancel()
self.frames = None
self.log.info('cancelled-grpc-frame-stream')
self.channel.unsubscribe(lambda *args: None)
self.channel = None
self.log.info('grpc-channel-closed')
@inlineCallbacks
def _get_nni_port(self):
ports = yield self.core_proxy.get_ports(self.device_id,
Port.ETHERNET_NNI)
returnValue(ports)
@inlineCallbacks
def activate(self, device):
try:
self.log.info('activating')
if not device.host_and_port:
device.oper_status = OperStatus.FAILED
device.reason = 'No host_and_port field provided'
self.core_proxy.device_update(device)
return
yield self.get_channel()
stub = ponsim_pb2.PonSimStub(self.channel)
info = stub.GetDeviceInfo(Empty())
log.info('got-info', info=info, device_id=device.id)
self.ofp_port_no = info.nni_port
device.root = True
device.vendor = 'ponsim'
device.model = 'n/a'
device.serial_number = device.host_and_port
device.mac_address = "AA:BB:CC:DD:EE:FF"
yield self.core_proxy.device_update(device)
# Now set the initial PM configuration for this device
self.pm_metrics = AdapterPmMetrics(device)
pm_config = self.pm_metrics.make_proto()
log.info("initial-pm-config", pm_config=pm_config)
self.core_proxy.device_pm_config_update(pm_config, init=True)
# Setup alarm handler
self.alarms = AdapterAlarms(self.adapter, device)
nni_port = Port(
port_no=info.nni_port,
label='NNI facing Ethernet port',
type=Port.ETHERNET_NNI,
oper_status=OperStatus.ACTIVE
)
self.nni_port = nni_port
yield self.core_proxy.port_created(device.id, nni_port)
yield self.core_proxy.port_created(device.id, Port(
port_no=1,
label='PON port',
type=Port.PON_OLT,
oper_status=OperStatus.ACTIVE
))
yield self.core_proxy.device_state_update(device.id,
connect_status=ConnectStatus.REACHABLE,
oper_status=OperStatus.ACTIVE)
# register ONUS
self.log.info('onu-found', onus=info.onus, len=len(info.onus))
for onu in info.onus:
vlan_id = onu.uni_port
yield self.core_proxy.child_device_detected(
parent_device_id=device.id,
parent_port_no=1,
child_device_type='ponsim_onu',
channel_id=vlan_id,
)
self.log.info('starting-frame-grpc-stream')
reactor.callInThread(self.rcv_grpc)
self.log.info('started-frame-grpc-stream')
# TODO
# Start collecting stats from the device after a brief pause
self.start_kpi_collection(device.id)
except Exception as e:
log.exception("Exception-activating", e=e)
def get_ofp_device_info(self, device):
return SwitchCapability(
desc=ofp_desc(
hw_desc='ponsim pon',
sw_desc='ponsim pon',
serial_num=device.serial_number,
dp_desc='n/a'
),
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
)
)
)
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,
info=self.ofp_port_no, device_id=device.id)
cap = OFPPF_1GB_FD | OFPPF_FIBER
return PortCapability(
port=LogicalPort(
ofp_port=ofp_port(
hw_addr=mac_str_to_tuple(
'00:00:00:00:00:%02x' % 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=port_no
)
)
# TODO - change for core 2.0
def reconcile(self, device):
self.log.info('reconciling-OLT-device')
def _rcv_frame(self, frame):
pkt = Ether(frame)
if pkt.haslayer(Dot1Q):
outer_shim = pkt.getlayer(Dot1Q)
if isinstance(outer_shim.payload, Dot1Q):
inner_shim = outer_shim.payload
cvid = inner_shim.vlan
popped_frame = (
Ether(src=pkt.src, dst=pkt.dst, type=inner_shim.type) /
inner_shim.payload
)
self.log.info('sending-packet-in',device_id=self.device_id, port=cvid)
self.core_proxy.send_packet_in(device_id=self.device_id,
port=cvid,
packet=str(popped_frame))
elif pkt.haslayer(Raw):
raw_data = json.loads(pkt.getlayer(Raw).load)
self.alarms.send_alarm(self, raw_data)
@inlineCallbacks
def rcv_grpc(self):
"""
This call establishes a GRPC stream to receive frames.
"""
yield self.get_channel()
stub = ponsim_pb2.PonSimStub(self.channel)
# stub = ponsim_pb2.PonSimStub(self.get_channel())
# Attempt to establish a grpc stream with the remote ponsim service
self.frames = stub.ReceiveFrames(Empty())
self.log.info('start-receiving-grpc-frames')
try:
for frame in self.frames:
self.log.info('received-grpc-frame',
frame_len=len(frame.payload))
self._rcv_frame(frame.payload)
except _Rendezvous, e:
log.warn('grpc-connection-lost', message=e.message)
self.log.info('stopped-receiving-grpc-frames')
@inlineCallbacks
def update_flow_table(self, flows):
yield self.get_channel()
stub = ponsim_pb2.PonSimStub(self.channel)
self.log.info('pushing-olt-flow-table')
stub.UpdateFlowTable(FlowTable(
port=0,
flows=flows
))
self.log.info('success')
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
def update_pm_config(self, device, pm_config):
log.info("handler-update-pm-config", device=device,
pm_config=pm_config)
self.pm_metrics.update(pm_config)
def send_proxied_message(self, proxy_address, msg):
self.log.info('sending-proxied-message')
if isinstance(msg, FlowTable):
stub = ponsim_pb2.PonSimStub(self.get_channel())
self.log.info('pushing-onu-flow-table', port=msg.port)
res = stub.UpdateFlowTable(msg)
self.core_proxy.receive_proxied_message(proxy_address, res)
@inlineCallbacks
def process_inter_adapter_message(self, request):
self.log.info('process-inter-adapter-message', msg=request)
try:
if request.header.type == InterAdapterMessageType.FLOW_REQUEST:
f = FlowTable()
if request.body:
request.body.Unpack(f)
stub = ponsim_pb2.PonSimStub(self.channel)
self.log.info('pushing-onu-flow-table')
res = stub.UpdateFlowTable(f)
# Send response back
reply = InterAdapterResponseBody()
reply.status = True
self.log.info('sending-response-back', reply=reply)
yield self.adapter_proxy.send_inter_adapter_message(
msg=reply,
type=InterAdapterMessageType.FLOW_RESPONSE,
from_adapter=self.adapter.name,
to_adapter=request.header.from_topic,
to_device_id=request.header.to_device_id,
message_id=request.header.id
)
elif request.header.type == InterAdapterMessageType.METRICS_REQUEST:
m = PonSimMetricsRequest()
if request.body:
request.body.Unpack(m)
stub = ponsim_pb2.PonSimStub(self.channel)
self.log.info('proxying onu stats request', port=m.port)
res = stub.GetStats(m)
# Send response back
reply = InterAdapterResponseBody()
reply.status = True
reply.body.Pack(res)
self.log.info('sending-response-back', reply=reply)
yield self.adapter_proxy.send_inter_adapter_message(
msg=reply,
type=InterAdapterMessageType.METRICS_RESPONSE,
from_adapter=self.adapter.name,
to_adapter=request.header.from_topic,
to_device_id=request.header.to_device_id,
message_id=request.header.id
)
except Exception as e:
self.log.exception("error-processing-inter-adapter-message", e=e)
def packet_out(self, egress_port, msg):
self.log.info('sending-packet-out', egress_port=egress_port,
msg=hexify(msg))
pkt = Ether(msg)
out_pkt = pkt
if egress_port != self.nni_port.port_no:
# don't do the vlan manipulation for the NNI port, vlans are already correct
out_pkt = (
Ether(src=pkt.src, dst=pkt.dst) /
Dot1Q(vlan=egress_port, type=pkt.type) /
pkt.payload
)
# TODO need better way of mapping logical ports to PON ports
out_port = self.nni_port.port_no if egress_port == self.nni_port.port_no else 1
# send over grpc stream
stub = ponsim_pb2.PonSimStub(self.channel)
frame = PonSimFrame(id=self.device_id, payload=str(out_pkt),
out_port=out_port)
stub.SendFrame(frame)
@inlineCallbacks
def reboot(self):
self.log.info('rebooting', device_id=self.device_id)
yield self.core_proxy.device_state_update(self.device_id,
connect_status=ConnectStatus.UNREACHABLE)
# Update the child devices connect state to UNREACHABLE
yield self.core_proxy.children_state_update(self.device_id,
connect_status=ConnectStatus.UNREACHABLE)
# Sleep 10 secs, simulating a reboot
# TODO: send alert and clear alert after the reboot
yield asleep(10)
# Change the connection status back to REACHABLE. With a
# real OLT the connection state must be the actual state
yield self.core_proxy.device_state_update(self.device_id,
connect_status=ConnectStatus.REACHABLE)
# Update the child devices connect state to REACHABLE
yield self.core_proxy.children_state_update(self.device_id,
connect_status=ConnectStatus.REACHABLE)
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()
@inlineCallbacks
def disable(self):
self.log.info('disabling', device_id=self.device_id)
self.stop_kpi_collection()
# Update the operational status to UNKNOWN and connection status to UNREACHABLE
yield self.core_proxy.device_state_update(self.device_id,
oper_status=OperStatus.UNKNOWN,
connect_status=ConnectStatus.UNREACHABLE)
self.close_channel()
self.log.info('disabled-grpc-channel')
self.stop_kpi_collection()
# TODO:
# 1) Remove all flows from the device
# 2) Remove the device from ponsim
self.log.info('disabled', device_id=self.device_id)
@inlineCallbacks
def reenable(self):
self.log.info('re-enabling', device_id=self.device_id)
# Set the ofp_port_no and nni_port in case we bypassed the reconcile
# process if the device was in DISABLED state on voltha restart
if not self.ofp_port_no and not self.nni_port:
yield self.get_channel()
stub = ponsim_pb2.PonSimStub(self.channel)
info = stub.GetDeviceInfo(Empty())
log.info('got-info', info=info)
self.ofp_port_no = info.nni_port
ports = yield self._get_nni_port()
# For ponsim, we are using only 1 NNI port
if ports.items:
self.nni_port = ports.items[0]
# Update the state of the NNI port
yield self.core_proxy.port_state_update(self.device_id,
port_type=Port.ETHERNET_NNI,
port_no=self.ofp_port_no,
oper_status=OperStatus.ACTIVE)
# Update the state of the PON port
yield self.core_proxy.port_state_update(self.device_id,
port_type=Port.PON_OLT,
port_no=1,
oper_status=OperStatus.ACTIVE)
# Set the operational state of the device to ACTIVE and connect status to REACHABLE
yield self.core_proxy.device_state_update(self.device_id,
connect_status=ConnectStatus.REACHABLE,
oper_status=OperStatus.ACTIVE)
# TODO: establish frame grpc-stream
# yield reactor.callInThread(self.rcv_grpc)
self.start_kpi_collection(self.device_id)
self.log.info('re-enabled', device_id=self.device_id)
def delete(self):
self.log.info('deleting', device_id=self.device_id)
self.close_channel()
self.log.info('disabled-grpc-channel')
# TODO:
# 1) Remove all flows from the device
# 2) Remove the device from ponsim
self.log.info('deleted', device_id=self.device_id)
def start_kpi_collection(self, device_id):
kafka_cluster_proxy = get_kafka_proxy()
def _collect(device_id, prefix):
try:
# Step 1: gather metrics from device
port_metrics = \
self.pm_metrics.collect_port_metrics(self.channel)
# Step 2: prepare the KpiEvent for submission
# we can time-stamp them here (or could use time derived from OLT
ts = arrow.utcnow().timestamp
kpi_event = KpiEvent(
type=KpiEventType.slice,
ts=ts,
prefixes={
# OLT NNI port
prefix + '.nni': MetricValuePairs(
metrics=port_metrics['nni']),
# OLT PON port
prefix + '.pon': MetricValuePairs(
metrics=port_metrics['pon'])
}
)
# Step 3: submit directly to the kafka bus
if kafka_cluster_proxy:
if isinstance(kpi_event, Message):
kpi_event = dumps(MessageToDict(kpi_event, True, True))
kafka_cluster_proxy.send_message("voltha.kpis", kpi_event)
except Exception as e:
log.exception('failed-to-submit-kpis', e=e)
self.pm_metrics.start_collector(_collect)
def stop_kpi_collection(self):
self.pm_metrics.stop_collector()