| # |
| # 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. |
| # |
| |
| """ |
| Tibit OLT device adapter |
| """ |
| import json |
| from uuid import uuid4 |
| |
| import structlog |
| from scapy.fields import StrField |
| from scapy.layers.l2 import Ether, Dot1Q |
| from scapy.packet import Packet, bind_layers |
| from twisted.internet import reactor |
| from twisted.internet.defer import DeferredQueue, inlineCallbacks |
| from zope.interface import implementer |
| |
| from common.frameio.frameio import BpfProgramFilter, hexify |
| from voltha.adapters.interface import IAdapterInterface |
| from voltha.extensions.eoam.EOAM import EOAMPayload, DPoEOpcode_SetRequest |
| from voltha.extensions.eoam.EOAM_TLV import DOLTObject, \ |
| NetworkToNetworkPortObject, OLTUnicastLogicalLink, \ |
| PortIngressRuleClauseMatchLength01, AddStaticMacAddress, \ |
| PortIngressRuleClauseMatchLength02, PortIngressRuleResultForward, \ |
| PortIngressRuleResultSet, PortIngressRuleResultInsert, \ |
| PortIngressRuleResultCopy, PortIngressRuleResultReplace, \ |
| PortIngressRuleResultDelete, PortIngressRuleResultOLTQueue, \ |
| PortIngressRuleTerminator, AddPortIngressRule, CablelabsOUI, PonPortObject |
| from voltha.extensions.eoam.EOAM_TLV import PortIngressRuleHeader |
| from voltha.extensions.eoam.EOAM_TLV import ClauseSubtypeEnum |
| from voltha.extensions.eoam.EOAM_TLV import RuleOperatorEnum |
| from voltha.core.flow_decomposer import * |
| from voltha.core.logical_device_agent import mac_str_to_tuple |
| from voltha.protos.adapter_pb2 import Adapter, AdapterConfig |
| from voltha.protos.common_pb2 import LogLevel, ConnectStatus |
| from voltha.protos.common_pb2 import OperStatus, AdminState |
| from voltha.protos.device_pb2 import Device, Port |
| from voltha.protos.device_pb2 import DeviceType, DeviceTypes |
| from voltha.protos.health_pb2 import HealthStatus |
| from voltha.protos.logical_device_pb2 import LogicalDevice, LogicalPort |
| from voltha.protos.openflow_13_pb2 import ofp_desc, ofp_port, OFPPF_10GB_FD, \ |
| OFPPF_FIBER, OFPPS_LIVE, ofp_switch_features, OFPC_PORT_STATS, \ |
| OFPC_GROUP_STATS, OFPC_TABLE_STATS, OFPC_FLOW_STATS |
| from voltha.registry import registry |
| log = structlog.get_logger() |
| |
| # Match on the MGMT VLAN, Priority 7 |
| TIBIT_MGMT_VLAN = 4090 |
| TIBIT_MGMT_PRIORITY = 7 |
| frame_match_case1 = 'ether[14:2] = 0x{:01x}{:03x}'.format( |
| TIBIT_MGMT_PRIORITY << 1, TIBIT_MGMT_VLAN) |
| |
| TIBIT_PACKET_IN_VLAN = 4000 |
| frame_match_case2 = '(ether[14:2] & 0xfff) = 0x{:03x}'.format( |
| TIBIT_PACKET_IN_VLAN) |
| |
| TIBIT_PACKET_OUT_VLAN = 4000 |
| |
| is_tibit_frame = BpfProgramFilter('{} or {}'.format( |
| frame_match_case1, frame_match_case2)) |
| |
| #is_tibit_frame = lambda x: True |
| |
| # Extract OLT MAC address: This is a good |
| # example of getting the OLT mac address |
| |
| #for mac, device in self.device_ids.iteritems(): |
| # if device == dev_id: |
| # olt_mac_address = mac |
| # log.info('packet-out', olt_mac_address=olt_mac_address) |
| |
| # To be removed in favor of OAM |
| class TBJSON(Packet): |
| """ TBJSON 'packet' layer. """ |
| name = "TBJSON" |
| fields_desc = [StrField("data", default="")] |
| |
| bind_layers(Ether, TBJSON, type=0x9001) |
| |
| SUMITOMO_ELECTRIC_INDUSTRIES_OUI=u"0025DC" |
| |
| @implementer(IAdapterInterface) |
| class TibitOltAdapter(object): |
| |
| name = 'tibit_olt' |
| |
| supported_device_types = [ |
| DeviceType( |
| id='tibit_olt', |
| 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='Tibit Communications Inc.', |
| version='0.1', |
| config=AdapterConfig(log_level=LogLevel.INFO) |
| ) |
| self.interface = registry('main').get_args().interface |
| self.io_port = None |
| self.incoming_queues = {} # OLT mac_address -> DeferredQueue() |
| self.device_ids = {} # OLT mac_address -> device_id |
| self.vlan_to_device_ids = {} # c-vid -> (device_id, logical_device_id) |
| |
| def start(self): |
| log.debug('starting', interface=self.interface) |
| log.info('started', interface=self.interface) |
| |
| def stop(self): |
| log.debug('stopping') |
| if self.io_port is not None: |
| registry('frameio').del_interface(self.interface) |
| 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=device) |
| self._activate_io_port() |
| reactor.callLater(0, self._launch_device_activation, device) |
| |
| def _activate_io_port(self): |
| if self.io_port is None: |
| self.io_port = registry('frameio').add_interface( |
| self.interface, self._rcv_io, is_tibit_frame) |
| |
| @inlineCallbacks |
| def _launch_device_activation(self, device): |
| try: |
| log.debug('launch_dev_activation') |
| # prepare receive queue |
| self.incoming_queues[device.mac_address] = DeferredQueue(size=100) |
| |
| # add mac_address to device_ids table |
| olt_mac = device.mac_address |
| self.device_ids[olt_mac] = device.id |
| |
| # send out ping to OLT device |
| ping_frame = self._make_ping_frame(mac_address=olt_mac) |
| self.io_port.send(ping_frame) |
| |
| # wait till we receive a response |
| ## TODO add timeout mechanism so we can signal if we cannot reach |
| ##device |
| while True: |
| response = yield self.incoming_queues[olt_mac].get() |
| # verify response and if not the expected response |
| if 1: # TODO check if it is really what we expect, and wait if not |
| break |
| |
| except Exception, e: |
| log.exception('launch device failed', e=e) |
| |
| # if we got response, we can fill out the device info, mark the device |
| # reachable |
| # jdev = json.loads(response.data[5:]) |
| jdev = json.loads(response.payload.payload.body.load) |
| device.root = True |
| device.vendor = 'Tibit Communications, Inc.' |
| device.model = jdev.get('results', {}).get('device', 'DEVICE_UNKNOWN') |
| device.hardware_version = jdev['results']['datecode'] |
| device.firmware_version = jdev['results']['firmware'] |
| device.software_version = jdev['results']['modelversion'] |
| device.serial_number = jdev['results']['manufacturer'] |
| |
| device.connect_status = ConnectStatus.REACHABLE |
| self.adapter_agent.update_device(device) |
| |
| # then shortly after we create some ports for the device |
| log.info('create-port') |
| nni_port = Port( |
| port_no=2, |
| label='NNI facing Ethernet port', |
| type=Port.ETHERNET_NNI, |
| admin_state=AdminState.ENABLED, |
| oper_status=OperStatus.ACTIVE |
| ) |
| self.adapter_agent.add_port(device.id, nni_port) |
| self.adapter_agent.add_port(device.id, Port( |
| port_no=1, |
| label='PON port', |
| type=Port.PON_OLT, |
| admin_state=AdminState.ENABLED, |
| oper_status=OperStatus.ACTIVE |
| )) |
| |
| log.info('create-logical-device') |
| # then shortly after we create the logical device with one port |
| # that will correspond to the NNI port |
| ld = LogicalDevice( |
| desc=ofp_desc( |
| mfr_desc=device.vendor, |
| hw_desc=jdev['results']['device'], |
| sw_desc=jdev['results']['firmware'], |
| serial_num=uuid4().hex, |
| 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 |
| ) |
| ), |
| root_device_id=device.id |
| ) |
| ld_initialized = self.adapter_agent.create_logical_device(ld) |
| cap = OFPPF_10GB_FD | OFPPF_FIBER |
| self.adapter_agent.add_logical_port(ld_initialized.id, LogicalPort( |
| id='nni', |
| ofp_port=ofp_port( |
| port_no=0, |
| hw_addr=mac_str_to_tuple(device.mac_address), |
| name='nni', |
| config=0, |
| state=OFPPS_LIVE, |
| curr=cap, |
| advertised=cap, |
| peer=cap, |
| curr_speed=OFPPF_10GB_FD, |
| max_speed=OFPPF_10GB_FD |
| ), |
| device_id=device.id, |
| device_port_no=nni_port.port_no, |
| root_port=True |
| )) |
| |
| # and finally update to active |
| device = self.adapter_agent.get_device(device.id) |
| device.parent_id = ld_initialized.id |
| device.oper_status = OperStatus.ACTIVE |
| self.adapter_agent.update_device(device) |
| |
| # Just transitioned to ACTIVE, wait a tenth of second |
| # before checking for ONUs |
| reactor.callLater(0.1, self._detect_onus, device) |
| |
| @inlineCallbacks |
| def _detect_onus(self, device): |
| # send out get 'links' to the OLT device |
| olt_mac = device.mac_address |
| links_frame = self._make_links_frame(mac_address=olt_mac) |
| self.io_port.send(links_frame) |
| while True: |
| response = yield self.incoming_queues[olt_mac].get() |
| # verify response and if not the expected response |
| if 1: # TODO check if it is really what we expect, and wait if not |
| break |
| |
| jdev = json.loads(response.payload.payload.body.load) |
| onu_mac = '' |
| for macid in jdev['results']: |
| if macid['macid'] is None: |
| log.info('MAC ID is NONE %s' % str(macid['macid'])) |
| elif macid['macid'][:6].upper() == SUMITOMO_ELECTRIC_INDUSTRIES_OUI: |
| onu_mac = macid['macid'] |
| log.info('SUMITOMO mac address %s' % str(macid['macid'])) |
| log.info('activate-olt-for-onu-%s' % onu_mac) |
| # Convert from string to colon separated form |
| onu_mac = ':'.join(s.encode('hex') for s in onu_mac.decode('hex')) |
| vlan_id = self._olt_side_onu_activation(int(macid['macid'][-4:-2], 16)) |
| self.adapter_agent.child_device_detected( |
| parent_device_id=device.id, |
| parent_port_no=1, |
| child_device_type='dpoe_onu', |
| mac_address = onu_mac, |
| proxy_address=Device.ProxyAddress( |
| device_id=device.id, |
| channel_id=vlan_id |
| ), |
| vlan=vlan_id |
| ) |
| |
| else: |
| onu_mac = '000c' + macid.get('macid', 'e2000000')[4:] |
| log.info('activate-olt-for-onu-%s' % onu_mac) |
| # Convert from string to colon separated form |
| onu_mac = ':'.join(s.encode('hex') for s in onu_mac.decode('hex')) |
| vlan_id = self._olt_side_onu_activation(int(macid['macid'][-4:-2], 16)) |
| self.adapter_agent.child_device_detected( |
| parent_device_id=device.id, |
| parent_port_no=1, |
| child_device_type='tibit_onu', |
| mac_address = onu_mac, |
| proxy_address=Device.ProxyAddress( |
| device_id=device.id, |
| channel_id=vlan_id |
| ), |
| vlan=vlan_id |
| ) |
| |
| # also record the vlan_id -> (device_id, logical_device_id) for |
| # later use |
| self.vlan_to_device_ids[vlan_id] = (device.id, device.parent_id) |
| |
| def _olt_side_onu_activation(self, serial): |
| """ |
| This is where if this was a real OLT, the OLT-side activation for |
| the new ONU should be performed. By the time we return, the OLT shall |
| be able to provide tunneled (proxy) communication to the given ONU, |
| using the returned information. |
| """ |
| vlan_id = serial + 200 |
| return vlan_id |
| |
| def _rcv_io(self, port, frame): |
| |
| log.info('frame-received', frame=hexify(frame)) |
| |
| # make into frame to extract source mac |
| response = Ether(frame) |
| |
| if response.haslayer(Dot1Q): |
| |
| # All OAM responses from the OLT should have a TIBIT_MGMT_VLAN. |
| # Responses from the ONUs should have a TIBIT_MGMT_VLAN followed by a ONU CTAG |
| # All packet-in frames will have the TIBIT_PACKET_IN_VLAN. |
| if response.getlayer(Dot1Q).type == 0x8100: |
| |
| if response.getlayer(Dot1Q).vlan == TIBIT_PACKET_IN_VLAN: |
| |
| inner_tag_and_rest = response.payload.payload |
| |
| if isinstance(inner_tag_and_rest, Dot1Q): |
| |
| cvid = inner_tag_and_rest.vlan |
| |
| frame = Ether(src=response.src, |
| dst=response.dst, |
| type=inner_tag_and_rest.type) /\ |
| inner_tag_and_rest.payload |
| |
| _, logical_device_id = self.vlan_to_device_ids.get(cvid) |
| if logical_device_id is None: |
| log.error('invalid-cvid', cvid=cvid) |
| else: |
| self.adapter_agent.send_packet_in( |
| logical_device_id=logical_device_id, |
| logical_port_no=cvid, # C-VID encodes port no |
| packet=str(frame)) |
| |
| else: |
| log.error('packet-in-single-tagged', |
| frame=hexify(response)) |
| |
| else: |
| ## Mgmt responses received from the ONU |
| ## Since the type of the first layer is 0x8100, |
| ## then the frame must have an inner tag layer |
| olt_mac = response.src |
| device_id = self.device_ids[olt_mac] |
| channel_id = response[Dot1Q:2].vlan |
| log.info('received_channel_id', channel_id=channel_id, |
| device_id=device_id) |
| |
| proxy_address=Device.ProxyAddress( |
| device_id=device_id, |
| channel_id=channel_id |
| ) |
| # pop dot1q header(s) |
| msg = response.payload.payload |
| self.adapter_agent.receive_proxied_message(proxy_address, msg) |
| |
| else: |
| ## Mgmt responses received from the OLT |
| ## enqueue incoming parsed frame to right device |
| log.info('received-dot1q-not-8100') |
| self.incoming_queues[response.src].put(response) |
| |
| def _make_ping_frame(self, mac_address): |
| # Create a json packet |
| json_operation_str = '{\"operation\":\"version\"}' |
| frame = Ether(dst=mac_address)/Dot1Q(vlan=TIBIT_MGMT_VLAN, prio=TIBIT_MGMT_PRIORITY)/TBJSON(data='json %s' % json_operation_str) |
| return str(frame) |
| |
| def _make_links_frame(self, mac_address): |
| # Create a json packet |
| json_operation_str = '{\"operation\":\"links\"}' |
| frame = Ether(dst=mac_address)/Dot1Q(vlan=TIBIT_MGMT_VLAN, prio=TIBIT_MGMT_PRIORITY)/TBJSON(data='json %s' % json_operation_str) |
| return str(frame) |
| |
| def abandon_device(self, device): |
| raise NotImplementedError(0 |
| ) |
| def deactivate_device(self, device): |
| raise NotImplementedError() |
| |
| def update_flows_bulk(self, device, flows, groups): |
| log.info('########################################') |
| log.info('bulk-flow-update', device_id=device.id, |
| flows=flows, groups=groups) |
| assert len(groups.items) == 0, "Cannot yet deal with groups" |
| |
| # extract ONU VID |
| vid_from_device_id = {v[0]: k for k,v in self.vlan_to_device_ids.iteritems()} |
| ONU_VID = vid_from_device_id[device.id] |
| |
| Clause = {v: k for k, v in ClauseSubtypeEnum.iteritems()} |
| Operator = {v: k for k, v in RuleOperatorEnum.iteritems()} |
| |
| for flow in flows.items: |
| |
| try: |
| in_port = get_in_port(flow) |
| assert in_port is not None |
| |
| precedence = 255 - min(flow.priority / 256, 255) |
| |
| if in_port == 2: |
| log.info('#### Downstream Rule ####') |
| dn_req = NetworkToNetworkPortObject() |
| dn_req /= PortIngressRuleHeader(precedence=precedence) |
| |
| for field in get_ofb_fields(flow): |
| |
| if field.type == ETH_TYPE: |
| _type = field.eth_type |
| log.info('#### field.type == ETH_TYPE ####') |
| dn_req /= PortIngressRuleClauseMatchLength02( |
| fieldcode=Clause['L2 Type/Len'], |
| operator=Operator['=='], |
| match=_type) |
| |
| elif field.type == IP_PROTO: |
| _proto = field.ip_proto |
| log.info('#### field.type == IP_PROTO ####') |
| |
| elif field.type == IN_PORT: |
| _port = field.port |
| log.info('#### field.type == IN_PORT ####', port=_port) |
| |
| elif field.type == VLAN_VID: |
| _vlan_vid = field.vlan_vid & 0xfff |
| log.info('#### field.type == VLAN_VID ####', vlan=_vlan_vid) |
| dn_req /= PortIngressRuleClauseMatchLength02(fieldcode=Clause['C-VLAN Tag'], fieldinstance=0, |
| operator=Operator['=='], match=_vlan_vid) |
| if (_vlan_vid != 140): |
| dn_req /= PortIngressRuleClauseMatchLength02(fieldcode=Clause['C-VLAN Tag'], fieldinstance=1, |
| operator=Operator['=='], match=ONU_VID) |
| |
| elif field.type == VLAN_PCP: |
| _vlan_pcp = field.vlan_pcp |
| log.info('#### field.type == VLAN_PCP ####', pcp=_vlan_pcp) |
| |
| elif field.type == UDP_DST: |
| _udp_dst = field.udp_dst |
| log.info('#### field.type == UDP_DST ####') |
| |
| elif field.type == UDP_SRC: |
| _udp_src = field.udp_src |
| log.info('#### field.type == UDP_SRC ####') |
| |
| elif field.type == IPV4_DST: |
| _ipv4_dst = field.ipv4_dst |
| log.info('#### field.type == IPV4_DST ####') |
| |
| elif field.type == METADATA: |
| log.info('#### field.type == METADATA ####') |
| pass |
| |
| else: |
| raise NotImplementedError('field.type={}'.format( |
| field.type)) |
| |
| for action in get_actions(flow): |
| |
| if action.type == OUTPUT: |
| log.info('#### action.type == OUTPUT ####') |
| dn_req /= PortIngressRuleResultForward() |
| serial = ONU_VID - 200 |
| link = (0xe222 << 16) | (serial << 8) |
| dn_req /= PortIngressRuleResultOLTQueue(unicastvssn="TBIT", |
| unicastlink=link) |
| |
| elif action.type == POP_VLAN: |
| log.info('#### action.type == POP_VLAN ####') |
| dn_req /= PortIngressRuleResultDelete(fieldcode=Clause['S-VLAN Tag']) |
| |
| elif action.type == PUSH_VLAN: |
| log.info('#### action.type == PUSH_VLAN ####') |
| if action.push.ethertype != 0x8100: |
| log.error('unhandled-tpid', |
| ethertype=action.push.ethertype) |
| dn_req /= PortIngressRuleResultInsert(fieldcode=Clause['C-VLAN Tag']) |
| |
| elif action.type == SET_FIELD: |
| log.info('#### action.type == SET_FIELD ####') |
| assert (action.set_field.field.oxm_class == |
| ofp.OFPXMC_OPENFLOW_BASIC) |
| field = action.set_field.field.ofb_field |
| if field.type == VLAN_VID: |
| dn_req /= PortIngressRuleResultSet( |
| fieldcode=Clause['C-VLAN Tag'], value=field.vlan_vid & 0xfff) |
| else: |
| log.error('unsupported-action-set-field-type', |
| field_type=field.type) |
| else: |
| log.error('UNSUPPORTED-ACTION-TYPE', |
| action_type=action.type) |
| |
| dn_req /= PortIngressRuleTerminator() |
| dn_req /= AddPortIngressRule() |
| |
| msg = ( |
| Ether(dst=device.mac_address) / |
| Dot1Q(vlan=TIBIT_MGMT_VLAN, prio=TIBIT_MGMT_PRIORITY) / |
| EOAMPayload( |
| body=CablelabsOUI() / DPoEOpcode_SetRequest() / dn_req) |
| ) |
| |
| self.io_port.send(str(msg)) |
| |
| elif in_port == 1: |
| # Upstream rule |
| log.info('#### Upstream Rule ####') |
| |
| field_match_vlan_upstream_with_link = False |
| up_req_link = PortIngressRuleHeader(precedence=precedence) |
| |
| up_req_pon = PonPortObject() |
| up_req_pon /= PortIngressRuleHeader(precedence=precedence) |
| |
| for field in get_ofb_fields(flow): |
| |
| if field.type == ETH_TYPE: |
| _type = field.eth_type |
| log.info('#### field.type == ETH_TYPE ####', in_port=in_port, |
| match=_type) |
| up_req_pon /= PortIngressRuleClauseMatchLength02( |
| fieldcode=Clause['L2 Type/Len'], |
| operator=Operator['=='], |
| match=_type) |
| |
| up_req_link /= PortIngressRuleClauseMatchLength02( |
| fieldcode=Clause['L2 Type/Len'], |
| operator=Operator['=='], |
| match=_type) |
| |
| elif field.type == IP_PROTO: |
| _proto = field.ip_proto |
| log.info('#### field.type == IP_PROTO ####', in_port=in_port, |
| ip_proto=_proto) |
| |
| up_req_pon /= PortIngressRuleClauseMatchLength01( |
| fieldcode=Clause['IPv4/IPv6 Protocol Type'], |
| operator=Operator['=='], match=_proto) |
| |
| up_req_link /= PortIngressRuleClauseMatchLength01( |
| fieldcode=Clause['IPv4/IPv6 Protocol Type'], |
| operator=Operator['=='], match=_proto) |
| |
| elif field.type == IN_PORT: |
| _port = field.port |
| log.info('#### field.type == IN_PORT ####') |
| |
| elif field.type == VLAN_VID: |
| _vlan_vid = field.vlan_vid & 0xfff |
| log.info('#### field.type == VLAN_VID ####') |
| up_req_pon /= PortIngressRuleClauseMatchLength02( |
| fieldcode=Clause['C-VLAN Tag'], fieldinstance=0, |
| operator=Operator['=='], match=_vlan_vid) |
| |
| serial = _vlan_vid - 200 |
| link = (0xe222 << 16) | (serial << 8) |
| up_req_link /= OLTUnicastLogicalLink(unicastvssn='TBIT', unicastlink=link) |
| |
| up_req_link /= PortIngressRuleClauseMatchLength02( |
| fieldcode=Clause['C-VLAN Tag'], fieldinstance=0, |
| operator=Operator['=='], match=_vlan_vid) |
| field_match_vlan_upstream_with_link = True |
| |
| |
| elif field.type == VLAN_PCP: |
| _vlan_pcp = field.vlan_pcp |
| log.info('#### field.type == VLAN_PCP ####') |
| |
| elif field.type == UDP_DST: |
| _udp_dst = field.udp_dst |
| log.info('#### field.type == UDP_DST ####') |
| up_req_pon /= (PortIngressRuleClauseMatchLength02(fieldcode=Clause['TCP/UDP source port'], |
| operator=Operator['=='], match=0x0044)/ |
| PortIngressRuleClauseMatchLength02(fieldcode=Clause['TCP/UDP destination port'], |
| operator=Operator['=='], match=0x0043)) |
| |
| elif field.type == UDP_SRC: |
| _udp_src = field.udp_src |
| log.info('#### field.type == UDP_SRC ####') |
| |
| else: |
| raise NotImplementedError('field.type={}'.format( |
| field.type)) |
| |
| for action in get_actions(flow): |
| |
| if action.type == OUTPUT: |
| log.info('#### action.type == OUTPUT ####') |
| up_req_pon /= PortIngressRuleResultForward() |
| up_req_link /= PortIngressRuleResultForward() |
| |
| elif action.type == POP_VLAN: |
| log.info('#### action.type == POP_VLAN ####') |
| |
| elif action.type == PUSH_VLAN: |
| log.info('#### action.type == PUSH_VLAN ####') |
| if action.push.ethertype != 0x8100: |
| log.error('unhandled-ether-type', |
| ethertype=action.push.ethertype) |
| if field_match_vlan_upstream_with_link == True: |
| up_req_link /= PortIngressRuleResultInsert(fieldcode=Clause['C-VLAN Tag'], |
| fieldinstance=1) |
| else: |
| up_req_pon /= PortIngressRuleResultInsert(fieldcode=Clause['C-VLAN Tag'], |
| fieldinstance=0) |
| |
| elif action.type == SET_FIELD: |
| log.info('#### action.type == SET_FIELD ####') |
| assert (action.set_field.field.oxm_class == |
| ofp.OFPXMC_OPENFLOW_BASIC) |
| field = action.set_field.field.ofb_field |
| if field.type == VLAN_VID: |
| if field_match_vlan_upstream_with_link == True: |
| up_req_link /=(PortIngressRuleResultCopy(fieldcode=Clause['C-VLAN Tag'])/ |
| PortIngressRuleResultReplace(fieldcode=Clause['C-VLAN Tag'])) |
| |
| up_req_pon /= PortIngressRuleResultSet( |
| fieldcode=Clause['C-VLAN Tag'], value=field.vlan_vid & 0xfff) |
| up_req_link /= PortIngressRuleResultSet( |
| fieldcode=Clause['C-VLAN Tag'], value=field.vlan_vid & 0xfff) |
| else: |
| log.error('unsupported-action-set-field-type', |
| field_type=field.type) |
| |
| else: |
| log.error('UNSUPPORTED-ACTION-TYPE', |
| action_type=action.type) |
| |
| if (field_match_vlan_upstream_with_link == True): |
| up_req = up_req_link |
| else: |
| up_req = up_req_pon |
| |
| up_req /= PortIngressRuleTerminator() |
| up_req /= AddPortIngressRule() |
| |
| msg = ( |
| Ether(dst=device.mac_address) / |
| Dot1Q(vlan=TIBIT_MGMT_VLAN, prio=TIBIT_MGMT_PRIORITY) / |
| EOAMPayload( |
| body=CablelabsOUI() / DPoEOpcode_SetRequest() / up_req) |
| ) |
| |
| self.io_port.send(str(msg)) |
| |
| else: |
| raise Exception('Port should be 1 or 2 by our convention') |
| |
| except Exception, e: |
| log.exception('failed-to-install-flow', e=e, flow=flow) |
| |
| 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) |
| device = self.adapter_agent.get_device(proxy_address.device_id) |
| frame = Ether(dst=device.mac_address) / \ |
| Dot1Q(vlan=TIBIT_MGMT_VLAN, prio=TIBIT_MGMT_PRIORITY) / \ |
| Dot1Q(vlan=proxy_address.channel_id, prio=TIBIT_MGMT_PRIORITY) / \ |
| msg |
| |
| self.io_port.send(str(frame)) |
| |
| def receive_proxied_message(self, proxy_address, msg): |
| raise NotImplementedError() |
| |
| 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)) |
| |
| dev_id, logical_dev_id = self.vlan_to_device_ids[egress_port_no] |
| if logical_dev_id != logical_device_id: |
| raise Exception('Internal table mismatch') |
| |
| tmp = Ether(msg) |
| |
| frame = Ether(dst=tmp.dst, src=tmp.src) / \ |
| Dot1Q(vlan=TIBIT_PACKET_OUT_VLAN) / \ |
| Dot1Q(vlan=egress_port_no) / \ |
| tmp.payload |
| |
| self.io_port.send(str(frame)) |