| #!/usr/bin/env python |
| # |
| # Copyright 2016 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 argparse |
| import os |
| import readline |
| from optparse import make_option |
| from time import sleep, time |
| |
| import sys |
| from consul import Consul |
| import grpc |
| import requests |
| from cmd2 import Cmd, options |
| from google.protobuf.empty_pb2 import Empty |
| from simplejson import dumps |
| |
| from cli.device import DeviceCli |
| from cli.logical_device import LogicalDeviceCli |
| from cli.table import TablePrinter, print_pb_list_as_table |
| from voltha.core.flow_decomposer import * |
| from voltha.protos import third_party |
| from voltha.protos import voltha_pb2 |
| from voltha.protos.openflow_13_pb2 import FlowTableUpdate, FlowGroupTableUpdate |
| |
| _ = third_party |
| from cli.utils import pb2dict, dict2line |
| |
| |
| defs = dict( |
| # config=os.environ.get('CONFIG', './cli.yml'), |
| consul=os.environ.get('CONSUL', 'localhost:8500'), |
| voltha_grpc_endpoint=os.environ.get('VOLTHA_GRPC_ENDPOINT', |
| 'localhost:50055'), |
| voltha_sim_rest_endpoint=os.environ.get('VOLTHA_SIM_REST_ENDPOINT', |
| 'localhost:18880'), |
| ) |
| |
| banner = """\ |
| _ _ _ ___ _ ___ |
| __ _____| | |_| |_ __ _ / __| | |_ _| |
| \ V / _ \ | _| ' \/ _` | | (__| |__ | | |
| \_/\___/_|\__|_||_\__,_| \___|____|___| |
| (to exit type quit or hit Ctrl-D) |
| """ |
| |
| class VolthaCli(Cmd): |
| |
| prompt = 'voltha' |
| history_file_name = '.voltha_cli_history' |
| |
| # Settable CLI parameters |
| voltha_grpc = 'localhost:50055' |
| voltha_sim_rest = 'localhost:18880' |
| max_history_lines = 500 |
| default_device_id = None |
| default_logical_device_id = None |
| |
| Cmd.settable.update(dict( |
| voltha_grpc='Voltha GRPC endpoint in form of <host>:<port>', |
| voltha_sim_rest='Voltha simulation back door for testing in form ' |
| 'of <host>:<port>', |
| max_history_lines='Maximum number of history lines stored across ' |
| 'sessions', |
| default_device_id='Device id used when no device id is specified', |
| default_logical_device_id='Logical device id used when no device id ' |
| 'is specified', |
| )) |
| |
| # cleanup of superfluous commands from cmd2 |
| del Cmd.do_cmdenvironment |
| del Cmd.do_load |
| del Cmd.do__relative_load |
| |
| def __init__(self, voltha_grpc, voltha_sim_rest): |
| VolthaCli.voltha_grpc = voltha_grpc |
| VolthaCli.voltha_sim_rest = voltha_sim_rest |
| Cmd.__init__(self) |
| self.prompt = '(' + self.colorize( |
| self.colorize(self.prompt, 'blue'), 'bold') + ') ' |
| self.channel = None |
| self.device_ids_cache = None |
| self.device_ids_cache_ts = time() |
| self.logical_device_ids_cache = None |
| self.logical_device_ids_cache_ts = time() |
| |
| # we override cmd2's method to avoid its optparse conflicting with our |
| # command line parsing |
| def cmdloop(self): |
| self._cmdloop() |
| |
| def load_history(self): |
| """Load saved command history from local history file""" |
| try: |
| with file(self.history_file_name, 'r') as f: |
| for line in f.readlines(): |
| stripped_line = line.strip() |
| self.history.append(stripped_line) |
| readline.add_history(stripped_line) |
| except IOError: |
| pass # ignore if file cannot be read |
| |
| def save_history(self): |
| try: |
| with open(self.history_file_name, 'w') as f: |
| f.write('\n'.join(self.history[-self.max_history_lines:])) |
| except IOError as e: |
| self.perror('Could not save history in {}: {}'.format( |
| self.history_file_name, e)) |
| else: |
| self.poutput('History saved as {}'.format( |
| self.history_file_name)) |
| |
| def perror(self, errmsg, statement=None): |
| # Touch it up to make sure error is prefixed and colored |
| Cmd.perror(self, self.colorize('***ERROR: ', 'red') + errmsg, |
| statement) |
| |
| def get_channel(self): |
| if self.channel is None: |
| self.channel = grpc.insecure_channel(self.voltha_grpc) |
| return self.channel |
| |
| # ~~~~~~~~~~~~~~~~~ ACTUAL COMMAND IMPLEMENTATIONS ~~~~~~~~~~~~~~~~~~~~~~~~ |
| |
| def do_reset_history(self, line): |
| """Reset CLI history""" |
| while self.history: |
| self.history.pop() |
| |
| def do_launch(self, line): |
| """If Voltha is not running yet, launch it""" |
| raise NotImplementedError('not implemented yet') |
| |
| def do_restart(self, line): |
| """Launch Voltha, but if it is already running, terminate it first""" |
| pass |
| |
| def do_adapters(self, line): |
| """List loaded adapter""" |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| res = stub.ListAdapters(Empty()) |
| omit_fields = {} |
| print_pb_list_as_table('Adapters:', res.items, omit_fields, self.poutput) |
| |
| def get_devices(self): |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| res = stub.ListDevices(Empty()) |
| return res.items |
| |
| def get_logical_devices(self): |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| res = stub.ListLogicalDevices(Empty()) |
| return res.items |
| |
| def do_devices(self, line): |
| """List devices registered in Voltha""" |
| devices = self.get_devices() |
| omit_fields = { |
| 'adapter', |
| 'vendor', |
| 'model', |
| 'hardware_version', |
| 'software_version', |
| 'firmware_version', |
| 'serial_number' |
| } |
| print_pb_list_as_table('Devices:', devices, omit_fields, self.poutput) |
| |
| def do_logical_devices(self, line): |
| """List logical devices in Voltha""" |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| res = stub.ListLogicalDevices(Empty()) |
| omit_fields = { |
| 'desc.mfr_desc', |
| 'desc.hw_desc', |
| 'desc.sw_desc', |
| 'desc.dp_desc', |
| 'desc.serial_number', |
| 'switch_features.capabilities' |
| } |
| print_pb_list_as_table('Logical devices:', res.items, omit_fields, |
| self.poutput) |
| |
| def do_device(self, line): |
| """Enter device level command mode""" |
| device_id = line.strip() or self.default_device_id |
| if not device_id: |
| raise Exception('<device-id> parameter needed') |
| sub = DeviceCli(self.get_channel, device_id) |
| sub.cmdloop() |
| |
| def do_logical_device(self, line): |
| """Enter logical device level command mode""" |
| logical_device_id = line.strip() or self.default_logical_device_id |
| if not logical_device_id: |
| raise Exception('<logical-device-id> parameter needed') |
| sub = LogicalDeviceCli(self.get_channel, logical_device_id) |
| sub.cmdloop() |
| |
| def device_ids(self, force_refresh=False): |
| if force_refresh or self.device_ids is None or \ |
| (time() - self.device_ids_cache_ts) > 1: |
| self.device_ids_cache = [d.id for d in self.get_devices()] |
| self.device_ids_cache_ts = time() |
| return self.device_ids_cache |
| |
| def logical_device_ids(self, force_refresh=False): |
| if force_refresh or self.logical_device_ids is None or \ |
| (time() - self.logical_device_ids_cache_ts) > 1: |
| self.logical_device_ids_cache = [d.id for d |
| in self.get_logical_devices()] |
| self.logical_device_ids_cache_ts = time() |
| return self.logical_device_ids_cache |
| |
| def complete_device(self, text, line, begidx, endidx): |
| if not text: |
| completions = self.device_ids()[:] |
| else: |
| completions = [d for d in self.device_ids() if d.startswith(text)] |
| return completions |
| |
| def complete_logical_device(self, text, line, begidx, endidx): |
| if not text: |
| completions = self.logical_device_ids()[:] |
| else: |
| completions = [d for d in self.logical_device_ids() |
| if d.startswith(text)] |
| return completions |
| |
| def do_pdb(self, line): |
| """Launch PDB debug prompt in CLI (for CLI development)""" |
| from pdb import set_trace |
| set_trace() |
| |
| def do_health(self, line): |
| """Show connectivity status to Voltha status""" |
| stub = voltha_pb2.HealthServiceStub(self.get_channel()) |
| res = stub.GetHealthStatus(Empty()) |
| self.poutput(dumps(pb2dict(res), indent=4)) |
| |
| @options([ |
| make_option('-t', '--device-type', action="store", dest='device_type', |
| help="Device type", default='simulated_olt'), |
| make_option('-m', '--mac-address', action='store', dest='mac_address', |
| default='00:0c:e2:31:40:00'), |
| make_option('-i', '--ip-address', action='store', dest='ip_address'), |
| make_option('-H', '--host_and_port', action='store', |
| dest='host_and_port'), |
| ]) |
| def do_preprovision_olt(self, line, opts): |
| """Preprovision a new OLT with given device type""" |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| kw = dict(type=opts.device_type) |
| if opts.host_and_port: |
| kw['host_and_port'] = opts.host_and_port |
| elif opts.ip_address: |
| kw['ipv4_address'] = opts.ip_address |
| elif opts.mac_address: |
| kw['mac_address'] = opts.mac_address |
| else: |
| raise Exception('Either IP address or Mac Address is needed') |
| device = voltha_pb2.Device(**kw) |
| device = stub.CreateDevice(device) |
| self.poutput('success (device id = {})'.format(device.id)) |
| self.default_device_id = device.id |
| |
| def do_enable(self, line): |
| """ |
| Enable a device. If the <id> is not provided, it will be on the last |
| pre-provisioned device. |
| """ |
| device_id = line or self.default_device_id |
| self.poutput('enabling {}'.format(device_id)) |
| try: |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| stub.EnableDevice(voltha_pb2.ID(id=device_id)) |
| |
| while True: |
| device = stub.GetDevice(voltha_pb2.ID(id=device_id)) |
| # If this is an OLT then acquire logical device id |
| if device.oper_status == voltha_pb2.OperStatus.ACTIVE: |
| if device.type.endswith('_olt'): |
| assert device.parent_id |
| self.default_logical_device_id = device.parent_id |
| self.poutput('success (logical device id = {})'.format( |
| self.default_logical_device_id)) |
| else: |
| self.poutput('success (device id = {})'.format(device.id)) |
| break |
| self.poutput('waiting for device to be enabled...') |
| sleep(.5) |
| except Exception, e: |
| self.poutput('Error enabling {}. Error:{}'.format(device_id, e)) |
| |
| complete_activate_olt = complete_device |
| |
| def do_reboot(self, line): |
| """ |
| Rebooting a device. ID of the device needs to be provided |
| """ |
| device_id = line or self.default_device_id |
| self.poutput('rebooting {}'.format(device_id)) |
| try: |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| stub.RebootDevice(voltha_pb2.ID(id=device_id)) |
| self.poutput('rebooted {}'.format(device_id)) |
| except Exception, e: |
| self.poutput('Error rebooting {}. Error:{}'.format(device_id, e)) |
| |
| def do_delete(self, line): |
| """ |
| Deleting a device. ID of the device needs to be provided |
| """ |
| device_id = line or self.default_device_id |
| self.poutput('deleting {}'.format(device_id)) |
| try: |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| stub.DeleteDevice(voltha_pb2.ID(id=device_id)) |
| self.poutput('deleted {}'.format(device_id)) |
| except Exception, e: |
| self.poutput('Error deleting {}. Error:{}'.format(device_id, e)) |
| |
| def do_disable(self, line): |
| """ |
| Disable a device. ID of the device needs to be provided |
| """ |
| device_id = line |
| self.poutput('disabling {}'.format(device_id)) |
| try: |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| stub.DisableDevice(voltha_pb2.ID(id=device_id)) |
| |
| # Do device query and verify that the device admin status is |
| # DISABLED and Operational Status is unknown |
| device = stub.GetDevice(voltha_pb2.ID(id=device_id)) |
| if device.oper_status == voltha_pb2.OperStatus.UNKNOWN and \ |
| device.admin_state == voltha_pb2.AdminState.DISABLED: |
| self.poutput('disabled successfully {}'.format(device_id)) |
| else: |
| self.poutput('disabling failed {}. Admin State:{} ' |
| 'Operation State: {}'.format(device_id, |
| device.admin_state, |
| device.oper_status)) |
| except Exception, e: |
| self.poutput('Error disabling {}. Error:{}'.format(device_id, e)) |
| |
| def do_test(self, line): |
| """Enter test mode, which makes a bunch on new commands available""" |
| sub = TestCli(self.history, self.get_channel, self.voltha_grpc, |
| self.voltha_sim_rest) |
| sub.cmdloop() |
| |
| |
| class TestCli(VolthaCli): |
| |
| def __init__(self, history, get_channel, voltha_grpc, voltha_sim_rest): |
| VolthaCli.__init__(self, voltha_grpc, voltha_sim_rest) |
| self.history = history |
| self.get_channel = get_channel |
| self.prompt = '(' + self.colorize(self.colorize('test', 'cyan'), |
| 'bold') + ') ' |
| |
| def get_device(self, device_id, depth=0): |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| res = stub.GetDevice(voltha_pb2.ID(id=device_id), |
| metadata=(('get-depth', str(depth)), )) |
| return res |
| |
| def do_arrive_onus(self, line): |
| """ |
| Simulate the arrival of ONUs (available only on simulated_olt) |
| """ |
| device_id = line or self.default_device_id |
| |
| # verify that device is of type simulated_olt |
| device = self.get_device(device_id) |
| assert device.type == 'simulated_olt', ( |
| 'Cannot use it on this device type (only on simulated_olt type)') |
| |
| requests.get('http://{}/devices/{}/detect_onus'.format( |
| self.voltha_sim_rest, device_id |
| )) |
| |
| complete_arrive_onus = VolthaCli.complete_device |
| |
| def get_logical_ports(self, logical_device_id): |
| """ |
| Return the NNI port number and the first usable UNI port of logical |
| device, and the vlan associated with the latter. |
| """ |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| ports = stub.ListLogicalDevicePorts( |
| voltha_pb2.ID(id=logical_device_id)).items |
| nni = None |
| unis = [] |
| for port in ports: |
| if port.root_port: |
| assert nni is None, "There shall be only one root port" |
| nni = port.ofp_port.port_no |
| else: |
| uni = port.ofp_port.port_no |
| uni_device = self.get_device(port.device_id) |
| vlan = uni_device.vlan |
| unis.append((uni, vlan)) |
| |
| assert nni is not None, "No NNI port found" |
| assert unis, "Not a single UNI?" |
| |
| return nni, unis |
| |
| def do_install_eapol_flow(self, line): |
| """ |
| Install an EAPOL flow on the given logical device. If device is not |
| given, it will be applied to logical device of the last pre-provisioned |
| OLT device. |
| """ |
| logical_device_id = line or self.default_logical_device_id |
| |
| # gather NNI and UNI port IDs |
| nni_port_no, unis = self.get_logical_ports(logical_device_id) |
| |
| # construct and push flow rule |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| for uni_port_no, _ in unis: |
| update = FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=2000, |
| match_fields=[in_port(uni_port_no), eth_type(0x888e)], |
| actions=[ |
| # push_vlan(0x8100), |
| # set_field(vlan_vid(4096 + 4000)), |
| output(ofp.OFPP_CONTROLLER) |
| ] |
| ) |
| ) |
| res = stub.UpdateLogicalDeviceFlowTable(update) |
| self.poutput('success for uni {} ({})'.format(uni_port_no, res)) |
| |
| complete_install_eapol_flow = VolthaCli.complete_logical_device |
| |
| def do_install_all_controller_bound_flows(self, line): |
| """ |
| Install all flow rules for controller bound flows, including EAPOL, |
| IGMP and DHCP. If device is not given, it will be applied to logical |
| device of the last pre-provisioned OLT device. |
| """ |
| logical_device_id = line or self.default_logical_device_id |
| |
| # gather NNI and UNI port IDs |
| nni_port_no, unis = self.get_logical_ports(logical_device_id) |
| |
| # construct and push flow rules |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| |
| for uni_port_no, _ in unis: |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=2000, |
| match_fields=[ |
| in_port(uni_port_no), |
| eth_type(0x888e) |
| ], |
| actions=[output(ofp.OFPP_CONTROLLER)] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[ |
| in_port(uni_port_no), |
| eth_type(0x800), |
| ip_proto(2) |
| ], |
| actions=[output(ofp.OFPP_CONTROLLER)] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[ |
| in_port(uni_port_no), |
| eth_type(0x800), |
| ip_proto(17), |
| udp_dst(67) |
| ], |
| actions=[output(ofp.OFPP_CONTROLLER)] |
| ) |
| )) |
| self.poutput('success') |
| |
| complete_install_all_controller_bound_flows = \ |
| VolthaCli.complete_logical_device |
| |
| def do_install_all_sample_flows(self, line): |
| """ |
| Install all flows that are representative of the virtualized access |
| scenario in a PON network. |
| """ |
| logical_device_id = line or self.default_logical_device_id |
| |
| # gather NNI and UNI port IDs |
| nni_port_no, unis = self.get_logical_ports(logical_device_id) |
| |
| # construct and push flow rules |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| |
| for uni_port_no, c_vid in unis: |
| |
| # Controller-bound flows |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=2000, |
| match_fields=[in_port(uni_port_no), eth_type(0x888e)], |
| actions=[ |
| # push_vlan(0x8100), |
| # set_field(vlan_vid(4096 + 4000)), |
| output(ofp.OFPP_CONTROLLER) |
| ] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[eth_type(0x800), ip_proto(2)], |
| actions=[output(ofp.OFPP_CONTROLLER)] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[eth_type(0x800), ip_proto(17), udp_dst(67)], |
| actions=[output(ofp.OFPP_CONTROLLER)] |
| ) |
| )) |
| |
| # Unicast flows: |
| # Downstream flow 1 |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=500, |
| match_fields=[ |
| in_port(nni_port_no), |
| vlan_vid(4096 + 1000), |
| metadata(c_vid) # here to mimic an ONOS artifact |
| ], |
| actions=[pop_vlan()], |
| next_table_id=1 |
| ) |
| )) |
| # Downstream flow 2 |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=500, |
| table_id=1, |
| match_fields=[in_port(nni_port_no), vlan_vid(4096 + c_vid)], |
| actions=[set_field(vlan_vid(4096 + 0)), output(uni_port_no)] |
| ) |
| )) |
| # Upstream flow 1 for 0-tagged case |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=500, |
| match_fields=[in_port(uni_port_no), vlan_vid(4096 + 0)], |
| actions=[set_field(vlan_vid(4096 + c_vid))], |
| next_table_id=1 |
| ) |
| )) |
| # Upstream flow 1 for untagged case |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=500, |
| match_fields=[in_port(uni_port_no), vlan_vid(0)], |
| actions=[push_vlan(0x8100), set_field(vlan_vid(4096 + c_vid))], |
| next_table_id=1 |
| ) |
| )) |
| # Upstream flow 2 for s-tag |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=500, |
| table_id=1, |
| match_fields=[in_port(uni_port_no), vlan_vid(4096 + c_vid)], |
| actions=[ |
| push_vlan(0x8100), |
| set_field(vlan_vid(4096 + 1000)), |
| output(nni_port_no) |
| ] |
| ) |
| )) |
| |
| # Push a few multicast flows |
| # 1st with one bucket for our uni 0 |
| stub.UpdateLogicalDeviceFlowGroupTable(FlowGroupTableUpdate( |
| id=logical_device_id, |
| group_mod=mk_multicast_group_mod( |
| group_id=1, |
| buckets=[ |
| ofp.ofp_bucket(actions=[ |
| pop_vlan(), |
| output(unis[0][0]) |
| ]) |
| ] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[ |
| in_port(nni_port_no), |
| eth_type(0x800), |
| vlan_vid(4096 + 140), |
| ipv4_dst(0xe4010101) |
| ], |
| actions=[group(1)] |
| ) |
| )) |
| |
| # 2nd with one bucket for uni 0 and 1 |
| stub.UpdateLogicalDeviceFlowGroupTable(FlowGroupTableUpdate( |
| id=logical_device_id, |
| group_mod=mk_multicast_group_mod( |
| group_id=2, |
| buckets=[ |
| ofp.ofp_bucket(actions=[pop_vlan(), output(unis[0][0])]) |
| # ofp.ofp_bucket(actions=[pop_vlan(), output(unis[1][0])]) |
| ] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[ |
| in_port(nni_port_no), |
| eth_type(0x800), |
| vlan_vid(4096 + 140), |
| ipv4_dst(0xe4020202) |
| ], |
| actions=[group(2)] |
| ) |
| )) |
| |
| # 3rd with empty bucket |
| stub.UpdateLogicalDeviceFlowGroupTable(FlowGroupTableUpdate( |
| id=logical_device_id, |
| group_mod=mk_multicast_group_mod( |
| group_id=3, |
| buckets=[] |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[ |
| in_port(nni_port_no), |
| eth_type(0x800), |
| vlan_vid(4096 + 140), |
| ipv4_dst(0xe4030303) |
| ], |
| actions=[group(3)] |
| ) |
| )) |
| |
| self.poutput('success') |
| |
| complete_install_all_sample_flows = VolthaCli.complete_logical_device |
| |
| def do_install_dhcp_flows(self, line): |
| """ |
| Install all dhcp flows that are representative of the virtualized access |
| scenario in a PON network. |
| """ |
| logical_device_id = line or self.default_logical_device_id |
| |
| # gather NNI and UNI port IDs |
| nni_port_no, unis = self.get_logical_ports(logical_device_id) |
| |
| # construct and push flow rules |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| |
| # Controller-bound flows |
| for uni_port_no, _ in unis: |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=mk_simple_flow_mod( |
| priority=1000, |
| match_fields=[ |
| in_port(uni_port_no), |
| eth_type(0x800), |
| ip_proto(17), |
| udp_dst(67) |
| ], |
| actions=[output(ofp.OFPP_CONTROLLER)] |
| ) |
| )) |
| |
| self.poutput('success') |
| |
| complete_install_dhcp_flows = VolthaCli.complete_logical_device |
| |
| def do_delete_all_flows(self, line): |
| """ |
| Remove all flows and flow groups from given logical device |
| """ |
| logical_device_id = line or self.default_logical_device_id |
| stub = voltha_pb2.VolthaLocalServiceStub(self.get_channel()) |
| stub.UpdateLogicalDeviceFlowTable(FlowTableUpdate( |
| id=logical_device_id, |
| flow_mod=ofp.ofp_flow_mod( |
| command=ofp.OFPFC_DELETE, |
| table_id=ofp.OFPTT_ALL, |
| cookie_mask=0, |
| out_port=ofp.OFPP_ANY, |
| out_group=ofp.OFPG_ANY |
| ) |
| )) |
| stub.UpdateLogicalDeviceFlowGroupTable(FlowGroupTableUpdate( |
| id=logical_device_id, |
| group_mod=ofp.ofp_group_mod( |
| command=ofp.OFPGC_DELETE, |
| group_id=ofp.OFPG_ALL |
| ) |
| )) |
| self.poutput('success') |
| |
| complete_delete_all_flows = VolthaCli.complete_logical_device |
| |
| def do_send_simulated_upstream_eapol(self, line): |
| """ |
| Send an EAPOL upstream from a simulated OLT |
| """ |
| device_id = line or self.default_device_id |
| requests.get('http://{}/devices/{}/test_eapol_in'.format( |
| self.voltha_sim_rest, device_id |
| )) |
| |
| complete_send_simulated_upstream_eapol = VolthaCli.complete_device |
| |
| def do_inject_eapol_start(self, line): |
| """ |
| Send out an an EAPOL start message into the given Unix interface |
| """ |
| pass |
| |
| |
| if __name__ == '__main__': |
| |
| parser = argparse.ArgumentParser() |
| |
| _help = '<hostname>:<port> to consul agent (default: %s)' % defs['consul'] |
| parser.add_argument( |
| '-C', '--consul', action='store', default=defs['consul'], help=_help) |
| |
| _help = 'Lookup Voltha endpoints based on service entries in Consul' |
| parser.add_argument( |
| '-L', '--lookup', action='store_true', help=_help) |
| |
| _help = '<hostname>:<port> of Voltha gRPC service (default={})'.format( |
| defs['voltha_grpc_endpoint']) |
| parser.add_argument('-g', '--grpc-endpoint', action='store', |
| default=defs['voltha_grpc_endpoint'], help=_help) |
| |
| _help = '<hostname>:<port> of Voltha simulated adapter backend for ' \ |
| 'testing (default={})'.format( |
| defs['voltha_sim_rest_endpoint']) |
| parser.add_argument('-s', '--sim-rest-endpoint', action='store', |
| default=defs['voltha_sim_rest_endpoint'], help=_help) |
| |
| args = parser.parse_args() |
| |
| if args.lookup: |
| host = args.consul.split(':')[0].strip() |
| port = int(args.consul.split(':')[1].strip()) |
| consul = Consul(host=host, port=port) |
| |
| _, services = consul.catalog.service('voltha-grpc') |
| if not services: |
| print('No voltha-grpc service registered in consul; exiting') |
| sys.exit(1) |
| args.grpc_endpoint = '{}:{}'.format(services[0]['ServiceAddress'], |
| services[0]['ServicePort']) |
| |
| _, services = consul.catalog.service('voltha-sim-rest') |
| if not services: |
| print('No voltha-sim-rest service registered in consul; exiting') |
| sys.exit(1) |
| args.sim_rest_endpoint = '{}:{}'.format(services[0]['ServiceAddress'], |
| services[0]['ServicePort']) |
| |
| c = VolthaCli(args.grpc_endpoint, args.sim_rest_endpoint) |
| c.poutput(banner) |
| c.load_history() |
| c.cmdloop() |
| c.save_history() |