# Copyright (c) 2016-2017 Intel Corporation # # 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 logging from yardstick.common import utils from yardstick.network_services.libs.ixia_libs.ixnet import ixnet_api from yardstick.network_services.vnf_generic.vnf.sample_vnf import SampleVNFTrafficGen from yardstick.network_services.vnf_generic.vnf.sample_vnf import ClientResourceHelper from yardstick.network_services.vnf_generic.vnf.sample_vnf import Rfc2544ResourceHelper LOG = logging.getLogger(__name__) WAIT_AFTER_CFG_LOAD = 10 WAIT_FOR_TRAFFIC = 30 class IxiaRfc2544Helper(Rfc2544ResourceHelper): def is_done(self): return self.latency and self.iteration.value > 10 class IxiaResourceHelper(ClientResourceHelper): LATENCY_TIME_SLEEP = 120 def __init__(self, setup_helper, rfc_helper_type=None): super(IxiaResourceHelper, self).__init__(setup_helper) self.scenario_helper = setup_helper.scenario_helper self.client = ixnet_api.IxNextgen() if rfc_helper_type is None: rfc_helper_type = IxiaRfc2544Helper self.rfc_helper = rfc_helper_type(self.scenario_helper) self.uplink_ports = None self.downlink_ports = None self._connect() def _connect(self, client=None): self.client.connect(self.vnfd_helper) def get_stats(self, *args, **kwargs): return self.client.get_statistics() def stop_collect(self): self._terminated.value = 1 def generate_samples(self, ports, duration): stats = self.get_stats() samples = {} # this is not DPDK port num, but this is whatever number we gave # when we selected ports and programmed the profile for port_num in ports: try: # reverse lookup port name from port_num so the stats dict is descriptive intf = self.vnfd_helper.find_interface_by_port(port_num) port_name = intf['name'] avg_latency = stats['Store-Forward_Avg_latency_ns'][port_num] min_latency = stats['Store-Forward_Min_latency_ns'][port_num] max_latency = stats['Store-Forward_Max_latency_ns'][port_num] samples[port_name] = { 'rx_throughput_kps': float(stats['Rx_Rate_Kbps'][port_num]), 'tx_throughput_kps': float(stats['Tx_Rate_Kbps'][port_num]), 'rx_throughput_mbps': float(stats['Rx_Rate_Mbps'][port_num]), 'tx_throughput_mbps': float(stats['Tx_Rate_Mbps'][port_num]), 'in_packets': int(stats['Valid_Frames_Rx'][port_num]), 'out_packets': int(stats['Frames_Tx'][port_num]), 'RxThroughput': float(stats['Valid_Frames_Rx'][port_num]) / duration, 'TxThroughput': float(stats['Frames_Tx'][port_num]) / duration, 'Store-Forward_Avg_latency_ns': utils.safe_cast(avg_latency, int, 0), 'Store-Forward_Min_latency_ns': utils.safe_cast(min_latency, int, 0), 'Store-Forward_Max_latency_ns': utils.safe_cast(max_latency, int, 0) } except IndexError: pass return samples def _initialize_client(self): """Initialize the IXIA IxNetwork client and configure the server""" self.client.clear_config() self.client.assign_ports() vports = self.client.get_vports() uplink_vports = vports[::2] downlink_vports = vports[1::2] self.client.create_traffic_model(uplink_vports, downlink_vports) def run_traffic(self, traffic_profile, *args): if self._terminated.value: return min_tol = self.rfc_helper.tolerance_low max_tol = self.rfc_helper.tolerance_high precision = self.rfc_helper.tolerance_precision default = "00:00:00:00:00:00" self._build_ports() self._initialize_client() mac = {} for port_name in self.vnfd_helper.port_pairs.all_ports: intf = self.vnfd_helper.find_interface(name=port_name) virt_intf = intf["virtual-interface"] # we only know static traffic id by reading the json # this is used by _get_ixia_trafficrofile port_num = self.vnfd_helper.port_num(intf) mac["src_mac_{}".format(port_num)] = virt_intf.get("local_mac", default) mac["dst_mac_{}".format(port_num)] = virt_intf.get("dst_mac", default) try: while not self._terminated.value: first_run = traffic_profile.execute_traffic( self, self.client, mac) self.client_started.value = 1 # pylint: disable=unnecessary-lambda utils.wait_until_true(lambda: self.client.is_traffic_stopped(), timeout=traffic_profile.config.duration * 2) samples = self.generate_samples(traffic_profile.ports, traffic_profile.config.duration) completed, samples = traffic_profile.get_drop_percentage( samples, min_tol, max_tol, precision, first_run=first_run) self._queue.put(samples) if completed: self._terminated.value = 1 except Exception: # pylint: disable=broad-except LOG.exception('Run Traffic terminated') self._terminated.value = 1 def collect_kpi(self): self.rfc_helper.iteration.value += 1 return super(IxiaResourceHelper, self).collect_kpi() class IxiaTrafficGen(SampleVNFTrafficGen): APP_NAME = 'Ixia' def __init__(self, name, vnfd, task_id, setup_env_helper_type=None, resource_helper_type=None): if resource_helper_type is None: resource_helper_type = IxiaResourceHelper super(IxiaTrafficGen, self).__init__( name, vnfd, task_id, setup_env_helper_type, resource_helper_type) self._ixia_traffic_gen = None self.ixia_file_name = '' self.vnf_port_pairs = [] def _check_status(self): pass def terminate(self): self.resource_helper.stop_collect() super(IxiaTrafficGen, self).terminate()