+
+
+class ProxVpeProfileHelper(ProxProfileHelper):
+
+ __prox_profile_type__ = "vPE gen"
+
+ def __init__(self, resource_helper):
+ super(ProxVpeProfileHelper, self).__init__(resource_helper)
+ self._cores_tuple = None
+ self._ports_tuple = None
+
+ @property
+ def vpe_cores(self):
+ if not self._cores_tuple:
+ self._cores_tuple = self.get_cores_gen_vpe()
+ return self._cores_tuple
+
+ @property
+ def cpe_cores(self):
+ return self.vpe_cores[0]
+
+ @property
+ def inet_cores(self):
+ return self.vpe_cores[1]
+
+ @property
+ def all_rx_cores(self):
+ return self.latency_cores
+
+ @property
+ def vpe_ports(self):
+ if not self._ports_tuple:
+ self._ports_tuple = self.get_ports_gen_vpe()
+ return self._ports_tuple
+
+ @property
+ def cpe_ports(self):
+ return self.vpe_ports[0]
+
+ @property
+ def inet_ports(self):
+ return self.vpe_ports[1]
+
+ def get_cores_gen_vpe(self):
+ cpe_cores = []
+ inet_cores = []
+ for section_name, section in self.resource_helper.setup_helper.prox_config_data:
+ if not section_name.startswith("core"):
+ continue
+
+ if all(key != "mode" or value != self.PROX_CORE_GEN_MODE for key, value in section):
+ continue
+
+ for item_key, item_value in section:
+ if item_key != 'name':
+ continue
+
+ if item_value.startswith("cpe"):
+ core_tuple = CoreSocketTuple(section_name)
+ core_tag = core_tuple.find_in_topology(self.cpu_topology)
+ cpe_cores.append(core_tag)
+
+ elif item_value.startswith("inet"):
+ core_tuple = CoreSocketTuple(section_name)
+ inet_core = core_tuple.find_in_topology(self.cpu_topology)
+ inet_cores.append(inet_core)
+
+ return cpe_cores, inet_cores
+
+ def get_ports_gen_vpe(self):
+ cpe_ports = []
+ inet_ports = []
+
+ for section_name, section in self.resource_helper.setup_helper.prox_config_data:
+ if not section_name.startswith("port"):
+ continue
+ tx_port_iter = re.finditer(r'\d+', section_name)
+ tx_port_no = int(next(tx_port_iter).group(0))
+
+ for item_key, item_value in section:
+ if item_key != 'name':
+ continue
+
+ for item_key, item_value in section:
+ if item_value.startswith("cpe"):
+ cpe_ports.append(tx_port_no)
+
+ elif item_value.startswith("inet"):
+ inet_ports.append(tx_port_no)
+
+ return cpe_ports, inet_ports
+
+ @contextmanager
+ def traffic_context(self, pkt_size, value):
+ # Calculate the target upload and download speed. The upload and
+ # download packets have different packet sizes, so in order to get
+ # equal bandwidth usage, the ratio of the speeds has to match the ratio
+ # of the packet sizes.
+ cpe_pkt_size = pkt_size
+ inet_pkt_size = pkt_size - 4
+ ratio = 1.0 * (cpe_pkt_size + 20) / (inet_pkt_size + 20)
+
+ curr_up_speed = curr_down_speed = 0
+ max_up_speed = max_down_speed = value
+ if ratio < 1:
+ max_down_speed = value * ratio
+ else:
+ max_up_speed = value / ratio
+
+ # Adjust speed when multiple cores per port are used to generate traffic
+ if len(self.cpe_ports) != len(self.cpe_cores):
+ max_down_speed *= 1.0 * len(self.cpe_ports) / len(self.cpe_cores)
+ if len(self.inet_ports) != len(self.inet_cores):
+ max_up_speed *= 1.0 * len(self.inet_ports) / len(self.inet_cores)
+
+ # Initialize cores
+ self.sut.stop_all()
+ time.sleep(2)
+
+ # Flush any packets in the NIC RX buffers, otherwise the stats will be
+ # wrong.
+ self.sut.start(self.all_rx_cores)
+ time.sleep(2)
+ self.sut.stop(self.all_rx_cores)
+ time.sleep(2)
+ self.sut.reset_stats()
+
+ self.sut.set_pkt_size(self.inet_cores, inet_pkt_size)
+ self.sut.set_pkt_size(self.cpe_cores, cpe_pkt_size)
+
+ self.sut.reset_values(self.cpe_cores)
+ self.sut.reset_values(self.inet_cores)
+
+ # Set correct IP and UDP lengths in packet headers
+ # CPE: IP length (byte 24): 26 for MAC(12), EthType(2), QinQ(8), CRC(4)
+ self.sut.set_value(self.cpe_cores, 24, cpe_pkt_size - 26, 2)
+ # UDP length (byte 46): 46 for MAC(12), EthType(2), QinQ(8), IP(20), CRC(4)
+ self.sut.set_value(self.cpe_cores, 46, cpe_pkt_size - 46, 2)
+
+ # INET: IP length (byte 20): 22 for MAC(12), EthType(2), MPLS(4), CRC(4)
+ self.sut.set_value(self.inet_cores, 20, inet_pkt_size - 22, 2)
+ # UDP length (byte 42): 42 for MAC(12), EthType(2), MPLS(4), IP(20), CRC(4)
+ self.sut.set_value(self.inet_cores, 42, inet_pkt_size - 42, 2)
+
+ self.sut.set_speed(self.inet_cores, curr_up_speed)
+ self.sut.set_speed(self.cpe_cores, curr_down_speed)
+
+ # Ramp up the transmission speed. First go to the common speed, then
+ # increase steps for the faster one.
+ self.sut.start(self.cpe_cores + self.inet_cores + self.all_rx_cores)
+
+ LOG.info("Ramping up speed to %s up, %s down", max_up_speed, max_down_speed)
+
+ while (curr_up_speed < max_up_speed) or (curr_down_speed < max_down_speed):
+ # The min(..., ...) takes care of 1) floating point rounding errors
+ # that could make curr_*_speed to be slightly greater than
+ # max_*_speed and 2) max_*_speed not being an exact multiple of
+ # self._step_delta.
+ if curr_up_speed < max_up_speed:
+ curr_up_speed = min(curr_up_speed + self.step_delta, max_up_speed)
+ if curr_down_speed < max_down_speed:
+ curr_down_speed = min(curr_down_speed + self.step_delta, max_down_speed)
+
+ self.sut.set_speed(self.inet_cores, curr_up_speed)
+ self.sut.set_speed(self.cpe_cores, curr_down_speed)
+ time.sleep(self.step_time)
+
+ LOG.info("Target speeds reached. Starting real test.")
+
+ yield
+
+ self.sut.stop(self.cpe_cores + self.inet_cores)
+ LOG.info("Test ended. Flushing NIC buffers")
+ self.sut.start(self.all_rx_cores)
+ time.sleep(3)
+ self.sut.stop(self.all_rx_cores)
+
+ def run_test(self, pkt_size, duration, value, tolerated_loss=0.0):
+ data_helper = ProxDataHelper(self.vnfd_helper, self.sut, pkt_size, value, tolerated_loss)
+
+ with data_helper, self.traffic_context(pkt_size, value):
+ with data_helper.measure_tot_stats():
+ time.sleep(duration)
+ # Getting statistics to calculate PPS at right speed....
+ data_helper.capture_tsc_hz()
+ data_helper.latency = self.get_latency()
+
+ return data_helper.result_tuple, data_helper.samples