return ret_str, False
- def get_data(self, pkt_dump_only=False, timeout=1):
+ def get_data(self, pkt_dump_only=False, timeout=0.01):
""" read data from the socket """
# This method behaves slightly differently depending on whether it is
def stop(self, cores, task=''):
""" stop specific cores on the remote instance """
- LOG.debug("Stopping cores %s", cores)
- self.put_command("stop {} {}\n".format(join_non_strings(',', cores), task))
+
+ tmpcores = []
+ for core in cores:
+ if core not in tmpcores:
+ tmpcores.append(core)
+
+ LOG.debug("Stopping cores %s", tmpcores)
+ self.put_command("stop {} {}\n".format(join_non_strings(',', tmpcores), task))
time.sleep(3)
def start_all(self):
def start(self, cores):
""" start specific cores on the remote instance """
- LOG.debug("Starting cores %s", cores)
- self.put_command("start {}\n".format(join_non_strings(',', cores)))
+
+ tmpcores = []
+ for core in cores:
+ if core not in tmpcores:
+ tmpcores.append(core)
+
+ LOG.debug("Starting cores %s", tmpcores)
+ self.put_command("start {}\n".format(join_non_strings(',', tmpcores)))
time.sleep(3)
def reset_stats(self):
tsc = int(ret[3])
return rx, tx, drop, tsc
+ def multi_port_stats(self, ports):
+ """get counter values from all ports port"""
+
+ ports_str = ""
+ for port in ports:
+ ports_str = ports_str + str(port) + ","
+ ports_str = ports_str[:-1]
+
+ ports_all_data = []
+ tot_result = [0] * len(ports)
+
+ retry_counter = 0
+ port_index = 0
+ while (len(ports) is not len(ports_all_data)) and (retry_counter < 10):
+ self.put_command("multi port stats {}\n".format(ports_str))
+ ports_all_data = self.get_data().split(";")
+
+ if len(ports) is len(ports_all_data):
+ for port_data_str in ports_all_data:
+
+ try:
+ tot_result[port_index] = [try_int(s, 0) for s in port_data_str.split(",")]
+ except (IndexError, TypeError):
+ LOG.error("Port Index error %d %s - retrying ", port_index, port_data_str)
+
+ if (len(tot_result[port_index]) is not 6) or \
+ tot_result[port_index][0] is not ports[port_index]:
+ ports_all_data = []
+ tot_result = [0] * len(ports)
+ port_index = 0
+ time.sleep(0.1)
+ LOG.error("Corrupted PACKET %s - retrying", port_data_str)
+ break
+ else:
+ port_index = port_index + 1
+ else:
+ LOG.error("Empty / too much data - retry -%s-", ports_all_data)
+ ports_all_data = []
+ tot_result = [0] * len(ports)
+ port_index = 0
+ time.sleep(0.1)
+
+ retry_counter = retry_counter + 1
+ return tot_result
+
def port_stats(self, ports):
"""get counter values from a specific port"""
tot_result = [0] * 12
self._test_type = self.setup_helper.find_in_section('global', 'name', None)
return self._test_type
- def run_traffic(self, traffic_profile):
+ def run_traffic(self, traffic_profile, *args):
self._queue.cancel_join_thread()
self.lower = 0.0
self.upper = 100.0
def _run_traffic_once(self, traffic_profile):
traffic_profile.execute_traffic(self)
- if traffic_profile.done:
+ if traffic_profile.done.is_set():
self._queue.put({'done': True})
LOG.debug("tg_prox done")
self._terminated.value = 1
@property
def totals_and_pps(self):
if self._totals_and_pps is None:
- rx_total, tx_total = self.sut.port_stats(range(self.port_count))[6:8]
+ rx_total = tx_total = 0
+ all_ports = self.sut.multi_port_stats(range(self.port_count))
+ for port in all_ports:
+ rx_total = rx_total + port[1]
+ tx_total = tx_total + port[2]
requested_pps = self.value / 100.0 * self.line_rate_to_pps()
self._totals_and_pps = rx_total, tx_total, requested_pps
return self._totals_and_pps
@property
def samples(self):
samples = {}
+ ports = []
+ port_names = []
for port_name, port_num in self.vnfd_helper.ports_iter():
- try:
- port_rx_total, port_tx_total = self.sut.port_stats([port_num])[6:8]
- samples[port_name] = {
- "in_packets": port_rx_total,
- "out_packets": port_tx_total,
- }
- except (KeyError, TypeError, NameError, MemoryError, ValueError,
- SystemError, BufferError):
- samples[port_name] = {
- "in_packets": 0,
- "out_packets": 0,
- }
+ ports.append(port_num)
+ port_names.append(port_name)
+
+ results = self.sut.multi_port_stats(ports)
+ for result in results:
+ port_num = result[0]
+ samples[port_names[port_num]] = {
+ "in_packets": result[1],
+ "out_packets": result[2]}
return samples
def __enter__(self):
return cores
+ def pct_10gbps(self, percent, line_speed):
+ """Get rate in percent of 10 Gbps.
+
+ Returns the rate in percent of 10 Gbps.
+ For instance 100.0 = 10 Gbps; 400.0 = 40 Gbps.
+
+ This helper method isrequired when setting interface_speed option in
+ the testcase because NSB/PROX considers 10Gbps as 100% of line rate,
+ this means that the line rate must be expressed as a percentage of
+ 10Gbps.
+
+ :param percent: (float) Percent of line rate (100.0 = line rate).
+ :param line_speed: (int) line rate speed, in bits per second.
+
+ :return: (float) Represents the rate in percent of 10Gbps.
+ """
+ return (percent * line_speed / (
+ constants.ONE_GIGABIT_IN_BITS * constants.NIC_GBPS_DEFAULT))
+
def run_test(self, pkt_size, duration, value, tolerated_loss=0.0,
line_speed=(constants.ONE_GIGABIT_IN_BITS * constants.NIC_GBPS_DEFAULT)):
data_helper = ProxDataHelper(self.vnfd_helper, self.sut, pkt_size,
value, tolerated_loss, line_speed)
- with data_helper, self.traffic_context(pkt_size, value):
+ with data_helper, self.traffic_context(pkt_size,
+ self.pct_10gbps(value, line_speed)):
with data_helper.measure_tot_stats():
time.sleep(duration)
# Getting statistics to calculate PPS at right speed....
data_helper = ProxDataHelper(self.vnfd_helper, self.sut, pkt_size,
value, tolerated_loss, line_speed)
- with data_helper, self.traffic_context(pkt_size, value):
+ with data_helper, self.traffic_context(pkt_size,
+ self.pct_10gbps(value, line_speed)):
with data_helper.measure_tot_stats():
time.sleep(duration)
# Getting statistics to calculate PPS at right speed....
data_helper = ProxDataHelper(self.vnfd_helper, self.sut, pkt_size,
value, tolerated_loss, line_speed)
- with data_helper, self.traffic_context(pkt_size, value):
+ with data_helper, self.traffic_context(pkt_size,
+ self.pct_10gbps(value, line_speed)):
with data_helper.measure_tot_stats():
time.sleep(duration)
# Getting statistics to calculate PPS at right speed....
data_helper = ProxDataHelper(self.vnfd_helper, self.sut, pkt_size,
value, tolerated_loss, line_speed)
- with data_helper, self.traffic_context(pkt_size, value):
+ with data_helper, self.traffic_context(pkt_size,
+ self.pct_10gbps(value, line_speed)):
with data_helper.measure_tot_stats():
time.sleep(duration)
# Getting statistics to calculate PPS at right speed....