# License for the specific language governing permissions and limitations
# under the License.
+from datetime import datetime
+import socket
+import struct
+import time
+
from attrdict import AttrDict
import bitmath
-from datetime import datetime
-from log import LOG
from netaddr import IPNetwork
+# pylint: disable=import-error
+from trex_stl_lib.api import STLError
+# pylint: enable=import-error
+
+from log import LOG
from network import Interface
-import socket
from specs import ChainType
from stats_collector import IntervalCollector
from stats_collector import IterationCollector
-import struct
-import time
import traffic_gen.traffic_utils as utils
-from trex_stl_lib.api import STLError
from utils import cast_integer
class TrafficRunner(object):
-
def __init__(self, client, duration_sec, interval_sec=0):
self.client = client
self.start_time = None
def time_elapsed(self):
if self.is_running():
return time.time() - self.start_time
- else:
- return self.duration_sec
+ return self.duration_sec
def poll_stats(self):
if not self.is_running():
self.stop()
return self.client.get_stats()
+
class IpBlock(object):
def __init__(self, base_ip, step_ip, count_ip):
self.base_ip_int = Device.ip_to_int(base_ip)
'''
if self.next_free + count > self.max_available:
raise IndexError('No more IP addresses next free=%d max_available=%d requested=%d',
- self.next_free,
- self.max_available,
- count)
+ self.next_free,
+ self.max_available,
+ count)
first_ip = self.get_ip(self.next_free)
last_ip = self.get_ip(self.next_free + count - 1)
self.next_free += count
def reset_reservation(self):
self.next_free = 0
-class Device(object):
+class Device(object):
def __init__(self, port, pci, switch_port=None, vtep_vlan=None, ip=None, tg_gateway_ip=None,
gateway_ip=None, ip_addrs_step=None, tg_gateway_ip_addrs_step=None,
gateway_ip_addrs_step=None, udp_src_port=None, udp_dst_port=None,
self.ip_block = IpBlock(self.ip, ip_addrs_step, flow_count)
self.gw_ip_block = IpBlock(gateway_ip,
gateway_ip_addrs_step,
- chain_count)
+ chain_count)
self.tg_gw_ip_block = IpBlock(tg_gateway_ip,
tg_gateway_ip_addrs_step,
- chain_count)
+ chain_count)
self.udp_src_port = udp_src_port
self.udp_dst_port = udp_dst_port
# exact flow count for each chain is calculated as follows:
# - all chains except the first will have the same flow count
# calculated as (total_flows + chain_count - 1) / chain_count
- # - the first chain will have the remainder
+ # - the first chain will have the remainder
# example 11 flows and 3 chains => 3, 4, 4
- flows_per_chain = (self.flow_count + self.chain_count -1) / self.chain_count
+ flows_per_chain = (self.flow_count + self.chain_count - 1) / self.chain_count
cur_chain_flow_count = self.flow_count - flows_per_chain * (self.chain_count - 1)
self.ip_block.reset_reservation()
configs.append({
'count': cur_chain_flow_count,
'mac_src': self.mac,
- 'mac_dst': self.dst.mac if service_chain == ChainType.EXT
- else self.vm_mac_list[chain_idx],
+ 'mac_dst': self.dst.mac if service_chain == ChainType.EXT else self.vm_mac_list[
+ chain_idx],
'ip_src_addr': src_ip_first,
'ip_src_addr_max': src_ip_last,
'ip_src_count': cur_chain_flow_count,
def int_to_ip(nvalue):
return socket.inet_ntoa(struct.pack("!I", nvalue))
+
class RunningTrafficProfile(object):
"""Represents traffic configuration for currently running traffic profile."""
generator_config = AttrDict(traffic_generator)
generator_config.pop('default_profile')
generator_config.pop('generator_profile')
- matching_profile = filter(lambda profile: profile.name == generator_profile,
- traffic_generator.generator_profile)
+ matching_profile = [profile for profile in traffic_generator.generator_profile if
+ profile.name == generator_profile]
if len(matching_profile) != 1:
raise Exception('Traffic generator profile not found: ' + generator_profile)
class TrafficGeneratorFactory(object):
-
def __init__(self, config):
self.config = config
elif tool == 'dummy':
from traffic_gen import dummy
return dummy.DummyTG(self.config)
- else:
- return None
+ return None
def list_generator_profile(self):
return [profile.name for profile in self.config.traffic_generator.generator_profile]
return RunningTrafficProfile(self.config, generator_profile)
def get_matching_profile(self, traffic_profile_name):
- matching_profile = filter(lambda profile: profile.name == traffic_profile_name,
- self.config.traffic_profile)
+ matching_profile = [profile for profile in self.config.traffic_profile if
+ profile.name == traffic_profile_name]
if len(matching_profile) > 1:
raise Exception('Multiple traffic profiles with the same name found.')
- elif len(matching_profile) == 0:
+ elif not matching_profile:
raise Exception('No traffic profile found.')
return matching_profile[0]
class TrafficClient(object):
-
PORTS = [0, 1]
def __init__(self, config, notifier=None):
'l2frame_size': None,
'duration_sec': self.config.duration_sec,
'bidirectional': True,
- 'rates': None
+ 'rates': [] # to avoid unsbuscriptable-obj warning
}
self.current_total_rate = {'rate_percent': '10'}
if self.config.single_run:
for it in xrange(retry_count):
self.gen.clear_stats()
self.gen.start_traffic()
- LOG.info('Waiting for packets to be received back... ({} / {})'.format(it + 1,
- retry_count))
+ LOG.info('Waiting for packets to be received back... (%d / %d)', it + 1, retry_count)
time.sleep(self.config.generic_poll_sec)
self.gen.stop_traffic()
stats = self.gen.get_stats()
total_pkts = result['tx']['total_pkts']
if not total_pkts:
return float('inf')
- else:
- return float(dropped_pkts) / total_pkts * 100
+ return float(dropped_pkts) / total_pkts * 100
def get_stats(self):
stats = self.gen.get_stats()
self.interval_collector.add_ndr_pdr(tag, last_stats)
def __format_output_stats(self, stats):
- for key in (self.PORTS + ['overall']):
+ for key in self.PORTS + ['overall']:
interface = stats[key]
stats[key] = {
'tx_pkts': interface['tx']['total_pkts'],
def __targets_found(self, rate, targets, results):
for tag, target in targets.iteritems():
- LOG.info('Found {} ({}) load: {}'.format(tag, target, rate))
+ LOG.info('Found %s (%s) load: %s', tag, target, rate)
self.__ndr_pdr_found(tag, rate)
results[tag]['timestamp_sec'] = time.time()
('ndr', 'pdr')
results a dict to store results
'''
- if len(targets) == 0:
+ if not targets:
return
- LOG.info('Range search [{} .. {}] targets: {}'.format(left, right, targets))
+ LOG.info('Range search [%s .. %s] targets: %s', left, right, targets)
# Terminate search when gap is less than load epsilon
if right - left < self.config.measurement.load_epsilon:
# save reliable stats from whole iteration
self.iteration_collector.add(stats, current_traffic_config['direction-total']['rate_pps'])
- LOG.info('Average drop rate: {}'.format(stats['overall']['drop_rate_percent']))
+ LOG.info('Average drop rate: %f', stats['overall']['drop_rate_percent'])
return stats, current_traffic_config['direction-total']
if stats is None:
return
self.log_stats(stats)
- LOG.info('Drop rate: {}'.format(stats['overall']['drop_rate_percent']))
+ LOG.info('Drop rate: %f', stats['overall']['drop_rate_percent'])
yield stats
def cancel_traffic(self):
for direction in ['orig', 'tx', 'rx']:
total[direction] = {}
for unit in ['rate_percent', 'rate_bps', 'rate_pps']:
- total[direction][unit] = sum(map(lambda x: float(x[direction][unit]), r.values()))
+
+ total[direction][unit] = sum([float(x[direction][unit]) for x in r.values()])
r['direction-total'] = total
return r