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|
#!/usr/bin/env python
# Copyright 2016 Cisco Systems, Inc. All rights reserved.
#
# 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 json
import logging
import os
import sys
import pytest
from attrdict import AttrDict
from nfvbench.config import config_loads
from nfvbench.credentials import Credentials
from nfvbench.fluentd import FluentLogHandler
import nfvbench.log
from nfvbench.network import Interface
from nfvbench.network import Network
from nfvbench.specs import ChainType
from nfvbench.specs import Encaps
import nfvbench.traffic_gen.traffic_utils as traffic_utils
__location__ = os.path.realpath(os.path.join(os.getcwd(),
os.path.dirname(__file__)))
@pytest.fixture
def openstack_vxlan_spec():
return AttrDict(
{
'openstack': AttrDict({
'vswitch': "VTS",
'encaps': Encaps.VxLAN}),
'run_spec': AttrDict({
'use_vpp': True
})
}
)
# =========================================================================
# PVP Chain tests
# =========================================================================
def test_chain_interface():
iface = Interface('testname', 'vpp', tx_packets=1234, rx_packets=4321)
assert iface.name == 'testname'
assert iface.device == 'vpp'
assert iface.get_packet_count('tx') == 1234
assert iface.get_packet_count('rx') == 4321
assert iface.get_packet_count('wrong_key') == 0
# pylint: disable=redefined-outer-name
@pytest.fixture(scope='session')
def iface1():
return Interface('iface1', 'trex', tx_packets=10000, rx_packets=1234)
@pytest.fixture(scope='session')
def iface2():
return Interface('iface2', 'n9k', tx_packets=1234, rx_packets=9901)
@pytest.fixture(scope='session')
def iface3():
return Interface('iface3', 'n9k', tx_packets=9900, rx_packets=1234)
@pytest.fixture(scope='session')
def iface4():
return Interface('iface4', 'vpp', tx_packets=1234, rx_packets=9801)
@pytest.fixture(scope='session')
def net1(iface1, iface2, iface3, iface4):
return Network([iface1, iface2, iface3, iface4], reverse=False)
@pytest.fixture(scope='session')
def net2(iface1, iface2, iface3):
return Network([iface1, iface2, iface3], reverse=True)
def test_chain_network(net1, net2, iface1, iface2, iface3, iface4):
assert [iface1, iface2, iface3, iface4] == net1.get_interfaces()
assert [iface3, iface2, iface1] == net2.get_interfaces()
net2.add_interface(iface4)
assert [iface4, iface3, iface2, iface1] == net2.get_interfaces()
# pylint: enable=redefined-outer-name
# pylint: disable=pointless-string-statement
"""
def test_chain_analysis(net1, monkeypatch, openstack_vxlan_spec):
def mock_empty(self, *args, **kwargs):
pass
monkeypatch.setattr(ServiceChain, '_setup', mock_empty)
f = ServiceChain(AttrDict({'service_chain': 'DUMMY'}), [], {'tor': {}}, openstack_vxlan_spec,
lambda x, y, z: None)
result = f.get_analysis([net1])
assert result[1]['packet_drop_count'] == 99
assert result[1]['packet_drop_percentage'] == 0.99
assert result[2]['packet_drop_count'] == 1
assert result[2]['packet_drop_percentage'] == 0.01
assert result[3]['packet_drop_count'] == 99
assert result[3]['packet_drop_percentage'] == 0.99
net1.reverse = True
result = f.get_analysis([net1])
assert result[1]['packet_drop_count'] == 0
assert result[1]['packet_drop_percentage'] == 0.0
assert result[2]['packet_drop_count'] == 0
assert result[2]['packet_drop_percentage'] == 0.0
assert result[3]['packet_drop_count'] == 0
assert result[3]['packet_drop_percentage'] == 0.0
@pytest.fixture
def pvp_chain(monkeypatch, openstack_vxlan_spec):
tor_vni1 = Interface('vni-4097', 'n9k', 50, 77)
vsw_vni1 = Interface('vxlan_tunnel0', 'vpp', 77, 48)
vsw_vif1 = Interface('VirtualEthernet0/0/2', 'vpp', 48, 77)
vsw_vif2 = Interface('VirtualEthernet0/0/3', 'vpp', 77, 47)
vsw_vni2 = Interface('vxlan_tunnel1', 'vpp', 43, 77)
tor_vni2 = Interface('vni-4098', 'n9k', 77, 40)
def mock_init(self, *args, **kwargs):
self.vni_ports = [4097, 4098]
self.specs = openstack_vxlan_spec
self.clients = {
'vpp': AttrDict({
'set_interface_counters': lambda: None,
})
}
self.worker = AttrDict({
'run': lambda: None,
})
def mock_empty(self, *args, **kwargs):
pass
def mock_get_network(self, traffic_port, vni_id, reverse=False):
if vni_id == 0:
return Network([tor_vni1, vsw_vni1, vsw_vif1], reverse)
else:
return Network([tor_vni2, vsw_vni2, vsw_vif2], reverse)
def mock_get_data(self):
return {}
monkeypatch.setattr(PVPChain, '_get_network', mock_get_network)
monkeypatch.setattr(PVPChain, '_get_data', mock_get_data)
monkeypatch.setattr(PVPChain, '_setup', mock_empty)
monkeypatch.setattr(VxLANWorker, '_clear_interfaces', mock_empty)
monkeypatch.setattr(PVPChain, '_generate_traffic', mock_empty)
monkeypatch.setattr(PVPChain, '__init__', mock_init)
return PVPChain(None, None, {'vm': None, 'vpp': None, 'tor': None, 'traffic': None}, None)
def test_pvp_chain_run(pvp_chain):
result = pvp_chain.run()
expected_result = {
'raw_data': {},
'stats': None,
'packet_analysis': {
'direction-forward': [
OrderedDict([
('interface', 'vni-4097'),
('device', 'n9k'),
('packet_count', 50)
]),
OrderedDict([
('interface', 'vxlan_tunnel0'),
('device', 'vpp'),
('packet_count', 48),
('packet_drop_count', 2),
('packet_drop_percentage', 4.0)
]),
OrderedDict([
('interface', 'VirtualEthernet0/0/2'),
('device', 'vpp'),
('packet_count', 48),
('packet_drop_count', 0),
('packet_drop_percentage', 0.0)
]),
OrderedDict([
('interface', 'VirtualEthernet0/0/3'),
('device', 'vpp'),
('packet_count', 47),
('packet_drop_count', 1),
('packet_drop_percentage', 2.0)
]),
OrderedDict([
('interface', 'vxlan_tunnel1'),
('device', 'vpp'),
('packet_count', 43),
('packet_drop_count', 4),
('packet_drop_percentage', 8.0)
]),
OrderedDict([
('interface', 'vni-4098'),
('device', 'n9k'),
('packet_count', 40),
('packet_drop_count', 3),
('packet_drop_percentage', 6.0)
])
],
'direction-reverse': [
OrderedDict([
('interface', 'vni-4098'),
('device', 'n9k'),
('packet_count', 77)
]),
OrderedDict([
('interface', 'vxlan_tunnel1'),
('device', 'vpp'),
('packet_count', 77),
('packet_drop_count', 0),
('packet_drop_percentage', 0.0)
]),
OrderedDict([
('interface', 'VirtualEthernet0/0/3'),
('device', 'vpp'),
('packet_count', 77),
('packet_drop_count', 0),
('packet_drop_percentage', 0.0)
]),
OrderedDict([
('interface', 'VirtualEthernet0/0/2'),
('device', 'vpp'),
('packet_count', 77),
('packet_drop_count', 0),
('packet_drop_percentage', 0.0)
]),
OrderedDict([
('interface', 'vxlan_tunnel0'),
('device', 'vpp'),
('packet_count', 77),
('packet_drop_count', 0),
('packet_drop_percentage', 0.0)
]),
OrderedDict([
('interface', 'vni-4097'),
('device', 'n9k'),
('packet_count', 77),
('packet_drop_count', 0),
('packet_drop_percentage', 0.0)
])
]
}
}
assert result == expected_result
"""
# =========================================================================
# Traffic client tests
# =========================================================================
def test_parse_rate_str():
parse_rate_str = traffic_utils.parse_rate_str
try:
assert parse_rate_str('100%') == {'rate_percent': '100.0'}
assert parse_rate_str('37.5%') == {'rate_percent': '37.5'}
assert parse_rate_str('100%') == {'rate_percent': '100.0'}
assert parse_rate_str('60pps') == {'rate_pps': '60'}
assert parse_rate_str('60kpps') == {'rate_pps': '60000'}
assert parse_rate_str('6Mpps') == {'rate_pps': '6000000'}
assert parse_rate_str('6gpps') == {'rate_pps': '6000000000'}
assert parse_rate_str('80bps') == {'rate_bps': '80'}
assert parse_rate_str('80bps') == {'rate_bps': '80'}
assert parse_rate_str('80kbps') == {'rate_bps': '80000'}
assert parse_rate_str('80kBps') == {'rate_bps': '640000'}
assert parse_rate_str('80Mbps') == {'rate_bps': '80000000'}
assert parse_rate_str('80 MBps') == {'rate_bps': '640000000'}
assert parse_rate_str('80Gbps') == {'rate_bps': '80000000000'}
except Exception as exc:
assert False, exc.message
def should_raise_error(str):
try:
parse_rate_str(str)
except Exception:
return True
else:
return False
return False
assert should_raise_error('101')
assert should_raise_error('201%')
assert should_raise_error('10Kbps')
assert should_raise_error('0kbps')
assert should_raise_error('0pps')
assert should_raise_error('-1bps')
def test_rate_conversion():
assert traffic_utils.load_to_bps(50, 10000000000) == pytest.approx(5000000000.0)
assert traffic_utils.load_to_bps(37, 10000000000) == pytest.approx(3700000000.0)
assert traffic_utils.load_to_bps(100, 10000000000) == pytest.approx(10000000000.0)
assert traffic_utils.bps_to_load(5000000000.0, 10000000000) == pytest.approx(50.0)
assert traffic_utils.bps_to_load(3700000000.0, 10000000000) == pytest.approx(37.0)
assert traffic_utils.bps_to_load(10000000000.0, 10000000000) == pytest.approx(100.0)
assert traffic_utils.bps_to_pps(500000, 64) == pytest.approx(744.047619048)
assert traffic_utils.bps_to_pps(388888, 1518) == pytest.approx(31.6066319896)
assert traffic_utils.bps_to_pps(9298322222, 340.3) == pytest.approx(3225895.85831)
assert traffic_utils.pps_to_bps(744.047619048, 64) == pytest.approx(500000)
assert traffic_utils.pps_to_bps(31.6066319896, 1518) == pytest.approx(388888)
assert traffic_utils.pps_to_bps(3225895.85831, 340.3) == pytest.approx(9298322222)
# pps at 10Gbps line rate for 64 byte frames
LR_64B_PPS = 14880952
LR_1518B_PPS = 812743
def assert_equivalence(reference, value, allowance_pct=1):
'''Asserts if a value is equivalent to a reference value with given margin
:param float reference: reference value to compare to
:param float value: value to compare to reference
:param float allowance_pct: max allowed percentage of margin
0 : requires exact match
1 : must be equal within 1% of the reference value
...
100: always true
'''
if reference == 0:
assert value == 0
else:
assert abs(value - reference) * 100 / reference <= allowance_pct
def test_load_from_rate():
assert traffic_utils.get_load_from_rate('100%') == 100
assert_equivalence(100, traffic_utils.get_load_from_rate(str(LR_64B_PPS) + 'pps'))
assert_equivalence(50, traffic_utils.get_load_from_rate(str(LR_64B_PPS / 2) + 'pps'))
assert_equivalence(100, traffic_utils.get_load_from_rate('10Gbps'))
assert_equivalence(50, traffic_utils.get_load_from_rate('5000Mbps'))
assert_equivalence(1, traffic_utils.get_load_from_rate('100Mbps'))
assert_equivalence(100, traffic_utils.get_load_from_rate(str(LR_1518B_PPS) + 'pps',
avg_frame_size=1518))
assert_equivalence(100, traffic_utils.get_load_from_rate(str(LR_1518B_PPS * 2) + 'pps',
avg_frame_size=1518,
line_rate='20Gbps'))
"""
@pytest.fixture
def traffic_client(monkeypatch):
def mock_init(self, *args, **kwargs):
self.run_config = {
'bidirectional': False,
'l2frame_size': '64',
'duration_sec': 30,
'rates': [{'rate_percent': '10'}, {'rate_pps': '1'}]
}
def mock_modify_load(self, load):
self.run_config['rates'][0] = {'rate_percent': str(load)}
self.current_load = load
monkeypatch.setattr(TrafficClient, '__init__', mock_init)
monkeypatch.setattr(TrafficClient, 'modify_load', mock_modify_load)
return TrafficClient()
"""
# pylint: enable=pointless-string-statement
# =========================================================================
# Other tests
# =========================================================================
def setup_module(module):
nfvbench.log.setup(mute_stdout=True)
def test_no_credentials():
cred = Credentials('/completely/wrong/path/openrc', None, False)
if cred.rc_auth_url:
# shouldn't get valid data unless user set environment variables
assert False
else:
assert True
# Because trex_stl_lib may not be installed when running unit test
# nfvbench.traffic_client will try to import STLError:
# from trex_stl_lib.api import STLError
# will raise ImportError: No module named trex_stl_lib.api
try:
import trex_stl_lib.api
assert trex_stl_lib.api
except ImportError:
# Make up a trex_stl_lib.api.STLError class
class STLError(Exception):
pass
from types import ModuleType
stl_lib_mod = ModuleType('trex_stl_lib')
sys.modules['trex_stl_lib'] = stl_lib_mod
api_mod = ModuleType('trex_stl_lib.api')
stl_lib_mod.api = api_mod
sys.modules['trex_stl_lib.api'] = api_mod
api_mod.STLError = STLError
# pylint: disable=wrong-import-position,ungrouped-imports
from nfvbench.traffic_client import Device
from nfvbench.traffic_client import IpBlock
from nfvbench.traffic_client import TrafficClient
from nfvbench.traffic_client import TrafficGeneratorFactory
def test_ip_block():
ipb = IpBlock('10.0.0.0', '0.0.0.1', 256)
assert ipb.get_ip() == '10.0.0.0'
assert ipb.get_ip(255) == '10.0.0.255'
with pytest.raises(IndexError):
ipb.get_ip(256)
# verify with step larger than 1
ipb = IpBlock('10.0.0.0', '0.0.0.2', 256)
assert ipb.get_ip() == '10.0.0.0'
assert ipb.get_ip(1) == '10.0.0.2'
assert ipb.get_ip(128) == '10.0.1.0'
assert ipb.get_ip(255) == '10.0.1.254'
with pytest.raises(IndexError):
ipb.get_ip(256)
def check_config(configs, cc, fc, src_ip, dst_ip, step_ip):
'''Verify that the range configs for each chain have adjacent IP ranges
of the right size and without holes between chains
'''
step = Device.ip_to_int(step_ip)
cfc = 0
sip = Device.ip_to_int(src_ip)
dip = Device.ip_to_int(dst_ip)
for index in range(cc):
config = configs[index]
assert config['ip_src_count'] == config['ip_dst_count']
assert Device.ip_to_int(config['ip_src_addr']) == sip
assert Device.ip_to_int(config['ip_dst_addr']) == dip
count = config['ip_src_count']
cfc += count
sip += count * step
dip += count * step
assert cfc == fc
def create_device(fc, cc, ip, gip, tggip, step_ip, mac):
return Device(0, 0, flow_count=fc, chain_count=cc, ip=ip, gateway_ip=gip, tg_gateway_ip=tggip,
ip_addrs_step=step_ip,
tg_gateway_ip_addrs_step=step_ip,
gateway_ip_addrs_step=step_ip,
dst_mac=mac)
def check_device_flow_config(step_ip):
fc = 99999
cc = 10
ip0 = '10.0.0.0'
ip1 = '20.0.0.0'
tggip = '50.0.0.0'
gip = '60.0.0.0'
mac = ['00:11:22:33:44:55'] * cc
dev0 = create_device(fc, cc, ip0, gip, tggip, step_ip, mac)
dev1 = create_device(fc, cc, ip1, gip, tggip, step_ip, mac)
dev0.set_destination(dev1)
configs = dev0.get_stream_configs(ChainType.EXT)
check_config(configs, cc, fc, ip0, ip1, step_ip)
def test_device_flow_config():
check_device_flow_config('0.0.0.1')
check_device_flow_config('0.0.0.2')
def test_device_ip_range():
def ip_range_overlaps(ip0, ip1, flows):
tggip = '50.0.0.0'
gip = '60.0.0.0'
mac = ['00:11:22:33:44:55'] * 10
dev0 = create_device(flows, 10, ip0, gip, tggip, '0.0.0.1', mac)
dev1 = create_device(flows, 10, ip1, gip, tggip, '0.0.0.1', mac)
dev0.set_destination(dev1)
return dev0.ip_range_overlaps()
assert not ip_range_overlaps('10.0.0.0', '20.0.0.0', 10000)
assert ip_range_overlaps('10.0.0.0', '10.0.1.0', 10000)
assert ip_range_overlaps('10.0.0.0', '10.0.1.0', 257)
assert ip_range_overlaps('10.0.1.0', '10.0.0.0', 257)
def test_config():
refcfg = {1: 100, 2: {21: 100, 22: 200}, 3: None}
res1 = {1: 10, 2: {21: 100, 22: 200}, 3: None}
res2 = {1: 100, 2: {21: 1000, 22: 200}, 3: None}
res3 = {1: 100, 2: {21: 100, 22: 200}, 3: "abc"}
assert config_loads("{}", refcfg) == refcfg
assert config_loads("{1: 10}", refcfg) == res1
assert config_loads("{2: {21: 1000}}", refcfg) == res2
assert config_loads('{3: "abc"}', refcfg) == res3
# correctly fails
# pairs of input string and expected subset (None if identical)
fail_pairs = [
["{4: 0}", None],
["{2: {21: 100, 30: 50}}", "{2: {30: 50}}"],
["{2: {0: 1, 1: 2}, 5: 5}", None],
["{1: 'abc', 2: {21: 0}}", "{1: 'abc'}"],
["{2: 100}", None]
]
for fail_pair in fail_pairs:
with pytest.raises(Exception) as e_info:
config_loads(fail_pair[0], refcfg)
expected = fail_pair[1]
if expected is None:
expected = fail_pair[0]
assert expected in e_info.value.message
# whitelist keys
flavor = {'flavor': {'vcpus': 2, 'ram': 8192, 'disk': 0,
'extra_specs': {'hw:cpu_policy': 'dedicated'}}}
new_flavor = {'flavor': {'vcpus': 2, 'ram': 8192, 'disk': 0,
'extra_specs': {'hw:cpu_policy': 'dedicated', 'hw:numa_nodes': 2}}}
assert config_loads("{'flavor': {'extra_specs': {'hw:numa_nodes': 2}}}", flavor,
whitelist_keys=['alpha', 'extra_specs']) == new_flavor
def test_fluentd():
logger = logging.getLogger('fluent-logger')
class FluentdConfig(dict):
def __getattr__(self, attr):
return self.get(attr)
fluentd_configs = [
FluentdConfig({
'logging_tag': 'nfvbench',
'result_tag': 'resultnfvbench',
'ip': '127.0.0.1',
'port': 7081
}),
FluentdConfig({
'logging_tag': 'nfvbench',
'result_tag': 'resultnfvbench',
'ip': '127.0.0.1',
'port': 24224
}),
FluentdConfig({
'logging_tag': None,
'result_tag': 'resultnfvbench',
'ip': '127.0.0.1',
'port': 7082
}),
FluentdConfig({
'logging_tag': 'nfvbench',
'result_tag': None,
'ip': '127.0.0.1',
'port': 7083
})
]
handler = FluentLogHandler(fluentd_configs=fluentd_configs)
logger.addHandler(handler)
logger.setLevel(logging.INFO)
logger.info('test')
logger.warning('test %d', 100)
try:
raise Exception("test")
except Exception:
logger.exception("got exception")
def assert_ndr_pdr(stats, ndr, ndr_dr, pdr, pdr_dr):
assert stats['ndr']['rate_percent'] == ndr
assert stats['ndr']['stats']['overall']['drop_percentage'] == ndr_dr
assert_equivalence(pdr, stats['pdr']['rate_percent'])
assert_equivalence(pdr_dr, stats['pdr']['stats']['overall']['drop_percentage'])
def get_dummy_tg_config(chain_type, rate):
return AttrDict({
'traffic_generator': {'host_name': 'nfvbench_tg',
'default_profile': 'dummy',
'generator_profile': [{'name': 'dummy',
'tool': 'dummy',
'ip': '127.0.0.1',
'intf_speed': '10Gbps',
'interfaces': [{'port': 0, 'pci': '0.0'},
{'port': 1, 'pci': '0.0'}]}],
'ip_addrs_step': '0.0.0.1',
'ip_addrs': ['10.0.0.0/8', '20.0.0.0/8'],
'tg_gateway_ip_addrs': ['1.1.0.100', '2.2.0.100'],
'tg_gateway_ip_addrs_step': '0.0.0.1',
'gateway_ip_addrs': ['1.1.0.2', '2.2.0.2'],
'gateway_ip_addrs_step': '0.0.0.1',
'mac_addrs_left': None,
'mac_addrs_right': None,
'udp_src_port': None,
'udp_dst_port': None},
'service_chain': chain_type,
'service_chain_count': 1,
'flow_count': 10,
'vlan_tagging': True,
'no_arp': False,
'duration_sec': 1,
'interval_sec': 1,
'rate': rate,
'check_traffic_time_sec': 200,
'generic_poll_sec': 2,
'measurement': {'NDR': 0.001, 'PDR': 0.1, 'load_epsilon': 0.1},
'l2_loopback': False
})
def get_traffic_client():
config = get_dummy_tg_config('PVP', 'ndr_pdr')
config['ndr_run'] = True
config['pdr_run'] = True
config['generator_profile'] = 'dummy'
config['single_run'] = False
generator_factory = TrafficGeneratorFactory(config)
config.generator_config = generator_factory.get_generator_config(config.generator_profile)
traffic_client = TrafficClient(config, skip_sleep=True)
traffic_client.start_traffic_generator()
traffic_client.set_traffic('64', True)
return traffic_client
def test_ndr_at_lr():
traffic_client = get_traffic_client()
tg = traffic_client.gen
# this is a perfect sut with no loss at LR
tg.set_response_curve(lr_dr=0, ndr=100, max_actual_tx=100, max_11_tx=100)
# tx packets should be line rate for 64B and no drops...
assert tg.get_tx_pps_dropped_pps(100) == (LR_64B_PPS, 0)
# NDR and PDR should be at 100%
traffic_client.ensure_end_to_end()
results = traffic_client.get_ndr_and_pdr()
assert_ndr_pdr(results, 200.0, 0.0, 200.0, 0.0)
def test_ndr_at_50():
traffic_client = get_traffic_client()
tg = traffic_client.gen
# this is a sut with an NDR of 50% and linear drop rate after NDR up to 20% drops at LR
# (meaning that if you send 100% TX, you will only receive 80% RX)
# the tg requested TX/actual TX ratio is 1up to 50%, after 50%
# is linear up 80% actuak TX when requesting 100%
tg.set_response_curve(lr_dr=20, ndr=50, max_actual_tx=80, max_11_tx=50)
# tx packets should be half line rate for 64B and no drops...
assert tg.get_tx_pps_dropped_pps(50) == (LR_64B_PPS / 2, 0)
# at 100% TX requested, actual TX is 80% where the drop rate is 3/5 of 20% of the actual TX
assert tg.get_tx_pps_dropped_pps(100) == (int(LR_64B_PPS * 0.8),
int(LR_64B_PPS * 0.8 * 0.6 * 0.2))
results = traffic_client.get_ndr_and_pdr()
assert_ndr_pdr(results, 100.0, 0.0, 100.781, 0.09374)
def test_ndr_pdr_low_cpu():
traffic_client = get_traffic_client()
tg = traffic_client.gen
# This test is for the case where the TG is underpowered and cannot send fast enough for the NDR
# true NDR=40%, actual TX at 50% = 30%, actual measured DR is 0%
# The ndr/pdr should bail out with a warning and a best effort measured NDR of 30%
tg.set_response_curve(lr_dr=50, ndr=40, max_actual_tx=60, max_11_tx=0)
# tx packets should be 30% at requested half line rate for 64B and no drops...
assert tg.get_tx_pps_dropped_pps(50) == (int(LR_64B_PPS * 0.3), 0)
results = traffic_client.get_ndr_and_pdr()
assert results
# import pprint
# pp = pprint.PrettyPrinter(indent=4)
# pp.pprint(results)
import nfvbench.nfvbench
def test_no_openstack():
config = get_dummy_tg_config('EXT', '1000pps')
config.openrc_file = None
old_argv = sys.argv
sys.argv = [old_argv[0], '-c', json.dumps(config)]
nfvbench.nfvbench.main()
sys.argv = old_argv
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