def _pfcwd_multi_host_configs(prio):
"""
Fixture to create multihost configuration
:param prio: dscp priority
"""
line_rate = traffic_line_rate
configs = pfcwd_configs(prio)
for config in configs:
######################################################################
# Traffic configuration Traffic 1->3
#######################################################################
dscp_prio = Priority(Dscp(phb=FieldPattern(choice=[str(prio)])))
flow_1to3 = Flow(
name="Traffic 1->3",
tx_rx=TxRx(
DeviceTxRx(
tx_device_names=[config.ports[0].devices[0].name],
rx_device_names=[config.ports[2].devices[0].name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_prio)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay, delay_unit='nanoseconds')))
config.flows.append(flow_1to3)
######################################################################
# Traffic configuration Traffic 3->1
#######################################################################
flow_3to1 = Flow(
name="Traffic 3->1",
tx_rx=TxRx(
DeviceTxRx(
tx_device_names=[config.ports[2].devices[0].name],
rx_device_names=[config.ports[0].devices[0].name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_prio)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay, delay_unit='nanoseconds')))
config.flows.append(flow_3to1)
return configs
def _pfc_watch_dog_multi_host_config(start_delay,
pause_line_rate,
traffic_line_rate,
frame_size,
t_start_pause,
pi):
line_rate = traffic_line_rate
config = pfc_watch_dog_config(start_delay,
pause_line_rate,
traffic_line_rate,
frame_size,
t_start_pause,
pi)
######################################################################
# Traffic configuration Traffic 1->3
#######################################################################
dscp_pi = Priority(Dscp(phb=FieldPattern(choice=[str(pi)])))
flow_1to3 = Flow(name="Traffic 1->3",
tx_rx=TxRx(DeviceTxRx(tx_device_names=[config.ports[0].devices[0].name],
rx_device_names=[config.ports[2].devices[0].name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_pi)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(Continuous(delay=start_delay, delay_unit='nanoseconds'))
)
config.flows.append(flow_1to3)
######################################################################
# Traffic configuration Traffic 3->1
#######################################################################
flow_3to1 = Flow(name="Traffic 3->1",
tx_rx=TxRx(DeviceTxRx(tx_device_names=[config.ports[2].devices[0].name],
rx_device_names=[config.ports[0].devices[0].name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_pi)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(Continuous(delay=start_delay, delay_unit='nanoseconds'))
)
config.flows.append(flow_3to1)
return config
def __gen_all_to_all_traffic(testbed_config,
port_config_list,
dut_hostname,
conn_data,
fanout_data,
priority,
prio_dscp_map):
flows = []
rate_percent = 100 / (len(port_config_list) - 1)
duration_sec = 2
pkt_size = 1024
tx_port_id_list, rx_port_id_list = select_ports(port_config_list=port_config_list,
pattern="all to all",
rx_port_id=0)
for tx_port_id in tx_port_id_list:
for rx_port_id in rx_port_id_list:
if tx_port_id == rx_port_id:
continue
tx_port_config = next((x for x in port_config_list if x.id == tx_port_id), None)
rx_port_config = next((x for x in port_config_list if x.id == rx_port_id), None)
tx_mac = tx_port_config.mac
if tx_port_config.gateway == rx_port_config.gateway and \
tx_port_config.prefix_len == rx_port_config.prefix_len:
""" If soruce and destination port are in the same subnet """
rx_mac = rx_port_config.mac
else:
rx_mac = tx_port_config.gateway_mac
data_endpoint = PortTxRx(tx_port_name=testbed_config.ports[tx_port_id].name,
rx_port_name=testbed_config.ports[rx_port_id].name)
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([priority]))
ip_prio = Priority(Dscp(phb=FieldPattern(choice=prio_dscp_map[priority]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
flow_name = "Flow {} -> {}".format(tx_port_id, rx_port_id)
flow = Flow(
name=flow_name,
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr), Header(choice=ipv4_hdr)],
size=Size(pkt_size),
rate=Rate('line', rate_percent),
duration=Duration(FixedSeconds(seconds=duration_sec))
)
flows.append(flow)
return flows
def traffic_config(testbed_config):
config = testbed_config
""" Traffic configuraiton """
flow_name = 'Test Flow'
rate_percent = 50
duration_sec = 2
pkt_size = 1024
data_endpoint = DeviceTxRx(
tx_device_names=[config.devices[0].name],
rx_device_names=[config.devices[1].name],
)
flow_dscp = Priority(Dscp(phb=FieldPattern(choice=[3, 4])))
flow = Flow(name=flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=flow_dscp))
],
size=Size(pkt_size),
rate=Rate('line', rate_percent),
duration=Duration(
FixedSeconds(seconds=duration_sec,
delay=0,
delay_unit='nanoseconds')))
config.flows = [flow]
return config
def test_choice(serializer):
from abstract_open_traffic_generator.flow import Flow, TxRx, PortTxRx
try:
flow = Flow(name='test', tx_rx=TxRx())
assert('Expected a TypeError when assigning physical')
except TypeError as e:
print(e)
pass
def __gen_traffic(testbed_config, port_id, data_flow_name, data_flow_dur_sec,
data_pkt_size, prio_list, prio_dscp_map):
"""
Generate configurations of flows
Args:
testbed_config (obj): L2/L3 config of a T0 testbed
port_id (int): ID of DUT port to test.
data_flow_name (str): data flow name
data_flow_dur_sec (int): duration of data flows in second
data_pkt_size (int): size of data packets in byte
prio_list (list): priorities of data flows
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flows configurations (list): the list should have configurations of
len(prio_list) data flows
"""
rx_port_id = port_id
tx_port_id = (port_id + 1) % len(testbed_config.devices)
data_endpoint = DeviceTxRx(
tx_device_names=[testbed_config.devices[tx_port_id].name],
rx_device_names=[testbed_config.devices[rx_port_id].name],
)
result = list()
data_flow_rate_percent = int(100 / len(prio_list))
""" For each priority """
for prio in prio_list:
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
pfc_queue = FieldPattern([prio])
data_flow = Flow(
name='{} Prio {}'.format(data_flow_name, prio),
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader(pfc_queue=pfc_queue)),
Header(choice=Ipv4Header(priority=ip_prio))
],
size=Size(data_pkt_size),
rate=Rate('line', data_flow_rate_percent),
duration=Duration(FixedSeconds(seconds=data_flow_dur_sec)))
result.append(data_flow)
return result
def port_ipv4_traffic(tx):
from abstract_open_traffic_generator.flow import Flow, Pattern, Ipv4
from abstract_open_traffic_generator.flow import Ethernet, Vlan, Header, TxRx, PortTxRx
from abstract_open_traffic_generator.flow import Size, Rate
eth = Ethernet(dst=Pattern('00:00:01:00:00:01'),
src=Pattern('00:00:02:00:00:01'))
vlan = Vlan(priority=Pattern(['0', '1', '2']),
cfi=Pattern('0'),
id=Pattern('1'))
ipv4 = Ipv4(src=Pattern('1.1.1.1'), dst=Pattern('1.1.2.1'))
return Flow(name='Port Based Ipv4 Traffic',
tx_rx=TxRx(PortTxRx(tx_port_name=tx.name)),
packet=[Header(eth), Header(vlan),
Header(ipv4)],
size=Size(512),
rate=Rate(unit='pps', value=1000000))
def __gen_data_flow(testbed_config, src_port_id, dst_port_id, flow_name_prefix,
flow_prio, flow_rate_percent, flow_dur_sec, data_pkt_size,
prio_dscp_map):
"""
Generate the configuration for a data flow
Args:
testbed_config (obj): L2/L3 config of a T0 testbed
src_port_id (int): ID of the source port
dst_port_id (int): ID of destination port
flow_name_prefix (str): prefix of flow' name
flow_prio_list (list): priorities of the flow
flow_rate_percent (int): rate percentage for the flow
flow_dur_sec (int): duration of the flow in second
data_pkt_size (int): packet size of the flow in byte
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flow configuration (obj): including name, packet format, rate, ...
"""
data_endpoint = DeviceTxRx(
tx_device_names=[testbed_config.devices[src_port_id].name],
rx_device_names=[testbed_config.devices[dst_port_id].name],
)
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[flow_prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
pfc_queue = FieldPattern([flow_prio])
flow_name = __data_flow_name(name_prefix=flow_name_prefix,
src_id=src_port_id,
dst_id=dst_port_id,
prio=flow_prio)
flow = Flow(name=flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader(pfc_queue=pfc_queue)),
Header(choice=Ipv4Header(priority=ip_prio))
],
size=Size(data_pkt_size),
rate=Rate('line', flow_rate_percent),
duration=Duration(FixedSeconds(seconds=flow_dur_sec)))
return flow
def b2b_port_flow_config(options, tx_port, rx_port):
"""Returns a configuration with an ethernet flow.
The flow uses a PortTxRx endpoint.
"""
from abstract_open_traffic_generator.config import Config
from abstract_open_traffic_generator.flow import Flow, TxRx, PortTxRx, \
Size, Rate, Duration, FixedPackets, Header, Ethernet
endpoint = PortTxRx(tx_port_name=tx_port.name,
rx_port_names=[rx_port.name])
flow = Flow(name='Port Flow',
tx_rx=TxRx(endpoint),
packet=[Header(Ethernet())],
size=Size(128),
rate=Rate(unit='pps', value=1000),
duration=Duration(FixedPackets(packets=10000)))
return Config(ports=[tx_port, rx_port], flows=[flow], options=options)
def flow_configs(port_configs):
"""This fixture demonstrates adding flows to port configurations.
"""
from abstract_open_traffic_generator.flow import DeviceTxRx, Duration, FixedPackets, Flow, Rate, Size, TxRx
for config in port_configs:
device_tx_rx = DeviceTxRx(
tx_device_names=[config.ports[0].devices[0].name],
rx_device_names=[config.ports[1].devices[0].name])
config.flows.append(
Flow(name='%s --> %s' %
(config.ports[0].name, config.ports[1].name),
tx_rx=TxRx(device_tx_rx),
size=Size(128),
rate=Rate(unit='pps', value=50000),
duration=Duration(FixedPackets(packets=10000000))))
return port_configs
def b2b_ipv4_flow_config(options, b2b_simple_device):
"""Returns a configuration with an ipv4 flow.
The flow uses a DeviceTxRx endpoint.
"""
from abstract_open_traffic_generator.config import Config
from abstract_open_traffic_generator.flow import Flow, TxRx, DeviceTxRx, \
Size, Rate, Duration, FixedPackets, Header, Ethernet, Vlan, Ipv4
tx_rx_devices = DeviceTxRx(
tx_device_names=[b2b_simple_device[0].devices[0].name],
rx_device_names=[b2b_simple_device[1].devices[0].name])
flow = Flow(name='Ipv4 Flow',
tx_rx=TxRx(tx_rx_devices),
packet=[Header(Ethernet()),
Header(Vlan()),
Header(Ipv4())],
size=Size(512),
rate=Rate(unit='pps', value=100000),
duration=Duration(FixedPackets(1000000)))
return Config(ports=b2b_simple_device, flows=[flow], options=options)
def __gen_traffic(testbed_config, dut_hostname, dut_port, conn_data,
fanout_data):
tx_port_id = get_dut_port_id(dut_hostname=dut_hostname,
dut_port=dut_port,
conn_data=conn_data,
fanout_data=fanout_data)
if tx_port_id is None:
return None
rx_port_id = (tx_port_id + 1) % len(testbed_config.devices)
""" Traffic configuraiton """
flow_name = 'Test Flow'
rate_percent = 50
duration_sec = 2
pkt_size = 1024
data_endpoint = DeviceTxRx(
tx_device_names=[testbed_config.devices[tx_port_id].name],
rx_device_names=[testbed_config.devices[rx_port_id].name],
)
flow_dscp = Priority(Dscp(phb=FieldPattern(choice=[3, 4])))
flow = Flow(name=flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=flow_dscp))
],
size=Size(pkt_size),
rate=Rate('line', rate_percent),
duration=Duration(
FixedSeconds(seconds=duration_sec,
delay=0,
delay_unit='nanoseconds')))
return [flow]
def __gen_traffic(testbed_config, port_id, pause_flow_name, data_flow_name,
prio, data_pkt_size, data_pkt_cnt, data_flow_delay_sec,
exp_dur_sec, prio_dscp_map):
"""
Generate configurations of flows, including a data flow and a PFC pause storm.
Args:
testbed_config (obj): L2/L3 config of a T0 testbed
port_id (int): ID of DUT port to test
pause_flow_name (str): name of the pause storm
data_flow_name (str): name of the data flow
prio (int): priority of the data flow and PFC pause storm
data_pkt_size (int): packet size of the data flow in byte
data_pkt_cnt (int): # of packets of the data flow
data_flow_delay_sec (float): start delay of the data flow in second
exp_dur_sec (float): experiment duration in second
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
Configurations of the data flow and the PFC pause storm (list)
"""
result = list()
rx_port_id = port_id
tx_port_id = (port_id + 1) % len(testbed_config.devices)
data_endpoint = DeviceTxRx(
tx_device_names=[testbed_config.devices[tx_port_id].name],
rx_device_names=[testbed_config.devices[rx_port_id].name],
)
data_flow_delay_nanosec = sec_to_nanosec(data_flow_delay_sec)
""" Data Flow """
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
pfc_queue = FieldPattern([prio])
data_flow = Flow(name=data_flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader(pfc_queue=pfc_queue)),
Header(choice=Ipv4Header(priority=ip_prio))
],
size=Size(data_pkt_size),
rate=Rate('line', 100),
duration=Duration(
FixedPackets(packets=data_pkt_cnt,
delay=data_flow_delay_nanosec,
delay_unit='nanoseconds')))
result.append(data_flow)
""" PFC Pause Storm """
pause_time = []
for x in range(8):
if x == prio:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector([prio])
pause_pkt = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
""" Pause frames are sent from the RX port """
pause_src_point = PortTxRx(
tx_port_name=testbed_config.ports[rx_port_id].name,
rx_port_name=testbed_config.ports[tx_port_id].name)
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pause_flow = Flow(name=pause_flow_name,
tx_rx=TxRx(pause_src_point),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(
FixedSeconds(seconds=exp_dur_sec,
delay=0,
delay_unit='nanoseconds')))
result.append(pause_flow)
return result
def _pfc_watch_dog_config(pi):
vlan_subnet = get_vlan_subnet(duthost)
pytest_assert(vlan_subnet is not None,
"Fail to get Vlan subnet information")
vlan_ip_addrs = get_addrs_in_subnet(vlan_subnet, 3)
gw_addr = vlan_subnet.split('/')[0]
interface_ip_addr = vlan_ip_addrs[0]
device1_ip = vlan_ip_addrs[0]
device2_ip = vlan_ip_addrs[1]
device3_ip = vlan_ip_addrs[2]
device1_gateway_ip = gw_addr
device2_gateway_ip = gw_addr
device3_gateway_ip = gw_addr
config = one_hundred_gbe.create_config()
line_rate = pfcwd_params['traffic_line_rate']
pause_line_rate = pfcwd_params['pause_line_rate']
start_delay = pfcwd_params['start_delay']
frame_size = pfcwd_params['frame_size']
t_start_pause = pfcwd_params['t_start_pause']
######################################################################
# Device Configuration
######################################################################
port1 = config.ports[0]
port2 = config.ports[1]
port3 = config.ports[2]
#Device 1 configuration
port1.devices = [
Device(name='Port 1',
device_count=1,
choice=Ipv4(name='Ipv4 1',
address=Pattern(device1_ip),
prefix=Pattern('24'),
gateway=Pattern(device1_gateway_ip),
ethernet=Ethernet(name='Ethernet 1')))
]
#Device 2 configuration
port2.devices = [
Device(name='Port 2',
device_count=1,
choice=Ipv4(name='Ipv4 2',
address=Pattern(device2_ip),
prefix=Pattern('24'),
gateway=Pattern(device2_gateway_ip),
ethernet=Ethernet(name='Ethernet 2')))
]
#Device 3 configuration
port3.devices = [
Device(name='Port 3',
device_count=1,
choice=Ipv4(name='Ipv4 3',
address=Pattern(device3_ip),
prefix=Pattern('24'),
gateway=Pattern(device3_gateway_ip),
ethernet=Ethernet(name='Ethernet 3')))
]
device1 = port1.devices[0]
device2 = port2.devices[0]
device3 = port3.devices[0]
######################################################################
# Traffic configuration Traffic 1->2
######################################################################
dscp_pi = Priority(Dscp(phb=FieldPattern(choice=[str(pi)])))
flow_1to2 = Flow(name="Traffic 1->2",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device1.name],
rx_device_names=[device2.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_pi)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_1to2)
######################################################################
# Traffic configuration Traffic 2->1
######################################################################
flow_2to1 = Flow(name="Traffic 2->1",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device2.name],
rx_device_names=[device1.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_pi)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_2to1)
######################################################################
# Traffic configuration Traffic 2->3
#######################################################################
flow_2to3 = Flow(name="Traffic 2->3",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device2.name],
rx_device_names=[device3.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_pi)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_2to3)
######################################################################
# Traffic configuration Traffic 3->2
#######################################################################
flow_3to2 = Flow(name="Traffic 3->2",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device3.name],
rx_device_names=[device2.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_pi)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_3to2)
#######################################################################
# Traffic configuration Pause
#######################################################################
if (pi == 3):
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='8'),
pause_class_0=FieldPattern(choice='0'),
pause_class_1=FieldPattern(choice='0'),
pause_class_2=FieldPattern(choice='0'),
pause_class_3=FieldPattern(choice='ffff'),
pause_class_4=FieldPattern(choice='0'),
pause_class_5=FieldPattern(choice='0'),
pause_class_6=FieldPattern(choice='0'),
pause_class_7=FieldPattern(choice='0'),
))
elif (pi == 4):
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='10'),
pause_class_0=FieldPattern(choice='0'),
pause_class_1=FieldPattern(choice='0'),
pause_class_2=FieldPattern(choice='0'),
pause_class_3=FieldPattern(choice='0'),
pause_class_4=FieldPattern(choice='ffff'),
pause_class_5=FieldPattern(choice='0'),
pause_class_6=FieldPattern(choice='0'),
pause_class_7=FieldPattern(choice='0'),
))
else:
pytest_assert(
False, "This testcase supports only lossless priorities 3 & 4")
pause_flow = Flow(name='Pause Storm',
tx_rx=TxRx(
PortTxRx(tx_port_name=port3.name,
rx_port_names=[port3.name])),
packet=[pause],
size=Size(64),
rate=Rate('line', value=pause_line_rate),
duration=Duration(
Continuous(delay=t_start_pause * (10**9),
delay_unit='nanoseconds')))
config.flows.append(pause_flow)
return config
def __gen_traffic(testbed_config, port_config_list, port_id, data_flow_name,
data_flow_dur_sec, data_pkt_size, prio_list, prio_dscp_map):
"""
Generate configurations of flows
Args:
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
port_id (int): ID of DUT port to test.
data_flow_name (str): data flow name
data_flow_dur_sec (int): duration of data flows in second
data_pkt_size (int): size of data packets in byte
prio_list (list): priorities of data flows
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flows configurations (list): the list should have configurations of
len(prio_list) data flows
"""
result = list()
rx_port_id = port_id
tx_port_id_list, rx_port_id_list = select_ports(
port_config_list=port_config_list,
pattern="many to one",
rx_port_id=rx_port_id)
pytest_assert(len(tx_port_id_list) > 0, "Cannot find any TX ports")
tx_port_id = select_tx_port(tx_port_id_list=tx_port_id_list,
rx_port_id=rx_port_id)
pytest_assert(tx_port_id is not None, "Cannot find a suitable TX port")
tx_port_config = next((x for x in port_config_list if x.id == tx_port_id),
None)
rx_port_config = next((x for x in port_config_list if x.id == rx_port_id),
None)
tx_mac = tx_port_config.mac
if tx_port_config.gateway == rx_port_config.gateway and \
tx_port_config.prefix_len == rx_port_config.prefix_len:
""" If soruce and destination port are in the same subnet """
rx_mac = rx_port_config.mac
else:
rx_mac = tx_port_config.gateway_mac
data_endpoint = PortTxRx(
tx_port_name=testbed_config.ports[tx_port_id].name,
rx_port_name=testbed_config.ports[rx_port_id].name)
data_flow_rate_percent = int(100 / len(prio_list))
""" For each priority """
for prio in prio_list:
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([prio]))
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
data_flow = Flow(
name='{} Prio {}'.format(data_flow_name, prio),
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr),
Header(choice=ipv4_hdr)],
size=Size(data_pkt_size),
rate=Rate('line', data_flow_rate_percent),
duration=Duration(FixedSeconds(seconds=data_flow_dur_sec)))
result.append(data_flow)
return result
def __gen_pause_flow(testbed_config, src_port_id, flow_name, pause_prio_list,
flow_dur_sec):
"""
Generate the configuration for a PFC pause storm
Args:
testbed_config (obj): L2/L3 config of a T0 testbed
src_port_id (int): ID of the source port
flow_name (str): flow' name
pause_prio_list (list): priorities to pause for PFC frames
flow_dur_sec (float): duration of the flow in second
Returns:
flow configuration (obj): including name, packet format, rate, ...
"""
pause_time = []
for x in range(8):
if x in pause_prio_list:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector(pause_prio_list)
pause_pkt = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
dst_port_id = (src_port_id + 1) % len(testbed_config.devices)
pause_src_point = PortTxRx(
tx_port_name=testbed_config.ports[src_port_id].name,
rx_port_name=testbed_config.ports[dst_port_id].name)
"""
The minimal fixed time duration in IXIA is 1 second.
To support smaller durations, we need to use # of packets
"""
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pkt_cnt = pps * flow_dur_sec
pause_flow = Flow(name=flow_name,
tx_rx=TxRx(pause_src_point),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(FixedPackets(packets=pkt_cnt,
delay=0)))
return pause_flow
def __gen_traffic(testbed_config, port_config_list, port_id, pause_flow_name,
data_flow_name, prio, data_pkt_size, data_pkt_cnt,
data_flow_delay_sec, exp_dur_sec, prio_dscp_map):
"""
Generate configurations of flows, including a data flow and a PFC pause storm.
Args:
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
port_id (int): ID of DUT port to test
pause_flow_name (str): name of the pause storm
data_flow_name (str): name of the data flow
prio (int): priority of the data flow and PFC pause storm
data_pkt_size (int): packet size of the data flow in byte
data_pkt_cnt (int): # of packets of the data flow
data_flow_delay_sec (float): start delay of the data flow in second
exp_dur_sec (float): experiment duration in second
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
Configurations of the data flow and the PFC pause storm (list)
"""
result = list()
rx_port_id = port_id
tx_port_id_list, rx_port_id_list = select_ports(
port_config_list=port_config_list,
pattern="many to one",
rx_port_id=rx_port_id)
pytest_assert(len(tx_port_id_list) > 0, "Cannot find any TX ports")
tx_port_id = select_tx_port(tx_port_id_list=tx_port_id_list,
rx_port_id=rx_port_id)
pytest_assert(tx_port_id is not None, "Cannot find a suitable TX port")
tx_port_config = next((x for x in port_config_list if x.id == tx_port_id),
None)
rx_port_config = next((x for x in port_config_list if x.id == rx_port_id),
None)
tx_mac = tx_port_config.mac
if tx_port_config.gateway == rx_port_config.gateway and \
tx_port_config.prefix_len == rx_port_config.prefix_len:
""" If soruce and destination port are in the same subnet """
rx_mac = rx_port_config.mac
else:
rx_mac = tx_port_config.gateway_mac
data_endpoint = PortTxRx(
tx_port_name=testbed_config.ports[tx_port_id].name,
rx_port_name=testbed_config.ports[rx_port_id].name)
data_flow_delay_nanosec = sec_to_nanosec(data_flow_delay_sec)
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([prio]))
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
data_flow = Flow(name=data_flow_name,
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr),
Header(choice=ipv4_hdr)],
size=Size(data_pkt_size),
rate=Rate('line', 100),
duration=Duration(
FixedPackets(packets=data_pkt_cnt,
delay=data_flow_delay_nanosec,
delay_unit='nanoseconds')))
result.append(data_flow)
""" PFC Pause Storm """
pause_time = []
for x in range(8):
if x == prio:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector([prio])
pause_pkt = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
""" Pause frames are sent from the RX port """
pause_endpoint = PortTxRx(
tx_port_name=testbed_config.ports[rx_port_id].name,
rx_port_name=testbed_config.ports[tx_port_id].name)
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pause_flow = Flow(name=pause_flow_name,
tx_rx=TxRx(pause_endpoint),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(
FixedSeconds(seconds=exp_dur_sec,
delay=0,
delay_unit='nanoseconds')))
result.append(pause_flow)
return result
def configure_pfc_lossy(api,
phy_tx_port,
phy_rx_port,
port_speed,
tx_port_ip='0.0.0.0',
rx_port_ip='0.0.0.0',
tx_gateway_ip='0.0.0.0',
rx_gateway_ip='0.0.0.',
tx_ip_incr='0.0.0.0',
rx_ip_incr='0.0.0.0',
tx_gateway_incr='0.0.0.0',
rx_gateway_incr='0.0.0.0',
configure_pause_frame=True):
api.set_config(None)
tx = Port(name='Tx', location=phy_tx_port)
rx = Port(name='Rx', location=phy_rx_port)
#########################################################################
# common L1 configuration
#########################################################################
pfc = Ieee8021qbb(pfc_delay=1,
pfc_class_0=0,
pfc_class_1=1,
pfc_class_2=2,
pfc_class_3=3,
pfc_class_4=4,
pfc_class_5=5,
pfc_class_6=6,
pfc_class_7=7)
flow_ctl = FlowControl(choice=pfc)
l1_oneHundredGbe = OneHundredGbe(link_training=True,
ieee_media_defaults=False,
auto_negotiate=False,
speed='one_hundred_gbps',
rs_fec=True,
flow_control=flow_ctl)
common_l1_config = Layer1(name='common L1 config',
choice=l1_oneHundredGbe,
port_names=[tx.name, rx.name])
###########################################################################
# Create TX stack configuration
###########################################################################
tx_ipv4 = Ipv4(name='Tx Ipv4',
address=Pattern(tx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(tx_gateway_ip))
tx_ethernet = Ethernet(name='Tx Ethernet', ipv4=tx_ipv4)
tx_device = Device(name='Tx Device',
devices_per_port=1,
ethernets=[tx_ethernet])
tx_device_group = DeviceGroup(name='Tx Device Group',
port_names=[tx.name],
devices=[tx_device])
###########################################################################
# Create RX stack configuration
###########################################################################
rx_ipv4 = Ipv4(name='Rx Ipv4',
address=Pattern(rx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(rx_gateway_ip))
rx_ethernet = Ethernet(name='Rx Ethernet', ipv4=rx_ipv4)
rx_device = Device(name='Rx Device',
devices_per_port=1,
ethernets=[rx_ethernet])
rx_device_group = DeviceGroup(name='Rx Device Group',
port_names=[rx.name],
devices=[rx_device])
###########################################################################
# Traffic configuration Test data
# DHCP = [3, 4]
# ECN BIT = 1
###########################################################################
test_dscp = Priority(
Dscp(phb=FieldPattern(choice=[3, 4]), ecn=FieldPattern('1')))
data_endpoint = DeviceEndpoint(tx_device_names=[tx_device.name],
rx_device_names=[rx_device.name],
packet_encap='ipv4',
src_dst_mesh='',
route_host_mesh='',
bi_directional=False,
allow_self_destined=False)
test_flow = Flow(name='Test Data',
endpoint=Endpoint(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=test_dscp))
],
size=Size(128),
rate=Rate('line', 50),
duration=Duration(
FixedPackets(packets=0,
delay=1000000000,
delay_unit='nanoseconds')))
###########################################################################
# Traffic configuration Pause
###########################################################################
if (configure_pause_frame):
pause_endpoint = PortEndpoint(tx_port_name=rx.name)
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='18'),
pause_class_0=FieldPattern(choice='0'),
pause_class_1=FieldPattern(choice='0'),
pause_class_2=FieldPattern(choice='0'),
pause_class_3=FieldPattern(choice='ffff'),
pause_class_4=FieldPattern(choice='ffff'),
pause_class_5=FieldPattern(choice='0'),
pause_class_6=FieldPattern(choice='0'),
pause_class_7=FieldPattern(choice='0'),
))
pause_flow = Flow(name='Pause Storm',
endpoint=Endpoint(pause_endpoint),
packet=[pause],
size=Size(64),
rate=Rate('line', value=100),
duration=Duration(
FixedPackets(packets=0,
delay=0,
delay_unit='nanoseconds')))
flows = [test_flow, pause_flow]
else:
flows = [test_flow]
###########################################################################
# Set config
###########################################################################
config = Config(ports=[tx, rx],
layer1=[common_l1_config],
device_groups=[tx_device_group, rx_device_group],
flows=flows)
api.set_config(config)
return config
def __gen_data_flow(testbed_config, port_config_list, src_port_id, dst_port_id,
flow_name_prefix, flow_prio, flow_rate_percent,
flow_dur_sec, data_pkt_size, prio_dscp_map):
"""
Generate the configuration for a data flow
Args:
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
src_port_id (int): ID of the source port
dst_port_id (int): ID of destination port
flow_name_prefix (str): prefix of flow' name
flow_prio_list (list): priorities of the flow
flow_rate_percent (int): rate percentage for the flow
flow_dur_sec (int): duration of the flow in second
data_pkt_size (int): packet size of the flow in byte
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flow configuration (obj): including name, packet format, rate, ...
"""
tx_port_config = next((x for x in port_config_list if x.id == src_port_id),
None)
rx_port_config = next((x for x in port_config_list if x.id == dst_port_id),
None)
tx_mac = tx_port_config.mac
if tx_port_config.gateway == rx_port_config.gateway and \
tx_port_config.prefix_len == rx_port_config.prefix_len:
""" If soruce and destination port are in the same subnet """
rx_mac = rx_port_config.mac
else:
rx_mac = tx_port_config.gateway_mac
data_endpoint = PortTxRx(
tx_port_name=testbed_config.ports[src_port_id].name,
rx_port_name=testbed_config.ports[dst_port_id].name)
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([flow_prio]))
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[flow_prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
flow_name = __data_flow_name(name_prefix=flow_name_prefix,
src_id=src_port_id,
dst_id=dst_port_id,
prio=flow_prio)
flow = Flow(name=flow_name,
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr),
Header(choice=ipv4_hdr)],
size=Size(data_pkt_size),
rate=Rate('line', flow_rate_percent),
duration=Duration(FixedSeconds(seconds=flow_dur_sec)))
return flow
def base_configs(testbed, conn_graph_facts, duthost, lossless_prio_dscp_map,
one_hundred_gbe, start_delay, traffic_duration,
pause_line_rate, traffic_line_rate, pause_frame_type,
frame_size, serializer):
for config in one_hundred_gbe:
start_delay = start_delay * 1000000000.0
bg_dscp_list = [str(prio) for prio in lossless_prio_dscp_map]
test_dscp_list = [str(x) for x in range(64) if x not in bg_dscp_list]
tx = config.ports[0]
rx = config.ports[1]
vlan_subnet = get_vlan_subnet(duthost)
pytest_assert(vlan_subnet is not None,
"Fail to get Vlan subnet information")
vlan_ip_addrs = get_addrs_in_subnet(vlan_subnet, 2)
gw_addr = vlan_subnet.split('/')[0]
interface_ip_addr = vlan_ip_addrs[0]
tx_port_ip = vlan_ip_addrs[1]
rx_port_ip = vlan_ip_addrs[0]
tx_gateway_ip = gw_addr
rx_gateway_ip = gw_addr
test_flow_name = 'Test Data'
background_flow_name = 'Background Data'
test_line_rate = traffic_line_rate
background_line_rate = traffic_line_rate
pause_line_rate = pause_line_rate
pytest_assert(
test_line_rate + background_line_rate <= 100,
"test_line_rate + background_line_rate should be less than 100")
######################################################################
# Create TX stack configuration
######################################################################
tx_ipv4 = Ipv4(name='Tx Ipv4',
address=Pattern(tx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(tx_gateway_ip),
ethernet=Ethernet(name='Tx Ethernet'))
tx.devices.append(
Device(name='Tx Device', device_count=1, choice=tx_ipv4))
######################################################################
# Create RX stack configuration
######################################################################
rx_ipv4 = Ipv4(name='Rx Ipv4',
address=Pattern(rx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(rx_gateway_ip),
ethernet=Ethernet(name='Rx Ethernet'))
rx.devices.append(
Device(name='Rx Device', device_count=1, choice=rx_ipv4))
######################################################################
# Traffic configuration Test data
######################################################################
data_endpoint = DeviceTxRx(
tx_device_names=[tx.devices[0].name],
rx_device_names=[rx.devices[0].name],
)
test_dscp = Priority(Dscp(phb=FieldPattern(choice=test_dscp_list)))
test_flow = Flow(name=test_flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=test_dscp))
],
size=Size(frame_size),
rate=Rate('line', test_line_rate),
duration=Duration(
FixedSeconds(seconds=traffic_duration,
delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(test_flow)
#######################################################################
# Traffic configuration Background data
#######################################################################
background_dscp = Priority(Dscp(phb=FieldPattern(choice=bg_dscp_list)))
background_flow = Flow(
name=background_flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=background_dscp))
],
size=Size(frame_size),
rate=Rate('line', background_line_rate),
duration=Duration(
FixedSeconds(seconds=traffic_duration,
delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(background_flow)
#######################################################################
# Traffic configuration Pause
#######################################################################
pause_endpoint = PortTxRx(tx_port_name='Rx', rx_port_names=['Rx'])
if (pause_frame_type == 'priority'):
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='E7'),
pause_class_0=FieldPattern(choice='ffff'),
pause_class_1=FieldPattern(choice='ffff'),
pause_class_2=FieldPattern(choice='ffff'),
pause_class_3=FieldPattern(choice='0'),
pause_class_4=FieldPattern(choice='0'),
pause_class_5=FieldPattern(choice='ffff'),
pause_class_6=FieldPattern(choice='ffff'),
pause_class_7=FieldPattern(choice='ffff'),
))
pause_flow = Flow(name='Pause Storm',
tx_rx=TxRx(pause_endpoint),
packet=[pause],
size=Size(64),
rate=Rate('line', value=100),
duration=Duration(
FixedPackets(packets=0,
delay=0,
delay_unit='nanoseconds')))
elif (pause_frame_type == 'global'):
pause = Header(
EthernetPause(dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce')))
pause_flow = Flow(name='Pause Storm',
tx_rx=TxRx(pause_endpoint),
packet=[pause],
size=Size(64),
rate=Rate('line', value=pause_line_rate),
duration=Duration(
FixedPackets(packets=0,
delay=0,
delay_unit='nanoseconds')))
else:
pass
config.flows.append(pause_flow)
return one_hundred_gbe
def __gen_traffic(testbed_config, port_id, pause_flow_name, global_pause,
pause_prio_list, test_flow_name, test_flow_prio_list,
test_flow_rate_percent, bg_flow_name, bg_flow_prio_list,
bg_flow_rate_percent, data_flow_dur_sec, data_flow_delay_sec,
data_pkt_size, prio_dscp_map):
"""
Generate configurations of flows, including test flows, background flows and
pause storm. Test flows and background flows are also known as data flows.
Args:
testbed_config (obj): L2/L3 config of a T0 testbed
port_id (int): ID of DUT port to test.
pause_flow_name (str): name of pause storm
global_pause (bool): if pause frame is IEEE 802.3X pause
pause_prio_list (list): priorities to pause for pause frames
test_flow_name (str): name of test flows
test_prio_list (list): priorities of test flows
test_flow_rate_percent (int): rate percentage for each test flow
bg_flow_name (str): name of background flows
bg_prio_list (list): priorities of background flows
bg_flow_rate_percent (int): rate percentage for each background flow
data_flow_dur_sec (int): duration of data flows in second
data_flow_delay_sec (int): start delay of data flows in second
data_pkt_size (int): packet size of data flows in byte
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flows configurations (list): the list should have configurations of
len(test_flow_prio_list) test flow, len(bg_flow_prio_list) background
flows and a pause storm.
"""
result = list()
rx_port_id = port_id
tx_port_id = (port_id + 1) % len(testbed_config.devices)
data_endpoint = DeviceTxRx(
tx_device_names=[testbed_config.devices[tx_port_id].name],
rx_device_names=[testbed_config.devices[rx_port_id].name],
)
data_flow_delay_nanosec = sec_to_nanosec(data_flow_delay_sec)
""" Test flows """
for prio in test_flow_prio_list:
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
pfc_queue = FieldPattern([prio])
test_flow = Flow(
name='{} Prio {}'.format(test_flow_name, prio),
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader(pfc_queue=pfc_queue)),
Header(choice=Ipv4Header(priority=ip_prio))
],
size=Size(data_pkt_size),
rate=Rate('line', test_flow_rate_percent),
duration=Duration(
FixedSeconds(seconds=data_flow_dur_sec,
delay=data_flow_delay_nanosec,
delay_unit='nanoseconds')))
result.append(test_flow)
""" Background flows """
for prio in bg_flow_prio_list:
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
pfc_queue = FieldPattern([prio])
bg_flow = Flow(name='{} Prio {}'.format(bg_flow_name, prio),
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader(pfc_queue=pfc_queue)),
Header(choice=Ipv4Header(priority=ip_prio))
],
size=Size(data_pkt_size),
rate=Rate('line', bg_flow_rate_percent),
duration=Duration(
FixedSeconds(seconds=data_flow_dur_sec,
delay=data_flow_delay_nanosec,
delay_unit='nanoseconds')))
result.append(bg_flow)
""" Pause storm """
if global_pause:
pause_pkt = Header(
EthernetPause(dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce')))
else:
pause_time = []
for x in range(8):
if x in pause_prio_list:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector(pause_prio_list)
pause_pkt = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
""" Pause frames are sent from the RX port """
pause_src_point = PortTxRx(
tx_port_name=testbed_config.ports[rx_port_id].name,
rx_port_name=testbed_config.ports[tx_port_id].name)
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pause_flow = Flow(name=pause_flow_name,
tx_rx=TxRx(pause_src_point),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(
Continuous(delay=0, delay_unit='nanoseconds')))
result.append(pause_flow)
return result
def __gen_traffic(testbed_config,
port_config_list,
port_id,
duthost,
pause_flow_name,
global_pause,
pause_prio_list,
test_flow_name,
test_flow_prio_list,
test_flow_rate_percent,
bg_flow_name,
bg_flow_prio_list,
bg_flow_rate_percent,
data_flow_dur_sec,
data_flow_delay_sec,
data_pkt_size,
prio_dscp_map):
"""
Generate configurations of flows, including test flows, background flows and
pause storm. Test flows and background flows are also known as data flows.
Args:
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
port_id (int): ID of DUT port to test
duthost (Ansible host instance): device under test
pause_flow_name (str): name of pause storm
global_pause (bool): if pause frame is IEEE 802.3X pause
pause_prio_list (list): priorities to pause for pause frames
test_flow_name (str): name of test flows
test_prio_list (list): priorities of test flows
test_flow_rate_percent (int): rate percentage for each test flow
bg_flow_name (str): name of background flows
bg_prio_list (list): priorities of background flows
bg_flow_rate_percent (int): rate percentage for each background flow
data_flow_dur_sec (int): duration of data flows in second
data_flow_delay_sec (int): start delay of data flows in second
data_pkt_size (int): packet size of data flows in byte
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flows configurations (list): the list should have configurations of
len(test_flow_prio_list) test flow, len(bg_flow_prio_list) background
flows and a pause storm.
"""
result = list()
rx_port_id = port_id
tx_port_id_list, rx_port_id_list = select_ports(port_config_list=port_config_list,
duthost=duthost,
pattern="many to one",
rx_port_id=rx_port_id)
pytest_assert(len(tx_port_id_list) > 0, "Cannot find any TX ports")
tx_port_id = select_tx_port(tx_port_id_list=tx_port_id_list,
rx_port_id=rx_port_id)
pytest_assert(tx_port_id is not None, "Cannot find a suitable TX port")
tx_port_config = next((x for x in port_config_list if x.id == tx_port_id), None)
rx_port_config = next((x for x in port_config_list if x.id == rx_port_id), None)
tx_mac = tx_port_config.mac
if tx_port_config.gateway == rx_port_config.gateway and \
tx_port_config.prefix_len == rx_port_config.prefix_len:
""" If soruce and destination port are in the same subnet """
rx_mac = rx_port_config.mac
else:
rx_mac = tx_port_config.gateway_mac
data_endpoint = PortTxRx(tx_port_name=testbed_config.ports[tx_port_id].name,
rx_port_name=testbed_config.ports[rx_port_id].name)
data_flow_delay_nanosec = sec_to_nanosec(data_flow_delay_sec)
""" Test flows """
for prio in test_flow_prio_list:
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([prio]))
ip_prio = Priority(Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
test_flow = Flow(
name='{} Prio {}'.format(test_flow_name, prio),
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr), Header(choice=ipv4_hdr)],
size=Size(data_pkt_size),
rate=Rate('line', test_flow_rate_percent),
duration=Duration(FixedSeconds(seconds=data_flow_dur_sec,
delay=data_flow_delay_nanosec,
delay_unit='nanoseconds'))
)
result.append(test_flow)
""" Background flows """
for prio in bg_flow_prio_list:
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([prio]))
ip_prio = Priority(Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
bg_flow = Flow(
name='{} Prio {}'.format(bg_flow_name, prio),
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr), Header(choice=ipv4_hdr)],
size=Size(data_pkt_size),
rate=Rate('line', bg_flow_rate_percent),
duration=Duration(FixedSeconds(seconds=data_flow_dur_sec,
delay=data_flow_delay_nanosec,
delay_unit='nanoseconds'))
)
result.append(bg_flow)
""" Pause storm """
if global_pause:
pause_pkt = Header(EthernetPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce')
))
else:
pause_time = []
for x in range(8):
if x in pause_prio_list:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector(pause_prio_list)
pause_pkt = Header(PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
""" Pause frames are sent from the RX port """
pause_endpoint = PortTxRx(tx_port_name=testbed_config.ports[rx_port_id].name,
rx_port_name=testbed_config.ports[tx_port_id].name)
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pause_flow = Flow(
name=pause_flow_name,
tx_rx=TxRx(pause_endpoint),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(Continuous(delay=0, delay_unit='nanoseconds'))
)
result.append(pause_flow)
return result
def __gen_traffic(testbed_config, port_id, pause_flow_name, pause_flow_dur_sec,
data_flow_name_list, data_flow_delay_sec_list,
data_flow_dur_sec_list, data_pkt_size, prio_list,
prio_dscp_map):
"""
Generate configurations of flows, including data flows and pause storm.
Args:
testbed_config (obj): L2/L3 config of a T0 testbed
port_id (int): ID of DUT port to test.
pause_flow_name (str): name of pause storm
pause_flow_dur_sec (float): duration of pause storm in second
data_flow_name_list (list): list of data flow names
data_flow_delay_sec_list (list): list of data flow start delays in second
data_flow_dur_sec_list (list): list of data flow durations in second
data_pkt_size (int): size of data packets in byte
prio_list (list): priorities of data flows and pause storm
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flows configurations (list): the list should have configurations of
len(prio_list) * 2 data flows, and a pause storm.
"""
result = list()
rx_port_id = port_id
tx_port_id = (port_id + 1) % len(testbed_config.devices)
data_endpoint = DeviceTxRx(
tx_device_names=[testbed_config.devices[tx_port_id].name],
rx_device_names=[testbed_config.devices[rx_port_id].name],
)
""" PFC storm """
pause_time = []
for x in range(8):
if x in prio_list:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector(prio_list)
pause_pkt = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
pause_src_point = PortTxRx(
tx_port_name=testbed_config.ports[rx_port_id].name,
rx_port_name=testbed_config.ports[tx_port_id].name)
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pause_pkt_cnt = pps * pause_flow_dur_sec
pause_flow = Flow(name=pause_flow_name,
tx_rx=TxRx(pause_src_point),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(
FixedPackets(packets=pause_pkt_cnt, delay=0)))
result.append(pause_flow)
data_flow_rate_percent = int(100 / len(prio_list))
""" For each data flow """
for i in range(len(data_flow_name_list)):
""" For each priority """
for prio in prio_list:
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
pfc_queue = FieldPattern([prio])
data_flow = Flow(
name='{} Prio {}'.format(data_flow_name_list[i], prio),
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader(pfc_queue=pfc_queue)),
Header(choice=Ipv4Header(priority=ip_prio))
],
size=Size(data_pkt_size),
rate=Rate('line', data_flow_rate_percent),
duration=Duration(
FixedSeconds(seconds=data_flow_dur_sec_list[i],
delay=sec_to_nanosec(
data_flow_delay_sec_list[i]),
delay_unit='nanoseconds')))
result.append(data_flow)
return result
def configure_pfc_lossy(api,
phy_tx_port,
phy_rx_port,
port_speed,
tx_port_ip='0.0.0.0',
rx_port_ip='0.0.0.0',
tx_gateway_ip='0.0.0.0',
rx_gateway_ip='0.0.0.',
tx_ip_incr='0.0.0.0',
rx_ip_incr='0.0.0.0',
tx_gateway_incr='0.0.0.0',
rx_gateway_incr='0.0.0.0',
configure_pause_frame=True):
api.set_config(None)
tx = Port(name='Tx', location=phy_tx_port)
rx = Port(name='Rx', location=phy_rx_port)
#########################################################################
# common L1 configuration
#########################################################################
pfc = Ieee8021qbb(pfc_delay=1,
pfc_class_0=0,
pfc_class_1=1,
pfc_class_2=2,
pfc_class_3=3,
pfc_class_4=4,
pfc_class_5=5,
pfc_class_6=6,
pfc_class_7=7)
flow_ctl = FlowControl(choice=pfc)
l1_oneHundredGbe = OneHundredGbe(link_training=True,
ieee_media_defaults=False,
auto_negotiate=False,
speed='one_hundred_gbps',
rs_fec=True,
flow_control=flow_ctl)
common_l1_config = Layer1(name='common L1 config',
choice=l1_oneHundredGbe,
port_names=[tx.name, rx.name])
###########################################################################
# Create TX stack configuration
###########################################################################
tx_ipv4 = Ipv4(name='Tx Ipv4',
address=Pattern(tx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(tx_gateway_ip),
ethernet=Ethernet(name='Tx Ethernet'))
tx.devices.append(Device(name='Tx Device', device_count=1, choice=tx_ipv4))
###########################################################################
# Create RX stack configuration
###########################################################################
rx_ipv4 = Ipv4(name='Rx Ipv4',
address=Pattern(rx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(rx_gateway_ip),
ethernet=Ethernet(name='Rx Ethernet'))
rx.devices.append(Device(name='Rx Device', device_count=1, choice=rx_ipv4))
###########################################################################
# Traffic configuration Test data
###########################################################################
data_endpoint = DeviceTxRx(tx_device_names=[tx.devices[0].name],
rx_device_names=[rx.devices[0].name])
test_dscp = Priority(
Dscp(phb=PATTERN(choice=["0", "1", "2", "5", "6", "7"])))
test_flow = Flow(name='Test Data',
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=ETHERNET()),
Header(choice=IPV4(priority=test_dscp))
],
size=Size(128),
rate=Rate('line', 50),
duration=Duration(
FixedPackets(packets=0,
delay=1000000000,
delay_unit='nanoseconds')))
###########################################################################
# Traffic configuration Background data
###########################################################################
background_dscp = Priority(Dscp(phb=PATTERN(choice=["3", "4"])))
background_flow = Flow(name='Background Data',
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=ETHERNET()),
Header(choice=IPV4(priority=background_dscp))
],
size=Size(128),
rate=Rate('line', 50),
duration=Duration(
FixedPackets(packets=0,
delay=1000000000,
delay_unit='nanoseconds')))
###########################################################################
# Traffic configuration Pause
###########################################################################
if (configure_pause_frame):
pause_endpoint = PortTxRx(tx_port_name=rx.name)
pause = Header(
PfcPause(
dst=PATTERN(choice='01:80:C2:00:00:01'),
src=PATTERN(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=PATTERN(choice='E7'),
pause_class_0=PATTERN(choice='ffff'),
pause_class_1=PATTERN(choice='ffff'),
pause_class_2=PATTERN(choice='ffff'),
pause_class_3=PATTERN(choice='0'),
pause_class_4=PATTERN(choice='0'),
pause_class_5=PATTERN(choice='ffff'),
pause_class_6=PATTERN(choice='ffff'),
pause_class_7=PATTERN(choice='ffff'),
))
pause_flow = Flow(name='Pause Storm',
tx_rx=TxRx(pause_endpoint),
packet=[pause],
size=Size(64),
rate=Rate('line', value=100),
duration=Duration(
FixedPackets(packets=0,
delay=0,
delay_unit='nanoseconds')))
flows = [test_flow, background_flow, pause_flow]
else:
flows = [test_flow, background_flow]
###########################################################################
# Set config
###########################################################################
config = Config(ports=[tx, rx], layer1=[common_l1_config], flows=flows)
api.set_config(config)
return config
def __gen_traffic(testbed_config, port_config_list, port_id, pause_flow_name,
pause_flow_dur_sec, data_flow_name_list,
data_flow_delay_sec_list, data_flow_dur_sec_list,
data_pkt_size, prio_list, prio_dscp_map):
"""
Generate configurations of flows, including data flows and pause storm.
Args:
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
port_id (int): ID of DUT port to test.
pause_flow_name (str): name of pause storm
pause_flow_dur_sec (float): duration of pause storm in second
data_flow_name_list (list): list of data flow names
data_flow_delay_sec_list (list): list of data flow start delays in second
data_flow_dur_sec_list (list): list of data flow durations in second
data_pkt_size (int): size of data packets in byte
prio_list (list): priorities of data flows and pause storm
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
flows configurations (list): the list should have configurations of
len(prio_list) * 2 data flows, and a pause storm.
"""
result = list()
rx_port_id = port_id
tx_port_id_list, rx_port_id_list = select_ports(
port_config_list=port_config_list,
pattern="many to one",
rx_port_id=rx_port_id)
pytest_assert(len(tx_port_id_list) > 0, "Cannot find any TX ports")
tx_port_id = select_tx_port(tx_port_id_list=tx_port_id_list,
rx_port_id=rx_port_id)
pytest_assert(tx_port_id is not None, "Cannot find a suitable TX port")
tx_port_config = next((x for x in port_config_list if x.id == tx_port_id),
None)
rx_port_config = next((x for x in port_config_list if x.id == rx_port_id),
None)
tx_mac = tx_port_config.mac
if tx_port_config.gateway == rx_port_config.gateway and \
tx_port_config.prefix_len == rx_port_config.prefix_len:
""" If soruce and destination port are in the same subnet """
rx_mac = rx_port_config.mac
else:
rx_mac = tx_port_config.gateway_mac
""" PFC storm """
pause_time = []
for x in range(8):
if x in prio_list:
pause_time.append('ffff')
else:
pause_time.append('0000')
vector = pfc_class_enable_vector(prio_list)
pause_pkt = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice=vector),
pause_class_0=FieldPattern(choice=pause_time[0]),
pause_class_1=FieldPattern(choice=pause_time[1]),
pause_class_2=FieldPattern(choice=pause_time[2]),
pause_class_3=FieldPattern(choice=pause_time[3]),
pause_class_4=FieldPattern(choice=pause_time[4]),
pause_class_5=FieldPattern(choice=pause_time[5]),
pause_class_6=FieldPattern(choice=pause_time[6]),
pause_class_7=FieldPattern(choice=pause_time[7]),
))
pause_endpoint = PortTxRx(
tx_port_name=testbed_config.ports[rx_port_id].name,
rx_port_name=testbed_config.ports[tx_port_id].name)
speed_str = testbed_config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
pause_dur = 65535 * 64 * 8.0 / (speed_gbps * 1e9)
pps = int(2 / pause_dur)
pause_pkt_cnt = pps * pause_flow_dur_sec
pause_flow = Flow(name=pause_flow_name,
tx_rx=TxRx(pause_endpoint),
packet=[pause_pkt],
size=Size(64),
rate=Rate('pps', value=pps),
duration=Duration(
FixedPackets(packets=pause_pkt_cnt, delay=0)))
result.append(pause_flow)
data_endpoint = PortTxRx(
tx_port_name=testbed_config.ports[tx_port_id].name,
rx_port_name=testbed_config.ports[rx_port_id].name)
data_flow_rate_percent = int(100 / len(prio_list))
""" For each data flow """
for i in range(len(data_flow_name_list)):
""" For each priority """
for prio in prio_list:
eth_hdr = EthernetHeader(src=FieldPattern(tx_mac),
dst=FieldPattern(rx_mac),
pfc_queue=FieldPattern([prio]))
ip_prio = Priority(
Dscp(phb=FieldPattern(choice=prio_dscp_map[prio]),
ecn=FieldPattern(choice=Dscp.ECN_CAPABLE_TRANSPORT_1)))
ipv4_hdr = Ipv4Header(src=FieldPattern(tx_port_config.ip),
dst=FieldPattern(rx_port_config.ip),
priority=ip_prio)
data_flow = Flow(
name='{} Prio {}'.format(data_flow_name_list[i], prio),
tx_rx=TxRx(data_endpoint),
packet=[Header(choice=eth_hdr),
Header(choice=ipv4_hdr)],
size=Size(data_pkt_size),
rate=Rate('line', data_flow_rate_percent),
duration=Duration(
FixedSeconds(seconds=data_flow_dur_sec_list[i],
delay=sec_to_nanosec(
data_flow_delay_sec_list[i]),
delay_unit='nanoseconds')))
result.append(data_flow)
return result
def _pfcwd_configs(prio):
"""
A fixture to create pfcwd configs on traffic generator using open traffic genertor model
:param prio: dscp priority 3 or 4
"""
vlan_subnet = get_vlan_subnet(duthost)
pytest_assert(vlan_subnet is not None,
"Fail to get Vlan subnet information")
vlan_ip_addrs = get_addrs_in_subnet(vlan_subnet, 3)
gw_addr = vlan_subnet.split('/')[0]
device1_ip = vlan_ip_addrs[0]
device2_ip = vlan_ip_addrs[1]
device3_ip = vlan_ip_addrs[2]
device1_gateway_ip = gw_addr
device2_gateway_ip = gw_addr
device3_gateway_ip = gw_addr
available_phy_port = ports_config.get_available_phy_ports()
pytest_assert(
len(available_phy_port) > 3,
"Number of physical ports must be at least 3")
ports_list = ports_config.create_ports_list(no_of_ports=3)
configs = []
for phy_ports in ports_list:
config = ports_config.create_config(phy_ports)
line_rate = traffic_line_rate
######################################################################
# Device Configuration
######################################################################
port1 = config.ports[0]
port2 = config.ports[1]
port3 = config.ports[2]
#Device 1 configuration
port1.devices = [
Device(name='Port 1',
device_count=1,
choice=Ipv4(name='Ipv4 1',
address=Pattern(device1_ip),
prefix=Pattern('24'),
gateway=Pattern(device1_gateway_ip),
ethernet=Ethernet(name='Ethernet 1')))
]
#Device 2 configuration
port2.devices = [
Device(name='Port 2',
device_count=1,
choice=Ipv4(name='Ipv4 2',
address=Pattern(device2_ip),
prefix=Pattern('24'),
gateway=Pattern(device2_gateway_ip),
ethernet=Ethernet(name='Ethernet 2')))
]
#Device 3 configuration
port3.devices = [
Device(name='Port 3',
device_count=1,
choice=Ipv4(name='Ipv4 3',
address=Pattern(device3_ip),
prefix=Pattern('24'),
gateway=Pattern(device3_gateway_ip),
ethernet=Ethernet(name='Ethernet 3')))
]
device1 = port1.devices[0]
device2 = port2.devices[0]
device3 = port3.devices[0]
######################################################################
# Traffic configuration Traffic 1->2
######################################################################
dscp_prio = Priority(Dscp(phb=FieldPattern(choice=[str(prio)])))
flow_1to2 = Flow(name="Traffic 1->2",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device1.name],
rx_device_names=[device2.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_prio)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_1to2)
######################################################################
# Traffic configuration Traffic 2->1
######################################################################
flow_2to1 = Flow(name="Traffic 2->1",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device2.name],
rx_device_names=[device1.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_prio)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_2to1)
######################################################################
# Traffic configuration Traffic 2->3
#######################################################################
flow_2to3 = Flow(name="Traffic 2->3",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device2.name],
rx_device_names=[device3.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_prio)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_2to3)
######################################################################
# Traffic configuration Traffic 3->2
#######################################################################
flow_3to2 = Flow(name="Traffic 3->2",
tx_rx=TxRx(
DeviceTxRx(tx_device_names=[device3.name],
rx_device_names=[device2.name])),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=dscp_prio)),
],
size=Size(frame_size),
rate=Rate('line', line_rate),
duration=Duration(
Continuous(delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(flow_3to2)
#######################################################################
# Traffic configuration Pause
#######################################################################
if prio == 3:
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='8'),
pause_class_0=FieldPattern(choice='0'),
pause_class_1=FieldPattern(choice='0'),
pause_class_2=FieldPattern(choice='0'),
pause_class_3=FieldPattern(choice='ffff'),
pause_class_4=FieldPattern(choice='0'),
pause_class_5=FieldPattern(choice='0'),
pause_class_6=FieldPattern(choice='0'),
pause_class_7=FieldPattern(choice='0'),
))
elif prio == 4:
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='10'),
pause_class_0=FieldPattern(choice='0'),
pause_class_1=FieldPattern(choice='0'),
pause_class_2=FieldPattern(choice='0'),
pause_class_3=FieldPattern(choice='0'),
pause_class_4=FieldPattern(choice='ffff'),
pause_class_5=FieldPattern(choice='0'),
pause_class_6=FieldPattern(choice='0'),
pause_class_7=FieldPattern(choice='0'),
))
else:
pytest_assert(
False,
"This testcase supports only lossless priorities 3 & 4, need to enhance the script based on requirement"
)
pause_flow = Flow(name='Pause Storm',
tx_rx=TxRx(
PortTxRx(tx_port_name=port3.name,
rx_port_names=[port3.name])),
packet=[pause],
size=Size(64),
rate=Rate('line', value=pause_line_rate),
duration=Duration(
Continuous(delay=t_start_pause * (10**9),
delay_unit='nanoseconds')))
config.flows.append(pause_flow)
configs.append(config)
return configs
def lossy_configs(testbed, conn_graph_facts, duthost, lossless_prio_dscp_map,
one_hundred_gbe, start_delay, serializer):
for config in one_hundred_gbe:
bg_dscp_list = [prio for prio in lossless_prio_dscp_map]
test_dscp_list = [x for x in range(64) if x not in bg_dscp_list]
vlan_subnet = get_vlan_subnet(duthost)
pytest_assert(vlan_subnet is not None,
"Fail to get Vlan subnet information")
vlan_ip_addrs = get_addrs_in_subnet(vlan_subnet, 2)
gw_addr = vlan_subnet.split('/')[0]
interface_ip_addr = vlan_ip_addrs[0]
tx_port_ip = vlan_ip_addrs[1]
rx_port_ip = vlan_ip_addrs[0]
tx_gateway_ip = gw_addr
rx_gateway_ip = gw_addr
test_flow_name = 'Test Data'
background_flow_name = 'Background Data'
test_line_rate = 50
background_line_rate = 50
pause_line_rate = 100
configure_pause_frame = 1
######################################################################
# Create TX stack configuration
######################################################################
tx_ipv4 = Ipv4(name='Tx Ipv4',
address=Pattern(tx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(tx_gateway_ip))
tx_ethernet = Ethernet(name='Tx Ethernet', ipv4=tx_ipv4)
tx_device = Device(name='Tx Device',
devices_per_port=1,
ethernets=[tx_ethernet])
tx_device_group = DeviceGroup(name='Tx Device Group',
port_names=['Tx'],
devices=[tx_device])
config.device_groups.append(tx_device_group)
######################################################################
# Create RX stack configuration
######################################################################
rx_ipv4 = Ipv4(name='Rx Ipv4',
address=Pattern(rx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(rx_gateway_ip))
rx_ethernet = Ethernet(name='Rx Ethernet', ipv4=rx_ipv4)
rx_device = Device(name='Rx Device',
devices_per_port=1,
ethernets=[rx_ethernet])
rx_device_group = DeviceGroup(name='Rx Device Group',
port_names=['Rx'],
devices=[rx_device])
config.device_groups.append(rx_device_group)
######################################################################
# Traffic configuration Test data
######################################################################
data_endpoint = DeviceEndpoint(tx_device_names=[tx_device.name],
rx_device_names=[rx_device.name],
packet_encap='ipv4',
src_dst_mesh='',
route_host_mesh='',
bi_directional=False,
allow_self_destined=False)
test_dscp = Priority(Dscp(phb=FieldPattern(choice=test_dscp_list)))
test_flow = Flow(name=test_flow_name,
endpoint=Endpoint(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=test_dscp))
],
size=Size(1024),
rate=Rate('line', test_line_rate),
duration=Duration(
Fixed(packets=0,
delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(test_flow)
#######################################################################
# Traffic configuration Background data
#######################################################################
background_dscp = Priority(Dscp(phb=FieldPattern(choice=bg_dscp_list)))
background_flow = Flow(
name=background_flow_name,
endpoint=Endpoint(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=background_dscp))
],
size=Size(1024),
rate=Rate('line', background_line_rate),
duration=Duration(
Fixed(packets=0, delay=start_delay, delay_unit='nanoseconds')))
config.flows.append(background_flow)
#######################################################################
# Traffic configuration Pause
#######################################################################
if (configure_pause_frame):
pause_endpoint = PortEndpoint(tx_port_name='Rx',
rx_port_names=['Rx'])
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='E7'),
pause_class_0=FieldPattern(choice='ffff'),
pause_class_1=FieldPattern(choice='ffff'),
pause_class_2=FieldPattern(choice='ffff'),
pause_class_3=FieldPattern(choice='0'),
pause_class_4=FieldPattern(choice='0'),
pause_class_5=FieldPattern(choice='ffff'),
pause_class_6=FieldPattern(choice='ffff'),
pause_class_7=FieldPattern(choice='ffff'),
))
pause_flow = Flow(name='Pause Storm',
endpoint=Endpoint(pause_endpoint),
packet=[pause],
size=Size(64),
rate=Rate('line', value=pause_line_rate),
duration=Duration(
Fixed(packets=0,
delay=0,
delay_unit='nanoseconds')))
config.flows.append(pause_flow)
return one_hundred_gbe
def base_configs(testbed, conn_graph_facts, duthost, lossless_prio_dscp_map,
one_hundred_gbe, start_delay, pause_line_rate,
traffic_line_rate, frame_size, ecn_thresholds, serializer):
for config in one_hundred_gbe:
start_delay = start_delay * 1000000000.0
test_dscp_list = [str(prio) for prio in lossless_prio_dscp_map]
tx = config.ports[0]
rx = config.ports[1]
vlan_subnet = get_vlan_subnet(duthost)
pytest_assert(vlan_subnet is not None,
"Fail to get Vlan subnet information")
vlan_ip_addrs = get_addrs_in_subnet(vlan_subnet, 2)
gw_addr = vlan_subnet.split('/')[0]
interface_ip_addr = vlan_ip_addrs[0]
tx_port_ip = vlan_ip_addrs[1]
rx_port_ip = vlan_ip_addrs[0]
tx_gateway_ip = gw_addr
rx_gateway_ip = gw_addr
test_flow_name = 'Test Data'
test_line_rate = traffic_line_rate
pause_line_rate = pause_line_rate
pytest_assert(test_line_rate <= pause_line_rate,
"test_line_rate + should be less than pause_line_rate")
######################################################################
# Create TX stack configuration
######################################################################
tx_ipv4 = Ipv4(name='Tx Ipv4',
address=Pattern(tx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(tx_gateway_ip),
ethernet=Ethernet(name='Tx Ethernet'))
tx.devices.append(
Device(name='Tx Device', device_count=1, choice=tx_ipv4))
######################################################################
# Create RX stack configuration
######################################################################
rx_ipv4 = Ipv4(name='Rx Ipv4',
address=Pattern(rx_port_ip),
prefix=Pattern('24'),
gateway=Pattern(rx_gateway_ip),
ethernet=Ethernet(name='Rx Ethernet'))
rx.devices.append(
Device(name='Rx Device', device_count=1, choice=rx_ipv4))
######################################################################
# Traffic configuration Test data
######################################################################
data_endpoint = DeviceTxRx(
tx_device_names=[tx.devices[0].name],
rx_device_names=[rx.devices[0].name],
)
pytest_assert(ecn_thresholds < 1024 * 1024,
"keep the ECN thresholds less than 1MB")
test_dscp = Priority(
Dscp(phb=FieldPattern(choice=test_dscp_list),
ecn=FieldPattern(Dscp.ECN_CAPABLE_TRANSPORT_1)))
# ecn_thresholds in bytes
number_of_packets = int(2 * (ecn_thresholds / frame_size))
logger.info("Total number of packets to send = 2 * %s = %s"\
%(ecn_thresholds / frame_size, number_of_packets))
test_flow = Flow(name=test_flow_name,
tx_rx=TxRx(data_endpoint),
packet=[
Header(choice=EthernetHeader()),
Header(choice=Ipv4Header(priority=test_dscp))
],
size=Size(frame_size),
rate=Rate('line', test_line_rate),
duration=Duration(
FixedPackets(packets=number_of_packets,
delay=start_delay,
delay_unit='nanoseconds')))
config.flows.append(test_flow)
#######################################################################
# Traffic configuration Pause
#######################################################################
pause_endpoint = PortTxRx(tx_port_name='Rx', rx_port_names=['Rx'])
pause = Header(
PfcPause(
dst=FieldPattern(choice='01:80:C2:00:00:01'),
src=FieldPattern(choice='00:00:fa:ce:fa:ce'),
class_enable_vector=FieldPattern(choice='18'),
pause_class_0=FieldPattern(choice='0'),
pause_class_1=FieldPattern(choice='0'),
pause_class_2=FieldPattern(choice='0'),
pause_class_3=FieldPattern(choice='ffff'),
pause_class_4=FieldPattern(choice='ffff'),
pause_class_5=FieldPattern(choice='0'),
pause_class_6=FieldPattern(choice='0'),
pause_class_7=FieldPattern(choice='0'),
))
pause_flow = Flow(name='Pause Storm',
tx_rx=TxRx(pause_endpoint),
packet=[pause],
size=Size(64),
rate=Rate('line', value=100),
duration=Duration(
FixedPackets(packets=0,
delay=0,
delay_unit='nanoseconds')))
config.flows.append(pause_flow)
return one_hundred_gbe