def enable_packet_aging_after_test(duthosts, rand_one_dut_hostname):
"""
Ensure that packet aging is enabled after tests
Args:
duthosts (pytest fixture) : list of DUTs
rand_one_dut_hostname (pytest fixture): DUT hostname
Yields:
N/A
"""
yield
duthost = duthosts[rand_one_dut_hostname]
enable_packet_aging(duthost)
def run_pfcwd_basic_test(api, testbed_config, port_config_list, conn_data,
fanout_data, duthost, dut_port, prio_list,
prio_dscp_map, trigger_pfcwd):
"""
Run a basic PFC watchdog test
Args:
api (obj): IXIA session
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
conn_data (dict): the dictionary returned by conn_graph_fact.
fanout_data (dict): the dictionary returned by fanout_graph_fact.
duthost (Ansible host instance): device under test
dut_port (str): DUT port to test
prio_list (list): priorities of data flows and pause storm
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
trigger_pfcwd (bool): if PFC watchdog is expected to be triggered
Returns:
N/A
"""
pytest_assert(testbed_config is not None,
'Fail to get L2/3 testbed config')
start_pfcwd(duthost)
enable_packet_aging(duthost)
""" Get the ID of the port to test """
port_id = get_dut_port_id(dut_hostname=duthost.hostname,
dut_port=dut_port,
conn_data=conn_data,
fanout_data=fanout_data)
pytest_assert(port_id is not None,
'Fail to get ID for port {}'.format(dut_port))
poll_interval_sec = get_pfcwd_poll_interval(duthost) / 1000.0
detect_time_sec = get_pfcwd_detect_time(host_ans=duthost,
intf=dut_port) / 1000.0
restore_time_sec = get_pfcwd_restore_time(host_ans=duthost,
intf=dut_port) / 1000.0
if trigger_pfcwd:
""" Large enough to trigger PFC watchdog """
pfc_storm_dur_sec = ceil(detect_time_sec + poll_interval_sec + 0.1)
flow1_delay_sec = restore_time_sec / 2
flow1_dur_sec = pfc_storm_dur_sec
""" Start data traffic 2 after PFC is restored """
flow2_delay_sec = pfc_storm_dur_sec + restore_time_sec + poll_interval_sec
flow2_dur_sec = 1
flow1_max_loss_rate = 1
flow1_min_loss_rate = 1 - DEVIATION
else:
pfc_storm_dur_sec = detect_time_sec * 0.5
flow1_delay_sec = pfc_storm_dur_sec * 0.1
flow1_dur_sec = ceil(pfc_storm_dur_sec)
""" Start data traffic 2 after the completion of data traffic 1 """
flow2_delay_sec = flow1_delay_sec + flow1_dur_sec + 0.1
flow2_dur_sec = 1
flow1_max_loss_rate = 0
flow1_min_loss_rate = 0
exp_dur_sec = flow2_delay_sec + flow2_dur_sec + 1
""" Generate traffic config """
flows = __gen_traffic(
testbed_config=testbed_config,
port_config_list=port_config_list,
port_id=port_id,
pause_flow_name=PAUSE_FLOW_NAME,
pause_flow_dur_sec=pfc_storm_dur_sec,
data_flow_name_list=[DATA_FLOW1_NAME, DATA_FLOW2_NAME],
data_flow_delay_sec_list=[flow1_delay_sec, flow2_delay_sec],
data_flow_dur_sec_list=[flow1_dur_sec, flow2_dur_sec],
data_pkt_size=DATA_PKT_SIZE,
prio_list=prio_list,
prio_dscp_map=prio_dscp_map)
""" Tgen config = testbed config + flow config """
config = testbed_config
config.flows = flows
all_flow_names = [flow.name for flow in flows]
flow_stats = __run_traffic(api=api,
config=config,
all_flow_names=all_flow_names,
exp_dur_sec=exp_dur_sec)
__verify_results(rows=flow_stats,
data_flow_name_list=[DATA_FLOW1_NAME, DATA_FLOW2_NAME],
data_flow_min_loss_rate_list=[flow1_min_loss_rate, 0],
data_flow_max_loss_rate_list=[flow1_max_loss_rate, 0])
def run_pfcwd_multi_node_test(api, testbed_config, conn_data, fanout_data,
duthost, dut_port, pause_prio_list,
test_prio_list, bg_prio_list, prio_dscp_map,
trigger_pfcwd, pattern):
"""
Run PFC watchdog test in a multi-node (>=3) topoology
Args:
api (obj): IXIA session
testbed_config (obj): L2/L3 config of a T0 testbed
conn_data (dict): the dictionary returned by conn_graph_fact.
fanout_data (dict): the dictionary returned by fanout_graph_fact.
duthost (Ansible host instance): device under test
dut_port (str): DUT port to test
pause_prio_list (list): priorities to pause for PFC pause storm
test_prio_list (list): priorities of test flows
bg_prio_list (list): priorities of background flows
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
trigger_pfcwd (bool): if PFC watchdog is expected to be triggered
pattern (str): traffic pattern
Returns:
N/A
"""
patterns = ['all to all', '2 sender 2 receiver']
pytest_assert(
pattern in patterns,
'Unknown pattern {}. We only support {}'.format(pattern, patterns))
pytest_assert(testbed_config is not None,
'Fail to get L2/3 testbed config')
num_devices = len(testbed_config.devices)
pytest_require(num_devices >= 3, "This test requires at least 3 hosts")
start_pfcwd(duthost)
enable_packet_aging(duthost)
""" Get the ID of the port to test """
port_id = get_dut_port_id(dut_hostname=duthost.hostname,
dut_port=dut_port,
conn_data=conn_data,
fanout_data=fanout_data)
pytest_assert(port_id is not None,
'Fail to get ID for port {}'.format(dut_port))
poll_interval_sec = get_pfcwd_poll_interval(duthost) / 1000.0
detect_time_sec = get_pfcwd_detect_time(host_ans=duthost,
intf=dut_port) / 1000.0
if trigger_pfcwd:
pfc_storm_dur_sec = poll_interval_sec + detect_time_sec
else:
pfc_storm_dur_sec = 0.5 * detect_time_sec
exp_dur_sec = ceil(pfc_storm_dur_sec + 1)
""" Generate traffic config """
if pattern == "all to all":
test_flow_rate_percent = int(TEST_FLOW_AGGR_RATE_PERCENT / \
(num_devices - 1) / \
len(test_prio_list))
bg_flow_rate_percent = int(BG_FLOW_AGGR_RATE_PERCENT / \
(num_devices - 1) / \
len(bg_prio_list))
flows = __gen_a2a_traffic(
testbed_config=testbed_config,
port_id=port_id,
pause_flow_name=PAUSE_FLOW_NAME,
pause_prio_list=pause_prio_list,
test_flow_name=TEST_FLOW_NAME,
test_flow_prio_list=test_prio_list,
test_flow_rate_percent=test_flow_rate_percent,
bg_flow_name=BG_FLOW_NAME,
bg_flow_prio_list=bg_prio_list,
bg_flow_rate_percent=bg_flow_rate_percent,
data_flow_dur_sec=exp_dur_sec,
pfc_storm_dur_sec=pfc_storm_dur_sec,
data_pkt_size=DATA_PKT_SIZE,
prio_dscp_map=prio_dscp_map)
elif pattern == "2 sender 2 receiver":
test_flow_rate_percent = int(TEST_FLOW_AGGR_RATE_PERCENT / \
2.0 / \
len(test_prio_list))
bg_flow_rate_percent = int(BG_FLOW_AGGR_RATE_PERCENT / \
2.0 / \
len(bg_prio_list))
flows = __gen_2sender_2receiver_traffic(
testbed_config=testbed_config,
port_id=port_id,
pause_flow_name=PAUSE_FLOW_NAME,
pause_prio_list=pause_prio_list,
test_flow_name=TEST_FLOW_NAME,
test_flow_prio_list=test_prio_list,
test_flow_rate_percent=test_flow_rate_percent,
bg_flow_name=BG_FLOW_NAME,
bg_flow_prio_list=bg_prio_list,
bg_flow_rate_percent=bg_flow_rate_percent,
data_flow_dur_sec=exp_dur_sec,
pfc_storm_dur_sec=pfc_storm_dur_sec,
data_pkt_size=DATA_PKT_SIZE,
prio_dscp_map=prio_dscp_map)
""" Tgen config = testbed config + flow config """
config = testbed_config
config.flows = flows
all_flow_names = [flow.name for flow in flows]
flow_stats = __run_traffic(api=api,
config=config,
all_flow_names=all_flow_names,
exp_dur_sec=exp_dur_sec)
speed_str = config.layer1[0].speed
speed_gbps = int(speed_str.split('_')[1])
__verify_results(rows=flow_stats,
speed_gbps=speed_gbps,
pause_flow_name=PAUSE_FLOW_NAME,
test_flow_name=TEST_FLOW_NAME,
bg_flow_name=BG_FLOW_NAME,
test_flow_rate_percent=test_flow_rate_percent,
bg_flow_rate_percent=bg_flow_rate_percent,
data_flow_dur_sec=exp_dur_sec,
data_pkt_size=DATA_PKT_SIZE,
trigger_pfcwd=trigger_pfcwd,
pause_port_id=port_id,
tolerance=TOLERANCE_THRESHOLD)
def run_pfcwd_burst_storm_test(api,
testbed_config,
port_config_list,
conn_data,
fanout_data,
duthost,
dut_port,
prio_list,
prio_dscp_map):
"""
Test PFC watchdog under bursty PFC storms
Args:
api (obj): IXIA session
testbed_config (obj): testbed L1/L2/L3 configuration
port_config_list (list): list of port configuration
conn_data (dict): the dictionary returned by conn_graph_fact.
fanout_data (dict): the dictionary returned by fanout_graph_fact.
duthost (Ansible host instance): device under test
dut_port (str): DUT port to test
prio_list (list): priorities to generate PFC storms and data traffic
prio_dscp_map (dict): Priority vs. DSCP map (key = priority).
Returns:
N/A
"""
pytest_assert(testbed_config is not None, 'Fail to get L2/3 testbed config')
start_pfcwd(duthost)
enable_packet_aging(duthost)
""" Get the ID of the port to test """
port_id = get_dut_port_id(dut_hostname=duthost.hostname,
dut_port=dut_port,
conn_data=conn_data,
fanout_data=fanout_data)
pytest_assert(port_id is not None,
'Fail to get ID for port {}'.format(dut_port))
poll_interval_sec = get_pfcwd_poll_interval(duthost) / 1000.0
detect_time_sec = get_pfcwd_detect_time(host_ans=duthost, intf=dut_port) / 1000.0
restore_time_sec = get_pfcwd_restore_time(host_ans=duthost, intf=dut_port) / 1000.0
burst_cycle_sec = poll_interval_sec + detect_time_sec + restore_time_sec + 0.1
data_flow_dur_sec = ceil(burst_cycle_sec * BURST_EVENTS)
pause_flow_dur_sec = poll_interval_sec * 0.5
pause_flow_gap_sec = burst_cycle_sec - pause_flow_dur_sec
flows = __gen_traffic(testbed_config=testbed_config,
port_config_list=port_config_list,
port_id=port_id,
pause_flow_prefix=PAUSE_FLOW_PREFIX,
pause_flow_dur_sec=pause_flow_dur_sec,
pause_flow_count = BURST_EVENTS,
pause_flow_gap_sec=pause_flow_gap_sec,
data_flow_prefix=DATA_FLOW_PREFIX,
data_flow_dur_sec=data_flow_dur_sec,
data_pkt_size=DATA_PKT_SIZE,
prio_list=prio_list,
prio_dscp_map=prio_dscp_map)
""" Tgen config = testbed config + flow config """
config = testbed_config
config.flows = flows
all_flow_names = [flow.name for flow in flows]
exp_dur_sec = BURST_EVENTS * poll_interval_sec + 1
flow_stats = __run_traffic(api=api,
config=config,
all_flow_names=all_flow_names,
exp_dur_sec=exp_dur_sec)
__verify_results(rows=flow_stats,
data_flow_prefix=DATA_FLOW_PREFIX,
pause_flow_prefix=PAUSE_FLOW_PREFIX)