Example #1
0
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
Example #2
0
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
Example #3
0
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
Example #4
0
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