ostinato/test/pktlentest.py

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#! /usr/bin/env python
# standard modules
import logging
import os
import pytest
import subprocess
import sys
import time
from harness import extract_column
sys.path.insert(1, '../binding')
from core import ost_pb, DroneProxy
from rpc import RpcError
#from protocols.mac_pb2 import mac
#from protocols.payload_pb2 import payload, Payload
# initialize defaults
host_name = '127.0.0.1'
tx_number = -1
rx_number = -1
if sys.platform == 'win32':
tshark = r'C:\Program Files\Wireshark\tshark.exe'
else:
tshark = 'tshark'
fmt = 'column.format:"Packet#","%m","Time","%t","Source","%uns","Destination","%und","Protocol","%p","Size","%L","Info","%i","Expert","%a"'
fmt_col = 7 # col# in fmt for Size/PktLength
# setup protocol number dictionary
proto_number = {}
proto_number['mac'] = ost_pb.Protocol.kMacFieldNumber
proto_number['eth2'] = ost_pb.Protocol.kEth2FieldNumber
proto_number['ip4'] = ost_pb.Protocol.kIp4FieldNumber
proto_number['udp'] = ost_pb.Protocol.kUdpFieldNumber
proto_number['payload'] = ost_pb.Protocol.kPayloadFieldNumber
# setup logging
log = logging.getLogger(__name__)
logging.basicConfig(level=logging.INFO)
print('')
print('This test uses the following topology -')
print('')
print(' +-------+ ')
print(' | |Tx--->----+')
print(' | Drone | |')
print(' | |Rx---<----+')
print(' +-------+ ')
print('')
print('A loopback port is used as both the Tx and Rx ports')
print('')
@pytest.fixture(scope='module')
def drone(request):
"""Baseline Configuration for all testcases in this module"""
dut = DroneProxy(host_name)
log.info('connecting to drone(%s:%d)' % (dut.hostName(), dut.portNumber()))
dut.connect()
def fin():
dut.disconnect()
request.addfinalizer(fin)
return dut
@pytest.fixture(scope='module')
def ports(request, drone):
# retreive port id list
log.info('retreiving port list')
port_id_list = drone.getPortIdList()
# retreive port config list
log.info('retreiving port config for all ports')
port_config_list = drone.getPortConfig(port_id_list)
if len(port_config_list.port) == 0:
log.warning('drone has no ports!')
sys.exit(1)
# iterate port list to find a loopback port to use as the tx/rx port id
print('Port List')
print('---------')
for port in port_config_list.port:
print('%d.%s (%s)' % (port.port_id.id, port.name, port.description))
# use a loopback port as default tx/rx port
if ('lo' in port.name or 'loopback' in port.description.lower()):
tx_number = port.port_id.id
rx_number = port.port_id.id
if tx_number < 0 or rx_number < 0:
log.warning('loopback port not found')
sys.exit(1)
print('Using port %d as tx/rx port(s)' % tx_number)
ports.tx = ost_pb.PortIdList()
ports.tx.port_id.add().id = tx_number;
ports.rx = ost_pb.PortIdList()
ports.rx.port_id.add().id = rx_number;
# stop transmit/capture on ports, if any
drone.stopTransmit(ports.tx)
drone.stopCapture(ports.rx)
# delete existing streams, if any, on tx port
sid_list = drone.getStreamIdList(ports.tx.port_id[0])
drone.deleteStream(sid_list)
return ports
protolist=['mac eth2 ip4 udp payload', 'mac eth2 ip4 udp']
@pytest.fixture(scope='module', params=protolist)
def stream(request, drone, ports):
global proto_number
# add a stream
stream_id = ost_pb.StreamIdList()
stream_id.port_id.CopyFrom(ports.tx.port_id[0])
stream_id.stream_id.add().id = 1
log.info('adding tx_stream %d' % stream_id.stream_id[0].id)
drone.addStream(stream_id)
# configure the stream
stream_cfg = ost_pb.StreamConfigList()
stream_cfg.port_id.CopyFrom(ports.tx.port_id[0])
s = stream_cfg.stream.add()
s.stream_id.id = stream_id.stream_id[0].id
s.core.is_enabled = True
s.control.packets_per_sec = 100
s.control.num_packets = 10
# setup stream protocols as mac:eth2:ip:udp:payload
s.ClearField("protocol")
protos = request.param.split()
for p in protos:
s.protocol.add().protocol_id.id = proto_number[p]
def fin():
# delete streams
log.info('deleting tx_stream %d' % stream_id.stream_id[0].id)
drone.deleteStream(stream_id)
request.addfinalizer(fin)
return stream_cfg
@pytest.mark.parametrize("mode", [
ost_pb.StreamCore.e_fl_inc,
ost_pb.StreamCore.e_fl_dec,
ost_pb.StreamCore.e_fl_random
])
def test_packet_length(drone, ports, stream, mode):
""" Test random length packets """
min_pkt_len = 100
max_pkt_len = 1000
stream.stream[0].core.len_mode = mode
stream.stream[0].core.frame_len_min = min_pkt_len
stream.stream[0].core.frame_len_max = max_pkt_len
log.info('configuring tx_stream %d' % stream.stream[0].stream_id.id)
drone.modifyStream(stream)
# clear tx/rx stats
log.info('clearing tx/rx stats')
drone.clearStats(ports.tx)
drone.clearStats(ports.rx)
try:
drone.startCapture(ports.rx)
drone.startTransmit(ports.tx)
log.info('waiting for transmit to finish ...')
time.sleep(3)
drone.stopTransmit(ports.tx)
drone.stopCapture(ports.rx)
log.info('getting Rx capture buffer')
buff = drone.getCaptureBuffer(ports.rx.port_id[0])
drone.saveCaptureBuffer(buff, 'capture.pcap')
log.info('dumping Rx capture buffer')
cap_pkts = subprocess.check_output([tshark, '-n', '-r', 'capture.pcap'])
print(cap_pkts)
cap_pkts = subprocess.check_output([tshark, '-n', '-r', 'capture.pcap',
'-R', 'udp', '-o', fmt])
print(cap_pkts)
result = extract_column(cap_pkts, fmt_col)
print(result)
diffSum = 0
for i in range(len(result)):
l = int(result[i]) + 4 # add FCS to length
assert (l >= min_pkt_len) and (l <= max_pkt_len)
# check current packet length to last
if (i > 0):
ll = int(result[i-1]) + 4
if mode == ost_pb.StreamCore.e_fl_inc:
assert l == (ll+1)
elif mode == ost_pb.StreamCore.e_fl_dec:
assert l == (ll-1)
elif mode == ost_pb.StreamCore.e_fl_random:
diffSum += (l-ll)
# TODO: find a better way to check for randomness
if mode == ost_pb.StreamCore.e_fl_random:
assert (diffSum % (len(result) - 1)) != 0
os.remove('capture.pcap')
except RpcError as e:
raise
finally:
drone.stopTransmit(ports.tx)