import struct
import sys
-sys.path.insert(0, "/opt/trex-core-2.03/scripts/automation/"+\
+sys.path.insert(0, "/opt/trex-core-2.06/scripts/automation/"+\
"trex_control_plane/stl/")
from trex_stl_lib.api import *
+stream_table = {'IMIX_v4_1': [{'size': 64, 'pps': 28, 'isg':0},
+ {'size': 570, 'pps': 16, 'isg':0.1},
+ {'size': 1518, 'pps': 4, 'isg':0.2}]
+ }
def generate_payload(length):
"""Generate payload.
print "IPv6: start_ip is greater then end_ip"
sys.exit(2)
- max_p1 = abs(int(lo1) - int(lo2)) + 1
+ max_p1 = abs(int(lo1) - int(lo2))
base_p1 = lo1
except AddressValueError as ex_error:
print ex_error
return base_p1, max_p1
+def create_streams_v46(base_pkt_a, base_pkt_b, vm1, vm2, frame_size):
+ """Create STLStream streams
+
+ :param base_pkt_a: Base packet a for stream_a
+ :param base_pkt_b: Base packet b for stream_b
+ :param vm1: vm for stream_a
+ :param vm2: vm for stream_b
+ :param frame_size: frame size or name of traffic profile
+ :type base_pkt_a: Eth (scapy)
+ :type base_pkt_b: Eth (scapy)
+ :type vm1: STLScVmRaw
+ :type vm2: STLScVmRaw
+ :frame_size: int or string
+ :return: stream_a, stream_b, stream_a_latency, stream_b_latency
+ :rtype: STLStream, STLStream, STLStream, STLStream
+ """
+
+ if type(frame_size) is int:
+
+ fsize_no_fcs = frame_size - 4 # no FCS
+ pkt_a = STLPktBuilder(pkt=base_pkt_a/generate_payload(
+ max(0, fsize_no_fcs-len(base_pkt_a))), vm=vm1)
+ pkt_b = STLPktBuilder(pkt=base_pkt_b/generate_payload(
+ max(0, fsize_no_fcs-len(base_pkt_b))), vm=vm2)
+ pkt_lat_a = STLPktBuilder(pkt=base_pkt_a/generate_payload(
+ max(0, fsize_no_fcs-len(base_pkt_a))))
+ pkt_lat_b = STLPktBuilder(pkt=base_pkt_b/generate_payload(
+ max(0, fsize_no_fcs-len(base_pkt_b))))
+ lat_stream1 = STLStream(packet=pkt_lat_a,
+ flow_stats=STLFlowLatencyStats(pg_id=0),
+ mode=STLTXCont(pps=1000))
+ # second traffic stream with a phase of 10ns (inter stream gap)
+ lat_stream2 = STLStream(packet=pkt_lat_b,
+ isg=10.0,
+ flow_stats=STLFlowLatencyStats(pg_id=1),
+ mode=STLTXCont(pps=1000))
+
+ stream1 = STLStream(packet=pkt_a,
+ mode=STLTXCont(pps=1000))
+ # second traffic stream with a phase of 10ns (inter stream gap)
+ stream2 = STLStream(packet=pkt_b,
+ isg=10.0,
+ mode=STLTXCont(pps=1000))
+ elif type(frame_size) is str:
+ lat_stream1 = []
+ lat_stream2 = []
+ stream1 = []
+ stream2 = []
+
+ for x in stream_table[frame_size]:
+ fsize_no_fcs = x['size'] - 4 # no FCS
+ pkt_a = STLPktBuilder(pkt=base_pkt_a/generate_payload(
+ max(0, fsize_no_fcs-len(base_pkt_a))), vm=vm1)
+ pkt_b = STLPktBuilder(pkt=base_pkt_b/generate_payload(
+ max(0, fsize_no_fcs-len(base_pkt_b))), vm=vm2)
+
+ stream1.append(STLStream(packet=pkt_a,
+ isg=x['isg'],
+ mode=STLTXCont(pps=x['pps'])))
+ stream2.append(STLStream(packet=pkt_b,
+ isg=x['isg'],
+ mode=STLTXCont(pps=x['pps'])))
-def create_packets(traffic_options, frame_size=64):
+ else:
+ raise ValueError("Unknown frame_size type")
+
+ return (stream1, stream2, lat_stream1, lat_stream2)
+
+def create_streams(traffic_options, frame_size=64):
"""Create two IP packets to be used in stream.
:param traffic_options: Parameters for packets.
:type traffic_options: list
:type frame_size: int
:return: Packet instances.
- :rtype STLPktBuilder
+ :rtype: Tuple of STLPktBuilder
"""
- if frame_size < 64:
- print_error("Packet min. size is 64B")
+ if type(frame_size) is int and frame_size < 64:
+ print_error("Frame min. size is 64B")
sys.exit(1)
- fsize_no_fcs = frame_size - 4 # no FCS
-
p1_src_start_ip = traffic_options['p1_src_start_ip']
p1_src_end_ip = traffic_options['p1_src_end_ip']
p1_dst_start_ip = traffic_options['p1_dst_start_ip']
p2_src_end_ip = traffic_options['p2_src_end_ip']
p2_dst_start_ip = traffic_options['p2_dst_start_ip']
+ p1_dst_end_ip = traffic_options['p1_dst_end_ip']
+ p2_dst_end_ip = traffic_options['p2_dst_end_ip']
+
base_pkt_a = Ether()/IP(src=p1_src_start_ip, dst=p1_dst_start_ip, proto=61)
base_pkt_b = Ether()/IP(src=p2_src_start_ip, dst=p2_dst_start_ip, proto=61)
- # The following code applies raw instructions to packet (IP src increment).
- # It splits the generated traffic by "ip_src" variable to cores and fix
- # IPv4 header checksum.
- vm1 = STLScVmRaw([STLVmFlowVar(name="src",
- min_value=p1_src_start_ip,
- max_value=p1_src_end_ip,
- size=4, op="inc"),
- STLVmWrFlowVar(fv_name="src", pkt_offset="IP.src"),
- STLVmFixIpv4(offset="IP"),
- ], split_by_field="src")
- # The following code applies raw instructions to packet (IP src increment).
- # It splits the generated traffic by "ip_src" variable to cores and fix
- # IPv4 header checksum.
- vm2 = STLScVmRaw([STLVmFlowVar(name="src",
- min_value=p2_src_start_ip,
- max_value=p2_src_end_ip,
- size=4, op="inc"),
- STLVmWrFlowVar(fv_name="src", pkt_offset="IP.src"),
- STLVmFixIpv4(offset="IP"),
- ], split_by_field="src")
-
- pkt_a = STLPktBuilder(pkt=base_pkt_a/generate_payload(
- fsize_no_fcs-len(base_pkt_a)), vm=vm1)
- pkt_b = STLPktBuilder(pkt=base_pkt_b/generate_payload(
- fsize_no_fcs-len(base_pkt_b)), vm=vm2)
-
- return(pkt_a, pkt_b)
-
-
-def create_packets_v6(traffic_options, frame_size=78):
+ # The following code applies raw instructions to packet (IP src/dst
+ # increment). It splits the generated traffic by "ip_src"/"ip_dst" variable
+ # to cores and fix IPv4 header checksum.
+ if p1_dst_end_ip and p2_dst_end_ip:
+ vm1 = STLScVmRaw([STLVmFlowVar(name="dst",
+ min_value=p1_dst_start_ip,
+ max_value=p1_dst_end_ip,
+ size=4, op="inc"),
+ STLVmWrFlowVar(fv_name="dst", pkt_offset="IP.dst"),
+ STLVmFixIpv4(offset="IP"),
+ ], split_by_field="dst")
+ vm2 = STLScVmRaw([STLVmFlowVar(name="dst",
+ min_value=p2_dst_start_ip,
+ max_value=p2_dst_end_ip,
+ size=4, op="inc"),
+ STLVmWrFlowVar(fv_name="dst", pkt_offset="IP.dst"),
+ STLVmFixIpv4(offset="IP"),
+ ], split_by_field="dst")
+ else:
+ vm1 = STLScVmRaw([STLVmFlowVar(name="src",
+ min_value=p1_src_start_ip,
+ max_value=p1_src_end_ip,
+ size=4, op="inc"),
+ STLVmWrFlowVar(fv_name="src", pkt_offset="IP.src"),
+ STLVmFixIpv4(offset="IP"),
+ ], split_by_field="src")
+ vm2 = STLScVmRaw([STLVmFlowVar(name="src",
+ min_value=p2_src_start_ip,
+ max_value=p2_src_end_ip,
+ size=4, op="inc"),
+ STLVmWrFlowVar(fv_name="src", pkt_offset="IP.src"),
+ STLVmFixIpv4(offset="IP"),
+ ], split_by_field="src")
+
+ return create_streams_v46(base_pkt_a, base_pkt_b, vm1, vm2, frame_size)
+
+
+def create_streams_v6(traffic_options, frame_size=78):
"""Create two IPv6 packets to be used in stream.
:param traffic_options: Parameters for packets.
:type traffic_options: List
:type frame_size: int
:return: Packet instances.
- :rtype STLPktBuilder
+ :rtype: Tuple of STLPktBuilder
"""
- if frame_size < 78:
- print "Packet min. size is 78B"
+ if type(frame_size) is int and frame_size < 78:
+ print_error("Frame min. size is 78B")
sys.exit(2)
- fsize_no_fcs = frame_size - 4 # no FCS
-
p1_src_start_ip = traffic_options['p1_src_start_ip']
p1_src_end_ip = traffic_options['p1_src_end_ip']
p1_dst_start_ip = traffic_options['p1_dst_start_ip']
p2_src_end_ip = traffic_options['p2_src_end_ip']
p2_dst_start_ip = traffic_options['p2_dst_start_ip']
- base_p1, max_p1 = get_start_end_ipv6(p1_src_start_ip, p1_src_end_ip)
- base_p2, max_p2 = get_start_end_ipv6(p2_src_start_ip, p2_src_end_ip)
+ p1_dst_end_ip = traffic_options['p1_dst_end_ip']
+ p2_dst_end_ip = traffic_options['p2_dst_end_ip']
base_pkt_a = Ether()/IPv6(src=p1_src_start_ip, dst=p1_dst_start_ip)
base_pkt_b = Ether()/IPv6(src=p2_src_start_ip, dst=p2_dst_start_ip)
- # The following code applies raw instructions to packet (IP src increment).
- # It splits the generated traffic by "ip_src" variable to cores
- vm1 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
- min_value=base_p1,
- max_value=max_p1+base_p1,
- size=8, op="inc"),
- STLVmWrFlowVar(fv_name="ipv6_src", pkt_offset="IPv6.src",
- offset_fixup=8)
- ]
- , split_by_field="ipv6_src")
-
- # The following code applies raw instructions to packet (IP src increment).
- # It splits the generated traffic by "ip_src" variable to cores
- vm2 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
- min_value=base_p2,
- max_value=max_p2+base_p2,
- size=8, op="inc"),
- STLVmWrFlowVar(fv_name="ipv6_src", pkt_offset="IPv6.src",
- offset_fixup=8)
- ]
- , split_by_field="ipv6_src")
-
- pkt_a = STLPktBuilder(pkt=base_pkt_a/generate_payload(
- max(0, fsize_no_fcs-len(base_pkt_a))), vm=vm1)
- pkt_b = STLPktBuilder(pkt=base_pkt_b/generate_payload(
- max(0, fsize_no_fcs-len(base_pkt_b))), vm=vm2)
-
- return(pkt_a, pkt_b)
-
-
-def simple_burst(pkt_a, pkt_b, duration, rate, warmup_time, async_start):
+ # The following code applies raw instructions to packet (IP src/dst
+ # increment). It splits the generated traffic by "ip_src"/"ip_dst" variable
+ # to cores.
+ if p1_dst_end_ip and p2_dst_end_ip:
+ base_p1, max_p1 = get_start_end_ipv6(p1_dst_start_ip, p1_dst_end_ip)
+ base_p2, max_p2 = get_start_end_ipv6(p2_dst_start_ip, p2_dst_end_ip)
+
+ vm1 = STLScVmRaw([STLVmFlowVar(name="ipv6_dst",
+ min_value=base_p1,
+ max_value=max_p1+base_p1,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_dst",
+ pkt_offset="IPv6.dst",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_dst")
+ vm2 = STLScVmRaw([STLVmFlowVar(name="ipv6_dst",
+ min_value=base_p2,
+ max_value=max_p2+base_p2,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_dst",
+ pkt_offset="IPv6.dst",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_dst")
+ else:
+ base_p1, max_p1 = get_start_end_ipv6(p1_src_start_ip, p1_src_end_ip)
+ base_p2, max_p2 = get_start_end_ipv6(p2_src_start_ip, p2_src_end_ip)
+
+ vm1 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
+ min_value=base_p1,
+ max_value=max_p1+base_p1,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_src",
+ pkt_offset="IPv6.src",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_src")
+ vm2 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
+ min_value=base_p2,
+ max_value=max_p2+base_p2,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_src",
+ pkt_offset="IPv6.src",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_src")
+
+ return create_streams_v46(base_pkt_a, base_pkt_b, vm1, vm2, frame_size)
+
+def simple_burst(stream_a, stream_b, stream_lat_a, stream_lat_b, duration, rate,
+ warmup_time, async_start, latency):
"""Run the traffic with specific parameters.
:param pkt_a: Base packet for stream 1.
:param pkt_b: Base packet for stream 2.
+ :param pkt_lat_a: Base packet for latency stream 1.
+ :param pkt_lat_b: Base packet for latency stream 2.
:param duration: Duration of traffic run in seconds (-1=infinite).
:param rate: Rate of traffic run [percentage, pps, bps].
:param warmup_time: Warm up duration.
- :async_start: Start the traffic and exit
+ :param async_start: Start the traffic and exit.
+ :param latency: With latency stats.
:type pkt_a: STLPktBuilder
:type pkt_b: STLPktBuilder
+ :type pkt_lat_a: STLPktBuilder
+ :type pkt_lat_b: STLPktBuilder
:type duration: int
:type rate: string
:type warmup_time: int
:type async_start: bool
+ :type latency: bool
:return: nothing
"""
total_sent = 0
lost_a = 0
lost_b = 0
+ lat_a = 'NA'
+ lat_b = 'NA'
try:
# turn this off if too many logs
#client.set_verbose("high")
- # create two streams
- stream1 = STLStream(packet=pkt_a,
- mode=STLTXCont(pps=100))
-
- # second stream with a phase of 10ns (inter stream gap)
- stream2 = STLStream(packet=pkt_b,
- isg=10.0,
- mode=STLTXCont(pps=100))
-
# connect to server
client.connect()
# prepare our ports (my machine has 0 <--> 1 with static route)
client.reset(ports=[0, 1])
- # add both streams to ports
- client.add_streams(stream1, ports=[0])
- client.add_streams(stream2, ports=[1])
+ client.add_streams(stream_a, ports=[0])
+ client.add_streams(stream_b, ports=[1])
+
+ if latency:
+ client.add_streams(stream_lat_a, ports=[0])
+ client.add_streams(stream_lat_b, ports=[1])
#warmup phase
if warmup_time > 0:
+ # clear the stats before injecting
client.clear_stats()
+
+ # choose rate and start traffic
client.start(ports=[0, 1], mult=rate, duration=warmup_time)
+
+ # block until done
client.wait_on_traffic(ports=[0, 1], timeout=(warmup_time+30))
+
+ if client.get_warnings():
+ for warning in client.get_warnings():
+ print_error(warning)
+
+ # read the stats after the test
stats = client.get_stats()
- print stats
+
print "#####warmup statistics#####"
print json.dumps(stats, indent=4,
separators=(',', ': '), sort_keys=True)
print "\npackets lost from 0 --> 1: {0} pkts".format(lost_a)
print "packets lost from 1 --> 0: {0} pkts".format(lost_b)
-
# clear the stats before injecting
client.clear_stats()
- total_rcvd = 0
- total_sent = 0
lost_a = 0
lost_b = 0
# block until done
client.wait_on_traffic(ports=[0, 1], timeout=(duration+30))
+ if client.get_warnings():
+ for warning in client.get_warnings():
+ print_error(warning)
+
# read the stats after the test
stats = client.get_stats()
print "#####statistics#####"
print json.dumps(stats, indent=4,
separators=(',', ': '), sort_keys=True)
-
lost_a = stats[0]["opackets"] - stats[1]["ipackets"]
lost_b = stats[1]["opackets"] - stats[0]["ipackets"]
+ if latency:
+ lat_a = "/".join((\
+ str(stats["latency"][0]["latency"]["total_min"]),\
+ str(stats["latency"][0]["latency"]["average"]),\
+ str(stats["latency"][0]["latency"]["total_max"])))
+ lat_b = "/".join((\
+ str(stats["latency"][1]["latency"]["total_min"]),\
+ str(stats["latency"][1]["latency"]["average"]),\
+ str(stats["latency"][1]["latency"]["total_max"])))
+
total_sent = stats[0]["opackets"] + stats[1]["opackets"]
total_rcvd = stats[0]["ipackets"] + stats[1]["ipackets"]
client.disconnect(stop_traffic=False, release_ports=True)
else:
client.disconnect()
- print "rate={0}, totalReceived={1}, totalSent={2}, frameLoss={3}"\
- .format(rate, total_rcvd, total_sent, lost_a+lost_b)
+ print "rate={0}, totalReceived={1}, totalSent={2}, "\
+ "frameLoss={3}, latencyStream0(usec)={4}, "\
+ "latencyStream1(usec)={5}".format(rate, total_rcvd,\
+ total_sent, lost_a+lost_b, lat_a, lat_b)
+
def print_error(msg):
"""Print error message on stderr.
sys.stderr.write(msg+'\n')
-def main():
- """Main function."""
+def parse_args():
+ """Parse arguments from cmd line.
- _traffic_options = {}
- #default L3 profile is IPv4
- _use_ipv6 = False
- #default warmup time is 5 seconds
- _warmup_time = 5
- #default behaviour of this script is sychronous
- _async_call = False
+ :return: Parsed arguments.
+ :rtype ArgumentParser
+ """
parser = argparse.ArgumentParser()
parser.add_argument("-d", "--duration", required=True, type=int,
help="Duration of traffic run")
- parser.add_argument("-s", "--frame_size", required=True, type=int,
+ parser.add_argument("-s", "--frame_size", required=True,
help="Size of a Frame without padding and IPG")
parser.add_argument("-r", "--rate", required=True,
help="Traffic rate with included units (%, pps)")
parser.add_argument("-6", "--use_IPv6", action="store_true",
+ default=False,
help="Use IPv6 traffic profile instead of IPv4")
parser.add_argument("--async", action="store_true",
+ default=False,
help="Non-blocking call of the script")
+ parser.add_argument("--latency", action="store_true",
+ default=False,
+ help="Add latency stream")
parser.add_argument("-w", "--warmup_time", type=int,
+ default=5,
help="Traffic warmup time in seconds, 0 = disable")
# parser.add_argument("--p1_src_mac",
# help="Port 1 source MAC address")
# help="Port 1 destination MAC address")
parser.add_argument("--p1_src_start_ip", required=True,
help="Port 1 source start IP address")
- parser.add_argument("--p1_src_end_ip", required=True,
+ parser.add_argument("--p1_src_end_ip",
+ default=False,
help="Port 1 source end IP address")
parser.add_argument("--p1_dst_start_ip", required=True,
help="Port 1 destination start IP address")
-# parser.add_argument("--p1_dst_end_ip",
-# help="Port 1 destination end IP address")
+ parser.add_argument("--p1_dst_end_ip",
+ default=False,
+ help="Port 1 destination end IP address")
# parser.add_argument("--p2_src_mac",
# help="Port 2 source MAC address")
# parser.add_argument("--p2_dst_mac",
# help="Port 2 destination MAC address")
parser.add_argument("--p2_src_start_ip", required=True,
help="Port 2 source start IP address")
- parser.add_argument("--p2_src_end_ip", required=True,
+ parser.add_argument("--p2_src_end_ip",
+ default=False,
help="Port 2 source end IP address")
parser.add_argument("--p2_dst_start_ip", required=True,
help="Port 2 destination start IP address")
-# parser.add_argument("--p2_dst_end_ip",
-# help="Port 2 destination end IP address")
+ parser.add_argument("--p2_dst_end_ip",
+ default=False,
+ help="Port 2 destination end IP address")
+
+ return parser.parse_args()
- args = parser.parse_args()
+
+def main():
+ """Main function."""
+
+ args = parse_args()
_duration = args.duration
- _frame_size = args.frame_size
+ _latency = args.latency
+ if args.frame_size.isdigit():
+ _frame_size = int(args.frame_size)
+ else:
+ _frame_size = args.frame_size
+ _latency = False
_rate = args.rate
_use_ipv6 = args.use_IPv6
_async_call = args.async
+ _warmup_time = args.warmup_time
- if args.warmup_time is not None:
- _warmup_time = args.warmup_time
-
+ _traffic_options = {}
for attr in [a for a in dir(args) if a.startswith('p')]:
if getattr(args, attr) is not None:
_traffic_options[attr] = getattr(args, attr)
if _use_ipv6:
- pkt_a, pkt_b = create_packets_v6(_traffic_options,
- frame_size=_frame_size)
+ # WARNING: Trex limitation to IPv4 only. IPv6 is not yet supported.
+ print_error('IPv6 latency is not supported yet. Running without lat.')
+ _latency = False
+
+ stream_a, stream_b, stream_lat_a, stream_lat_b = create_streams_v6(
+ _traffic_options, frame_size=_frame_size)
else:
- pkt_a, pkt_b = create_packets(_traffic_options,
- frame_size=_frame_size)
+ stream_a, stream_b, stream_lat_a, stream_lat_b = create_streams(
+ _traffic_options, frame_size=_frame_size)
- simple_burst(pkt_a, pkt_b, _duration, _rate, _warmup_time, _async_call)
+ simple_burst(stream_a, stream_b, stream_lat_a, stream_lat_b,
+ _duration, _rate, _warmup_time, _async_call, _latency)
if __name__ == "__main__":
sys.exit(main())