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# Copyright 2016-2017 Red Hat Inc & Xena Networks.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# Contributors:
# Dan Amzulescu, Xena Networks
# Christian Trautman, Red Hat Inc.
#
# Usage can be seen below in unit test. This implementation is designed for one
# module two port Xena chassis runs only.
"""
Xena JSON module
"""
import base64
from collections import OrderedDict
import json
import locale
import logging
import uuid
import scapy.layers.inet as inet
_LOGGER = logging.getLogger(__name__)
_LOCALE = locale.getlocale()[1]
class XenaJSON(object):
"""
Class to modify and read Xena JSON configuration files.
"""
def __init__(self, json_path='./profiles/baseconfig.x2544'):
"""
Constructor
:param json_path: path to JSON file to read. Expected files must have
two module ports with each port having its own stream config profile.
:return: XenaJSON object
"""
self.json_data = read_json_file(json_path)
self.packet_data = OrderedDict()
self.packet_data['layer2'] = None
self.packet_data['vlan'] = None
self.packet_data['layer3'] = None
self.packet_data['layer4'] = None
def _add_multistream_layer(self, entity, seg_uuid, stop_value, layer):
"""
Add the multi stream layers to the json file based on the layer provided
:param entity: Entity to append the segment to in entity list
:param seg_uuid: The UUID to attach the multistream layer to
:param stop_value: The number of flows to configure
:param layer: the layer that the multistream will be attached to
:return: None
"""
field_name = {
2: ('Dst MAC addr', 'Src MAC addr'),
3: ('Dest IP Addr', 'Src IP Addr'),
4: ('Dest Port', 'Src Port')
}
segments = [
{
"Offset": 0,
"Mask": "//8=", # mask of 255/255
"Action": "INC",
"StartValue": 0,
"StopValue": stop_value,
"StepValue": 1,
"RepeatCount": 1,
"SegmentId": seg_uuid,
"FieldName": field_name[int(layer)][0]
},
{
"Offset": 0,
"Mask": "//8=", # mask of 255/255
"Action": "INC",
"StartValue": 0,
"StopValue": stop_value,
"StepValue": 1,
"RepeatCount": 1,
"SegmentId": seg_uuid,
"FieldName": field_name[int(layer)][1]
}
]
self.json_data['StreamProfileHandler']['EntityList'][entity][
'StreamConfig']['HwModifiers'] = (segments)
def _create_packet_header(self):
"""
Create the scapy packet header based on what has been built in this
instance using the set header methods. Return tuple of the two byte
arrays, one for each port.
:return: Scapy packet headers as bytearrays
"""
if not self.packet_data['layer2']:
_LOGGER.warning('Using dummy info for layer 2 in Xena JSON file')
self.set_header_layer2()
packet1, packet2 = (self.packet_data['layer2'][0],
self.packet_data['layer2'][1])
for packet_header in list(self.packet_data.copy().values())[1:]:
if packet_header:
packet1 /= packet_header[0]
packet2 /= packet_header[1]
ret = (bytes(packet1), bytes(packet2))
return ret
def add_header_segments(self, flows=0, multistream_layer=None):
"""
Build the header segments to write to the JSON file.
:param flows: Number of flows to configure for multistream if enabled
:param multistream_layer: layer to set multistream flows as string.
Acceptable values are L2, L3 or L4
:return: None
"""
packet = self._create_packet_header()
segment1 = list()
segment2 = list()
header_pos = 0
if self.packet_data['layer2']:
# slice out the layer 2 bytes from the packet header byte array
layer2 = packet[0][header_pos: len(self.packet_data['layer2'][0])]
seg = create_segment(
"ETHERNET", encode_byte_array(layer2).decode(_LOCALE))
if multistream_layer == 'L2' and flows > 0:
self._add_multistream_layer(entity=0, seg_uuid=seg['ItemID'],
stop_value=flows, layer=2)
segment1.append(seg)
# now do the other port data with reversed src, dst info
layer2 = packet[1][header_pos: len(self.packet_data['layer2'][1])]
seg = create_segment(
"ETHERNET", encode_byte_array(layer2).decode(_LOCALE))
segment2.append(seg)
if multistream_layer == 'L2' and flows > 0:
self._add_multistream_layer(entity=1, seg_uuid=seg['ItemID'],
stop_value=flows, layer=2)
header_pos = len(layer2)
if self.packet_data['vlan']:
# slice out the vlan bytes from the packet header byte array
vlan = packet[0][header_pos: len(
self.packet_data['vlan'][0]) + header_pos]
segment1.append(create_segment(
"VLAN", encode_byte_array(vlan).decode(_LOCALE)))
segment2.append(create_segment(
"VLAN", encode_byte_array(vlan).decode(_LOCALE)))
header_pos += len(vlan)
if self.packet_data['layer3']:
# slice out the layer 3 bytes from the packet header byte array
layer3 = packet[0][header_pos: len(
self.packet_data['layer3'][0]) + header_pos]
seg = create_segment(
"IP", encode_byte_array(layer3).decode(_LOCALE))
segment1.append(seg)
if multistream_layer == 'L3' and flows > 0:
self._add_multistream_layer(entity=0, seg_uuid=seg['ItemID'],
stop_value=flows, layer=3)
# now do the other port data with reversed src, dst info
layer3 = packet[1][header_pos: len(
self.packet_data['layer3'][1]) + header_pos]
seg = create_segment(
"IP", encode_byte_array(layer3).decode(_LOCALE))
segment2.append(seg)
if multistream_layer == 'L3' and flows > 0:
self._add_multistream_layer(entity=1, seg_uuid=seg['ItemID'],
stop_value=flows, layer=3)
header_pos += len(layer3)
if self.packet_data['layer4']:
# slice out the layer 4 bytes from the packet header byte array
layer4 = packet[0][header_pos: len(
self.packet_data['layer4'][0]) + header_pos]
seg = create_segment(
"UDP", encode_byte_array(layer4).decode(_LOCALE))
segment1.append(seg)
if multistream_layer == 'L4' and flows > 0:
self._add_multistream_layer(entity=0, seg_uuid=seg['ItemID'],
stop_value=flows, layer=4)
# now do the other port data with reversed src, dst info
layer4 = packet[1][header_pos: len(
self.packet_data['layer4'][1]) + header_pos]
seg = create_segment(
"UDP", encode_byte_array(layer4).decode(_LOCALE))
segment2.append(seg)
if multistream_layer == 'L4' and flows > 0:
self._add_multistream_layer(entity=1, seg_uuid=seg['ItemID'],
stop_value=flows, layer=4)
header_pos += len(layer4)
self.json_data['StreamProfileHandler']['EntityList'][0][
'StreamConfig']['HeaderSegments'] = segment1
self.json_data['StreamProfileHandler']['EntityList'][1][
'StreamConfig']['HeaderSegments'] = segment2
def disable_back2back_test(self):
"""
Disable the rfc2544 back to back test
:return: None
"""
self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
'Enabled'] = 'false'
def disable_throughput_test(self):
"""
Disable the rfc2544 throughput test
:return: None
"""
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'Enabled'] = 'false'
def enable_back2back_test(self):
"""
Enable the rfc2544 back to back test
:return: None
"""
self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
'Enabled'] = 'true'
def enable_throughput_test(self):
"""
Enable the rfc2544 throughput test
:return: None
"""
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'Enabled'] = 'true'
# pylint: disable=too-many-arguments
def modify_2544_tput_options(self, initial_value, minimum_value,
maximum_value, value_resolution,
use_pass_threshhold, pass_threshhold):
"""
modify_2544_tput_options
"""
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['InitialValue'] = initial_value
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['MinimumValue'] = minimum_value
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['MaximumValue'] = maximum_value
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['ValueResolution'] = value_resolution
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['UsePassThreshold'] = use_pass_threshhold
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['PassThreshold'] = pass_threshhold
def set_chassis_info(self, hostname, pwd):
"""
Set the chassis info
:param hostname: hostname as string of ip
:param pwd: password to chassis as string
:return: None
"""
self.json_data['ChassisManager']['ChassisList'][0][
'HostName'] = hostname
self.json_data['ChassisManager']['ChassisList'][0][
'Password'] = pwd
def set_header_layer2(self, dst_mac='cc:cc:cc:cc:cc:cc',
src_mac='bb:bb:bb:bb:bb:bb', **kwargs):
"""
Build a scapy Ethernet L2 objects inside instance packet_data structure
:param dst_mac: destination mac as string. Example "aa:aa:aa:aa:aa:aa"
:param src_mac: source mac as string. Example "bb:bb:bb:bb:bb:bb"
:param kwargs: Extra params per scapy usage.
:return: None
"""
self.packet_data['layer2'] = [
inet.Ether(dst=dst_mac, src=src_mac, **kwargs),
inet.Ether(dst=src_mac, src=dst_mac, **kwargs)]
def set_header_layer3(self, src_ip='192.168.0.2', dst_ip='192.168.0.3',
protocol='UDP', **kwargs):
"""
Build scapy IPV4 L3 objects inside instance packet_data structure
:param src_ip: source IP as string in dot notation format
:param dst_ip: destination IP as string in dot notation format
:param protocol: protocol for l4
:param kwargs: Extra params per scapy usage
:return: None
"""
self.packet_data['layer3'] = [
inet.IP(src=src_ip, dst=dst_ip, proto=protocol.lower(), **kwargs),
inet.IP(src=dst_ip, dst=src_ip, proto=protocol.lower(), **kwargs)]
def set_header_layer4_udp(self, source_port, destination_port, **kwargs):
"""
Build scapy UDP L4 objects inside instance packet_data structure
:param source_port: Source port as int
:param destination_port: Destination port as int
:param kwargs: Extra params per scapy usage
:return: None
"""
self.packet_data['layer4'] = [
inet.UDP(sport=source_port, dport=destination_port, **kwargs),
inet.UDP(sport=source_port, dport=destination_port, **kwargs)]
def set_header_vlan(self, vlan_id=1, **kwargs):
"""
Build a Dot1Q scapy object inside instance packet_data structure
:param vlan_id: The VLAN ID
:param kwargs: Extra params per scapy usage
:return: None
"""
self.packet_data['vlan'] = [
inet.Dot1Q(vlan=vlan_id, **kwargs),
inet.Dot1Q(vlan=vlan_id, **kwargs)]
def set_port(self, index, module, port):
"""
Set the module and port for the 0 index port to use with the test
:param index: Index of port to set, 0 = port1, 1=port2, etc..
:param module: module location as int
:param port: port location in module as int
:return: None
"""
self.json_data['PortHandler']['EntityList'][index]['PortRef'][
'ModuleIndex'] = module
self.json_data['PortHandler']['EntityList'][index]['PortRef'][
'PortIndex'] = port
def set_port_ip_v4(self, port, ip_addr, netmask, gateway):
"""
Set the port IP info
:param port: port number as int of port to set ip info
:param ip_addr: ip address in dot notation format as string
:param netmask: cidr number for netmask (ie 24/16/8) as int
:param gateway: gateway address in dot notation format
:return: None
"""
available_ports = range(len(
self.json_data['PortHandler']['EntityList']))
if port not in available_ports:
raise ValueError("{}{}{}".format(
'Port assignment must be an available port ',
'number in baseconfig file. Port=', port))
self.json_data['PortHandler']['EntityList'][
port]["IpV4Address"] = ip_addr
self.json_data['PortHandler']['EntityList'][
port]["IpV4Gateway"] = gateway
self.json_data['PortHandler']['EntityList'][
port]["IpV4RoutingPrefix"] = int(netmask)
def set_port_ip_v6(self, port, ip_addr, netmask, gateway):
"""
Set the port IP info
:param port: port number as int of port to set ip info
:param ip_addr: ip address as 8 groups of 4 hexadecimal groups separated
by a colon.
:param netmask: cidr number for netmask (ie 24/16/8) as int
:param gateway: gateway address as string in 8 group of 4 hexadecimal
groups separated by a colon.
:return: None
"""
available_ports = range(len(
self.json_data['PortHandler']['EntityList']))
if port not in available_ports:
raise ValueError("{}{}{}".format(
'Port assignment must be an available port ',
'number in baseconfig file. Port=', port))
self.json_data['PortHandler']['EntityList'][
port]["IpV6Address"] = ip_addr
self.json_data['PortHandler']['EntityList'][
port]["IpV6Gateway"] = gateway
self.json_data['PortHandler']['EntityList'][
port]["IpV6RoutingPrefix"] = int(netmask)
def set_test_options_tput(self, packet_sizes, duration, iterations,
loss_rate, micro_tpld=False):
"""
Set the tput test options
:param packet_sizes: List of packet sizes to test, single int entry is
acceptable for one packet size testing
:param duration: time for each test in seconds as int
:param iterations: number of iterations of testing as int
:param loss_rate: acceptable loss rate as float
:param micro_tpld: boolean if micro_tpld should be enabled or disabled
:return: None
"""
if isinstance(packet_sizes, int):
packet_sizes = [packet_sizes]
self.json_data['TestOptions']['PacketSizes'][
'CustomPacketSizes'] = packet_sizes
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'Duration'] = duration
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'RateIterationOptions']['AcceptableLoss'] = loss_rate
self.json_data['TestOptions']['FlowCreationOptions'][
'UseMicroTpldOnDemand'] = 'true' if micro_tpld else 'false'
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'Iterations'] = iterations
def set_test_options_back2back(self, packet_sizes, duration,
iterations, startvalue, endvalue,
micro_tpld=False):
"""
Set the back2back test options
:param packet_sizes: List of packet sizes to test, single int entry is
acceptable for one packet size testing
:param duration: time for each test in seconds as int
:param iterations: number of iterations of testing as int
:param micro_tpld: boolean if micro_tpld should be enabled or disabled
:param StartValue: start value
:param EndValue: end value
:return: None
"""
if isinstance(packet_sizes, int):
packet_sizes = [packet_sizes]
self.json_data['TestOptions']['PacketSizes'][
'CustomPacketSizes'] = packet_sizes
self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
'Duration'] = duration
self.json_data['TestOptions']['FlowCreationOptions'][
'UseMicroTpldOnDemand'] = 'true' if micro_tpld else 'false'
self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
'Iterations'] = iterations
self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
'RateSweepOptions']['StartValue'] = startvalue
self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
'RateSweepOptions']['EndValue'] = endvalue
def set_topology_blocks(self):
"""
Set the test topology to a West to East config for half duplex flow with
port 0 as the sender and port 1 as the receiver.
:return: None
"""
self.json_data['TestOptions']['TopologyConfig']['Topology'] = 'BLOCKS'
self.json_data['TestOptions']['TopologyConfig'][
'Direction'] = 'WEST_EAST'
self.json_data['PortHandler']['EntityList'][0][
'PortGroup'] = "WEST"
self.json_data['PortHandler']['EntityList'][1][
'PortGroup'] = "EAST"
def set_topology_mesh(self):
"""
Set the test topology to Mesh for bi directional full duplex flow
:return: None
"""
self.json_data['TestOptions']['TopologyConfig']['Topology'] = 'MESH'
self.json_data['TestOptions']['TopologyConfig']['Direction'] = 'BIDIR'
self.json_data['PortHandler']['EntityList'][0][
'PortGroup'] = "UNDEFINED"
self.json_data['PortHandler']['EntityList'][1][
'PortGroup'] = "UNDEFINED"
def write_config(self, path='./2bUsed.x2544'):
"""
Write the config to out as file
:param path: Output file to export the json data to
:return: None
"""
if not write_json_file(self.json_data, path):
raise RuntimeError("Could not write out file, please check config")
def create_segment(header_type, encode_64_string):
"""
Create segment for JSON file
:param header_type: Type of header as string
:param encode_64_string: 64 byte encoded string value of the hex bytes
:return: segment as dictionary
"""
return {
"SegmentType": header_type.upper(),
"SegmentValue": encode_64_string,
"ItemID": str(uuid.uuid4()),
"ParentID": "",
"Label": ""}
def decode_byte_array(enc_str):
""" Decodes the base64-encoded string to a byte array
:param enc_str: The base64-encoded string representing a byte array
:return: The decoded byte array
"""
dec_string = base64.b64decode(enc_str)
barray = bytearray()
barray.extend(dec_string)
return barray
def encode_byte_array(byte_arr):
""" Encodes the byte array as a base64-encoded string
:param byte_arr: A bytearray containing the bytes to convert
:return: A base64 encoded string
"""
enc_string = base64.b64encode(bytes(byte_arr))
return enc_string
def print_json_report(json_data):
"""
Print out info from the json data for testing purposes only.
:param json_data: json loaded data from json.loads
:return: None
"""
print("<<Xena JSON Config Report>>\n")
try:
print("### Chassis Info ###")
print("Chassis IP: {}".format(json_data['ChassisManager'][
'ChassisList'][0]['HostName']))
print("Chassis Password: {}".format(json_data['ChassisManager'][
'ChassisList'][0]['Password']))
print("### Port Configuration ###")
print("Port 1 IPv4:{}/{} gateway:{}".format(
json_data['PortHandler']['EntityList'][0]["IpV4Address"],
json_data['PortHandler']['EntityList'][0]["IpV4RoutingPrefix"],
json_data['PortHandler']['EntityList'][0]["IpV4Gateway"]))
print("Port 1 IPv6:{}/{} gateway:{}".format(
json_data['PortHandler']['EntityList'][0]["IpV6Address"],
json_data['PortHandler']['EntityList'][0]["IpV6RoutingPrefix"],
json_data['PortHandler']['EntityList'][0]["IpV6Gateway"]))
print("Port 2 IPv4:{}/{} gateway:{}".format(
json_data['PortHandler']['EntityList'][1]["IpV4Address"],
json_data['PortHandler']['EntityList'][1]["IpV4RoutingPrefix"],
json_data['PortHandler']['EntityList'][1]["IpV4Gateway"]))
print("Port 2 IPv6:{}/{} gateway:{}".format(
json_data['PortHandler']['EntityList'][1]["IpV6Address"],
json_data['PortHandler']['EntityList'][1]["IpV6RoutingPrefix"],
json_data['PortHandler']['EntityList'][1]["IpV6Gateway"]))
print("Port 1: {}/{} group: {}".format(
json_data['PortHandler']['EntityList'][0]['PortRef']['ModuleIndex'],
json_data['PortHandler']['EntityList'][0]['PortRef']['PortIndex'],
json_data['PortHandler']['EntityList'][0]['PortGroup']))
print("Port 2: {}/{} group: {}".format(
json_data['PortHandler']['EntityList'][1]['PortRef']['ModuleIndex'],
json_data['PortHandler']['EntityList'][1]['PortRef']['PortIndex'],
json_data['PortHandler']['EntityList'][1]['PortGroup']))
print("### Tests Enabled ###")
print("Back2Back Enabled: {}".format(json_data['TestOptions'][
'TestTypeOptionMap']['Back2Back']['Enabled']))
print("Throughput Enabled: {}".format(json_data['TestOptions'][
'TestTypeOptionMap']['Throughput']['Enabled']))
print("### Test Options ###")
print("Test topology: {}/{}".format(
json_data['TestOptions']['TopologyConfig']['Topology'],
json_data['TestOptions']['TopologyConfig']['Direction']))
print("Packet Sizes: {}".format(json_data['TestOptions'][
'PacketSizes']['CustomPacketSizes']))
print("Test duration: {}".format(json_data['TestOptions'][
'TestTypeOptionMap']['Throughput']['Duration']))
print("Acceptable loss rate: {}".format(json_data['TestOptions'][
'TestTypeOptionMap']['Throughput']['RateIterationOptions'][
'AcceptableLoss']))
print("Micro TPLD enabled: {}".format(json_data['TestOptions'][
'FlowCreationOptions']['UseMicroTpldOnDemand']))
print("Test iterations: {}".format(json_data['TestOptions'][
'TestTypeOptionMap']['Throughput']['Iterations']))
if 'StreamConfig' in json_data['StreamProfileHandler']['EntityList'][0]:
print("### Header segments ###")
for seg in json_data['StreamProfileHandler']['EntityList']:
for header in seg['StreamConfig']['HeaderSegments']:
print("Type: {}".format(
header['SegmentType']))
print("Value: {}".format(decode_byte_array(
header['SegmentValue'])))
print("### Multi Stream config ###")
for seg in json_data['StreamProfileHandler']['EntityList']:
for header in seg['StreamConfig']['HwModifiers']:
print(header)
except KeyError as exc:
print("Error setting not found in JSON data: {}".format(exc))
def read_json_file(json_file):
"""
Read the json file path and return a dictionary of the data
:param json_file: path to json file
:return: dictionary of json data
"""
try:
with open(json_file, 'r', encoding=_LOCALE) as data_file:
file_data = json.loads(data_file.read())
except ValueError as exc:
# general json exception, Python 3.5 adds new exception type
_LOGGER.exception("Exception with json read: %s", exc)
raise
except IOError as exc:
_LOGGER.exception(
'Exception during file open: %s file=%s', exc, json_file)
raise
return file_data
def write_json_file(json_data, output_path):
"""
Write out the dictionary of data to a json file
:param json_data: dictionary of json data
:param output_path: file path to write output
:return: Boolean if success
"""
try:
with open(output_path, 'w', encoding=_LOCALE) as fileh:
json.dump(json_data, fileh, indent=2, sort_keys=True,
ensure_ascii=True)
return True
except ValueError as exc:
# general json exception, Python 3.5 adds new exception type
_LOGGER.exception(
"Exception with json write: %s", exc)
return False
except IOError as exc:
_LOGGER.exception(
'Exception during file write: %s file=%s', exc, output_path)
return False
if __name__ == "__main__":
print("Running UnitTest for XenaJSON")
JSON = XenaJSON()
print_json_report(JSON.json_data)
JSON.set_chassis_info('192.168.0.5', 'vsperf')
JSON.set_port(0, 1, 0)
JSON.set_port(1, 1, 1)
JSON.set_port_ip_v4(0, '192.168.240.10', 32, '192.168.240.1')
JSON.set_port_ip_v4(1, '192.168.240.11', 32, '192.168.240.1')
JSON.set_port_ip_v6(0, 'a1a1:a2a2:a3a3:a4a4:a5a5:a6a6:a7a7:a8a8', 128,
'a1a1:a2a2:a3a3:a4a4:a5a5:a6a6:a7a7:1111')
JSON.set_port_ip_v6(1, 'b1b1:b2b2:b3b3:b4b4:b5b5:b6b6:b7b7:b8b8', 128,
'b1b1:b2b2:b3b3:b4b4:b5b5:b6b6:b7b7:1111')
JSON.set_header_layer2(dst_mac='dd:dd:dd:dd:dd:dd',
src_mac='ee:ee:ee:ee:ee:ee')
JSON.set_header_vlan(vlan_id=5)
JSON.set_header_layer3(src_ip='192.168.100.2', dst_ip='192.168.100.3',
protocol='udp')
JSON.set_header_layer4_udp(source_port=3000, destination_port=3001)
JSON.set_test_options_tput(packet_sizes=[64], duration=10, iterations=1,
loss_rate=0.0, micro_tpld=True)
JSON.add_header_segments(flows=4000, multistream_layer='L4')
JSON.set_topology_blocks()
write_json_file(JSON.json_data, './testthis.x2544')
JSON = XenaJSON('./testthis.x2544')
print_json_report(JSON.json_data)
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