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authorChristian Trautman <ctrautma@redhat.com>2016-04-01 17:31:14 -0400
committerChristian Trautman <ctrautma@redhat.com>2016-04-08 13:28:35 -0400
commit77aa724da2c879e1af079daae340d17e01b85601 (patch)
treefdda0ac0ca0ce6d453d68ca4ca5e3c009bb9f8a3 /tools/pkt_gen/xena/xena_json.py
parente43aed42d79ccb8395060085e07c1853790f17a7 (diff)
xena: Throughput method implementation for Xena Networks
Add files for Xena Networks 2544 throughput implementation. This allows for Xena to execute tput tests from VSPerf. For information on how this works please see the JIRA ticket. Modify traffic gen guide on install instructions for Xena. Add in scapy to requirements file. Modify conf file for Xena chassis connection information. * Added license info to __init__.py / baseconfig.x2544 * Set initial rate to 10% line rate for tput testing * Modified default mac address xena_json->set_header_layer2 from aa:aa:aa:aa:aa:aa to cc:cc:cc:cc:cc:cc * Removed obsolete multistream params * Added traffic params to 03_traffic.conf * Comments to explain try/catch for latency values * Removed unused import * Rebased to fix merge conflict * Added Xena to available traffic gen list in conf files JIRA: VSPERF-261 Change-Id: I3c4b4a332fd532e10b6096e9ed97a4a39d410839 Signed-off-by: Christian Trautman <ctrautma@redhat.com>
Diffstat (limited to 'tools/pkt_gen/xena/xena_json.py')
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diff --git a/tools/pkt_gen/xena/xena_json.py b/tools/pkt_gen/xena/xena_json.py
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+# Copyright 2016 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'].append(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'
+
+ 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_test_options(self, packet_sizes, duration, iterations, loss_rate,
+ micro_tpld=False):
+ """
+ Set the 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_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: {}/{} 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_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(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)
+