From c1d6fd53c49a2cc5c0a7eab82e15dcf1a08f4e32 Mon Sep 17 00:00:00 2001 From: Deepak S Date: Fri, 30 Dec 2016 09:22:51 -0800 Subject: Adding generic traffic profiles for trex traffic generator This patch defines Generic traffic profiles - rfc2544, http etc JiRA: YARDSTICK-489 Change-Id:I0d8270b4d5f5f2d3415b98182990d8649099dbe3 Signed-off-by: Deepak S --- yardstick/network_services/traffic_profile/http.py | 33 ++ .../network_services/traffic_profile/rfc2544.py | 105 +++++ .../traffic_profile/traffic_profile.py | 499 +++++++++++++++++++++ 3 files changed, 637 insertions(+) create mode 100644 yardstick/network_services/traffic_profile/http.py create mode 100644 yardstick/network_services/traffic_profile/rfc2544.py create mode 100644 yardstick/network_services/traffic_profile/traffic_profile.py (limited to 'yardstick') diff --git a/yardstick/network_services/traffic_profile/http.py b/yardstick/network_services/traffic_profile/http.py new file mode 100644 index 000000000..2d00fb849 --- /dev/null +++ b/yardstick/network_services/traffic_profile/http.py @@ -0,0 +1,33 @@ +# Copyright (c) 2016-2017 Intel Corporation +# +# 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. +""" Generic HTTP profile used by different Traffic generators """ + +from __future__ import absolute_import + +from yardstick.network_services.traffic_profile.base import TrafficProfile + + +class TrafficProfileGenericHTTP(TrafficProfile): + """ This Class handles setup of generic http traffic profile """ + + def __init__(self, TrafficProfile): + super(TrafficProfileGenericHTTP, self).__init__(TrafficProfile) + + def execute(self, traffic_generator): + ''' send run traffic for a selected traffic generator''' + pass + + def _send_http_request(self, server, port, locator, **kwargs): + ''' send http request for a given server, port ''' + pass diff --git a/yardstick/network_services/traffic_profile/rfc2544.py b/yardstick/network_services/traffic_profile/rfc2544.py new file mode 100644 index 000000000..c6facc9f5 --- /dev/null +++ b/yardstick/network_services/traffic_profile/rfc2544.py @@ -0,0 +1,105 @@ +# Copyright (c) 2016-2017 Intel Corporation +# +# 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. +""" RFC2544 Throughput implemenation """ + +from __future__ import absolute_import +import logging + +from yardstick.network_services.traffic_profile.traffic_profile \ + import TrexProfile + +LOGGING = logging.getLogger(__name__) + + +class RFC2544Profile(TrexProfile): + """ This class handles rfc2544 implemenation. """ + + def __init__(self, traffic_generator): + super(RFC2544Profile, self).__init__(traffic_generator) + self.max_rate = None + self.min_rate = None + self.rate = 100 + self.tmp_drop = None + self.tmp_throughput = None + self.profile_data = None + + def execute(self, traffic_generator): + ''' Generate the stream and run traffic on the given ports ''' + if self.first_run: + self.profile_data = self.params.get('private', '') + ports = [traffic_generator.my_ports[0]] + traffic_generator.client.add_streams(self.get_streams(), + ports=ports[0]) + profile_data = self.params.get('public', '') + if profile_data: + self.profile_data = profile_data + ports.append(traffic_generator.my_ports[1]) + traffic_generator.client.add_streams(self.get_streams(), + ports=ports[1]) + + self.max_rate = self.rate + self.min_rate = 0 + traffic_generator.client.start(ports=ports, + mult=self.get_multiplier(), + duration=30, force=True) + self.tmp_drop = 0 + self.tmp_throughput = 0 + + def get_multiplier(self): + ''' Get the rate at which next iternation to run ''' + self.rate = round((self.max_rate + self.min_rate) / 2.0, 2) + multiplier = round(self.rate / self.pps, 2) + return str(multiplier) + + def get_drop_percentage(self, traffic_generator, + samples, tol_min, tolerance): + ''' Calculate the drop percentage and run the traffic ''' + in_packets = sum([samples[iface]['in_packets'] for iface in samples]) + out_packets = sum([samples[iface]['out_packets'] for iface in samples]) + packet_drop = abs(out_packets - in_packets) + drop_percent = 100.0 + try: + drop_percent = round((packet_drop / float(out_packets)) * 100, 2) + except ZeroDivisionError: + LOGGING.info('No traffic is flowing') + samples['TxThroughput'] = out_packets / 30 + samples['RxThroughput'] = in_packets / 30 + samples['CurrentDropPercentage'] = drop_percent + samples['Throughput'] = self.tmp_throughput + samples['DropPercentage'] = self.tmp_drop + if drop_percent > tolerance and self.tmp_throughput == 0: + samples['Throughput'] = (in_packets / 30) + samples['DropPercentage'] = drop_percent + if self.first_run: + max_supported_rate = out_packets / 30 + self.rate = max_supported_rate + self.first_run = False + if drop_percent > tolerance: + self.max_rate = self.rate + elif drop_percent < tol_min: + self.min_rate = self.rate + if drop_percent >= self.tmp_drop: + self.tmp_drop = drop_percent + self.tmp_throughput = (in_packets / 30) + samples['Throughput'] = (in_packets / 30) + samples['DropPercentage'] = drop_percent + else: + samples['Throughput'] = (in_packets / 30) + samples['DropPercentage'] = drop_percent + + traffic_generator.client.clear_stats(ports=traffic_generator.my_ports) + traffic_generator.client.start(ports=traffic_generator.my_ports, + mult=self.get_multiplier(), + duration=30, force=True) + return samples diff --git a/yardstick/network_services/traffic_profile/traffic_profile.py b/yardstick/network_services/traffic_profile/traffic_profile.py new file mode 100644 index 000000000..156cc6644 --- /dev/null +++ b/yardstick/network_services/traffic_profile/traffic_profile.py @@ -0,0 +1,499 @@ +# Copyright (c) 2016-2017 Intel Corporation +# +# 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. +""" Trex Traffic Profile definitions """ + +from __future__ import absolute_import +import struct +import socket +import logging +from random import SystemRandom +import six + +from yardstick.network_services.traffic_profile.base import TrafficProfile +from stl.trex_stl_lib.trex_stl_client import STLStream +from stl.trex_stl_lib.trex_stl_streams import STLFlowLatencyStats +from stl.trex_stl_lib.trex_stl_streams import STLTXCont +from stl.trex_stl_lib.trex_stl_streams import STLProfile +from stl.trex_stl_lib.trex_stl_packet_builder_scapy import STLVmWrFlowVar +from stl.trex_stl_lib.trex_stl_packet_builder_scapy import STLVmFlowVar +from stl.trex_stl_lib.trex_stl_packet_builder_scapy import STLPktBuilder +from stl.trex_stl_lib.trex_stl_packet_builder_scapy import STLScVmRaw +from stl.trex_stl_lib.trex_stl_packet_builder_scapy import STLVmFixIpv4 +from stl.trex_stl_lib import api as Pkt + + +class TrexProfile(TrafficProfile): + """ This class handles Trex Traffic profile generation and execution """ + + def __init__(self, yaml_data): + super(TrexProfile, self).__init__(yaml_data) + self.flows = 100 + self.pps = 100 + self.pg_id = 0 + self.first_run = True + self.streams = 1 + self.profile_data = [] + self.profile = None + self.base_pkt = None + self.fsize = None + self.trex_vm = None + self.vms = [] + self.rate = None + self.ip_packet = None + self.ip6_packet = None + self.udp_packet = None + self.udp_dport = '' + self.udp_sport = '' + self.qinq_packet = None + self.qinq = False + self.vm_flow_vars = [] + self.packets = [] + self.ether_packet = [] + + def execute(self, traffic_generator): + """ Generate the stream and run traffic on the given ports """ + pass + + def _set_ether_fields(self, **kwargs): + """ set ethernet protocol fields """ + if not self.ether_packet: + self.ether_packet = Pkt.Ether() + for key, value in six.iteritems(kwargs): + setattr(self.ether_packet, key, value) + + def _set_ip_fields(self, **kwargs): + """ set l3 ipv4 protocol fields """ + + if not self.ip_packet: + self.ip_packet = Pkt.IP() + for key in kwargs: + setattr(self.ip_packet, key, kwargs[key]) + + def _set_ip6_fields(self, **kwargs): + """ set l3 ipv6 protocol fields """ + if not self.ip6_packet: + self.ip6_packet = Pkt.IPv6() + for key in kwargs: + setattr(self.ip6_packet, key, kwargs[key]) + + def _set_udp_fields(self, **kwargs): + """ set l4 udp ports fields """ + if not self.udp_packet: + self.udp_packet = Pkt.UDP() + for key in kwargs: + setattr(self.udp_packet, key, kwargs[key]) + + def set_src_mac(self, src_mac): + """ set source mac address fields """ + src_macs = src_mac.split('-') + min_value = src_macs[0] + if len(src_macs) == 1: + src_mac = min_value + self._set_ether_fields(src=src_mac) + else: + stl_vm_flow_var = STLVmFlowVar(name="mac_src", + min_value=1, + max_value=30, + size=4, + op='inc', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='mac_src', + pkt_offset='Ether.src') + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_dst_mac(self, dst_mac): + """ set destination mac address fields """ + dst_macs = dst_mac.split('-') + min_value = dst_macs[0] + if len(dst_macs) == 1: + dst_mac = min_value + self._set_ether_fields(dst=dst_mac) + else: + stl_vm_flow_var = STLVmFlowVar(name="mac_dst", + min_value=1, + max_value=30, + size=4, + op='inc', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='mac_dst', + pkt_offset='Ether.dst') + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_src_ip4(self, src_ip4): + """ set source ipv4 address fields """ + src_ips = src_ip4.split('-') + min_value = src_ips[0] + max_value = src_ips[1] if len(src_ips) == 2 else src_ips[0] + if len(src_ips) == 1: + src_ip4 = min_value + self._set_ip_fields(src=src_ip4) + else: + stl_vm_flow_var = STLVmFlowVar(name="ip4_src", + min_value=min_value, + max_value=max_value, + size=4, + op='random', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='ip4_src', + pkt_offset='IP.src') + self.vm_flow_vars.append(stl_vm_wr_flow_var) + stl_vm_fix_ipv4 = STLVmFixIpv4(offset="IP") + self.vm_flow_vars.append(stl_vm_fix_ipv4) + + def set_dst_ip4(self, dst_ip4): + """ set destination ipv4 address fields """ + dst_ips = dst_ip4.split('-') + min_value = dst_ips[0] + max_value = dst_ips[1] if len(dst_ips) == 2 else dst_ips[0] + if len(dst_ips) == 1: + dst_ip4 = min_value + self._set_ip_fields(dst=dst_ip4) + else: + stl_vm_flow_var = STLVmFlowVar(name="dst_ip4", + min_value=min_value, + max_value=max_value, + size=4, + op='random', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='dst_ip4', + pkt_offset='IP.dst') + self.vm_flow_vars.append(stl_vm_wr_flow_var) + stl_vm_fix_ipv4 = STLVmFixIpv4(offset="IP") + self.vm_flow_vars.append(stl_vm_fix_ipv4) + + def set_src_ip6(self, src_ip6): + """ set source ipv6 address fields """ + src_ips = src_ip6.split('-') + min_value = src_ips[0] + max_value = src_ips[1] if len(src_ips) == 2 else src_ips[0] + src_ip6 = min_value + self._set_ip6_fields(src=src_ip6) + if len(src_ips) == 2: + min_value, max_value = \ + self._get_start_end_ipv6(min_value, max_value) + stl_vm_flow_var = STLVmFlowVar(name="ip6_src", + min_value=min_value, + max_value=max_value, + size=8, + op='random', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='ip6_src', + pkt_offset='IPv6.src', + offset_fixup=8) + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_dst_ip6(self, dst_ip6): + """ set destination ipv6 address fields """ + dst_ips = dst_ip6.split('-') + min_value = dst_ips[0] + max_value = dst_ips[1] if len(dst_ips) == 2 else dst_ips[0] + dst_ip6 = min_value + self._set_ip6_fields(dst=dst_ip6) + if len(dst_ips) == 2: + min_value, max_value = \ + self._get_start_end_ipv6(min_value, max_value) + stl_vm_flow_var = STLVmFlowVar(name="dst_ip6", + min_value=min_value, + max_value=max_value, + size=8, + op='random', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='dst_ip6', + pkt_offset='IPv6.dst', + offset_fixup=8) + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_dscp(self, dscp): + """ set dscp for trex """ + dscps = str(dscp).split('-') + min_value = int(dscps[0]) + max_value = int(dscps[1]) if len(dscps) == 2 else int(dscps[0]) + if len(dscps) == 1: + dscp = min_value + self._set_ip_fields(tos=dscp) + else: + stl_vm_flow_var = STLVmFlowVar(name="dscp", + min_value=min_value, + max_value=max_value, + size=2, + op='inc', + step=8) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='dscp', + pkt_offset='IP.tos') + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_src_port(self, src_port): + """ set packet source port """ + src_ports = str(src_port).split('-') + min_value = int(src_ports[0]) + if len(src_ports) == 1: + max_value = int(src_ports[0]) + src_port = min_value + self._set_udp_fields(sport=src_port) + else: + max_value = int(src_ports[1]) + stl_vm_flow_var = STLVmFlowVar(name="port_src", + min_value=min_value, + max_value=max_value, + size=2, + op='random', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='port_src', + pkt_offset=self.udp_sport) + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_dst_port(self, dst_port): + """ set packet destnation port """ + dst_ports = str(dst_port).split('-') + min_value = int(dst_ports[0]) + if len(dst_ports) == 1: + max_value = int(dst_ports[0]) + dst_port = min_value + self._set_udp_fields(dport=dst_port) + else: + max_value = int(dst_ports[1]) + stl_vm_flow_var = STLVmFlowVar(name="port_dst", + min_value=min_value, + max_value=max_value, + size=2, + op='random', + step=1) + self.vm_flow_vars.append(stl_vm_flow_var) + stl_vm_wr_flow_var = STLVmWrFlowVar(fv_name='port_dst', + pkt_offset=self.udp_dport) + self.vm_flow_vars.append(stl_vm_wr_flow_var) + + def set_svlan_cvlan(self, svlan, cvlan): + """ set svlan & cvlan """ + self.qinq = True + ether_params = {'type': 0x8100} + self._set_ether_fields(**ether_params) + svlans = str(svlan['id']).split('-') + svlan_min = int(svlans[0]) + svlan_max = int(svlans[1]) if len(svlans) == 2 else int(svlans[0]) + if len(svlans) == 2: + svlan = self._get_random_value(svlan_min, svlan_max) + else: + svlan = svlan_min + cvlans = str(cvlan['id']).split('-') + cvlan_min = int(cvlans[0]) + cvlan_max = int(cvlans[1]) if len(cvlans) == 2 else int(cvlans[0]) + if len(cvlans) == 2: + cvlan = self._get_random_value(cvlan_min, cvlan_max) + else: + cvlan = cvlan_min + self.qinq_packet = Pkt.Dot1Q(vlan=svlan) / Pkt.Dot1Q(vlan=cvlan) + + def set_qinq(self, qinq): + """ set qinq in packet """ + self.set_svlan_cvlan(qinq['S-VLAN'], qinq['C-VLAN']) + + def set_outer_l2_fields(self, outer_l2): + """ setup outer l2 fields from traffic profile """ + ether_params = {'type': 0x800} + self._set_ether_fields(**ether_params) + if 'srcmac' in outer_l2: + self.set_src_mac(outer_l2['srcmac']) + if 'dstmac' in outer_l2: + self.set_dst_mac(outer_l2['dstmac']) + if 'QinQ' in outer_l2: + self.set_qinq(outer_l2['QinQ']) + + def set_outer_l3v4_fields(self, outer_l3v4): + """ setup outer l3v4 fields from traffic profile """ + ip_params = {} + if 'proto' in outer_l3v4: + ip_params['proto'] = outer_l3v4['proto'] + if outer_l3v4['proto'] == 'tcp': + self.udp_packet = Pkt.TCP() + self.udp_dport = 'TCP.dport' + self.udp_sport = 'TCP.sport' + tcp_params = {'flags': '', 'window': 0} + self._set_udp_fields(**tcp_params) + if 'ttl' in outer_l3v4: + ip_params['ttl'] = outer_l3v4['ttl'] + self._set_ip_fields(**ip_params) + if 'dscp' in outer_l3v4: + self.set_dscp(outer_l3v4['dscp']) + if 'srcip4' in outer_l3v4: + self.set_src_ip4(outer_l3v4['srcip4']) + if 'dstip4' in outer_l3v4: + self.set_dst_ip4(outer_l3v4['dstip4']) + + def set_outer_l3v6_fields(self, outer_l3v6): + """ setup outer l3v6 fields from traffic profile """ + ether_params = {'type': 0x86dd} + self._set_ether_fields(**ether_params) + ip6_params = {} + if 'proto' in outer_l3v6: + ip6_params['proto'] = outer_l3v6['proto'] + if outer_l3v6['proto'] == 'tcp': + self.udp_packet = Pkt.TCP() + self.udp_dport = 'TCP.dport' + self.udp_sport = 'TCP.sport' + tcp_params = {'flags': '', 'window': 0} + self._set_udp_fields(**tcp_params) + if 'ttl' in outer_l3v6: + ip6_params['ttl'] = outer_l3v6['ttl'] + if 'tc' in outer_l3v6: + ip6_params['tc'] = outer_l3v6['tc'] + if 'hlim' in outer_l3v6: + ip6_params['hlim'] = outer_l3v6['hlim'] + self._set_ip6_fields(**ip6_params) + if 'srcip6' in outer_l3v6: + self.set_src_ip6(outer_l3v6['srcip6']) + if 'dstip6' in outer_l3v6: + self.set_dst_ip6(outer_l3v6['dstip6']) + + def set_outer_l4_fields(self, outer_l4): + """ setup outer l4 fields from traffic profile """ + if 'srcport' in outer_l4: + self.set_src_port(outer_l4['srcport']) + if 'dstport' in outer_l4: + self.set_dst_port(outer_l4['dstport']) + + def generate_imix_data(self, packet_definition): + """ generate packet size for a given traffic profile """ + imix_count = {} + imix_data = {} + if not packet_definition: + return imix_count + imix = packet_definition.get('framesize') + if imix: + for size in imix: + data = imix[size] + imix_data[int(size[:-1])] = int(data) + imix_sum = sum(imix_data.values()) + if imix_sum > 100: + raise SystemExit("Error in IMIX data") + elif imix_sum < 100: + imix_data[64] = imix_data.get(64, 0) + (100 - imix_sum) + + avg_size = 0.0 + for size in imix_data: + count = int(imix_data[size]) + if count: + avg_size += round(size * count / 100, 2) + pps = round(self.pps * count / 100, 0) + imix_count[size] = pps + self.rate = round(1342177280 / avg_size, 0) * 2 + logging.debug("Imax: %s rate: %s", imix_count, self.rate) + return imix_count + + def get_streams(self): + """ generate trex stream """ + self.streams = [] + self.pps = self.params['traffic_profile'].get('frame_rate', 100) + for packet_name in self.profile_data: + outer_l2 = self.profile_data[packet_name].get('outer_l2') + imix_data = self.generate_imix_data(outer_l2) + if not imix_data: + imix_data = {64: self.pps} + self.generate_vm(self.profile_data[packet_name]) + for size in imix_data: + self._generate_streams(size, imix_data[size]) + self._generate_profile() + return self.profile + + def generate_vm(self, packet_definition): + """ generate trex vm with flows setup """ + self.ether_packet = Pkt.Ether() + self.ip_packet = Pkt.IP() + self.ip6_packet = None + self.udp_packet = Pkt.UDP() + self.udp_dport = 'UDP.dport' + self.udp_sport = 'UDP.sport' + self.qinq = False + self.vm_flow_vars = [] + outer_l2 = packet_definition.get('outer_l2', None) + outer_l3v4 = packet_definition.get('outer_l3v4', None) + outer_l3v6 = packet_definition.get('outer_l3v6', None) + outer_l4 = packet_definition.get('outer_l4', None) + if outer_l2: + self.set_outer_l2_fields(outer_l2) + if outer_l3v4: + self.set_outer_l3v4_fields(outer_l3v4) + if outer_l3v6: + self.set_outer_l3v6_fields(outer_l3v6) + if outer_l4: + self.set_outer_l4_fields(outer_l4) + self.trex_vm = STLScVmRaw(self.vm_flow_vars) + + def generate_packets(self): + """ generate packets from trex TG """ + base_pkt = self.base_pkt + size = self.fsize - 4 + pad = max(0, size - len(base_pkt)) * 'x' + self.packets = [STLPktBuilder(pkt=base_pkt / pad, + vm=vm) for vm in self.vms] + + def _create_single_packet(self, size=64): + size = size - 4 + ether_packet = self.ether_packet + ip_packet = self.ip6_packet if self.ip6_packet else self.ip_packet + udp_packet = self.udp_packet + if self.qinq: + qinq_packet = self.qinq_packet + base_pkt = ether_packet / qinq_packet / ip_packet / udp_packet + else: + base_pkt = ether_packet / ip_packet / udp_packet + pad = max(0, size - len(base_pkt)) * 'x' + packet = STLPktBuilder(pkt=base_pkt / pad, vm=self.trex_vm) + return packet + + def _create_single_stream(self, packet_size, pps, isg=0): + packet = self._create_single_packet(packet_size) + if self.pg_id: + self.pg_id += 1 + stl_flow = STLFlowLatencyStats(pg_id=self.pg_id) + stream = STLStream(isg=isg, packet=packet, mode=STLTXCont(pps=pps), + flow_stats=stl_flow) + else: + stream = STLStream(isg=isg, packet=packet, mode=STLTXCont(pps=pps)) + return stream + + def _generate_streams(self, packet_size, pps): + self.streams.append(self._create_single_stream(packet_size, pps)) + + def _generate_profile(self): + self.profile = STLProfile(self.streams) + + @classmethod + def _get_start_end_ipv6(cls, start_ip, end_ip): + try: + ip1 = socket.inet_pton(socket.AF_INET6, start_ip) + ip2 = socket.inet_pton(socket.AF_INET6, end_ip) + hi1, lo1 = struct.unpack('!QQ', ip1) + hi2, lo2 = struct.unpack('!QQ', ip2) + if ((hi1 << 64) | lo1) > ((hi2 << 64) | lo2): + raise SystemExit("IPv6: start_ip is greater then end_ip") + max_p1 = abs(int(lo1) - int(lo2)) + base_p1 = lo1 + except Exception as ex_error: + raise SystemExit(ex_error) + else: + return base_p1, max_p1 + base_p1 + + @classmethod + def _get_random_value(cls, min_port, max_port): + cryptogen = SystemRandom() + return cryptogen.randrange(min_port, max_port) -- cgit 1.2.3-korg