# Copyright (c) 2018 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. # flow definition for ACL tests - 1K flows - ipv4 only # # the number of flows defines the widest range of parameters # for example if srcip_range=1.0.0.1-1.0.0.255 and dst_ip_range=10.0.0.1-10.0.1.255 # and it should define only 16 flows # #there is assumption that packets generated will have a random sequences of following addresses pairs # in the packets # 1. src=1.x.x.x(x.x.x =random from 1..255) dst=10.x.x.x (random from 1..512) # 2. src=1.x.x.x(x.x.x =random from 1..255) dst=10.x.x.x (random from 1..512) # ... # 512. src=1.x.x.x(x.x.x =random from 1..255) dst=10.x.x.x (random from 1..512) # # not all combination should be filled # Any other field with random range will be added to flow definition # # the example.yaml provides all possibilities for traffic generation # # the profile defines a public and private side to make limited traffic correlation # between private and public side same way as it is made by IXIA solution. # {% set num_vnfs = get(extra_args, 'num_vnfs', 1) %} --- schema: "nsb:traffic_profile:0.1" name: rfc2544 description: Traffic profile to run RFC2544 latency traffic_profile: traffic_type : RFC2544Profile # defines traffic behavior - constant or look for highest possible throughput frame_rate : 100 # pc of linerate # that specifies a range (e.g. ipv4 address, port) {% for vnf_num in range(num_vnfs|int) %} uplink_{{ vnf_num }}: ipv4: id: {{ (vnf_num * 2) + 1 }} outer_l2: framesize: 64B: "{{get(imix, 'imix.uplink.64B', '0') }}" 128B: "{{get(imix, 'imix.uplink.128B', '0') }}" 256B: "{{get(imix, 'imix.uplink.256B', '0') }}" 373B: "{{get(imix, 'imix.uplink.373B', '0') }}" 512B: "{{get(imix, 'imix.uplink.512B', '0') }}" 570B: "{{get(imix, 'imix.uplink.570B', '0') }}" 1024B: "{{get(imix, 'imix.uplink.1024B', '0') }}" 1280B: "{{get(imix, 'imix.uplink.1280B', '0') }}" 1400B: "{{get(imix, 'imix.uplink.1400B', '0') }}" 1500B: "{{get(imix, 'imix.uplink.1500B', '0') }}" 1518B: "{{get(imix, 'imix.uplink.1518B', '0') }}" outer_l3v4: proto: "udp" srcip4: "{{get(flow, 'flow.src_ip_{{ vnf_num }}', '10.0.2.1-10.0.2.255') }}" dstip4: "{{get(flow, 'flow.dst_ip_{{ vnf_num }}', '10.0.3.1-10.0.3.255') }}" count: "{{get(flow, 'flow.count', '1') }}" ttl: 32 dscp: 0 outer_l4: srcport: "{{get(flow, 'flow.src_port_{{ vnf_num }}', '1234-4321') }}" dstport: "{{get(flow, 'flow.dst_port_{{ vnf_num }}', '2001-4001') }}" count: "{{get(flow, 'flow.count', '1') }}" downlink_{{ vnf_num }}: ipv4: id: {{ (vnf_num * 2) + 2 }} outer_l2: framesize: 64B: "{{ get(imix, 'imix.downlink.64B', '0') }}" 128B: "{{ get(imix, 'imix.downlink.128B', '0') }}" 256B: "{{ get(imix, 'imix.downlink.256B', '0') }}" 373b: "{{ get(imix, 'imix.downlink.373B', '0') }}" 512B: "{{ get(imix, 'imix.downlink.512B', '0') }}" 570B: "{{get(imix, 'imix.downlink.570B', '0') }}" 1024B: "{{get(imix, 'imix.downlink.1024B', '0') }}" 1280B: "{{get(imix, 'imix.downlink.1280B', '0') }}" 1400B: "{{get(imix, 'imix.downlink.1400B', '0') }}" 1500B: "{{get(imix, 'imix.downlink.1500B', '0') }}" 1518B: "{{get(imix, 'imix.downlink.1518B', '0') }}" outer_l3v4: proto: "udp" srcip4: "{{get(flow, 'flow.dst_ip_{{ vnf_num }}', '10.0.3.1-10.0.3.255') }}" dstip4: "{{get(flow, 'flow.src_ip_{{ vnf_num }}', '10.0.2.1-10.0.2.255') }}" count: "{{get(flow, 'flow.count', '1') }}" ttl: 32 dscp: 0 outer_l4: srcport: "{{get(flow, 'flow.dst_port_{{ vnf_num }}', '1234-4321') }}" dstport: "{{get(flow, 'flow.src_port_{{ vnf_num }}', '2001-4001') }}" count: "{{get(flow, 'flow.count', '1') }}" {% endfor %}