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authorRex Lee <limingjiang@huawei.com>2018-04-13 01:29:33 +0000
committerGerrit Code Review <gerrit@opnfv.org>2018-04-13 01:29:33 +0000
commit408ea589283fa8181679d5d0b999bcd6785e6086 (patch)
treec6349ee0aac4178608df6a25cea5881d90af8186 /docs/testing/user/userguide/14-nsb-operation.rst
parent64c5642f0c5152ae5de728466ab3f6be4c0e24d5 (diff)
parentb24dc4e0c48aa7d9aa98c3e06d6d2cd2c6bed1d6 (diff)
Merge "[docs] Move user guide chapters to make room for new chapter." into stable/fraser
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+.. This work is licensed under a Creative Commons Attribution 4.0 International
+.. License.
+.. http://creativecommons.org/licenses/by/4.0
+.. (c) OPNFV, 2016-2017 Intel Corporation.
+
+Yardstick - NSB Testing - Operation
+===================================
+
+Abstract
+--------
+
+NSB test configuration and OpenStack setup requirements
+
+
+OpenStack Network Configuration
+-------------------------------
+
+NSB requires certain OpenStack deployment configurations.
+For optimal VNF characterization using external traffic generators NSB requires
+provider/external networks.
+
+
+Provider networks
+^^^^^^^^^^^^^^^^^
+
+The VNFs require a clear L2 connect to the external network in order to
+generate realistic traffic from multiple address ranges and ports.
+
+In order to prevent Neutron from filtering traffic we have to disable Neutron
+Port Security. We also disable DHCP on the data ports because we are binding
+the ports to DPDK and do not need DHCP addresses. We also disable gateways
+because multiple default gateways can prevent SSH access to the VNF from the
+floating IP. We only want a gateway on the mgmt network
+
+.. code-block:: yaml
+
+ uplink_0:
+ cidr: '10.1.0.0/24'
+ gateway_ip: 'null'
+ port_security_enabled: False
+ enable_dhcp: 'false'
+
+Heat Topologies
+^^^^^^^^^^^^^^^
+
+By default Heat will attach every node to every Neutron network that is
+created. For scale-out tests we do not want to attach every node to every
+network.
+
+For each node you can specify which ports are on which network using the
+network_ports dictionary.
+
+In this example we have ``TRex xe0 <-> xe0 VNF xe1 <-> xe0 UDP_Replay``
+
+.. code-block:: yaml
+
+ vnf_0:
+ floating_ip: true
+ placement: "pgrp1"
+ network_ports:
+ mgmt:
+ - mgmt
+ uplink_0:
+ - xe0
+ downlink_0:
+ - xe1
+ tg_0:
+ floating_ip: true
+ placement: "pgrp1"
+ network_ports:
+ mgmt:
+ - mgmt
+ uplink_0:
+ - xe0
+ # Trex always needs two ports
+ uplink_1:
+ - xe1
+ tg_1:
+ floating_ip: true
+ placement: "pgrp1"
+ network_ports:
+ mgmt:
+ - mgmt
+ downlink_0:
+ - xe0
+
+Collectd KPIs
+-------------
+
+NSB can collect KPIs from collected. We have support for various plugins
+enabled by the Barometer project.
+
+The default yardstick-samplevnf has collectd installed. This allows for
+collecting KPIs from the VNF.
+
+Collecting KPIs from the NFVi is more complicated and requires manual setup.
+We assume that collectd is not installed on the compute nodes.
+
+To collectd KPIs from the NFVi compute nodes:
+
+
+ * install_collectd on the compute nodes
+ * create pod.yaml for the compute nodes
+ * enable specific plugins depending on the vswitch and DPDK
+
+ example pod.yaml section for Compute node running collectd.
+
+.. code-block:: yaml
+
+ -
+ name: "compute-1"
+ role: Compute
+ ip: "10.1.2.3"
+ user: "root"
+ ssh_port: "22"
+ password: ""
+ collectd:
+ interval: 5
+ plugins:
+ # for libvirtd stats
+ virt: {}
+ intel_pmu: {}
+ ovs_stats:
+ # path to OVS socket
+ ovs_socket_path: /var/run/openvswitch/db.sock
+ intel_rdt: {}
+
+
+
+Scale-Up
+--------
+
+VNFs performance data with scale-up
+
+ * Helps to figure out optimal number of cores specification in the Virtual
+ Machine template creation or VNF
+ * Helps in comparison between different VNF vendor offerings
+ * Better the scale-up index, indicates the performance scalability of a
+ particular solution
+
+Heat
+^^^^
+For VNF scale-up tests we increase the number for VNF worker threads. In the
+case of VNFs we also need to increase the number of VCPUs and memory allocated
+to the VNF.
+
+An example scale-up Heat testcase is:
+
+.. literalinclude:: /submodules/yardstick/samples/vnf_samples/nsut/vfw/tc_heat_rfc2544_ipv4_1rule_1flow_64B_trex_scale-up.yaml
+ :language: yaml
+
+This testcase template requires specifying the number of VCPUs, Memory and Ports.
+We set the VCPUs and memory using the ``--task-args`` options
+
+.. code-block:: console
+
+ yardstick task start --task-args='{"mem": 10480, "vcpus": 4, "ports": 2}' \
+ samples/vnf_samples/nsut/vfw/tc_heat_rfc2544_ipv4_1rule_1flow_64B_trex_scale-up.yaml
+
+In order to support ports scale-up, traffic and topology templates need to be used in testcase.
+
+A example topology template is:
+
+.. literalinclude:: /submodules/yardstick/samples/vnf_samples/nsut/vfw/vfw-tg-topology-scale-up.yaml
+ :language: yaml
+
+This template has ``vports`` as an argument. To pass this argument it needs to
+be configured in ``extra_args`` scenario definition. Please note that more
+argument can be defined in that section. All of them will be passed to topology
+and traffic profile templates
+
+For example:
+
+.. code-block:: yaml
+
+ schema: yardstick:task:0.1
+ scenarios:
+ - type: NSPerf
+ traffic_profile: ../../traffic_profiles/ipv4_throughput-scale-up.yaml
+ extra_args:
+ vports: {{ vports }}
+ topology: vfw-tg-topology-scale-up.yaml
+
+A example traffic profile template is:
+
+.. literalinclude:: /submodules/yardstick/samples/vnf_samples/traffic_profiles/ipv4_throughput-scale-up.yaml
+ :language: yaml
+
+There is an option to provide predefined config for SampleVNFs. Path to config
+file may by specified in ``vnf_config`` scenario section.
+
+.. code-block:: yaml
+
+ vnf__0:
+ rules: acl_1rule.yaml
+ vnf_config: {lb_config: 'SW', file: vfw_vnf_pipeline_cores_4_ports_2_lb_1_sw.conf }
+
+
+Baremetal
+^^^^^^^^^
+ 1. Follow above traffic generator section to setup.
+ 2. Edit num of threads in
+ ``<repo>/samples/vnf_samples/nsut/vfw/tc_baremetal_rfc2544_ipv4_1rule_1flow_64B_trex_scale_up.yaml``
+ e.g, 6 Threads for given VNF
+
+.. code-block:: yaml
+
+
+ schema: yardstick:task:0.1
+ scenarios:
+ {% for worker_thread in [1, 2 ,3 , 4, 5, 6] %}
+ - type: NSPerf
+ traffic_profile: ../../traffic_profiles/ipv4_throughput.yaml
+ topology: vfw-tg-topology.yaml
+ nodes:
+ tg__0: trafficgen_1.yardstick
+ vnf__0: vnf.yardstick
+ options:
+ framesize:
+ uplink: {64B: 100}
+ downlink: {64B: 100}
+ flow:
+ src_ip: [{'tg__0': 'xe0'}]
+ dst_ip: [{'tg__0': 'xe1'}]
+ count: 1
+ traffic_type: 4
+ rfc2544:
+ allowed_drop_rate: 0.0001 - 0.0001
+ vnf__0:
+ rules: acl_1rule.yaml
+ vnf_config: {lb_config: 'HW', lb_count: 1, worker_config: '1C/1T', worker_threads: {{worker_thread}}}
+ nfvi_enable: True
+ runner:
+ type: Iteration
+ iterations: 10
+ interval: 35
+ {% endfor %}
+ context:
+ type: Node
+ name: yardstick
+ nfvi_type: baremetal
+ file: /etc/yardstick/nodes/pod.yaml
+
+Scale-Out
+--------------------
+
+VNFs performance data with scale-out helps
+
+ * in capacity planning to meet the given network node requirements
+ * in comparison between different VNF vendor offerings
+ * better the scale-out index, provides the flexibility in meeting future
+ capacity requirements
+
+
+Standalone
+^^^^^^^^^^
+
+Scale-out not supported on Baremetal.
+
+1. Follow above traffic generator section to setup.
+2. Generate testcase for standalone virtualization using ansible scripts
+
+ .. code-block:: console
+
+ cd <repo>/ansible
+ trex: standalone_ovs_scale_out_trex_test.yaml or standalone_sriov_scale_out_trex_test.yaml
+ ixia: standalone_ovs_scale_out_ixia_test.yaml or standalone_sriov_scale_out_ixia_test.yaml
+ ixia_correlated: standalone_ovs_scale_out_ixia_correlated_test.yaml or standalone_sriov_scale_out_ixia_correlated_test.yaml
+
+ update the ovs_dpdk or sriov above Ansible scripts reflect the setup
+
+3. run the test
+
+ .. code-block:: console
+
+ <repo>/samples/vnf_samples/nsut/tc_sriov_vfw_udp_ixia_correlated_scale_out-1.yaml
+ <repo>/samples/vnf_samples/nsut/tc_sriov_vfw_udp_ixia_correlated_scale_out-2.yaml
+
+Heat
+^^^^
+
+There are sample scale-out all-VM Heat tests. These tests only use VMs and
+don't use external traffic.
+
+The tests use UDP_Replay and correlated traffic.
+
+.. code-block:: console
+
+ <repo>/samples/vnf_samples/nsut/cgnapt/tc_heat_rfc2544_ipv4_1flow_64B_trex_correlated_scale_4.yaml
+
+To run the test you need to increase OpenStack CPU, Memory and Port quotas.
+
+
+Traffic Generator tuning
+------------------------
+
+The TRex traffic generator can be setup to use multiple threads per core, this
+is for multiqueue testing.
+
+TRex does not automatically enable multiple threads because we currently cannot
+detect the number of queues on a device.
+
+To enable multiple queue set the ``queues_per_port`` value in the TG VNF
+options section.
+
+.. code-block:: yaml
+
+ scenarios:
+ - type: NSPerf
+ nodes:
+ tg__0: tg_0.yardstick
+
+ options:
+ tg_0:
+ queues_per_port: 2