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authorVincenzo Riccobene <vincenzox.m.riccobene@intel.com>2016-01-11 09:45:04 +0000
committerJörgen Karlsson <jorgen.w.karlsson@ericsson.com>2016-01-11 16:42:58 +0000
commit392220c5e02af317b152c746a7ac12aace4e438d (patch)
tree2f2919a30c096e5ad4a73073d79851c0613f6921 /docs/configguide
parentb1b74d7458a6b0ee71ba31f7bc0ca61af8fb51dd (diff)
Implementation of yardstick-tc007 in Yardstick
Includes - Yardstick Scenario for integration with ApexLake - Yardstick Task .yaml file - Documentation JIRA: YARDSTICK-219 Change-Id: Ifa2555336098e68d0fad8045e2f759aed587ad92 Signed-off-by: Vincenzo Riccobene <vincenzox.m.riccobene@intel.com> (cherry picked from commit bde7eae17a1fc9ec163451b8d62825daa2fec297)
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+.. image:: ../../etc/opnfv-logo.png
+ :height: 40
+ :width: 200
+ :alt: OPNFV
+ :align: left
+
+*************************************
+Yardstick Test Case Description TC007
+*************************************
++-----------------------------------------------------------------------------+
+|Network Performance |
++==============+==============================================================+
+|test case id | OPNFV_YARDSTICK_TC007_Virtual Traffic Classifier Data Plane |
+| | Throughput Benchmarking Test in Presence of Noisy |
+| | neighbours |
+| | |
++--------------+--------------------------------------------------------------+
+|metric | Throughput |
+| | |
++--------------+--------------------------------------------------------------+
+|test purpose | To measure the throughput supported by the virtual Traffic |
+| | Classifier according to the RFC2544 methodology for a |
+| | user-defined set of vTC deployment configurations in the |
+| | presence of noisy neighbours. |
+| | |
++--------------+--------------------------------------------------------------+
+|configuration | file: opnfv_yardstick_tc007.yaml |
+| | |
+| | packet_size: size of the packets to be used during the |
+| | throughput calculation. |
+| | Allowe values: [64, 128, 256, 512, 1024, 1280, 1518] |
+| | |
+| | vnic_type: type of VNIC to be used. |
+| | Allowed values are: |
+| | - normal: for default OvS port configuration |
+| | - direct: for SR-IOV port configuration |
+| | |
+| | vtc_flavor: OpenStack flavor to be used for the vTC |
+| | Default available values are: m1.small, m1.medium, |
+| | and m1.large, but the user can create his/her own |
+| | flavor and give it as input |
+| | |
+| | num_of_neighbours: Number of noisy neighbours (VMs) to be |
+| | instantiated during the experiment. |
+| | Allowed values: range (1, 10) |
+| | |
+| | amount_of_ram: RAM to be used by each neighbor. |
+| | Allowed values: ['250M', '1G', '2G', '3G', '4G', '5G', |
+| | '6G', '7G', '8G', '9G', '10G'] |
+| | Deault value: 256M |
+| | |
+| | number_of_cores: Number of noisy neighbours (VMs) to be |
+| | instantiated during the experiment. |
+| | Allowed values: range (1, 10) |
+| | Default value: 1 |
+| | |
+| | vlan_sender: vlan tag of the network on which the vTC will |
+| | receive traffic (VLAN Network 1). |
+| | Allowed values: range (1, 4096) |
+| | |
+| | vlan_receiver: vlan tag of the network on which the vTC |
+| | will send traffic back to the packet generator |
+| | (VLAN Network 2). |
+| | Allowed values: range (1, 4096) |
+| | |
+| | default_net_name: neutron name of the defaul network that |
+| | is used for access to the internet from the vTC |
+| | (vNIC 1). |
+| | |
+| | default_subnet_name: subnet name for vNIC1 |
+| | (information available through Neutron). |
+| | |
+| | vlan_net_1_name: Neutron Name for VLAN Network 1 |
+| | (information available through Neutron). |
+| | |
+| | vlan_subnet_1_name: Subnet Neutron name for VLAN Network 1 |
+| | (information available through Neutron). |
+| | |
+| | vlan_net_2_name: Neutron Name for VLAN Network 2 |
+| | (information available through Neutron). |
+| | |
+| | vlan_subnet_2_name: Subnet Neutron name for VLAN Network 2 |
+| | (information available through Neutron). |
+| | |
++--------------+--------------------------------------------------------------+
+|test tool | DPDK pktgen |
+| | |
+| | DPDK Pktgen is not part of a Linux distribution, |
+| | hence it needs to be installed by the user. |
+| | |
++--------------+--------------------------------------------------------------+
+|references | DPDK Pktgen: https://github.com/Pktgen/Pktgen-DPDK/ |
+| | ETSI-NFV-TST001 |
+| | RFC 2544 https://www.ietf.org/rfc/rfc2544.txt |
+| | |
++--------------+--------------------------------------------------------------+
+|applicability | Test can be configured with different flavors, vNIC type |
+| | and packet sizes. Default values exist as specified above. |
+| | The vNIC type and flavor MUST be specified by the user. |
+| | |
++--------------+--------------------------------------------------------------+
+|pre-test | The vTC has been successfully instantiated and configured. |
+| | The user has correctly assigned the values to the deployment |
+| | configuration parameters. |
+| | |
+| | - Multicast traffic MUST be enabled on the network. |
+| | The Data network switches need to be configured in |
+| | order to manage multicast traffic. |
+| | - In the case of SR-IOV vNICs use, SR-IOV compatible NICs |
+| | must be used on the compute node. |
+| | - Yarsdtick needs to be installed on a host connected to the |
+| | data network and the host must have 2 DPDK-compatible |
+| | NICs. Proper configuration of DPDK and DPDK pktgen is |
+| | required before to run the test case. |
+| | (For further instructions please refer to the ApexLake |
+| | documentation). |
+| | |
++--------------+--------------------------------------------------------------+
+|test sequence | Description and expected results |
+| | |
++--------------+--------------------------------------------------------------+
+|step 1 | The noisy neighbours are deployed as required by the user. |
+| | |
++--------------+--------------------------------------------------------------+
+|step 2 | The vTC is deployed, according to the configuration required |
+| | by the user |
+| | |
++--------------+--------------------------------------------------------------+
+|step 3 | The vTC is correctly deployed and configured as necessary. |
+| | The initialization script has been correctly executed and |
+| | the vTC is ready to receive and process the traffic. |
+| | |
++--------------+--------------------------------------------------------------+
+|step 4 | Test case is executed with the parameters specified by the |
+| | user: |
+| | - vTC flavor |
+| | - vNIC type |
+| | - packet size |
+| | The traffic is sent to the vTC using the maximum available |
+| | traffic rate |
+| | |
++--------------+--------------------------------------------------------------+
+|step 5 | The vTC instance forwards all the packets back to the |
+| | packet generator for 60 seconds, as specified by RFC 2544. |
+| | |
+| | Steps 4 and 5 are executed different times with different |
+| | with different traffic rates, in order to find the maximum |
+| | supported traffic rate, accoring to the current definition |
+| | of throughput in RFC 2544. |
+| | |
++--------------+--------------------------------------------------------------+
+|test verdict | The result of the test is a number between 0 and 100 which |
+| | represents the throughput in terms of percentage of the |
+| | available pktgen NIC bandwidth. |
+| | |
++--------------+--------------------------------------------------------------+