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.. This work is licensed under a Creative Commons Attribution 4.0 International License.

.. http://creativecommons.org/licenses/by/4.0

=================
PACKET FORWARDING
=================
=======================
About Packet Forwarding
=======================

Packet Forwarding is a test suite of KVMFORNFV which is used to measure the total time taken by a
**Packet** generated by the traffic generator to return from Guest/Host as per the implemented
scenario. Packet Forwarding is implemented using VSWITCHPERF/``VSPERF software of OPNFV`` and an
``IXIA Traffic Generator``.

Version Features
----------------

+-----------------------------+---------------------------------------------------+
|                             |                                                   |
|      **Release**            |               **Features**                        |
|                             |                                                   |
+=============================+===================================================+
|                             | - Packet Forwarding is not part of Colorado       |
|       Colorado              |   release of KVMFORNFV                            |
|                             |                                                   |
+-----------------------------+---------------------------------------------------+
|                             | - Packet Forwarding is a testcase in KVMFORNFV    |
|                             | - Implements three scenarios (Host/Guest/SRIOV)   |
|                             |   as part of testing in KVMFORNFV                 |
|       Danube                | - Uses available testcases of OPNFV's VSWTICHPERF |
|                             |   software (PVP/PVVP)                             |
|                             | - Works with IXIA Traffic Generator               |
+-----------------------------+---------------------------------------------------+

======
VSPERF
======

VSPerf is an OPNFV testing project.
VSPerf will develop a generic and architecture agnostic vSwitch testing framework and associated
tests, that will serve as a basis for validating the suitability of different vSwitch
implementations in a Telco NFV deployment environment. The output of this project will be utilized
by the OPNFV Performance and Test group and its associated projects, as part of OPNFV Platform and
VNF level testing and validation.

For complete VSPERF documentation go to `link.`_

.. _link.: <http://artifacts.opnfv.org/vswitchperf/colorado/index.html>


Installation
------------
Guidelines of installating `VSPERF`_.

.. _VSPERF: <http://artifacts.opnfv.org/vswitchperf/colorado/configguide/index.html>

Supported Operating Systems
---------------------------

* CentOS 7
* Fedora 20
* Fedora 21
* Fedora 22
* RedHat 7.2
* Ubuntu 14.04

Supported vSwitches
-------------------
The vSwitch must support Open Flow 1.3 or greater.

* OVS (built from source).
* OVS with DPDK (built from source).

Supported Hypervisors
---------------------

* Qemu version 2.3.

Other Requirements
------------------
The test suite requires Python 3.3 and relies on a number of other
packages. These need to be installed for the test suite to function.

Installation of required packages, preparation of Python 3 virtual
environment and compilation of OVS, DPDK and QEMU is performed by
script **systems/build_base_machine.sh**. It should be executed under
user account, which will be used for vsperf execution.

 **Please Note:** Password-less sudo access must be configured for given user
                  before script is executed.

Execution of installation script:

.. code:: bashFtrace.debugging.tool.userguide.rst

    $ cd Vswitchperf
    $ cd systems
    $ ./build_base_machine.sh

Script **build_base_machine.sh** will install all the vsperf dependencies
in terms of system packages, Python 3.x and required Python modules.
In case of CentOS 7 it will install Python 3.3 from an additional repository
provided by Software Collections (`a link`_). In case of RedHat 7 it will
install Python 3.4 as an alternate installation in /usr/local/bin. Installation
script will also use `virtualenv`_ to create a vsperf virtual environment,
which is isolated from the default Python environment. This environment will
reside in a directory called **vsperfenv** in $HOME.

You will need to activate the virtual environment every time you start a
new shell session. Its activation is specific to your OS:

For running testcases VSPERF is installed on Intel pod1-node2 in which centos
operating system is installed. Only VSPERF installion on Centos is discussed here.
For installation steps on other operating systems please refer to `here`_.

.. _here: <http://artifacts.opnfv.org/vswitchperf/colorado/configguide/index.html>

For CentOS 7
-----------------

## Python 3 Packages

To avoid file permission errors and Python version issues, use virtualenv to create an isolated environment with Python3.
The required Python 3 packages can be found in the `requirements.txt` file in the root of the test suite.
They can be installed in your virtual environment like so:

.. code:: bash

   scl enable python33 bash
   # Create virtual environment
   virtualenv vsperfenv
   cd vsperfenv
   source bin/activate
   pip install -r requirements.txt


You need to activate the virtual environment every time you start a new shell session.
To activate, simple run:

.. code:: bash

   scl enable python33 bash
   cd vsperfenv
   source bin/activate


Working Behind a Proxy
-----------------------

If you're behind a proxy, you'll likely want to configure this before running any of the above. For example:

.. code:: bash

   export http_proxy=proxy.mycompany.com:123
   export https_proxy=proxy.mycompany.com:123



.. _a link: http://www.softwarecollections.org/en/scls/rhscl/python33/
.. _virtualenv: https://virtualenv.readthedocs.org/en/latest/

For other OS specific activation click `this link`_:

.. _this link: http://artifacts.opnfv.org/vswitchperf/colorado/configguide/installation.html#other-requirements

Traffic-Generators
-------------------
VSPERF supports many Traffic-generators. For configuring VSPERF to work with the available traffic-generator go through `this`_.

.. _this: <http://artifacts.opnfv.org/vswitchperf/colorado/configguide/trafficgen.html>

VSPERF supports the following traffic generators:

  * Dummy (DEFAULT): Allows you to use your own external
    traffic generator.
  * IXIA (IxNet and IxOS)
  * Spirent TestCenter
  * Xena Networks
  * MoonGen

To see the list of traffic gens from the cli:

.. code-block:: console

    $ ./vsperf --list-trafficgens

This guide provides the details of how to install
and configure the various traffic generators.

As KVM4NFV uses only IXIA traffic generator, it is discussed here. For complete documentation regarding traffic generators please follow this `link`_.

.. _link: <https://gerrit.opnfv.org/gerrit/gitweb?p=vswitchperf.git;a=blob;f=docs/configguide/trafficgen.rst;h=85fc35b886d30db3b92a6b7dcce7ca742b70cbdc;hb=HEAD>

==========
IXIA Setup
==========

=====================
Hardware Requirements
=====================
VSPERF requires the following hardware to run tests: IXIA traffic generator (IxNetwork), a machine that runs the IXIA client software and a CentOS Linux release 7.1.1503 (Core) host.

Installation
-------------

Follow the [installation instructions] to install.

IXIA Setup
------------
On the CentOS 7 system
----------------------
You need to install IxNetworkTclClient$(VER_NUM)Linux.bin.tgz.

On the IXIA client software system
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Find the IxNetwork TCL server app (start -> All Programs -> IXIA -> IxNetwork -> IxNetwork_$(VER_NUM) -> IxNetwork TCL Server)
  - Right click on IxNetwork TCL Server, select properties
  - Under shortcut tab in the Target dialogue box make sure there is the argument "-tclport xxxx" where xxxx is your port number (take note of this port number you will need it for the 10_custom.conf file).

.. Figure:: ../images/IXIA1.png

- Hit Ok and start the TCL server application

VSPERF configuration
--------------------

There are several configuration options specific to the IxNetworks traffic generator
from IXIA. It is essential to set them correctly, before the VSPERF is executed
for the first time.

Detailed description of options follows:

 * TRAFFICGEN_IXNET_MACHINE - IP address of server, where IxNetwork TCL Server is running
 * TRAFFICGEN_IXNET_PORT - PORT, where IxNetwork TCL Server is accepting connections from
   TCL clients
 * TRAFFICGEN_IXNET_USER - username, which will be used during communication with IxNetwork
   TCL Server and IXIA chassis
 * TRAFFICGEN_IXIA_HOST - IP address of IXIA traffic generator chassis
 * TRAFFICGEN_IXIA_CARD - identification of card with dedicated ports at IXIA chassis
 * TRAFFICGEN_IXIA_PORT1 - identification of the first dedicated port at TRAFFICGEN_IXIA_CARD
   at IXIA chassis; VSPERF uses two separated ports for traffic generation. In case of
   unidirectional traffic, it is essential to correctly connect 1st IXIA port to the 1st NIC
   at DUT, i.e. to the first PCI handle from WHITELIST_NICS list. Otherwise traffic may not
   be able to pass through the vSwitch.
 * TRAFFICGEN_IXIA_PORT2 - identification of the second dedicated port at TRAFFICGEN_IXIA_CARD
   at IXIA chassis; VSPERF uses two separated ports for traffic generation. In case of
   unidirectional traffic, it is essential to correctly connect 2nd IXIA port to the 2nd NIC
   at DUT, i.e. to the second PCI handle from WHITELIST_NICS list. Otherwise traffic may not
   be able to pass through the vSwitch.
 * TRAFFICGEN_IXNET_LIB_PATH - path to the DUT specific installation of IxNetwork TCL API
 * TRAFFICGEN_IXNET_TCL_SCRIPT - name of the TCL script, which VSPERF will use for
   communication with IXIA TCL server
 * TRAFFICGEN_IXNET_TESTER_RESULT_DIR - folder accessible from IxNetwork TCL server,
   where test results are stored, e.g. ``c:/ixia_results``; see test-results-share_
 * TRAFFICGEN_IXNET_DUT_RESULT_DIR - directory accessible from the DUT, where test
   results from IxNetwork TCL server are stored, e.g. ``/mnt/ixia_results``; see
   test-results-share_

.. _test-results-share:

Test results share
-------------------

VSPERF is not able to retrieve test results via TCL API directly. Instead, all test
results are stored at IxNetwork TCL server. Results are stored at folder defined by
``TRAFFICGEN_IXNET_TESTER_RESULT_DIR`` configuration parameter. Content of this
folder must be shared (e.g. via samba protocol) between TCL Server and DUT, where
VSPERF is executed. VSPERF expects, that test results will be available at directory
configured by ``TRAFFICGEN_IXNET_DUT_RESULT_DIR`` configuration parameter.

Example of sharing configuration:

 * Create a new folder at IxNetwork TCL server machine, e.g. ``c:\ixia_results``
 * Modify sharing options of ``ixia_results`` folder to share it with everybody
 * Create a new directory at DUT, where shared directory with results
   will be mounted, e.g. ``/mnt/ixia_results``
 * Update your custom VSPERF configuration file as follows:

   .. code-block:: python

       TRAFFICGEN_IXNET_TESTER_RESULT_DIR = 'c:/ixia_results'
       TRAFFICGEN_IXNET_DUT_RESULT_DIR = '/mnt/ixia_results'

   Note: It is essential to use slashes '/' also in path
   configured by ``TRAFFICGEN_IXNET_TESTER_RESULT_DIR`` parameter.
 * Install cifs-utils package.

   e.g. at rpm based Linux distribution:

   .. code-block:: console

       yum install cifs-utils

 * Mount shared directory, so VSPERF can access test results.

   e.g. by adding new record into ``/etc/fstab``

   .. code-block:: console

       mount -t cifs //_TCL_SERVER_IP_OR_FQDN_/ixia_results /mnt/ixia_results
             -o file_mode=0777,dir_mode=0777,nounix

It is recommended to verify, that any new file inserted into ``c:/ixia_results`` folder
is visible at DUT inside ``/mnt/ixia_results`` directory.


Cloning and building src dependencies
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
In order to run VSPERF, you will need to download DPDK and OVS. You can do this manually and build
them in a preferred location, or you could use vswitchperf/src. The vswitchperf/src directory
contains makefiles that will allow you to clone and build the libraries that VSPERF depends on,
such as DPDK and OVS. To clone and build simply:

.. code:: bash

   cd src
   make

To delete a src subdirectory and its contents to allow you to re-clone simply use:

.. code:: bash

   make cleanse

Configure the `./conf/10_custom.conf` file
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The supplied `10_custom.conf` file must be modified, as it contains configuration items for which there are no reasonable default values.

The configuration items that can be added is not limited to the initial contents. Any configuration item mentioned in any .conf file in `./conf` directory can be added and that item will be overridden by the custom
configuration value.

Using a custom settings file
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Alternatively a custom settings file can be passed to `vsperf` via the `--conf-file` argument.

.. code:: bash

   ./vsperf --conf-file <path_to_settings_py> ...

Note that configuration passed in via the environment (`--load-env`) or via another command line
argument will override both the default and your custom configuration files. This
"priority hierarchy" can be described like so (1 = max priority):

1. Command line arguments
2. Environment variables
3. Configuration file(s)

Executing tests
~~~~~~~~~~~~~~~~
Before running any tests make sure you have root permissions by adding the following line to /etc/sudoers:
.. code:: bash

   username ALL=(ALL)       NOPASSWD: ALL

username in the example above should be replaced with a real username.

To list the available tests:

.. code:: bash

   ./vsperf --list-tests


To run a group of tests, for example all tests with a name containing
'RFC2544':

.. code:: bash

   ./vsperf --conf-file=user_settings.py --tests="RFC2544"

To run all tests:

.. code:: bash

   ./vsperf --conf-file=user_settings.py

Some tests allow for configurable parameters, including test duration (in seconds) as well as packet sizes (in bytes).

.. code:: bash

   ./vsperf --conf-file user_settings.py
       --tests RFC2544Tput
       --test-param "rfc2544_duration=10;packet_sizes=128"

For all available options, check out the help dialog:

.. code:: bash

    ./vsperf --help


Testcases
----------
Available Tests in VSPERF are:

   * phy2phy_tput
   * phy2phy_forwarding
   * back2back
   * phy2phy_tput_mod_vlan
   * phy2phy_cont
   * pvp_cont
   * pvvp_cont
   * pvpv_cont
   * phy2phy_scalability
   * pvp_tput
   * pvp_back2back
   * pvvp_tput
   * pvvp_back2back
   * phy2phy_cpu_load
   * phy2phy_mem_load

VSPERF modes of operation
--------------------------

VSPERF can be run in different modes. By default it will configure vSwitch,
traffic generator and VNF. However it can be used just for configuration
and execution of traffic generator. Another option is execution of all
components except traffic generator itself.

Mode of operation is driven by configuration parameter -m or --mode

.. code-block:: console

    -m MODE, --mode MODE  vsperf mode of operation;
       Values:
            "normal" - execute vSwitch, VNF and traffic generator
            "trafficgen" - execute only traffic generator
            "trafficgen-off" - execute vSwitch and VNF
            "trafficgen-pause" - execute vSwitch and VNF but wait before traffic transmission

In case, that VSPERF is executed in "trafficgen" mode, then configuration
of traffic generator can be modified through ``TRAFFIC`` dictionary passed to the
``--test-params`` option. It is not needed to specify all values of ``TRAFFIC``
dictionary. It is sufficient to specify only values, which should be changed.
Detailed description of ``TRAFFIC`` dictionary can be found at: ref:`configuration-of-traffic-dictionary`.

Example of execution of VSPERF in "trafficgen" mode:

.. code-block:: console

    $ ./vsperf -m trafficgen --trafficgen IxNet --conf-file vsperf.conf \
        --test-params "TRAFFIC={'traffic_type':'rfc2544_continuous','bidir':'False','framerate':60}"


================================
Packet Forwarding Test Scenarios
================================
KVMFORNFV currently implements three scenarios as part of testing:

  * Host Scenario
  * Guest Scenario.
  * SR-IOV Scenario.


Packet Forwarding Host Scenario
-------------------------------
Here Host is NODE-2. It has VSPERF installed in it and is properly configured to use IXIA Traffic-generator by providing IXIA CARD, PORTS and Lib paths along with IP.
please refer to figure.2

.. Figure:: ../images/Host_Scenario.png

Packet Forwarding Guest Scenario
--------------------------------
Here the guest is a Virtual Machine (VM) launched by using a modified CentOS image(vsperf provided)
on Node-2 (Host) using  Qemu. In this scenario, the packet is initially forwarded to Host which is
then forwarded to the launched guest. The time taken by the packet to reach the IXIA traffic-generator
via Host and Guest is calculated and published as a test result of this scenario.

.. Figure:: ../images/Guest_Scenario.png

Packet Forwarding SRIOV Scenario
--------------------------------
Unlike the packet forwarding to Guest-via-Host scenario, here the packet generated at the IXIA is
directly forwarded to the Guest VM launched on Host by implementing SR-IOV interface at NIC level
of Host .i.e., Node-2. The time taken by the packet to reach the IXIA traffic-generator is calculated
and published as a test result for this scenario. SRIOV-support_ is given below, it details how to use SR-IOV.

.. Figure:: ../images/SRIOV_Scenario.png

Using vfio_pci with DPDK
------------------------

To use vfio with DPDK instead of igb_uio add into your custom configuration
file the following parameter:

.. code-block:: python

    PATHS['dpdk']['src']['modules'] = ['uio', 'vfio-pci']


**NOTE:** In case, that DPDK is installed from binary package, then please

     set ``PATHS['dpdk']['bin']['modules']`` instead.

**NOTE:** Please ensure that Intel VT-d is enabled in BIOS.

**NOTE:** Please ensure your boot/grub parameters include
the following:

.. code-block:: console

   iommu=pt intel_iommu=on

To check that IOMMU is enabled on your platform:

.. code-block:: console

    $ dmesg | grep IOMMU
    [    0.000000] Intel-IOMMU: enabled
    [    0.139882] dmar: IOMMU 0: reg_base_addr fbffe000 ver 1:0 cap d2078c106f0466 ecap f020de
    [    0.139888] dmar: IOMMU 1: reg_base_addr ebffc000 ver 1:0 cap d2078c106f0466 ecap f020de
    [    0.139893] IOAPIC id 2 under DRHD base  0xfbffe000 IOMMU 0
    [    0.139894] IOAPIC id 0 under DRHD base  0xebffc000 IOMMU 1
    [    0.139895] IOAPIC id 1 under DRHD base  0xebffc000 IOMMU 1
    [    3.335744] IOMMU: dmar0 using Queued invalidation
    [    3.335746] IOMMU: dmar1 using Queued invalidation
   ....

.. _SRIOV-support:

Using SRIOV support
-------------------

To use virtual functions of NIC with SRIOV support, use extended form
of NIC PCI slot definition:

.. code-block:: python

    WHITELIST_NICS = ['0000:03:00.0|vf0', '0000:03:00.1|vf3']

Where ``vf`` is an indication of virtual function usage and following
number defines a VF to be used. In case that VF usage is detected,
then vswitchperf will enable SRIOV support for given card and it will
detect PCI slot numbers of selected VFs.

So in example above, one VF will be configured for NIC '0000:05:00.0'
and four VFs will be configured for NIC '0000:05:00.1'. Vswitchperf
will detect PCI addresses of selected VFs and it will use them during
test execution.

At the end of vswitchperf execution, SRIOV support will be disabled.

SRIOV support is generic and it can be used in different testing scenarios.
For example:


* vSwitch tests with DPDK or without DPDK support to verify impact
  of VF usage on vSwitch performance
* tests without vSwitch, where traffic is forwared directly
  between VF interfaces by packet forwarder (e.g. testpmd application)
* tests without vSwitch, where VM accesses VF interfaces directly
  by PCI-passthrough to measure raw VM throughput performance.