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authorTrevor Cooper <trevor.cooper@intel.com>2017-03-22 14:04:38 -0700
committerTrevor Cooper <trevor.cooper@intel.com>2017-03-22 14:04:38 -0700
commit5bc3a7f072674902f9fbdc59ddc36f44b4c87cca (patch)
tree7676941d206af68bab9d20a4570ced6dc9c4629a /docs/userguide
parentac5b51c16eec6bd6c2b2dd68ca0a5240d9e858f2 (diff)
Moved userguide to user directory
Change-Id: I35f2cbbab8ce7daec26fed63fa92cf7c17cd37b3 Signed-off-by: Trevor Cooper <trevor.cooper@intel.com>
Diffstat (limited to 'docs/userguide')
-rw-r--r--docs/userguide/integration.rst504
-rw-r--r--docs/userguide/teststeps.rst665
-rw-r--r--docs/userguide/testusage.rst809
-rw-r--r--docs/userguide/yardstick.rst250
4 files changed, 0 insertions, 2228 deletions
diff --git a/docs/userguide/integration.rst b/docs/userguide/integration.rst
deleted file mode 100644
index 83b29da6..00000000
--- a/docs/userguide/integration.rst
+++ /dev/null
@@ -1,504 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Intel Corporation, AT&T and others.
-
-.. _integration-tests:
-
-Integration tests
-=================
-
-VSPERF includes a set of integration tests defined in conf/integration.
-These tests can be run by specifying --integration as a parameter to vsperf.
-Current tests in conf/integration include switch functionality and Overlay
-tests.
-
-Tests in the conf/integration can be used to test scaling of different switch
-configurations by adding steps into the test case.
-
-For the overlay tests VSPERF supports VXLAN, GRE and GENEVE tunneling protocols.
-Testing of these protocols is limited to unidirectional traffic and
-P2P (Physical to Physical scenarios).
-
-NOTE: The configuration for overlay tests provided in this guide is for
-unidirectional traffic only.
-
-Executing Integration Tests
----------------------------
-
-To execute integration tests VSPERF is run with the integration parameter. To
-view the current test list simply execute the following command:
-
-.. code-block:: console
-
- ./vsperf --integration --list
-
-The standard tests included are defined inside the
-``conf/integration/01_testcases.conf`` file.
-
-Executing Tunnel encapsulation tests
-------------------------------------
-
-The VXLAN OVS DPDK encapsulation tests requires IPs, MAC addresses,
-bridge names and WHITELIST_NICS for DPDK.
-
-NOTE: Only Ixia traffic generators currently support the execution of the tunnel
-encapsulation tests. Support for other traffic generators may come in a future
-release.
-
-Default values are already provided. To customize for your environment, override
-the following variables in you user_settings.py file:
-
- .. code-block:: python
-
- # Variables defined in conf/integration/02_vswitch.conf
- # Tunnel endpoint for Overlay P2P deployment scenario
- # used for br0
- VTEP_IP1 = '192.168.0.1/24'
-
- # Used as remote_ip in adding OVS tunnel port and
- # to set ARP entry in OVS (e.g. tnl/arp/set br-ext 192.168.240.10 02:00:00:00:00:02
- VTEP_IP2 = '192.168.240.10'
-
- # Network to use when adding a route for inner frame data
- VTEP_IP2_SUBNET = '192.168.240.0/24'
-
- # Bridge names
- TUNNEL_INTEGRATION_BRIDGE = 'br0'
- TUNNEL_EXTERNAL_BRIDGE = 'br-ext'
-
- # IP of br-ext
- TUNNEL_EXTERNAL_BRIDGE_IP = '192.168.240.1/24'
-
- # vxlan|gre|geneve
- TUNNEL_TYPE = 'vxlan'
-
- # Variables defined conf/integration/03_traffic.conf
- # For OP2P deployment scenario
- TRAFFICGEN_PORT1_MAC = '02:00:00:00:00:01'
- TRAFFICGEN_PORT2_MAC = '02:00:00:00:00:02'
- TRAFFICGEN_PORT1_IP = '1.1.1.1'
- TRAFFICGEN_PORT2_IP = '192.168.240.10'
-
-To run VXLAN encapsulation tests:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'TUNNEL_TYPE=vxlan' overlay_p2p_tput
-
-To run GRE encapsulation tests:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'TUNNEL_TYPE=gre' overlay_p2p_tput
-
-To run GENEVE encapsulation tests:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'TUNNEL_TYPE=geneve' overlay_p2p_tput
-
-To run OVS NATIVE tunnel tests (VXLAN/GRE/GENEVE):
-
-1. Install the OVS kernel modules
-
- .. code:: console
-
- cd src/ovs/ovs
- sudo -E make modules_install
-
-2. Set the following variables:
-
- .. code-block:: python
-
- VSWITCH = 'OvsVanilla'
- # Specify vport_* kernel module to test.
- PATHS['vswitch']['OvsVanilla']['src']['modules'] = [
- 'vport_vxlan',
- 'vport_gre',
- 'vport_geneve',
- 'datapath/linux/openvswitch.ko',
- ]
-
- **NOTE:** In case, that Vanilla OVS is installed from binary package, then
- please set ``PATHS['vswitch']['OvsVanilla']['bin']['modules']`` instead.
-
-3. Run tests:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'TUNNEL_TYPE=vxlan' overlay_p2p_tput
-
-
-Executing VXLAN decapsulation tests
-------------------------------------
-
-To run VXLAN decapsulation tests:
-
-1. Set the variables used in "Executing Tunnel encapsulation tests"
-
-2. Set dstmac of DUT_NIC2_MAC to the MAC adddress of the 2nd NIC of your DUT
-
- .. code-block:: python
-
- DUT_NIC2_MAC = '<DUT NIC2 MAC>'
-
-3. Run test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration overlay_p2p_decap_cont
-
-If you want to use different values for your VXLAN frame, you may set:
-
- .. code-block:: python
-
- VXLAN_FRAME_L3 = {'proto': 'udp',
- 'packetsize': 64,
- 'srcip': TRAFFICGEN_PORT1_IP,
- 'dstip': '192.168.240.1',
- }
- VXLAN_FRAME_L4 = {'srcport': 4789,
- 'dstport': 4789,
- 'vni': VXLAN_VNI,
- 'inner_srcmac': '01:02:03:04:05:06',
- 'inner_dstmac': '06:05:04:03:02:01',
- 'inner_srcip': '192.168.0.10',
- 'inner_dstip': '192.168.240.9',
- 'inner_proto': 'udp',
- 'inner_srcport': 3000,
- 'inner_dstport': 3001,
- }
-
-
-Executing GRE decapsulation tests
----------------------------------
-
-To run GRE decapsulation tests:
-
-1. Set the variables used in "Executing Tunnel encapsulation tests"
-
-2. Set dstmac of DUT_NIC2_MAC to the MAC adddress of the 2nd NIC of your DUT
-
- .. code-block:: python
-
- DUT_NIC2_MAC = '<DUT NIC2 MAC>'
-
-3. Run test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --test-params 'TUNNEL_TYPE=gre' \
- --integration overlay_p2p_decap_cont
-
-
-If you want to use different values for your GRE frame, you may set:
-
- .. code-block:: python
-
- GRE_FRAME_L3 = {'proto': 'gre',
- 'packetsize': 64,
- 'srcip': TRAFFICGEN_PORT1_IP,
- 'dstip': '192.168.240.1',
- }
-
- GRE_FRAME_L4 = {'srcport': 0,
- 'dstport': 0
- 'inner_srcmac': '01:02:03:04:05:06',
- 'inner_dstmac': '06:05:04:03:02:01',
- 'inner_srcip': '192.168.0.10',
- 'inner_dstip': '192.168.240.9',
- 'inner_proto': 'udp',
- 'inner_srcport': 3000,
- 'inner_dstport': 3001,
- }
-
-
-Executing GENEVE decapsulation tests
-------------------------------------
-
-IxNet 7.3X does not have native support of GENEVE protocol. The
-template, GeneveIxNetTemplate.xml_ClearText.xml, should be imported
-into IxNET for this testcase to work.
-
-To import the template do:
-
-1. Run the IxNetwork TCL Server
-2. Click on the Traffic menu
-3. Click on the Traffic actions and click Edit Packet Templates
-4. On the Template editor window, click Import. Select the template
- located at ``3rd_party/ixia/GeneveIxNetTemplate.xml_ClearText.xml``
- and click import.
-5. Restart the TCL Server.
-
-To run GENEVE decapsulation tests:
-
-1. Set the variables used in "Executing Tunnel encapsulation tests"
-
-2. Set dstmac of DUT_NIC2_MAC to the MAC adddress of the 2nd NIC of your DUT
-
- .. code-block:: python
-
- DUT_NIC2_MAC = '<DUT NIC2 MAC>'
-
-3. Run test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --test-params 'tunnel_type=geneve' \
- --integration overlay_p2p_decap_cont
-
-
-If you want to use different values for your GENEVE frame, you may set:
-
- .. code-block:: python
-
- GENEVE_FRAME_L3 = {'proto': 'udp',
- 'packetsize': 64,
- 'srcip': TRAFFICGEN_PORT1_IP,
- 'dstip': '192.168.240.1',
- }
-
- GENEVE_FRAME_L4 = {'srcport': 6081,
- 'dstport': 6081,
- 'geneve_vni': 0,
- 'inner_srcmac': '01:02:03:04:05:06',
- 'inner_dstmac': '06:05:04:03:02:01',
- 'inner_srcip': '192.168.0.10',
- 'inner_dstip': '192.168.240.9',
- 'inner_proto': 'udp',
- 'inner_srcport': 3000,
- 'inner_dstport': 3001,
- }
-
-
-Executing Native/Vanilla OVS VXLAN decapsulation tests
-------------------------------------------------------
-
-To run VXLAN decapsulation tests:
-
-1. Set the following variables in your user_settings.py file:
-
- .. code-block:: python
-
- PATHS['vswitch']['OvsVanilla']['src']['modules'] = [
- 'vport_vxlan',
- 'datapath/linux/openvswitch.ko',
- ]
-
- DUT_NIC1_MAC = '<DUT NIC1 MAC ADDRESS>'
-
- TRAFFICGEN_PORT1_IP = '172.16.1.2'
- TRAFFICGEN_PORT2_IP = '192.168.1.11'
-
- VTEP_IP1 = '172.16.1.2/24'
- VTEP_IP2 = '192.168.1.1'
- VTEP_IP2_SUBNET = '192.168.1.0/24'
- TUNNEL_EXTERNAL_BRIDGE_IP = '172.16.1.1/24'
- TUNNEL_INT_BRIDGE_IP = '192.168.1.1'
-
- VXLAN_FRAME_L2 = {'srcmac':
- '01:02:03:04:05:06',
- 'dstmac': DUT_NIC1_MAC
- }
-
- VXLAN_FRAME_L3 = {'proto': 'udp',
- 'packetsize': 64,
- 'srcip': TRAFFICGEN_PORT1_IP,
- 'dstip': '172.16.1.1',
- }
-
- VXLAN_FRAME_L4 = {
- 'srcport': 4789,
- 'dstport': 4789,
- 'protocolpad': 'true',
- 'vni': 99,
- 'inner_srcmac': '01:02:03:04:05:06',
- 'inner_dstmac': '06:05:04:03:02:01',
- 'inner_srcip': '192.168.1.2',
- 'inner_dstip': TRAFFICGEN_PORT2_IP,
- 'inner_proto': 'udp',
- 'inner_srcport': 3000,
- 'inner_dstport': 3001,
- }
-
- **NOTE:** In case, that Vanilla OVS is installed from binary package, then
- please set ``PATHS['vswitch']['OvsVanilla']['bin']['modules']`` instead.
-
-2. Run test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'tunnel_type=vxlan' overlay_p2p_decap_cont
-
-Executing Native/Vanilla OVS GRE decapsulation tests
-----------------------------------------------------
-
-To run GRE decapsulation tests:
-
-1. Set the following variables in your user_settings.py file:
-
- .. code-block:: python
-
- PATHS['vswitch']['OvsVanilla']['src']['modules'] = [
- 'vport_gre',
- 'datapath/linux/openvswitch.ko',
- ]
-
- DUT_NIC1_MAC = '<DUT NIC1 MAC ADDRESS>'
-
- TRAFFICGEN_PORT1_IP = '172.16.1.2'
- TRAFFICGEN_PORT2_IP = '192.168.1.11'
-
- VTEP_IP1 = '172.16.1.2/24'
- VTEP_IP2 = '192.168.1.1'
- VTEP_IP2_SUBNET = '192.168.1.0/24'
- TUNNEL_EXTERNAL_BRIDGE_IP = '172.16.1.1/24'
- TUNNEL_INT_BRIDGE_IP = '192.168.1.1'
-
- GRE_FRAME_L2 = {'srcmac':
- '01:02:03:04:05:06',
- 'dstmac': DUT_NIC1_MAC
- }
-
- GRE_FRAME_L3 = {'proto': 'udp',
- 'packetsize': 64,
- 'srcip': TRAFFICGEN_PORT1_IP,
- 'dstip': '172.16.1.1',
- }
-
- GRE_FRAME_L4 = {
- 'srcport': 4789,
- 'dstport': 4789,
- 'protocolpad': 'true',
- 'inner_srcmac': '01:02:03:04:05:06',
- 'inner_dstmac': '06:05:04:03:02:01',
- 'inner_srcip': '192.168.1.2',
- 'inner_dstip': TRAFFICGEN_PORT2_IP,
- 'inner_proto': 'udp',
- 'inner_srcport': 3000,
- 'inner_dstport': 3001,
- }
-
- **NOTE:** In case, that Vanilla OVS is installed from binary package, then
- please set ``PATHS['vswitch']['OvsVanilla']['bin']['modules']`` instead.
-
-2. Run test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'tunnel_type=gre' overlay_p2p_decap_cont
-
-Executing Native/Vanilla OVS GENEVE decapsulation tests
--------------------------------------------------------
-
-To run GENEVE decapsulation tests:
-
-1. Set the following variables in your user_settings.py file:
-
- .. code-block:: python
-
- PATHS['vswitch']['OvsVanilla']['src']['modules'] = [
- 'vport_geneve',
- 'datapath/linux/openvswitch.ko',
- ]
-
- DUT_NIC1_MAC = '<DUT NIC1 MAC ADDRESS>'
-
- TRAFFICGEN_PORT1_IP = '172.16.1.2'
- TRAFFICGEN_PORT2_IP = '192.168.1.11'
-
- VTEP_IP1 = '172.16.1.2/24'
- VTEP_IP2 = '192.168.1.1'
- VTEP_IP2_SUBNET = '192.168.1.0/24'
- TUNNEL_EXTERNAL_BRIDGE_IP = '172.16.1.1/24'
- TUNNEL_INT_BRIDGE_IP = '192.168.1.1'
-
- GENEVE_FRAME_L2 = {'srcmac':
- '01:02:03:04:05:06',
- 'dstmac': DUT_NIC1_MAC
- }
-
- GENEVE_FRAME_L3 = {'proto': 'udp',
- 'packetsize': 64,
- 'srcip': TRAFFICGEN_PORT1_IP,
- 'dstip': '172.16.1.1',
- }
-
- GENEVE_FRAME_L4 = {'srcport': 6081,
- 'dstport': 6081,
- 'protocolpad': 'true',
- 'geneve_vni': 0,
- 'inner_srcmac': '01:02:03:04:05:06',
- 'inner_dstmac': '06:05:04:03:02:01',
- 'inner_srcip': '192.168.1.2',
- 'inner_dstip': TRAFFICGEN_PORT2_IP,
- 'inner_proto': 'udp',
- 'inner_srcport': 3000,
- 'inner_dstport': 3001,
- }
-
- **NOTE:** In case, that Vanilla OVS is installed from binary package, then
- please set ``PATHS['vswitch']['OvsVanilla']['bin']['modules']`` instead.
-
-2. Run test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- --test-params 'tunnel_type=geneve' overlay_p2p_decap_cont
-
-
-Executing Tunnel encapsulation+decapsulation tests
---------------------------------------------------
-
-The OVS DPDK encapsulation_decapsulation tests requires IPs, MAC addresses,
-bridge names and WHITELIST_NICS for DPDK.
-
-The test cases can test the tunneling encap and decap without using any ingress
-overlay traffic as compared to above test cases. To achieve this the OVS is
-configured to perform encap and decap in a series on the same traffic stream as
-given below.
-
-TRAFFIC-IN --> [ENCAP] --> [MOD-PKT] --> [DECAP] --> TRAFFIC-OUT
-
-
-Default values are already provided. To customize for your environment, override
-the following variables in you user_settings.py file:
-
- .. code-block:: python
-
- # Variables defined in conf/integration/02_vswitch.conf
-
- # Bridge names
- TUNNEL_EXTERNAL_BRIDGE1 = 'br-phy1'
- TUNNEL_EXTERNAL_BRIDGE2 = 'br-phy2'
- TUNNEL_MODIFY_BRIDGE1 = 'br-mod1'
- TUNNEL_MODIFY_BRIDGE2 = 'br-mod2'
-
- # IP of br-mod1
- TUNNEL_MODIFY_BRIDGE_IP1 = '10.0.0.1/24'
-
- # Mac of br-mod1
- TUNNEL_MODIFY_BRIDGE_MAC1 = '00:00:10:00:00:01'
-
- # IP of br-mod2
- TUNNEL_MODIFY_BRIDGE_IP2 = '20.0.0.1/24'
-
- #Mac of br-mod2
- TUNNEL_MODIFY_BRIDGE_MAC2 = '00:00:20:00:00:01'
-
- # vxlan|gre|geneve, Only VXLAN is supported for now.
- TUNNEL_TYPE = 'vxlan'
-
-To run VXLAN encapsulation+decapsulation tests:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration \
- overlay_p2p_mod_tput
diff --git a/docs/userguide/teststeps.rst b/docs/userguide/teststeps.rst
deleted file mode 100644
index 4e6c0808..00000000
--- a/docs/userguide/teststeps.rst
+++ /dev/null
@@ -1,665 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Intel Corporation, AT&T and others.
-
-Step driven tests
-=================
-
-In general, test scenarios are defined by a ``deployment`` used in the particular
-test case definition. The chosen deployment scenario will take care of the vSwitch
-configuration, deployment of VNFs and it can also affect configuration of a traffic
-generator. In order to allow a more flexible way of testcase scripting, VSPERF supports
-a detailed step driven testcase definition. It can be used to configure and
-program vSwitch, deploy and terminate VNFs, execute a traffic generator,
-modify a VSPERF configuration, execute external commands, etc.
-
-Execution of step driven tests is done on a step by step work flow starting
-with step 0 as defined inside the test case. Each step of the test increments
-the step number by one which is indicated in the log.
-
-.. code-block:: console
-
- (testcases.integration) - Step 0 'vswitch add_vport ['br0']' start
-
-Step driven tests can be used for both performance and integration testing.
-In case of integration test, each step in the test case is validated. If a step
-does not pass validation the test will fail and terminate. The test will continue
-until a failure is detected or all steps pass. A csv report file is generated after
-a test completes with an OK or FAIL result.
-
-In case of performance test, the validation of steps is not performed and
-standard output files with results from traffic generator and underlying OS
-details are generated by vsperf.
-
-Step driven testcases can be used in two different ways:
-
- # description of full testcase - in this case ``clean`` deployment is used
- to indicate that vsperf should neither configure vSwitch nor deploy any VNF.
- Test shall perform all required vSwitch configuration and programming and
- deploy required number of VNFs.
-
- # modification of existing deployment - in this case, any of supported
- deployments can be used to perform initial vSwitch configuration and
- deployment of VNFs. Additional actions defined by TestSteps can be used
- to alter vSwitch configuration or deploy additional VNFs. After the last
- step is processed, the test execution will continue with traffic execution.
-
-Test objects and their functions
---------------------------------
-
-Every test step can call a function of one of the supported test objects. The list
-of supported objects and their most common functions follows:
-
- * ``vswitch`` - provides functions for vSwitch configuration
-
- List of supported functions:
-
- * ``add_switch br_name`` - creates a new switch (bridge) with given ``br_name``
- * ``del_switch br_name`` - deletes switch (bridge) with given ``br_name``
- * ``add_phy_port br_name`` - adds a physical port into bridge specified by ``br_name``
- * ``add_vport br_name`` - adds a virtual port into bridge specified by ``br_name``
- * ``del_port br_name port_name`` - removes physical or virtual port specified by
- ``port_name`` from bridge ``br_name``
- * ``add_flow br_name flow`` - adds flow specified by ``flow`` dictionary into
- the bridge ``br_name``; Content of flow dictionary will be passed to the vSwitch.
- In case of Open vSwitch it will be passed to the ``ovs-ofctl add-flow`` command.
- Please see Open vSwitch documentation for the list of supported flow parameters.
- * ``del_flow br_name [flow]`` - deletes flow specified by ``flow`` dictionary from
- bridge ``br_name``; In case that optional parameter ``flow`` is not specified
- or set to an empty dictionary ``{}``, then all flows from bridge ``br_name``
- will be deleted.
- * ``dump_flows br_name`` - dumps all flows from bridge specified by ``br_name``
- * ``enable_stp br_name`` - enables Spanning Tree Protocol for bridge ``br_name``
- * ``disable_stp br_name`` - disables Spanning Tree Protocol for bridge ``br_name``
- * ``enable_rstp br_name`` - enables Rapid Spanning Tree Protocol for bridge ``br_name``
- * ``disable_rstp br_name`` - disables Rapid Spanning Tree Protocol for bridge ``br_name``
-
- Examples:
-
- .. code-block:: python
-
- ['vswitch', 'add_switch', 'int_br0']
-
- ['vswitch', 'del_switch', 'int_br0']
-
- ['vswitch', 'add_phy_port', 'int_br0']
-
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]']
-
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '1', 'actions': ['output:2'],
- 'idle_timeout': '0'}],
-
- ['vswitch', 'enable_rstp', 'int_br0']
-
- * ``vnf[ID]`` - provides functions for deployment and termination of VNFs; Optional
- alfanumerical ``ID`` is used for VNF identification in case that testcase
- deploys multiple VNFs.
-
- List of supported functions:
-
- * ``start`` - starts a VNF based on VSPERF configuration
- * ``stop`` - gracefully terminates given VNF
-
- Examples:
-
- .. code-block:: python
-
- ['vnf1', 'start']
- ['vnf2', 'start']
- ['vnf2', 'stop']
- ['vnf1', 'stop']
-
- * ``trafficgen`` - triggers traffic generation
-
- List of supported functions:
-
- * ``send_traffic traffic`` - starts a traffic based on the vsperf configuration
- and given ``traffic`` dictionary. More details about ``traffic`` dictionary
- and its possible values are available at :ref:`Traffic Generator Integration Guide
- <step-5-supported-traffic-types>`
-
- Examples:
-
- .. code-block:: python
-
- ['trafficgen', 'send_traffic', {'traffic_type' : 'rfc2544_throughput'}]
-
- ['trafficgen', 'send_traffic', {'traffic_type' : 'rfc2544_back2back', 'bidir' : 'True'}]
-
- * ``settings`` - reads or modifies VSPERF configuration
-
- List of supported functions:
-
- * ``getValue param`` - returns value of given ``param``
- * ``setValue param value`` - sets value of ``param`` to given ``value``
-
- Examples:
-
- .. code-block:: python
-
- ['settings', 'getValue', 'TOOLS']
-
- ['settings', 'setValue', 'GUEST_USERNAME', ['root']]
-
- * ``namespace`` - creates or modifies network namespaces
-
- List of supported functions:
-
- * ``create_namespace name`` - creates new namespace with given ``name``
- * ``delete_namespace name`` - deletes namespace specified by its ``name``
- * ``assign_port_to_namespace port name [port_up]`` - assigns NIC specified by ``port``
- into given namespace ``name``; If optional parameter ``port_up`` is set to ``True``,
- then port will be brought up.
- * ``add_ip_to_namespace_eth port name addr cidr`` - assigns an IP address ``addr``/``cidr``
- to the NIC specified by ``port`` within namespace ``name``
- * ``reset_port_to_root port name`` - returns given ``port`` from namespace ``name`` back
- to the root namespace
-
- Examples:
-
- .. code-block:: python
-
- ['namespace', 'create_namespace', 'testns']
-
- ['namespace', 'assign_port_to_namespace', 'eth0', 'testns']
-
- * ``veth`` - manipulates with eth and veth devices
-
- List of supported functions:
-
- * ``add_veth_port port peer_port`` - adds a pair of veth ports named ``port`` and
- ``peer_port``
- * ``del_veth_port port peer_port`` - deletes a veth port pair specified by ``port``
- and ``peer_port``
- * ``bring_up_eth_port eth_port [namespace]`` - brings up ``eth_port`` in (optional)
- ``namespace``
-
- Examples:
-
- .. code-block:: python
-
- ['veth', 'add_veth_port', 'veth', 'veth1']
-
- ['veth', 'bring_up_eth_port', 'eth1']
-
- * ``tools`` - provides a set of helper functions
-
- List of supported functions:
-
- * ``Assert condition`` - evaluates given ``condition`` and raises ``AssertionError``
- in case that condition is not ``True``
- * ``Eval expression`` - evaluates given expression as a python code and returns
- its result
- * ``Exec command [regex]`` - executes a shell command and filters its output by
- (optional) regular expression
-
- Examples:
-
- .. code-block:: python
-
- ['tools', 'exec', 'numactl -H', 'available: ([0-9]+)']
- ['tools', 'assert', '#STEP[-1][0]>1']
-
- * ``wait`` - is used for test case interruption. This object doesn't have
- any functions. Once reached, vsperf will pause test execution and waits
- for press of ``Enter key``. It can be used during testcase design
- for debugging purposes.
-
- Examples:
-
- .. code-block:: python
-
- ['wait']
-
-Test Macros
------------
-
-Test profiles can include macros as part of the test step. Each step in the
-profile may return a value such as a port name. Recall macros use #STEP to
-indicate the recalled value inside the return structure. If the method the
-test step calls returns a value it can be later recalled, for example:
-
-.. code-block:: python
-
- {
- "Name": "vswitch_add_del_vport",
- "Deployment": "clean",
- "Description": "vSwitch - add and delete virtual port",
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_vport', 'int_br0'], # STEP 1
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'], # STEP 2
- ['vswitch', 'del_switch', 'int_br0'], # STEP 3
- ]
- }
-
-This test profile uses the vswitch add_vport method which returns a string
-value of the port added. This is later called by the del_port method using the
-name from step 1.
-
-It is also possible to use negative indexes in step macros. In that case
-``#STEP[-1]`` will refer to the result from previous step, ``#STEP[-2]``
-will refer to result of step called before previous step, etc. It means,
-that you could change ``STEP 2`` from previous example to achieve the same
-functionality:
-
-.. code-block:: python
-
- ['vswitch', 'del_port', 'int_br0', '#STEP[-1][0]'], # STEP 2
-
-Also commonly used steps can be created as a separate profile.
-
-.. code-block:: python
-
- STEP_VSWITCH_PVP_INIT = [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- ['vswitch', 'add_vport', 'int_br0'], # STEP 3
- ['vswitch', 'add_vport', 'int_br0'], # STEP 4
- ]
-
-This profile can then be used inside other testcases
-
-.. code-block:: python
-
- {
- "Name": "vswitch_pvp",
- "Deployment": "clean",
- "Description": "vSwitch - configure switch and one vnf",
- "TestSteps": STEP_VSWITCH_PVP_INIT +
- [
- ['vnf', 'start'],
- ['vnf', 'stop'],
- ] +
- STEP_VSWITCH_PVP_FINIT
- }
-
-HelloWorld and other basic Testcases
-------------------------------------
-
-The following examples are for demonstration purposes.
-You can run them by copying and pasting into the
-conf/integration/01_testcases.conf file.
-A command-line instruction is shown at the end of each
-example.
-
-HelloWorld
-^^^^^^^^^^
-
-The first example is a HelloWorld testcase.
-It simply creates a bridge with 2 physical ports, then sets up a flow to drop
-incoming packets from the port that was instantiated at the STEP #1.
-There's no interaction with the traffic generator.
-Then the flow, the 2 ports and the bridge are deleted.
-'add_phy_port' method creates a 'dpdk' type interface that will manage the
-physical port. The string value returned is the port name that will be referred
-by 'del_port' later on.
-
-.. code-block:: python
-
- {
- "Name": "HelloWorld",
- "Description": "My first testcase",
- "Deployment": "clean",
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'actions': ['drop'], 'idle_timeout': '0'}],
- ['vswitch', 'del_flow', 'int_br0'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
- ['vswitch', 'del_switch', 'int_br0'],
- ]
-
- },
-
-To run HelloWorld test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration HelloWorld
-
-Specify a Flow by the IP address
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-The next example shows how to explicitly set up a flow by specifying a
-destination IP address.
-All packets received from the port created at STEP #1 that have a destination
-IP address = 90.90.90.90 will be forwarded to the port created at the STEP #2.
-
-.. code-block:: python
-
- {
- "Name": "p2p_rule_l3da",
- "Description": "Phy2Phy with rule on L3 Dest Addr",
- "Deployment": "clean",
- "biDirectional": "False",
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_dst': '90.90.90.90', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- ['trafficgen', 'send_traffic', \
- {'traffic_type' : 'rfc2544_continuous'}],
- ['vswitch', 'dump_flows', 'int_br0'], # STEP 5
- ['vswitch', 'del_flow', 'int_br0'], # STEP 7 == del-flows
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
- ['vswitch', 'del_switch', 'int_br0'],
- ]
- },
-
-To run the test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration p2p_rule_l3da
-
-Multistream feature
-^^^^^^^^^^^^^^^^^^^
-
-The next testcase uses the multistream feature.
-The traffic generator will send packets with different UDP ports.
-That is accomplished by using "Stream Type" and "MultiStream" keywords.
-4 different flows are set to forward all incoming packets.
-
-.. code-block:: python
-
- {
- "Name": "multistream_l4",
- "Description": "Multistream on UDP ports",
- "Deployment": "clean",
- "Parameters": {
- 'TRAFFIC' : {
- "multistream": 4,
- "stream_type": "L4",
- },
- },
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- # Setup Flows
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '0', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '1', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '2', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '3', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- # Send mono-dir traffic
- ['trafficgen', 'send_traffic', \
- {'traffic_type' : 'rfc2544_continuous', \
- 'bidir' : 'False'}],
- # Clean up
- ['vswitch', 'del_flow', 'int_br0'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
- ['vswitch', 'del_switch', 'int_br0'],
- ]
- },
-
-To run the test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration multistream_l4
-
-PVP with a VM Replacement
-^^^^^^^^^^^^^^^^^^^^^^^^^
-
-This example launches a 1st VM in a PVP topology, then the VM is replaced
-by another VM.
-When VNF setup parameter in ./conf/04_vnf.conf is "QemuDpdkVhostUser"
-'add_vport' method creates a 'dpdkvhostuser' type port to connect a VM.
-
-.. code-block:: python
-
- {
- "Name": "ex_replace_vm",
- "Description": "PVP with VM replacement",
- "Deployment": "clean",
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- ['vswitch', 'add_vport', 'int_br0'], # STEP 3 vm1
- ['vswitch', 'add_vport', 'int_br0'], # STEP 4
-
- # Setup Flows
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[4][1]', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[2][1]', \
- 'actions': ['output:#STEP[4][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[3][1]', \
- 'actions': ['output:#STEP[1][1]'], 'idle_timeout': '0'}],
-
- # Start VM 1
- ['vnf1', 'start'],
- # Now we want to replace VM 1 with another VM
- ['vnf1', 'stop'],
-
- ['vswitch', 'add_vport', 'int_br0'], # STEP 11 vm2
- ['vswitch', 'add_vport', 'int_br0'], # STEP 12
- ['vswitch', 'del_flow', 'int_br0'],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'actions': ['output:#STEP[11][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[12][1]', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
-
- # Start VM 2
- ['vnf2', 'start'],
- ['vnf2', 'stop'],
- ['vswitch', 'dump_flows', 'int_br0'],
-
- # Clean up
- ['vswitch', 'del_flow', 'int_br0'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[3][0]'], # vm1
- ['vswitch', 'del_port', 'int_br0', '#STEP[4][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[11][0]'], # vm2
- ['vswitch', 'del_port', 'int_br0', '#STEP[12][0]'],
- ['vswitch', 'del_switch', 'int_br0'],
- ]
- },
-
-To run the test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration ex_replace_vm
-
-VM with a Linux bridge
-^^^^^^^^^^^^^^^^^^^^^^
-
-This example setups a PVP topology and routes traffic to the VM based on
-the destination IP address. A command-line parameter is used to select a Linux
-bridge as a guest loopback application. It is also possible to select a guest
-loopback application by a configuration option ``GUEST_LOOPBACK``.
-
-.. code-block:: python
-
- {
- "Name": "ex_pvp_rule_l3da",
- "Description": "PVP with flow on L3 Dest Addr",
- "Deployment": "clean",
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- ['vswitch', 'add_vport', 'int_br0'], # STEP 3 vm1
- ['vswitch', 'add_vport', 'int_br0'], # STEP 4
- # Setup Flows
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_dst': '90.90.90.90', \
- 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
- # Each pkt from the VM is forwarded to the 2nd dpdk port
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[4][1]', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- # Start VMs
- ['vnf1', 'start'],
- ['trafficgen', 'send_traffic', \
- {'traffic_type' : 'rfc2544_continuous', \
- 'bidir' : 'False'}],
- ['vnf1', 'stop'],
- # Clean up
- ['vswitch', 'dump_flows', 'int_br0'], # STEP 10
- ['vswitch', 'del_flow', 'int_br0'], # STEP 11
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[3][0]'], # vm1 ports
- ['vswitch', 'del_port', 'int_br0', '#STEP[4][0]'],
- ['vswitch', 'del_switch', 'int_br0'],
- ]
- },
-
-To run the test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --test-params \
- "GUEST_LOOPBACK=['linux_bridge']" --integration ex_pvp_rule_l3da
-
-Forward packets based on UDP port
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-This examples launches 2 VMs connected in parallel.
-Incoming packets will be forwarded to one specific VM depending on the
-destination UDP port.
-
-.. code-block:: python
-
- {
- "Name": "ex_2pvp_rule_l4dp",
- "Description": "2 PVP with flows on L4 Dest Port",
- "Deployment": "clean",
- "Parameters": {
- 'TRAFFIC' : {
- "multistream": 2,
- "stream_type": "L4",
- },
- },
- "TestSteps": [
- ['vswitch', 'add_switch', 'int_br0'], # STEP 0
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
- ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
- ['vswitch', 'add_vport', 'int_br0'], # STEP 3 vm1
- ['vswitch', 'add_vport', 'int_br0'], # STEP 4
- ['vswitch', 'add_vport', 'int_br0'], # STEP 5 vm2
- ['vswitch', 'add_vport', 'int_br0'], # STEP 6
- # Setup Flows to reply ICMPv6 and similar packets, so to
- # avoid flooding internal port with their re-transmissions
- ['vswitch', 'add_flow', 'int_br0', \
- {'priority': '1', 'dl_src': '00:00:00:00:00:01', \
- 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', \
- {'priority': '1', 'dl_src': '00:00:00:00:00:02', \
- 'actions': ['output:#STEP[4][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', \
- {'priority': '1', 'dl_src': '00:00:00:00:00:03', \
- 'actions': ['output:#STEP[5][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', \
- {'priority': '1', 'dl_src': '00:00:00:00:00:04', \
- 'actions': ['output:#STEP[6][1]'], 'idle_timeout': '0'}],
- # Forward UDP packets depending on dest port
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '0', \
- 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
- 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '1', \
- 'actions': ['output:#STEP[5][1]'], 'idle_timeout': '0'}],
- # Send VM output to phy port #2
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[4][1]', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[6][1]', \
- 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
- # Start VMs
- ['vnf1', 'start'], # STEP 16
- ['vnf2', 'start'], # STEP 17
- ['trafficgen', 'send_traffic', \
- {'traffic_type' : 'rfc2544_continuous', \
- 'bidir' : 'False'}],
- ['vnf1', 'stop'],
- ['vnf2', 'stop'],
- ['vswitch', 'dump_flows', 'int_br0'],
- # Clean up
- ['vswitch', 'del_flow', 'int_br0'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[3][0]'], # vm1 ports
- ['vswitch', 'del_port', 'int_br0', '#STEP[4][0]'],
- ['vswitch', 'del_port', 'int_br0', '#STEP[5][0]'], # vm2 ports
- ['vswitch', 'del_port', 'int_br0', '#STEP[6][0]'],
- ['vswitch', 'del_switch', 'int_br0'],
- ]
- },
-
-To run the test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py --integration ex_2pvp_rule_l4dp
-
-Modification of existing PVVP deployment
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-This is an example of modification of a standard deployment scenario with additional TestSteps.
-Standard PVVP scenario is used to configure a vSwitch and to deploy two VNFs connected
-in series. Additional TestSteps will deploy a 3rd VNF and connect it in parallel to
-already configured VNFs. Traffic generator is instructed (by Multistream feature) to send
-two separate traffic streams. One stream will be sent to the standalone VNF and second
-to two chained VNFs.
-
-In case, that test is defined as a performance test, then traffic results will be collected
-and available in both csv and rst report files.
-
-.. code-block:: python
-
- {
- "Name": "pvvp_pvp_cont",
- "Deployment": "pvvp",
- "Description": "PVVP and PVP in parallel with Continuous Stream",
- "Parameters" : {
- "TRAFFIC" : {
- "traffic_type" : "rfc2544_continuous",
- "multistream": 2,
- },
- },
- "TestSteps": [
- ['vswitch', 'add_vport', 'br0'],
- ['vswitch', 'add_vport', 'br0'],
- # priority must be higher than default 32768, otherwise flows won't match
- ['vswitch', 'add_flow', 'br0',
- {'in_port': '1', 'actions': ['output:#STEP[-2][1]'], 'idle_timeout': '0', 'dl_type':'0x0800',
- 'nw_proto':'17', 'tp_dst':'0', 'priority': '33000'}],
- ['vswitch', 'add_flow', 'br0',
- {'in_port': '2', 'actions': ['output:#STEP[-2][1]'], 'idle_timeout': '0', 'dl_type':'0x0800',
- 'nw_proto':'17', 'tp_dst':'0', 'priority': '33000'}],
- ['vswitch', 'add_flow', 'br0', {'in_port': '#STEP[-4][1]', 'actions': ['output:1'],
- 'idle_timeout': '0'}],
- ['vswitch', 'add_flow', 'br0', {'in_port': '#STEP[-4][1]', 'actions': ['output:2'],
- 'idle_timeout': '0'}],
- ['vswitch', 'dump_flows', 'br0'],
- ['vnf1', 'start'],
- ]
- },
-
-To run the test:
-
- .. code-block:: console
-
- ./vsperf --conf-file user_settings.py pvvp_pvp_cont
-
diff --git a/docs/userguide/testusage.rst b/docs/userguide/testusage.rst
deleted file mode 100644
index 0055164e..00000000
--- a/docs/userguide/testusage.rst
+++ /dev/null
@@ -1,809 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Intel Corporation, AT&T and others.
-
-vSwitchPerf test suites userguide
----------------------------------
-
-General
-^^^^^^^
-
-VSPERF requires a traffic generators to run tests, automated traffic gen
-support in VSPERF includes:
-
-- IXIA traffic generator (IxNetwork hardware) and a machine that runs the IXIA
- client software.
-- Spirent traffic generator (TestCenter hardware chassis or TestCenter virtual
- in a VM) and a VM to run the Spirent Virtual Deployment Service image,
- formerly known as "Spirent LabServer".
-- Xena Network traffic generator (Xena hardware chassis) that houses the Xena
- Traffic generator modules.
-- Moongen software traffic generator. Requires a separate machine running
- moongen to execute packet generation.
-
-If you want to use another traffic generator, please select the :ref:`trafficgen-dummy`
-generator.
-
-VSPERF Installation
-^^^^^^^^^^^^^^^^^^^
-
-To see the supported Operating Systems, vSwitches and system requirements,
-please follow the `installation instructions <vsperf-installation>`.
-
-Traffic Generator Setup
-^^^^^^^^^^^^^^^^^^^^^^^
-
-Follow the `Traffic generator instructions <trafficgen-installation>` to
-install and configure a suitable traffic generator.
-
-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-block:: console
-
- $ cd src
- $ make
-
-VSPERF can be used with stock OVS (without DPDK support). When build
-is finished, the libraries are stored in src_vanilla directory.
-
-The 'make' builds all options in src:
-
-* Vanilla OVS
-* OVS with vhost_user as the guest access method (with DPDK support)
-
-The vhost_user build will reside in src/ovs/
-The Vanilla OVS build will reside in vswitchperf/src_vanilla
-
-To delete a src subdirectory and its contents to allow you to re-clone simply
-use:
-
-.. code-block:: console
-
- $ make clobber
-
-Configure the ``./conf/10_custom.conf`` file
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-The ``10_custom.conf`` file is the configuration file that overrides
-default configurations in all the other configuration files in ``./conf``
-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.
-
-Further details about configuration files evaluation and special behaviour
-of options with ``GUEST_`` prefix could be found at :ref:`design document
-<design-configuration>`.
-
-Using a custom settings file
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-If your ``10_custom.conf`` doesn't reside in the ``./conf`` directory
-of if you want to use an alternative configuration file, the file can
-be passed to ``vsperf`` via the ``--conf-file`` argument.
-
-.. code-block:: console
-
- $ ./vsperf --conf-file <path_to_custom_conf> ...
-
-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. Testcase definition section ``Parameters``
-2. Command line arguments
-3. Environment variables
-4. Configuration file(s)
-
-Further details about configuration files evaluation and special behaviour
-of options with ``GUEST_`` prefix could be found at :ref:`design document
-<design-configuration>`.
-
-.. _overriding-parameters-documentation:
-
-Overriding values defined in configuration files
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-The configuration items can be overridden by command line argument
-``--test-params``. In this case, the configuration items and
-their values should be passed in form of ``item=value`` and separated
-by semicolon.
-
-Example:
-
-.. code:: console
-
- $ ./vsperf --test-params "TRAFFICGEN_DURATION=10;TRAFFICGEN_PKT_SIZES=(128,);" \
- "GUEST_LOOPBACK=['testpmd','l2fwd']" pvvp_tput
-
-The second option is to override configuration items by ``Parameters`` section
-of the test case definition. The configuration items can be added into ``Parameters``
-dictionary with their new values. These values will override values defined in
-configuration files or specified by ``--test-params`` command line argument.
-
-Example:
-
-.. code:: python
-
- "Parameters" : {'TRAFFICGEN_PKT_SIZES' : (128,),
- 'TRAFFICGEN_DURATION' : 10,
- 'GUEST_LOOPBACK' : ['testpmd','l2fwd'],
- }
-
-**NOTE:** In both cases, configuration item names and their values must be specified
-in the same form as they are defined inside configuration files. Parameter names
-must be specified in uppercase and data types of original and new value must match.
-Python syntax rules related to data types and structures must be followed.
-For example, parameter ``TRAFFICGEN_PKT_SIZES`` above is defined as a tuple
-with a single value ``128``. In this case trailing comma is mandatory, otherwise
-value can be wrongly interpreted as a number instead of a tuple and vsperf
-execution would fail. Please check configuration files for default values and their
-types and use them as a basis for any customized values. In case of any doubt, please
-check official python documentation related to data structures like tuples, lists
-and dictionaries.
-
-**NOTE:** Vsperf execution will terminate with runtime error in case, that unknown
-parameter name is passed via ``--test-params`` CLI argument or defined in ``Parameters``
-section of test case definition. It is also forbidden to redefine a value of
-``TEST_PARAMS`` configuration item via CLI or ``Parameters`` section.
-
-vloop_vnf
-^^^^^^^^^
-
-VSPERF uses a VM image called vloop_vnf for looping traffic in the deployment
-scenarios involving VMs. The image can be downloaded from
-`<http://artifacts.opnfv.org/>`__.
-
-Please see the installation instructions for information on :ref:`vloop-vnf`
-images.
-
-.. _l2fwd-module:
-
-l2fwd Kernel Module
-^^^^^^^^^^^^^^^^^^^
-
-A Kernel Module that provides OSI Layer 2 Ipv4 termination or forwarding with
-support for Destination Network Address Translation (DNAT) for both the MAC and
-IP addresses. l2fwd can be found in <vswitchperf_dir>/src/l2fwd
-
-Executing tests
-^^^^^^^^^^^^^^^
-
-All examples inside these docs assume, that user is inside the VSPERF
-directory. VSPERF can be executed from any directory.
-
-Before running any tests make sure you have root permissions by adding
-the following line to /etc/sudoers:
-
-.. code-block:: console
-
- username ALL=(ALL) NOPASSWD: ALL
-
-username in the example above should be replaced with a real username.
-
-To list the available tests:
-
-.. code-block:: console
-
- $ ./vsperf --list
-
-To run a single test:
-
-.. code-block:: console
-
- $ ./vsperf $TESTNAME
-
-Where $TESTNAME is the name of the vsperf test you would like to run.
-
-To run a group of tests, for example all tests with a name containing
-'RFC2544':
-
-.. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf --tests="RFC2544"
-
-To run all tests:
-
-.. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf
-
-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-params "TRAFFICGEN_DURATION=10;TRAFFICGEN_PKT_SIZES=(128,)"
-
-For all available options, check out the help dialog:
-
-.. code-block:: console
-
- $ ./vsperf --help
-
-Executing Vanilla OVS tests
-^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-1. If needed, recompile src for all OVS variants
-
- .. code-block:: console
-
- $ cd src
- $ make distclean
- $ make
-
-2. Update your ``10_custom.conf`` file to use Vanilla OVS:
-
- .. code-block:: python
-
- VSWITCH = 'OvsVanilla'
-
-3. Run test:
-
- .. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>
-
- Please note if you don't want to configure Vanilla OVS through the
- configuration file, you can pass it as a CLI argument.
-
- .. code-block:: console
-
- $ ./vsperf --vswitch OvsVanilla
-
-
-Executing tests with VMs
-^^^^^^^^^^^^^^^^^^^^^^^^
-
-To run tests using vhost-user as guest access method:
-
-1. Set VHOST_METHOD and VNF of your settings file to:
-
- .. code-block:: python
-
- VSWITCH = 'OvsDpdkVhost'
- VNF = 'QemuDpdkVhost'
-
-2. If needed, recompile src for all OVS variants
-
- .. code-block:: console
-
- $ cd src
- $ make distclean
- $ make
-
-3. Run test:
-
- .. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf
-
-Executing tests with VMs using Vanilla OVS
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-To run tests using Vanilla OVS:
-
-1. Set the following variables:
-
- .. code-block:: python
-
- VSWITCH = 'OvsVanilla'
- VNF = 'QemuVirtioNet'
-
- VANILLA_TGEN_PORT1_IP = n.n.n.n
- VANILLA_TGEN_PORT1_MAC = nn:nn:nn:nn:nn:nn
-
- VANILLA_TGEN_PORT2_IP = n.n.n.n
- VANILLA_TGEN_PORT2_MAC = nn:nn:nn:nn:nn:nn
-
- VANILLA_BRIDGE_IP = n.n.n.n
-
- or use ``--test-params`` option
-
- .. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf \
- --test-params "VANILLA_TGEN_PORT1_IP=n.n.n.n;" \
- "VANILLA_TGEN_PORT1_MAC=nn:nn:nn:nn:nn:nn;" \
- "VANILLA_TGEN_PORT2_IP=n.n.n.n;" \
- "VANILLA_TGEN_PORT2_MAC=nn:nn:nn:nn:nn:nn"
-
-2. If needed, recompile src for all OVS variants
-
- .. code-block:: console
-
- $ cd src
- $ make distclean
- $ make
-
-3. Run test:
-
- .. code-block:: console
-
- $ ./vsperf --conf-file<path_to_custom_conf>/10_custom.conf
-
-.. _vfio-pci:
-
-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 = ['0000:05:00.0|vf0', '0000:05:00.1|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.
-
-.. _PCI-passthrough:
-
-Using QEMU with PCI passthrough support
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-Raw virtual machine throughput performance can be measured by execution of PVP
-test with direct access to NICs by PCI passthrough. To execute VM with direct
-access to PCI devices, enable vfio-pci_. In order to use virtual functions,
-SRIOV-support_ must be enabled.
-
-Execution of test with PCI passthrough with vswitch disabled:
-
-.. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf \
- --vswitch none --vnf QemuPciPassthrough pvp_tput
-
-Any of supported guest-loopback-application_ can be used inside VM with
-PCI passthrough support.
-
-Note: Qemu with PCI passthrough support can be used only with PVP test
-deployment.
-
-.. _guest-loopback-application:
-
-Selection of loopback application for tests with VMs
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-To select the loopback applications which will forward packets inside VMs,
-the following parameter should be configured:
-
-.. code-block:: python
-
- GUEST_LOOPBACK = ['testpmd']
-
-or use ``--test-params`` CLI argument:
-
-.. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf \
- --test-params "GUEST_LOOPBACK=['testpmd']"
-
-Supported loopback applications are:
-
-.. code-block:: console
-
- 'testpmd' - testpmd from dpdk will be built and used
- 'l2fwd' - l2fwd module provided by Huawei will be built and used
- 'linux_bridge' - linux bridge will be configured
- 'buildin' - nothing will be configured by vsperf; VM image must
- ensure traffic forwarding between its interfaces
-
-Guest loopback application must be configured, otherwise traffic
-will not be forwarded by VM and testcases with VM related deployments
-will fail. Guest loopback application is set to 'testpmd' by default.
-
-**NOTE:** In case that only 1 or more than 2 NICs are configured for VM,
-then 'testpmd' should be used. As it is able to forward traffic between
-multiple VM NIC pairs.
-
-**NOTE:** In case of linux_bridge, all guest NICs are connected to the same
-bridge inside the guest.
-
-Mergable Buffers Options with QEMU
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-Mergable buffers can be disabled with VSPerf within QEMU. This option can
-increase performance significantly when not using jumbo frame sized packets.
-By default VSPerf disables mergable buffers. If you wish to enable it you
-can modify the setting in the a custom conf file.
-
-.. code-block:: python
-
- GUEST_NIC_MERGE_BUFFERS_DISABLE = [False]
-
-Then execute using the custom conf file.
-
-.. code-block:: console
-
- $ ./vsperf --conf-file=<path_to_custom_conf>/10_custom.conf
-
-Alternatively you can just pass the param during execution.
-
-.. code-block:: console
-
- $ ./vsperf --test-params "GUEST_NIC_MERGE_BUFFERS_DISABLE=[False]"
-
-
-Selection of dpdk binding driver for tests with VMs
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-To select dpdk binding driver, which will specify which driver the vm NICs will
-use for dpdk bind, the following configuration parameter should be configured:
-
-.. code-block:: console
-
- GUEST_DPDK_BIND_DRIVER = ['igb_uio_from_src']
-
-The supported dpdk guest bind drivers are:
-
-.. code-block:: console
-
- 'uio_pci_generic' - Use uio_pci_generic driver
- 'igb_uio_from_src' - Build and use the igb_uio driver from the dpdk src
- files
- 'vfio_no_iommu' - Use vfio with no iommu option. This requires custom
- guest images that support this option. The default
- vloop image does not support this driver.
-
-Note: uio_pci_generic does not support sr-iov testcases with guests attached.
-This is because uio_pci_generic only supports legacy interrupts. In case
-uio_pci_generic is selected with the vnf as QemuPciPassthrough it will be
-modified to use igb_uio_from_src instead.
-
-Note: vfio_no_iommu requires kernels equal to or greater than 4.5 and dpdk
-16.04 or greater. Using this option will also taint the kernel.
-
-Please refer to the dpdk documents at http://dpdk.org/doc/guides for more
-information on these drivers.
-
-Multi-Queue Configuration
-^^^^^^^^^^^^^^^^^^^^^^^^^
-
-VSPerf currently supports multi-queue with the following limitations:
-
-1. Requires QEMU 2.5 or greater and any OVS version higher than 2.5. The
- default upstream package versions installed by VSPerf satisfies this
- requirement.
-
-2. Guest image must have ethtool utility installed if using l2fwd or linux
- bridge inside guest for loopback.
-
-3. If using OVS versions 2.5.0 or less enable old style multi-queue as shown
- in the ''02_vswitch.conf'' file.
-
- .. code-block:: python
-
- OVS_OLD_STYLE_MQ = True
-
-To enable multi-queue for dpdk modify the ''02_vswitch.conf'' file.
-
-.. code-block:: python
-
- VSWITCH_DPDK_MULTI_QUEUES = 2
-
-**NOTE:** you should consider using the switch affinity to set a pmd cpu mask
-that can optimize your performance. Consider the numa of the NIC in use if this
-applies by checking /sys/class/net/<eth_name>/device/numa_node and setting an
-appropriate mask to create PMD threads on the same numa node.
-
-When multi-queue is enabled, each dpdk or dpdkvhostuser port that is created
-on the switch will set the option for multiple queues. If old style multi queue
-has been enabled a global option for multi queue will be used instead of the
-port by port option.
-
-To enable multi-queue on the guest modify the ''04_vnf.conf'' file.
-
-.. code-block:: python
-
- GUEST_NIC_QUEUES = [2]
-
-Enabling multi-queue at the guest will add multiple queues to each NIC port when
-qemu launches the guest.
-
-In case of Vanilla OVS, multi-queue is enabled on the tuntap ports and nic
-queues will be enabled inside the guest with ethtool. Simply enabling the
-multi-queue on the guest is sufficient for Vanilla OVS multi-queue.
-
-Testpmd should be configured to take advantage of multi-queue on the guest if
-using DPDKVhostUser. This can be done by modifying the ''04_vnf.conf'' file.
-
-.. code-block:: python
-
- GUEST_TESTPMD_PARAMS = ['-l 0,1,2,3,4 -n 4 --socket-mem 512 -- '
- '--burst=64 -i --txqflags=0xf00 '
- '--nb-cores=4 --rxq=2 --txq=2 '
- '--disable-hw-vlan']
-
-**NOTE:** The guest SMP cores must be configured to allow for testpmd to use the
-optimal number of cores to take advantage of the multiple guest queues.
-
-In case of using Vanilla OVS and qemu virtio-net you can increase performance
-by binding vhost-net threads to cpus. This can be done by enabling the affinity
-in the ''04_vnf.conf'' file. This can be done to non multi-queue enabled
-configurations as well as there will be 2 vhost-net threads.
-
-.. code-block:: python
-
- VSWITCH_VHOST_NET_AFFINITIZATION = True
-
- VSWITCH_VHOST_CPU_MAP = [4,5,8,11]
-
-**NOTE:** This method of binding would require a custom script in a real
-environment.
-
-**NOTE:** For optimal performance guest SMPs and/or vhost-net threads should be
-on the same numa as the NIC in use if possible/applicable. Testpmd should be
-assigned at least (nb_cores +1) total cores with the cpu mask.
-
-Executing Packet Forwarding tests
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-To select the applications which will forward packets,
-the following parameters should be configured:
-
-.. code-block:: python
-
- VSWITCH = 'none'
- PKTFWD = 'TestPMD'
-
-or use ``--vswitch`` and ``--fwdapp`` CLI arguments:
-
-.. code-block:: console
-
- $ ./vsperf phy2phy_cont --conf-file user_settings.py \
- --vswitch none \
- --fwdapp TestPMD
-
-Supported Packet Forwarding applications are:
-
-.. code-block:: console
-
- 'testpmd' - testpmd from dpdk
-
-
-1. Update your ''10_custom.conf'' file to use the appropriate variables
- for selected Packet Forwarder:
-
- .. code-block:: python
-
- # testpmd configuration
- TESTPMD_ARGS = []
- # packet forwarding mode supported by testpmd; Please see DPDK documentation
- # for comprehensive list of modes supported by your version.
- # e.g. io|mac|mac_retry|macswap|flowgen|rxonly|txonly|csum|icmpecho|...
- # Note: Option "mac_retry" has been changed to "mac retry" since DPDK v16.07
- TESTPMD_FWD_MODE = 'csum'
- # checksum calculation layer: ip|udp|tcp|sctp|outer-ip
- TESTPMD_CSUM_LAYER = 'ip'
- # checksum calculation place: hw (hardware) | sw (software)
- TESTPMD_CSUM_CALC = 'sw'
- # recognize tunnel headers: on|off
- TESTPMD_CSUM_PARSE_TUNNEL = 'off'
-
-2. Run test:
-
- .. code-block:: console
-
- $ ./vsperf phy2phy_tput --conf-file <path_to_settings_py>
-
-Executing Packet Forwarding tests with one guest
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-TestPMD with DPDK 16.11 or greater can be used to forward packets as a switch to a single guest using TestPMD vdev
-option. To set this configuration the following parameters should be used.
-
- .. code-block:: python
-
- VSWITCH = 'none'
- PKTFWD = 'TestPMD'
-
-or use ``--vswitch`` and ``--fwdapp`` CLI arguments:
-
- .. code-block:: console
-
- $ ./vsperf pvp_tput --conf-file user_settings.py \
- --vswitch none \
- --fwdapp TestPMD
-
-Guest forwarding application only supports TestPMD in this configuration.
-
- .. code-block:: python
-
- GUEST_LOOPBACK = ['testpmd']
-
-For optimal performance one cpu per port +1 should be used for TestPMD. Also set additional params for packet forwarding
-application to use the correct number of nb-cores.
-
- .. code-block:: python
-
- VSWITCHD_DPDK_ARGS = ['-l', '46,44,42,40,38', '-n', '4', '--socket-mem 1024,0']
- TESTPMD_ARGS = ['--nb-cores=4', '--txq=1', '--rxq=1']
-
-For guest TestPMD 3 VCpus should be assigned with the following TestPMD params.
-
- .. code-block:: python
-
- GUEST_TESTPMD_PARAMS = ['-l 0,1,2 -n 4 --socket-mem 1024 -- '
- '--burst=64 -i --txqflags=0xf00 '
- '--disable-hw-vlan --nb-cores=2 --txq=1 --rxq=1']
-
-Execution of TestPMD can be run with the following command line
-
- .. code-block:: console
-
- ./vsperf pvp_tput --vswitch=none --fwdapp=TestPMD --conf-file <path_to_settings_py>
-
-**NOTE:** To achieve the best 0% loss numbers with rfc2544 throughput testing, other tunings should be applied to host
-and guest such as tuned profiles and CPU tunings to prevent possible interrupts to worker threads.
-
-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}"
-
-Code change verification by pylint
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-Every developer participating in VSPERF project should run
-pylint before his python code is submitted for review. Project
-specific configuration for pylint is available at 'pylint.rc'.
-
-Example of manual pylint invocation:
-
-.. code-block:: console
-
- $ pylint --rcfile ./pylintrc ./vsperf
-
-GOTCHAs:
-^^^^^^^^
-
-Custom image fails to boot
-~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Using custom VM images may not boot within VSPerf pxp testing because of
-the drive boot and shared type which could be caused by a missing scsi
-driver inside the image. In case of issues you can try changing the drive
-boot type to ide.
-
-.. code-block:: python
-
- GUEST_BOOT_DRIVE_TYPE = ['ide']
- GUEST_SHARED_DRIVE_TYPE = ['ide']
-
-OVS with DPDK and QEMU
-~~~~~~~~~~~~~~~~~~~~~~~
-
-If you encounter the following error: "before (last 100 chars):
-'-path=/dev/hugepages,share=on: unable to map backing store for
-hugepages: Cannot allocate memory\r\n\r\n" during qemu initialization,
-check the amount of hugepages on your system:
-
-.. code-block:: console
-
- $ cat /proc/meminfo | grep HugePages
-
-
-By default the vswitchd is launched with 1Gb of memory, to change
-this, modify --socket-mem parameter in conf/02_vswitch.conf to allocate
-an appropriate amount of memory:
-
-.. code-block:: python
-
- VSWITCHD_DPDK_ARGS = ['-c', '0x4', '-n', '4', '--socket-mem 1024,0']
- VSWITCHD_DPDK_CONFIG = {
- 'dpdk-init' : 'true',
- 'dpdk-lcore-mask' : '0x4',
- 'dpdk-socket-mem' : '1024,0',
- }
-
-Note: Option VSWITCHD_DPDK_ARGS is used for vswitchd, which supports --dpdk
-parameter. In recent vswitchd versions, option VSWITCHD_DPDK_CONFIG will be
-used to configure vswitchd via ovs-vsctl calls.
-
-
-More information
-^^^^^^^^^^^^^^^^
-
-For more information and details refer to the rest of vSwitchPerfuser documentation.
-
diff --git a/docs/userguide/yardstick.rst b/docs/userguide/yardstick.rst
deleted file mode 100644
index b5e5c72d..00000000
--- a/docs/userguide/yardstick.rst
+++ /dev/null
@@ -1,250 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Intel Corporation, AT&T and others.
-
-Execution of vswitchperf testcases by Yardstick
------------------------------------------------
-
-General
-^^^^^^^
-
-Yardstick is a generic framework for a test execution, which is used for
-validation of installation of OPNFV platform. In the future, Yardstick will
-support two options of vswitchperf testcase execution:
-
-- plugin mode, which will execute native vswitchperf testcases; Tests will
- be executed natively by vsperf, and test results will be processed and
- reported by yardstick.
-- traffic generator mode, which will run vswitchperf in **trafficgen**
- mode only; Yardstick framework will be used to launch VNFs and to configure
- flows to ensure, that traffic is properly routed. This mode will allow to
- test OVS performance in real world scenarios.
-
-In Colorado release only the traffic generator mode is supported.
-
-Yardstick Installation
-^^^^^^^^^^^^^^^^^^^^^^
-
-In order to run Yardstick testcases, you will need to prepare your test
-environment. Please follow the `installation instructions
-<http://artifacts.opnfv.org/yardstick/docs/user_guides_framework/index.html>`__
-to install the yardstick.
-
-Please note, that yardstick uses OpenStack for execution of testcases.
-OpenStack must be installed with Heat and Neutron services. Otherwise
-vswitchperf testcases cannot be executed.
-
-VM image with vswitchperf
-^^^^^^^^^^^^^^^^^^^^^^^^^
-
-A special VM image is required for execution of vswitchperf specific testcases
-by yardstick. It is possible to use a sample VM image available at OPNFV
-artifactory or to build customized image.
-
-Sample VM image with vswitchperf
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Sample VM image is available at vswitchperf section of OPNFV artifactory
-for free download:
-
-.. code-block:: console
-
- $ wget http://artifacts.opnfv.org/vswitchperf/vnf/vsperf-yardstick-image.qcow2
-
-This image can be used for execution of sample testcases with dummy traffic
-generator.
-
-**NOTE:** Traffic generators might require an installation of client software.
-This software is not included in the sample image and must be installed by user.
-
-**NOTE:** This image will be updated only in case, that new features related
-to yardstick integration will be added to the vswitchperf.
-
-Preparation of custom VM image
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-In general, any Linux distribution supported by vswitchperf can be used as
-a base image for vswitchperf. One of the possibilities is to modify vloop-vnf
-image, which can be downloaded from `<http://artifacts.opnfv.org/vswitchperf.html/>`__
-(see :ref:`vloop-vnf`).
-
-Please follow the :ref:`vsperf-installation` to
-install vswitchperf inside vloop-vnf image. As vswitchperf will be run in
-trafficgen mode, it is possible to skip installation and compilation of OVS,
-QEMU and DPDK to keep image size smaller.
-
-In case, that selected traffic generator requires installation of additional
-client software, please follow appropriate documentation. For example in case
-of IXIA, you would need to install IxOS and IxNetowrk TCL API.
-
-VM image usage
-~~~~~~~~~~~~~~
-
-Image with vswitchperf must be uploaded into the glance service and
-vswitchperf specific flavor configured, e.g.:
-
-.. code-block:: console
-
- $ glance --os-username admin --os-image-api-version 1 image-create --name \
- vsperf --is-public true --disk-format qcow2 --container-format bare --file \
- vsperf-yardstick-image.qcow2
-
- $ nova --os-username admin flavor-create vsperf-flavor 100 2048 25 1
-
-Testcase execution
-^^^^^^^^^^^^^^^^^^
-
-After installation, yardstick is available as python package within yardstick
-specific virtual environment. It means, that yardstick environment must be
-enabled before the test execution, e.g.:
-
-.. code-block:: console
-
- source ~/yardstick_venv/bin/activate
-
-
-Next step is configuration of OpenStack environment, e.g. in case of devstack:
-
-.. code-block:: console
-
- source /opt/openstack/devstack/openrc
- export EXTERNAL_NETWORK=public
-
-Vswitchperf testcases executable by yardstick are located at vswitchperf
-repository inside ``yardstick/tests`` directory. Example of their download
-and execution follows:
-
-.. code-block:: console
-
- git clone https://gerrit.opnfv.org/gerrit/vswitchperf
- cd vswitchperf
-
- yardstick -d task start yardstick/tests/rfc2544_throughput_dummy.yaml
-
-**NOTE:** Optional argument ``-d`` shows debug output.
-
-Testcase customization
-^^^^^^^^^^^^^^^^^^^^^^
-
-Yardstick testcases are described by YAML files. vswitchperf specific testcases
-are part of the vswitchperf repository and their yaml files can be found at
-``yardstick/tests`` directory. For detailed description of yaml file structure,
-please see yardstick documentation and testcase samples. Only vswitchperf specific
-parts will be discussed here.
-
-Example of yaml file:
-
-.. code-block:: yaml
-
- ...
- scenarios:
- -
- type: Vsperf
- options:
- testname: 'p2p_rfc2544_throughput'
- trafficgen_port1: 'eth1'
- trafficgen_port2: 'eth3'
- external_bridge: 'br-ex'
- test_params: 'TRAFFICGEN_DURATION=30;TRAFFIC={'traffic_type':'rfc2544_throughput}'
- conf_file: '~/vsperf-yardstick.conf'
-
- host: vsperf.demo
-
- runner:
- type: Sequence
- scenario_option_name: frame_size
- sequence:
- - 64
- - 128
- - 512
- - 1024
- - 1518
- sla:
- metrics: 'throughput_rx_fps'
- throughput_rx_fps: 500000
- action: monitor
-
- context:
- ...
-
-Section option
-~~~~~~~~~~~~~~
-
-Section **option** defines details of vswitchperf test scenario. Lot of options
-are identical to the vswitchperf parameters passed through ``--test-params``
-argument. Following options are supported:
-
-- **frame_size** - a packet size for which test should be executed;
- Multiple packet sizes can be tested by modification of Sequence runner
- section inside YAML definition. Default: '64'
-- **conf_file** - sets path to the vswitchperf configuration file, which will be
- uploaded to VM; Default: '~/vsperf-yardstick.conf'
-- **setup_script** - sets path to the setup script, which will be executed
- during setup and teardown phases
-- **trafficgen_port1** - specifies device name of 1st interface connected to
- the trafficgen
-- **trafficgen_port2** - specifies device name of 2nd interface connected to
- the trafficgen
-- **external_bridge** - specifies name of external bridge configured in OVS;
- Default: 'br-ex'
-- **test_params** - specifies a string with a list of vsperf configuration
- parameters, which will be passed to the ``--test-params`` CLI argument;
- Parameters should be stated in the form of ``param=value`` and separated
- by a semicolon. Configuration of traffic generator is driven by ``TRAFFIC``
- dictionary, which can be also updated by values defined by ``test_params``.
- Please check VSPERF documentation for details about available configuration
- parameters and their data types.
- In case that both **test_params** and **conf_file** are specified,
- then values from **test_params** will override values defined
- in the configuration file.
-
-In case that **trafficgen_port1** and/or **trafficgen_port2** are defined, then
-these interfaces will be inserted into the **external_bridge** of OVS. It is
-expected, that OVS runs at the same node, where the testcase is executed. In case
-of more complex OpenStack installation or a need of additional OVS configuration,
-**setup_script** can be used.
-
-**NOTE** It is essential to specify a configuration for selected traffic generator.
-In case, that standalone testcase is created, then traffic generator can be
-selected and configured directly in YAML file by **test_params**. On the other
-hand, if multiple testcases should be executed with the same traffic generator
-settings, then a customized configuration file should be prepared and its name
-passed by **conf_file** option.
-
-Section runner
-~~~~~~~~~~~~~~
-
-Yardstick supports several `runner types
-<http://artifacts.opnfv.org/yardstick/docs/userguide/architecture.html#runner-types>`__.
-In case of vswitchperf specific TCs, **Sequence** runner type can be used to
-execute the testcase for given list of frame sizes.
-
-
-Section sla
-~~~~~~~~~~~
-
-In case that sla section is not defined, then testcase will be always
-considered as successful. On the other hand, it is possible to define a set of
-test metrics and their minimal values to evaluate test success. Any numeric
-value, reported by vswitchperf inside CSV result file, can be used.
-Multiple metrics can be defined as a coma separated list of items. Minimal
-value must be set separately for each metric.
-
-e.g.:
-
-.. code-block:: yaml
-
- sla:
- metrics: 'throughput_rx_fps,throughput_rx_mbps'
- throughput_rx_fps: 500000
- throughput_rx_mbps: 1000
-
-In case that any of defined metrics will be lower than defined value, then
-testcase will be marked as failed. Based on ``action`` policy, yardstick
-will either stop test execution (value ``assert``) or it will run next test
-(value ``monitor``).
-
-**NOTE** The throughput SLA (or any other SLA) cannot be set to a meaningful
-value without knowledge of the server and networking environment, possibly
-including prior testing in that environment to establish a baseline SLA level
-under well-understood circumstances.