1 .. This work is licensed under a Creative Commons Attribution 4.0 International License.
2 .. http://creativecommons.org/licenses/by/4.0
3 .. (c) OPNFV, Intel Corporation, AT&T and others.
8 VSPERF includes a set of integration tests defined in conf/integration.
9 These tests can be run by specifying --integration as a parameter to vsperf.
10 Current tests in conf/integration include switch functionality and Overlay
13 Tests in the conf/integration can be used to test scaling of different switch
14 configurations by adding steps into the test case.
16 For the overlay tests VSPERF supports VXLAN, GRE and GENEVE tunneling protocols.
17 Testing of these protocols is limited to unidirectional traffic and
18 P2P (Physical to Physical scenarios).
20 NOTE: The configuration for overlay tests provided in this guide is for
21 unidirectional traffic only.
23 Executing Integration Tests
24 ---------------------------
26 To execute integration tests VSPERF is run with the integration parameter. To
27 view the current test list simply execute the following command:
29 .. code-block:: console
31 ./vsperf --integration --list
33 The standard tests included are defined inside the
34 ``conf/integration/01_testcases.conf`` file.
39 Execution of integration tests are done on a step by step work flow starting
40 with step 0 as defined inside the test case. Each step of the test increments
41 the step number by one which is indicated in the log.
43 .. code-block:: console
45 (testcases.integration) - Step 1 - 'vswitch add_switch ['int_br1']' ... OK
47 Each step in the test case is validated. If a step does not pass validation the
48 test will fail and terminate. The test will continue until a failure is detected
49 or all steps pass. A csv report file is generated after a test completes with an
55 Test profiles can include macros as part of the test step. Each step in the
56 profile may return a value such as a port name. Recall macros use #STEP to
57 indicate the recalled value inside the return structure. If the method the
58 test step calls returns a value it can be later recalled, for example:
60 .. code-block:: python
63 "Name": "vswitch_add_del_vport",
64 "Deployment": "clean",
65 "Description": "vSwitch - add and delete virtual port",
67 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
68 ['vswitch', 'add_vport', 'int_br0'], # STEP 1
69 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'], # STEP 2
70 ['vswitch', 'del_switch', 'int_br0'], # STEP 3
74 This test profile uses the vswitch add_vport method which returns a string
75 value of the port added. This is later called by the del_port method using the
78 Also commonly used steps can be created as a separate profile.
80 .. code-block:: python
82 STEP_VSWITCH_PVP_INIT = [
83 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
84 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
85 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
86 ['vswitch', 'add_vport', 'int_br0'], # STEP 3
87 ['vswitch', 'add_vport', 'int_br0'], # STEP 4
90 This profile can then be used inside other testcases
92 .. code-block:: python
95 "Name": "vswitch_pvp",
96 "Deployment": "clean",
97 "Description": "vSwitch - configure switch and one vnf",
98 "TestSteps": STEP_VSWITCH_PVP_INIT +
103 STEP_VSWITCH_PVP_FINIT
106 HelloWorld and other basic Testcases
107 ------------------------------------
109 The following examples are for demonstration purposes.
110 You can run them by copying and pasting into the
111 conf/integration/01_testcases.conf file.
112 A command-line instruction is shown at the end of each
118 The first example is a HelloWorld testcase.
119 It simply creates a bridge with 2 physical ports, then sets up a flow to drop
120 incoming packets from the port that was instantiated at the STEP #1.
121 There's no interaction with the traffic generator.
122 Then the flow, the 2 ports and the bridge are deleted.
123 'add_phy_port' method creates a 'dpdk' type interface that will manage the
124 physical port. The string value returned is the port name that will be referred
125 by 'del_port' later on.
127 .. code-block:: python
130 "Name": "HelloWorld",
131 "Description": "My first testcase",
132 "Deployment": "clean",
134 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
135 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
136 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
137 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
138 'actions': ['drop'], 'idle_timeout': '0'}],
139 ['vswitch', 'del_flow', 'int_br0'],
140 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
141 ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
142 ['vswitch', 'del_switch', 'int_br0'],
147 To run HelloWorld test:
149 .. code-block:: console
151 ./vsperf --conf-file user_settings.py --integration HelloWorld
153 Specify a Flow by the IP address
154 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
156 The next example shows how to explicitly set up a flow by specifying a
157 destination IP address.
158 All packets received from the port created at STEP #1 that have a destination
159 IP address = 90.90.90.90 will be forwarded to the port created at the STEP #2.
161 .. code-block:: python
164 "Name": "p2p_rule_l3da",
165 "Description": "Phy2Phy with rule on L3 Dest Addr",
166 "Deployment": "clean",
167 "biDirectional": "False",
169 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
170 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
171 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
172 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
173 'dl_type': '0x0800', 'nw_dst': '90.90.90.90', \
174 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
175 ['trafficgen', 'send_traffic', {'traffic_type' : 'continuous'}],
176 ['vswitch', 'dump_flows', 'int_br0'], # STEP 5
177 ['vswitch', 'del_flow', 'int_br0'], # STEP 7 == del-flows
178 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
179 ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
180 ['vswitch', 'del_switch', 'int_br0'],
186 .. code-block:: console
188 ./vsperf --conf-file user_settings.py --integration p2p_rule_l3da
193 The next testcase uses the multistream feature.
194 The traffic generator will send packets with different UDP ports.
195 That is accomplished by using "Stream Type" and "MultiStream" keywords.
196 4 different flows are set to forward all incoming packets.
198 .. code-block:: python
201 "Name": "multistream_l4",
202 "Description": "Multistream on UDP ports",
203 "Deployment": "clean",
207 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
208 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
209 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
211 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
212 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '0', \
213 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
214 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
215 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '1', \
216 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
217 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
218 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '2', \
219 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
220 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
221 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '3', \
222 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
223 # Send mono-dir traffic
224 ['trafficgen', 'send_traffic', {'traffic_type' : 'continuous', \
227 ['vswitch', 'del_flow', 'int_br0'],
228 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
229 ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
230 ['vswitch', 'del_switch', 'int_br0'],
236 .. code-block:: console
238 ./vsperf --conf-file user_settings.py --integration multistream_l4
240 PVP with a VM Replacement
241 ^^^^^^^^^^^^^^^^^^^^^^^^^
243 This example launches a 1st VM in a PVP topology, then the VM is replaced
245 When VNF setup parameter in ./conf/04_vnf.conf is "QemuDpdkVhostUser"
246 'add_vport' method creates a 'dpdkvhostuser' type port to connect a VM.
248 .. code-block:: python
251 "Name": "ex_replace_vm",
252 "Description": "PVP with VM replacement",
253 "Deployment": "clean",
255 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
256 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
257 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
258 ['vswitch', 'add_vport', 'int_br0'], # STEP 3 vm1
259 ['vswitch', 'add_vport', 'int_br0'], # STEP 4
262 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
263 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
264 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[4][1]', \
265 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
266 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[2][1]', \
267 'actions': ['output:#STEP[4][1]'], 'idle_timeout': '0'}],
268 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[3][1]', \
269 'actions': ['output:#STEP[1][1]'], 'idle_timeout': '0'}],
273 # Now we want to replace VM 1 with another VM
276 ['vswitch', 'add_vport', 'int_br0'], # STEP 11 vm2
277 ['vswitch', 'add_vport', 'int_br0'], # STEP 12
278 ['vswitch', 'del_flow', 'int_br0'],
279 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
280 'actions': ['output:#STEP[11][1]'], 'idle_timeout': '0'}],
281 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[12][1]', \
282 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
287 ['vswitch', 'dump_flows', 'int_br0'],
290 ['vswitch', 'del_flow', 'int_br0'],
291 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
292 ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
293 ['vswitch', 'del_port', 'int_br0', '#STEP[3][0]'], # vm1
294 ['vswitch', 'del_port', 'int_br0', '#STEP[4][0]'],
295 ['vswitch', 'del_port', 'int_br0', '#STEP[11][0]'], # vm2
296 ['vswitch', 'del_port', 'int_br0', '#STEP[12][0]'],
297 ['vswitch', 'del_switch', 'int_br0'],
303 .. code-block:: console
305 ./vsperf --conf-file user_settings.py --integration ex_replace_vm
307 VM with a Linux bridge
308 ^^^^^^^^^^^^^^^^^^^^^^
310 In this example a command-line parameter allows to set up a Linux bridge into
312 That's one of the available ways to specify the guest application.
313 Packets matching the flow will be forwarded to the VM.
315 .. code-block:: python
318 "Name": "ex_pvp_rule_l3da",
319 "Description": "PVP with flow on L3 Dest Addr",
320 "Deployment": "clean",
322 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
323 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
324 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
325 ['vswitch', 'add_vport', 'int_br0'], # STEP 3 vm1
326 ['vswitch', 'add_vport', 'int_br0'], # STEP 4
328 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
329 'dl_type': '0x0800', 'nw_dst': '90.90.90.90', \
330 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
331 # Each pkt from the VM is forwarded to the 2nd dpdk port
332 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[4][1]', \
333 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
336 ['trafficgen', 'send_traffic', {'traffic_type' : 'continuous', \
340 ['vswitch', 'dump_flows', 'int_br0'], # STEP 10
341 ['vswitch', 'del_flow', 'int_br0'], # STEP 11
342 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
343 ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
344 ['vswitch', 'del_port', 'int_br0', '#STEP[3][0]'], # vm1 ports
345 ['vswitch', 'del_port', 'int_br0', '#STEP[4][0]'],
346 ['vswitch', 'del_switch', 'int_br0'],
352 .. code-block:: console
354 ./vsperf --conf-file user_settings.py --test-params
355 "guest_loopback=linux_bridge" --integration ex_pvp_rule_l3da
357 Forward packets based on UDP port
358 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
360 This examples launches 2 VMs connected in parallel.
361 Incoming packets will be forwarded to one specific VM depending on the
362 destination UDP port.
364 .. code-block:: python
367 "Name": "ex_2pvp_rule_l4dp",
368 "Description": "2 PVP with flows on L4 Dest Port",
369 "Deployment": "clean",
370 "Stream Type": "L4", # loop UDP ports
373 ['vswitch', 'add_switch', 'int_br0'], # STEP 0
374 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 1
375 ['vswitch', 'add_phy_port', 'int_br0'], # STEP 2
376 ['vswitch', 'add_vport', 'int_br0'], # STEP 3 vm1
377 ['vswitch', 'add_vport', 'int_br0'], # STEP 4
378 ['vswitch', 'add_vport', 'int_br0'], # STEP 5 vm2
379 ['vswitch', 'add_vport', 'int_br0'], # STEP 6
380 # Setup Flows to reply ICMPv6 and similar packets, so to
381 # avoid flooding internal port with their re-transmissions
382 ['vswitch', 'add_flow', 'int_br0', \
383 {'priority': '1', 'dl_src': '00:00:00:00:00:01', \
384 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
385 ['vswitch', 'add_flow', 'int_br0', \
386 {'priority': '1', 'dl_src': '00:00:00:00:00:02', \
387 'actions': ['output:#STEP[4][1]'], 'idle_timeout': '0'}],
388 ['vswitch', 'add_flow', 'int_br0', \
389 {'priority': '1', 'dl_src': '00:00:00:00:00:03', \
390 'actions': ['output:#STEP[5][1]'], 'idle_timeout': '0'}],
391 ['vswitch', 'add_flow', 'int_br0', \
392 {'priority': '1', 'dl_src': '00:00:00:00:00:04', \
393 'actions': ['output:#STEP[6][1]'], 'idle_timeout': '0'}],
394 # Forward UDP packets depending on dest port
395 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
396 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '0', \
397 'actions': ['output:#STEP[3][1]'], 'idle_timeout': '0'}],
398 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[1][1]', \
399 'dl_type': '0x0800', 'nw_proto': '17', 'udp_dst': '1', \
400 'actions': ['output:#STEP[5][1]'], 'idle_timeout': '0'}],
401 # Send VM output to phy port #2
402 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[4][1]', \
403 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
404 ['vswitch', 'add_flow', 'int_br0', {'in_port': '#STEP[6][1]', \
405 'actions': ['output:#STEP[2][1]'], 'idle_timeout': '0'}],
407 ['vnf1', 'start'], # STEP 16
408 ['vnf2', 'start'], # STEP 17
409 ['trafficgen', 'send_traffic', {'traffic_type' : 'continuous', \
413 ['vswitch', 'dump_flows', 'int_br0'],
415 ['vswitch', 'del_flow', 'int_br0'],
416 ['vswitch', 'del_port', 'int_br0', '#STEP[1][0]'],
417 ['vswitch', 'del_port', 'int_br0', '#STEP[2][0]'],
418 ['vswitch', 'del_port', 'int_br0', '#STEP[3][0]'], # vm1 ports
419 ['vswitch', 'del_port', 'int_br0', '#STEP[4][0]'],
420 ['vswitch', 'del_port', 'int_br0', '#STEP[5][0]'], # vm2 ports
421 ['vswitch', 'del_port', 'int_br0', '#STEP[6][0]'],
422 ['vswitch', 'del_switch', 'int_br0'],
428 .. code-block:: console
430 ./vsperf --conf-file user_settings.py --integration ex_2pvp_rule_l4dp
432 Executing Tunnel encapsulation tests
433 ------------------------------------
435 The VXLAN OVS DPDK encapsulation tests requires IPs, MAC addresses,
436 bridge names and WHITELIST_NICS for DPDK.
438 Default values are already provided. To customize for your environment, override
439 the following variables in you user_settings.py file:
441 .. code-block:: python
443 # Variables defined in conf/integration/02_vswitch.conf
444 # Tunnel endpoint for Overlay P2P deployment scenario
446 VTEP_IP1 = '192.168.0.1/24'
448 # Used as remote_ip in adding OVS tunnel port and
449 # to set ARP entry in OVS (e.g. tnl/arp/set br-ext 192.168.240.10 02:00:00:00:00:02
450 VTEP_IP2 = '192.168.240.10'
452 # Network to use when adding a route for inner frame data
453 VTEP_IP2_SUBNET = '192.168.240.0/24'
456 TUNNEL_INTEGRATION_BRIDGE = 'br0'
457 TUNNEL_EXTERNAL_BRIDGE = 'br-ext'
460 TUNNEL_EXTERNAL_BRIDGE_IP = '192.168.240.1/24'
463 TUNNEL_TYPE = 'vxlan'
465 # Variables defined conf/integration/03_traffic.conf
466 # For OP2P deployment scenario
467 TRAFFICGEN_PORT1_MAC = '02:00:00:00:00:01'
468 TRAFFICGEN_PORT2_MAC = '02:00:00:00:00:02'
469 TRAFFICGEN_PORT1_IP = '1.1.1.1'
470 TRAFFICGEN_PORT2_IP = '192.168.240.10'
472 To run VXLAN encapsulation tests:
474 .. code-block:: console
476 ./vsperf --conf-file user_settings.py --integration
477 --test-params 'tunnel_type=vxlan' overlay_p2p_tput
479 To run GRE encapsulation tests:
481 .. code-block:: console
483 ./vsperf --conf-file user_settings.py --integration
484 --test-params 'tunnel_type=gre' overlay_p2p_tput
486 To run GENEVE encapsulation tests:
488 .. code-block:: console
490 ./vsperf --conf-file user_settings.py --integration
491 --test-params 'tunnel_type=geneve' overlay_p2p_tput
493 To run OVS NATIVE tunnel tests (VXLAN/GRE/GENEVE):
495 1. Install the OVS kernel modules
500 sudo -E make modules_install
502 2. Set the following variables:
504 .. code-block:: python
506 VSWITCH = 'OvsVanilla'
507 # Specify vport_* kernel module to test.
508 VSWITCH_VANILLA_KERNEL_MODULES = ['vport_vxlan',
511 os.path.join(OVS_DIR_VANILLA,
512 'datapath/linux/openvswitch.ko')]
516 .. code-block:: console
518 ./vsperf --conf-file user_settings.py --integration
519 --test-params 'tunnel_type=vxlan' overlay_p2p_tput
522 Executing VXLAN decapsulation tests
523 ------------------------------------
525 To run VXLAN decapsulation tests:
527 1. Set the variables used in "Executing Tunnel encapsulation tests"
529 2. Set dstmac of DUT_NIC2_MAC to the MAC adddress of the 2nd NIC of your DUT
531 .. code-block:: python
533 DUT_NIC2_MAC = '<DUT NIC2 MAC>'
537 .. code-block:: console
539 ./vsperf --conf-file user_settings.py --integration overlay_p2p_decap_cont
541 If you want to use different values for your VXLAN frame, you may set:
543 .. code-block:: python
545 VXLAN_FRAME_L3 = {'proto': 'udp',
547 'srcip': TRAFFICGEN_PORT1_IP,
548 'dstip': '192.168.240.1',
550 VXLAN_FRAME_L4 = {'srcport': 4789,
553 'inner_srcmac': '01:02:03:04:05:06',
554 'inner_dstmac': '06:05:04:03:02:01',
555 'inner_srcip': '192.168.0.10',
556 'inner_dstip': '192.168.240.9',
557 'inner_proto': 'udp',
558 'inner_srcport': 3000,
559 'inner_dstport': 3001,
563 Executing GRE decapsulation tests
564 ---------------------------------
566 To run GRE decapsulation tests:
568 1. Set the variables used in "Executing Tunnel encapsulation tests"
570 2. Set dstmac of DUT_NIC2_MAC to the MAC adddress of the 2nd NIC of your DUT
572 .. code-block:: python
574 DUT_NIC2_MAC = '<DUT NIC2 MAC>'
578 .. code-block:: console
580 ./vsperf --conf-file user_settings.py --test-params 'tunnel_type=gre'
581 --integration overlay_p2p_decap_cont
584 If you want to use different values for your GRE frame, you may set:
586 .. code-block:: python
588 GRE_FRAME_L3 = {'proto': 'gre',
590 'srcip': TRAFFICGEN_PORT1_IP,
591 'dstip': '192.168.240.1',
594 GRE_FRAME_L4 = {'srcport': 0,
596 'inner_srcmac': '01:02:03:04:05:06',
597 'inner_dstmac': '06:05:04:03:02:01',
598 'inner_srcip': '192.168.0.10',
599 'inner_dstip': '192.168.240.9',
600 'inner_proto': 'udp',
601 'inner_srcport': 3000,
602 'inner_dstport': 3001,
606 Executing GENEVE decapsulation tests
607 ------------------------------------
609 IxNet 7.3X does not have native support of GENEVE protocol. The
610 template, GeneveIxNetTemplate.xml_ClearText.xml, should be imported
611 into IxNET for this testcase to work.
613 To import the template do:
615 1. Run the IxNetwork TCL Server
616 2. Click on the Traffic menu
617 3. Click on the Traffic actions and click Edit Packet Templates
618 4. On the Template editor window, click Import. Select the template
619 tools/pkt_gen/ixnet/GeneveIxNetTemplate.xml_ClearText.xml
621 5. Restart the TCL Server.
623 To run GENEVE decapsulation tests:
625 1. Set the variables used in "Executing Tunnel encapsulation tests"
627 2. Set dstmac of DUT_NIC2_MAC to the MAC adddress of the 2nd NIC of your DUT
629 .. code-block:: python
631 DUT_NIC2_MAC = '<DUT NIC2 MAC>'
635 .. code-block:: console
637 ./vsperf --conf-file user_settings.py --test-params 'tunnel_type=geneve'
638 --integration overlay_p2p_decap_cont
641 If you want to use different values for your GENEVE frame, you may set:
643 .. code-block:: python
645 GENEVE_FRAME_L3 = {'proto': 'udp',
647 'srcip': TRAFFICGEN_PORT1_IP,
648 'dstip': '192.168.240.1',
651 GENEVE_FRAME_L4 = {'srcport': 6081,
654 'inner_srcmac': '01:02:03:04:05:06',
655 'inner_dstmac': '06:05:04:03:02:01',
656 'inner_srcip': '192.168.0.10',
657 'inner_dstip': '192.168.240.9',
658 'inner_proto': 'udp',
659 'inner_srcport': 3000,
660 'inner_dstport': 3001,
664 Executing Native/Vanilla OVS VXLAN decapsulation tests
665 ------------------------------------------------------
667 To run VXLAN decapsulation tests:
669 1. Set the following variables in your user_settings.py file:
671 .. code-block:: python
673 VSWITCH_VANILLA_KERNEL_MODULES = ['vport_vxlan',
674 os.path.join(OVS_DIR_VANILLA,
675 'datapath/linux/openvswitch.ko')]
677 DUT_NIC1_MAC = '<DUT NIC1 MAC ADDRESS>'
679 TRAFFICGEN_PORT1_IP = '172.16.1.2'
680 TRAFFICGEN_PORT2_IP = '192.168.1.11'
682 VTEP_IP1 = '172.16.1.2/24'
683 VTEP_IP2 = '192.168.1.1'
684 VTEP_IP2_SUBNET = '192.168.1.0/24'
685 TUNNEL_EXTERNAL_BRIDGE_IP = '172.16.1.1/24'
686 TUNNEL_INT_BRIDGE_IP = '192.168.1.1'
688 VXLAN_FRAME_L2 = {'srcmac':
690 'dstmac': DUT_NIC1_MAC
693 VXLAN_FRAME_L3 = {'proto': 'udp',
695 'srcip': TRAFFICGEN_PORT1_IP,
696 'dstip': '172.16.1.1',
702 'protocolpad': 'true',
704 'inner_srcmac': '01:02:03:04:05:06',
705 'inner_dstmac': '06:05:04:03:02:01',
706 'inner_srcip': '192.168.1.2',
707 'inner_dstip': TRAFFICGEN_PORT2_IP,
708 'inner_proto': 'udp',
709 'inner_srcport': 3000,
710 'inner_dstport': 3001,
715 .. code-block:: console
717 ./vsperf --conf-file user_settings.py --integration
718 --test-params 'tunnel_type=vxlan' overlay_p2p_decap_cont
720 Executing Native/Vanilla OVS GRE decapsulation tests
721 ----------------------------------------------------
723 To run GRE decapsulation tests:
725 1. Set the following variables in your user_settings.py file:
727 .. code-block:: python
729 VSWITCH_VANILLA_KERNEL_MODULES = ['vport_gre',
730 os.path.join(OVS_DIR_VANILLA,
731 'datapath/linux/openvswitch.ko')]
733 DUT_NIC1_MAC = '<DUT NIC1 MAC ADDRESS>'
735 TRAFFICGEN_PORT1_IP = '172.16.1.2'
736 TRAFFICGEN_PORT2_IP = '192.168.1.11'
738 VTEP_IP1 = '172.16.1.2/24'
739 VTEP_IP2 = '192.168.1.1'
740 VTEP_IP2_SUBNET = '192.168.1.0/24'
741 TUNNEL_EXTERNAL_BRIDGE_IP = '172.16.1.1/24'
742 TUNNEL_INT_BRIDGE_IP = '192.168.1.1'
744 GRE_FRAME_L2 = {'srcmac':
746 'dstmac': DUT_NIC1_MAC
749 GRE_FRAME_L3 = {'proto': 'udp',
751 'srcip': TRAFFICGEN_PORT1_IP,
752 'dstip': '172.16.1.1',
758 'protocolpad': 'true',
759 'inner_srcmac': '01:02:03:04:05:06',
760 'inner_dstmac': '06:05:04:03:02:01',
761 'inner_srcip': '192.168.1.2',
762 'inner_dstip': TRAFFICGEN_PORT2_IP,
763 'inner_proto': 'udp',
764 'inner_srcport': 3000,
765 'inner_dstport': 3001,
770 .. code-block:: console
772 ./vsperf --conf-file user_settings.py --integration
773 --test-params 'tunnel_type=gre' overlay_p2p_decap_cont
775 Executing Native/Vanilla OVS GENEVE decapsulation tests
776 -------------------------------------------------------
778 To run GENEVE decapsulation tests:
780 1. Set the following variables in your user_settings.py file:
782 .. code-block:: python
784 VSWITCH_VANILLA_KERNEL_MODULES = ['vport_geneve',
785 os.path.join(OVS_DIR_VANILLA,
786 'datapath/linux/openvswitch.ko')]
788 DUT_NIC1_MAC = '<DUT NIC1 MAC ADDRESS>'
790 TRAFFICGEN_PORT1_IP = '172.16.1.2'
791 TRAFFICGEN_PORT2_IP = '192.168.1.11'
793 VTEP_IP1 = '172.16.1.2/24'
794 VTEP_IP2 = '192.168.1.1'
795 VTEP_IP2_SUBNET = '192.168.1.0/24'
796 TUNNEL_EXTERNAL_BRIDGE_IP = '172.16.1.1/24'
797 TUNNEL_INT_BRIDGE_IP = '192.168.1.1'
799 GENEVE_FRAME_L2 = {'srcmac':
801 'dstmac': DUT_NIC1_MAC
804 GENEVE_FRAME_L3 = {'proto': 'udp',
806 'srcip': TRAFFICGEN_PORT1_IP,
807 'dstip': '172.16.1.1',
810 GENEVE_FRAME_L4 = {'srcport': 6081,
812 'protocolpad': 'true',
814 'inner_srcmac': '01:02:03:04:05:06',
815 'inner_dstmac': '06:05:04:03:02:01',
816 'inner_srcip': '192.168.1.2',
817 'inner_dstip': TRAFFICGEN_PORT2_IP,
818 'inner_proto': 'udp',
819 'inner_srcport': 3000,
820 'inner_dstport': 3001,
825 .. code-block:: console
827 ./vsperf --conf-file user_settings.py --integration
828 --test-params 'tunnel_type=geneve' overlay_p2p_decap_cont