4 Documentation for tags used to select and identify test cases.
10 .. topic:: 3_NODE_DOUBLE_LINK_TOPO
12 3 nodes connected in a circular topology with two links interconnecting
15 .. topic:: 3_NODE_SINGLE_LINK_TOPO
17 3 nodes connected in a circular topology with at least one link
18 interconnecting devices.
25 Test case(s) marked to not run in case of vpp-csit-verify (i.e. VPP patch)
26 and csit-vpp-verify jobs (i.e. CSIT patch).
34 DUTs and TGs are running on bare metal.
38 DUTs and TGs are running in virtual environment.
42 DUTs with VPP and capable of running Virtual Machine.
48 .. topic:: NIC_Intel-X520-DA2
52 .. topic:: NIC_Intel-XL710
56 .. topic:: NIC_Intel-X710
60 .. topic:: NIC_Cisco-VIC-1227
64 .. topic:: NIC_Cisco-VIC-1385
74 2x10,000 entries in single fib table
78 2x100,000 entries in single fib table
82 2x1,000,000 entries in single fib table
85 Tags marking functional vs. performance of tests
86 ------------------------------------------------
90 All functional test cases.
94 All performance test cases.
97 Performance testing tags
98 ------------------------
102 Partial Drop Rate evaluation of single run result, with non-zero packet
103 loss tolerance (LT) expressed in percentage of packets transmitted.
107 Non Drop Rate evaluation of results. Loss acceptance of dropped packets is
108 set to zero lost packets.
112 Performance tests where TG verifies DUTs' throughput at ref-NDR (reference
113 Non Drop Rate) with zero packet loss tolerance.
115 .. topic:: NDRPDRDISC
117 Find performance of DUT based on RFC2544 with linear / binary / combined
118 search. (Previous LONG tests.)
120 Ethernet frame size tags for performance tests
121 ----------------------------------------------
125 64B frames used for test.
129 78B frames used for test.
133 IMIX frame sequence (28x 64B, 16x 570B, 4x 1518B) used for test.
137 1460B frames used for test.
141 1480B frames used for test.
145 1514B frames used for test.
149 1518B frames used for test.
153 9000B frames used for test.
160 Baseline test cases, no encapsulation, no feature(s) configured in tests.
164 IPv4 baseline test cases, no encapsulation, no feature(s) configured in
169 IPv6 baseline test cases, no encapsulation, no feature(s) configured in
174 L2XC baseline test cases, no encapsulation, no feature(s) configured in
179 L2BD baseline test cases, no encapsulation, no feature(s) configured in
188 Test cases where encapsulation is used. Use also encapsulation tag(s).
192 At least one feature is configured in test cases. Use also feature tag(s).
198 .. topic:: L2BDMACSTAT
200 VPP L2 bridge-domain, L2 MAC static.
202 .. topic:: L2BDMACLRN
204 VPP L2 bridge-domain, L2 MAC learning.
208 VPP L2 point-to-point cross-connect.
212 VPP IPv4 routed forwarding.
216 VPP IPv6 routed forwarding.
230 .. topic:: MPLSUNRLAY
244 IPv4 overlay (IPv4 payload).
248 IPv6 overlay (IPv6 payload).
256 All test cases with base Ethernet (no encapsulation).
260 All test cases with dot1q.
264 All test cases with dot1ad.
268 All test cases with LISP.
272 All test cases with LISP-GPE.
276 All test cases with Vxlan.
280 All test cases with VXLAN-GPE.
284 All test cases with GRE.
288 All test cases with IPSEC.
296 All test cases which use physical interface(s).
300 All test cases which uses VHOST.
304 All test cases which uses TUN and TAP.
308 All test cases which uses AFPKT.
312 All test cases which uses Netmap.
328 SNAT configured and tested.
344 IPSec in transport mode.
348 IPSec in tunnel mode.
356 All test cases which use at least one virtual machine.
360 All test cases which use Linux container.
364 All test cases with specific APP use.
372 All test cases using single poll mode thread.
376 All test cases using more then one poll mode driver thread.
380 All test cases with packet processing on single socket.
384 All test cases with packet processing on two sockets.
388 All test cases with symmetric Multi-Threading (HyperThreading) enabled.
392 All test cases with symmetric Multi-Threading (HyperThreading) disabled.
396 1 worker thread pinned to 1 dedicated physical core. 1 receive queue per
397 interface. Main thread pinned to core 0.
401 2 worker threads pinned to 2 dedicated physical cores. 1 receive queue per
402 interface. Main thread pinned to core 0.
406 4 worker threads pinned to 4 dedicated physical cores. 2 receive queues per
407 interface. Main thread pinned to core 0.
411 6 worker threads pinned to 6 dedicated physical cores. 3 receive queues per
412 interface. Main thread pinned to core 0.
416 8 worker threads pinned to 8 dedicated physical cores. 4 receive queues per
417 interface. Main thread pinned to core 0.