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* [dts] [PATCH V2 1/2] test_plans/multiprocess_iavf: add vf multiprocess test case
@ 2022-05-12  8:55 Jiale Song
  2022-05-12  8:55 ` [dts] [PATCH V2 2/2] tests/multiprocess_iavf: " Jiale Song
  0 siblings, 1 reply; 2+ messages in thread
From: Jiale Song @ 2022-05-12  8:55 UTC (permalink / raw)
  To: dts; +Cc: Jiale Song

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Signed-off-by: Jiale Song <songx.jiale@intel.com>
---
 test_plans/multiprocess_iavf_test_plan.rst | 950 +++++++++++++++++++++
 1 file changed, 950 insertions(+)
 create mode 100644 test_plans/multiprocess_iavf_test_plan.rst

diff --git a/test_plans/multiprocess_iavf_test_plan.rst b/test_plans/multiprocess_iavf_test_plan.rst
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+.. Copyright (c) <2022>, Intel Corporation
+   All rights reserved.
+
+   Redistribution and use in source and binary forms, with or without
+   modification, are permitted provided that the following conditions
+   are met:
+
+   - Redistributions of source code must retain the above copyright
+     notice, this list of conditions and the following disclaimer.
+
+   - Redistributions in binary form must reproduce the above copyright
+     notice, this list of conditions and the following disclaimer in
+     the documentation and/or other materials provided with the
+     distribution.
+
+   - Neither the name of Intel Corporation nor the names of its
+     contributors may be used to endorse or promote products derived
+     from this software without specific prior written permission.
+
+   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+   "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+   LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
+   FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
+   COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
+   INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+   (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+   SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
+   HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
+   STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
+   ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
+   OF THE POSSIBILITY OF SUCH DAMAGE.
+
+
+=======================================
+Sample Application Tests: Multi-Process
+=======================================
+
+Simple MP Application Test
+==========================
+
+Description
+-----------
+
+This test is a basic multi-process test for iavf which demonstrates the basics of sharing
+information between DPDK processes. The same application binary is run
+twice - once as a primary instance, and once as a secondary instance. Messages
+are sent from primary to secondary and vice versa, demonstrating the processes
+are sharing memory and can communicate using rte_ring structures.
+
+Prerequisites
+-------------
+
+If using vfio the kernel must be >= 3.6+ and VT-d must be enabled in bios.When
+using vfio, use the following commands to load the vfio driver and bind it
+to the device under test::
+
+   modprobe vfio
+   modprobe vfio-pci
+   usertools/dpdk-devbind.py --bind=vfio-pci device_bus_id
+
+Assuming that a DPDK build has been set up and the multi-process sample
+applications have been built.
+
+Test Case: Basic operation
+--------------------------
+
+1. To run the application, start one copy of the simple_mp binary in one terminal,
+   passing at least two cores in the coremask, as follows::
+
+       ./x86_64-native-linuxapp-gcc/examples/dpdk-simple_mp -c 3 --proc-type=primary
+
+   The process should start successfully and display a command prompt as follows::
+
+       $ ./x86_64-native-linuxapp-gcc/examples/dpdk-simple_mp -c 3 --proc-type=primary
+       EAL: coremask set to 3
+       EAL: Detected lcore 0 on socket 0
+       EAL: Detected lcore 1 on socket 0
+       EAL: Detected lcore 2 on socket 0
+       EAL: Detected lcore 3 on socket 0
+       ...
+       EAL: Requesting 2 pages of size 1073741824
+       EAL: Requesting 768 pages of size 2097152
+       EAL: Ask a virtual area of 0x40000000 bytes
+       EAL: Virtual area found at 0x7ff200000000 (size = 0x40000000)
+       ...
+       EAL: check igb_uio module
+       EAL: check module finished
+       EAL: Master core 0 is ready (tid=54e41820)
+       EAL: Core 1 is ready (tid=53b32700)
+       Starting core 1
+
+       simple_mp >
+
+2. To run the secondary process to communicate with the primary process, again run the
+   same binary setting at least two cores in the coremask.::
+
+       ./x86_64-native-linuxapp-gcc/examples/dpdk-simple_mp -c C --proc-type=secondary
+
+   Once the process type is specified correctly, the process starts up, displaying largely
+   similar status messages to the primary instance as it initializes. Once again, you will be
+   presented with a command prompt.
+
+3. Once both processes are running, messages can be sent between them using the send
+   command. At any stage, either process can be terminated using the quit command.
+
+   Validate that this is working by sending a message between each process, both from
+   primary to secondary and back again. This is shown below.
+
+   Transcript from the primary - text entered by used shown in ``{}``::
+
+       EAL: Master core 10 is ready (tid=b5f89820)
+       EAL: Core 11 is ready (tid=84ffe700)
+       Starting core 11
+       simple_mp > {send hello_secondary}
+       simple_mp > core 11: Received 'hello_primary'
+       simple_mp > {quit}
+
+   Transcript from the secondary - text entered by the user is shown in ``{}``::
+
+       EAL: Master core 8 is ready (tid=864a3820)
+       EAL: Core 9 is ready (tid=85995700)
+       Starting core 9
+       simple_mp > core 9: Received 'hello_secondary'
+       simple_mp > {send hello_primary}
+       simple_mp > {quit}
+
+Test Case: Load test of Simple MP application
+---------------------------------------------
+
+1. Start up the sample application using the commands outlined in steps 1 & 2
+   above.
+
+2. To load test, send a large number of strings (>5000), from the primary instance
+   to the secondary instance, and then from the secondary instance to the primary.
+   [NOTE: A good source of strings to use is /usr/share/dict/words which contains
+   >400000 ascii strings on Fedora 14]
+
+Test Case: Test use of Auto for Application Startup
+---------------------------------------------------
+
+1. Start the primary application as in Test 1, Step 1, except replace
+   ``--proc-type=primary`` with ``--proc-type=auto``
+
+2. Validate that the application prints the line:
+   ``EAL: Auto-detected process type: PRIMARY`` on startup.
+
+3. Start the secondary application as in Test 1, Step 2, except replace
+   ``--proc-type=secondary`` with ``--proc-type=auto``.
+
+4. Validate that the application prints the line:
+   ``EAL: Auto-detected process type: SECONDARY`` on startup.
+
+5. Verify that processes can communicate by sending strings, as in Test 1,
+   Step 3.
+
+Test Case: Test running multiple processes without "--proc-type" flag
+---------------------------------------------------------------------
+
+1. Start up the primary process as in Test 1, Step 1, except omit the
+   ``--proc-type`` flag completely.
+
+2. Validate that process starts up as normal, and returns the ``simple_mp>``
+   prompt.
+
+3. Start up the secondary process as in Test 1, Step 2, except omit the
+   ``--proc-type`` flag.
+
+4. Verify that the process *fails* to start and prints an error message as
+   below::
+
+      "PANIC in rte_eal_config_create():
+      Cannot create lock on '/path/to/.rte_config'. Is another primary process running?"
+
+Symmetric MP Application Test
+=============================
+
+Description
+-----------
+
+This test is a multi-process test which demonstrates how multiple processes can
+work together to perform packet I/O and packet processing in parallel, much as
+other example application work by using multiple threads. In this example, each
+process reads packets from all network ports being used - though from a different
+RX queue in each case. Those packets are then forwarded by each process which
+sends them out by writing them directly to a suitable TX queue.
+
+Prerequisites
+-------------
+
+Assuming that an Intel DPDK build has been set up and the multi-process sample
+applications have been built. It is also assumed that a traffic generator has
+been configured and plugged in to the NIC ports 0 and 1.
+
+Test Methodology
+----------------
+
+As with the simple_mp example, the first instance of the symmetric_mp process
+must be run as the primary instance, though with a number of other application
+specific parameters also provided after the EAL arguments. These additional
+parameters are:
+
+* -p <portmask>, where portmask is a hexadecimal bitmask of what ports on the
+  system are to be used. For example: -p 3 to use ports 0 and 1 only.
+* --num-procs <N>, where N is the total number of symmetric_mp instances that
+  will be run side-by-side to perform packet processing. This parameter is used to
+  configure the appropriate number of receive queues on each network port.
+* --proc-id <n>, where n is a numeric value in the range 0 <= n < N (number of
+  processes, specified above). This identifies which symmetric_mp instance is being
+  run, so that each process can read a unique receive queue on each network port.
+
+The secondary symmetric_mp instances must also have these parameters specified,
+and the first two must be the same as those passed to the primary instance, or errors
+result.
+
+For example, to run a set of four symmetric_mp instances, running on lcores 1-4, all
+performing level-2 forwarding of packets between ports 0 and 1, the following
+commands can be used (assuming run as root)::
+
+   ./x86_64-native-linuxapp-gcc/examples/dpdk-symmetric_mp -c 2 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=0
+   ./x86_64-native-linuxapp-gcc/examples/dpdk-symmetric_mp -c 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=1
+   ./x86_64-native-linuxapp-gcc/examples/dpdk-symmetric_mp -c 8 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=2
+   ./x86_64-native-linuxapp-gcc/examples/dpdk-symmetric_mp -c 10 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=3
+
+To run only 1 or 2 instances, the above parameters to the 1 or 2 instances being
+run should remain the same, except for the ``num-procs`` value, which should be
+adjusted appropriately.
+
+
+Test Case: Function Tests
+-------------------------
+start 2 symmetric_mp process, send some packets, the number of packets is a random value between 20 and 256.
+summarize all received packets and check whether it is bigger than or equal to the number of sent packets
+
+1. start 2 process::
+
+    /dpdk-symmetric_mp  -l 1 -n 4 --proc-type=auto  -a 0000:05:01.0 -a 0000:05:01.1 -- -p 0x3 --num-procs=2 --proc-id=0
+    /dpdk-symmetric_mp  -l 2 -n 4 --proc-type=auto  -a 0000:05:01.0 -a 0000:05:01.1 -- -p 0x3 --num-procs=2 --proc-id=1
+
+2. send some packets,the number of packets is a random value between 20 and 256, packet type including IPV6/4,TCP/UDP,
+   refer to Random_Packet
+
+3. stop all process and check output::
+
+    the number of received packets for each process should bigger than 0.
+    summarize all received packets for all process should bigger than or equal to the number of sent packets
+
+
+Client Server Multiprocess Tests
+================================
+
+Description
+-----------
+
+The client-server sample application demonstrates the ability of Intel� DPDK
+to use multiple processes in which a server process performs packet I/O and one
+or multiple client processes perform packet processing. The server process
+controls load balancing on the traffic received from a number of input ports to
+a user-specified number of clients. The client processes forward the received
+traffic, outputting the packets directly by writing them to the TX rings of the
+outgoing ports.
+
+Prerequisites
+-------------
+
+Assuming that an Intel� DPDK build has been set up and the multi-process
+sample application has been built.
+Also assuming a traffic generator is connected to the ports "0" and "1".
+
+It is important to run the server application before the client application,
+as the server application manages both the NIC ports with packet transmission
+and reception, as well as shared memory areas and client queues.
+
+Run the Server Application:
+
+- Provide the core mask on which the server process is to run using -c, e.g. -c 3 (bitmask number).
+- Set the number of ports to be engaged using -p, e.g. -p 3 refers to ports 0 & 1.
+- Define the maximum number of clients using -n, e.g. -n 8.
+
+The command line below is an example on how to start the server process on
+logical core 2 to handle a maximum of 8 client processes configured to
+run on socket 0 to handle traffic from NIC ports 0 and 1::
+
+    root@host:mp_server# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_server -c 2 -- -p 3 -n 8
+
+NOTE: If an additional second core is given in the coremask to the server process
+that second core will be used to print statistics. When benchmarking, only a
+single lcore is needed for the server process
+
+Run the Client application:
+
+- In another terminal run the client application.
+- Give each client a distinct core mask with -c.
+- Give each client a unique client-id with -n.
+
+An example commands to run 8 client processes is as follows::
+
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 40 --proc-type=secondary -- -n 0 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 100 --proc-type=secondary -- -n 1 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 400 --proc-type=secondary -- -n 2 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 1000 --proc-type=secondary -- -n 3 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 4000 --proc-type=secondary -- -n 4 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 10000 --proc-type=secondary -- -n 5 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 40000 --proc-type=secondary -- -n 6 &
+   root@host:mp_client# ./x86_64-native-linuxapp-gcc/examples/dpdk-mp_client -c 100000 --proc-type=secondary -- -n 7 &
+
+Test Case: Function Tests
+-------------------------
+start server process and 2 client process, send some packets, the number of packets is a random value between 20 and 256.
+summarize all received packets and check whether it is bigger than or equal to the number of sent packets
+
+1. start server process::
+
+    ./dpdk-mp_server  -l 1,2 -n 4 -a 0000:05:01.0 -a 0000:05:01.1 -- -p 0x3 -n 2
+
+2. start 2 client process::
+
+    ./dpdk-mp_client  -l 3 -n 4 -a 0000:05:01.0 -a 0000:05:01.1 --proc-type=auto -- -n 0
+    ./dpdk-mp_client  -l 4 -n 4 -a 0000:05:01.0 -a 0000:05:01.1 --proc-type=auto -- -n 1
+
+3. send some packets,the number of packets is a random value between 20 and 256, packet type include IPV6/4,TCP/UDP,
+   refer to Random_Packet
+
+4. stop all process and check output::
+
+    the number of received packets for each client should bigger than 0.
+    summarize all received packets for all clients should bigger than or equal to the number of sent packets
+
+Testpmd Multi-Process Test
+==========================
+
+Description
+-----------
+
+This is a multi-process test for Testpmd application, which demonstrates how multiple processes can
+work together to perform packet in parallel.
+
+Test Methodology
+----------------
+Testpmd support to specify total number of processes and current process ID.
+Each process owns subset of Rx and Tx queues
+The following are the command-line options for testpmd multi-process support::
+
+   primary process:
+   ./dpdk-testpmd -a xxx --proc-type=auto -l 0-1 -- -i --rxq=4 --txq=4 --num-procs=2 --proc-id=0
+
+   secondary process:
+   ./dpdk-testpmd -a xxx --proc-type=auto -l 2-3 -- -i --rxq=4 --txq=4 --num-procs=2 --proc-id=1
+
+   --num-procs:
+      The number of processes which will be used
+   --proc-id:
+      The ID of the current process (ID < num-procs),ID should be different in primary process and secondary
+      process, which starts from ‘0’.
+
+All queues are allocated to different processes based on proc_num and proc_id
+Calculation rule for queue::
+
+   start(queue start id) = proc_id * nb_q / num_procs
+   end(queue end id) = start + nb_q / num_procs
+
+For example, if testpmd is configured to have 4 Tx and Rx queues, queues 0 and 1 will be used by the primary process and
+queues 2 and 3 will be used by the secondary process.
+
+Note::
+
+   nb_q is the number of queue
+   The number of queues should be a multiple of the number of processes. If not, redundant queues will exist after
+   queues are allocated to processes. If RSS is enabled, packet loss occurs when traffic is sent to all processes at the
+   same time.Some traffic goes to redundant queues and cannot be forwarded.
+   All the dev ops is supported in primary process. While secondary process is not permitted to allocate or release
+   shared memory.
+   When secondary is running, port in primary is not permitted to be stopped.
+   Reconfigure operation is only valid in primary.
+   Stats is supported, stats will not change when one quits and starts, as they share the same buffer to store the stats.
+   Flow rules are maintained in process level:
+      primary and secondary has its own flow list (but one flow list in HW). The two can see all the queues, so setting
+      the flow rules for the other is OK. But in the testpmd primary process receiving or transmitting packets from the
+      queue allocated for secondary process is not permitted, and same for secondary process
+
+   Flow API and RSS are supported
+
+Prerequisites
+-------------
+
+1. Hardware:
+   columbiaville_25g/columbiaville_100g
+
+2. Software:
+   DPDK: http://dpdk.org/git/dpdk
+   scapy: http://www.secdev.org/projects/scapy/
+
+3. Copy specific ice package to /lib/firmware/intel/ice/ddp/ice.pkg
+
+4. Generate 2 VFs on PF and set mac address for vf0::
+
+    echo 2 > /sys/bus/pci/devices/0000:af:00.0/sriov_numvfs
+    ip link set eth7 vf 0 mac 00:11:22:33:44:55
+
+   0000:05:00.0 generate 0000:05:01.0 and 0000:05:01.1
+
+4. Bind VFs to dpdk driver::
+
+    ./usertools/dpdk-devbind.py -b vfio-pci 0000:05:01.0  0000:05:01.1
+
+Default parameters
+------------------
+
+   MAC::
+
+    [Dest MAC]: 00:11:22:33:44:55
+
+   IPv4::
+
+    [Source IP]: 192.168.0.20
+    [Dest IP]: 192.168.0.21
+    [IP protocol]: 255
+    [TTL]: 2
+    [DSCP]: 4
+
+   TCP::
+
+    [Source Port]: 22
+    [Dest Port]: 23
+
+   Random_Packet::
+
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.1', hlim=64)/TCP(sport=65535, dport=65535, flags=0)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IP(frag=0, src='192.168.0.1', tos=0, dst='192.168.1.2', version=4, ttl=64, id=1)/UDP(sport=65535, dport=65535)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.3', hlim=64)/UDP(sport=65535, dport=65535)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.4', hlim=64)/UDP(sport=65535, dport=65535)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.5', hlim=64)/TCP(sport=65535, dport=65535, flags=0)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IP(frag=0, src='192.168.0.1', tos=0, dst='192.168.1.15', version=4, ttl=64, id=1)/UDP(sport=65535, dport=65535)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.16', hlim=64)/TCP(sport=65535, dport=65535, flags=0)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.27', hlim=64)/TCP(sport=65535, dport=65535, flags=0)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IP(frag=0, src='192.168.0.1', tos=0, dst='192.168.1.28', version=4, ttl=64, id=1)/TCP(sport=65535, dport=65535, flags=0)/Raw(),
+   Ether(dst='00:11:22:33:44:55', src='00:00:20:00:00:00')/IPv6(src='::192.168.0.1', version=6, tc=0, fl=0, dst='::192.168.1.30', hlim=64)/TCP(sport=65535, dport=65535, flags=0)/Raw()
+
+Test Case: multiprocess proc_type random packet
+===============================================
+
+Subcase 1: proc_type_auto_4_process
+-----------------------------------
+1. Launch the app ``testpmd``, start 4 process with rxq/txq set as 16 (proc_id:0~3, queue id:0~15) with the following arguments::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=16 --txq=16 --num-procs=4 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=16 --txq=16 --num-procs=4 --proc-id=1
+   ./dpdk-testpmd -l 5,6 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=16 --txq=16 --num-procs=4 --proc-id=2
+   ./dpdk-testpmd -l 7,8 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=16 --txq=16 --num-procs=4 --proc-id=3
+
+2. Send 20 random packets::
+
+   packets generated by script, packet type including 'TCP', 'UDP', 'IPv6_TCP', 'IPv6_UDP', like as: Random_Packet
+
+3. Check whether each process receives 5 packets with the corresponding queue::
+
+   process 0 should receive 5 packets with queue 0~3
+   process 1 should receive 5 packets with queue 4~7
+   process 2 should receive 5 packets with queue 8~11
+   process 3 should receive 5 packets with queue 12~15
+
+4. Check the statistics is correctly, the total number of packets received is 20
+
+Subcase 2: proc_type_primary_secondary_2_process
+------------------------------------------------
+1. Launch the app ``testpmd``, start 2 process with rxq/txq set as 4 (proc_id:0~1, queue id:0~3) with the following arguments::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=primary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=4 --txq=4 --num-procs=2 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=secondary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=4 --txq=4 --num-procs=2 --proc-id=1
+
+2. Send 20 random packets::
+
+   packets generated by script, packet type including 'TCP', 'TCP', 'IPv6_TCP', 'IPv6_UDP', such as: Random_Packet
+
+3. Check whether each process receives 10 packets with the corresponding queue::
+
+   process 0 should receive 10 packets with queue 0~1
+   process 1 should receive 10 packets with queue 2~3
+
+
+4. Check the statistics is correctly, the total number of packets received is 20
+
+Test Case: multiprocess proc_type specify packet
+================================================
+
+Subcase 1: proc_type_auto_2_process
+-----------------------------------
+1. Launch the app ``testpmd``, start 2 process with rxq/txq set as 8 (proc_id:0~1, queue id:0~7) with the following arguments::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=1
+
+2. Create rule to set queue as one of each process queues::
+
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.0.20  / end actions queue index 0 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.1.20  / end actions queue index 1 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.2.20 / end actions queue index 2 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.3.20 / end actions queue index 3 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.4.20  / end actions queue index 4 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.5.20 / end actions queue index 5 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.6.20 / end actions queue index 6 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.7.20 / end actions queue index 7 / end
+
+3. Send 1 matched packet for each rule::
+
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.0.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.1.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.2.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.3.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.4.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.5.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.6.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.7.20")/("X"*46)
+
+4. Check whether each process receives 4 packets with the corresponding queue::
+
+   process 0 should receive 4 packets with queue 0~3
+   process 1 should receive 4 packets with queue 4~7
+
+5. Check the statistics is correctly, the total number of packets received is 8
+
+Subcase 2: proc_type_primary_secondary_3_process
+------------------------------------------------
+1. Launch the app ``testpmd``, start 3 process with rxq/txq set as 6 (proc_id:0~2, queue id:0~5) with the following arguments::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=6 --txq=6 --num-procs=3 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=6 --txq=6 --num-procs=3 --proc-id=1
+   ./dpdk-testpmd -l 5,6 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=6 --txq=6 --num-procs=3 --proc-id=2
+
+2. Create rule to set queue as one of each process queues::
+
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.0.20  / end actions queue index 0 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.1.20  / end actions queue index 1 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.2.20 / end actions queue index 2 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.3.20 / end actions queue index 3 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.4.20  / end actions queue index 4 / end
+   flow create 0 ingress pattern eth / ipv4 src is 192.168.5.20 / end actions queue index 5 / end
+
+3. Send 1 matched packet for each rule::
+
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.0.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.1.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.2.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.3.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.4.20")/("X"*46)
+   Ether(dst="00:11:22:33:44:55")/IP(src="192.168.5.20")/("X"*46)
+
+4. Check whether each process receives 2 packets with the corresponding queue::
+
+   process 0 should receive 2 packets with queue 0~1
+   process 1 should receive 2 packets with queue 2~3
+   process 2 should receive 2 packets with queue 4~5
+
+5. Check the statistics is correctly, the total number of packets received is 6
+
+Test Case: test_multiprocess_with_fdir_rule
+===========================================
+
+Launch the app ``testpmd``, start 2 process with rxq/txq set as 16 (proc_id:0~1, queue id:0~15) with the following arguments::
+
+   ./dpdk-testpmd -l 1,2 -n 4 -a 0000:05:01.0 --proc-type=auto  --log-level=ice,7 -- -i --rxq=16 --txq=16  --num-procs=2 --proc-id=0
+   ./dpdk-testpmd -l 3,4 -n 4 -a 0000:05:01.0 --proc-type=auto  --log-level=ice,7 -- -i --rxq=16 --txq=16  --num-procs=2 --proc-id=1
+
+Subcase 1: mac_ipv4_pay_queue_index
+-----------------------------------
+
+1. Create rule::
+
+   flow create 0 ingress pattern eth dst is 00:11:22:33:44:55 / ipv4 src is 192.168.0.20 dst is 192.168.0.21 proto is 255 ttl is 2 tos is 4 / end actions queue index 6 / mark id 4 / end
+
+2. Send matched packets, check the packets is distributed to queue 6 with FDIR matched ID=0x4.
+   Send unmatched packets, check the packets are distributed by RSS without FDIR matched ID
+
+3. Verify rules can be listed and destroyed::
+
+    testpmd> flow list 0
+
+   check the rule listed.
+   destroy the rule::
+
+    testpmd> flow destroy 0 rule 0
+
+4. Verify matched packet is distributed by RSS without FDIR matched ID.
+   check there is no rule listed.
+
+Subcase 2: mac_ipv4_pay_rss_queues
+----------------------------------
+1. Create rule::
+
+   flow create 0 ingress pattern eth dst is 00:11:22:33:44:55 / ipv4 src is 192.168.0.20 dst is 192.168.0.21 proto is 255 ttl is 2 tos is 4 / end actions rss queues 10 11 end / mark / end
+
+2. Send matched packets, check the packets is distributed to queue 10 or 11.
+   Send unmatched packets, check the packets are distributed by RSS
+
+3. Repeat step 3 of subcase 1
+
+4. Verify matched packet is distributed by RSS.
+   check there is no rule listed.
+
+Subcase 3: mac_ipv4_pay_drop
+----------------------------
+
+1. Create rule::
+
+   flow create 0 ingress pattern eth dst is 00:11:22:33:44:55 / ipv4 src is 192.168.0.20 dst is 192.168.0.21 proto is 255 ttl is 2 tos is 4 / end actions drop / mark / end
+
+2. Send matched packets, check the packets are dropped.
+   Send unmatched packets, check the packets are not dropped
+
+3. Repeat step 3 of subcase 1
+
+4. Verify matched packets are not dropped.
+   check there is no rule listed.
+
+Subcase 4: mac_ipv4_pay_mark_rss
+--------------------------------
+1. Create rule::
+
+   flow create 0 ingress pattern eth dst is 00:11:22:33:44:55 / ipv4 src is 192.168.0.20 dst is 192.168.0.21 proto is 255 ttl is 2 tos is 4 / end actions mark / rss / end
+
+2. Send matched packets, check the packets are distributed by RSS with FDIR matched ID=0x0.
+   Send unmatched packets, check the packets are distributed by RSS without FDIR matched ID
+
+3. Repeat step 3 of subcase 1
+
+4. Verify matched packets are distributed to the same queue without FDIR matched ID.
+   check there is no rule listed.
+
+Note: step2 and step4 need to check whether all received packets of each process are distributed by RSS
+
+
+Test Case: test_multiprocess_with_rss_toeplitz
+==============================================
+Launch the app ``testpmd``,start 2 process with queue num set as 16 (proc_id: 0~1, queue id: 0~15) with the following arguments::
+
+    ./dpdk-testpmd -l 1,2 -n 4 -a 0000:05:01.0 --proc-type=auto  --log-level=ice,7 -- -i --rxq=16 --txq=16  --num-procs=2 --proc-id=0
+    ./dpdk-testpmd -l 3,4 -n 4 -a 0000:05:01.0 --proc-type=auto  --log-level=ice,7 -- -i --rxq=16 --txq=16  --num-procs=2 --proc-id=1
+
+all the test cases run the same test steps as below::
+
+    1. validate rule.
+    2. create rule and list rule.
+    3. send a basic hit pattern packet,record the hash value,
+       check the packet is distributed to queues by RSS.
+    4. send hit pattern packet with changed input set in the rule.
+       check the received packet have different hash value with basic packet.
+       check the packet is distributed to queues by rss.
+    5. send hit pattern packet with changed input set not in the rule.
+       check the received packet have same hash value with the basic packet.
+       check the packet is distributed to queues by rss.
+    6. destroy the rule and list rule.
+    7. send same packet with step 3.
+       check the received packets have no hash value, and distributed to queue 0.
+
+    Note: step3, step4 and step5 need to check whether all received packets of each process are distributed by RSS
+
+basic hit pattern packets are the same in this test case.
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+Subcase 1: mac_ipv4_tcp_l2_src
+------------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types eth l2-src-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E1")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:27:E0")/IP(dst="192.168.0.3", src="192.168.0.5")/TCP(sport=25,dport=99)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l2_dst
+----------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types eth l2-dst-only end key_len 0 queues end / end
+
+2. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.3", src="192.168.0.5")/TCP(sport=25,dport=99)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l2src_l2dst
+---------------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types eth end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", dst="68:05:CA:BB:26:E1")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.3", src="192.168.0.5")/TCP(sport=25,dport=99)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l3_src
+----------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l3-src-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=32,dport=33)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l3_dst
+----------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l3-dst-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=32,dport=33)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l3src_l4src
+---------------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l3-src-only l4-src-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l3src_l4dst
+---------------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l3-src-only l4-dst-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l3dst_l4src
+---------------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l3-dst-only l4-src-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l3dst_l4dst
+---------------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l3-dst-only l4-dst-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l4_src
+----------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l4-src-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", dst="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.1.1", src="192.168.1.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_l4_dst
+----------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp l4-dst-only end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.1.1", src="192.168.1.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+
+Subcase: mac_ipv4_tcp_ipv4
+--------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4 end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:27:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=32,dport=33)/("X"*480)],iface="enp134s0f0")
+
+Subcase: mac_ipv4_tcp_all
+-------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / tcp / end actions rss types ipv4-tcp end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=33)/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=32,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.1.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.1.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+3. hit pattern/not defined input set:
+ipv4-tcp packets::
+
+    sendp([Ether(src="00:11:22:33:44:55", dst="68:05:CA:BB:27:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+Test Case: test_multiprocess_with_rss_symmetric
+===============================================
+Launch the app ``testpmd``, start 2 process with queue num set as 16(proc_id: 0~1, queue id: 0~15) with the following arguments::
+
+    ./dpdk-testpmd -l 1,2 -n 4 -a 0000:05:01.0 --proc-type=auto  --log-level=ice,7 -- -i --rxq=16 --txq=16  --num-procs=2 --proc-id=0
+    ./dpdk-testpmd -l 3,4 -n 4 -a 0000:05:01.0 --proc-type=auto  --log-level=ice,7 -- -i --rxq=16 --txq=16  --num-procs=2 --proc-id=1
+
+test steps as below::
+
+    1. validate and create rule.
+    2. set "port config all rss all".
+    3. send hit pattern packets with switched value of input set in the rule.
+       check the received packets have the same hash value.
+       check all the packets are distributed to queues by rss
+    4. destroy the rule and list rule.
+    5. send same packets with step 3
+       check the received packets have no hash value, or have different hash value.
+
+    Note: step3 needs to check whether all received packets of each process are distributed by RSS
+
+Subcase: mac_ipv4_symmetric
+---------------------------
+1. create rss rule::
+
+    flow create 0 ingress pattern eth / ipv4 / end actions rss func symmetric_toeplitz types ipv4 end key_len 0 queues end / end
+
+2. hit pattern/defined input set:
+ipv4-nonfrag packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.2", src="192.168.0.1")/("X"*480)],iface="ens786f0")
+
+ipv4-frag packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2",frag=6)/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.2", src="192.168.0.1",frag=6)/("X"*480)],iface="ens786f0")
+
+ipv4-tcp packets::
+
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.1", src="192.168.0.2")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+    sendp([Ether(dst="00:11:22:33:44:55", src="68:05:CA:BB:26:E0")/IP(dst="192.168.0.2", src="192.168.0.1")/TCP(sport=22,dport=23)/("X"*480)],iface="ens786f0")
+
+Test Case: test_multiprocess_auto_process_type_detected
+=======================================================
+1. start 2 process with queue num set as 8 (proc_id:0~1,queue id:0~7)::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=auto -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=1
+
+2. check the ouput of each process::
+
+   process 1 output contains 'Auto-detected process type: PRIMARY'
+   process 2 output contains 'Auto-detected process type: SECONDARY'
+
+Test Case: test_multiprocess_negative_2_primary_process
+=======================================================
+1. start 2 process with queue num set as 4 (proc_id:0~1,queue id:0~3)::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=primary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=4 --txq=4 --num-procs=2 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=primary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=4 --txq=4 --num-procs=2 --proc-id=1
+
+2. check the ouput of each process::
+
+   process 1 launches successfully
+   process 2 launches failed and output contains 'Is another primary process running?'
+
+Test Case: test_multiprocess_negative_exceed_process_num
+========================================================
+1. start 3 process exceed the specifed num 2::
+
+   ./dpdk-testpmd -l 1,2 --proc-type=primary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=0
+   ./dpdk-testpmd -l 3,4 --proc-type=primary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=1
+   ./dpdk-testpmd -l 5,6 --proc-type=primary -a 0000:05:01.0  --log-level=ice,7 -- -i --rxq=8 --txq=8 --num-procs=2 --proc-id=2
+
+2. check the ouput of each process::
+
+   the first and second processes should be launched successfully
+   the third process should be launched failed and output should contain the following string:
+   'multi-process option proc-id(2) should be less than num-procs(2)'
-- 
2.25.1


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