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* [dts] [PATCH] add VEB_test_plan to test_plans
@ 2016-10-14 13:50 Yuan Peng
  2016-10-14 14:04 ` Liu, Yong
  0 siblings, 1 reply; 2+ messages in thread
From: Yuan Peng @ 2016-10-14 13:50 UTC (permalink / raw)
  To: dts; +Cc: pengyuan

From: pengyuan <yuan.peng@intel.com>

Signed-off-by: pengyuan <yuan.peng@intel.com>

diff --git a/test_plans/VEB_test_plan.rst b/test_plans/VEB_test_plan.rst
new file mode 100644
index 0000000..6fad452
--- /dev/null
+++ b/test_plans/VEB_test_plan.rst
@@ -0,0 +1,467 @@
+.. Copyright (c) <2011>, 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.
+
+=====================================
+VEB Switch and floating VEB Test Plan 
+=====================================
+
+VEB Switching Introduction
+==========================
+
+IEEE EVB tutorial: http://www.ieee802.org/802_tutorials/2009-11/evb-tutorial-draft-20091116_v09.pdf
+
+Virtual Ethernet Bridge (VEB) - This is an IEEE EVB term. A VEB is a VLAN Bridge internal to Fortville that bridges the traffic of multiple VSIs over an internal virtual network. 
+
+Virtual Ethernet Port Aggregator (VEPA) - This is an IEEE EVB term. A VEPA multiplexes the traffic of one or more VSIs onto a single Fortville Ethernet port. The biggest difference between a VEB and a VEPA is that a VEB can switch packets internally between VSIs, whereas a VEPA cannot. 
+
+Virtual Station Interface (VSI) - This is an IEEE EVB term that defines the properties of a virtual machine's (or a physical machine's) connection to the network. Each downstream v-port on a Fortville VEB or VEPA defines a VSI. A standards-based definition of VSI properties enables network management tools to perform virtual machine migration and associated network re-configuration in a vendor-neutral manner.
+
+My understanding of VEB is that it's an in-NIC switch(MAC/VLAN), and it can support VF->VF, PF->VF, VF->PF packet forwarding according to the NIC internal switch. It's similar as Niantic's SRIOV switch.
+
+Floating VEB Introduction
+=========================
+
+Floating VEB is based on VEB Switching. It will address 2 problems:
+
+Dependency on PF: When the physical port is link down, the functionality of the VEB/VEPA will not work normally. Even only data forwarding between the VF is required, one PF port will be wasted to create the related VEB.
+
+Ensure all the traffic from VF can only forwarding within the VFs connect to the floating VEB, cannot forward to the outside world.
+
+Prerequisites for VEB testing
+=============================
+
+1. Get the pci device id of DUT, for example::
+
+    ./dpdk_nic_bind.py --st
+
+    0000:05:00.0 'Ethernet Controller X710 for 10GbE SFP+' if=ens785f0 drv=i40e unused=
+    
+2.1  Host PF in kernel driver. Create 2 VFs from 1 PF with kernel driver, and set the VF MAC address at PF::
+
+    echo 2 > /sys/bus/pci/devices/0000\:05\:00.0/sriov_numvfs
+    ./dpdk_nic_bind.py --st
+
+    0000:05:02.0 'XL710/X710 Virtual Function' unused=
+    0000:05:02.1 'XL710/X710 Virtual Function' unused=
+
+    ip link set ens785f0 vf 0 mac 00:11:22:33:44:11
+    ip link set ens785f0 vf 1 mac 00:11:22:33:44:12
+
+2.2  Host PF in DPDK driver. Create 2VFs from 1 PF with dpdk driver:: 
+    
+    ./dpdk_nic_bind.py -b igb_uio 05:00.0 
+    echo 2 >/sys/bus/pci/devices/0000:05:00.0/max_vfs
+    ./dpdk_nic_bind.py --st
+    0000:05:02.0 'XL710/X710 Virtual Function' unused=i40evf,igb_uio
+    0000:05:02.1 'XL710/X710 Virtual Function' unused=i40evf,igb_uio
+
+3. Bind the VFs to dpdk driver::
+
+    ./tools/dpdk-devbind.py -b igb_uio 05:02.0 05:02.1
+
+4. Reserve huge pages memory(before using DPDK)::
+
+     echo 4096 > /sys/devices/system/node/node0/hugepages/hugepages-2048kB/nr_hugepages 
+     mkdir /mnt/huge  
+     mount -t hugetlbfs nodev /mnt/huge    
+
+
+Test Case1: VEB Switching Inter VF-VF MAC switch
+===================================================
+
+Summary: Kernel PF, then create 2VFs. VFs running dpdk testpmd, send traffic to VF1, and set the packet's DEST MAC to VF2, check if VF2 can receive the packets. Check Inter          VF-VF MAC switch.
+ 
+Details::
+
+1. In VF1, run testpmd::
+
+   ./x86_64-native-linuxapp-gcc/app/testpmd -c 0x3 -n 4 --socket-mem 1024,1024 -w 05:02.0 --file-prefix=test1 -- -i --crc-strip --eth-peer=0,00:11:22:33:44:12
+   testpmd>set fwd mac
+   testpmd>set promisc all off
+   testpmd>start
+   
+   In VF2, run testpmd::
+
+   ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xa -n 4 --socket-mem 1024,1024 -w 05:02.1 --file-prefix=test2 -- -i --crc-strip
+   testpmd>set fwd mac
+   testpmd>set promisc all off 
+   testpmd>start
+
+   
+2. Send 100 packets to VF1's MAC address, check if VF2 can get 100 packets. Check the packet content is no corrupted.
+
+Test Case2: VEB Switching Inter VF-VF MAC/VLAN switch
+========================================================
+
+Summary: Kernel PF, then create 2VFs, assign VF1 with VLAN=1 in, VF2 with VLAN=2. VFs are running dpdk testpmd, send traffic to VF1 with VLAN=1, then let it forwards to VF2,it should not work since they are not in the same VLAN; set VF2 with VLAN=1, then send traffic to VF1 with VLAN=1, and VF2 can receive the packets. Check inter VF MAC/VLAN switch.
+
+Details: 
+1. Set the VLAN id of VF1 and VF2:: 
+
+    ip link set ens785f0 vf 0 vlan 1
+    ip link set ens785f0 vf 1 vlan 2 
+
+2. In VF1, run testpmd::
+
+   ./testpmd -c 0xf -n 4 --socket-mem 1024,1024 -w 0000:05:02.0 --file-prefix=test1 -- -i --crc-strip --eth-peer=0,00:11:22:33:44:12
+   testpmd>set fwd mac
+   testpmd>set promisc all off
+   testpmd>start
+   
+   In VF2, run testpmd::
+
+   ./testpmd -c 0xf0 -n 4 --socket-mem 1024,1024 -w 0000:05:02.1 --file-prefix=test2 -- -i --crc-strip
+   testpmd>set fwd rxonly                         //need to set rxonly, or the Vf2 will count the fwd packet num
+   testpmd>set promisc all off
+   testpmd>start
+
+   
+4. Send 100 packets with VF1's MAC address and VLAN=1, check if VF2 can't get 100 packets since they are not in the same VLAN.
+ 
+5. Change the VLAN id of VF2::
+
+    ip link set ens785f0 vf 1 vlan 1
+
+6. Send 100 packets with VF1's MAC address and VLAN=1, check if VF2 can get 100 packets since they are in the same VLAN now. Check the packet content is not corrupted::
+
+    sendp([Ether(dst="00:11:22:33:44:11")/Dot1Q(vlan=1)/IP()/Raw('x'*40)],iface="ens785f1")
+
+
+Test Case3: VEB Switching Inter PF-VF MAC switch
+===================================================
+
+Summary: DPDK PF, then create 1VF, PF in the host running dpdk testpmd, send traffic from PF to VF1, ensure PF->VF1(let VF1 in promisc mode); send traffic from VF1 to PF,            ensure VF1->PF can work.
+
+Details:
+
+1. vf->pf
+   In host, launch testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i 
+   testpmd>set mac rxonly
+   testpmd>set promisc all off
+   testpmd>start
+   
+   In VM1, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
+   testpmd>set mac txonly
+   testpmd>set promisc all off
+   testpmd>start
+
+2. pf->vf
+   In host, launch testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf1_mac_addr
+   testpmd>set mac txonly
+   testpmd>set promisc all off
+   testpmd>start
+
+   In VM1, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i
+   testpmd>mac_addr add 0 vf1_mac_addr
+   testpmd>set mac rxonly
+   testpmd>set promisc all off
+   testpmd>start
+
+3. tester->vf
+   
+4. Send 100 packets with PF's MAC address from VF, check if PF can get 100 packets, so VF1->PF is working. Check the packet content is not corrupted. 
+
+5. Send 100 packets with VF's MAC address from PF, check if VF1 can get 100 packets, so PF->VF1 is working. Check the packet content is not corrupted. 
+
+6. Send 100 packets with VF's MAC address from tester, check if VF1 can get 100 packets, so tester->VF1 is working. Check the packet content is not corrupted.
+ 
+
+Test Case4: VEB Switching Inter-VM PF-VF/VF-VF MAC switch Performance
+=====================================================================
+
+Performance testing, repeat Testcase1(VF-VF) and Testcase3(PF-VF) to check the performance at different sizes(64B--1518B and jumbo frame--3000B) with 100% rate sending traffic
+
+Test Case5: Floating VEB inter VF-VF 
+=======================================================
+
+Summary: 1 DPDK PF, then create 2VF, PF in the host running dpdk testpmd, and VF0 are running dpdk testpmd, VF0 send traffic, and set the packet's DEST MAC to VF1, check if VF1 can receive the packets. Check Inter VF-VF MAC switch when PF is link down as well as up.
+
+Launch PF testpmd: ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xf -n 4 --socket-mem 1024,1024 -w 05:00.0,enable_floating_veb=1 --file-prefix=test1 -- -i
+
+2. In the host, run testpmd with floating parameters and make the link down::
+
+    ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xf -n 4 --socket-mem 1024,1024 -w 05:00.0,enable_floating_veb=1 --file-prefix=test1 -- -i
+    testpmd> port start all
+    testpmd> show port info all
+
+3. In VM1, run testpmd::
+
+    ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xf0 -n 4 --socket-mem 1024,1024 -w 05:02.0 --file-prefix=test2 -- -i --crc-strip 
+    testpmd>mac_addr add 0 vf1_mac_address
+    testpmd>set fwd rxonly
+    testpmd>start
+    testpmd>show port stats all
+   
+   In VM2, run testpmd::
+
+    ./testpmd -c 0xf00 -n 4 --socket-mem 1024,1024 -w 05:02.1 --file-prefix=test3 -- -i --crc-strip --eth-peer=0,vf1_mac_address
+    testpmd>set fwd txonly
+    testpmd>start
+    testpmd>show port stats all
+
+4. check if VF1 can get all the packets. Check the packet content is no corrupted. RX-packets=TX-packets, but there is a little RX-error. RF receive no packets.
+
+5. Set "testpmd> port stop all" and "testpmd> start" in step2, then run the step3-4 again. same result.
+
+
+Test Case6: Floating VEB PF can't get traffic from VF    
+================================================================
+DPDK PF, then create 1VF, PF in the host running dpdk testpmd, send traffic from PF to VF0, VF0 can't receive any packets; send traffic from VF0 to PF, PF can't receive any packets either.
+ 
+
+1. In host, launch testpmd::
+
+   ./testpmd -c 0x3 -n 4 -w 82:00.0,enable_floating_veb=1 -- -i
+   testpmd> set fwd rxonly
+   testpmd> port start all
+   testpmd> start
+   testpmd> show port stats all
+
+3. In VM1, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
+   testpmd>set fwd txonly
+   testpmd>start
+   testpmd>show port stats all
+
+4. Check if PF can not get any packets, so VF1->PF is not working. 
+
+5. Set "testpmd> port stop all" in step2, then run the test case again. Same result.
+
+
+
+Test Case6-2 Floating VEB VF can't receive traffic from outside world 
+======================================================
+
+DPDK PF, then create 1VF, send traffic from tester to VF1, in floating mode, check VF1 can't receive traffic from tester.
+
+1. Start VM1 with VF1, see the prerequisite part.
+
+2. In host, launch testpmd::
+
+   ./testpmd -c 0x3 -n 4 -w 82:00.0,enable_floating_veb=1 -- -i 
+   testpmd> set fwd mac
+   testpmd> port start all
+   testpmd> start
+   testpmd> show port stats all
+   
+
+   In VM1, run testpmd:
+
+   ./testpmd -c 0x3 -n 4 -- -i 
+    testpmd>show port info all    //get VF_mac_address
+    testpmd>set fwd rxonly
+    testpmd>start
+    testpmd>show port stats all
+
+   In tester, run scapy
+
+   packet=Ether(dst="VF_mac_address")/IP()/UDP()/Raw('x'*20)
+   sendp(packet,iface="enp132s0f0")
+   
+3. Check if VF1 can not get any packets, so tester->VF1 is not working.
+4. Set "testpmd> port stop all" in step2 in Host, then run the test case again. same result.PF can't receive any packets. 
+
+
+Test Case7: Floating VEB VF can not communicate with legacy VEB VF 
+======================================================
+
+Summary: DPDK PF, then create 4VFs and 4VMs, VF1,VF3,VF4, floating VEB; VF2, lagecy VEB. Make PF link down(the cable can be pluged out), VFs in VMs are running dpdk testpmd.
+1. VF1 send traffic, and set the packet's DEST MAC to VF2, check VF2 can not receive the packets. 
+2. VF1 send traffic, and set the packet's DEST MAC to VF3, check VF3 can receive the packets. 
+3. VF4 send traffic, and set the packet's DEST MAC to VF3, check VF3 can receive the packets.
+4. VF2 send traffic, and set the packet's DEST MAC to VF1, check VF1 can not receive the packets. 
+Check Inter-VM VF-VF MAC switch when PF is link down as well as up.
+
+Launch PF testpmd: ./testpmd -c 0x3 -n 4 -w "82:00.0,enable_floating_veb=1,floating_veb_list=0;2-3" -- -i
+
+1. Start VM1 with VF1, VM2 with VF2, VM3 with VF3, VM4 with VF4,see the prerequisite part.
+
+2. In the host, run testpmd with floating parameters and make the link down::
+
+    ./testpmd -c 0x3 -n 4 -w "82:00.0,enable_floating_veb=1,floating_veb_list=0;2-3" -- -i     //VF1 and VF3 in floating VEB, VF2 in legacy VEB
+    testpmd> port stop all     //this step should be executed after vf running testpmd.
+    testpmd> show port info all
+
+3. VF1 send traffic, and set the packet's DEST MAC to VF2, check VF2 can not receive the packets.
+
+    In VM2, run testpmd::
+
+    ./testpmd -c 0x3 -n 4 -- -i 
+    testpmd>set fwd rxonly
+    testpmd>mac_addr add 0 vf2_mac_address     //set the vf2_mac_address
+    testpmd>start
+    testpmd>show port stats all
+   
+    In VM1, run testpmd::
+
+    ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf2_mac_address
+    testpmd>set fwd txonly
+    testpmd>start
+    testpmd>show port stats all
+
+    Check VF2 can not get any packets, so VF1->VF2 is not working.
+
+4. VF1 send traffic, and set the packet's DEST MAC to VF3, check VF3 can receive the packets.
+
+    In VM3, run testpmd::
+
+    ./testpmd -c 0x3 -n 4 -- -i 
+    testpmd>set fwd rxonly
+    testpmd>show port info all     //get the vf3_mac_address
+    testpmd>start
+    testpmd>show port stats all
+
+    In VM1, run testpmd::
+
+    ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf3_mac_address
+    testpmd>set fwd txonly
+    testpmd>start
+    testpmd>show port stats all
+
+    Check VF3 can get all the packets. Check the packet content is no corrupted., so VF1->VF2 is working.
+
+5. VF2 send traffic, and set the packet's DEST MAC to VF1, check VF1 can not receive the packets. 
+
+    In VM1, run testpmd::
+
+    ./testpmd -c 0x3 -n 4 -- -i 
+    testpmd>set fwd rxonly
+    testpmd>show port info all     //get the vf1_mac_address
+    testpmd>start
+    testpmd>show port stats all
+
+    In VM2, run testpmd::
+
+    ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf1_mac_address
+    testpmd>set fwd txonly
+    testpmd>start
+    testpmd>show port stats all
+
+    Check VF1 can not get any packets, so VF2->VF1 is not working.
+
+6. Set "testpmd> port start all" and "testpmd> start" in step2, then run the step3-5 again. same result.
+
+Note: if ./testpmd -c 0x3 -n 4 -w "82:00.0,enable_floating_veb=1,floating_veb_list=0;3" -- -i
+vf0 and vf3 is floating VEB
+vf1 and vf2 is legacy VEB
+when pf port stop all
+traffic between vf0 and vf3 is normal
+traffic between vf1 and vf2 is normal
+traffic between vf0 and vf1 is down
+
+
+Test Case8: PF can't get traffic from Floating VEB VF, but PF can get traffic from legacy VEB VF.
+================================================================
+DPDK PF, then create 2VFs, VF0 is in floating VEB, VF1 is in legacy VEB.
+1. Send traffic from VF0 to PF, then check PF will not see any traffic;
+2. Send traffic from VF1 to PF, then check PF will receive all the packets.
+3. send traffic from tester to VF0, check VF0 can't receive traffic from tester.
+4. send traffic from tester to VF1, check VF1 can receive all the traffic from tester.
+
+1. In host, launch testpmd::
+
+   ./testpmd -c 0x3 -n 4 -w 82:00.0,enable_floating_veb=1,floating_veb_list=0 -- -i   //VF1 in floating VEB, VF2 in legacy VEB
+   testpmd> set fwd rxonly
+   testpmd> port start all
+   testpmd> start
+   testpmd> show port stats all
+
+3. In VF1, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
+   testpmd>set fwd txonly
+   testpmd>start
+   testpmd>show port stats all
+
+   Check PF can not get any packets, so VF1->PF is not working. 
+
+4. In VF2, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
+   testpmd>set fwd txonly
+   testpmd>start
+   testpmd>show port stats all
+
+   Check PF can get all the packets, so VF2->PF is working.
+
+5. Set "testpmd> port stop all" in step2 in Host, then run the test case again. same result.
+
+6. In host, launch testpmd::
+
+   ./testpmd -c 0x3 -n 4 -w 82:00.0,enable_floating_veb=1,floating_veb_list=0 -- -i   //VF1 in floating VEB, VF2 in legacy VEB 
+   testpmd> set fwd mac
+   testpmd> port start all
+   testpmd> start
+   testpmd> show port stats all
+   
+
+7. In VF1, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i 
+    testpmd>show port info all    //get VF1_mac_address
+    testpmd>set fwd rxonly
+    testpmd>start
+    testpmd>show port stats all
+
+   In tester, run scapy
+
+   packet=Ether(dst="VF1_mac_address")/IP()/UDP()/Raw('x'*20)
+   sendp(packet,iface="enp132s0f0")
+   
+   Check VF1 can not get any packets, so tester->VF1 is not working. 
+
+8. In VF2, run testpmd::
+
+   ./testpmd -c 0x3 -n 4 -- -i 
+    testpmd>show port info all    //get VF2_mac_address
+    testpmd>set fwd rxonly
+    testpmd>start
+    testpmd>show port stats all
+
+   In tester, run scapy
+
+   packet=Ether(dst="VF2_mac_address")/IP()/UDP()/Raw('x'*20)
+   sendp(packet,iface="enp132s0f0")
+   
+   Check VF1 can get all the packets, so tester->VF2 is working.
+
+5. Set "testpmd> port stop all" in step2 in Host, then run the test case again. VF1 and VF2 cannot receive any packets. (because PF link down, and PF can't receive any packets. so even if VF2 can't receive any packets.)
+
-- 
2.5.0

^ permalink raw reply	[flat|nested] 2+ messages in thread

* Re: [dts] [PATCH] add VEB_test_plan to test_plans
  2016-10-14 13:50 [dts] [PATCH] add VEB_test_plan to test_plans Yuan Peng
@ 2016-10-14 14:04 ` Liu, Yong
  0 siblings, 0 replies; 2+ messages in thread
From: Liu, Yong @ 2016-10-14 14:04 UTC (permalink / raw)
  To: Peng, Yuan, dts; +Cc: Peng, Yuan

Thanks yuan,  I can easily understand your test plan. BTW, please restrict each line smaller than 79 characters.

> -----Original Message-----
> From: dts [mailto:dts-bounces@dpdk.org] On Behalf Of Yuan Peng
> Sent: Friday, October 14, 2016 8:50 AM
> To: dts@dpdk.org
> Cc: Peng, Yuan
> Subject: [dts] [PATCH] add VEB_test_plan to test_plans
> 
> From: pengyuan <yuan.peng@intel.com>
> 
> Signed-off-by: pengyuan <yuan.peng@intel.com>
> 
> diff --git a/test_plans/VEB_test_plan.rst b/test_plans/VEB_test_plan.rst
> new file mode 100644
> index 0000000..6fad452
> --- /dev/null
> +++ b/test_plans/VEB_test_plan.rst
> @@ -0,0 +1,467 @@
> +.. Copyright (c) <2011>, 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.
> +
> +=====================================
> +VEB Switch and floating VEB Test Plan
> +=====================================
> +
> +VEB Switching Introduction
> +==========================
> +
> +IEEE EVB tutorial: http://www.ieee802.org/802_tutorials/2009-11/evb-
> tutorial-draft-20091116_v09.pdf
> +
> +Virtual Ethernet Bridge (VEB) - This is an IEEE EVB term. A VEB is a VLAN
> Bridge internal to Fortville that bridges the traffic of multiple VSIs
> over an internal virtual network.
> +
> +Virtual Ethernet Port Aggregator (VEPA) - This is an IEEE EVB term. A
> VEPA multiplexes the traffic of one or more VSIs onto a single Fortville
> Ethernet port. The biggest difference between a VEB and a VEPA is that a
> VEB can switch packets internally between VSIs, whereas a VEPA cannot.
> +
> +Virtual Station Interface (VSI) - This is an IEEE EVB term that defines
> the properties of a virtual machine's (or a physical machine's) connection
> to the network. Each downstream v-port on a Fortville VEB or VEPA defines
> a VSI. A standards-based definition of VSI properties enables network
> management tools to perform virtual machine migration and associated
> network re-configuration in a vendor-neutral manner.
> +
> +My understanding of VEB is that it's an in-NIC switch(MAC/VLAN), and it
> can support VF->VF, PF->VF, VF->PF packet forwarding according to the NIC
> internal switch. It's similar as Niantic's SRIOV switch.
> +
> +Floating VEB Introduction
> +=========================
> +
> +Floating VEB is based on VEB Switching. It will address 2 problems:
> +
> +Dependency on PF: When the physical port is link down, the functionality
> of the VEB/VEPA will not work normally. Even only data forwarding between
> the VF is required, one PF port will be wasted to create the related VEB.
> +
> +Ensure all the traffic from VF can only forwarding within the VFs connect
> to the floating VEB, cannot forward to the outside world.
> +
> +Prerequisites for VEB testing
> +=============================
> +
> +1. Get the pci device id of DUT, for example::
> +
> +    ./dpdk_nic_bind.py --st
> +
> +    0000:05:00.0 'Ethernet Controller X710 for 10GbE SFP+' if=ens785f0
> drv=i40e unused=
> +
> +2.1  Host PF in kernel driver. Create 2 VFs from 1 PF with kernel driver,
> and set the VF MAC address at PF::
> +
> +    echo 2 > /sys/bus/pci/devices/0000\:05\:00.0/sriov_numvfs
> +    ./dpdk_nic_bind.py --st
> +
> +    0000:05:02.0 'XL710/X710 Virtual Function' unused=
> +    0000:05:02.1 'XL710/X710 Virtual Function' unused=
> +
> +    ip link set ens785f0 vf 0 mac 00:11:22:33:44:11
> +    ip link set ens785f0 vf 1 mac 00:11:22:33:44:12
> +
> +2.2  Host PF in DPDK driver. Create 2VFs from 1 PF with dpdk driver::
> +
> +    ./dpdk_nic_bind.py -b igb_uio 05:00.0
> +    echo 2 >/sys/bus/pci/devices/0000:05:00.0/max_vfs
> +    ./dpdk_nic_bind.py --st
> +    0000:05:02.0 'XL710/X710 Virtual Function' unused=i40evf,igb_uio
> +    0000:05:02.1 'XL710/X710 Virtual Function' unused=i40evf,igb_uio
> +
> +3. Bind the VFs to dpdk driver::
> +
> +    ./tools/dpdk-devbind.py -b igb_uio 05:02.0 05:02.1
> +
> +4. Reserve huge pages memory(before using DPDK)::
> +
> +     echo 4096 > /sys/devices/system/node/node0/hugepages/hugepages-
> 2048kB/nr_hugepages
> +     mkdir /mnt/huge
> +     mount -t hugetlbfs nodev /mnt/huge
> +
> +
> +Test Case1: VEB Switching Inter VF-VF MAC switch
> +===================================================
> +
> +Summary: Kernel PF, then create 2VFs. VFs running dpdk testpmd, send
> traffic to VF1, and set the packet's DEST MAC to VF2, check if VF2 can
> receive the packets. Check Inter          VF-VF MAC switch.
> +
> +Details::
> +
> +1. In VF1, run testpmd::
> +
> +   ./x86_64-native-linuxapp-gcc/app/testpmd -c 0x3 -n 4 --socket-mem
> 1024,1024 -w 05:02.0 --file-prefix=test1 -- -i --crc-strip --eth-
> peer=0,00:11:22:33:44:12
> +   testpmd>set fwd mac
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +   In VF2, run testpmd::
> +
> +   ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xa -n 4 --socket-mem
> 1024,1024 -w 05:02.1 --file-prefix=test2 -- -i --crc-strip
> +   testpmd>set fwd mac
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +
> +2. Send 100 packets to VF1's MAC address, check if VF2 can get 100
> packets. Check the packet content is no corrupted.
> +
> +Test Case2: VEB Switching Inter VF-VF MAC/VLAN switch
> +========================================================
> +
> +Summary: Kernel PF, then create 2VFs, assign VF1 with VLAN=1 in, VF2 with
> VLAN=2. VFs are running dpdk testpmd, send traffic to VF1 with VLAN=1,
> then let it forwards to VF2,it should not work since they are not in the
> same VLAN; set VF2 with VLAN=1, then send traffic to VF1 with VLAN=1, and
> VF2 can receive the packets. Check inter VF MAC/VLAN switch.
> +
> +Details:
> +1. Set the VLAN id of VF1 and VF2::
> +
> +    ip link set ens785f0 vf 0 vlan 1
> +    ip link set ens785f0 vf 1 vlan 2
> +
> +2. In VF1, run testpmd::
> +
> +   ./testpmd -c 0xf -n 4 --socket-mem 1024,1024 -w 0000:05:02.0 --file-
> prefix=test1 -- -i --crc-strip --eth-peer=0,00:11:22:33:44:12
> +   testpmd>set fwd mac
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +   In VF2, run testpmd::
> +
> +   ./testpmd -c 0xf0 -n 4 --socket-mem 1024,1024 -w 0000:05:02.1 --file-
> prefix=test2 -- -i --crc-strip
> +   testpmd>set fwd rxonly                         //need to set rxonly,
> or the Vf2 will count the fwd packet num
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +
> +4. Send 100 packets with VF1's MAC address and VLAN=1, check if VF2 can't
> get 100 packets since they are not in the same VLAN.
> +
> +5. Change the VLAN id of VF2::
> +
> +    ip link set ens785f0 vf 1 vlan 1
> +
> +6. Send 100 packets with VF1's MAC address and VLAN=1, check if VF2 can
> get 100 packets since they are in the same VLAN now. Check the packet
> content is not corrupted::
> +
> +
> sendp([Ether(dst="00:11:22:33:44:11")/Dot1Q(vlan=1)/IP()/Raw('x'*40)],ifac
> e="ens785f1")
> +
> +
> +Test Case3: VEB Switching Inter PF-VF MAC switch
> +===================================================
> +
> +Summary: DPDK PF, then create 1VF, PF in the host running dpdk testpmd,
> send traffic from PF to VF1, ensure PF->VF1(let VF1 in promisc mode); send
> traffic from VF1 to PF,            ensure VF1->PF can work.
> +
> +Details:
> +
> +1. vf->pf
> +   In host, launch testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i
> +   testpmd>set mac rxonly
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +   In VM1, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
> +   testpmd>set mac txonly
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +2. pf->vf
> +   In host, launch testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf1_mac_addr
> +   testpmd>set mac txonly
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +   In VM1, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i
> +   testpmd>mac_addr add 0 vf1_mac_addr
> +   testpmd>set mac rxonly
> +   testpmd>set promisc all off
> +   testpmd>start
> +
> +3. tester->vf
> +
> +4. Send 100 packets with PF's MAC address from VF, check if PF can get
> 100 packets, so VF1->PF is working. Check the packet content is not
> corrupted.
> +
> +5. Send 100 packets with VF's MAC address from PF, check if VF1 can get
> 100 packets, so PF->VF1 is working. Check the packet content is not
> corrupted.
> +
> +6. Send 100 packets with VF's MAC address from tester, check if VF1 can
> get 100 packets, so tester->VF1 is working. Check the packet content is
> not corrupted.
> +
> +
> +Test Case4: VEB Switching Inter-VM PF-VF/VF-VF MAC switch Performance
> +=====================================================================
> +
> +Performance testing, repeat Testcase1(VF-VF) and Testcase3(PF-VF) to
> check the performance at different sizes(64B--1518B and jumbo frame--3000B)
> with 100% rate sending traffic
> +
> +Test Case5: Floating VEB inter VF-VF
> +=======================================================
> +
> +Summary: 1 DPDK PF, then create 2VF, PF in the host running dpdk testpmd,
> and VF0 are running dpdk testpmd, VF0 send traffic, and set the packet's
> DEST MAC to VF1, check if VF1 can receive the packets. Check Inter VF-VF
> MAC switch when PF is link down as well as up.
> +
> +Launch PF testpmd: ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xf -n 4 -
> -socket-mem 1024,1024 -w 05:00.0,enable_floating_veb=1 --file-prefix=test1
> -- -i
> +
> +2. In the host, run testpmd with floating parameters and make the link
> down::
> +
> +    ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xf -n 4 --socket-mem
> 1024,1024 -w 05:00.0,enable_floating_veb=1 --file-prefix=test1 -- -i
> +    testpmd> port start all
> +    testpmd> show port info all
> +
> +3. In VM1, run testpmd::
> +
> +    ./x86_64-native-linuxapp-gcc/app/testpmd -c 0xf0 -n 4 --socket-mem
> 1024,1024 -w 05:02.0 --file-prefix=test2 -- -i --crc-strip
> +    testpmd>mac_addr add 0 vf1_mac_address
> +    testpmd>set fwd rxonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +   In VM2, run testpmd::
> +
> +    ./testpmd -c 0xf00 -n 4 --socket-mem 1024,1024 -w 05:02.1 --file-
> prefix=test3 -- -i --crc-strip --eth-peer=0,vf1_mac_address
> +    testpmd>set fwd txonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +4. check if VF1 can get all the packets. Check the packet content is no
> corrupted. RX-packets=TX-packets, but there is a little RX-error. RF
> receive no packets.
> +
> +5. Set "testpmd> port stop all" and "testpmd> start" in step2, then run
> the step3-4 again. same result.
> +
> +
> +Test Case6: Floating VEB PF can't get traffic from VF
> +================================================================
> +DPDK PF, then create 1VF, PF in the host running dpdk testpmd, send
> traffic from PF to VF0, VF0 can't receive any packets; send traffic from
> VF0 to PF, PF can't receive any packets either.
> +
> +
> +1. In host, launch testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -w 82:00.0,enable_floating_veb=1 -- -i
> +   testpmd> set fwd rxonly
> +   testpmd> port start all
> +   testpmd> start
> +   testpmd> show port stats all
> +
> +3. In VM1, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
> +   testpmd>set fwd txonly
> +   testpmd>start
> +   testpmd>show port stats all
> +
> +4. Check if PF can not get any packets, so VF1->PF is not working.
> +
> +5. Set "testpmd> port stop all" in step2, then run the test case again.
> Same result.
> +
> +
> +
> +Test Case6-2 Floating VEB VF can't receive traffic from outside world
> +======================================================
> +
> +DPDK PF, then create 1VF, send traffic from tester to VF1, in floating
> mode, check VF1 can't receive traffic from tester.
> +
> +1. Start VM1 with VF1, see the prerequisite part.
> +
> +2. In host, launch testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -w 82:00.0,enable_floating_veb=1 -- -i
> +   testpmd> set fwd mac
> +   testpmd> port start all
> +   testpmd> start
> +   testpmd> show port stats all
> +
> +
> +   In VM1, run testpmd:
> +
> +   ./testpmd -c 0x3 -n 4 -- -i
> +    testpmd>show port info all    //get VF_mac_address
> +    testpmd>set fwd rxonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +   In tester, run scapy
> +
> +   packet=Ether(dst="VF_mac_address")/IP()/UDP()/Raw('x'*20)
> +   sendp(packet,iface="enp132s0f0")
> +
> +3. Check if VF1 can not get any packets, so tester->VF1 is not working.
> +4. Set "testpmd> port stop all" in step2 in Host, then run the test case
> again. same result.PF can't receive any packets.
> +
> +
> +Test Case7: Floating VEB VF can not communicate with legacy VEB VF
> +======================================================
> +
> +Summary: DPDK PF, then create 4VFs and 4VMs, VF1,VF3,VF4, floating VEB;
> VF2, lagecy VEB. Make PF link down(the cable can be pluged out), VFs in
> VMs are running dpdk testpmd.
> +1. VF1 send traffic, and set the packet's DEST MAC to VF2, check VF2 can
> not receive the packets.
> +2. VF1 send traffic, and set the packet's DEST MAC to VF3, check VF3 can
> receive the packets.
> +3. VF4 send traffic, and set the packet's DEST MAC to VF3, check VF3 can
> receive the packets.
> +4. VF2 send traffic, and set the packet's DEST MAC to VF1, check VF1 can
> not receive the packets.
> +Check Inter-VM VF-VF MAC switch when PF is link down as well as up.
> +
> +Launch PF testpmd: ./testpmd -c 0x3 -n 4 -w
> "82:00.0,enable_floating_veb=1,floating_veb_list=0;2-3" -- -i
> +
> +1. Start VM1 with VF1, VM2 with VF2, VM3 with VF3, VM4 with VF4,see the
> prerequisite part.
> +
> +2. In the host, run testpmd with floating parameters and make the link
> down::
> +
> +    ./testpmd -c 0x3 -n 4 -w
> "82:00.0,enable_floating_veb=1,floating_veb_list=0;2-3" -- -i     //VF1
> and VF3 in floating VEB, VF2 in legacy VEB
> +    testpmd> port stop all     //this step should be executed after vf
> running testpmd.
> +    testpmd> show port info all
> +
> +3. VF1 send traffic, and set the packet's DEST MAC to VF2, check VF2 can
> not receive the packets.
> +
> +    In VM2, run testpmd::
> +
> +    ./testpmd -c 0x3 -n 4 -- -i
> +    testpmd>set fwd rxonly
> +    testpmd>mac_addr add 0 vf2_mac_address     //set the vf2_mac_address
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +    In VM1, run testpmd::
> +
> +    ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf2_mac_address
> +    testpmd>set fwd txonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +    Check VF2 can not get any packets, so VF1->VF2 is not working.
> +
> +4. VF1 send traffic, and set the packet's DEST MAC to VF3, check VF3 can
> receive the packets.
> +
> +    In VM3, run testpmd::
> +
> +    ./testpmd -c 0x3 -n 4 -- -i
> +    testpmd>set fwd rxonly
> +    testpmd>show port info all     //get the vf3_mac_address
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +    In VM1, run testpmd::
> +
> +    ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf3_mac_address
> +    testpmd>set fwd txonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +    Check VF3 can get all the packets. Check the packet content is no
> corrupted., so VF1->VF2 is working.
> +
> +5. VF2 send traffic, and set the packet's DEST MAC to VF1, check VF1 can
> not receive the packets.
> +
> +    In VM1, run testpmd::
> +
> +    ./testpmd -c 0x3 -n 4 -- -i
> +    testpmd>set fwd rxonly
> +    testpmd>show port info all     //get the vf1_mac_address
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +    In VM2, run testpmd::
> +
> +    ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,vf1_mac_address
> +    testpmd>set fwd txonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +    Check VF1 can not get any packets, so VF2->VF1 is not working.
> +
> +6. Set "testpmd> port start all" and "testpmd> start" in step2, then run
> the step3-5 again. same result.
> +
> +Note: if ./testpmd -c 0x3 -n 4 -w
> "82:00.0,enable_floating_veb=1,floating_veb_list=0;3" -- -i
> +vf0 and vf3 is floating VEB
> +vf1 and vf2 is legacy VEB
> +when pf port stop all
> +traffic between vf0 and vf3 is normal
> +traffic between vf1 and vf2 is normal
> +traffic between vf0 and vf1 is down
> +
> +
> +Test Case8: PF can't get traffic from Floating VEB VF, but PF can get
> traffic from legacy VEB VF.
> +================================================================
> +DPDK PF, then create 2VFs, VF0 is in floating VEB, VF1 is in legacy VEB.
> +1. Send traffic from VF0 to PF, then check PF will not see any traffic;
> +2. Send traffic from VF1 to PF, then check PF will receive all the
> packets.
> +3. send traffic from tester to VF0, check VF0 can't receive traffic from
> tester.
> +4. send traffic from tester to VF1, check VF1 can receive all the traffic
> from tester.
> +
> +1. In host, launch testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -w
> 82:00.0,enable_floating_veb=1,floating_veb_list=0 -- -i   //VF1 in
> floating VEB, VF2 in legacy VEB
> +   testpmd> set fwd rxonly
> +   testpmd> port start all
> +   testpmd> start
> +   testpmd> show port stats all
> +
> +3. In VF1, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
> +   testpmd>set fwd txonly
> +   testpmd>start
> +   testpmd>show port stats all
> +
> +   Check PF can not get any packets, so VF1->PF is not working.
> +
> +4. In VF2, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i --eth-peer=0,pf_mac_addr
> +   testpmd>set fwd txonly
> +   testpmd>start
> +   testpmd>show port stats all
> +
> +   Check PF can get all the packets, so VF2->PF is working.
> +
> +5. Set "testpmd> port stop all" in step2 in Host, then run the test case
> again. same result.
> +
> +6. In host, launch testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -w
> 82:00.0,enable_floating_veb=1,floating_veb_list=0 -- -i   //VF1 in
> floating VEB, VF2 in legacy VEB
> +   testpmd> set fwd mac
> +   testpmd> port start all
> +   testpmd> start
> +   testpmd> show port stats all
> +
> +
> +7. In VF1, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i
> +    testpmd>show port info all    //get VF1_mac_address
> +    testpmd>set fwd rxonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +   In tester, run scapy
> +
> +   packet=Ether(dst="VF1_mac_address")/IP()/UDP()/Raw('x'*20)
> +   sendp(packet,iface="enp132s0f0")
> +
> +   Check VF1 can not get any packets, so tester->VF1 is not working.
> +
> +8. In VF2, run testpmd::
> +
> +   ./testpmd -c 0x3 -n 4 -- -i
> +    testpmd>show port info all    //get VF2_mac_address
> +    testpmd>set fwd rxonly
> +    testpmd>start
> +    testpmd>show port stats all
> +
> +   In tester, run scapy
> +
> +   packet=Ether(dst="VF2_mac_address")/IP()/UDP()/Raw('x'*20)
> +   sendp(packet,iface="enp132s0f0")
> +
> +   Check VF1 can get all the packets, so tester->VF2 is working.
> +
> +5. Set "testpmd> port stop all" in step2 in Host, then run the test case
> again. VF1 and VF2 cannot receive any packets. (because PF link down, and
> PF can't receive any packets. so even if VF2 can't receive any packets.)
> +
> --
> 2.5.0

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2016-10-14 13:50 [dts] [PATCH] add VEB_test_plan to test_plans Yuan Peng
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