[dts] [PATCH] test_plans: add floating veb test plan

Liu, Yong yong.liu at intel.com
Wed Jan 4 04:42:37 CET 2017


Yuan, some comments below.

On 12/30/2016 09:51 AM, Peng Yuan wrote:
> From: peng yuan <yuan.peng at intel.com>
>
> Signed-off-by: peng yuan <yuan.peng at intel.com>
>
> diff --git a/test_plans/floating_veb_test_plan.rst b/test_plans/floating_veb_test_plan.rst
> new file mode 100644
> index 0000000..ad69570
> --- /dev/null
> +++ b/test_plans/floating_veb_test_plan.rst
> @@ -0,0 +1,409 @@
> +.. Copyright (c) <2016>, Intel Corporation
> +      All rights reserved.
> +
> +   Redistribution and use in source and binary forms, with or without
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> +
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> +
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> +   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-devbind.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-devbind.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-devbind.py -b igb_uio 05:00.0
> +    echo 2 >/sys/bus/pci/devices/0000:05:00.0/max_vfs
> +    ./dpdk-devbind.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: 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

No need to show target, only application name testpmd  is enough.
> +
> +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 Case2: Floating VEB PF can't get traffic from VF
> +================================================================
Header indicator should align with case name.

> +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 Case2-2 Floating VEB VF can't receive traffic from outside world
> +======================================================
By now we have no concept for sub-case, please just change index to Case3.

> +
> +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 Case3: 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.
> +
> +
> +Test Case4: PF can't get traffic from Floating VEB VF, but PF can get traffic
> +================================================================
> +from legacy VEB VF.
> +================================================================
Case name is too long, please try to simplify it like "PF interaction 
with Floating VF and legacy 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
> +   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
> +   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.)
> +



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