[dts] [PATCH v2] test_plans/dpdk_gso_lib: add test plan for dpdk gso lib test

[dts] [PATCH v2] test_plans/dpdk_gso_lib: add test plan for dpdk gso lib test

[Yinan]

[-- Warning: decoded text below may be mangled, UTF-8 assumed --]
[-- Attachment #1: Type: text/plain; charset=y, Size: 12008 bytes --]

From: Wang Yinan <yinan.wang@intel.com>

Signed-off-by: Wang Yinan <yinan.wang@intel.com>
---
 test_plans/dpdk_gso_lib_test_plan.rst | 245 ++++++++++++++++++++++++++
 1 file changed, 245 insertions(+)
 create mode 100644 test_plans/dpdk_gso_lib_test_plan.rst

diff --git a/test_plans/dpdk_gso_lib_test_plan.rst b/test_plans/dpdk_gso_lib_test_plan.rst
new file mode 100644
index 0000000..e88cff7
--- /dev/null
+++ b/test_plans/dpdk_gso_lib_test_plan.rst
@@ -0,0 +1,245 @@
+.. Copyright (c) <2019>, 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.
+
+======================
+DPDK GSO lib test plan
+======================
+
+Generic Segmentation Offload (GSO) is a widely used software implementation of
+TCP Segmentation Offload (TSO), which reduces per-packet processing overhead.
+Much like TSO, GSO gains performance by enabling upper layer applications to
+process a smaller number of large packets (e.g. MTU size of 64KB), instead of
+processing higher numbers of small packets (e.g. MTU size of 1500B), thus
+reducing per-packet overhead.
+
+For example, GSO allows guest kernel stacks to transmit over-sized TCP segments
+that far exceed the kernel interface's MTU; this eliminates the need to segment
+packets within the guest, and improves the data-to-overhead ratio of both the
+guest-host link, and PCI bus. The expectation of the guest network stack in this
+scenario is that segmentation of egress frames will take place either in the NIC
+HW, or where that hardware capability is unavailable, either in the host
+application, or network stack.
+
+Bearing that in mind, the GSO library enables DPDK applications to segment
+packets in software. Note however, that GSO is implemented as a standalone
+library, and not via a 'fallback' mechanism (i.e. for when TSO is unsupported
+in the underlying hardware); that is, applications must explicitly invoke the
+GSO library to segment packets. The size of GSO segments ``(segsz)`` is
+configurable by the application.
+
+This test plan includes dpdk gso lib test with TCP/UDP/VxLAN/GRE traffic.
+
+Prerequisites
+=============
+
+Modify the testpmd code as following::
+
+    --- a/app/test-pmd/csumonly.c
+    +++ b/app/test-pmd/csumonly.c
+    @@ -693,10 +693,12 @@ pkt_burst_checksum_forward(struct fwd_stream *fs)
+                     * and inner headers */
+     
+                    eth_hdr = rte_pktmbuf_mtod(m, struct ether_hdr *);
+    +#if 0
+                    ether_addr_copy(&peer_eth_addrs[fs->peer_addr],
+                                    &eth_hdr->d_addr);
+                    ether_addr_copy(&ports[fs->tx_port].eth_addr,
+                                    &eth_hdr->s_addr);
+    +#endif
+                    parse_ethernet(eth_hdr, &info);
+                    l3_hdr = (char *)eth_hdr + info.l2_len;
+
+Test flow
+=========
+
+NIC2(In kernel) <- NIC1(DPDK) <- testpmd(csum fwd) <- Vhost <- Virtio-net
+
+Test Case1: DPDK GSO test with tcp traffic
+==========================================
+
+1. Connect two nic port directly, put nic2 into another namesapce and turn on the gro of this nic port by below cmds::
+
+    ip netns del ns1
+    ip netns add ns1
+    ip link set [enp216s0f0] netns ns1                   # [enp216s0f0] is the name of nic2
+    ip netns exec ns1 ifconfig [enp216s0f0] 1.1.1.8 up
+    ip netns exec ns1 ethtool -K [enp216s0f0] gro on
+
+2. Bind nic1 to igb_uio, launch vhost-user with testpmd::
+
+    ./dpdk-devbind.py -b igb_uio xx:xx.x       # xx:xx.x is the pci addr of nic1
+    ./testpmd -l 2-4 -n 4 --socket-mem 1024,1024  --legacy-mem \
+    --file-prefix=vhost --vdev 'net_vhost0,iface=vhost-net,queues=1,client=0' -- -i --txd=1024 --rxd=1024
+    testpmd>set fwd csum
+    testpmd>stop
+    testpmd>port stop 0
+    testpmd>csum set tcp hw 0
+    testpmd>csum set ip hw 0
+    testpmd>set port 0 gso on
+    testpmd>set gso segsz 1460
+    testpmd>port start 0
+    testpmd>start
+
+3.  Set up vm with virto device and using kernel virtio-net driver::
+
+    taskset -c 13 \
+    qemu-system-x86_64 -name us-vhost-vm1 \
+       -cpu host -enable-kvm -m 2048 -object memory-backend-file,id=mem,size=2048M,mem-path=/mnt/huge,share=on \
+       -numa node,memdev=mem \
+       -mem-prealloc -monitor unix:/tmp/vm2_monitor.sock,server,nowait -net nic,vlan=2,macaddr=00:00:00:08:e8:aa,addr=1f -net user,vlan=2,hostfwd=tcp:127.0.0.1:6001-:22 \
+       -smp cores=1,sockets=1 -drive file=/home/osimg/ubuntu16.img  \
+       -chardev socket,id=char0,path=./vhost-net \
+       -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \
+       -device virtio-net-pci,mac=52:54:00:00:00:01,netdev=mynet1,mrg_rxbuf=on,csum=on,gso=on,host_tso4=on,guest_tso4=on,rx_queue_size=1024,tx_queue_size=1024 -vnc :10 -daemonize
+
+4. In vm, config the virtio-net device with ip::
+
+    ifconfig [ens3] 1.1.1.2 up  # [ens3] is the name of virtio-net
+
+5. Start iperf test, run iperf server at host side and iperf client at vm side, check throughput in log::
+
+    Host side :  ip netns exec ns1 iperf -s
+    VM side:     iperf -c 1.1.1.8 -i 1 -t 60
+
+Test Case2: DPDK GSO test with udp traffic
+==========================================
+
+Similar as Test Case1, all steps are similar except step 5.
+
+5. Start iperf test, run iperf server at host side and iperf client at vm side, check throughput in log::
+
+    Host side :  ip netns exec ns1 iperf -s -u
+    VM side:     iperf -c 1.1.1.8 -i 1 -t 60 -P 4 -u -b 10G -l 9000
+
+Test Case3: DPDK GSO test with vxlan traffic
+============================================
+
+1. Connect two nic port directly, put nic2 into another namesapce and generate the vxlan device in this name space::
+
+    ip netns del ns1
+    ip netns add ns1
+    ip link set [enp216s0f0] netns ns1       # [enp216s0f0] is the name of nic2
+    ip netns exec ns1 ifconfig [enp216s0f0] 188.0.0.1 up
+    ip netns exec ns1 ip link add vxlan100 type vxlan id 1000 remote 188.0.0.2 local 188.0.0.1 dstport 4789 dev [enp216s0f0]
+    ip netns exec ns1 ifconfig vxlan100 1.1.1.1/24 up
+
+2. Bind nic1 to igb_uio, launch vhost-user with testpmd::
+
+    ./dpdk-devbind.py -b igb_uio xx:xx.x
+    ./testpmd -l 2-4 -n 4 --socket-mem 1024,1024  --legacy-mem \
+    --file-prefix=vhost --vdev 'net_vhost0,iface=vhost-net,queues=1,client=0' -- -i --txd=1024 --rxd=1024
+    testpmd>set fwd csum
+    testpmd>stop
+    testpmd>port stop 0
+    testpmd>csum set tcp hw 0
+    testpmd>csum set ip hw 0
+    testpmd>csum set outer-ip hw 0
+    testpmd>csum parse-tunnel on 0
+    testpmd>set port 0 gso on
+    testpmd>set gso segsz 1400
+    testpmd>port start 0
+    testpmd>start
+
+3.  Set up vm with virto device and using kernel virtio-net driver::
+
+    taskset -c 13 \
+    qemu-system-x86_64 -name us-vhost-vm1 \
+       -cpu host -enable-kvm -m 2048 -object memory-backend-file,id=mem,size=2048M,mem-path=/mnt/huge,share=on \
+       -numa node,memdev=mem \
+       -mem-prealloc -monitor unix:/tmp/vm2_monitor.sock,server,nowait -net nic,vlan=2,macaddr=00:00:00:08:e8:aa,addr=1f -net user,vlan=2,hostfwd=tcp:127.0.0.1:6001-:22 \
+       -smp cores=1,sockets=1 -drive file=/home/osimg/ubuntu16.img  \
+       -chardev socket,id=char0,path=./vhost-net \
+       -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \
+       -device virtio-net-pci,mac=52:54:00:00:00:01,netdev=mynet1,mrg_rxbuf=on,csum=on,gso=on,host_tso4=on,guest_tso4=on,rx_queue_size=1024,tx_queue_size=1024 -vnc :10 -daemonize
+
+4. In vm, config the virtio-net device with ip::
+
+    ifconfig [ens3] 188.0.0.2 up  # [ens3] is the name of virtio-net
+    ip link add vxlan100 type vxlan id 1000 remote 188.0.0.1 local 188.0.0.2 dstport 4789 dev [ens3]
+    ifconfig vxlan100 1.1.1.2/24 up
+
+5. Start iperf test, run iperf server at host side and iperf client at vm side, check throughput in log::
+
+    Host side :  ip netns exec ns1 iperf -s
+    VM side:     iperf -c 1.1.1.1 -i 1 -t 60
+
+Test Case4: DPDK GSO test with gre traffic
+==========================================
+
+1. Connect two nic port directly, put nic2 into another namesapce and generate the gre device in this name space::
+
+    ip netns del ns1
+    ip netns add ns1
+    ip link set [enp216s0f0] netns ns1       # [enp216s0f0] is the name of nic2
+    ip netns exec ns1 ifconfig [enp216s0f0] 188.0.0.1 up
+    ip netns exec ns1 ip tunnel add gre100 mode gre remote 188.0.0.2 local 188.0.0.1
+    ip netns exec ns1 ifconfig gre100 1.1.1.1/24 up
+
+2. Bind nic1 to igb_uio, launch vhost-user with testpmd::
+
+    ./dpdk-devbind.py -b igb_uio xx:xx.x
+    ./testpmd -l 2-4 -n 4 --socket-mem 1024,1024  --legacy-mem \
+    --file-prefix=vhost --vdev 'net_vhost0,iface=vhost-net,queues=1,client=0' -- -i --txd=1024 --rxd=1024
+    testpmd>set fwd csum
+    testpmd>stop
+    testpmd>port stop 0
+    testpmd>csum set tcp hw 0
+    testpmd>csum set ip hw 0
+    testpmd>csum set outer-ip hw 0
+    testpmd>csum parse-tunnel on 0
+    testpmd>set port 0 gso on
+    testpmd>set gso segsz 1400
+    testpmd>port start 0
+    testpmd>start
+
+3.  Set up vm with virto device and using kernel virtio-net driver::
+
+    taskset -c 13 \
+    qemu-system-x86_64 -name us-vhost-vm1 \
+       -cpu host -enable-kvm -m 2048 -object memory-backend-file,id=mem,size=2048M,mem-path=/mnt/huge,share=on \
+       -numa node,memdev=mem \
+       -mem-prealloc -monitor unix:/tmp/vm2_monitor.sock,server,nowait -net nic,vlan=2,macaddr=00:00:00:08:e8:aa,addr=1f -net user,vlan=2,hostfwd=tcp:127.0.0.1:6001-:22 \
+       -smp cores=1,sockets=1 -drive file=/home/osimg/ubuntu16.img  \
+       -chardev socket,id=char0,path=./vhost-net \
+       -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \
+       -device virtio-net-pci,mac=52:54:00:00:00:01,netdev=mynet1,mrg_rxbuf=on,csum=on,gso=on,host_tso4=on,guest_tso4=on,rx_queue_size=1024,tx_queue_size=1024 -vnc :10 -daemonize
+
+4. In vm, config the virtio-net device with ip::
+
+    ifconfig [ens3] 188.0.0.2 up  # [ens3] is the name of virtio-net
+    ip tunnel add gre100 mode gre remote 188.0.0.1 local 188.0.0.2
+    ifconfig gre100 1.1.1.2/24 up
+
+5. Start iperf test, run iperf server at host side and iperf client at vm side, check throughput in log::
+
+    Host side :  ip netns exec ns1 iperf -s
+    VM side:     iperf -c 1.1.1.1 -i 1 -t 60
\ No newline at end of file
-- 
2.17.1

Re: [dts] [PATCH v2] test_plans/dpdk_gso_lib: add test plan for dpdk gso lib test

[Tu, Lijuan]

Applied, thanks

> -----Original Message-----
> From: dts [mailto:dts-bounces@dpdk.org] On Behalf Of Yinan
> Sent: Wednesday, May 15, 2019 9:30 AM
> To: dts@dpdk.org
> Cc: Wang, Yinan <yinan.wang@intel.com>
> Subject: [dts] [PATCH v2] test_plans/dpdk_gso_lib: add test plan for dpdk
> gso lib test
> 
> From: Wang Yinan <yinan.wang@intel.com>
> 
> Signed-off-by: Wang Yinan <yinan.wang@intel.com>
> ---
>  test_plans/dpdk_gso_lib_test_plan.rst | 245 ++++++++++++++++++++++++++
>  1 file changed, 245 insertions(+)
>  create mode 100644 test_plans/dpdk_gso_lib_test_plan.rst
> 
> diff --git a/test_plans/dpdk_gso_lib_test_plan.rst
> b/test_plans/dpdk_gso_lib_test_plan.rst
> new file mode 100644
> index 0000000..e88cff7
> --- /dev/null
> +++ b/test_plans/dpdk_gso_lib_test_plan.rst
> @@ -0,0 +1,245 @@
> +.. Copyright (c) <2019>, 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.
> +
> +======================
> +DPDK GSO lib test plan
> +======================
> +
> +Generic Segmentation Offload (GSO) is a widely used software
> +implementation of TCP Segmentation Offload (TSO), which reduces per-
> packet processing overhead.
> +Much like TSO, GSO gains performance by enabling upper layer
> +applications to process a smaller number of large packets (e.g. MTU
> +size of 64KB), instead of processing higher numbers of small packets
> +(e.g. MTU size of 1500B), thus reducing per-packet overhead.
> +
> +For example, GSO allows guest kernel stacks to transmit over-sized TCP
> +segments that far exceed the kernel interface's MTU; this eliminates
> +the need to segment packets within the guest, and improves the
> +data-to-overhead ratio of both the guest-host link, and PCI bus. The
> +expectation of the guest network stack in this scenario is that
> +segmentation of egress frames will take place either in the NIC HW, or
> +where that hardware capability is unavailable, either in the host
> application, or network stack.
> +
> +Bearing that in mind, the GSO library enables DPDK applications to
> +segment packets in software. Note however, that GSO is implemented as a
> +standalone library, and not via a 'fallback' mechanism (i.e. for when
> +TSO is unsupported in the underlying hardware); that is, applications
> +must explicitly invoke the GSO library to segment packets. The size of
> +GSO segments ``(segsz)`` is configurable by the application.
> +
> +This test plan includes dpdk gso lib test with TCP/UDP/VxLAN/GRE traffic.
> +
> +Prerequisites
> +=============
> +
> +Modify the testpmd code as following::
> +
> +    --- a/app/test-pmd/csumonly.c
> +    +++ b/app/test-pmd/csumonly.c
> +    @@ -693,10 +693,12 @@ pkt_burst_checksum_forward(struct
> fwd_stream *fs)
> +                     * and inner headers */
> +
> +                    eth_hdr = rte_pktmbuf_mtod(m, struct ether_hdr *);
> +    +#if 0
> +                    ether_addr_copy(&peer_eth_addrs[fs->peer_addr],
> +                                    &eth_hdr->d_addr);
> +                    ether_addr_copy(&ports[fs->tx_port].eth_addr,
> +                                    &eth_hdr->s_addr);
> +    +#endif
> +                    parse_ethernet(eth_hdr, &info);
> +                    l3_hdr = (char *)eth_hdr + info.l2_len;
> +
> +Test flow
> +=========
> +
> +NIC2(In kernel) <- NIC1(DPDK) <- testpmd(csum fwd) <- Vhost <-
> +Virtio-net
> +
> +Test Case1: DPDK GSO test with tcp traffic
> +==========================================
> +
> +1. Connect two nic port directly, put nic2 into another namesapce and turn
> on the gro of this nic port by below cmds::
> +
> +    ip netns del ns1
> +    ip netns add ns1
> +    ip link set [enp216s0f0] netns ns1                   # [enp216s0f0] is the name
> of nic2
> +    ip netns exec ns1 ifconfig [enp216s0f0] 1.1.1.8 up
> +    ip netns exec ns1 ethtool -K [enp216s0f0] gro on
> +
> +2. Bind nic1 to igb_uio, launch vhost-user with testpmd::
> +
> +    ./dpdk-devbind.py -b igb_uio xx:xx.x       # xx:xx.x is the pci addr of nic1
> +    ./testpmd -l 2-4 -n 4 --socket-mem 1024,1024  --legacy-mem \
> +    --file-prefix=vhost --vdev 'net_vhost0,iface=vhost-net,queues=1,client=0' -
> - -i --txd=1024 --rxd=1024
> +    testpmd>set fwd csum
> +    testpmd>stop
> +    testpmd>port stop 0
> +    testpmd>csum set tcp hw 0
> +    testpmd>csum set ip hw 0
> +    testpmd>set port 0 gso on
> +    testpmd>set gso segsz 1460
> +    testpmd>port start 0
> +    testpmd>start
> +
> +3.  Set up vm with virto device and using kernel virtio-net driver::
> +
> +    taskset -c 13 \
> +    qemu-system-x86_64 -name us-vhost-vm1 \
> +       -cpu host -enable-kvm -m 2048 -object memory-backend-
> file,id=mem,size=2048M,mem-path=/mnt/huge,share=on \
> +       -numa node,memdev=mem \
> +       -mem-prealloc -monitor unix:/tmp/vm2_monitor.sock,server,nowait -
> net nic,vlan=2,macaddr=00:00:00:08:e8:aa,addr=1f -net
> user,vlan=2,hostfwd=tcp:127.0.0.1:6001-:22 \
> +       -smp cores=1,sockets=1 -drive file=/home/osimg/ubuntu16.img  \
> +       -chardev socket,id=char0,path=./vhost-net \
> +       -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \
> +       -device
> + virtio-net-pci,mac=52:54:00:00:00:01,netdev=mynet1,mrg_rxbuf=on,csum=o
> +
> n,gso=on,host_tso4=on,guest_tso4=on,rx_queue_size=1024,tx_queue_size=1
> + 024 -vnc :10 -daemonize
> +
> +4. In vm, config the virtio-net device with ip::
> +
> +    ifconfig [ens3] 1.1.1.2 up  # [ens3] is the name of virtio-net
> +
> +5. Start iperf test, run iperf server at host side and iperf client at vm side,
> check throughput in log::
> +
> +    Host side :  ip netns exec ns1 iperf -s
> +    VM side:     iperf -c 1.1.1.8 -i 1 -t 60
> +
> +Test Case2: DPDK GSO test with udp traffic
> +==========================================
> +
> +Similar as Test Case1, all steps are similar except step 5.
> +
> +5. Start iperf test, run iperf server at host side and iperf client at vm side,
> check throughput in log::
> +
> +    Host side :  ip netns exec ns1 iperf -s -u
> +    VM side:     iperf -c 1.1.1.8 -i 1 -t 60 -P 4 -u -b 10G -l 9000
> +
> +Test Case3: DPDK GSO test with vxlan traffic
> +============================================
> +
> +1. Connect two nic port directly, put nic2 into another namesapce and
> generate the vxlan device in this name space::
> +
> +    ip netns del ns1
> +    ip netns add ns1
> +    ip link set [enp216s0f0] netns ns1       # [enp216s0f0] is the name of nic2
> +    ip netns exec ns1 ifconfig [enp216s0f0] 188.0.0.1 up
> +    ip netns exec ns1 ip link add vxlan100 type vxlan id 1000 remote
> 188.0.0.2 local 188.0.0.1 dstport 4789 dev [enp216s0f0]
> +    ip netns exec ns1 ifconfig vxlan100 1.1.1.1/24 up
> +
> +2. Bind nic1 to igb_uio, launch vhost-user with testpmd::
> +
> +    ./dpdk-devbind.py -b igb_uio xx:xx.x
> +    ./testpmd -l 2-4 -n 4 --socket-mem 1024,1024  --legacy-mem \
> +    --file-prefix=vhost --vdev 'net_vhost0,iface=vhost-net,queues=1,client=0' -
> - -i --txd=1024 --rxd=1024
> +    testpmd>set fwd csum
> +    testpmd>stop
> +    testpmd>port stop 0
> +    testpmd>csum set tcp hw 0
> +    testpmd>csum set ip hw 0
> +    testpmd>csum set outer-ip hw 0
> +    testpmd>csum parse-tunnel on 0
> +    testpmd>set port 0 gso on
> +    testpmd>set gso segsz 1400
> +    testpmd>port start 0
> +    testpmd>start
> +
> +3.  Set up vm with virto device and using kernel virtio-net driver::
> +
> +    taskset -c 13 \
> +    qemu-system-x86_64 -name us-vhost-vm1 \
> +       -cpu host -enable-kvm -m 2048 -object memory-backend-
> file,id=mem,size=2048M,mem-path=/mnt/huge,share=on \
> +       -numa node,memdev=mem \
> +       -mem-prealloc -monitor unix:/tmp/vm2_monitor.sock,server,nowait -
> net nic,vlan=2,macaddr=00:00:00:08:e8:aa,addr=1f -net
> user,vlan=2,hostfwd=tcp:127.0.0.1:6001-:22 \
> +       -smp cores=1,sockets=1 -drive file=/home/osimg/ubuntu16.img  \
> +       -chardev socket,id=char0,path=./vhost-net \
> +       -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \
> +       -device
> + virtio-net-pci,mac=52:54:00:00:00:01,netdev=mynet1,mrg_rxbuf=on,csum=o
> +
> n,gso=on,host_tso4=on,guest_tso4=on,rx_queue_size=1024,tx_queue_size=1
> + 024 -vnc :10 -daemonize
> +
> +4. In vm, config the virtio-net device with ip::
> +
> +    ifconfig [ens3] 188.0.0.2 up  # [ens3] is the name of virtio-net
> +    ip link add vxlan100 type vxlan id 1000 remote 188.0.0.1 local 188.0.0.2
> dstport 4789 dev [ens3]
> +    ifconfig vxlan100 1.1.1.2/24 up
> +
> +5. Start iperf test, run iperf server at host side and iperf client at vm side,
> check throughput in log::
> +
> +    Host side :  ip netns exec ns1 iperf -s
> +    VM side:     iperf -c 1.1.1.1 -i 1 -t 60
> +
> +Test Case4: DPDK GSO test with gre traffic
> +==========================================
> +
> +1. Connect two nic port directly, put nic2 into another namesapce and
> generate the gre device in this name space::
> +
> +    ip netns del ns1
> +    ip netns add ns1
> +    ip link set [enp216s0f0] netns ns1       # [enp216s0f0] is the name of nic2
> +    ip netns exec ns1 ifconfig [enp216s0f0] 188.0.0.1 up
> +    ip netns exec ns1 ip tunnel add gre100 mode gre remote 188.0.0.2 local
> 188.0.0.1
> +    ip netns exec ns1 ifconfig gre100 1.1.1.1/24 up
> +
> +2. Bind nic1 to igb_uio, launch vhost-user with testpmd::
> +
> +    ./dpdk-devbind.py -b igb_uio xx:xx.x
> +    ./testpmd -l 2-4 -n 4 --socket-mem 1024,1024  --legacy-mem \
> +    --file-prefix=vhost --vdev 'net_vhost0,iface=vhost-net,queues=1,client=0' -
> - -i --txd=1024 --rxd=1024
> +    testpmd>set fwd csum
> +    testpmd>stop
> +    testpmd>port stop 0
> +    testpmd>csum set tcp hw 0
> +    testpmd>csum set ip hw 0
> +    testpmd>csum set outer-ip hw 0
> +    testpmd>csum parse-tunnel on 0
> +    testpmd>set port 0 gso on
> +    testpmd>set gso segsz 1400
> +    testpmd>port start 0
> +    testpmd>start
> +
> +3.  Set up vm with virto device and using kernel virtio-net driver::
> +
> +    taskset -c 13 \
> +    qemu-system-x86_64 -name us-vhost-vm1 \
> +       -cpu host -enable-kvm -m 2048 -object memory-backend-
> file,id=mem,size=2048M,mem-path=/mnt/huge,share=on \
> +       -numa node,memdev=mem \
> +       -mem-prealloc -monitor unix:/tmp/vm2_monitor.sock,server,nowait -
> net nic,vlan=2,macaddr=00:00:00:08:e8:aa,addr=1f -net
> user,vlan=2,hostfwd=tcp:127.0.0.1:6001-:22 \
> +       -smp cores=1,sockets=1 -drive file=/home/osimg/ubuntu16.img  \
> +       -chardev socket,id=char0,path=./vhost-net \
> +       -netdev type=vhost-user,id=mynet1,chardev=char0,vhostforce \
> +       -device
> + virtio-net-pci,mac=52:54:00:00:00:01,netdev=mynet1,mrg_rxbuf=on,csum=o
> +
> n,gso=on,host_tso4=on,guest_tso4=on,rx_queue_size=1024,tx_queue_size=1
> + 024 -vnc :10 -daemonize
> +
> +4. In vm, config the virtio-net device with ip::
> +
> +    ifconfig [ens3] 188.0.0.2 up  # [ens3] is the name of virtio-net
> +    ip tunnel add gre100 mode gre remote 188.0.0.1 local 188.0.0.2
> +    ifconfig gre100 1.1.1.2/24 up
> +
> +5. Start iperf test, run iperf server at host side and iperf client at vm side,
> check throughput in log::
> +
> +    Host side :  ip netns exec ns1 iperf -s
> +    VM side:     iperf -c 1.1.1.1 -i 1 -t 60
> \ No newline at end of file
> --
> 2.17.1