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diff --git a/docs/testing/user/userguide/05-BKMs.rst b/docs/testing/user/userguide/05-BKMs.rst new file mode 100644 index 00000000..289bdad2 --- /dev/null +++ b/docs/testing/user/userguide/05-BKMs.rst @@ -0,0 +1,277 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International +.. License. +.. http://creativecommons.org/licenses/by/4.0 +.. (c) OPNFV, Intel Corporation and others. + +SampleVNF BKMs - Example how to run VNF vFW +============================================ + + +Abstract +-------- + +This project provides a placeholder for various sample VNF +(Virtual Network Function (:term `VNF`)) development which includes example +reference architecture and optimization methods related to VNF/Network service +for high performance VNFs. +The sample VNFs are Open Source approximations* of Telco grade VNF’s using +optimized VNF + NFVi Infrastructure libraries, with Performance Characterization +of Sample† Traffic Flows. + +:: + • * Not a commercial product. Encourage the community to contribute and close the feature gaps. + • † No Vendor/Proprietary Workloads + +SampleVNF supports installation directly in Ubuntu. The installation procedure +are detailed in the sections below. + +The steps needed to run SampleVNF are: +1. Install and Build SampleVNF. +2. deploy the VNF on the target and modify the config based on the + Network under test +3. Run the traffic generator to generate the traffic. + +Prerequisites +------------- + +Supported Test setup: +-------------------- +The device under test (DUT) consists of a system following; + * A single or dual processor and PCH chip, except for System on Chip (SoC) cases + * DRAM memory size and frequency (normally single DIMM per channel) + * Specific Intel Network Interface Cards (NICs) + * BIOS settings noting those that updated from the basic settings + * DPDK build configuration settings, and commands used for tests +Connected to the DUT is an IXIA* or Software Traffic generator like pktgen or TRex, +simulation platform to generate packet traffic to the DUT ports and +determine the throughput/latency at the tester side. + +Below are the supported/tested (:term `VNF`) deployment type. +.. image:: images/deploy_type.png + :width: 800px + :alt: SampleVNF supported topology + +Hardware & Software Ingredients +------------------------------- +.. code-block:: console + +-----------+------------------+ + | Item | Description | + +-----------+------------------+ + | Memory | Min 20GB | + +-----------+------------------+ + | NICs | 2 x 10G | + +-----------+------------------+ + | OS | Ubuntu 16.04 LTS | + +-----------+------------------+ + | kernel | 4.4.0-34-generic| + +-----------+------------------+ + |DPD | 17.02 | + +-----------+------------------+ + + Boot and BIOS settings + +------------------+---------------------------------------------------+ + | Boot settings | default_hugepagesz=1G hugepagesz=1G hugepages=16 | + | | hugepagesz=2M hugepages=2048 isolcpus=1-11,22-33 | + | | nohz_full=1-11,22-33 rcu_nocbs=1-11,22-33 | + | | Note: nohz_full and rcu_nocbs is to disable Linux*| + | | kernel interrupts, and it’s import | + +------------------+---------------------------------------------------+ + |BIOS | CPU Power and Performance Policy <Performance> | + | | CPU C-state Disabled | + | | CPU P-state Disabled | + | | Enhanced Intel® Speedstep® Tech Disabled | + | | Hyper-Threading Technology (If supported) Enable | + | | Virtualization Techology Enable | + | | Coherency Enable | + | | Turbo Boost Disabled | + +------------------+---------------------------------------------------+ + +Network Topology for testing VNFs +--------------------------------- +The ethernet cables should be connected between traffic generator and the VNF server (BM, +SRIOV or OVS) setup based on the test profile. + +The connectivity could be +1. Single port pair : One pair ports used for traffic + :: + e.g. Single port pair link0 and link1 of VNF are used + TG:port 0 ------ VNF:Port 0 + TG:port 1 ------ VNF:Port 1 + +2. Multi port pair : More than one pair of traffic + :: + e.g. Two port pair link 0, link1, link2 and link3 of VNF are used + TG:port 0 ------ VNF:Port 0 + TG:port 1 ------ VNF:Port 1 + TG:port 2 ------ VNF:Port 2 + TG:port 3 ------ VNF:Port 3 + + * Bare-Metal + Refer: http://fast.dpdk.org/doc/pdf-guides/ to setup the DUT for VNF to run + + * Stadalone Virtualization - PHY-VM-PHY + * SRIOV + Refer below link to setup sriov + https://software.intel.com/en-us/articles/using-sr-iov-to-share-an-ethernet-port-among-multiple-vms + + * OVS/OVS/DPDK + Refer below link to setup ovs/ovs-dpdk + http://docs.openvswitch.org/en/latest/intro/install/general/ + http://docs.openvswitch.org/en/latest/intro/install/dpdk/ + + * Openstack + use OPNFV installer to deploy the openstack. + +Traffic generator and VNF Setup details +---------------------------------------- + +step 0: Preparing hardware connection. + Connect Traffic generator and VNF system back to back as shown in previous section e.g. Bare-Metal Configuration + TRex port 0 ↔ (VNF Port 0) ↔ (VNF Port 1) ↔ TRex port 1 + +step 1: Setting up Traffic generator (TRex) (Refer: https://trex-tgn.cisco.com/trex/doc/trex_stateless_bench.html) + TRex Software preparations + -------------------------- + a. Install the OS (Bare metal Linux, not VM!) + b. Obtain the latest TRex package: wget https://trex-tgn.cisco.com/trex/release/latest + c. Untar the package: tar -xzf latest + d. Change dir to unzipped TRex + e. Create config file using command: sudo python dpdk_setup_ports.py -i + In case of Ubuntu 16 need python3 + See paragraph config creation for detailed step-by-step +step 2: Setting up VNF + + Deployment type - Bare-Metal: + ---------------------------- + a. Clone sampleVNF project repository - git clone https://git.opnfv.org/samplevnf + Auto Build + * Interactive options: + ./tools/vnf_build.sh -i + Follow the steps in the screen from option [1] –> [9] and select option [8] to build the vnfs. It will automatically download selected DPDK version and any required patches and will setup everything and build VNFs. + Following are the options for setup: + ---------------------------------------------------------- + Step 1: Environment setup. + ---------------------------------------------------------- + [1] Check OS and network connection + [2] Select DPDK RTE version + + ---------------------------------------------------------- + Step 2: Download and Install + ---------------------------------------------------------- + [3] Agree to download + [4] Download packages + [5] Download DPDK zip + [6] Build and Install DPDK + [7] Setup hugepages + + ---------------------------------------------------------- + Step 3: Build VNFs + ---------------------------------------------------------- + [8] Build all VNFs (vACL, vCGNAPT, vFW, UDP_Replay, DPPD-PROX) + + [9] Exit Script + * non-Interactive options: + ./tools/vnf_build.sh -s -d=<dpdk version eg 17.02> + Manual Build + 1. Download DPDK supported version from dpdk.org + http://dpdk.org/browse/dpdk/snapshot/dpdk-$DPDK_RTE_VER.zip + unzip dpdk-$DPDK_RTE_VER.zip and apply dpdk patches only in case of 16.04 (Not required for other DPDK versions) + cd dpdk + make config T=x86_64-native-linuxapp-gcc O=x86_64-native-linuxapp-gcc + cd x86_64-native-linuxapp-gcc + make + 2. Setup huge pages + For 1G/2M hugepage sizes, for example 1G pages, the size must be + specified explicitly and can also be optionally set as the + default hugepage size for the system. For example, to reserve 8G + of hugepage memory in the form of eight 1G pages, the following + options should be passed to the kernel: * default_hugepagesz=1G + hugepagesz=1G hugepages=8 hugepagesz=2M hugepages=2048 + 3. Add this to Go to /etc/default/grub configuration file. + Append “default_hugepagesz=1G hugepagesz=1G hugepages=8 hugepagesz=2M hugepages=2048” + to the GRUB_CMDLINE_LINUX entry. + 4. Setup Environment Variable + export RTE_SDK=<samplevnf>/dpdk + export RTE_TARGET=x86_64-native-linuxapp-gcc + export VNF_CORE=<samplevnf> + or using ./tools/setenv.sh + 5. Build vFW VNFs + cd <samplevnf>/VNFs/vFW + make clean + make + The vFW executable will be created at the following location + <samplevnf>/VNFs/vFW/build/vFW + +step 3: Running VNF + a. Setup Port to run VNF + For DPDK versions 17.xx + 1. cd <samplevnf>/dpdk + 2. ./usertools/dpdk-devbind.py --status <--- List the network device + 3. ./usertools/dpdk-devbind.py -b igb_uio <PCI Port 0> <PCI Port 1> + .. _More details: http://dpdk.org/doc/guides-17.05/linux_gsg/build_dpdk.html#binding-and-unbinding-network-ports-to-from-the-kernel-modules + b. Prepare script to enalble VNF to route the packets + :: + cd <samplevnf>/VNFs/vFW/config + Open -> VFW_SWLB_SinglePortPair_script.tc. Replace the bold items based on your setting. + + link 0 config <VNF port 0 IP eg 202.16.100.10> 8 + link 0 up + link 1 down + link 1 config <VNF port 0 IP eg 172.16.40.10> 8 + link 1 up + ; routeadd <port #> <ipv4 nhip address in decimal> <Mask> + routeadd 0 <traffic generator port 0 IP eg 202.16.100.20> 0xff000000 + routeadd 1 <traffic generator port 1 IP eg 172.16.40.20> 0xff000000 + + ; IPv4 static ARP; disable if dynamic arp is enabled. + p 1 arpadd 0 <traffic generator port 0 IP eg 202.16.100.20> <traffic generator port 0 MAC> + p 1 arpadd 1 <traffic generator port 1 IP eg 172.16.40.20> <traffic generator port 1 MAC> + p action add 0 accept + p action add 0 fwd 0 + p action add 0 count + p action add 1 accept + p action add 1 fwd 1 + p action add 1 count + p action add 2 drop + p action add 2 count + p action add 0 conntrack + p action add 1 conntrack + p action add 2 conntrack + p action add 3 conntrack + ; IPv4 rules + p vfw add 1 <traffic generator port 0 IP eg 202.16.100.20> 8 <traffic generator port 1 IP eg 172.16.40.20> 8 0 65535 67 69 0 0 2 + p vfw add 2 <traffic generator port 0 IP eg 202.16.100.20> 8 <traffic generator port 1 IP eg 172.16.40.20> 8 0 65535 0 65535 0 0 1 + p vfw add 2 <traffic generator port 1 IP eg 172.16.40.20> 8 <traffic generator port 0 IP eg 202.16.100.20> 8 0 65535 0 65535 0 0 0 + p vfw applyruleset + c. Run below cmd to launch the VNF. Please make sure both hugepages and ports to be used are bind to dpdk. + :: + cd <samplevnf>/VNFs/vFW/ + ./build/vFW -p 0x3 -f ./config/VFW_SWLB_SinglePortPair_4Thread.cfg -s ./config/VFW_SWLB_SinglePortPair_script.tc + +step 4: Run Test using traffic geneator + +On traffic generator system: + cd <trex eg v2.28/stl> + Update the bench.py to generate the traffic. + + class STLBench(object): + ip_range = {} + ip_range['src'] = {'start': '<traffic generator port 0 IP eg 202.16.100.20>', 'end': '<traffic generator port 0 IP eg 202.16.100.20>'} + ip_range['dst'] = {'start': '<traffic generator port 1 IP eg 172.16.40.20>', 'end': '<traffic generator port 1 IP eg 172.16.40.20>'} + cd <trex eg v2.28> + Run the TRex server: sudo ./t-rex-64 -i -c 7 + In another shell run TRex console: trex-console + The console can be run from another computer with -s argument, --help for more info. + Other options for TRex client are automation or GUI + In the console, run "tui" command, and then send the traffic with commands like: + start -f stl/bench.py -m 50% --port 0 3 -t size=590,vm=var1 + For more details refer: https://trex-tgn.cisco.com/trex/doc/trex_stateless_bench.html + +Deployment type Standalone Virtualization/Openstack: +Step 0: Setup the NFVi Infrastrucutre. (Refer installation section) +Step 1: Build SampleVNF enabled VM + * Build image from yardstick + git clone https://git.opnfv.org/yardstick + * cd yardstick and run + ./tools/yardstick-img-modify tools/ubuntu-server-cloudimg-samplevnf-modify.sh +Step 3: Follow steps 0 to 4 in above section to run the VNF. |