## Creating VPP Startup Configuration This document describes how to create the VPP startup configuration file located at `/etc/vpp/contiv-vswitch.conf`. ### Hardware Interface Configuration #### Single-NIC Configuration You need to configure hardware interfaces for use by VPP. First, find out the PCI address of the host's network interface. On Debian-based distributions, you can use `lshw`: ``` sudo lshw -class network -businfo Bus info Device Class Description ======================================================== pci@0000:03:00.0 ens160 network VMXNET3 Ethernet Controller ``` In our case, it would be the `ens3` interface with the PCI address `0000:00:03.0` Now, add or modify the VPP startup config file (`/etc/vpp/contiv-vswitch.conf`) to contain the proper PCI address: ``` unix { nodaemon cli-listen /run/vpp/cli.sock cli-no-pager coredump-size unlimited full-coredump poll-sleep-usec 100 } nat { endpoint-dependent } dpdk { dev 0000:00:03.0 } api-trace { on nitems 500 } ``` #### Multi-NIC Configuration Similar to the single-NIC configuration, use command *lshw* to find the PCI addresses of all the NICs in the system, for example: ``` $ sudo lshw -class network -businfo Bus info Device Class Description ==================================================== pci@0000:00:03.0 ens3 network Virtio network device pci@0000:00:04.0 ens4 network Virtio network device ``` In the example above, `ens3` would be the primary interface and `ens4` would be the interface that would be used by VPP. The PCI address of the `ens4` interface would be `0000:00:04.0`. Make sure the selected interface is *shut down*, otherwise VPP will not grab it: ``` sudo ip link set ens4 down ``` Now, add or modify the VPP startup config file in `/etc/vpp/contiv-vswitch.conf` to contain the proper PCI address: ``` unix { nodaemon cli-listen /run/vpp/cli.sock cli-no-pager coredump-size unlimited full-coredump poll-sleep-usec 100 } nat { endpoint-dependent } dpdk { dev 0000:00:04.0 } api-trace { on nitems 500 } ``` If assigning multiple NICs to VPP you will need to include each NIC's PCI address in the dpdk stanza in `/etc/vpp/contiv-vswitch.conf`. ##### Assigning all NICs to VPP On a multi-NIC node, it is also possible to assign all NICs from the kernel for use by VPP. First, you need to install the STN daemon, as described [here][1], since you will want the NICs to revert to the kernel if VPP crashes. You also need to configure the NICs in the VPP startup config file in `/etc/vpp/contiv-vswitch.conf`. For example, to use both the primary and secondary NIC, in a two-NIC node, your VPP startup config file would look something like this: ``` unix { nodaemon cli-listen /run/vpp/cli.sock cli-no-pager coredump-size unlimited full-coredump poll-sleep-usec 100 } nat { endpoint-dependent } dpdk { dev 0000:00:03.0 dev 0000:00:04.0 } api-trace { on nitems 500 } ``` #### Installing `lshw` on CentOS/RedHat/Fedora Note: On CentOS/RedHat/Fedora distributions, `lshw` may not be available by default, install it by ``` sudo yum -y install lshw ``` ### Power-saving Mode In regular operation, VPP takes 100% of one CPU core at all times (poll loop). If high performance and low latency is not required you can "slow-down" the poll-loop and drastically reduce CPU utilization by adding the following stanza to the `unix` section of the VPP startup config file: ``` unix { ... poll-sleep-usec 100 ... } ``` The power-saving mode is especially useful in VM-based development environments running on laptops or less powerful servers. ### VPP API Trace To troubleshoot VPP configuration issues in production environments, it is strongly recommended to configure VPP API trace. This is done by adding the following stanza to the VPP startup config file: ``` api-trace { on nitems 500 } ``` You can set the size of the trace buffer with the attribute.