218c4e68c1
Rather than using linuxapp and bsdapp everywhere, we can change things to use the, more readable, terms "linux" and "freebsd" in our build configs. Rather than renaming the configs we can just duplicate the existing ones with the new names using symlinks, and use the new names exclusively internally. ["make showconfigs" also only shows the new names to keep the list short] The result is that backward compatibility is kept fully but any new builds or development can be done using the newer names, i.e. both "make config T=x86_64-native-linuxapp-gcc" and "T=x86_64-native-linux-gcc" work. Signed-off-by: Bruce Richardson <bruce.richardson@intel.com>
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359 lines
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ReStructuredText
.. SPDX-License-Identifier: BSD-3-Clause
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Copyright(c) 2016 Cavium, Inc
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ThunderX NICVF Poll Mode Driver
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===============================
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The ThunderX NICVF PMD (**librte_pmd_thunderx_nicvf**) provides poll mode driver
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support for the inbuilt NIC found in the **Cavium ThunderX** SoC family
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as well as their virtual functions (VF) in SR-IOV context.
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More information can be found at `Cavium, Inc Official Website
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<http://www.cavium.com/ThunderX_ARM_Processors.html>`_.
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Features
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--------
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Features of the ThunderX PMD are:
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- Multiple queues for TX and RX
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- Receive Side Scaling (RSS)
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- Packet type information
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- Checksum offload
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- Promiscuous mode
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- Multicast mode
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- Port hardware statistics
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- Jumbo frames
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- Link state information
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- Scattered and gather for TX and RX
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- VLAN stripping
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- SR-IOV VF
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- NUMA support
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- Multi queue set support (up to 96 queues (12 queue sets)) per port
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- Skip data bytes
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Supported ThunderX SoCs
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-----------------------
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- CN88xx
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- CN81xx
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- CN83xx
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Prerequisites
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-------------
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- Follow the DPDK :ref:`Getting Started Guide for Linux <linux_gsg>` to setup the basic DPDK environment.
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Pre-Installation Configuration
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------------------------------
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Config File Options
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~~~~~~~~~~~~~~~~~~~
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The following options can be modified in the ``config`` file.
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Please note that enabling debugging options may affect system performance.
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- ``CONFIG_RTE_LIBRTE_THUNDERX_NICVF_PMD`` (default ``y``)
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Toggle compilation of the ``librte_pmd_thunderx_nicvf`` driver.
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- ``CONFIG_RTE_LIBRTE_THUNDERX_NICVF_DEBUG_RX`` (default ``n``)
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Toggle asserts of receive fast path.
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- ``CONFIG_RTE_LIBRTE_THUNDERX_NICVF_DEBUG_TX`` (default ``n``)
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Toggle asserts of transmit fast path.
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Driver compilation and testing
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------------------------------
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Refer to the document :ref:`compiling and testing a PMD for a NIC <pmd_build_and_test>`
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for details.
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To compile the ThunderX NICVF PMD for Linux arm64 gcc,
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use arm64-thunderx-linux-gcc as target.
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Linux
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-----
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SR-IOV: Prerequisites and sample Application Notes
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Current ThunderX NIC PF/VF kernel modules maps each physical Ethernet port
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automatically to virtual function (VF) and presented them as PCIe-like SR-IOV device.
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This section provides instructions to configure SR-IOV with Linux OS.
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#. Verify PF devices capabilities using ``lspci``:
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.. code-block:: console
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lspci -vvv
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Example output:
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.. code-block:: console
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0002:01:00.0 Ethernet controller: Cavium Networks Device a01e (rev 01)
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...
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Capabilities: [100 v1] Alternative Routing-ID Interpretation (ARI)
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...
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Capabilities: [180 v1] Single Root I/O Virtualization (SR-IOV)
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...
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Kernel driver in use: thunder-nic
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...
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.. note::
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Unless ``thunder-nic`` driver is in use make sure your kernel config includes ``CONFIG_THUNDER_NIC_PF`` setting.
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#. Verify VF devices capabilities and drivers using ``lspci``:
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.. code-block:: console
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lspci -vvv
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Example output:
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.. code-block:: console
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0002:01:00.1 Ethernet controller: Cavium Networks Device 0011 (rev 01)
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...
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Capabilities: [100 v1] Alternative Routing-ID Interpretation (ARI)
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...
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Kernel driver in use: thunder-nicvf
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...
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0002:01:00.2 Ethernet controller: Cavium Networks Device 0011 (rev 01)
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...
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Capabilities: [100 v1] Alternative Routing-ID Interpretation (ARI)
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...
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Kernel driver in use: thunder-nicvf
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...
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.. note::
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Unless ``thunder-nicvf`` driver is in use make sure your kernel config includes ``CONFIG_THUNDER_NIC_VF`` setting.
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#. Pass VF device to VM context (PCIe Passthrough):
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The VF devices may be passed through to the guest VM using qemu or
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virt-manager or virsh etc.
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Example qemu guest launch command:
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.. code-block:: console
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sudo qemu-system-aarch64 -name vm1 \
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-machine virt,gic_version=3,accel=kvm,usb=off \
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-cpu host -m 4096 \
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-smp 4,sockets=1,cores=8,threads=1 \
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-nographic -nodefaults \
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-kernel <kernel image> \
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-append "root=/dev/vda console=ttyAMA0 rw hugepagesz=512M hugepages=3" \
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-device vfio-pci,host=0002:01:00.1 \
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-drive file=<rootfs.ext3>,if=none,id=disk1,format=raw \
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-device virtio-blk-device,scsi=off,drive=disk1,id=virtio-disk1,bootindex=1 \
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-netdev tap,id=net0,ifname=tap0,script=/etc/qemu-ifup_thunder \
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-device virtio-net-device,netdev=net0 \
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-serial stdio \
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-mem-path /dev/huge
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#. Enable **VFIO-NOIOMMU** mode (optional):
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.. code-block:: console
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echo 1 > /sys/module/vfio/parameters/enable_unsafe_noiommu_mode
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.. note::
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**VFIO-NOIOMMU** is required only when running in VM context and should not be enabled otherwise.
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#. Running testpmd:
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Follow instructions available in the document
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:ref:`compiling and testing a PMD for a NIC <pmd_build_and_test>`
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to run testpmd.
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Example output:
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.. code-block:: console
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./arm64-thunderx-linux-gcc/app/testpmd -l 0-3 -n 4 -w 0002:01:00.2 \
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-- -i --no-flush-rx \
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--port-topology=loop
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...
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PMD: rte_nicvf_pmd_init(): librte_pmd_thunderx nicvf version 1.0
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...
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EAL: probe driver: 177d:11 rte_nicvf_pmd
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EAL: using IOMMU type 1 (Type 1)
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EAL: PCI memory mapped at 0x3ffade50000
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EAL: Trying to map BAR 4 that contains the MSI-X table.
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Trying offsets: 0x40000000000:0x0000, 0x10000:0x1f0000
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EAL: PCI memory mapped at 0x3ffadc60000
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PMD: nicvf_eth_dev_init(): nicvf: device (177d:11) 2:1:0:2
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PMD: nicvf_eth_dev_init(): node=0 vf=1 mode=tns-bypass sqs=false
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loopback_supported=true
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PMD: nicvf_eth_dev_init(): Port 0 (177d:11) mac=a6:c6:d9:17:78:01
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Interactive-mode selected
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Configuring Port 0 (socket 0)
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...
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PMD: nicvf_dev_configure(): Configured ethdev port0 hwcap=0x0
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Port 0: A6:C6:D9:17:78:01
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Checking link statuses...
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Port 0 Link Up - speed 10000 Mbps - full-duplex
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Done
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testpmd>
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Multiple Queue Set per DPDK port configuration
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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There are two types of VFs:
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- Primary VF
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- Secondary VF
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Each port consists of a primary VF and n secondary VF(s). Each VF provides 8 Tx/Rx queues to a port.
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When a given port is configured to use more than 8 queues, it requires one (or more) secondary VF.
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Each secondary VF adds 8 additional queues to the queue set.
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During PMD driver initialization, the primary VF's are enumerated by checking the
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specific flag (see sqs message in DPDK boot log - sqs indicates secondary queue set).
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They are at the beginning of VF list (the remain ones are secondary VF's).
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The primary VFs are used as master queue sets. Secondary VFs provide
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additional queue sets for primary ones. If a port is configured for more then
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8 queues than it will request for additional queues from secondary VFs.
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Secondary VFs cannot be shared between primary VFs.
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Primary VFs are present on the beginning of the 'Network devices using kernel
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driver' list, secondary VFs are on the remaining on the remaining part of the list.
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.. note::
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The VNIC driver in the multiqueue setup works differently than other drivers like `ixgbe`.
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We need to bind separately each specific queue set device with the ``usertools/dpdk-devbind.py`` utility.
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.. note::
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Depending on the hardware used, the kernel driver sets a threshold ``vf_id``. VFs that try to attached with an id below or equal to
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this boundary are considered primary VFs. VFs that try to attach with an id above this boundary are considered secondary VFs.
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Example device binding
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~~~~~~~~~~~~~~~~~~~~~~
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If a system has three interfaces, a total of 18 VF devices will be created
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on a non-NUMA machine.
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.. note::
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NUMA systems have 12 VFs per port and non-NUMA 6 VFs per port.
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.. code-block:: console
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# usertools/dpdk-devbind.py --status
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Network devices using DPDK-compatible driver
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============================================
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<none>
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Network devices using kernel driver
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===================================
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0000:01:10.0 'Device a026' if= drv=thunder-BGX unused=vfio-pci,uio_pci_generic
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0000:01:10.1 'Device a026' if= drv=thunder-BGX unused=vfio-pci,uio_pci_generic
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0002:01:00.0 'Device a01e' if= drv=thunder-nic unused=vfio-pci,uio_pci_generic
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0002:01:00.1 'Device 0011' if=eth0 drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:00.2 'Device 0011' if=eth1 drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:00.3 'Device 0011' if=eth2 drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:00.4 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:00.5 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:00.6 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:00.7 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.0 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.1 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.2 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.3 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.4 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.5 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.6 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:01.7 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:02.0 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:02.1 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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0002:01:02.2 'Device 0011' if= drv=thunder-nicvf unused=vfio-pci,uio_pci_generic
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Other network devices
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=====================
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0002:00:03.0 'Device a01f' unused=vfio-pci,uio_pci_generic
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We want to bind two physical interfaces with 24 queues each device, we attach two primary VFs
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and four secondary queues. In our example we choose two 10G interfaces eth1 (0002:01:00.2) and eth2 (0002:01:00.3).
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We will choose four secondary queue sets from the ending of the list (0002:01:01.7-0002:01:02.2).
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#. Bind two primary VFs to the ``vfio-pci`` driver:
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.. code-block:: console
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usertools/dpdk-devbind.py -b vfio-pci 0002:01:00.2
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usertools/dpdk-devbind.py -b vfio-pci 0002:01:00.3
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#. Bind four primary VFs to the ``vfio-pci`` driver:
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.. code-block:: console
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usertools/dpdk-devbind.py -b vfio-pci 0002:01:01.7
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usertools/dpdk-devbind.py -b vfio-pci 0002:01:02.0
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usertools/dpdk-devbind.py -b vfio-pci 0002:01:02.1
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usertools/dpdk-devbind.py -b vfio-pci 0002:01:02.2
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The nicvf thunderx driver will make use of attached secondary VFs automatically during the interface configuration stage.
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Module params
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--------------
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skip_data_bytes
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~~~~~~~~~~~~~~~
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This feature is used to create a hole between HEADROOM and actual data. Size of hole is specified
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in bytes as module param("skip_data_bytes") to pmd.
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This scheme is useful when application would like to insert vlan header without disturbing HEADROOM.
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Example:
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.. code-block:: console
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-w 0002:01:00.2,skip_data_bytes=8
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Limitations
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-----------
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CRC striping
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~~~~~~~~~~~~
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The ThunderX SoC family NICs strip the CRC for every packets coming into the
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host interface irrespective of the offload configuration.
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Maximum packet length
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~~~~~~~~~~~~~~~~~~~~~
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The ThunderX SoC family NICs support a maximum of a 9K jumbo frame. The value
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is fixed and cannot be changed. So, even when the ``rxmode.max_rx_pkt_len``
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member of ``struct rte_eth_conf`` is set to a value lower than 9200, frames
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up to 9200 bytes can still reach the host interface.
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Maximum packet segments
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~~~~~~~~~~~~~~~~~~~~~~~
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The ThunderX SoC family NICs support up to 12 segments per packet when working
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in scatter/gather mode. So, setting MTU will result with ``EINVAL`` when the
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frame size does not fit in the maximum number of segments.
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skip_data_bytes
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~~~~~~~~~~~~~~~
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Maximum limit of skip_data_bytes is 128 bytes and number of bytes should be multiple of 8.
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