8bb87d65ba
Updated ice recommended matching list for DPDK 21.02. Signed-off-by: Qi Zhang <qi.z.zhang@intel.com>
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340 lines
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.. SPDX-License-Identifier: BSD-3-Clause
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Copyright(c) 2018 Intel Corporation.
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ICE Poll Mode Driver
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======================
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The ice PMD (**librte_net_ice**) provides poll mode driver support for
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10/25/50/100 Gbps Intel® Ethernet 800 Series Network Adapters based on
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the Intel Ethernet Controller E810 and Intel Ethernet Connection E822/E823.
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Linux 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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- To get better performance on Intel platforms, please follow the "How to get best performance with NICs on Intel platforms"
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section of the :ref:`Getting Started Guide for Linux <linux_gsg>`.
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- Please follow the matching list to download specific kernel driver, firmware and DDP package from
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`https://www.intel.com/content/www/us/en/search.html?ws=text#q=e810&t=Downloads&layout=table`.
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- To understand what is DDP package and how it works, please review `Intel® Ethernet Controller E810 Dynamic
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Device Personalization (DDP) for Telecommunications Technology Guide <https://cdrdv2.intel.com/v1/dl/getContent/617015>`_.
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- To understand DDP for COMMs usage with DPDK, please review `Intel® Ethernet 800 Series Telecommunication (Comms)
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Dynamic Device Personalization (DDP) Package <https://cdrdv2.intel.com/v1/dl/getContent/618651>`_.
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Windows Prerequisites
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---------------------
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- Follow the DPDK `Getting Started Guide for Windows <https://doc.dpdk.org/guides/windows_gsg/index.html>`_ to setup the basic DPDK environment.
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- Identify the Intel® Ethernet adapter and get the latest NVM/FW version.
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- To access any Intel® Ethernet hardware, load the NetUIO driver in place of existing built-in (inbox) driver.
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- To load NetUIO driver, follow the steps mentioned in `dpdk-kmods repository
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<https://git.dpdk.org/dpdk-kmods/tree/windows/netuio/README.rst>`_.
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- Loading of private Dynamic Device Personalization (DDP) package is not supported on Windows.
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Recommended Matching List
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-------------------------
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It is highly recommended to upgrade the ice kernel driver, firmware and DDP package
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to avoid the compatibility issues with ice PMD.
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Here is the suggested matching list which has been tested and verified.
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The detailed information can refer to chapter Tested Platforms/Tested NICs in release notes.
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+-----------+---------------+-----------------+-----------+--------------+-----------+
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| DPDK | Kernel Driver | OS Default DDP | COMMS DDP | Wireless DDP | Firmware |
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+===========+===============+=================+===========+==============+===========+
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| 20.11 | 1.3.2 | 1.3.20 | 1.3.24 | N/A | 2.3 |
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+-----------+---------------+-----------------+-----------+--------------+-----------+
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| 21.02 | 1.4.11 | 1.3.24 | 1.3.28 | 1.3.4 | 2.4 |
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+-----------+---------------+-----------------+-----------+--------------+-----------+
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Pre-Installation Configuration
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------------------------------
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Runtime Config Options
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~~~~~~~~~~~~~~~~~~~~~~
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- ``Safe Mode Support`` (default ``0``)
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If driver failed to load OS package, by default driver's initialization failed.
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But if user intend to use the device without OS package, user can take ``devargs``
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parameter ``safe-mode-support``, for example::
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-a 80:00.0,safe-mode-support=1
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Then the driver will be initialized successfully and the device will enter Safe Mode.
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NOTE: In Safe mode, only very limited features are available, features like RSS,
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checksum, fdir, tunneling ... are all disabled.
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- ``Generic Flow Pipeline Mode Support`` (default ``0``)
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In pipeline mode, a flow can be set at one specific stage by setting parameter
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``priority``. Currently, we support two stages: priority = 0 or !0. Flows with
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priority 0 located at the first pipeline stage which typically be used as a firewall
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to drop the packet on a blocklist(we called it permission stage). At this stage,
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flow rules are created for the device's exact match engine: switch. Flows with priority
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!0 located at the second stage, typically packets are classified here and be steered to
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specific queue or queue group (we called it distribution stage), At this stage, flow
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rules are created for device's flow director engine.
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For none-pipeline mode, ``priority`` is ignored, a flow rule can be created as a flow director
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rule or a switch rule depends on its pattern/action and the resource allocation situation,
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all flows are virtually at the same pipeline stage.
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By default, generic flow API is enabled in none-pipeline mode, user can choose to
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use pipeline mode by setting ``devargs`` parameter ``pipeline-mode-support``,
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for example::
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-a 80:00.0,pipeline-mode-support=1
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- ``Protocol extraction for per queue``
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Configure the RX queues to do protocol extraction into mbuf for protocol
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handling acceleration, like checking the TCP SYN packets quickly.
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The argument format is::
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-a 18:00.0,proto_xtr=<queues:protocol>[<queues:protocol>...]
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-a 18:00.0,proto_xtr=<protocol>
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Queues are grouped by ``(`` and ``)`` within the group. The ``-`` character
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is used as a range separator and ``,`` is used as a single number separator.
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The grouping ``()`` can be omitted for single element group. If no queues are
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specified, PMD will use this protocol extraction type for all queues.
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Protocol is : ``vlan, ipv4, ipv6, ipv6_flow, tcp, ip_offset``.
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.. code-block:: console
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dpdk-testpmd -a 18:00.0,proto_xtr='[(1,2-3,8-9):tcp,10-13:vlan]'
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This setting means queues 1, 2-3, 8-9 are TCP extraction, queues 10-13 are
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VLAN extraction, other queues run with no protocol extraction.
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.. code-block:: console
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dpdk-testpmd -a 18:00.0,proto_xtr=vlan,proto_xtr='[(1,2-3,8-9):tcp,10-23:ipv6]'
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This setting means queues 1, 2-3, 8-9 are TCP extraction, queues 10-23 are
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IPv6 extraction, other queues use the default VLAN extraction.
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The extraction metadata is copied into the registered dynamic mbuf field, and
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the related dynamic mbuf flags is set.
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.. table:: Protocol extraction : ``vlan``
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+----------------------------+----------------------------+
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| VLAN2 | VLAN1 |
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+======+===+=================+======+===+=================+
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| PCP | D | VID | PCP | D | VID |
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+------+---+-----------------+------+---+-----------------+
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VLAN1 - single or EVLAN (first for QinQ).
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VLAN2 - C-VLAN (second for QinQ).
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.. table:: Protocol extraction : ``ipv4``
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+----------------------------+----------------------------+
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| IPHDR2 | IPHDR1 |
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+======+=======+=============+==============+=============+
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| Ver |Hdr Len| ToS | TTL | Protocol |
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+------+-------+-------------+--------------+-------------+
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IPHDR1 - IPv4 header word 4, "TTL" and "Protocol" fields.
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IPHDR2 - IPv4 header word 0, "Ver", "Hdr Len" and "Type of Service" fields.
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.. table:: Protocol extraction : ``ipv6``
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+----------------------------+----------------------------+
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| IPHDR2 | IPHDR1 |
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+=====+=============+========+=============+==============+
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| Ver |Traffic class| Flow | Next Header | Hop Limit |
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+-----+-------------+--------+-------------+--------------+
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IPHDR1 - IPv6 header word 3, "Next Header" and "Hop Limit" fields.
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IPHDR2 - IPv6 header word 0, "Ver", "Traffic class" and high 4 bits of
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"Flow Label" fields.
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.. table:: Protocol extraction : ``ipv6_flow``
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+----------------------------+----------------------------+
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| IPHDR2 | IPHDR1 |
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+=====+=============+========+============================+
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| Ver |Traffic class| Flow Label |
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+-----+-------------+-------------------------------------+
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IPHDR1 - IPv6 header word 1, 16 low bits of the "Flow Label" field.
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IPHDR2 - IPv6 header word 0, "Ver", "Traffic class" and high 4 bits of
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"Flow Label" fields.
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.. table:: Protocol extraction : ``tcp``
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+----------------------------+----------------------------+
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| TCPHDR2 | TCPHDR1 |
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+============================+======+======+==============+
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| Reserved |Offset| RSV | Flags |
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+----------------------------+------+------+--------------+
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TCPHDR1 - TCP header word 6, "Data Offset" and "Flags" fields.
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TCPHDR2 - Reserved
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.. table:: Protocol extraction : ``ip_offset``
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+----------------------------+----------------------------+
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| IPHDR2 | IPHDR1 |
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+============================+============================+
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| IPv6 HDR Offset | IPv4 HDR Offset |
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+----------------------------+----------------------------+
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IPHDR1 - Outer/Single IPv4 Header offset.
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IPHDR2 - Outer/Single IPv6 Header offset.
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Use ``rte_net_ice_dynf_proto_xtr_metadata_get`` to access the protocol
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extraction metadata, and use ``RTE_PKT_RX_DYNF_PROTO_XTR_*`` to get the
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metadata type of ``struct rte_mbuf::ol_flags``.
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The ``rte_net_ice_dump_proto_xtr_metadata`` routine shows how to
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access the protocol extraction result in ``struct rte_mbuf``.
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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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Features
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--------
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Vector PMD
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~~~~~~~~~~
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Vector PMD for RX and TX path are selected automatically. The paths
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are chosen based on 2 conditions.
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- ``CPU``
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On the X86 platform, the driver checks if the CPU supports AVX2.
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If it's supported, AVX2 paths will be chosen. If not, SSE is chosen.
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If the CPU supports AVX512 and EAL argument ``--force-max-simd-bitwidth``
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is set to 512, AVX512 paths will be chosen.
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- ``Offload features``
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The supported HW offload features are described in the document ice.ini,
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A value "P" means the offload feature is not supported by vector path.
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If any not supported features are used, ICE vector PMD is disabled and the
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normal paths are chosen.
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Malicious driver detection (MDD)
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It's not appropriate to send a packet, if this packet's destination MAC address
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is just this port's MAC address. If SW tries to send such packets, HW will
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report a MDD event and drop the packets.
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The APPs based on DPDK should avoid providing such packets.
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Device Config Function (DCF)
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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This section demonstrates ICE DCF PMD, which shares the core module with ICE
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PMD and iAVF PMD.
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A DCF (Device Config Function) PMD bounds to the device's trusted VF with ID 0,
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it can act as a sole controlling entity to exercise advance functionality (such
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as switch, ACL) for the rest VFs.
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The DCF PMD needs to advertise and acquire DCF capability which allows DCF to
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send AdminQ commands that it would like to execute over to the PF and receive
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responses for the same from PF.
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.. _figure_ice_dcf:
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.. figure:: img/ice_dcf.*
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DCF Communication flow.
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#. Create the VFs::
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echo 4 > /sys/bus/pci/devices/0000\:18\:00.0/sriov_numvfs
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#. Enable the VF0 trust on::
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ip link set dev enp24s0f0 vf 0 trust on
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#. Bind the VF0, and run testpmd with 'cap=dcf' devarg::
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dpdk-testpmd -l 22-25 -n 4 -a 18:01.0,cap=dcf -- -i
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#. Monitor the VF2 interface network traffic::
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tcpdump -e -nn -i enp24s1f2
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#. Create one flow to redirect the traffic to VF2 by DCF::
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flow create 0 priority 0 ingress pattern eth / ipv4 src is 192.168.0.2 \
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dst is 192.168.0.3 / end actions vf id 2 / end
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#. Send the packet, and it should be displayed on tcpdump::
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sendp(Ether(src='3c:fd:fe:aa:bb:78', dst='00:00:00:01:02:03')/IP(src=' \
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192.168.0.2', dst="192.168.0.3")/TCP(flags='S')/Raw(load='XXXXXXXXXX'), \
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iface="enp24s0f0", count=10)
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Sample Application Notes
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------------------------
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Vlan filter
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~~~~~~~~~~~
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Vlan filter only works when Promiscuous mode is off.
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To start ``testpmd``, and add vlan 10 to port 0:
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.. code-block:: console
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./app/dpdk-testpmd -l 0-15 -n 4 -- -i
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...
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testpmd> rx_vlan add 10 0
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Limitations or Known issues
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---------------------------
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The Intel E810 requires a programmable pipeline package be downloaded
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by the driver to support normal operations. The E810 has a limited
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functionality built in to allow PXE boot and other use cases, but the
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driver must download a package file during the driver initialization
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stage.
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The default DDP package file name is ice.pkg. For a specific NIC, the
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DDP package supposed to be loaded can have a filename: ice-xxxxxx.pkg,
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where 'xxxxxx' is the 64-bit PCIe Device Serial Number of the NIC. For
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example, if the NIC's device serial number is 00-CC-BB-FF-FF-AA-05-68,
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the device-specific DDP package filename is ice-00ccbbffffaa0568.pkg
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(in hex and all low case). During initialization, the driver searches
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in the following paths in order: /lib/firmware/updates/intel/ice/ddp
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and /lib/firmware/intel/ice/ddp. The corresponding device-specific DDP
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package will be downloaded first if the file exists. If not, then the
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driver tries to load the default package. The type of loaded package
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is stored in ``ice_adapter->active_pkg_type``.
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A symbolic link to the DDP package file is also ok. The same package
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file is used by both the kernel driver and the DPDK PMD.
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.. Note::
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Windows support: The DDP package is not supported on Windows so,
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loading of the package is disabled on Windows.
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