487eec3401
dpaa and dpaa2 config have evolved to be same. The same binary can now work across the platforms. So, there is no need to maintain two different build configs. The dpaa config shall work for both generation of dpaa platforms. Signed-off-by: Hemant Agrawal <hemant.agrawal@nxp.com> Reviewed-by: David Marchand <david.marchand@redhat.com>
311 lines
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ReStructuredText
311 lines
10 KiB
ReStructuredText
.. SPDX-License-Identifier: BSD-3-Clause
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Copyright 2017 NXP
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DPAA Poll Mode Driver
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=====================
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The DPAA NIC PMD (**librte_pmd_dpaa**) provides poll mode driver
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support for the inbuilt NIC found in the **NXP DPAA** SoC family.
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More information can be found at `NXP Official Website
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<http://www.nxp.com/products/microcontrollers-and-processors/arm-processors/qoriq-arm-processors:QORIQ-ARM>`_.
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NXP DPAA (Data Path Acceleration Architecture - Gen 1)
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------------------------------------------------------
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This section provides an overview of the NXP DPAA architecture
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and how it is integrated into the DPDK.
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Contents summary
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- DPAA overview
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- DPAA driver architecture overview
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.. _dpaa_overview:
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DPAA Overview
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~~~~~~~~~~~~~
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Reference: `FSL DPAA Architecture <http://www.nxp.com/assets/documents/data/en/white-papers/QORIQDPAAWP.pdf>`_.
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The QorIQ Data Path Acceleration Architecture (DPAA) is a set of hardware
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components on specific QorIQ series multicore processors. This architecture
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provides the infrastructure to support simplified sharing of networking
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interfaces and accelerators by multiple CPU cores, and the accelerators
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themselves.
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DPAA includes:
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- Cores
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- Network and packet I/O
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- Hardware offload accelerators
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- Infrastructure required to facilitate flow of packets between the components above
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Infrastructure components are:
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- The Queue Manager (QMan) is a hardware accelerator that manages frame queues.
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It allows CPUs and other accelerators connected to the SoC datapath to
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enqueue and dequeue ethernet frames, thus providing the infrastructure for
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data exchange among CPUs and datapath accelerators.
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- The Buffer Manager (BMan) is a hardware buffer pool management block that
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allows software and accelerators on the datapath to acquire and release
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buffers in order to build frames.
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Hardware accelerators are:
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- SEC - Cryptographic accelerator
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- PME - Pattern matching engine
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The Network and packet I/O component:
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- The Frame Manager (FMan) is a key component in the DPAA and makes use of the
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DPAA infrastructure (QMan and BMan). FMan is responsible for packet
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distribution and policing. Each frame can be parsed, classified and results
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may be attached to the frame. This meta data can be used to select
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particular QMan queue, which the packet is forwarded to.
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DPAA DPDK - Poll Mode Driver Overview
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-------------------------------------
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This section provides an overview of the drivers for DPAA:
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* Bus driver and associated "DPAA infrastructure" drivers
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* Functional object drivers (such as Ethernet).
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Brief description of each driver is provided in layout below as well as
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in the following sections.
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.. code-block:: console
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+------------+
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| DPDK DPAA |
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| PMD |
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+-----+------+
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+-----+------+ +---------------+
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: Ethernet :.......| DPDK DPAA |
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. . . . . . . . . : (FMAN) : | Mempool driver|
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. +---+---+----+ | (BMAN) |
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. ^ | +-----+---------+
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. | |<enqueue, .
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. | | dequeue> .
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. | | .
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. +---+---V----+ .
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. . . . . . . . . . .: Portal drv : .
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. . : : .
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. . +-----+------+ .
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. . : QMAN : .
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. . : Driver : .
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+----+------+-------+ +-----+------+ .
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| DPDK DPAA Bus | | .
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| driver |....................|.....................
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| /bus/dpaa | |
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+-------------------+ |
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========================== HARDWARE =====|========================
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PHY
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=========================================|========================
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In the above representation, solid lines represent components which interface
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with DPDK RTE Framework and dotted lines represent DPAA internal components.
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DPAA Bus driver
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~~~~~~~~~~~~~~~
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The DPAA bus driver is a ``rte_bus`` driver which scans the platform like bus.
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Key functions include:
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- Scanning and parsing the various objects and adding them to their respective
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device list.
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- Performing probe for available drivers against each scanned device
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- Creating necessary ethernet instance before passing control to the PMD
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DPAA NIC Driver (PMD)
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~~~~~~~~~~~~~~~~~~~~~
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DPAA PMD is traditional DPDK PMD which provides necessary interface between
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RTE framework and DPAA internal components/drivers.
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- Once devices have been identified by DPAA Bus, each device is associated
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with the PMD
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- PMD is responsible for implementing necessary glue layer between RTE APIs
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and lower level QMan and FMan blocks.
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The Ethernet driver is bound to a FMAN port and implements the interfaces
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needed to connect the DPAA network interface to the network stack.
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Each FMAN Port corresponds to a DPDK network interface.
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Features
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^^^^^^^^
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Features of the DPAA 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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DPAA Mempool Driver
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~~~~~~~~~~~~~~~~~~~
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DPAA has a hardware offloaded buffer pool manager, called BMan, or Buffer
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Manager.
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- Using standard Mempools operations RTE API, the mempool driver interfaces
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with RTE to service each mempool creation, deletion, buffer allocation and
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deallocation requests.
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- Each FMAN instance has a BMan pool attached to it during initialization.
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Each Tx frame can be automatically released by hardware, if allocated from
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this pool.
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Whitelisting & Blacklisting
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---------------------------
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For blacklisting a DPAA device, following commands can be used.
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.. code-block:: console
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<dpdk app> <EAL args> -b "dpaa_bus:fmX-macY" -- ...
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e.g. "dpaa_bus:fm1-mac4"
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Supported DPAA SoCs
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-------------------
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- LS1043A/LS1023A
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- LS1046A/LS1026A
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Prerequisites
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-------------
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See :doc:`../platform/dpaa` for setup information
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- Follow the DPDK :ref:`Getting Started Guide for Linux <linux_gsg>`
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to setup the basic DPDK environment.
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.. note::
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Some part of dpaa bus code (qbman and fman - library) routines are
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dual licensed (BSD & GPLv2), however they are used as BSD in DPDK in userspace.
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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_DPAA_BUS`` (default ``y``)
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Toggle compilation of the ``librte_bus_dpaa`` driver.
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- ``CONFIG_RTE_LIBRTE_DPAA_PMD`` (default ``y``)
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Toggle compilation of the ``librte_pmd_dpaa`` driver.
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- ``CONFIG_RTE_LIBRTE_DPAA_DEBUG_DRIVER`` (default ``n``)
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Toggles display of bus configurations and enables a debugging queue
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to fetch error (Rx/Tx) packets to driver. By default, packets with errors
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(like wrong checksum) are dropped by the hardware.
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- ``CONFIG_RTE_LIBRTE_DPAA_HWDEBUG`` (default ``n``)
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Enables debugging of the Queue and Buffer Manager layer which interacts
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with the DPAA hardware.
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Environment Variables
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~~~~~~~~~~~~~~~~~~~~~
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DPAA drivers uses the following environment variables to configure its
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state during application initialization:
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- ``DPAA_NUM_RX_QUEUES`` (default 1)
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This defines the number of Rx queues configured for an application, per
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port. Hardware would distribute across these many number of queues on Rx
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of packets.
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In case the application is configured to use lesser number of queues than
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configured above, it might result in packet loss (because of distribution).
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- ``DPAA_PUSH_QUEUES_NUMBER`` (default 4)
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This defines the number of High performance queues to be used for ethdev Rx.
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These queues use one private HW portal per queue configured, so they are
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limited in the system. The first configured ethdev queues will be
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automatically be assigned from the these high perf PUSH queues. Any queue
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configuration beyond that will be standard Rx queues. The application can
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choose to change their number if HW portals are limited.
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The valid values are from '0' to '4'. The values shall be set to '0' if the
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application want to use eventdev with DPAA device.
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Currently these queues are not used for LS1023/LS1043 platform by default.
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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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#. 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-dpaa-linux-gcc/testpmd -c 0xff -n 1 \
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-- -i --portmask=0x3 --nb-cores=1 --no-flush-rx
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.....
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EAL: Registered [pci] bus.
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EAL: Registered [dpaa] bus.
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EAL: Detected 4 lcore(s)
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.....
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EAL: dpaa: Bus scan completed
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.....
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Configuring Port 0 (socket 0)
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Port 0: 00:00:00:00:00:01
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Configuring Port 1 (socket 0)
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Port 1: 00:00:00:00:00:02
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.....
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Checking link statuses...
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Port 0 Link Up - speed 10000 Mbps - full-duplex
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Port 1 Link Up - speed 10000 Mbps - full-duplex
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Done
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testpmd>
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Limitations
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-----------
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Platform Requirement
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~~~~~~~~~~~~~~~~~~~~
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DPAA drivers for DPDK can only work on NXP SoCs as listed in the
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``Supported DPAA SoCs``.
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Maximum packet length
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~~~~~~~~~~~~~~~~~~~~~
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The DPAA SoC family support a maximum of a 10240 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 10240, frames
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up to 10240 bytes can still reach the host interface.
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Multiprocess Support
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~~~~~~~~~~~~~~~~~~~~
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Current version of DPAA driver doesn't support multi-process applications
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where I/O is performed using secondary processes. This feature would be
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implemented in subsequent versions.
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