c9507cd0ca
At the moment, PCAP interfaces use dummy MAC by default. This change adds support for selecting PCAP physical interface MAC with phy_mac=1 devarg. This allows to setup packet flows using the physical interface MAC. Signed-off-by: Juhamatti Kuusisaari <juhamatti.kuusisaari@coriant.com> Signed-off-by: Ferruh Yigit <ferruh.yigit@intel.com>
295 lines
11 KiB
ReStructuredText
295 lines
11 KiB
ReStructuredText
.. SPDX-License-Identifier: BSD-3-Clause
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Copyright(c) 2010-2015 Intel Corporation.
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Libpcap and Ring Based Poll Mode Drivers
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========================================
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In addition to Poll Mode Drivers (PMDs) for physical and virtual hardware,
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the DPDK also includes pure-software PMDs, two of these drivers are:
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* A libpcap -based PMD (librte_pmd_pcap) that reads and writes packets using libpcap,
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- both from files on disk, as well as from physical NIC devices using standard Linux kernel drivers.
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* A ring-based PMD (librte_pmd_ring) that allows a set of software FIFOs (that is, rte_ring)
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to be accessed using the PMD APIs, as though they were physical NICs.
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.. note::
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The libpcap -based PMD is disabled by default in the build configuration files,
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owing to an external dependency on the libpcap development files which must be installed on the board.
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Once the libpcap development files are installed,
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the library can be enabled by setting CONFIG_RTE_LIBRTE_PMD_PCAP=y and recompiling the DPDK.
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Using the Drivers from the EAL Command Line
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-------------------------------------------
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For ease of use, the DPDK EAL also has been extended to allow pseudo-Ethernet devices,
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using one or more of these drivers,
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to be created at application startup time during EAL initialization.
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To do so, the --vdev= parameter must be passed to the EAL.
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This takes take options to allow ring and pcap-based Ethernet to be allocated and used transparently by the application.
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This can be used, for example, for testing on a virtual machine where there are no Ethernet ports.
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Libpcap-based PMD
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~~~~~~~~~~~~~~~~~
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Pcap-based devices can be created using the virtual device --vdev option.
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The device name must start with the net_pcap prefix followed by numbers or letters.
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The name is unique for each device. Each device can have multiple stream options and multiple devices can be used.
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Multiple device definitions can be arranged using multiple --vdev.
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Device name and stream options must be separated by commas as shown below:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,stream_opt0=..,stream_opt1=..' \
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--vdev='net_pcap1,stream_opt0=..'
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Device Streams
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^^^^^^^^^^^^^^
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Multiple ways of stream definitions can be assessed and combined as long as the following two rules are respected:
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* A device is provided with two different streams - reception and transmission.
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* A device is provided with one network interface name used for reading and writing packets.
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The different stream types are:
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* rx_pcap: Defines a reception stream based on a pcap file.
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The driver reads each packet within the given pcap file as if it was receiving it from the wire.
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The value is a path to a valid pcap file.
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rx_pcap=/path/to/file.pcap
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* tx_pcap: Defines a transmission stream based on a pcap file.
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The driver writes each received packet to the given pcap file.
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The value is a path to a pcap file.
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The file is overwritten if it already exists and it is created if it does not.
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tx_pcap=/path/to/file.pcap
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* rx_iface: Defines a reception stream based on a network interface name.
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The driver reads packets from the given interface using the Linux kernel driver for that interface.
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The driver captures both the incoming and outgoing packets on that interface.
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The value is an interface name.
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rx_iface=eth0
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* rx_iface_in: Defines a reception stream based on a network interface name.
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The driver reads packets from the given interface using the Linux kernel driver for that interface.
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The driver captures only the incoming packets on that interface.
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The value is an interface name.
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rx_iface_in=eth0
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* tx_iface: Defines a transmission stream based on a network interface name.
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The driver sends packets to the given interface using the Linux kernel driver for that interface.
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The value is an interface name.
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tx_iface=eth0
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* iface: Defines a device mapping a network interface.
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The driver both reads and writes packets from and to the given interface.
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The value is an interface name.
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iface=eth0
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Runtime Config Options
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^^^^^^^^^^^^^^^^^^^^^^
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- Use PCAP interface physical MAC
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In case ``iface=`` configuration is set, user may want to use the selected interface's physical MAC
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address. This can be done with a ``devarg`` ``phy_mac``, for example::
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--vdev 'net_pcap0,iface=eth0,phy_mac=1'
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Examples of Usage
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^^^^^^^^^^^^^^^^^
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Read packets from one pcap file and write them to another:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,rx_pcap=file_rx.pcap,tx_pcap=file_tx.pcap' \
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-- --port-topology=chained
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Read packets from a network interface and write them to a pcap file:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,rx_iface=eth0,tx_pcap=file_tx.pcap' \
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-- --port-topology=chained
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Read packets from a pcap file and write them to a network interface:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,rx_pcap=file_rx.pcap,tx_iface=eth1' \
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-- --port-topology=chained
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Forward packets through two network interfaces:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,iface=eth0' --vdev='net_pcap1;iface=eth1'
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Enable 2 tx queues on a network interface:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,rx_iface=eth1,tx_iface=eth1,tx_iface=eth1' \
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-- --txq 2
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Read only incoming packets from a network interface and write them back to the same network interface:
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,rx_iface_in=eth1,tx_iface=eth1'
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Using libpcap-based PMD with the testpmd Application
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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One of the first things that testpmd does before starting to forward packets is to flush the RX streams
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by reading the first 512 packets on every RX stream and discarding them.
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When using a libpcap-based PMD this behavior can be turned off using the following command line option:
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.. code-block:: console
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--no-flush-rx
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It is also available in the runtime command line:
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.. code-block:: console
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set flush_rx on/off
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It is useful for the case where the rx_pcap is being used and no packets are meant to be discarded.
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Otherwise, the first 512 packets from the input pcap file will be discarded by the RX flushing operation.
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.. code-block:: console
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$RTE_TARGET/app/testpmd -l 0-3 -n 4 \
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--vdev 'net_pcap0,rx_pcap=file_rx.pcap,tx_pcap=file_tx.pcap' \
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-- --port-topology=chained --no-flush-rx
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.. note::
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The network interface provided to the PMD should be up. The PMD will return
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an error if interface is down, and the PMD itself won't change the status
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of the external network interface.
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Rings-based PMD
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~~~~~~~~~~~~~~~
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To run a DPDK application on a machine without any Ethernet devices, a pair of ring-based rte_ethdevs can be used as below.
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The device names passed to the --vdev option must start with net_ring and take no additional parameters.
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Multiple devices may be specified, separated by commas.
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.. code-block:: console
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./testpmd -l 1-3 -n 4 --vdev=net_ring0 --vdev=net_ring1 -- -i
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EAL: Detected lcore 1 as core 1 on socket 0
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...
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Interactive-mode selected
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Configuring Port 0 (socket 0)
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Configuring Port 1 (socket 0)
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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> start tx_first
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io packet forwarding - CRC stripping disabled - packets/burst=16
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nb forwarding cores=1 - nb forwarding ports=2
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RX queues=1 - RX desc=128 - RX free threshold=0
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RX threshold registers: pthresh=8 hthresh=8 wthresh=4
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TX queues=1 - TX desc=512 - TX free threshold=0
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TX threshold registers: pthresh=36 hthresh=0 wthresh=0
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TX RS bit threshold=0 - TXQ flags=0x0
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testpmd> stop
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Telling cores to stop...
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Waiting for lcores to finish...
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.. image:: img/forward_stats.*
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.. code-block:: console
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+++++++++++++++ Accumulated forward statistics for allports++++++++++
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RX-packets: 462384736 RX-dropped: 0 RX-total: 462384736
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TX-packets: 462384768 TX-dropped: 0 TX-total: 462384768
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+++++++++++++++++++++++++++++++++++++++++++++++++++++
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Done.
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Using the Poll Mode Driver from an Application
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Both drivers can provide similar APIs to allow the user to create a PMD, that is,
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rte_ethdev structure, instances at run-time in the end-application,
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for example, using rte_eth_from_rings() or rte_eth_from_pcaps() APIs.
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For the rings-based PMD, this functionality could be used, for example,
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to allow data exchange between cores using rings to be done in exactly the
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same way as sending or receiving packets from an Ethernet device.
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For the libpcap-based PMD, it allows an application to open one or more pcap files
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and use these as a source of packet input to the application.
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Usage Examples
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^^^^^^^^^^^^^^
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To create two pseudo-Ethernet ports where all traffic sent to a port is looped back
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for reception on the same port (error handling omitted for clarity):
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.. code-block:: c
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#define RING_SIZE 256
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#define NUM_RINGS 2
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#define SOCKET0 0
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struct rte_ring *ring[NUM_RINGS];
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int port0, port1;
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ring[0] = rte_ring_create("R0", RING_SIZE, SOCKET0, RING_F_SP_ENQ|RING_F_SC_DEQ);
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ring[1] = rte_ring_create("R1", RING_SIZE, SOCKET0, RING_F_SP_ENQ|RING_F_SC_DEQ);
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/* create two ethdev's */
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port0 = rte_eth_from_rings("net_ring0", ring, NUM_RINGS, ring, NUM_RINGS, SOCKET0);
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port1 = rte_eth_from_rings("net_ring1", ring, NUM_RINGS, ring, NUM_RINGS, SOCKET0);
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To create two pseudo-Ethernet ports where the traffic is switched between them,
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that is, traffic sent to port 0 is read back from port 1 and vice-versa,
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the final two lines could be changed as below:
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.. code-block:: c
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port0 = rte_eth_from_rings("net_ring0", &ring[0], 1, &ring[1], 1, SOCKET0);
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port1 = rte_eth_from_rings("net_ring1", &ring[1], 1, &ring[0], 1, SOCKET0);
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This type of configuration could be useful in a pipeline model, for example,
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where one may want to have inter-core communication using pseudo Ethernet devices rather than raw rings,
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for reasons of API consistency.
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Enqueuing and dequeuing items from an rte_ring using the rings-based PMD may be slower than using the native rings API.
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This is because DPDK Ethernet drivers make use of function pointers to call the appropriate enqueue or dequeue functions,
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while the rte_ring specific functions are direct function calls in the code and are often inlined by the compiler.
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Once an ethdev has been created, for either a ring or a pcap-based PMD,
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it should be configured and started in the same way as a regular Ethernet device, that is,
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by calling rte_eth_dev_configure() to set the number of receive and transmit queues,
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then calling rte_eth_rx_queue_setup() / tx_queue_setup() for each of those queues and
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finally calling rte_eth_dev_start() to allow transmission and reception of packets to begin.
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