5630257fcc
Signed-off-by: Ferruh Yigit <ferruh.yigit@intel.com> Acked-by: Bruce Richardson <bruce.richardson@intel.com>
131 lines
5.6 KiB
ReStructuredText
131 lines
5.6 KiB
ReStructuredText
.. SPDX-License-Identifier: BSD-3-Clause
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Copyright(c) 2010-2014 Intel Corporation.
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Netmap Compatibility Sample Application
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=======================================
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Introduction
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------------
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The Netmap compatibility library provides a minimal set of APIs to give programs written against the Netmap APIs
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the ability to be run, with minimal changes to their source code, using the DPDK to perform the actual packet I/O.
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Since Netmap applications use regular system calls, like ``open()``, ``ioctl()`` and
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``mmap()`` to communicate with the Netmap kernel module performing the packet I/O,
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the ``compat_netmap`` library provides a set of similar APIs to use in place of those system calls,
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effectively turning a Netmap application into a DPDK application.
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The provided library is currently minimal and doesn't support all the features that Netmap supports,
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but is enough to run simple applications, such as the bridge example detailed below.
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Knowledge of Netmap is required to understand the rest of this section.
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Please refer to the Netmap distribution for details about Netmap.
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Available APIs
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--------------
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The library provides the following drop-in replacements for system calls usually used in Netmap applications:
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* ``rte_netmap_close()``
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* ``rte_netmap_ioctl()``
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* ``rte_netmap_open()``
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* ``rte_netmap_mmap()``
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* ``rte_netmap_poll()``
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They use the same signature as their libc counterparts, and can be used as drop-in replacements in most cases.
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Caveats
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-------
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Given the difference between the way Netmap and the DPDK approach packet I/O,
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there are caveats and limitations to be aware of when trying to use the ``compat_netmap`` library, the most important of these are listed below.
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These may change as the library is updated:
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* Any system call that can potentially affect file descriptors cannot be used with a descriptor returned by the ``rte_netmap_open()`` function.
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Note that:
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* The ``rte_netmap_mmap()`` function merely returns the address of a DPDK memzone.
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The address, length, flags, offset, and other arguments are ignored.
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* The ``rte_netmap_poll()`` function only supports infinite (negative) or zero time outs.
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It effectively turns calls to the ``poll()`` system call made in a Netmap application into polling of the DPDK ports,
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changing the semantics of the usual POSIX defined poll.
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* Not all of Netmap's features are supported: host rings,
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slot flags and so on are not supported or are simply not relevant in the DPDK model.
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* The Netmap manual page states that "*a device obtained through /dev/netmap also supports the ioctl supported by network devices*".
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This is not the case with this compatibility layer.
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* The Netmap kernel module exposes a sysfs interface to change some internal parameters, such as the size of the shared memory region.
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This interface is not available when using this compatibility layer.
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Porting Netmap Applications
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---------------------------
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Porting Netmap applications typically involves two major steps:
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* Changing the system calls to use their ``compat_netmap`` library counterparts.
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* Adding further DPDK initialization code.
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Since the ``compat_netmap`` functions have the same signature as the usual libc calls, the change is trivial in most cases.
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The usual DPDK initialization code involving ``rte_eal_init()`` and ``rte_pci_probe()``
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has to be added to the Netmap application in the same way it is used in all other DPDK sample applications.
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Please refer to the *DPDK Programmer's Guide* and example source code for details about initialization.
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In addition of the regular DPDK initialization code,
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the ported application needs to call initialization functions for the ``compat_netmap`` library,
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namely ``rte_netmap_init()`` and ``rte_netmap_init_port()``.
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These two initialization functions take ``compat_netmap`` specific data structures as parameters:
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``struct rte_netmap_conf`` and ``struct rte_netmap_port_conf``.
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The structures' fields are Netmap related and are self-explanatory for developers familiar with Netmap.
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They are defined in ``$RTE_SDK/examples/netmap_compat/lib/compat_netmap.h``.
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The bridge application is an example largely based on the bridge example shipped with the Netmap distribution.
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It shows how a minimal Netmap application with minimal and straightforward source code changes can be run on top of the DPDK.
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Please refer to ``$RTE_SDK/examples/netmap_compat/bridge/bridge.c`` for an example of a ported application.
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Compiling the Application
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-------------------------
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To compile the sample application see :doc:`compiling`.
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The application is located in the ``netmap_compat`` sub-directory.
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Running the "bridge" Sample Application
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---------------------------------------
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The application requires a single command line option:
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.. code-block:: console
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./build/bridge [EAL options] -- -i INTERFACE_A [-i INTERFACE_B]
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where,
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* ``-i INTERFACE``: Interface (DPDK port number) to use.
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If a single ``-i`` parameter is given, the interface will send back all the traffic it receives.
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If two ``-i`` parameters are given, the two interfaces form a bridge,
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where traffic received on one interface is replicated and sent to the other interface.
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For example, to run the application in a linuxapp environment using port 0 and 2:
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.. code-block:: console
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./build/bridge [EAL options] -- -i 0 -i 2
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Refer to the *DPDK Getting Started Guide for Linux* for general information on running applications and
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the Environment Abstraction Layer (EAL) options.
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Note that unlike a traditional bridge or the ``l2fwd`` sample application, no MAC address changes are done on the frames.
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Do not forget to take this into account when configuring a traffic generators and testing this sample application.
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