-.. BSD LICENSE
- Copyright(c) 2010-2014 Intel Corporation. All rights reserved.
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- modification, are permitted provided that the following conditions
- are met:
-
- * Redistributions of source code must retain the above copyright
- notice, this list of conditions and the following disclaimer.
- * Redistributions in binary form must reproduce the above copyright
- notice, this list of conditions and the following disclaimer in
- the documentation and/or other materials provided with the
- distribution.
- * Neither the name of Intel Corporation nor the names of its
- contributors may be used to endorse or promote products derived
- from this software without specific prior written permission.
-
- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+.. SPDX-License-Identifier: BSD-3-Clause
+ Copyright(c) 2010-2014 Intel Corporation.
.. _multi_process_app:
Building the Sample Applications
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
The multi-process example applications are built in the same way as other sample applications,
and as documented in the *DPDK Getting Started Guide*.
-To build all the example applications:
-
-#. Set RTE_SDK and go to the example directory:
-
- .. code-block:: console
-
- export RTE_SDK=/path/to/rte_sdk
- cd ${RTE_SDK}/examples/multi_process
-
-#. Set the target (a default target will be used if not specified). For example:
-
- .. code-block:: console
-
- export RTE_TARGET=x86_64-native-linuxapp-gcc
-
- See the *DPDK Getting Started Guide* for possible RTE_TARGET values.
-#. Build the applications:
- .. code-block:: console
+To compile the sample application see :doc:`compiling`.
- make
+The applications are located in the ``multi_process`` sub-directory.
.. note::
^^^^^^^^^^^^^^^^^^^^^^^
To run the application, start one copy of the simple_mp binary in one terminal,
-passing at least two cores in the coremask, as follows:
+passing at least two cores in the coremask/corelist, as follows:
.. code-block:: console
- ./build/simple_mp -c 3 -n 4 --proc-type=primary
+ ./build/simple_mp -l 0-1 -n 4 --proc-type=primary
For the first DPDK process run, the proc-type flag can be omitted or set to auto,
since all DPDK processes will default to being a primary instance,
.. code-block:: console
- $ ./build/simple_mp -c 3 -n 4 --proc-type=primary
+ $ ./build/simple_mp -l 0-1 -n 4 --proc-type=primary
EAL: coremask set to 3
EAL: Detected lcore 0 on socket 0
EAL: Detected lcore 1 on socket 0
simple_mp >
To run the secondary process to communicate with the primary process,
-again run the same binary setting at least two cores in the coremask:
+again run the same binary setting at least two cores in the coremask/corelist:
.. code-block:: console
- ./build/simple_mp -c C -n 4 --proc-type=secondary
+ ./build/simple_mp -l 2-3 -n 4 --proc-type=secondary
When running a secondary process such as that shown above, the proc-type parameter can again be specified as auto.
However, omitting the parameter altogether will cause the process to try and start as a primary rather than secondary process.
.. code-block:: console
- # ./build/symmetric_mp -c 2 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=0
- # ./build/symmetric_mp -c 4 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=1
- # ./build/symmetric_mp -c 8 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=2
- # ./build/symmetric_mp -c 10 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=3
+ # ./build/symmetric_mp -l 1 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=0
+ # ./build/symmetric_mp -l 2 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=1
+ # ./build/symmetric_mp -l 3 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=2
+ # ./build/symmetric_mp -l 4 -n 4 --proc-type=auto -- -p 3 --num-procs=4 --proc-id=3
.. note::
^^^^^^^^^^^^^^^^^^^^^^^^^
The initialization calls in both the primary and secondary instances are the same for the most part,
-calling the rte_eal_init(), 1 G and 10 G driver initialization and then rte_eal_pci_probe() functions.
+calling the rte_eal_init(), 1 G and 10 G driver initialization and then rte_pci_probe() functions.
Thereafter, the initialization done depends on whether the process is configured as a primary or secondary instance.
In the primary instance, a memory pool is created for the packet mbufs and the network ports to be used are initialized -
.. note::
- In the server process, a single thread, the master thread, that is, the lowest numbered lcore in the coremask, performs all packet I/O.
- If a coremask is specified with more than a single lcore bit set in it,
+ In the server process, a single thread, the master thread, that is, the lowest numbered lcore in the coremask/corelist, performs all packet I/O.
+ If a coremask/corelist is specified with more than a single lcore bit set in it,
an additional lcore will be used for a thread to periodically print packet count statistics.
Since the server application stores configuration data in shared memory, including the network ports to be used,
.. code-block:: console
- # ./mp_server/build/mp_server -c 6 -n 4 -- -p 3 -n 2
- # ./mp_client/build/mp_client -c 8 -n 4 --proc-type=auto -- -n 0
- # ./mp_client/build/mp_client -c 10 -n 4 --proc-type=auto -- -n 1
+ # ./mp_server/build/mp_server -l 1-2 -n 4 -- -p 3 -n 2
+ # ./mp_client/build/mp_client -l 3 -n 4 --proc-type=auto -- -n 0
+ # ./mp_client/build/mp_client -l 4 -n 4 --proc-type=auto -- -n 1
.. note::
This application performs the same functionality as the L2 Forwarding sample application,
therefore this chapter does not cover that part but describes functionality that is introduced in this multi-process example only.
-Please refer to Chapter 9, "L2 Forwarding Sample Application (in Real and Virtualized Environments)" for more information.
+Please refer to :doc:`l2_forward_real_virtual` for more information.
Unlike previous examples where all processes are started from the command line with input arguments, in this example,
only one process is spawned from the command line and that process creates other processes.
#. Set up a notification mechanism for slave process exit cases. After the specific slave leaves,
the master should be notified and then help to create a new instance.
- This mechanism is provided in Section 15.1.5.1, "Master-slave Process Models".
+ This mechanism is provided in Section `Master-slave Process Models`_.
#. Use a synchronization mechanism among dependent processes.
The master should have the capability to stop or kill slave processes that have a dependency on the one that has exited.
rte_lcore_id() function will not work in the correct way.
However, sometimes these threads/processes still need the unique ID mechanism to do easy access on structures or resources.
For example, the DPDK mempool library provides a local cache mechanism
-(refer to *DPDK Programmer's Guide* , Section 6.4, "Local Cache")
+(refer to :ref:`mempool_local_cache`)
for fast element allocation and freeing.
If using a non-unique ID or a fake one,
a race condition occurs if two or more threads/ processes with the same core ID try to use the local cache.
.. code-block:: console
- #./build/l2fwd_fork -c 1c -n 4 -- -p 3 -f
+ #./build/l2fwd_fork -l 2-4 -n 4 -- -p 3 -f
This example provides another -f option to specify the use of floating process.
If not specified, the example will use a pinned process to perform the L2 forwarding task.
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