(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+.. _compiling_sample_apps:
+
Compiling and Running Sample Applications
=========================================
-The chapter describes how to compile and run applications in an Intel® DPDK
+The chapter describes how to compile and run applications in a DPDK
environment. It also provides a pointer to where sample applications are stored.
Compiling a Sample Application
------------------------------
-Once an Intel® DPDK target environment directory has been created (such as
-x86_64-native-bsdapp-gcc), it contains all libraries and header files required
+Once a DPDK target environment directory has been created (such as
+x86_64-native-bsdapp-clang), it contains all libraries and header files required
to build an application.
-When compiling an application in the FreeBSD* environment on the Intel® DPDK,
+When compiling an application in the FreeBSD* environment on the DPDK,
the following variables must be exported:
-* RTE_SDK - Points to the Intel® DPDK installation directory.
+* RTE_SDK - Points to the DPDK installation directory.
-* RTE_TARGET - Points to the Intel® DPDK target environment directory.
- For FreeBSD*, this is the x86_64-native-bsdapp-gcc directory.
+* RTE_TARGET - Points to the DPDK target environment directory.
+ For FreeBSD*, this is the x86_64-native-bsdapp-clang or
+ x86_64-native-bsdapp-gcc directory.
The following is an example of creating the helloworld application, which runs
-in the Intel® DPDK FreeBSD* environment. This example may be found in the
+in the DPDK FreeBSD* environment. While the example demonstrates compiling
+using gcc version 4.8, compiling with clang will be similar, except that the "CC="
+parameter can probably be omitted. The "helloworld" example may be found in the
${RTE_SDK}/examples directory.
The directory contains the main.c file. This file, when combined with the
-libraries in the Intel® DPDK target environment, calls the various functions to
-initialize the Intel® DPDK environment, then launches an entry point (dispatch
+libraries in the DPDK target environment, calls the various functions to
+initialize the DPDK environment, then launches an entry point (dispatch
application) for each core to be utilized. By default, the binary is generated
in the build directory.
.. note::
In the above example, helloworld was in the directory structure of the
- Intel® DPDK. However, it could have been located outside the directory
- structure to keep the Intel® DPDK structure intact. In the following case,
+ DPDK. However, it could have been located outside the directory
+ structure to keep the DPDK structure intact. In the following case,
the helloworld application is copied to a new directory as a new starting
point.
INSTALL-APP helloworld
INSTALL-MAP helloworld.map
+.. _running_sample_app:
+
Running a Sample Application
----------------------------
#. The contigmem and nic_uio modules must be set up prior to running an application.
#. Any ports to be used by the application must be already bound to the nic_uio module,
- as described in section Section 3.6, “ , ” prior to running the application.
- The application is linked with the Intel® DPDK target environment's Environment
+ as described in section :ref:`binding_network_ports`, prior to running the application.
+ The application is linked with the DPDK target environment's Environment
Abstraction Layer (EAL) library, which provides some options that are generic
- to every Intel® DPDK application.
+ to every DPDK application.
The following is the list of options that can be given to the EAL:
.. code-block:: console
- ./rte-app -
c COREMASK -n NUM [-b <domain:bus:devid.func>] [-m MB] [-r NUM] [-v] [--file-prefix] [--proc-type <primary|secondary|auto>]
+ ./rte-app -
n NUM [-c COREMASK] [-b <domain:bus:devid.func>] [-r NUM] [-v] [--proc-type <primary|secondary|auto>]
.. note::
EAL has a common interface between all operating systems and is based on the
- Linux* notation for PCI devices. The device and function separator used is
- a ":" rather than "." as seen with pciconf on FreeBSD*. For example, a
- FreeBSD* device selector of pci0:2:0:1 is referred to as 02:00.1 in EAL.
+ Linux* notation for PCI devices. For example, a FreeBSD* device selector of
+ pci0:2:0:1 is referred to as 02:00.1 in EAL.
The EAL options for FreeBSD* are as follows:
(multiple -b options are allowed).
* --use-device
- : use the specified ethernet device(s) only. Use comma-separate
+ : use the specified Ethernet device(s) only. Use comma-separate
<[domain:]bus:devid.func> values. Cannot be used with -b option.
* -r NUM
The -c and the -n options are mandatory; the others are optional.
-Copy the Intel® DPDK application binary to your target, then run the application
+Copy the DPDK application binary to your target, then run the application
as follows (assuming the platform has four memory channels, and that cores 0-3
are present and are to be used for running the application):
.. note::
The --proc-type and --file-prefix EAL options are used for running multiple
- Intel® DPDK processes. See the “Multi-process Sample Application” chapter
- in the *Intel® DPDK Sample Applications User Guide and the Intel® DPDK
+ DPDK processes. See the “Multi-process Sample Application” chapter
+ in the *DPDK Sample Applications User Guide and the DPDK
Programmers Guide* for more details.
-Running Intel®DPDK Applications Without Root Privileges
--------------------------------------------------------
+.. _running_non_root:
+
+Running DPDK Applications Without Root Privileges
+-------------------------------------------------
-Although applications using the Intel® DPDK use network ports and other hardware
+Although applications using the DPDK use network ports and other hardware
resources directly, with a number of small permission adjustments, it is possible
to run these applications as a user other than “root”. To do so, the ownership,
or permissions, on the following file system objects should be adjusted to ensure
-that the user account being used to run the Intel® DPDK application has access
+that the user account being used to run the DPDK application has access
to them:
* The userspace-io device files in /dev, for example, /dev/uio0, /dev/uio1, and so on
.. note::
- Please refer to the Intel® DPDK Release Notes for supported applications.
+ Please refer to the DPDK Release Notes for supported applications.
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