* [dpdk-dev] [PATCH] doc: improve linux guide layout
@ 2015-12-15 13:34 John McNamara
2015-12-15 14:02 ` Thomas Monjalon
0 siblings, 1 reply; 2+ messages in thread
From: John McNamara @ 2015-12-15 13:34 UTC (permalink / raw)
To: dev
Fixed Linux Getting Started Guide rst layout to improve
rendering in PDF.
Signed-off-by: John McNamara <john.mcnamara@intel.com>
---
doc/guides/linux_gsg/build_dpdk.rst | 88 +++++++++---------
doc/guides/linux_gsg/build_sample_apps.rst | 141 +++++++++++++++++------------
doc/guides/linux_gsg/enable_func.rst | 95 ++++++++++---------
doc/guides/linux_gsg/intro.rst | 8 +-
doc/guides/linux_gsg/quick_start.rst | 25 ++---
doc/guides/linux_gsg/sys_reqs.rst | 114 ++++++++---------------
6 files changed, 234 insertions(+), 237 deletions(-)
diff --git a/doc/guides/linux_gsg/build_dpdk.rst b/doc/guides/linux_gsg/build_dpdk.rst
index c4d1e08..1f4c1f7 100644
--- a/doc/guides/linux_gsg/build_dpdk.rst
+++ b/doc/guides/linux_gsg/build_dpdk.rst
@@ -28,14 +28,13 @@
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-.. _linux_gsg_compiling_dpdk:
-
Compiling the DPDK Target from Source
=====================================
.. note::
- Parts of this process can also be done using the setup script described in Chapter 6 of this document.
+ Parts of this process can also be done using the setup script described in
+ the :ref:`linux_setup_script` section of this document.
Install the DPDK and Browse Sources
-----------------------------------
@@ -44,10 +43,12 @@ First, uncompress the archive and move to the uncompressed DPDK source directory
.. code-block:: console
- user@host:~$ unzip DPDK-<version>.zip
- user@host:~$ cd DPDK-<version>
- user@host:~/DPDK-<version>$ ls
- app/ config/ drivers/ examples/ lib/ LICENSE.GPL LICENSE.LGPL Makefile mk/ scripts/ tools/
+ unzip DPDK-<version>.zip
+ cd DPDK-<version>
+
+ ls
+ app/ config/ examples/ lib/ LICENSE.GPL LICENSE.LGPL Makefile
+ mk/ scripts/ tools/
The DPDK is composed of several directories:
@@ -64,19 +65,19 @@ The DPDK is composed of several directories:
Installation of DPDK Target Environments
----------------------------------------
-The format of a DPDK target is:
+The format of a DPDK target is::
ARCH-MACHINE-EXECENV-TOOLCHAIN
where:
-* ARCH can be: i686, x86_64, ppc_64
+* ``ARCH`` can be: ``i686``, ``x86_64``, ``ppc_64``
-* MACHINE can be: native, ivshmem, power8
+* ``MACHINE`` can be: ``native``, ``ivshmem``, ``power8``
-* EXECENV can be: linuxapp, bsdapp
+* ``EXECENV`` can be: ``linuxapp``, ``bsdapp``
-* TOOLCHAIN can be: gcc, icc
+* ``TOOLCHAIN`` can be: ``gcc``, ``icc``
The targets to be installed depend on the 32-bit and/or 64-bit packages and compilers installed on the host.
Available targets can be found in the DPDK/config directory.
@@ -84,13 +85,13 @@ The defconfig\_ prefix should not be used.
.. note::
- Configuration files are provided with the RTE_MACHINE optimization level set.
- Within the configuration files, the RTE_MACHINE configuration value is set to native,
+ Configuration files are provided with the ``RTE_MACHINE`` optimization level set.
+ Within the configuration files, the ``RTE_MACHINE`` configuration value is set to native,
which means that the compiled software is tuned for the platform on which it is built.
For more information on this setting, and its possible values, see the *DPDK Programmers Guide*.
When using the Intel® C++ Compiler (icc), one of the following commands should be invoked for 64-bit or 32-bit use respectively.
-Notice that the shell scripts update the $PATH variable and therefore should not be performed in the same session.
+Notice that the shell scripts update the ``$PATH`` variable and therefore should not be performed in the same session.
Also, verify the compiler's installation directory since the path may be different:
.. code-block:: console
@@ -98,7 +99,7 @@ Also, verify the compiler's installation directory since the path may be differe
source /opt/intel/bin/iccvars.sh intel64
source /opt/intel/bin/iccvars.sh ia32
-To install and make targets, use the make install T=<target> command in the top-level DPDK directory.
+To install and make targets, use the ``make install T=<target>`` command in the top-level DPDK directory.
For example, to compile a 64-bit target using icc, run:
@@ -113,7 +114,7 @@ To compile a 32-bit build using gcc, the make command should be:
make install T=i686-native-linuxapp-gcc
To prepare a target without building it, for example, if the configuration changes need to be made before compilation,
-use the make config T=<target> command:
+use the ``make config T=<target>`` command:
.. code-block:: console
@@ -121,10 +122,10 @@ use the make config T=<target> command:
.. warning::
- Any kernel modules to be used, e.g. igb_uio, kni, must be compiled with the
+ Any kernel modules to be used, e.g. ``igb_uio``, ``kni``, must be compiled with the
same kernel as the one running on the target.
If the DPDK is not being built on the target machine,
- the RTE_KERNELDIR environment variable should be used to point the compilation at a copy of the kernel version to be used on the target machine.
+ the ``RTE_KERNELDIR`` environment variable should be used to point the compilation at a copy of the kernel version to be used on the target machine.
Once the target environment is created, the user may move to the target environment directory and continue to make code changes and re-compile.
The user may also make modifications to the compile-time DPDK configuration by editing the .config file in the build directory.
@@ -147,21 +148,22 @@ A kmod directory is also present that contains kernel modules which may be load
.. code-block:: console
- $ ls x86_64-native-linuxapp-gcc
+ ls x86_64-native-linuxapp-gcc
+
app build hostapp include kmod lib Makefile
Loading Modules to Enable Userspace IO for DPDK
-----------------------------------------------
To run any DPDK application, a suitable uio module can be loaded into the running kernel.
-In many cases, the standard uio_pci_generic module included in the Linux kernel
+In many cases, the standard ``uio_pci_generic`` module included in the Linux kernel
can provide the uio capability. This module can be loaded using the command
.. code-block:: console
sudo modprobe uio_pci_generic
-As an alternative to the uio_pci_generic, the DPDK also includes the igb_uio
+As an alternative to the ``uio_pci_generic``, the DPDK also includes the igb_uio
module which can be found in the kmod subdirectory referred to above. It can
be loaded as shown below:
@@ -173,7 +175,7 @@ be loaded as shown below:
.. note::
For some devices which lack support for legacy interrupts, e.g. virtual function
- (VF) devices, the igb_uio module may be needed in place of uio_pci_generic.
+ (VF) devices, the ``igb_uio`` module may be needed in place of ``uio_pci_generic``.
Since DPDK release 1.7 onward provides VFIO support, use of UIO is optional
for platforms that support using VFIO.
@@ -181,7 +183,7 @@ for platforms that support using VFIO.
Loading VFIO Module
-------------------
-To run an DPDK application and make use of VFIO, the vfio-pci module must be loaded:
+To run an DPDK application and make use of VFIO, the ``vfio-pci`` module must be loaded:
.. code-block:: console
@@ -196,29 +198,31 @@ Also, to use VFIO, both kernel and BIOS must support and be configured to use IO
For proper operation of VFIO when running DPDK applications as a non-privileged user, correct permissions should also be set up.
This can be done by using the DPDK setup script (called setup.sh and located in the tools directory).
+.. _linux_gsg_binding_kernel:
+
Binding and Unbinding Network Ports to/from the Kernel Modules
-----------------------------------------------------------------------
+--------------------------------------------------------------
As of release 1.4, DPDK applications no longer automatically unbind all supported network ports from the kernel driver in use.
Instead, all ports that are to be used by an DPDK application must be bound to the
-uio_pci_generic, igb_uio or vfio-pci module before the application is run.
+``uio_pci_generic``, ``igb_uio`` or ``vfio-pci`` module before the application is run.
Any network ports under Linux* control will be ignored by the DPDK poll-mode drivers and cannot be used by the application.
.. warning::
The DPDK will, by default, no longer automatically unbind network ports from the kernel driver at startup.
Any ports to be used by an DPDK application must be unbound from Linux* control and
- bound to the uio_pci_generic, igb_uio or vfio-pci module before the application is run.
+ bound to the ``uio_pci_generic``, ``igb_uio`` or ``vfio-pci`` module before the application is run.
-To bind ports to the uio_pci_generic, igb_uio or vfio-pci module for DPDK use,
+To bind ports to the ``uio_pci_generic``, ``igb_uio`` or ``vfio-pci`` module for DPDK use,
and then subsequently return ports to Linux* control,
a utility script called dpdk_nic _bind.py is provided in the tools subdirectory.
This utility can be used to provide a view of the current state of the network ports on the system,
and to bind and unbind those ports from the different kernel modules, including the uio and vfio modules.
The following are some examples of how the script can be used.
-A full description of the script and its parameters can be obtained by calling the script with the --help or --usage options.
+A full description of the script and its parameters can be obtained by calling the script with the ``--help`` or ``--usage`` options.
Note that the uio or vfio kernel modules to be used, should be loaded into the kernel before
-running the dpdk_nic_bind.py script.
+running the ``dpdk_nic_bind.py`` script.
.. warning::
@@ -239,38 +243,38 @@ To see the status of all network ports on the system:
.. code-block:: console
- root@host:DPDK# ./tools/dpdk_nic_bind.py --status
+ ./tools/dpdk_nic_bind.py --status
Network devices using DPDK-compatible driver
============================================
- 0000:82:00.0 '82599EB 10-Gigabit SFI/SFP+ Network Connection' drv=uio_pci_generic unused=ixgbe
- 0000:82:00.1 '82599EB 10-Gigabit SFI/SFP+ Network Connection' drv=uio_pci_generic unused=ixgbe
+ 0000:82:00.0 '82599EB 10-GbE NIC' drv=uio_pci_generic unused=ixgbe
+ 0000:82:00.1 '82599EB 10-GbE NIC' drv=uio_pci_generic unused=ixgbe
Network devices using kernel driver
===================================
- 0000:04:00.0 'I350 Gigabit Network Connection' if=em0 drv=igb unused=uio_pci_generic *Active*
- 0000:04:00.1 'I350 Gigabit Network Connection' if=eth1 drv=igb unused=uio_pci_generic
- 0000:04:00.2 'I350 Gigabit Network Connection' if=eth2 drv=igb unused=uio_pci_generic
- 0000:04:00.3 'I350 Gigabit Network Connection' if=eth3 drv=igb unused=uio_pci_generic
+ 0000:04:00.0 'I350 1-GbE NIC' if=em0 drv=igb unused=uio_pci_generic *Active*
+ 0000:04:00.1 'I350 1-GbE NIC' if=eth1 drv=igb unused=uio_pci_generic
+ 0000:04:00.2 'I350 1-GbE NIC' if=eth2 drv=igb unused=uio_pci_generic
+ 0000:04:00.3 'I350 1-GbE NIC' if=eth3 drv=igb unused=uio_pci_generic
Other network devices
=====================
<none>
-To bind device eth1, 04:00.1, to the uio_pci_generic driver:
+To bind device ``eth1``,``04:00.1``, to the ``uio_pci_generic`` driver:
.. code-block:: console
- root@host:DPDK# ./tools/dpdk_nic_bind.py --bind=uio_pci_generic 04:00.1
+ ./tools/dpdk_nic_bind.py --bind=uio_pci_generic 04:00.1
or, alternatively,
.. code-block:: console
- root@host:DPDK# ./tools/dpdk_nic_bind.py --bind=uio_pci_generic eth1
+ ./tools/dpdk_nic_bind.py --bind=uio_pci_generic eth1
-To restore device 82:00.0 to its original kernel binding:
+To restore device ``82:00.0`` to its original kernel binding:
.. code-block:: console
- root@host:DPDK# ./tools/dpdk_nic_bind.py --bind=ixgbe 82:00.0
+ ./tools/dpdk_nic_bind.py --bind=ixgbe 82:00.0
diff --git a/doc/guides/linux_gsg/build_sample_apps.rst b/doc/guides/linux_gsg/build_sample_apps.rst
index 07d84df..e53bd51 100644
--- a/doc/guides/linux_gsg/build_sample_apps.rst
+++ b/doc/guides/linux_gsg/build_sample_apps.rst
@@ -36,59 +36,62 @@ It also provides a pointer to where sample applications are stored.
.. note::
- Parts of this process can also be done using the setup script described in **Chapter 6** of this document.
+ Parts of this process can also be done using the setup script described the
+ :ref:`linux_setup_script` section of this document.
Compiling a Sample Application
------------------------------
-Once an DPDK target environment directory has been created (such as x86_64-native-linuxapp-gcc),
+Once an DPDK target environment directory has been created (such as ``x86_64-native-linuxapp-gcc``),
it contains all libraries and header files required to build an application.
When compiling an application in the Linux* environment on the DPDK, the following variables must be exported:
-* RTE_SDK - Points to the DPDK installation directory.
+* ``RTE_SDK`` - Points to the DPDK installation directory.
-* RTE_TARGET - Points to the DPDK target environment directory.
+* ``RTE_TARGET`` - Points to the DPDK target environment directory.
-The following is an example of creating the helloworld application, which runs in the DPDK Linux environment.
-This example may be found in the ${RTE_SDK}/examples directory.
+The following is an example of creating the ``helloworld`` application, which runs in the DPDK Linux environment.
+This example may be found in the ``${RTE_SDK}/examples`` directory.
-The directory contains the main.c file. This file, when combined with the libraries in the DPDK target environment,
+The directory contains the ``main.c`` file. This file, when combined with the 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.
.. code-block:: console
- user@host:~/DPDK$ cd examples/helloworld/
- user@host:~/DPDK/examples/helloworld$ export RTE_SDK=$HOME/DPDK
- user@host:~/DPDK/examples/helloworld$ export RTE_TARGET=x86_64-native-linuxapp-gcc
- user@host:~/DPDK/examples/helloworld$ make
+ cd examples/helloworld/
+ export RTE_SDK=$HOME/DPDK
+ export RTE_TARGET=x86_64-native-linuxapp-gcc
+
+ make
CC main.o
LD helloworld
INSTALL-APP helloworld
INSTALL-MAP helloworld.map
- user@host:~/DPDK/examples/helloworld$ ls build/app
+ ls build/app
helloworld helloworld.map
.. note::
- In the above example, helloworld was in the directory structure of the DPDK.
+ In the above example, ``helloworld`` was in the directory structure of the 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.
+ In the following case, the ``helloworld`` application is copied to a new directory as a new starting point.
.. code-block:: console
- user@host:~$ export RTE_SDK=/home/user/DPDK
- user@host:~$ cp -r $(RTE_SDK)/examples/helloworld my_rte_app
- user@host:~$ cd my_rte_app/
- user@host:~$ export RTE_TARGET=x86_64-native-linuxapp-gcc
- user@host:~/my_rte_app$ make
- CC main.o
- LD helloworld
- INSTALL-APP helloworld
- INSTALL-MAP helloworld.map
+ export RTE_SDK=/home/user/DPDK
+ cp -r $(RTE_SDK)/examples/helloworld my_rte_app
+ cd my_rte_app/
+ export RTE_TARGET=x86_64-native-linuxapp-gcc
+
+ make
+ CC main.o
+ LD helloworld
+ INSTALL-APP helloworld
+ INSTALL-MAP helloworld.map
Running a Sample Application
----------------------------
@@ -100,7 +103,7 @@ Running a Sample Application
.. warning::
Any ports to be used by the application must be already bound to an appropriate kernel
- module, as described in Section 3.5, prior to running the application.
+ module, as described in :ref:`linux_gsg_binding_kernel`, prior to running the application.
The application is linked with the DPDK target environment's Environmental Abstraction Layer (EAL) library,
which provides some options that are generic to every DPDK application.
@@ -109,55 +112,75 @@ The following is the list of options that can be given to the EAL:
.. code-block:: console
- ./rte-app -n NUM [-c COREMASK] [-b <domain:bus:devid.func>] [--socket-mem=MB,...] [-m MB] [-r NUM] [-v] [--file-prefix] [--proc-type <primary|secondary|auto>] [-- xen-dom0]
+ ./rte-app -c COREMASK [-n NUM] [-b <domain:bus:devid.func>] \
+ [--socket-mem=MB,...] [-m MB] [-r NUM] [-v] [--file-prefix] \
+ [--proc-type <primary|secondary|auto>] [-- xen-dom0]
The EAL options are as follows:
-* -c COREMASK: An hexadecimal bit mask of the cores to run on. Note that core numbering can change between platforms and should be determined beforehand.
+* ``-c COREMASK``:
+ An hexadecimal bit mask of the cores to run on. Note that core numbering can
+ change between platforms and should be determined beforehand.
-* -n NUM: Number of memory channels per processor socket
+* ``-n NUM``:
+ Number of memory channels per processor socket.
-* -b <domain:bus:devid.func>: blacklisting of ports; prevent EAL from using specified PCI device (multiple -b options are allowed)
+* ``-b <domain:bus:devid.func>``:
+ Blacklisting of ports; prevent EAL from using specified PCI device
+ (multiple ``-b`` options are allowed).
-* --use-device: use the specified Ethernet device(s) only. Use comma-separate <[domain:]bus:devid.func> values. Cannot be used with -b option
+* ``--use-device``:
+ use the specified Ethernet device(s) only. Use comma-separate
+ ``[domain:]bus:devid.func`` values. Cannot be used with ``-b`` option.
-* --socket-mem: Memory to allocate from hugepages on specific sockets
+* ``--socket-mem``:
+ Memory to allocate from hugepages on specific sockets.
-* -m MB: Memory to allocate from hugepages, regardless of processor socket. It is recommended that --socket-mem be used instead of this option.
+* ``-m MB``:
+ Memory to allocate from hugepages, regardless of processor socket. It is
+ recommended that ``--socket-mem`` be used instead of this option.
-* -r NUM: Number of memory ranks
+* ``-r NUM``:
+ Number of memory ranks.
-* -v: Display version information on startup
+* ``-v``:
+ Display version information on startup.
-* --huge-dir: The directory where hugetlbfs is mounted
+* ``--huge-dir``:
+ The directory where hugetlbfs is mounted.
-* --file-prefix: The prefix text used for hugepage filenames
+* ``--file-prefix``:
+ The prefix text used for hugepage filenames.
-* --proc-type: The type of process instance
+* ``--proc-type``:
+ The type of process instance.
-* --xen-dom0: Support application running on Xen Domain0 without hugetlbfs
+* ``--xen-dom0``:
+ Support application running on Xen Domain0 without hugetlbfs.
-* --vmware-tsc-map: use VMware TSC map instead of native RDTSC
+* ``--vmware-tsc-map``:
+ Use VMware TSC map instead of native RDTSC.
-* --base-virtaddr: specify base virtual address
+* ``--base-virtaddr``:
+ Specify base virtual address.
-* --vfio-intr: specify interrupt type to be used by VFIO (has no effect if VFIO is not used)
+* ``--vfio-intr``:
+ Specify interrupt type to be used by VFIO (has no effect if VFIO is not used).
-The -c and the -n options are mandatory; the others are optional.
+The ``-c`` and option is mandatory; the others are optional.
Copy the DPDK application binary to your target, then run the application as follows
(assuming the platform has four memory channels per processor socket,
-and that cores 0-3 are present and are to be used for running the application):
-
-.. code-block:: console
+and that cores 0-3 are present and are to be used for running the application)::
- user@target:~$ ./helloworld -c f -n 4
+ ./helloworld -c f -n 4
.. note::
- The --proc-type and --file-prefix EAL options are used for running multiple DPDK processes.
- See the “Multi-process Sample Application” chapter in the *DPDK Sample Applications User Guide* and
- the *DPDK Programmers Guide* for more details.
+ The ``--proc-type`` and ``--file-prefix`` EAL options are used for running
+ multiple DPDK processes. See the "Multi-process Sample Application"
+ chapter in the *DPDK Sample Applications User Guide* and the *DPDK
+ Programmers Guide* for more details.
Logical Core Use by Applications
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@@ -168,16 +191,14 @@ Since these logical core numbers, and their mapping to specific cores on specifi
it is recommended that the core layout for each platform be considered when choosing the coremask to use in each case.
On initialization of the EAL layer by an DPDK application, the logical cores to be used and their socket location are displayed.
-This information can also be determined for all cores on the system by examining the /proc/cpuinfo file, for example, by running cat /proc/cpuinfo.
+This information can also be determined for all cores on the system by examining the ``/proc/cpuinfo`` file, for example, by running cat ``/proc/cpuinfo``.
The physical id attribute listed for each processor indicates the CPU socket to which it belongs.
This can be useful when using other processors to understand the mapping of the logical cores to the sockets.
.. note::
- A more graphical view of the logical core layout may be obtained using the lstopo Linux utility.
- On Fedora* Linux, this may be installed and run using the following command:
-
-.. code-block:: console
+ A more graphical view of the logical core layout may be obtained using the ``lstopo`` Linux utility.
+ On Fedora Linux, this may be installed and run using the following command::
sudo yum install hwloc
./lstopo
@@ -191,25 +212,25 @@ Hugepage Memory Use by Applications
When running an application, it is recommended to use the same amount of memory as that allocated for hugepages.
This is done automatically by the DPDK application at startup,
-if no -m or --socket-mem parameter is passed to it when run.
+if no ``-m`` or ``--socket-mem`` parameter is passed to it when run.
-If more memory is requested by explicitly passing a -m or --socket-mem value, the application fails.
-However, the application itself can also fail if the user requests less memory than the reserved amount of hugepage-memory, particularly if using the -m option.
+If more memory is requested by explicitly passing a ``-m`` or ``--socket-mem`` value, the application fails.
+However, the application itself can also fail if the user requests less memory than the reserved amount of hugepage-memory, particularly if using the ``-m`` option.
The reason is as follows.
Suppose the system has 1024 reserved 2 MB pages in socket 0 and 1024 in socket 1.
If the user requests 128 MB of memory, the 64 pages may not match the constraints:
* The hugepage memory by be given to the application by the kernel in socket 1 only.
In this case, if the application attempts to create an object, such as a ring or memory pool in socket 0, it fails.
- To avoid this issue, it is recommended that the -- socket-mem option be used instead of the -m option.
+ To avoid this issue, it is recommended that the ``--socket-mem`` option be used instead of the ``-m`` option.
* These pages can be located anywhere in physical memory, and, although the DPDK EAL will attempt to allocate memory in contiguous blocks,
it is possible that the pages will not be contiguous. In this case, the application is not able to allocate big memory pools.
The socket-mem option can be used to request specific amounts of memory for specific sockets.
-This is accomplished by supplying the --socket-mem flag followed by amounts of memory requested on each socket,
-for example, supply --socket-mem=0,512 to try and reserve 512 MB for socket 1 only.
-Similarly, on a four socket system, to allocate 1 GB memory on each of sockets 0 and 2 only, the parameter --socket-mem=1024,0,1024 can be used.
+This is accomplished by supplying the ``--socket-mem`` flag followed by amounts of memory requested on each socket,
+for example, supply ``--socket-mem=0,512`` to try and reserve 512 MB for socket 1 only.
+Similarly, on a four socket system, to allocate 1 GB memory on each of sockets 0 and 2 only, the parameter ``--socket-mem=1024,0,1024`` can be used.
No memory will be reserved on any CPU socket that is not explicitly referenced, for example, socket 3 in this case.
If the DPDK cannot allocate enough memory on each socket, the EAL initialization fails.
diff --git a/doc/guides/linux_gsg/enable_func.rst b/doc/guides/linux_gsg/enable_func.rst
index 0105a82..c3fa6d3 100644
--- a/doc/guides/linux_gsg/enable_func.rst
+++ b/doc/guides/linux_gsg/enable_func.rst
@@ -47,11 +47,9 @@ The BIOS is typically accessed by pressing F2 while the platform is starting up.
The user can then navigate to the HPET option. On the Crystal Forest platform BIOS, the path is:
**Advanced -> PCH-IO Configuration -> High Precision Timer ->** (Change from Disabled to Enabled if necessary).
-On a system that has already booted, the following command can be issued to check if HPET is enabled:
+On a system that has already booted, the following command can be issued to check if HPET is enabled::
-.. code-block:: console
-
- # grep hpet /proc/timer_list
+ grep hpet /proc/timer_list
If no entries are returned, HPET must be enabled in the BIOS (as per the instructions above) and the system rebooted.
@@ -59,75 +57,84 @@ Linux Kernel Support
~~~~~~~~~~~~~~~~~~~~
The DPDK makes use of the platform HPET timer by mapping the timer counter into the process address space, and as such,
-requires that the HPET_MMAP kernel configuration option be enabled.
+requires that the ``HPET_MMAP`` kernel configuration option be enabled.
.. warning::
- On Fedora*, and other common distributions such as Ubuntu*, the HPET_MMAP kernel option is not enabled by default.
+ On Fedora, and other common distributions such as Ubuntu, the ``HPET_MMAP`` kernel option is not enabled by default.
To recompile the Linux kernel with this option enabled, please consult the distributions documentation for the relevant instructions.
Enabling HPET in the DPDK
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
By default, HPET support is disabled in the DPDK build configuration files.
-To use HPET, the CONFIG_RTE_LIBEAL_USE_HPET setting should be changed to “y”, which will enable the HPET settings at compile time.
+To use HPET, the ``CONFIG_RTE_LIBEAL_USE_HPET`` setting should be changed to ``y``, which will enable the HPET settings at compile time.
-For an application to use the rte_get_hpet_cycles() and rte_get_hpet_hz() API calls,
+For an application to use the ``rte_get_hpet_cycles()`` and ``rte_get_hpet_hz()`` API calls,
and optionally to make the HPET the default time source for the rte_timer library,
-the new rte_eal_hpet_init() API call should be called at application initialization.
+the new ``rte_eal_hpet_init()`` API call should be called at application initialization.
This API call will ensure that the HPET is accessible, returning an error to the application if it is not,
-for example, if HPET_MMAP is not enabled in the kernel.
+for example, if ``HPET_MMAP`` is not enabled in the kernel.
The application can then determine what action to take, if any, if the HPET is not available at run-time.
.. note::
For applications that require timing APIs, but not the HPET timer specifically,
- it is recommended that the rte_get_timer_cycles() and rte_get_timer_hz() API calls be used instead of the HPET-specific APIs.
- These generic APIs can work with either TSC or HPET time sources, depending on what is requested by an application call to rte_eal_hpet_init(),
+ it is recommended that the ``rte_get_timer_cycles()`` and ``rte_get_timer_hz()`` API calls be used instead of the HPET-specific APIs.
+ These generic APIs can work with either TSC or HPET time sources, depending on what is requested by an application call to ``rte_eal_hpet_init()``,
if any, and on what is available on the system at runtime.
Running DPDK Applications Without Root Privileges
--------------------------------------------------------
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”.
+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 Linux file system objects should be adjusted to ensure that
the Linux user account being used to run the DPDK application has access to them:
-* All directories which serve as hugepage mount points, for example, /mnt/huge
+* All directories which serve as hugepage mount points, for example, ``/mnt/huge``
+
+* The userspace-io device files in ``/dev``, for example, ``/dev/uio0``, ``/dev/uio1``, and so on
-* The userspace-io device files in /dev, for example, /dev/uio0, /dev/uio1, and so on
+* The userspace-io sysfs config and resource files, for example for ``uio0``::
-* The userspace-io sysfs config and resource files, for example for uio0: /sys/class/uio/uio0/device/config /sys/class/uio/uio0/device/resource*
+ /sys/class/uio/uio0/device/config
+ /sys/class/uio/uio0/device/resource*
-* If the HPET is to be used, /dev/hpet
+* If the HPET is to be used, ``/dev/hpet``
.. note::
- On some Linux installations, /dev/hugepages is also a hugepage mount point created by default.
+ On some Linux installations, ``/dev/hugepages`` is also a hugepage mount point created by default.
Power Management and Power Saving Functionality
-----------------------------------------------
Enhanced Intel SpeedStep® Technology must be enabled in the platform BIOS if the power management feature of DPDK is to be used.
-Otherwise, the sys file folder /sys/devices/system/cpu/cpu0/cpufreq will not exist, and the CPU frequency- based power management cannot be used.
+Otherwise, the sys file folder ``/sys/devices/system/cpu/cpu0/cpufreq`` will not exist, and the CPU frequency- based power management cannot be used.
Consult the relevant BIOS documentation to determine how these settings can be accessed.
-For example, on some Intel reference platform BIOS variants, the path to Enhanced Intel SpeedStep® Technology is:
+For example, on some Intel reference platform BIOS variants, the path to Enhanced Intel SpeedStep® Technology is::
-**Advanced->Processor Configuration->Enhanced Intel SpeedStep® Tech**
+ Advanced
+ -> Processor Configuration
+ -> Enhanced Intel SpeedStep® Tech
-In addition, C3 and C6 should be enabled as well for power management. The path of C3 and C6 on the same platform BIOS is:
+In addition, C3 and C6 should be enabled as well for power management. The path of C3 and C6 on the same platform BIOS is::
-**Advanced->Processor Configuration->Processor C3 Advanced->Processor Configuration-> Processor C6**
+ Advanced
+ -> Processor Configuration
+ -> Processor C3 Advanced
+ -> Processor Configuration
+ -> Processor C6
-Using Linux* Core Isolation to Reduce Context Switches
-------------------------------------------------------
+Using Linux Core Isolation to Reduce Context Switches
+-----------------------------------------------------
While the threads used by an DPDK application are pinned to logical cores on the system,
it is possible for the Linux scheduler to run other tasks on those cores also.
To help prevent additional workloads from running on those cores,
-it is possible to use the isolcpus Linux* kernel parameter to isolate them from the general Linux scheduler.
+it is possible to use the ``isolcpus`` Linux kernel parameter to isolate them from the general Linux scheduler.
For example, if DPDK applications are to run on logical cores 2, 4 and 6,
the following should be added to the kernel parameter list:
@@ -137,38 +144,38 @@ the following should be added to the kernel parameter list:
isolcpus=2,4,6
Loading the DPDK KNI Kernel Module
------------------------------------------
+----------------------------------
To run the DPDK Kernel NIC Interface (KNI) sample application, an extra kernel module (the kni module) must be loaded into the running kernel.
The module is found in the kmod sub-directory of the DPDK target directory.
-Similar to the loading of the igb_uio module, this module should be loaded using the insmod command as shown below
+Similar to the loading of the ``igb_uio`` module, this module should be loaded using the insmod command as shown below
(assuming that the current directory is the DPDK target directory):
.. code-block:: console
- #insmod kmod/rte_kni.ko
+ insmod kmod/rte_kni.ko
.. note::
- See the “Kernel NIC Interface Sample Application” chapter in the *DPDK Sample Applications User Guide* for more details.
+ See the "Kernel NIC Interface Sample Application" chapter in the *DPDK Sample Applications User Guide* for more details.
Using Linux IOMMU Pass-Through to Run DPDK with Intel® VT-d
-----------------------------------------------------------
To enable Intel® VT-d in a Linux kernel, a number of kernel configuration options must be set. These include:
-* IOMMU_SUPPORT
+* ``IOMMU_SUPPORT``
-* IOMMU_API
+* ``IOMMU_API``
-* INTEL_IOMMU
+* ``INTEL_IOMMU``
-In addition, to run the DPDK with Intel® VT-d, the iommu=pt kernel parameter must be used when using igb_uio driver.
+In addition, to run the DPDK with Intel® VT-d, the ``iommu=pt`` kernel parameter must be used when using ``igb_uio`` driver.
This results in pass-through of the DMAR (DMA Remapping) lookup in the host.
-Also, if INTEL_IOMMU_DEFAULT_ON is not set in the kernel, the intel_iommu=on kernel parameter must be used too.
+Also, if ``INTEL_IOMMU_DEFAULT_ON`` is not set in the kernel, the ``intel_iommu=on`` kernel parameter must be used too.
This ensures that the Intel IOMMU is being initialized as expected.
-Please note that while using iommu=pt is compulsory for igb_uio driver, the vfio-pci driver can actually work with both iommu=pt and iommu=on.
+Please note that while using ``iommu=pt`` is compulsory for ``igb_uio driver``, the ``vfio-pci`` driver can actually work with both ``iommu=pt`` and ``iommu=on``.
High Performance of Small Packets on 40G NIC
--------------------------------------------
@@ -182,12 +189,12 @@ DPDK release, so currently the validated firmware version is 4.2.6.
Enabling Extended Tag and Setting Max Read Request Size
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-PCI configurations of extended_tag and max _read_requ st_size have big impacts on performance of small packets on 40G NIC.
-Enabling extended_tag and setting max _read_requ st_size to small size such as 128 bytes provide great helps to high performance of small packets.
+PCI configurations of ``extended_tag`` and max _read_requ st_size have big impacts on performance of small packets on 40G NIC.
+Enabling extended_tag and setting ``max_read_request_size`` to small size such as 128 bytes provide great helps to high performance of small packets.
* These can be done in some BIOS implementations.
-* For other BIOS implementations, PCI configurations can be changed by using command of setpci, or special configurations in DPDK config file of common_linux.
+* For other BIOS implementations, PCI configurations can be changed by using command of ``setpci``, or special configurations in DPDK config file of ``common_linux``.
* Bits 7:5 at address of 0xA8 of each PCI device is used for setting the max_read_request_size,
and bit 8 of 0xA8 of each PCI device is used for enabling/disabling the extended_tag.
@@ -195,24 +202,24 @@ Enabling extended_tag and setting max _read_requ st_size to small size such as 1
* In config file of common_linux, below three configurations can be changed for the same purpose.
- CONFIG_RTE_PCI_CONFIG
+ ``CONFIG_RTE_PCI_CONFIG``
- CONFIG_RTE_PCI_EXTENDED_TAG
+ ``CONFIG_RTE_PCI_EXTENDED_TAG``
- CONFIG_RTE_PCI_MAX_READ_REQUEST_SIZE
+ ``CONFIG_RTE_PCI_MAX_READ_REQUEST_SIZE``
Use 16 Bytes RX Descriptor Size
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
As i40e PMD supports both 16 and 32 bytes RX descriptor sizes, and 16 bytes size can provide helps to high performance of small packets.
-Configuration of CONFIG_RTE_LIBRTE_I40E_16BYTE_RX_DESC in config files can be changed to use 16 bytes size RX descriptors.
+Configuration of ``CONFIG_RTE_LIBRTE_I40E_16BYTE_RX_DESC`` in config files can be changed to use 16 bytes size RX descriptors.
High Performance and per Packet Latency Tradeoff
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Due to the hardware design, the interrupt signal inside NIC is needed for per
packet descriptor write-back. The minimum interval of interrupts could be set
-at compile time by CONFIG_RTE_LIBRTE_I40E_ITR_INTERVAL in configuration files.
+at compile time by ``CONFIG_RTE_LIBRTE_I40E_ITR_INTERVAL`` in configuration files.
Though there is a default configuration, the interval could be tuned by the
users with that configuration item depends on what the user cares about more,
performance or per packet latency.
diff --git a/doc/guides/linux_gsg/intro.rst b/doc/guides/linux_gsg/intro.rst
index a6ee188..eef7e83 100644
--- a/doc/guides/linux_gsg/intro.rst
+++ b/doc/guides/linux_gsg/intro.rst
@@ -33,7 +33,7 @@ Introduction
This document contains instructions for installing and configuring the Intel® Data Plane Development Kit (DPDK) software.
It is designed to get customers up and running quickly.
-The document describes how to compile and run a DPDK application in a Linux* application (linuxapp) environment,
+The document describes how to compile and run a DPDK application in a Linux application (linuxapp) environment,
without going deeply into detail.
Documentation Roadmap
@@ -48,7 +48,7 @@ The following is a list of DPDK documents in the suggested reading order:
* Programmer's Guide: Describes:
- * The software architecture and how to use it (through examples), specifically in a Linux* application (linuxapp) environment
+ * The software architecture and how to use it (through examples), specifically in a Linux application (linuxapp) environment
* The content of the DPDK, the build system (including the commands that can be used in the root DPDK Makefile to build the development kit and
an application) and guidelines for porting an application
@@ -61,7 +61,3 @@ The following is a list of DPDK documents in the suggested reading order:
* Sample Applications User Guide: Describes a set of sample applications.
Each chapter describes a sample application that showcases specific functionality and provides instructions on how to compile, run and use the sample application.
-
-.. note::
-
- These documents are available for download as a separate documentation package at the same location as the DPDK code package.
diff --git a/doc/guides/linux_gsg/quick_start.rst b/doc/guides/linux_gsg/quick_start.rst
index b07fc87..1e0f8ff 100644
--- a/doc/guides/linux_gsg/quick_start.rst
+++ b/doc/guides/linux_gsg/quick_start.rst
@@ -28,6 +28,8 @@
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+.. _linux_setup_script:
+
Quick Start Setup Script
========================
@@ -51,7 +53,7 @@ The setup.sh script, found in the tools subdirectory, allows the user to perform
* Look at hugepages in the meminfo
-* List hugepages in /mnt/huge
+* List hugepages in ``/mnt/huge``
* Remove built DPDK libraries
@@ -106,7 +108,7 @@ Some options in the script prompt the user for further data before proceeding.
.. code-block:: console
- user@host:~/rte$ source tools/setup.sh
+ source tools/setup.sh
------------------------------------------------------------------------
@@ -202,7 +204,7 @@ Some options in the script prompt the user for further data before proceeding.
Option:
-The following selection demonstrates the creation of the x86_64-native-linuxapp-gcc DPDK library.
+The following selection demonstrates the creation of the ``x86_64-native-linuxapp-gcc`` DPDK library.
.. code-block:: console
@@ -214,7 +216,7 @@ The following selection demonstrates the creation of the x86_64-native-linuxapp-
== Build lib
...
Build complete
- RTE_TARGET exported as x86_64-native -linuxapp-gcc
+ RTE_TARGET exported as x86_64-native-linuxapp-gcc
The following selection demonstrates the starting of the DPDK UIO driver.
@@ -277,15 +279,16 @@ the logical core layout of the platform should be determined when selecting a co
.. code-block:: console
- rte@rte-desktop:~/rte/examples$ cd helloworld/
- rte@rte-desktop:~/rte/examples/helloworld$ make
- CC main.o
- LD helloworld
- INSTALL-APP helloworld
- INSTALL-MAP helloworld.map
+ cd helloworld/
+ make
+ CC main.o
+ LD helloworld
+ INSTALL-APP helloworld
+ INSTALL-MAP helloworld.map
- rte@rte-desktop:~/rte/examples/helloworld$ sudo ./build/app/helloworld -c 0xf -n 3
+ sudo ./build/app/helloworld -c 0xf -n 3
[sudo] password for rte:
+
EAL: coremask set to f
EAL: Detected lcore 0 as core 0 on socket 0
EAL: Detected lcore 1 as core 0 on socket 1
diff --git a/doc/guides/linux_gsg/sys_reqs.rst b/doc/guides/linux_gsg/sys_reqs.rst
index ef01944..a20a407 100644
--- a/doc/guides/linux_gsg/sys_reqs.rst
+++ b/doc/guides/linux_gsg/sys_reqs.rst
@@ -28,7 +28,6 @@
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-
System Requirements
===================
@@ -37,7 +36,7 @@ This chapter describes the packages required to compile the DPDK.
.. note::
If the DPDK is being used on an Intel® Communications Chipset 89xx Series platform,
- please consult the *Intel® Communications Chipset 89xx Series Software for Linux* Getting Started Guide*.
+ please consult the *Intel® Communications Chipset 89xx Series Software for Linux Getting Started Guide*.
BIOS Setting Prerequisite on x86
--------------------------------
@@ -45,7 +44,7 @@ BIOS Setting Prerequisite on x86
For the majority of platforms, no special BIOS settings are needed to use basic DPDK functionality.
However, for additional HPET timer and power management functionality,
and high performance of small packets on 40G NIC, BIOS setting changes may be needed.
-Consult :ref:`Chapter 5. Enabling Additional Functionality <Enabling_Additional_Functionality>`
+Consult the section on :ref:`Enabling Additional Functionality <Enabling_Additional_Functionality>`
for more information on the required changes.
Compilation of the DPDK
@@ -55,17 +54,17 @@ Compilation of the DPDK
.. note::
- Testing has been performed using Fedora* 18. The setup commands and installed packages needed on other systems may be different.
+ Testing has been performed using Fedora 18. The setup commands and installed packages needed on other systems may be different.
For details on other Linux distributions and the versions tested, please consult the DPDK Release Notes.
-* GNU make
+* GNU ``make``.
-* coreutils: cmp, sed, grep, arch
+* coreutils: ``cmp``, ``sed``, ``grep``, ``arch``, etc.
-* gcc: versions 4.5.x or later is recommended for i686/x86_64. versions 4.8.x or later is recommended
- for ppc_64 and x86_x32 ABI. On some distributions, some specific compiler flags and linker flags are enabled by
- default and affect performance (- fstack-protector, for example). Please refer to the documentation
- of your distribution and to gcc -dumpspecs.
+* gcc: versions 4.5.x or later is recommended for ``i686/x86_64``. Versions 4.8.x or later is recommended
+ for ``ppc_64`` and ``x86_x32`` ABI. On some distributions, some specific compiler flags and linker flags are enabled by
+ default and affect performance (``-fstack-protector``, for example). Please refer to the documentation
+ of your distribution and to ``gcc -dumpspecs``.
* libc headers (glibc-devel.i686 / libc6-dev-i386; glibc-devel.x86_64 for 64-bit compilation on Intel
architecture; glibc-devel.ppc64 for 64 bit IBM Power architecture;)
@@ -75,9 +74,9 @@ Compilation of the DPDK
* Additional packages required for 32-bit compilation on 64-bit systems are:
- glibc.i686, libgcc.i686, libstdc++.i686 and glibc-devel.i686 for Intel i686/x86_64;
+ * glibc.i686, libgcc.i686, libstdc++.i686 and glibc-devel.i686 for Intel i686/x86_64;
- glibc.ppc64, libgcc.ppc64, libstdc++.ppc64 and glibc-devel.ppc64 for IBM ppc_64;
+ * glibc.ppc64, libgcc.ppc64, libstdc++.ppc64 and glibc-devel.ppc64 for IBM ppc_64;
.. note::
@@ -86,21 +85,20 @@ Compilation of the DPDK
.. note::
- Python, version 2.6 or 2.7, to use various helper scripts included in the DPDK package
+ Python, version 2.6 or 2.7, to use various helper scripts included in the DPDK package.
**Optional Tools:**
-* Intel® C++ Compiler (icc). For installation, additional libraries may be required.
+* Intel® C++ Compiler (icc). For installation, additional libraries may be required.
See the icc Installation Guide found in the Documentation directory under the compiler installation.
- This release has been tested using version 12.1.
* IBM® Advance ToolChain for Powerlinux. This is a set of open source development tools and runtime libraries
which allows users to take leading edge advantage of IBM's latest POWER hardware features on Linux. To install
it, see the IBM official installation document.
* libpcap headers and libraries (libpcap-devel) to compile and use the libpcap-based poll-mode driver.
- This driver is disabled by default and can be enabled by setting CONFIG_RTE_LIBRTE_PMD_PCAP=y in the build time config file.
+ This driver is disabled by default and can be enabled by setting ``CONFIG_RTE_LIBRTE_PMD_PCAP=y`` in the build time config file.
Running DPDK Applications
-------------------------
@@ -114,29 +112,17 @@ System Software
* Kernel version >= 2.6.34
- The kernel version in use can be checked using the command:
-
- .. code-block:: console
+ The kernel version in use can be checked using the command::
uname -r
* glibc >= 2.7 (for features related to cpuset)
- The version can be checked using the ldd --version command. A sample output is shown below:
-
- .. code-block:: console
-
- # ldd --version
-
- ldd (GNU libc) 2.14.90
- Copyright (C) 2011 Free Software Foundation, Inc.
- This is free software; see the source for copying conditions. There is NO
- warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
- Written by Roland McGrath and Ulrich Drepper.
+ The version can be checked using the ``ldd --version`` command.
* Kernel configuration
- In the Fedora* OS and other common distributions, such as Ubuntu*, or Red Hat Enterprise Linux*,
+ In the Fedora OS and other common distributions, such as Ubuntu, or Red Hat Enterprise Linux,
the vendor supplied kernel configurations can be used to run most DPDK applications.
For other kernel builds, options which should be enabled for DPDK include:
@@ -148,15 +134,15 @@ System Software
* PROC_PAGE_MONITOR support
* HPET and HPET_MMAP configuration options should also be enabled if HPET support is required.
- See :ref:`Section 5.1 High Precision Event Timer (HPET) Functionality <High_Precision_Event_Timer>` for more details.
+ See the section on :ref:`High Precision Event Timer (HPET) Functionality <High_Precision_Event_Timer>` for more details.
.. _linux_gsg_hugepages:
-Use of Hugepages in the Linux* Environment
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Use of Hugepages in the Linux Environment
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Hugepage support is required for the large memory pool allocation used for packet buffers
-(the HUGETLBFS option must be enabled in the running kernel as indicated in Section 2.3).
+(the HUGETLBFS option must be enabled in the running kernel as indicated the previous section).
By using hugepage allocations, performance is increased since fewer pages are needed,
and therefore less Translation Lookaside Buffers (TLBs, high speed translation caches),
which reduce the time it takes to translate a virtual page address to a physical page address.
@@ -167,19 +153,15 @@ Reserving Hugepages for DPDK Use
The allocation of hugepages should be done at boot time or as soon as possible after system boot
to prevent memory from being fragmented in physical memory.
-To reserve hugepages at boot time, a parameter is passed to the Linux* kernel on the kernel command line.
-
-For 2 MB pages, just pass the hugepages option to the kernel. For example, to reserve 1024 pages of 2 MB, use:
+To reserve hugepages at boot time, a parameter is passed to the Linux kernel on the kernel command line.
-.. code-block:: console
+For 2 MB pages, just pass the hugepages option to the kernel. For example, to reserve 1024 pages of 2 MB, use::
hugepages=1024
For other hugepage sizes, for example 1G pages, the size must be specified explicitly and
can also be optionally set as the default hugepage size for the system.
-For example, to reserve 4G of hugepage memory in the form of four 1G pages, the following options should be passed to the kernel:
-
-.. code-block:: console
+For example, to reserve 4G of hugepage memory in the form of four 1G pages, the following options should be passed to the kernel::
default_hugepagesz=1G hugepagesz=1G hugepages=4
@@ -197,21 +179,17 @@ In the case of a dual-socket NUMA system,
the number of hugepages reserved at boot time is generally divided equally between the two sockets
(on the assumption that sufficient memory is present on both sockets).
-See the Documentation/kernel-parameters.txt file in your Linux* source tree for further details of these and other kernel options.
+See the Documentation/kernel-parameters.txt file in your Linux source tree for further details of these and other kernel options.
**Alternative:**
For 2 MB pages, there is also the option of allocating hugepages after the system has booted.
-This is done by echoing the number of hugepages required to a nr_hugepages file in the /sys/devices/ directory.
-For a single-node system, the command to use is as follows (assuming that 1024 pages are required):
-
-.. code-block:: console
+This is done by echoing the number of hugepages required to a nr_hugepages file in the ``/sys/devices/`` directory.
+For a single-node system, the command to use is as follows (assuming that 1024 pages are required)::
echo 1024 > /sys/kernel/mm/hugepages/hugepages-2048kB/nr_hugepages
-On a NUMA machine, pages should be allocated explicitly on separate nodes:
-
-.. code-block:: console
+On a NUMA machine, pages should be allocated explicitly on separate nodes::
echo 1024 > /sys/devices/system/node/node0/hugepages/hugepages-2048kB/nr_hugepages
echo 1024 > /sys/devices/system/node/node1/hugepages/hugepages-2048kB/nr_hugepages
@@ -223,29 +201,23 @@ On a NUMA machine, pages should be allocated explicitly on separate nodes:
Using Hugepages with the DPDK
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-Once the hugepage memory is reserved, to make the memory available for DPDK use, perform the following steps:
-
-.. code-block:: console
+Once the hugepage memory is reserved, to make the memory available for DPDK use, perform the following steps::
mkdir /mnt/huge
mount -t hugetlbfs nodev /mnt/huge
-The mount point can be made permanent across reboots, by adding the following line to the /etc/fstab file:
-
-.. code-block:: console
+The mount point can be made permanent across reboots, by adding the following line to the ``/etc/fstab`` file::
nodev /mnt/huge hugetlbfs defaults 0 0
-For 1GB pages, the page size must be specified as a mount option:
-
-.. code-block:: console
+For 1GB pages, the page size must be specified as a mount option::
nodev /mnt/huge_1GB hugetlbfs pagesize=1GB 0 0
-Xen Domain0 Support in the Linux* Environment
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Xen Domain0 Support in the Linux Environment
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-The existing memory management implementation is based on the Linux* kernel hugepage mechanism.
+The existing memory management implementation is based on the Linux kernel hugepage mechanism.
On the Xen hypervisor, hugepage support for DomainU (DomU) Guests means that DPDK applications work as normal for guests.
However, Domain0 (Dom0) does not support hugepages.
@@ -263,11 +235,9 @@ Furthermore, the CONFIG_RTE_EAL_ALLOW_INV_SOCKET_ID setting should also be chang
Loading the DPDK rte_dom0_mm Module
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-To run any DPDK application on Xen Dom0, the rte_dom0_mm module must be loaded into the running kernel with rsv_memsize option.
+To run any DPDK application on Xen Dom0, the ``rte_dom0_mm`` module must be loaded into the running kernel with rsv_memsize option.
The module is found in the kmod sub-directory of the DPDK target directory.
-This module should be loaded using the insmod command as shown below (assuming that the current directory is the DPDK target directory):
-
-.. code-block:: console
+This module should be loaded using the insmod command as shown below (assuming that the current directory is the DPDK target directory)::
sudo insmod kmod/rte_dom0_mm.ko rsv_memsize=X
@@ -278,19 +248,15 @@ Configuring Memory for DPDK Use
After the rte_dom0_mm.ko kernel module has been loaded, the user must configure the memory size for DPDK usage.
This is done by echoing the memory size to a memsize file in the /sys/devices/ directory.
-Use the following command (assuming that 2048 MB is required):
-
-.. code-block:: console
+Use the following command (assuming that 2048 MB is required)::
echo 2048 > /sys/kernel/mm/dom0-mm/memsize-mB/memsize
-The user can also check how much memory has already been used:
-
-.. code-block:: console
+The user can also check how much memory has already been used::
cat /sys/kernel/mm/dom0-mm/memsize-mB/memsize_rsvd
-Xen Domain0 does not support NUMA configuration, as a result the --socket-mem command line option is invalid for Xen Domain0.
+Xen Domain0 does not support NUMA configuration, as a result the ``--socket-mem`` command line option is invalid for Xen Domain0.
.. note::
@@ -299,4 +265,4 @@ Xen Domain0 does not support NUMA configuration, as a result the --socket-mem co
Running the DPDK Application on Xen Domain0
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-To run the DPDK application on Xen Domain0, an extra command line option --xen-dom0 is required.
+To run the DPDK application on Xen Domain0, an extra command line option ``--xen-dom0`` is required.
--
2.5.0
^ permalink raw reply [flat|nested] 2+ messages in thread
* Re: [dpdk-dev] [PATCH] doc: improve linux guide layout
2015-12-15 13:34 [dpdk-dev] [PATCH] doc: improve linux guide layout John McNamara
@ 2015-12-15 14:02 ` Thomas Monjalon
0 siblings, 0 replies; 2+ messages in thread
From: Thomas Monjalon @ 2015-12-15 14:02 UTC (permalink / raw)
To: John McNamara; +Cc: dev
2015-12-15 13:34, John McNamara:
> Fixed Linux Getting Started Guide rst layout to improve
> rendering in PDF.
>
> Signed-off-by: John McNamara <john.mcnamara@intel.com>
Applied, thanks
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2015-12-15 13:34 [dpdk-dev] [PATCH] doc: improve linux guide layout John McNamara
2015-12-15 14:02 ` Thomas Monjalon
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