X-Git-Url: https://gerrit.fd.io/r/gitweb?a=blobdiff_plain;f=doc%2Fguides%2Fplatform%2Focteontx.rst;h=3bde91f9daaf4e47afc3fd61adb7c8c79f90fe3a;hb=a4712f588e6e7f556698eea7fbc2514d175693a6;hp=9f75d2a8e9d9ac6816b0f66e399dde3459a96ae6;hpb=8a853e3f0275efc8b05cb195085d45946942744a;p=deb_dpdk.git diff --git a/doc/guides/platform/octeontx.rst b/doc/guides/platform/octeontx.rst index 9f75d2a8..3bde91f9 100644 --- a/doc/guides/platform/octeontx.rst +++ b/doc/guides/platform/octeontx.rst @@ -15,11 +15,15 @@ More information about SoC can be found at `Cavium, Inc Official Website Common Offload HW Block Drivers ------------------------------- -1. **Eventdev Driver** +1. **Crypto Driver** + See :doc:`../cryptodevs/octeontx` for octeontx crypto driver + information. + +2. **Eventdev Driver** See :doc:`../eventdevs/octeontx` for octeontx ssovf eventdev driver information. -2. **Mempool Driver** +3. **Mempool Driver** See :doc:`../mempool/octeontx` for octeontx fpavf mempool driver information. @@ -35,6 +39,12 @@ OCTEON TX compatible board: Platform drivers) are available on Github at `octeontx-kmod `_ along with build, install and dpdk usage instructions. +.. note:: + + The PF driver and the required microcode for the crypto offload block will be + available with OCTEON TX SDK only. So for using crypto offload, follow the steps + mentioned in :ref:`setup_platform_using_OCTEON_TX_SDK`. + 2. **ARM64 Tool Chain** For example, the *aarch64* Linaro Toolchain, which can be obtained from @@ -48,8 +58,104 @@ OCTEON TX compatible board: As an alternative method, Platform drivers can also be executed using images provided as part of SDK from Cavium. The SDK includes all the above prerequisites necessary - to bring up a OCTEON TX board. - - SDK and related information can be obtained from: `Cavium support site `_. + to bring up a OCTEON TX board. Please refer :ref:`setup_platform_using_OCTEON_TX_SDK`. - Follow the DPDK :doc:`../linux_gsg/index` to setup the basic DPDK environment. + +.. _setup_platform_using_OCTEON_TX_SDK: + +Setup Platform Using OCTEON TX SDK +---------------------------------- + +The OCTEON TX platform drivers can be compiled either natively on +**OCTEON TX** :sup:`®` board or cross-compiled on an x86 based platform. + +The **OCTEON TX** :sup:`®` board must be running the linux kernel based on +OCTEON TX SDK 6.2.0 patch 3. In this, the PF drivers for all hardware +offload blocks are already built in. + +Native Compilation +~~~~~~~~~~~~~~~~~~ + +If the kernel and modules are cross-compiled and copied to the target board, +some intermediate binaries required for native build would be missing on the +target board. To make sure all the required binaries are available in the +native architecture, the linux sources need to be compiled once natively. + +.. code-block:: console + + cd /lib/modules/$(uname -r)/source + make menuconfig + make + +The above steps would rebuild the modules and the required intermediate binaries. +Once the target is ready for native compilation, the OCTEON TX platform +drivers can be compiled with the following steps, + +.. code-block:: console + + cd + make config T=arm64-thunderx-linuxapp-gcc + make + +The example applications can be compiled using the following: + +.. code-block:: console + + cd + export RTE_SDK=$PWD + export RTE_TARGET=build + cd examples/ + make + +Cross Compilation +~~~~~~~~~~~~~~~~~ + +The DPDK applications can be cross-compiled on any x86 based platform. The +OCTEON TX SDK need to be installed on the build system. The SDK package will +provide the required toolchain etc. + +Refer to :doc:`../linux_gsg/cross_build_dpdk_for_arm64` for further steps on +compilation. The 'host' & 'CC' to be used in the commands would change, +in addition to the paths to which libnuma related files have to be +copied. + +The following steps can be used to perform cross-compilation with OCTEON TX +SDK 6.2.0 patch 3: + +.. code-block:: console + + cd + source env-setup + + git clone https://github.com/numactl/numactl.git + cd numactl + git checkout v2.0.11 -b v2.0.11 + ./autogen.sh + autoconf -i + ./configure --host=aarch64-thunderx-linux CC=aarch64-thunderx-linux-gnu-gcc --prefix= + make install + +The above steps will prepare build system with numa additions. Now this build system can be used +to build applications for **OCTEON TX** :sup:`®` platforms. + +.. code-block:: console + + cd + export RTE_SDK=$PWD + export RTE_KERNELDIR=$THUNDER_ROOT/linux/kernel/linux + make config T=arm64-thunderx-linuxapp-gcc + make -j CROSS=aarch64-thunderx-linux-gnu- CONFIG_RTE_KNI_KMOD=n CONFIG_RTE_EAL_IGB_UIO=n EXTRA_CFLAGS="-isystem /include" EXTRA_LDFLAGS="-L/lib -lnuma" + +If NUMA support is not required, it can be disabled as explained in +:doc:`../linux_gsg/cross_build_dpdk_for_arm64`. + +Following steps could be used in that case. + +.. code-block:: console + + make config T=arm64-thunderx-linuxapp-gcc + make CROSS=aarch64-thunderx-linux-gnu- + + +SDK and related information can be obtained from: `Cavium support site `_.