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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (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 ======================== The dpdk-setup.sh script, found in the tools subdirectory, allows the user to perform the following tasks: * Build the DPDK libraries * Insert and remove the DPDK IGB_UIO kernel module * Insert and remove VFIO kernel modules * Insert and remove the DPDK KNI kernel module * Create and delete hugepages for NUMA and non-NUMA cases * View network port status and reserve ports for DPDK application use * Set up permissions for using VFIO as a non-privileged user * Run the test and testpmd applications * Look at hugepages in the meminfo * List hugepages in ``/mnt/huge`` * Remove built DPDK libraries Once these steps have been completed for one of the EAL targets, the user may compile their own application that links in the EAL libraries to create the DPDK image. Script Organization ------------------- The dpdk-setup.sh script is logically organized into a series of steps that a user performs in sequence. Each step provides a number of options that guide the user to completing the desired task. The following is a brief synopsis of each step. **Step 1: Build DPDK Libraries** Initially, the user must select a DPDK target to choose the correct target type and compiler options to use when building the libraries. The user must have all libraries, modules, updates and compilers installed in the system prior to this, as described in the earlier chapters in this Getting Started Guide. **Step 2: Setup Environment** The user configures the Linux* environment to support the running of DPDK applications. Hugepages can be set up for NUMA or non-NUMA systems. Any existing hugepages will be removed. The DPDK kernel module that is needed can also be inserted in this step, and network ports may be bound to this module for DPDK application use. **Step 3: Run an Application** The user may run the test application once the other steps have been performed. The test application allows the user to run a series of functional tests for the DPDK. The testpmd application, which supports the receiving and sending of packets, can also be run. **Step 4: Examining the System** This step provides some tools for examining the status of hugepage mappings. **Step 5: System Cleanup** The final step has options for restoring the system to its original state. Use Cases --------- The following are some example of how to use the dpdk-setup.sh script. The script should be run using the source command. Some options in the script prompt the user for further data before proceeding. .. warning:: The dpdk-setup.sh script should be run with root privileges. .. code-block:: console source tools/dpdk-setup.sh ------------------------------------------------------------------------ RTE_SDK exported as /home/user/rte ------------------------------------------------------------------------ Step 1: Select the DPDK environment to build ------------------------------------------------------------------------ [1] i686-native-linuxapp-gcc [2] i686-native-linuxapp-icc [3] ppc_64-power8-linuxapp-gcc [4] x86_64-ivshmem-linuxapp-gcc [5] x86_64-ivshmem-linuxapp-icc [6] x86_64-native-bsdapp-clang [7] x86_64-native-bsdapp-gcc [8] x86_64-native-linuxapp-clang [9] x86_64-native-linuxapp-gcc [10] x86_64-native-linuxapp-icc ------------------------------------------------------------------------ Step 2: Setup linuxapp environment ------------------------------------------------------------------------ [11] Insert IGB UIO module [12] Insert VFIO module [13] Insert KNI module [14] Setup hugepage mappings for non-NUMA systems [15] Setup hugepage mappings for NUMA systems [16] Display current Ethernet device settings [17] Bind Ethernet device to IGB UIO module [18] Bind Ethernet device to VFIO module [19] Setup VFIO permissions ------------------------------------------------------------------------ Step 3: Run test application for linuxapp environment ------------------------------------------------------------------------ [20] Run test application ($RTE_TARGET/app/test) [21] Run testpmd application in interactive mode ($RTE_TARGET/app/testpmd) ------------------------------------------------------------------------ Step 4: Other tools ------------------------------------------------------------------------ [22] List hugepage info from /proc/meminfo ------------------------------------------------------------------------ Step 5: Uninstall and system cleanup ------------------------------------------------------------------------ [23] Uninstall all targets [24] Unbind NICs from IGB UIO driver [25] Remove IGB UIO module [26] Remove VFIO module [27] Remove KNI module [28] Remove hugepage mappings [29] Exit Script Option: The following selection demonstrates the creation of the ``x86_64-native-linuxapp-gcc`` DPDK library. .. code-block:: console Option: 9 ================== Installing x86_64-native-linuxapp-gcc Configuration done == Build lib ... Build complete RTE_TARGET exported as x86_64-native-linuxapp-gcc The following selection demonstrates the starting of the DPDK UIO driver. .. code-block:: console Option: 25 Unloading any existing DPDK UIO module Loading DPDK UIO module The following selection demonstrates the creation of hugepages in a NUMA system. 1024 2 MByte pages are assigned to each node. The result is that the application should use -m 4096 for starting the application to access both memory areas (this is done automatically if the -m option is not provided). .. note:: If prompts are displayed to remove temporary files, type 'y'. .. code-block:: console Option: 15 Removing currently reserved hugepages mounting /mnt/huge and removing directory Input the number of 2MB pages for each node Example: to have 128MB of hugepages available per node, enter '64' to reserve 64 * 2MB pages on each node Number of pages for node0: 1024 Number of pages for node1: 1024 Reserving hugepages Creating /mnt/huge and mounting as hugetlbfs The following selection demonstrates the launch of the test application to run on a single core. .. code-block:: console Option: 20 Enter hex bitmask of cores to execute test app on Example: to execute app on cores 0 to 7, enter 0xff bitmask: 0x01 Launching app EAL: coremask set to 1 EAL: Detected lcore 0 on socket 0 ... EAL: Master core 0 is ready (tid=1b2ad720) RTE>> Applications ------------ Once the user has run the dpdk-setup.sh script, built one of the EAL targets and set up hugepages (if using one of the Linux EAL targets), the user can then move on to building and running their application or one of the examples provided. The examples in the /examples directory provide a good starting point to gain an understanding of the operation of the DPDK. The following command sequence shows how the helloworld sample application is built and run. As recommended in Section 4.2.1 , "Logical Core Use by Applications", the logical core layout of the platform should be determined when selecting a core mask to use for an application. .. code-block:: console cd helloworld/ make CC main.o LD helloworld INSTALL-APP helloworld INSTALL-MAP helloworld.map 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 EAL: Detected lcore 2 as core 1 on socket 0 EAL: Detected lcore 3 as core 1 on socket 1 EAL: Setting up hugepage memory... EAL: Ask a virtual area of 0x200000 bytes EAL: Virtual area found at 0x7f0add800000 (size = 0x200000) EAL: Ask a virtual area of 0x3d400000 bytes EAL: Virtual area found at 0x7f0aa0200000 (size = 0x3d400000) EAL: Ask a virtual area of 0x400000 bytes EAL: Virtual area found at 0x7f0a9fc00000 (size = 0x400000) EAL: Ask a virtual area of 0x400000 bytes EAL: Virtual area found at 0x7f0a9f600000 (size = 0x400000) EAL: Ask a virtual area of 0x400000 bytes EAL: Virtual area found at 0x7f0a9f000000 (size = 0x400000) EAL: Ask a virtual area of 0x800000 bytes EAL: Virtual area found at 0x7f0a9e600000 (size = 0x800000) EAL: Ask a virtual area of 0x800000 bytes EAL: Virtual area found at 0x7f0a9dc00000 (size = 0x800000) EAL: Ask a virtual area of 0x400000 bytes EAL: Virtual area found at 0x7f0a9d600000 (size = 0x400000) EAL: Ask a virtual area of 0x400000 bytes EAL: Virtual area found at 0x7f0a9d000000 (size = 0x400000) EAL: Ask a virtual area of 0x400000 bytes EAL: Virtual area found at 0x7f0a9ca00000 (size = 0x400000) EAL: Ask a virtual area of 0x200000 bytes EAL: Virtual area found at 0x7f0a9c600000 (size = 0x200000) EAL: Ask a virtual area of 0x200000 bytes EAL: Virtual area found at 0x7f0a9c200000 (size = 0x200000) EAL: Ask a virtual area of 0x3fc00000 bytes EAL: Virtual area found at 0x7f0a5c400000 (size = 0x3fc00000) EAL: Ask a virtual area of 0x200000 bytes EAL: Virtual area found at 0x7f0a5c000000 (size = 0x200000) EAL: Requesting 1024 pages of size 2MB from socket 0 EAL: Requesting 1024 pages of size 2MB from socket 1 EAL: Master core 0 is ready (tid=de25b700) EAL: Core 1 is ready (tid=5b7fe700) EAL: Core 3 is ready (tid=5a7fc700) EAL: Core 2 is ready (tid=5affd700) hello from core 1 hello from core 2 hello from core 3 hello from core 0