Building the Linux Kernel

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This page covers the process of configuring and compiling the Linux kernel using the EMAC kernel build script. This process assumes that you have already acquired the following software:

  1. EMAC Software Development Kit OE 4 or OE 5
  2. Linux kernel source for target hardware (provided via EMAC public GIT server )
  3. Kernel build script

The example below will assume that a kernel image for the SoM-9x25 module will be created, although the instructions apply to other hardware as well assuming that the correct SDK, kernel tree, and build script is used.


The steps below assume that the script is located in the same directory as the kernel tree. Be sure to modify the script for the correct architecture and EMAC OE version.

Configuring the Kernel

The first step for building the kernel is to configure it as desired. It is recommended to start with the kernel configuration file used by EMAC to build the kernel for the target device. Starting with EMAC OE 5.0, the kernel configuration can be obtained on a running board from /proc/config.gz. Please contact EMAC support for earlier EMAC OE versions.
The following are steps to configure the kernel:

  1. Copy the default configuration file to the same directory as the kernel source tree and and rename it defconfig.

  2. The kernel-build-cross script accepts the SOURCE_TREE as the first argument and either config or build as the second argument. Optionally, a third argument, BUILD_SUFFIX may be supplied as a suffix to add to the build directory. BUILD_SUFFIX is commonly used to add a tag or machine name to a build.

    developer@ldc:~# ./ linux-emac config som9x25
  3. The kernel menu-driven configuration utility will be displayed. Features can be selected/deselected to be built into the kernel. Some features can be built as a loadable module, denoted by < >, and not built directly into the kernel.

    Disabling or modularizing some kernel features may prevent the kernel from starting correctly or at all.

    Use the space bar to select an option or the 'm' key to configure the selected option as a module. Select Exit to close the kernel configuration menu and save the configuration to the newly created build directory. When the same build-suffix is used for subsequent builds, this configuration will be used.

Building the Kernel

  1. Run the kernel-build-cross script again with the build option, this time using the same build-suffix used in the configuration step.

    developer@ldc:~# ./ linux-emac build som9x25
  2. The kernel will begin compiling now. This will take several minutes to complete depending on the kernel configuration and the speed of the development machine. Only move on to the next step if the build completes with no errors.

  3. The new kernel image will be in the build-4.9.224-som9x25/Install/boot directory. For the 3.10 and later device tree enabled ARM kernels, the image name will be a zImage. Also, the desired device tree blob (*.dtb) needs to be appended to the kernel. For earlier versions of the kernel, a uImage will be generated that can be loaded directly from U-Boot. X86 boards use a bzImage.

    developer@ldc:~# cd build-4.9.224-som9x25/Install/boot
    developer@ldc:~# cat zImage-4.9.224 som-9x25-150es.dtb > zImage-som9x25

    This is the image that will get loaded onto the board and executed by the bootloader. To load the new kernel onto the target machine, see the Loading Linux Kernels Onto a Board page.

    The build script will also create an archive of all of the modules created during the build process and place it in the build-4.9.225-som9x25/Install/ directory. The archive will be called modules.tar.gz.

Loading Kernel Modules

After re-compiling the kernel, it is recommended to load the corresponding kernel modules.

To reload the modules:

  1. Make sure that the root flash is mounted read/write before copying the modules to the target.

  2. Copy the archive to the root of the filesystem of the target machine

    developer@ldc:~# scp build-4.9.224-som9x25/Install/modules.tar.gz root@1IP_ADDRESS:/
  3. Log onto the target machine

    developer@ldc:~# ssh root@IP_ADDRESS
  4. Extract the kernel modules archive and force the kernel to reload the modules.

    root@som9x25:~# cd /
    root@som9x25:~# tar xzvf modules.tar.gz
    root@som9x25:~# depmod -a
    root@som9x25:~# reboot

Further Information

Where to Go Next