3.3.1. Users Guide¶
This wiki will cover the basic steps for building the Linux kernel.
Getting the Kernel Source Code
Preparing to Build
It is important that when using the GCC toolchain provided with the SDK or stand alone from TI that you do NOT source the environment-setup file included with the toolchain when building the kernel. Doing so will cause the compilation of host side components within the kernel tree to fail.
The following commands are intended to be run from the root of the kernel tree unless otherwise specified. The root of the kernel tree is the top-level directory and can be identified by looking for the “MAINTAINERS” file.
Before compiling the kernel or kernel modules the SDK’s toolchain needs to be added to the PATH environment variable
export PATH=<sdk path>/linux-devkit/sysroots/x86_64-arago-linux/usr/bin:$PATH
The current compiler supported for this release along with download location can be found in the release notes for the kernel release.
Cleaning the Kernel Sources
Prior to compiling the Linux kernel it is often a good idea to make sure that the kernel sources are clean and that there are no remnants left over from a previous build.
The command to clean the kernel is:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- distclean
Configuring the Kernel
Before compiling the Linux kernel it needs to be configured to select what components will become part of the kernel image, which components will be build as dynamic modules, and which components will be left out all together. This is done using the Linux kernel configuration system.
Using Default Configurations
It is often easiest to start with a base default configuration and then customize it for you use case if needed. In the Linux kernel a command of the form:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- <defconfig>
SDK Kernel Configuration
For this sdk the singlecore-omap2plus_defconfig was used and is the one we recommend all users to use or at least use as a starting point. example:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- tisdk_amNNNx-evm_defconfig
After the configuration step has run the full configuration file is saved to the root of the kernel tree as .config. Any further configuration changes are based on this file until it is cleanup up by doing a kernel clean as mentioned above.
Below is the procedure to build the defconfig from the kernel git repository.
$ ti_config_fragments/defconfig_builder.sh -t ti_sdk_[device]_release $ export ARCH=arm $ make ti_sdk_[device]_release_defconfig $ mv .config arch/arm/configs/tisdk_[platformName]-evm_defconfig
The list of defconfig map file (i.e., ti_sdk_[device]_release used above) supported can be found from ti_config_fragments/defconfig_map.txt file.
Customizing the Configuration
When you want to customize the kernel configuration the easiest way is to use the built in kernel configuration systems. Two of the most popular configuration systems are:
menuconfig: an ncurses based configuration utility
NOTE: on some systems in order to use xconfig you may need to install the libqt3-mt-dev package. For example on Ubuntu 10.04 this can be done using the command sudo apt-get install libqt3-mt-dev
To invoke the kernel configuration you simply use a command like:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- <config type>
i.e. for menuconfig the command would look like
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- menuconfig
Once the configuration window is open you can then select which kernel components should be included in the build. Exiting the configuration will save your selections to a file in the root of the kernel tree called .config.
Compiling the Sources
Compiling the Kernel
Once the kernel has been configured it must be compiled to generate the bootable kernel image as well as any dynamic kernel modules that were selected.
By default U-boot expects zImage to be the type of kernel image used.
To just build the zImage use this command
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- zImage
This will result in a kernel image file being created in the arch/arm/boot/ directory called zImage.
Compiling the Device Tree Binaries
Starting with the 3.8 kernel each TI evm has an unique device tree binary file required by the kernel. Therefore, you will need to build and install the correct dtb for the target device. All device tree files are located at arch/arm/boot/dts/. Below list various TI evms and the matching device tree file.
|Boards||Device Tree File|
|AM335x General Purpose EVM||am335x-evm.dts|
|AM335x Starter Kit||am335x-evmsk.dts|
|AM335x Industrial Communications Engine||am335x-icev2.dts|
|AM437x General Purpose EVM||am437x-gp-evm.dts, am437x-gp-evm-hdmi.dts (HDMI)|
|AM437x Starter Kit||am437x-sk-evm.dts|
|AM437x Industrial Development Kit||am437x-idk-evm.dts|
|AM57xx EVM||am57xx-evm.dts, am57xx-evm-reva3.dts (revA3 EVMs )|
|K2G ICE EVM||keystone-k2g-ice.dts|
Table: Device Tree File Name Per Board
To build an individual device tree file find the name of the dts file for the board you are using and replace the .dts extension with .dtb. Then run the following command:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- <dt filename>.dtb
The compiled device tree file with be located in arch/arm/boot/dts.
For example, the Beaglebone Black device tree file is named am335x-boneblack.dts. To build the device tree binary you would run:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- am335x-boneblack.dtb
Compiling the Kernel Modules
By default the majority of the Linux drivers used in the sdk are not integrated into the kernel image (ex zImage). These drivers are built as dynamic modules. The command to build these modules is:
make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- modules
This will result in .ko (kernel object) files being placed in the kernel tree. These .ko files are the dynamic kernel modules.
When ever you make a change to the kernel its generally recommended that you rebuild your kernel modules and reinstall the kernel modules. Otherwise the kernel modules may not load or run. The next section will cover how to install these modules.
Installing the Kernel
Once the Linux kernel, dtb files and modules have been compiled they must be installed. In the case of the kernel image this can be installed by copying the zImage file to the location where it is going to be read from. The device tree binaries should also be copied to the same directory that the kernel image was copied to.
Installing the Kernel Image and Device Tree Binaries
Installing the Kernel Modules
To install the kernel modules you use another make command similar to the others, but with an additional parameter which give the base location where the modules should be installed. This command will create a directory tree from that location like lib/modules/<kernel version> which will contain the dynamic modules corresponding to this version of the kernel. The base location should usually be the root of your target file system. The general format of the command is:
sudo make ARCH=arm INSTALL_MOD_PATH=<path to root of file system> modules_install
For example if you are installing the modules on the rootfs partition of the SD card you would do:
sudo make ARCH=arm INSTALL_MOD_PATH=/media/rootfs modules_install
Append INSTALL_MOD_STRIP=1 to the make modules_install command to reduce the size of the resulting installation