TS-7400-V2 3.14 kernel compile guide
For adding new support to the kernel, or recompiling with more specific options you will need to have an x86 compatible Linux host available that can handle the cross compiling. Compiling the kernel on the board is not supported or recommended. Before building the kernel you will need to install a few support libraries on your workstation:
Prerequisites
All systems:
Download and unpack the cross compiler
wget ftp://ftp.embeddedTS.com/ts-arm-sbc/ts-7680-linux/cross-toolchains/imx28-cross-glibc.tar.bz2
tar xvf imx28-cross-glibc.tar.bz2 -C /path/to/folder/
/path/to/folder can be any directory so long as the current user has permissions to write to it. Remember this path as its used later during the kernel build procedure.
RHEL/Fedora/CentOS:
yum install ncurses-devel ncurses
yum groupinstall "Development Tools" "Development Libraries"
Ubuntu/Debian:
sudo apt-get install build-essential libncurses5-dev libncursesw5-dev git
If you are on a 64-bit system, then 32-bit libraries will be required for the toolchain, for newer Debian and Ubuntu distrubutions with Multiarch support, use the command:
sudo dpkg --add-architecture i386
sudo apt-get update
sudo apt-get install libc6-dev:i386 zlib1g-dev:i386
On older distributions:
sudo apt-get install ia32-libs
For other distributions, please refer to their documentation to find equivalent tools.
Download sources and configure
git clone https://github.com/embeddedTS/linux-3.14.28-imx28.git
cd linux-3.14.28-imx28/
# Switch to the branch specific for this SBC
git checkout 7400-7670
# These next commands set up some necessary environment variables
export ARCH=arm
export CROSS_COMPILE=/path/to/folder/arm-fsl-linux-gnueabi/bin/arm-linux-
export LOADADDR=0x40008000
# This sets up the default configuration
make ts7400_defconfig
Once you have the configuration ready you can make your changes to the kernel. Commonly a reason for recompiling is to add support that was not built into the standard image's kernel. You can get a menu to browse available options by running:
make menuconfig
You can use the "/" key to search for specific terms through the kernel.
Build the kernel
Once you have it configured you can begin building the kernel. This usually takes about 5-10 minutes. Since 3.14 uses Device Tree, and the NXP bootloader is not set up to handle that, an additional preparation step is needed as well to append the binary device tree to the end of the kernel binary.
make && make zImage && make modules
We recommend running 'make' with the -jX argument, where X is the number of CPU cores+1 present on the build machine. This will greatly increase build speed.
Next, the correct DTB needs to be appended to the zImage binary. However, because of the way the NXP bootloader detects and passes RAM, it is not compatible with the kernel Device Tree. Therefore, there are two DTB files, one to specify 128 MB of RAM, and the other for 256 MB. The 128 MB variant will boot on both, however on a system with an actual 256 MB of RAM, only 128 MB of that will be accessible. On the other hand, the 256 MB DTB is only compatible with a TS-7400-V2 that has 256 MB of RAM; it will not boot on a unit with 128 MB.
cat arch/arm/boot/zImage arch/arm/boot/dts/imx28-ts7400-128M.dtb > zImage
Or:
cat arch/arm/boot/zImage arch/arm/boot/dts/imx28-ts7400-256M.dtb > zImage
And now, move the zImage back to its expected location:
mv zImage arch/arm/boot/
Build bootstream
The i.MX28 utilizes what NXP calls a "bootstream," this is a series of "bootlets" that are all put together in a binary blob. The default bootstream sets up RAM, power, and contains the kernel to be run. Every time a kernel is rebuilt, a new bootstream must be compiled containing the new kernel image. The following script is used to take the newly built kernel and output a bootstream for the SD card:
./build_bootstream
This will create imx-bootlets-src-10.12.01/imx28_ivt_linux.sb The .sb file is the standard image used for the SD card.
Install the bootstream (kernel/initramfs), headers, and modules
Next you need to install the kernel and modules to the SD card. We provide a simple script to copy the kernel uImage file, kernel modules, and headers to the SD card to update everything at once.
For example, if your workstation's SD card is /dev/mmcblk0:
./install_bootstream imx-bootlets-src-10.12.01/imx28_ivt_linux.sb mmcblk0 p1
./install_hdr_mod mmcblk0p2
If your workstation's SD card is /dev/sdc:
./install_bootstream imx-bootlets-src-10.12.01/imx28_ivt_linux.sb sdc 1
./install_hdr_mod sdc2
| Note: | On newer linux distributions, the output of 'fdisk' has changed. If the unit fails to boot after a compile, take a look at the output of the './install_bootstream ... ' command. If the line
./install_bootstream: line 122: [: !=: unary operator expected
is printed, then you need to apply the patch to fix this. Use the following command to apply the patch: patch -p1 < install_bootstream-newer-fdisk.patch
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