These are the scripts used to compile the ev3dev kernel. Originally it also included scripts to bootstrap a root file system and create a disk image. Those scripts have evolved into the brickstrap package.

• Debian or derivative OS (Ubuntu, Mint, etc.)
• User account with sudo enabled

build-kernel Used to build the kernel.

defconfig Used to manage the *_defconfig file and your current local configuration (.config).

install-kernel-build-tools Installs the prerequisite tools required to build the kernel.

menuconfig Runs the menu configuration tool for the kernel configuration.

pbuilder-dist Modified version of pbuilder-dist from ubuntu-dev-tools package. Allow you to specify architecture of rpi to build packages for Raspbian (amrv6).

1. If you don't have git already, then we need to install it.

   ~ $ sudo apt-get install git
   

2. Create a working directory somewhere. For this tutorial, we are using ~/work. The build scripts will generate extra subdirectories here so we suggest creating a new directory instead of using an existing one.

   ~ $ mkdir work
   ~ $ cd work
   

3. Clone this repo and also the ev3-kernel repo, then make sure the lego drivers submodule is up to date (we don't always update the submodule commit in the kernel repo, so you have to pull manually to get the most recent commits).

   ~/work $ git clone git://github.com/ev3dev/ev3dev-buildscripts
   ~/work $ git clone --recursive git://github.com/ev3dev/ev3-kernel
   ~/work $ cd ev3-kernel/drivers/lego
   ~/work/ev3-kernel/drivers/lego $ git pull origin master
   ~/work/ev3-kernel/drivers/lego $ cd ../../..
   

4. Change to the ev3dev-buildscripts directory and have a look around.

   ~/work $ cd ev3dev-buildscripts
   ~/work/ev3dev-buildscripts $ ls
   boot.cmd        build-kernel  install-kernel-build-tools  local-env   README.md
   build-boot-scr  defconfig     LICENSE                     menuconfig  setup-env
   

5. Now we need to install the required tool. To do this, we need to add the ev3dev package repo and then run the install-kernel-build-tools script. (You only need to run this once.)

   ~/work/ev3dev-buildscripts $ sudo apt-add-repository "deb http://ev3dev.org/debian trusty main"
   ~/work/ev3dev-buildscripts $ sudo apt-key adv --keyserver pgp.mit.edu --recv-keys 2B210565
   ~/work/ev3dev-buildscripts $ sudo apt-get update
   ~/work/ev3dev-buildscripts $ ./install-kernel-build-tools
   

6. Create a local-env to make use of all of your processing power. See the Faster Builds and Custom Locations section below for more about this file.

   ~/work/ev3dev-buildscripts $ echo "export EV3DEV_MAKE_ARGS=-j4" > local-env
   

7. Now we can compile the kernel.

   ~/work/ev3dev-buildscripts $ ./build-kernel
   

8. That's it! The uImage and kernel modules you just built are saved in ../dist. You just need to copy the files to your already formatted SD card. For an easier way of getting the kernel on your EV3, see Sharing Your Kernel.

   ~/work/ev3dev-buildscripts $ cd ./build-area/linux-ev3dev-ev3-dist
   ~/work/ev3dev-buildscripts/build-area/linux-ev3dev-ev3-dist $ cp uImage <path-to-boot-partition>/uImage
   ~/work/ev3dev-buildscripts/build-area/linux-ev3dev-ev3-dist $ sudo cp -r lib/ <path-to-file-system-partition>
   

By default the locations of the kernel source tree and the toolchain used to build the kernel are expected to be in certain directories relative to the ev3dev-buildscripts repo directory.

You can override these locations by creating a file called local-env in the ev3dev-buildscripts directory or ~/.ev3dev-env (in your home directory). It should look like this:

#!/bin/sh

export EV3DEV_MAKE_ARGS=-j4

# override any EV3DEV_* variables from setup-env script.
#export EV3DEV_XXX=/custom/path
#export EV3DEV_MERGE_CMD="kdiff3 \$file1 \$file2"
#export EV3DEV_MERGE_CMD="meld \$file1 \$file2"

The -j4 is for faster builds. It allows make to compile files in in parallel. You should replace 4 with the number of processor cores that you want to devote to building the kernel.

You can use custom paths to make the build-kernel script automatically install the kernel and modules directly on the EV3! First, you need to mount the EV3 root file system. You can use nfs or sshfs (check the wiki on how to do this). Then just set the appropriate paths in your local-env like this:

# replace `/mnt/ev3dev-root` with your actual mount point
export EV3DEV_INSTALL_KERNEL=/mnt/ev3dev-root/boot/flash
export EV3DEV_INSTALL_MODULES=/mnt/ev3dev-root

When you run ./build-kernel if no existing kernel configuration exists the default configuration is loaded from arch/arm/configs/ev3dev_defconfig.

If you make changes to your local kernel configuration that you want to merge into the default configuration, run ./defconfig update. It will use the merge tool specified by the EV3DEV_MERGE_CMD environment variable.

If you have an existing kernel configuration, you will want to check for changes to the default configuration each time you merge or checkout a branch. You can call ./defconfig load to wipe out your local configuration and load the default configuration or you can call ./defconfig merge to merge the default configuration into your existing local configuration.

If you are forgetful or lazy or just want this to happen automatically, you can set up hooks in your git repo. For example, you could save the following file as both .git/hooks/post-merge and .git/hooks/post-checkout and you will be prompted to merge the default configuration into your local configuration whenever you merge or checkout a branch. In you followed the tutorial above, <path-to-ev3dev-buildscripts-repo> would be ~/work/ev3dev-buildscripts.

#!/bin/sh

<path-to-ev3dev-buildscripts-repo>/defconfig merge

Want to send your custom kernel to someone so that they can use it? Never fear, there is an easy way to do that - using Debian packaging.

First, we want to set a kernel option so that our friends will know what kernel they are running. Run ./menuconfig and set this option:

General setup --->
  (-your-name-ev3) Local version - append to kernel release

Make sure to include the '-' prefix in -your-name on the Local version. And, of course, substitute something like your github user name for your-name. It is also important that the kernel release ends with -ev3 so that flash-kernel will recognize it as a "good" kernel and install it automatically.

Then, we build a Debian package.

~/work/ev3dev-buildscripts $ ./build-kernel deb-pkg KDEB_PKGVERSION=1
...
<lots-of-build-output>
...
~/work/ev3dev-buildscripts $ ls ../*.deb
../linux-headers-3.16.7-ckt9-5-ev3dev-your-name-ev3_1_armel.deb
../linux-image-3.16.7-ckt9-5-ev3dev-your-name-ev3_1_armel.deb
../linux-libc-dev_1_armel.deb

Now, send the linux-image-* file to your friend with these instructions:

• Copy the .deb file to your EV3
• Install the package
• Reboot the EV3

Example:

user@host ~ $ scp linux-image-*.deb otheruser@ev3dev:~
user@host ~ $ ssh otheruser@ev3dev
otheruser@ev3dev:~$ sudo dpkg --install ~/linux-image-*.deb
otheruser@ev3dev:~$ sudo reboot

• If you see this error...

    ERROR: ld.so: object 'libfakeroot-sysv.so' from LD_PRELOAD cannot be preloaded (wrong ELF class: ELFCLASS64): ignored.
  

  ...just ignore it. It is normal (a side effect of cross-compiling).

• If you see an error related to asm/bitsperlong.h like this:

    ...
      Generating include/generated/mach-types.h
      CC      kernel/bounds.s
    In file included from /home/user/ev3-kernel/arch/arm/include/asm/types.h:4:0,
                     from /home/user/ev3-kernel/include/linux/types.h:4,
                     from /home/user/ev3-kernel/include/linux/page-flags.h:8,
                     from /home/user/ev3-kernel/kernel/bounds.c:9:
    /home/user/ev3-kernel/include/asm-generic/int-ll64.h:11:29: fatal error: asm/bitsperlong.h: No such file or directory
    compilation terminated.
    make[2]: *** [kernel/bounds.s] Error 1
    make[1]: *** [prepare0] Error 2
    make: *** [sub-make] Error 2
  

  Then you need to clean your kernel source tree like this:

     user@host ~/ev3-kernel $ git clean -dfX
  

There are a few changes needed to build the rpi-ev3dev kernel.

1. You need to install some additional packages:

   sudo apt-get install rpi-mkimage gcc-linaro-arm-linux-gnueabihf-raspbian
   

2. You need to clone the rpi-kernel repository instead of the ev3-kernel repository.

   git clone git://github.com/ev3dev/rpi-kernel
   

3. You need to set the RPI environment variable to 1 or 2 depending on which model you are compiling for when calling any of the scripts.

   Example: RPI=1 ./build-kernel

4. If you add a local version to the kernel release (as you should be doing), the last bit needs to be -rpi or -rpi2 instead of -ev3.