export OPT=/opt
export BUILDS=/some/where/mini_linux
mkdir -p $BUILDS
export LINUX=$OPT/linux
export LINUX_BUILD=$BUILDS/linux
mkdir -p $LINUX_BUILD
cd $LINUX
make O=$LINUX_BUILD allnoconfig
cd $LINUX_BUILD
make menuconfig
Configure the kernel according the following:
64-bit kernel ---> yes
General setup ---> Initial RAM filesystem and RAM disk (initramfs/initrd) support ---> yes
General setup ---> Configure standard kernel features ---> Enable support for printk ---> yes
Executable file formats / Emulations ---> Kernel support for ELF binaries ---> yes
Executable file formats / Emulations ---> Kernel support for scripts starting with #! ---> yes
Device Drivers ---> Generic Driver Options ---> Maintain a devtmpfs filesystem to mount at /dev ---> yes
Device Drivers ---> Generic Driver Options ---> Automount devtmpfs at /dev, after the kernel mounted the rootfs ---> yes
Device Drivers ---> Character devices ---> Enable TTY ---> yes
Device Drivers ---> Character devices ---> Serial drivers ---> 8250/16550 and compatible serial support ---> yes
Device Drivers ---> Character devices ---> Serial drivers ---> Console on 8250/16550 and compatible serial port ---> yes
File systems ---> Pseudo filesystems ---> /proc file system support ---> yes
File systems ---> Pseudo filesystems ---> sysfs file system support ---> yes
Build the kernel:
time make -j8
...
Kernel: arch/x86/boot/bzImage is ready (#1)
real 2m37.247s
user 1m58.541s
sys 0m25.542s
export BUSYBOX=$OPT/busybox
export BUSYBOX_BUILD=$BUILDS/busybox
mkdir -p $BUSYBOX_BUILD
cd $BUSYBOX
make O=$BUSYBOX_BUILD defconfig
cd $BUSYBOX_BUILD
make menuconfig
Configure Busybox according the following:
Busybox Settings ---> Build Options ---> Build BusyBox as a static binary (no shared libs) ---> yes
Build Busybox:
time make -j8
...
Final link with: m
real 0m20.356s
user 0m46.959s
sys 0m10.628s
Install Busybox:
make install
Create an initramfs:
export INITRAMFS_BUILD=$BUILDS/initramfs
mkdir -p $INITRAMFS_BUILD
cd $INITRAMFS_BUILD
mkdir -p bin sbin etc proc sys usr/bin usr/sbin
cp -a $BUSYBOX_BUILD/_install/* .
Add a $INITRAMFS_BUILD/init
script to the initramfs with the following content:
#!/bin/sh
mount -t proc none /proc
mount -t sysfs none /sys
cat <<!
Boot took $(cut -d' ' -f1 /proc/uptime) seconds
_ _ __ _
/\/\ (_)_ __ (_) / /(_)_ __ _ ___ __
/ \| | '_ \| | / / | | '_ \| | | \ \/ /
/ /\/\ \ | | | | | / /__| | | | | |_| |> <
\/ \/_|_| |_|_| \____/_|_| |_|\__,_/_/\_\
Welcome to mini_linux
!
exec /bin/sh
Create the initramfs archive:
chmod +x init
find . -print0 | cpio --null -ov --format=newc \
| gzip -9 > $BUILDS/initramfs.cpio.gz
qemu-system-x86_64 -kernel $LINUX_BUILD/arch/x86_64/boot/bzImage \
-initrd $BUILDS/initramfs.cpio.gz -nographic \
-append "console=ttyS0"
Note: for better performance, add the -enable-kvm
option if your host has KVM enabled:
qemu-system-x86_64 -kernel $LINUX_BUILD/arch/x86_64/boot/bzImage \
-initrd $BUILDS/initramfs.cpio.gz -nographic \
-append "console=ttyS0" -enable-kvm
...
Boot took 0.45 seconds
_ _ __ _
/\/\ (_)_ __ (_) / /(_)_ __ _ ___ __
/ \| | '_ \| | / / | | '_ \| | | \ \/ /
/ /\/\ \ | | | | | / /__| | | | | |_| |> <
\/ \/_|_| |_|_| \____/_|_| |_|\__,_/_/\_\
Welcome to mini_linux
/ # ls /
bin etc linuxrc root sys
dev init proc sbin usr
/ # QEMU: Terminated
We assume that a toolchain is available in /opt/toolchains/x86_64-unknown-linux-gnu
with prefix x86_64-unknown-linux-gnu
, gcc version 5.x, kernel headers series 4.3.x, glibc C library and C++ support. These are reasonable defaults if you are using a toolchain generated by crosstool-NG. Adapt to your own situation. Notes:
- You cannot use the native toolchain of your host computer (see Buildroot documentation to understand why).
- If you do not have a toolchain already, you can build one using crosstool-NG (or Buildroot itself) and reuse it for other projects.
- crosstool-NG is the recommended tool to build your own toolchain but avoid using uClibc (no IPV6 support), prefer uClibc-ng or glibc.
- You can also use the built-in toolchain of Buildroot but be aware that it will take way longer than using an existing toolchain. Be also aware that in many cases you will have to re-build the toolchain after modifying the Buildroot configuration.
- No yet convinced? Please use crosstool-NG, build and use your own toolchain.
export BUILDROOT=$OPT/buildroot
export BUILDROOT_BUILD=$BUILDS/buildroot
mkdir -p $BUILDROOT_BUILD
cd $BUILDROOT_BUILD
touch Config.in external.mk
echo 'name: mini_linux' > external.desc
echo 'desc: minimal linux system with buildroot' >> external.desc
mkdir configs overlay
cd $BUILDROOT
make O=$BUILDROOT_BUILD BR2_EXTERNAL=$BUILDROOT_BUILD qemu_x86_64_defconfig
cd $BUILDROOT_BUILD
make menuconfig
Configure Buildroot according the following:
Build options ---> Location to save buildroot config ---> $(BR2_EXTERNAL)/configs/mini_linux_defconfig
Build options ---> Download dir ---> /some/where/buildroot_dl
Build options ---> Number of jobs to run simultaneously (0 for auto) ---> 8
Build options ---> Enable compiler cache ---> yes
Build options ---> Compiler cache location ---> /some/where/buildroot_ccache
Toolchain ---> Toolchain type ---> External toolchain
Toolchain ---> Toolchain ---> Custom toolchain
Toolchain ---> Toolchain origin ---> Pre-installed toolchain
Toolchain ---> Toolchain path ---> /opt/toolchains/x86_64-unknown-linux-gnu
Toolchain ---> Toolchain prefix ---> x86_64-unknown-linux-gnu
Toolchain ---> External toolchain gcc version ---> 5.x
Toolchain ---> External toolchain kernel headers series ---> 4.3.x
Toolchain ---> External toolchain C library ---> glibc/eglibc
Toolchain ---> Toolchain has C++ support? ---> yes
System configuration ---> System hostname ---> mini_linux
System configuration ---> System banner ---> Welcome to mini_linux
System configuration ---> Run a getty (login prompt) after boot ---> TTY port ---> ttyS0
System configuration ---> Network interface to configure through DHCP --->
System configuration ---> Root filesystem overlay directories ---> $(BR2_EXTERNAL)/overlay
Kernel ---> Linux Kernel ---> no
Filesystem images ---> cpio the root filesystem (for use as an initial RAM filesystem) ---> yes
Filesystem images ---> Compression method ---> gzip
Save the configuration and build:
make savedefconfig
Add a $BUILDROOT_BUILD/overlay/init
script to the overlay with the following content:
#!/bin/sh
/bin/mount -t devtmpfs devtmpfs /dev
/bin/mount -t proc none /proc
/bin/mount -t sysfs none /sys
exec 0</dev/console
exec 1>/dev/console
exec 2>/dev/console
cat <<!
Boot took $(cut -d' ' -f1 /proc/uptime) seconds
_ _ __ _
/\/\ (_)_ __ (_) / /(_)_ __ _ ___ __
/ \| | '_ \| | / / | | '_ \| | | \ \/ /
/ /\/\ \ | | | | | / /__| | | | | |_| |> <
\/ \/_|_| |_|_| \____/_|_| |_|\__,_/_/\_\
Welcome to mini_linux
!
exec /bin/sh
Build the root filesystem:
chmod +x overlay/init
time make
...
real 1m52.905s
user 0m50.682s
sys 0m36.928s
qemu-system-x86_64 -kernel $LINUX_BUILD/arch/x86_64/boot/bzImage \
-initrd $BUILDROOT_BUILD/images/rootfs.cpio.gz -nographic \
-append "console=ttyS0"
Note: for better performance, add the -enable-kvm
option if your host has KVM enabled.
...
Boot took 0.57 seconds
_ _ __ _
/\/\ (_)_ __ (_) / /(_)_ __ _ ___ __
/ \| | '_ \| | / / | | '_ \| | | \ \/ /
/ /\/\ \ | | | | | / /__| | | | | |_| |> <
\/ \/_|_| |_|_| \____/_|_| |_|\__,_/_/\_\
Welcome to mini_linux
/ # ls /
bin init linuxrc opt run tmp
dev lib media proc sbin usr
etc lib64 mnt root sys var
/ # QEMU: Terminated
Create a new directory for the custom user applications:
export APPS=$BUILDS/apps
mkdir -p $APPS
cd $APPS
Add an application source file $APPS/hello_world.c
with the following content:
#include <stdio.h>
int main(int argc, char **argv) {
printf("mini_linux says: Hello world!\n");
return 0;
}
Add a $APPS/Makefile
with the following content (replace the CROSS_COMPILE
definition with whatever is appropriate in your specific case):
CROSS_COMPILE := /opt/toolchains/x86_64-unknown-linux-gnu/bin/x86_64-unknown-linux-gnu-
CC := $(CROSS_COMPILE)gcc
hello_world: hello_world.o
$(CC) -o $@ $<
hello_world.o: hello_world.c
$(CC) -c -o $@ $<
clean:
rm -f hello_world hello_world.o
Compile the application, copy it in the Buildroot overlay directory and re-build the root filesystem:
make
...
cp hello_world $BUILDROOT_BUILD/overlay
...
cd $BUILDROOT_BUILD
make
qemu-system-x86_64 -kernel $LINUX_BUILD/arch/x86_64/boot/bzImage \
-initrd $BUILDROOT_BUILD/images/rootfs.cpio.gz -nographic \
-append "console=ttyS0"
Note: for better performance, add the -enable-kvm
option if your host has KVM enabled.
...
Boot took 0.57 seconds
_ _ __ _
/\/\ (_)_ __ (_) / /(_)_ __ _ ___ __
/ \| | '_ \| | / / | | '_ \| | | \ \/ /
/ /\/\ \ | | | | | / /__| | | | | |_| |> <
\/ \/_|_| |_|_| \____/_|_| |_|\__,_/_/\_\
Welcome to mini_linux
/ # ls
bin init media root tmp
dev lib mnt run usr
etc lib64 opt sbin var
hello_world linuxrc proc sys
/ # ./hello_world
mini_linux says: Hello world!
/ # QEMU: Terminated
cd $LINUX_BUILD
make menuconfig
Change the kernel configuration according the following:
Enable loadable module support ---> yes
Re-build the kernel and its modules (none, in our case) and install the modules in the Buildroot overlay directory:
make -j8
make -j8 modules
make modules_install INSTALL_MOD_PATH=$BUILDROOT_BUILD/overlay
Create a new directory for the custom user modules:
export MODULES=$BUILDS/modules
mkdir -p $MODULES
cd $MODULES
Add a module source file $MODULES/hello_world.c
with the following content:
/* hello_world.c */
#include <linux/init.h>
#include <linux/module.h>
#include <linux/kernel.h>
static int __init first_init(void)
{
pr_info("mini_linux module says: Hello world!\n");
return 0;
}
static void __exit first_exit(void)
{
pr_info("Bye\n");
}
module_init(first_init);
module_exit(first_exit);
MODULE_LICENSE("GPL");
MODULE_DESCRIPTION("My first module");
MODULE_AUTHOR("The Doctor");
Add a $MODULES/Makefile
with the following content:
ifneq ($(KERNELRELEASE),)
# kbuild part of makefile
obj-m := hello_world.o
else
# normal makefile
KDIR ?= $(LINUX_BUILD)
default:
$(MAKE) -C $(KDIR) M=$$PWD
modules_install:
$(MAKE) -C $(KDIR) M=$$PWD $@
clean:
rm -rf *.o .*.cmd *.ko hello_world.mod.c modules.order Module.symvers .tmp_versions
endif
Compile the module, install it in the Buildroot overlay directory and re-build the root filesystem:
make
...
make modules_install INSTALL_MOD_PATH=$BUILDROOT_BUILD/overlay
...
cd $BUILDROOT_BUILD
make
qemu-system-x86_64 -kernel $LINUX_BUILD/arch/x86_64/boot/bzImage \
-initrd $BUILDROOT_BUILD/images/rootfs.cpio.gz -nographic \
-append "console=ttyS0"
Note: for better performance, add the -enable-kvm
option if your host has KVM enabled.
...
Boot took 0.57 seconds
_ _ __ _
/\/\ (_)_ __ (_) / /(_)_ __ _ ___ __
/ \| | '_ \| | / / | | '_ \| | | \ \/ /
/ /\/\ \ | | | | | / /__| | | | | |_| |> <
\/ \/_|_| |_|_| \____/_|_| |_|\__,_/_/\_\
Welcome to mini_linux
/ # ls lib/modules/4.8.0\+/extra
hello_world.ko
/ # lsmod
Module Size Used by Not tainted
/ # insmod lib/modules/4.8.0\+/extra/hello_world.ko
hello_world: loading out-of-tree module taints kernel.
mini_linux module says: Hello world!
/ # lsmod
Module Size Used by Tainted: G
hello_world 704 -
/ # QEMU: Terminated
Here is a highly automated version of this that might be of interest: https://github.com/cirosantilli/linux-kernel-module-cheat