How to Compile and Install Linux Kernel v4.2 Source On a Debian / Ubuntu Linux

How do I download, compile and install the latest version of the Linux kernel on a Debian Linux v8.x or Ubuntu Linux LTS home server or my laptop? How do I build and install a custom Linux kernel on a Debian or Ubuntu Linux based system?

In order to create a custom kernel configuration file and build a custom kernel, the full Linux kernel source tree must first be downloaded and installed. The latest Linux kernel stable version is 4.2. In this tutorial, you will learn how to compile the Linux kernel version 4.2 on a Debian and Ubuntu Linux operating system and build .deb file.

Tutorial details
Difficulty Advanced (rss)
Root privileges Yes
Requirements GNU compiler & tools
Estimated completion time 60m+

Why build a custom kernel?

Compiling a custom Linux kernel has its own advantages and disadvantages. In order to change the kernel’s ehavior, one had to compile and then reboot into a new Linux. Most of the the functionality in the Linux kernel is contained in modules which can be dynamically loaded and unloaded from the kernel as necessary. Some benefits of a custom Linux kernel:

  1. Support a wide range of hardware including the latest hardware.
  2. Remove unwanted drivers from the kernel.
  3. Faster boot time due to small kernel size.
  4. Increased security due to disabled unneeded modules.
  5. Learning about the kernel and advanced usage.
  6. Always run the cutting edge latest kernel.
  7. Lower memory usage.


You need to install the following packages on a Debian or Ubuntu Linux to compiler the Linux kernel:

  • git : Fast, scalable, distributed revision control system. You can grab the latest source code using the git command.
  • fakeroot : Tool for simulating superuser privileges. Useful to build .deb files.
  • build-essential : Tools for building the Linux kernel such as GCC compiler and related tools on a Debian or Ubuntu Linux based system.
  • ncurses-dev : Developer’s libraries for ncurses. This is used by menuconfig while configuring the kernel options.
  • kernel-package : Utility for building Linux kernel related Debian packages.
  • xz-utils : XZ-format compression utilities to decompress the Linux kernel tar ball.
  • Disk space : 10 GB or more free disk space.
  • Time : Kernel compilation may take quite a while, depending on the power of your machine.

Install required packages

Open the terminal application. Type the following apt-get command to install the required packages for building the Linux kernel:
$ sudo apt-get install git fakeroot build-essential ncurses-dev xz-utils
Sample outputs:

Fig.01: Install gcc and friends

Finally, install the kernel-package package too:
$ sudo apt-get install kernel-package
$ sudo apt-get --no-install-recommends install kernel-package
Sample outputs:

Fig.02: Install utility for building Linux kernel

Download the Linux kernel source code

Type the following wget command:
$ wget
Sample outputs:

Fig.03: Use the wget to grab the latest source code from

Untar the Linux kernel tar ball using the tar command enter:
$ tar xvf linux-4.2.tar.xz
$ ls
$ cd linux-4.2
$ ls

Sample outputs

 linux-4.2/ linux-4.2/.get_maintainer.ignore linux-4.2/.gitignore linux-4.2/.mailmap linux-4.2/COPYING linux-4.2/CREDITS linux-4.2/Documentation/ linux-4.2/Documentation/00-INDEX linux-4.2/Documentation/ABI/ linux-4.2/Documentation/ABI/README linux-4.2/Documentation/ABI/obsolete/ linux-4.2/Documentation/ABI/obsolete/proc-sys-vm-nr_pdflush_threads ..... .. .... linux-4.2/virt/kvm/async_pf.c linux-4.2/virt/kvm/async_pf.h linux-4.2/virt/kvm/coalesced_mmio.c linux-4.2/virt/kvm/coalesced_mmio.h linux-4.2/virt/kvm/eventfd.c linux-4.2/virt/kvm/irqchip.c linux-4.2/virt/kvm/kvm_main.c linux-4.2/virt/kvm/vfio.c linux-4.2/virt/kvm/vfio.h
linux-4.2  linux-4.2.tar.xz
arch     crypto         fs       Kbuild   MAINTAINERS  README          security  virt block    Documentation  include  Kconfig  Makefile     REPORTING-BUGS  sound COPYING  drivers        init     kernel   mm           samples         tools CREDITS  firmware       ipc      lib      net          scripts         usr

Configure the Linux kernel

First, copy your existing Linux kernel config file
$ cd linux-4.2
$ cp /boot/config-$ (uname -r) .config

To configure the kernel, run:
$ make menuconfig
Sample outputs:

Gallery 01: Click to enlarge

WARNING: It is easy to remove support for a device driver or option and end up with a broken kernel. For example, if the ext4 driver is removed from the kernel configuration file, a system may not boot. When in doubt, just leave support in the kernel.

Make sure you save the changes before exit from menuconfig.

Compile the Linux kernel

You need to clean the source tree and reset the kernel-package parameters, type:
$ make-kpkg clean.
Sample outputs:

Fig.06: Run make-kpkg command

Now, you can compile the kernel, run:
$ fakeroot make-kpkg --initrd --revision=1.0.NAS kernel_image kernel_headers
Sample outputs:

Fig.07: Start compiling the kernel

The fakeroot runs a command called make-kpkg in an environment wherein it appears to have root privileges for file manipulation. This is useful for allowing users to create archives (tar, ar, .deb etc.) with files in them with root permissions/ownership. The make-kpkg command build Debian/Ubuntu kernel packages from Linux kernel sources and options are:

  • --initrd : Create an initrd image.
  • --revision=1.0.NAS : Set custom revision for your kernel such as 1.0.NAS or -1.0-custom-kernel etc.
  • kernel_image : This target produces a Debian package of the Linux kernel source image, and any modules configured in the kernel configuration file .config.
  • kernel_headers : This target produces a Debian package of the Linux kernel header image.

Please note that kernel compilation may take quite a while, depending on the power of your machine. On my shared 4 CORE CPU and 4GB ram it took 60 mins to build the Linux kernel. In the end you should see something as follows on screen:

 $   ls  ../*.deb ../linux-headers-4.2.0_1.0.NAS_amd64.deb  ../linux-image-4.2.0_1.0.NAS_amd64.deb

Installing a custom kernel

Type the following dpkg command to install a custom kernel on your system:
$ sudo dpkg -i linux-headers-4.2.0_1.0.NAS_amd64.deb
$ sudo dpkg -i linux-image-4.2.0_1.0.NAS_amd64.deb

Sample outputs:

 Selecting previously unselected package linux-image-4.2.0. (Reading database ... 154262 files and directories currently installed.) Preparing to unpack linux-image-4.2.0_1.0.NAS_amd64.deb ... Examining /etc/kernel/preinst.d/ Done. Unpacking linux-image-4.2.0 (1.0.NAS) ... Setting up linux-image-4.2.0 (1.0.NAS) ...    Hmm. There is a symbolic link /lib/modules/4.2.0/build  However, I can not read it: No such file or directory  Therefore, I am deleting /lib/modules/4.2.0/build      Hmm. The package shipped with a symbolic link /lib/modules/4.2.0/source  However, I can not read the target: No such file or directory  Therefore, I am deleting /lib/modules/4.2.0/source   Running depmod. Examining /etc/kernel/postinst.d. run-parts: executing /etc/kernel/postinst.d/apt-auto-removal 4.2.0 /boot/vmlinuz-4.2.0 run-parts: executing /etc/kernel/postinst.d/dkms 4.2.0 /boot/vmlinuz-4.2.0 run-parts: executing /etc/kernel/postinst.d/initramfs-tools 4.2.0 /boot/vmlinuz-4.2.0 update-initramfs: Generating /boot/initrd.img-4.2.0 run-parts: executing /etc/kernel/postinst.d/zz-update-grub 4.2.0 /boot/vmlinuz-4.2.0 Generating grub configuration file ... Found linux image: /boot/vmlinuz-4.2.0-nixcraft-nas.1.0 Found initrd image: /boot/initrd.img-4.2.0-nixcraft-nas.1.0 Found linux image: /boot/vmlinuz-4.2.0 Found initrd image: /boot/initrd.img-4.2.0 Found linux image: /boot/vmlinuz-4.1.6 Found initrd image: /boot/initrd.img-4.1.6 Found linux image: /boot/vmlinuz-3.16.0-4-amd64 Found initrd image: /boot/initrd.img-3.16.0-4-amd64 Found linux image: /boot/vmlinuz-2.6.32-5-amd64 Found initrd image: /boot/initrd.img-2.6.32-5-amd64 done

Reboot the box/server/laptop

Type the following command:
$ reboot
$ shutdown -r now

Verify that everything is working

Type the following command to verify your new kernel and everything is working fine:
$ uname -a
$ uname -r
$ uname -mrs
$ dmesg | more
$ dmesg | egrep -i --color 'error|critical|failed'

Sample outputs:

 Linux 4.2.0 #1 SMP Fri Sep 11 18:31:20 UTC 2015 x86_64 GNU/Linux

And, there you have it, the Linux kernel version 4.2.0 installed and working correctly.

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