Arch linux
Arch Linux is a Unix like linux distribution. Arch started it’s journey in 2002, and is usually used by advanced users. Arch Linux is not super user friendly to begin, and therefore not recommended for rookies. However, the deal with Arch Linux is that it’s free of bloat-wares and uses a very minimalistic approach, moreover it pushes to user to put great effort into understanding how the system works.
The main reasons to install Arch Linux are as follows: 1. Arch Linux is community based, and not market based. It doesn’t need to bother about the markets and customers, in fact it’s all about the development process. Furthermore, Arch doesn’t need to be patched, it is kind of like a stock Android, where the user uses what the upstream developed. Arch Linux probably has the best community support of all the linux distros, and the Arch WIKI contains pretty much everything a user might require.
2. Arch has massive software repositories. Arch has pretty much every application that is available through the packaging system on other distros, if not more. Arch calls it the Arch User Repository. It is a repository maintained by users, whereby users can compile and install packages from the source. Of course, users can also use Yaort command, if they prefer.
3. Support for majority of desktop environments. Mainstream linux distro like Ubuntu uses Unity uptill 16.10, and Unity by far the slowest desktop environment I’ve used. Although, users have the option to install Plasma, XFCE, MATE. Other environments like Gnome doesn’t work well on ubuntu. However, as of Ubuntu 17.04, Ubuntu has switched back to Gnome. Arch Linux supports LXDE,XFCE,Gnome,Mate and Cinnamon, and nothing seems to make it laggy, or break it.
4. Total User Control. Arch puts you in the pilot’s chair. The user has the ability to build everything from scratch, hence they can choose whatever they want instead of having to deal with unnecessary packages.
5. Rolling Releases. Unlike other distros, you do not come across a major update every 6 months. Arch uses rolling updates. That means, you are always running the latest packages, both desktop and kernel, as you don’t have to wait for a new distro, and you automatically get the latest packages.
How to install Arch Linux on VirtualBox for a EFI System
This is a long process, but first of all you need to get the official Arch Linux ISO from [1] On Virtual Box you will need to create a EFI enabled virtual machine. In my case, I used 20GB dynamically allocated hard drive, 1.5GB RAM and 85% Processor power. Once that's all done,mount the ISO and fire up the virtual machine.
Once inside the virtual machine, you will see a promt like root@archoiso ~ # first thing you want to do is check whether the internet is working by simply doing ping -c 3 www.google.com
Creating file systems, formatting and mounting I recommend cgdisk or gdisk for EFI systems, it is very user friendly and straightforward. FIrst of all you need to check your block devices and partitions.
lsblk to view block devices
cgdisk /dev/sda In my case it was /dev/sda
Now you need to start creating the partitions. You basically need just 3 partitions, boot, swap and root. For all of the partitions leave the first sector empty. Now create a partition.
Remember first sector empty
KGMTP 512MB 512MB is enough for a EFI boot.
Hexcode: L to view all. Go with ef00
Partition name : boot
Create another partition /dev/sda2
Size in sectors(KMGTP): 2GB The rule is to allocate around 1.5 times the RAM for your Swap partition, so in my case it was 2GB approx.
Hexcode: 8200
Partition name : swap
Create the final partition /dev/sda3
Size in sectors(KMGTP): leave blank By leaving blank it will allocate the remaining space to this partition.
Hexcode: 8300 This is the main linux file system and is suitable for our root partition.
Partition name : root
lsblk To verify the partitions exist
Formatting:
Format boot partition mkfs.fat -F32 /dev/sda1 FAT32 is used for EFI boot.
Format swap partion mkswap /dev/sda2 Intialize swap swapon /dev/sda2
Format root partition mkfs.ext4 /dev/sda3 Ext4 journaling system is used for root.
Mounting:
Mount root mount /dev/sda3 /mnt
Now make directory mkdir /mnt/boot
Mount boot mount /dev/sda1 /mnt/boot
Mirrorlist (Optional)
Now you have the option to rank the mirrorlist, even though you do not really have to do this. To do so you need to edit /etc/pacman.d/mirrorlist and uncomment the mirrors you want to rank. I sugguest uncommenting at least 20 countries. Use rankmirrors -n 5 /etc/pacman.d/mirrorlist to rank the top five mirrors , could take a few minutes.
Install base packages, Generate fstab
To install base packages pacstrap -i /mnt base base-devel These are the core packages of an Arch Linux Installation.
FSTAB basically lists all the partitions and data sources and show how they are being used.
To generate fstab genfstab -U /mnt >> /mnt/etc/fstab Check if fstab generated in /mnt/etc
Basic configurations
First of all you need to get inside the newly installed system arch-chroot /mnt You should see a slightly different prompt now.
Change language to EN_US:
Use the command nano /etc/locale.gen
Uncomment en_US.UTF-8 There should be two of these
Generate the locale locale-gen
Now the output needs to be saved echo LANG=en_US.UTF-8 > /etc/locale.conf and exported export LANG=en_US.UTF-8
Set up the time :
Now change to Tallinn by creating a soft link ln -s /usr/share/zoneinfo/Europe/Tallinn > /etc/localtime This might already exists
Now set hardware clock to utc hwclock –systohc –utc
Set up the hostname:
setup the hostname echo bossman-arch > /etc/hostname
Double check to see if hostname exists
Enable multilib and create custom repository: (Optional Step)
Type in nano /etc/pacman.conf Find and uncomment multlib, not the testing, just the multilib and line beneath of course. Multilib makes sure you have access to 32bit programs
In the same file, all the way in the bottom add a custom repository :
[archlinuxfr]
SigLevel= Never
Server= http://repo.archlinux.fr/$arch
Run pacman to get yaourt pacman -Sy yaourt Yaourt is basically the Arch Linux Users version of pacman. It is slighltly different, more on that later.
Setup root password passwd
Simply type in “passwd” and confirm password
Add a regular user
useradd -m -g users -G wheel,storage -s /bin/bash axon -m flag is to create -g is the group flag -G on the other hand is the secondary group. Wheel is the Arch equivalent of nano, storage gives access to removable devices, and bash is the shell environment. Now set up a password for the user, passwd axon
Sudo Permissions: We need to make sure to edit one file so that the sudo password is asked everytime when doing a sudoers task.
EDITOR=nano.visudo find %wheel and add on the line below Defaults root pw Now the sudo password will be prompted when doing sudeoers task.
At this point you might have to restart the system, you may encounter some error messages in the next step just reboot, remount and get chroot back in if it happens.
Bootloader installation and configuration
mount -t efivarfs efivarfs /sys/firmware/efi/efivars This should return that it's busy or already in use,it's a good thing if that happens, otherwise you need to recheck all the steps.
Now install the bootloader bootctl install
blkid Make a note of the UUID of /dev/sda3. The following steps must be done exactly this way except you will have a very different UUID.
blkid -s PARTUUID -o value /dev/sda3 > /boot/loader/entries/arch.conf You just outputted the PARTUUID in arch.conf.
nano /boot/loader/entries/arch.conf You need to edit this configuration file. You will see the PARTUUID generated and nothing else on it. It should look like the following.
title Arch Linux
linux /vmlinuz-linux
initrd /initramfs-linux.img
options root=PARTUUID=*YOURUUID* rw
Save and exit. Vmlinuz is the name of a linux kernel executable. You should know that kernel is like the heart of an OS. Vmlinuz is compressed and bootale. Initrd is a scheme for temporary root file system into memory, which may be used as part of the Linux startup process. initrd and initramfs refer to two different methods of achieving this.
For intel processors only pacman -S intel-ucode Is basically a microcode update file for Intel CPUs. I recommend doing this for compatability issues.
Now you have add ucode to config file /boot/loader/entries/arch.conf and add another initrd above the former initrd like initrd /intel-ucode.img
Exit chroot exit
Unmount everything umount -R /mnt Mnt was a placeholder for root, now that we have the actual system waiting we do not need it.
Shutdown the system Shutdown now
Power off virtual machine
Eject ISO
Arch Linux Installation should be complete,however it is time to power up the VM without ISO, double check to see if the ISO is ejected and and the boot is set to hard drive.
If you have done everything correctly a login prompt should appear. You can login using the your credentials.
Enable Internet
sudo su For the sake of convenience become sudo as soon as you can.
Now that you are logged in if you try to ping something or get a package with pacman, it will fail, you must re-enable the internet connection.
First check ip link The correct interface is not the first one or the loopback, it is the one with broadcast and in my case it was enp0s3, and the interface was down.
To re-enable systemctl enable dhcpcd@enp0s3.service
reboot Reboot and ping google or some other site it should work fine.
GUI : XSever, VBox Guest Additions and LXDE
This is the final step of the installation process. I chose LXDE because it's pretty light and fast. You can install Gnome, it looks outstanding but it might lag.
Xserver installation:
pacman -S xorg-server xorg-server-utils xorg-xinit xterm mesa xorg-clock xorg-twm alsa-utils tmux The following ar the reccomended packages,and they should all be installed.
Install Linux headers:
pacman -S linux-headers header files used to compile the kernel -and other applications which depend on the structures defined in theseheader files, like kernel modules. An example can be graphic card drivers.
VBox Guest Additions Installations:
Virtual Box guest additions allows the changing of resolution and using USB devices within the VM. Hence it must be done for GUI. To do so, simply insert the Virtual Box Guest Addition CD from the upper menu. It should be inserted. If you get an error it's probably because you have to IDE cdrom, just go back to virtualbox and create a blank IDE drive without mounting anything, then boot back into Arch VM and insert the guest additions cd, this will work.
Now you have to mount the cdrom mount /dev/cdrom /mnt
Navigate to /mnt examine and run the script ./VBoxLinuxAdditions.run This should install virtual box guest additions.
pacman -Syu Check for updates.
At this point you need to reboot again.Once back in the system startx you should see some colored windows, this means xserver is ready for GUI.
Installing LXDE:
Unlinke gnome lxde doesn't need so much space and this should be a straightforward installation. pacman -S lxde
Once the installation is done, all you need to do is a reboot and you should see a Graphical login prompt. If you login and everything works, congratulations, the worst is over.
Installing Gnome:
If you prefer Gnome instead of LXDE then pacman -S gnome gnome-extra gdm Do not select nvidia even if you have an nvidia GPU. Also I found Gnome not working with VBox 3d Acceleration, and hence it lags when streaming videos.
Installing with Pacman and Yaourt this is only an example of how to use pacman and yaourt, you can set up whatever you want.
Open up the terminal and sudo pacman -S firefox Firefox will be installed just like that
Install Geekbench. Firstly get it from this link [2] Navigate to downloaded location on terminal and do tar xf geekbench.tar.gz and then navigate to this new folder
