This guide is the official installation handbook for Everest Linux.
WARNING:
Using unofficial guides is not recommended, as they may be outdated, or unreliable. The official guide is located at https://www.everestlinux.org/install.
WARNING:
Simply copy and pasting commands from this guide won't cut it, and you'll most likely end up with a broken installation. Ensure you know what each command does.
WARNING:
Everest is not for the faint of heart. If you have never touched Linux in your life, Everest is most certainly not for you. Check out https://linuxmint.com if you want a great Linux experience that works out of the box.
WARNING:
Everest at its current state is highly experimental. Install at your own risk.
If you need assistance, reach out to us on IRC (libera.chat, #everestlinux) or Discord.
Prerequisites
The following steps are required to complete an installation:
Set up the build environment
Download a system image
Unpack the system image
Change root into the new system
Install programs
Install the Linux kernel
Set up init scripts and services
Install the bootloader
Reboot the system
Note that Everest is highly flexible. That being said, it is up to you to make modifications yourself.
Run commands prefixed with (user)$ as an unprivileged user.
Run commands prefixed with (root)# as the root user.
Run commands prefixed with (chroot)# inside the chroot environment.
Set up the environment
Everest needs a proper environment set up in order to install correctly.
A system mountpoint is where the new system's root (/) will be. Where you put this doesn't matter, as the host system used to build the system won't be included
in the final installation. In this example, we will use /mnt/everest.
Create a system mountpoint:
(root)# mkdir -pv /mnt/everest
A variable pointing to the system mountpoint may be useful in the future, as it will save you a bit of typing.
Create a variable for the system mountpoint:
(root)# SYS_MNT=/mnt/everest
Partitions must be created on the drive you wish to install Everest to. The typical partition layout on an Everest system may differ from othet distributions.
The typical layout is:
Mount point
Type
Suggested size
/mnt/everest/boot
EFI system partition (esp)
No smaller than 256 MB, no larger than 1 GB
/mnt/everest/usr
/usr
No smaller than 25 GB
/mnt/everest
Root filesystem
Remainder of the drive
Partition the target drive:
(root)# cfdisk /dev/sdX
A valid filesystem is required on the drive.
Most filesystems should work, however ensure the system has the corresponding package for whatever filesystem you choose.
For example, if XFS is used, when installing the system:
(root)# mount /dev/boot /mnt/everest/boot(root)# mount /dev/usr /mnt/everest/usr
Create remaining directories on /usr with mkusrskel:
(root)# mkusrskel -d /mnt/everest/usr
Downloading a system image
An Everest system image provides an incomplete root filesystem which users can build a system off of. Users should be careful of which
image they choose, as switching in the future is trivial, time consuming, and requires rebuilding a lot of packages. It's a lot better
to get it right the first time, rather than trying to get it right later.
Do some thorough planning to ensure you get the right system image. For instance, ask yourself a few questions, such as:
Do I need 32 bit libraries?
Will I be using proprietary software that cannot be recompiled?
Do I require a specific C library for my hardware setup?
Do I want to set up NSA Security Enhanced Linux (SELinux)
Do I want an init system other than Busybox's built in init configured out of the box?
WARNING:
Make sure you're happy with the system image you choose. While migrating in the future is possible, it requires rebuilding the majority of the system.
Downloading a system image that is severely out of date is not recommended. Many programs, such as the kernel or SSL library will be vulnerable to attacks.
Now that a system image has been downloaded, we can unpack it.
Ensure the system image is inside the system mountpoint, otherwise you may run into trouble.
Since a Linux root filesystem is complex, and many different files need to be owned by certain users, or have certain permissions, simply running `tar xf` will
result in a broken image. A couple extra flags are needed to preserve these permissions in the unpacked image.
Unpack the system image:
(root)# tar -xpvf SYSTEM_IMAGE --xattrs-include='*.*' --numeric-owner
If this command was run correctly, you shouldn't need to edit any permissions manually.
Chrooting into the system mountpoint
Although we have a relatively complete root filesystem at this point, many essential programs are still missing. These include the kernel and bootloader. Without these,
the system is unable to boot. At this point, we must chroot into the new system. This will allow us to complete the system without booting.
Chroot into the new system:
(root)# everest-chroot /mnt/everest
Change the shell prompt to differentiate the two environments:
Any programs you wish to install, such as display servers, login managers, and desktop environments, should be installed now. The kernel can take multiple
hours to compile on some hardware.
Glacier manages packages on the system, and it allows users to install, or 'merge' their own. It is recommended to get familiar with this system.
The hostname assigns a name to the system. This can be changed at any time.
Set the hostname:
(chroot)# echo hostname > /etc/hostname
Or, on systemd:
(chroot)# hostnamectl hostname hostname
A network connection is very important, and there are multiple ways to set one up.
WARNING:
Ensure your network is fully set up before proceeding with any other steps. It's better to get it right the first time, rather than trying to fix it later.
First, ensure the desired network interface is not blocked by rfkill:
(chroot)# rfkill
If the network interface is blocked:
(chroot)# rfkill unblock interface
The network can now be configured.
Option 1: Busybox networking
Busybox includes networking tools that can quickly configure the network.
On a busybox system, the network can be set up with one simple command:
(chroot)# ifup
rcS will also run this command at boot time.
Option 2: dhcpcd and wpa_supplicant
On systems without Busybox, dhcpcd can be used. This is another very simple solution.
Install dhcpcd:
(chroot)# gpkg -f world/dhcpcd
Install wpa_supplicant:
(chroot)# gpkg -f world/wpa_supplicant
rcS will start dhcpcd at boot time.
Option 3: NetworkManager
NetworkManager is recommended on systems using systemd as the init system.
NetworkManager should be fairly easy and straightforward to set up for most.
Install NetworkManager:
(chroot)# gpkg -f world/networkmanager
Enable and start NetworkManager:
(chroot)# systemctl enable --now NetworkManager
The /etc/hosts file is used to resolve IP addresses not resolved by the DHCP server.
The root password is extremely important, as it controls access to the root user, the most powerful user on the system.
Ensure your chosen root password is strong enough where it cannot be guessed easily.
Set the root password:
(chroot)# passwd
If remote access is desired on the system, install sshd:
(chroot)# gpkg -f world/sshd
Using the root account for daily use is not recommended. Create an unprivileged user:
(chroot)# adduser USERNAME
A privilege elevation program is recommended for most users. The most popular choices are sudo and doas, with doas being recommended for most users.
Install doas:
(chroot)# gpkg -f world/doas
Create /etc/doas.conf:
FILE: /etc/doas.conf
permit USER as root
Configure the bootloader
Now that the system is correctly configured and the kernel is installed, the final step can proceed - installing the bootloader. Without a bootloader, the system
will be unable to load the Linux kernel upon boot. This guide only mentions GRUB, however note that other bootloaders are supported.