A guide and configuration files for setting up an operating system for Grandma.
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Grandma

A guide and configuration files for setting up an operating system for Grandma.

Prerequisits

A USB or CD drive with Void Linux Glibc x86_64 written to it. The ISO image can be found here: https://voidlinux.org/download/

The computer that the OS is being installed needs to have a CPU architacture of x86_64. If it is not, you are on your own.

A resonable amount of skill and experience relivent to this guide.

Overview

The operating system that will be set up, is intended to be minimal, and strieghtfowerward for Grandma to use. It will hopefully be stable and reliable. If you have issues, please file an issue. Here is a list of features/specifications that the system will have:

  • distro - Void Linux Glibc
    • I chose Void Linux, because it is a minimal, lightweight, stable, rolling-release disto. The rollig release cycle is prefered because this system will be using newer packages.
  • window manager/compositor - LabWC
    • I chose Wayland as the display server protocal because it generally preforms better that Xorg. LabWC is the window manager because it is floating, lightweight, and minimal. It would be rediculous to expect Grandma to use a tiling window manager.
  • application launcher/status bar - SFWBar and Lavalaunchers
    • I chose these bar options because they are designed to do exactly what I need them to do. These two bars will provide an XFCE-like interface, which is the easiest to operate with.
  • login manager - GreetD and TUIgreet
    • I chose a terminal solution so that all Grandma has to do is type in her username and password. She does not have to deal with the mouse.
  • search engine - https://paulgo.io
    • I use this search engine daily. It is fast, and gets me good results. It is private, and open source.
  • www client - Floorp
    • I have never tried this browser, but I assume that it is an improved version of FF.
  • File manager - Dolphin
    • Easiest to use file manager.
  • Office - Libre Office
    • Best office application. The other option is Only Office. IDK.
  • Crond - Scron
    • A simple version of cron
  • Notifications - Wayherb/tiramisu Sway Notification Center
    • A simple notification solution. You can use the sway one if your Grandma needs that.
    • Sway Notification Center has more features, and a better interface. Personally, I prefer a more minimal approach.
  • Media Player - Haruna
    • Haruna is easy to use, and looks good. It's UI, and features are very user-friendly.
  • Image Viewer - Probably Gwenview
    • For consistency purposes, mainly. It should be easy to use, and have easy fullscreen/slideshow mode. For a lighter-weight alternative, check out Ristretto.
  • Wallpaper selector - SWWW and Waypaper
    • Waypaper is a GUI frontend for SWWW or SwayBG. SWWW has smoth animations.
  • Bluetooth manager - Blueman
    • Blueman is an actively maintained GUI for bluetooth.
  • Audio Daemon - Pipewire
    • Pipewire works well, and is actively maintained.
  • Screenshot utility - Flameshot
    • Smooth selection + easy to use GUI.
  • Screen lock - Swaylock
    • Swaylock is easy to use and simple.
  • Caulculator - Kcalc
    • Picked for ease of use and consistency with the rest of the system.
  • Unit Conversion - Convertall version 1
    • Simple GUI for unit conversion.

Installation

Login

When prompted, log in as root. If you get stuck, press Ctrl + d to get a new prompt.

void-live login: root
Password: voidlinux

You will now be greated with a # root prompt.

Change the Keyboard Layout

To switch to Dvorak, run:

loadkeys dvorak

If you are using a different keymap, then replace dvorak with that keymap.

SSH

If you would like install over SSH, do the following:

Start the Bash shell, so that you can edit the command if you made a mistake (press Up).

bash

You will need to connect to the network with wpa_supplicant, or void-installer in the Network section.

Determin the IP address

ip addr | grep -e wlp -e wlan -e enp -e eth[[:digit:]] | grep inet | head -1 | awk '{print $2}' | awk -F/ '{print $1}'

Keep in mind that this command will favor ethernet connections.

On another system, run:

ssh anon@<ip address>

Replace <ip address> with the actual ip address.

Say "yes."

Are you sure you want to continue connecting (yes/no/[fingerprint])? yes

The password is voidlinux.

Now login as root.

su root
Password: voidlinux

Start bash

bash

Set the $TERM vairiable

TERM=xterm

Gathering Important Information

Determining the Proper Disk to Install to

First, it is crutial to determine the proper device to install to. Run lsblk.

lsblk

Determine the proper drive to install to based on the size, type, and name. The drive should be one of the largest in size, the type disk, and named /dev/sdX or /dev/nvmeX, where X is a wildcard for additional numbers and letters. Keep in mind that drives may have partitions within them. To get a visual representation of that, run:

lsblk -T

The disk name will be important later on.

Determining If the System is UEFI or Legacy BIOS

If you are not familiar with manual partitioning, then you are in for a real treat. The first step is to determine whether your machine is UEFI or Legacy BIOS.

The easiest way to check that is to run:

ls -d /sys/firmware/efi

If directory exists (the output will not be an error), then your system is UEFI. If it does not exist, then your system is Legacy BIOS. Make sure that you typed it correctly.

You will need to know this for disk partitioning later on.

From now on, follow the CLI or GUI installation guide.

CLI

Partitioning the Disk

UEFI

Recall the name of the disk that you want to install to, and run:

fdisk <disk name>

Replace <disk name> with the actual name of the drive; eg. /dev/sda.

You should now be greeted with some information, and a prompt that looks like this: Command (m for help): .

Type p, and press Enter. This will print out the information about the disk that you are writing to:

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 21AAD8CF-DB67-0F43-9374-416C7A4E31EA

<!--T:194-->
Device        Start      End    Sectors  Size Type
/dev/sda1      2048   2099199   2097152     1G EFI System
/dev/sda2   2099200  10487807   8388608     4G Linux swap
/dev/sda3  10487808  60549119  50061311  23.9G Linux filesystem

Example outputs may be copied from the Gentoo wiki.

Run this periodically throughout the partitioning process, especially before writing changes.

If the GPT disklabel already exists (as seen in the example output of p), repeatedly run d to delete the existing partitions.

If the disklabel does not exist, run g to create the GPT disklabel. For Legacy BIOS you would create the MBR disklabel.

Created a new GPT disklabel (GUID: 87EA4497-2722-DF43-A954-368E46AE5C5F).

Create the ESP partition which stands for EFI System Partition. This is where the boot loader and other UEFI firmware is loaded during the bootstrapping process. The partition should be small (200 MiB - 1 GiB). I recommend 512 MiB, to be safe. Press n, Enter, Enter, Enter, +512M, Enter to create a new partition.

Command (m for help): n
Partition number (1-128, default 1): 1
First sector (2048-60549086, default 2048): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (2048-60549086, default 60549086): +512M
 
Created a new partition 1 of type 'Linux filesystem' and of size 512 MiB.

Now would be a good time to run p, and print the changes. Keep in mind that the disk wont be touched until the changes are writen.

Now make the partition an ESP (t, 1, 1):

Command (m for help): t
Selected partition 1
Partition type (type L to list all types): 1
Changed type of partition 'Linux filesystem' to 'EFI System'.

Next, create a SWAP partition. I recommend making it 4 GiB. Here is a chart explaining the amount of SWAP that should be added based on the amount of RAM that the system has. If you don't know how much RAM the system has, just guess. If the system is slow, you should probably do 8 GiB of SWAP.

Command (m for help): n
Partition number (2-128, default 2): 
First sector (526336-60549086, default 526336): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (526336-60549086, default 60549086): +4G
 
Created a new partition 2 of type 'Linux filesystem' and of size 4 GiB.

And now make it a SWAP partition (t, 2, 19):

Command (m for help): t
Partition number (1,2, default 2): 2
Partition type (type L to list all types): 19
 
Changed type of partition 'Linux filesystem' to 'Linux swap'.

Finally, make a root partition. This will take up the rest of the disk.

Command (m for help): n
Partition number (3-128, default 3): 3
First sector (10487808-60549086, default 10487808):
Last sector, +/-sectors or +/-size{K,M,G,T,P} (10487808-60549086, default 60549086):

Created a new partition 3 of type 'Linux filesystem' and of size 23.9 GiB.

It is a good idea to change the type of the partition.

Command(m for help): t
Partition number (1-3, default 3): 3
Partition type or alias (type L to list all): 23

Changed type of partition 'Linux filesystem' to 'Linux root (x86-64)'

Print the changes. It should look something like this (the sizes will not be exactly the same):

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 87EA4497-2722-DF43-A954-368E46AE5C5F
 
Device       Start      End  Sectors  Size Type
/dev/sda1     2048   526335   524288    1G EFI System
/dev/sda2   526336  8914943  8388608    4G Linux swap
/dev/sda3  8914944 60549086 51634143 24.6G Linux root (x86-64)

When you are ready, write the changes, and you will be regreeted with the # .

Command (m for help): w

Once again, I recommend refering to the linked Gentoo Wiki page, if you want to well understand the partitioning process. If you followed this section, skip the Legacy BIOS section.

Legacy BIOS

Recall the name of the disk that you want to install to, and run:

fdisk <disk name>

Replace <disk name> with the actual name of the drive; eg. /dev/sda.

You should now be greeted with some information, and a prompt that looks like this: Command (m for help): .

Type p, and press Enter. This will print out the information about the disk that you are writing to:

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 21AAD8CF-DB67-0F43-9374-416C7A4E31EA
 
Device        Start      End  Sectors  Size Type
/dev/sda1      2048   526335   524288    1G EFI System
/dev/sda2    526336  2623487  2097152    1G Linux swap
/dev/sda3   2623488 19400703 16777216    8G Linux filesystem
/dev/sda4  19400704 60549086 41148383 19.6G Linux filesystem

Example outputs may be copied from the Gentoo wiki.

Run this periodically throughout the partitioning process, especially before writing changes.

If the MBR disklabel already exists (look at the Disklabel type: section of your last output), repeatedly run d to delete the existing partitions.

If it is not MBR, or does not yet exist, enter o to create the MBR (also known as DOS) disklabel. UEFI generally uses GPT.

Command (m for help): o
Created a new DOS disklabel with disk identifier 0xe04e67c4.
The device contains 'gpt' signature and it will be removed by a write command. See fdisk(8) man page and --wipe option for more details.

Create the boot partition. The partition should be small (200 MiB - 1 GiB MiB). I recommend 512 MiB, to be safe. Press n, Enter, Enter, Enter, +512M, Enter to create a new partition.

Next create a SWAP partition. I recommend making it 4 GiB. Here is a chart explaining the amount of SWAP that should be added based on the amount of RAM that the system has. If you don't know how much RAM the system has, just guess. If the system is slow, you should probably do 8 GiB of SWAP.

Press n, Enter, Enter, +4G:

Command (m for help): n
Partition type
   p   primary (1 primary, 0 extended, 3 free)
   e   extended (container for logical partitions)
Select (default p): p
Partition number (1-4, default 1): 1
First sector (2048-60549119, default 0): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (2048-60549119, default 60549119): +4G
 
Created a new partition 1 of type 'Linux' and of size 4 GiB.

And now make it a SWAP partition (t, 2, 82):

Command (m for help): t
Selected partition 1
Hex code (type L to list all codes): 82

<!--T:179-->
Changed type of partition 'Linux' to 'Linux swap / Solaris'.

Next, make a root partition. This will take up the rest of the disk.

Command (m for help): n
Partition type
   p   primary (1 primary, 0 extended, 3 free)
   e   extended (container for logical partitions)
Select (default p): p
Partition number (2-4, default 2): 2
First sector (8390656-60549086, default 8390656):
Last sector, +/-sectors or +/-size{K,M,G,T,P} (8390656-60549086, default 60549086):

Created a new partition 2 of type 'Linux' and of size 23.9 GiB.

Print the changes. It should look something like this (the sizes will not be exactly the same):

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: dos
Disk identifier: 0xe04e67c4
 
Device     Boot   Start      End  Sectors  Size Id Type
/dev/sda2          2048  8390654  8388606    4G 82 Linux
/dev/sda3       8390655 60549119 52158464 25.6G 83 Linux 

When you are ready, write the changes, and you will be regreeted with the # .

Command (m for help): w

Once again, I recommend refering to the linked Gentoo Wiki page, if you want to well understand the partitioning process. If you followed this section, skip the Legacy BIOS section.

Creating the filesystems

UEFI

The boot partition should be vfat, the swap partition should be swap, and the root partition should be a linux filesystem.

Set the filesystem to vfat on the boot partition.

mkfs.vfat <boot partition>

Replace <boot partition> with the name of the boot partition (ie. /dev/sda1).

Set the filesystem to xfs on the root partition.

mkfs.xfs <root partition>

Replace <root partition> with the name of the root partition (ie. /dev/sda3).

Now initialize the swap parititon.

mkswap <swap partition>

Replace <swap partition> with the name of the root partition (ie. /dev/sda2).

Legacy BIOS

Set the filesystem to xfs on the root partition.

mkfs.xfs <root partition>

Replace <root partition> with the name of the root partition (ie. /dev/sda2).

Now initialize the swap parititon.

mkswap <swap partition>

Replace <swap partition> with the name of the root partition (ie. /dev/sda1).

Mount for Installation

Mount the filesystem.

mount <root partition> /mnt

Replace <root partition> with the root partition (ie. /dev/sda3).

If you are using UEFI, mount the boot partition.

mkdir -p /mnt/boot/efi/
mount <boot partiton> /mnt/boot/efi/

Replace <boot partition> with the boot partition (ie. /dev/sda1).

Installing the Base System

Choose the XPBS meathod or the ROOTFS meathod.

XBPS Meathod

Select a mirror from xmirror.voidlinux.org. Favor teir 1 mirrors. They are official. If you must visit the site through the terminal, intsall elinks.

The mirrors can also be viewed in xmirror's mirror list file..

cat /usr/share/xmirror/mirrors.lst

Now set the mirror as a shell variable.

REPO=<mirror>/current

Replace <mirror> with the mirror (ie. https://mirrors.servercentral.com/voidlinux/).

Copy the RSA keys into the system.

mkdir -p /mnt/var/db/xbps/keys
cp /var/db/xbps/keys/* /mnt/var/db/xbps/keys/

Use XBPS to install the base system.

XBPS_ARCH=x86_64 xbps-install -S -r /mnt -R "$REPO" base-system

ROOTFS Meathod

Select a mirror from xmirror.voidlinux.org. Favor teir 1 mirrors. They are official. If you must visit the site through the terminal, intsall elinks.

The mirrors can also be viewed in xmirror's mirror list file..

cat /usr/share/xmirror/mirrors.lst

Now set the mirror as a shell variable.

REPO=<mirror>/current

Replace <mirror> with the mirror (ie. https://mirrors.servercentral.com/voidlinux).

The Void Linux installation medium provides no way to download files from the web without running a long sring of commands. So I recommend installing wget to do so. If you must visit the site through the terminal, intsall elinks instead and use that to download.

Update the package manager.

xbps-install -R $REPO -u xbps

Install wget.

xbps-install -S -R $REPO wget

Visit the Download page. Locate the link to the ROOTFS tarball for glibc.

If using wget, then view/copy the link, and run:

wget <link>

Replace <link> with the link to the ROOTFS tarball.

Install the nessessary tool for unpacking tarballs

xbps-install -S -R $REPO xz

Now unpack it.

tar xvf void-*-ROOTFS*.tar.xz -C /mnt

Make sure you only download one ROOTFS tarball, or the wildcard will select more than one.

Setting the XBPS mirror

Set the XBPS mirror.

xmirror -r /mnt -s $REPO

Changing Root

To change root, you can use xchroot in the CLI installation. I tried to use xchroot after installing using the GUI meathod, and it did not work.

Chroot into the sytem.

xchroot /mnt /bin/bash

Updating System

If you followed the XBPS meathod, skip this section.

Update the system:

xbps-install -Su xbps
xbps-install -u
xbps-install base-system
xbps-remove base-voidstrap

Setting a Hostname

Set the hostname (the name of the computer).

echo <hostname> > /etc/hostname

Replace <hostname> with the the hostname (ie. SewingMachine). This should not have spaces in it.

Setting the timezone

A list of available timezones are found in /usr/share/zoneinfo

ls /usr/share/zoneinfo
ls /usr/share/zoneinfo/<region>

Replace <region> with the region found in the output of ls /usr/share/zoneinfo.

Now set the timezone.

ln -sf /usr/share/zoneinfo/<region>/<timezone> /etc/localtime

Replace <region> with the region found in the output of ls /usr/share/zoneinfo, and <timezone> with timezone found in the output of ls /usr/share/zoneinfo/<region>, where of course <region> was replaced with the region found in the output of ls /usr/share/zoneinfo. (ie. America; Chicago).

Installing a Terminal Text Editor

Install a terminal text editor of choice

xbps-install -S vis

Setting he keyboard layout

Edit /etc/rc.conf.

vis /etc/rc.conf

Replace this

# Keymap to load, see loadkeys(8).
#KEYMAP="es"

with this

# Keymap to load, see loadkeys(8).
KEYMAP="<keyboard layout>"

where <keyboard layout> is replaced with the keyboard layout that you use (ie. dvorak). The keyboard layouts are listed in /usr/share/kbd/keymaps. The keyboard layout will be changed back to Grandma's keymap later.

ls /usr/share/kbd/keymaps/i386/  

Setting the Locale

Edit /etc/default/libc-locales.

vis /etc/default/libc-locales

Uncomment the desired locales (remove the # at the beginning of the line).

en_US.UTF-8 UTF-8

Now reconfigure the locales.

xbps-reconfigure -f glibc-locales

Enabling services

Enable DHCPCD.

ln -s /etc/sv/dhcpcd /etc/runit/runsvdir/default/

Enable SSHD.

ln -s /etc/sv/sshd /etc/runit/runsvdir/default/

Setting the Root Password

Set the root password.

passwd
New password: 
Retype new password: 

Make it strong.

Configuring fstab

Generate /etc/fstab.

cp /proc/mounts /etc/fstab
echo "$(grep -v proc /etc/fstab | grep -v sys | grep -v devtmpfs | grep -v pts)" > /etc/fstab
echo "<swap partition> swap swap rw,noatime,discard 0 0" >> /etc/fstab

Replace <swap partition> with the swap partition (ie. /dev/sda2).

Now run blkid to see the UUID of each partition.

blkid | sed 's/"//g'

Replace /dev/* (all refrences to a partition) with their UUID.

UUID=66dfcdb5-0ec7-4c90-8e3a-7f13cc65698d / xfs rw,relatime,attr2,inode64,logbufs=8,logbsize=32k,noquota 0 0
UUID=E8F6-20BF /boot/efi vfat rw,relatime,fmask=0022,dmask=0022,codepage=437,iocharset=iso8859-1,shortname=mixed,utf8,errors=remount-ro 0 0
tmpfs /dev/shm tmpfs rw,nosuid,nodev,noexec,inode64 0 0
LiveOS_rootfs /etc/resolv.conf overlay rw,relatime,lowerdir=/run/rootfsbase,upperdir=/run/overlayfs,workdir=/run/ovlwork 0 0
UUID=de4a6878-d346-4f66-9a38-78bcbe4866c9 swap swap rw,noatime,discard 0 0

Installing a Bootloader

Follow the directions for Grub, EFI stub, or LILO.

Grub

If you have issues, please refer to the official docummentation.

UEFI

Install Grub

xbps-install grub-x86_64-efi
grub-install --target=x86_64-efi --efi-directory=/boot/efi --bootloader-id="Void"
Legacy BIOS

Install Grub

xbps-install grub
grub-install <disk to install to>

Replace <disk to install to> with the disk that the system wis installed to.

Reconfiguring

Reconfigure for good measure

xbps-reconfigure -fa

Rebooting

Exit, unmount, and reboot.

exit
umount -R /mnt
shutdown -r now

GUI

Running the installer

Running the installer is simple.

void-installer

image of void-installer

Now select Keyboard.
image of "select Keyboard"

Now select the keyboard layout that you use (not the one that Grandma uses). There will be a lot of typing afterword. I will show you how to change the keyboard layout back afterword.
image of the layout you use

Now select Network.
image of "select Network"

Select your device, then enter the SSID, and passphrase if required.
image of your device

I would say "yes" to this.
image of DHCP

Now select Source.
image of "select Source"

Select either option. I'd pick Local if you couldn't get network working, or it is a slow connection.
image of selecting a source

Select Mirror.
image of "select Mirror"

Teir 1 mirrors are maintained by the Void Linux. Teir 2 mirrors are not managed by Void. Favor teir 1.
image of favoring tier 1

Select your region.
image of your region

Select the closest mirror. Favor tier 1. If Grandma lives near Chicago, then this would be a great mirror to use.
image of great mirror

Select Hostname.
image of "select Hostname"

Type in the name of Grandma's computer.
image of name of grandma's cumputer

Now select Locale.
image of "select Locale"

Select your locale.
image of your locale

Now select Timezone.
image of "select Timezone"

Select your country.
image of your country

Now select your timezone.
image of your country

Now select RootPassword.
image of "select Timezone"

Create a strong passphrase. Make sure that you write it down, put it in a password manager, or don't forget it. If you can't type this password, then you have to chroot into the system to fix it.
image of strong passphrase

Now enter the root password again.
image of root password again

Now select UserAccount.
image of "select UserAccount"

Type in the first name of Grandma in lowercase letters.
image of first-name

Next, type the first and last name of Grandma with capitol letters (where needed) and spaces.
image of display name

Enter the password that Grandma will be using to sign in. This should be short and easy to remember (like a 4-number PIN).
image of short password

Now enter the password again.
image of user password again

The default groups are good, for now.
image of groups

Now select BootLoader.
image of "select BootLoader"

You have two options. You can select the disk that you would like to install the operating system to if you want to install GRUB as the bootloader, or you can select none, and install a different bootloader. In this guide, I will give instructions on how to install a different bootloader. I recommend you choose to install a different bootloader. The guide covers how to install EFIstub for UEFI systems, and LILO on BIOS systems.
image of choosing a bootloader

It will ask you if you want to use a graphical terminal for the grub bootloader. This means it will display the void logo in the bootloader. It's a pretty nice feature. Disabling it might give you a slightly faster boot time. If you are not installing grub, then so "No."
image of graphical terminal

Now select Partition.
image of "select Partition"

Now select the disk that you want to partition. This is the disk that you are going to install to.
image of the disk to partition

Now select fdisk. This guide provides instructions on how to use fdisk. If you are familiar with partitioning, then you can use cfdisk.
image of the "select fdisk"

Partitioning the Disks

Here is additional information on partitioning: https://wiki.gentoo.org/wiki/Handbook:AMD64/Installation/Disks

From the rest of this section, follow the instructions for firmware type UEFI or Legacy BIOS.

UEFI

You should now be greeted with some information, and a prompt that looks like this: Command (m for help): .

Type p, and press Enter. This will print out the information about the disk that you are writing to:

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 21AAD8CF-DB67-0F43-9374-416C7A4E31EA

<!--T:194-->
Device        Start      End    Sectors  Size Type
/dev/sda1      2048   2099199   2097152     1G EFI System
/dev/sda2   2099200  10487807   8388608     4G Linux swap
/dev/sda3  10487808  60549119  50061311  23.9G Linux filesystem

Example outputs may be copied from the Gentoo wiki.

Run this periodically throughout the partitioning process, especially before writing changes.

If the GPT disklabel already exists (as seen in the example output of p), repeatedly run d to delete the existing partitions.

If the disklabel does not exist, run g to create the GPT disklabel. For Legacy BIOS you would create the MBR disklabel.

Created a new GPT disklabel (GUID: 87EA4497-2722-DF43-A954-368E46AE5C5F).

Create the ESP partition which stands for EFI System Partition. This is where the boot loader and other UEFI firmware is loaded during the bootstrapping process. The partition should be small (200 MiB - 1 GiB). I recommend 512 MiB, to be safe. Press n, Enter, Enter, Enter, +512M, Enter to create a new partition.

Command (m for help): n
Partition number (1-128, default 1): 1
First sector (2048-60549086, default 2048): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (2048-60549086, default 60549086): +512M
 
Created a new partition 1 of type 'Linux filesystem' and of size 512 MiB.

Now would be a good time to run p, and print the changes. Keep in mind that the disk wont be touched until the changes are writen.

Now make the partition an ESP (t, 1, 1):

Command (m for help): t
Selected partition 1
Partition type (type L to list all types): 1
Changed type of partition 'Linux filesystem' to 'EFI System'.

Next, create a SWAP partition. I recommend making it 4 GiB. Here is a chart explaining the amount of SWAP that should be added based on the amount of RAM that the system has. If you don't know how much RAM the system has, just guess. If the system is slow, you should probably do 8 GiB of SWAP.

Command (m for help): n
Partition number (2-128, default 2): 
First sector (526336-60549086, default 526336): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (526336-60549086, default 60549086): +4G
 
Created a new partition 2 of type 'Linux filesystem' and of size 4 GiB.

And now make it a SWAP partition (t, 2, 19):

Command (m for help): t
Partition number (1,2, default 2): 2
Partition type (type L to list all types): 19
 
Changed type of partition 'Linux filesystem' to 'Linux swap'.

Finally, make a root partition. This will take up the rest of the disk.

Command (m for help): n
Partition number (3-128, default 3): 3
First sector (10487808-60549086, default 10487808):
Last sector, +/-sectors or +/-size{K,M,G,T,P} (10487808-60549086, default 60549086):

Created a new partition 3 of type 'Linux filesystem' and of size 23.9 GiB.

It is a good idea to change the type of the partition.

Command(m for help): t
Partition number (1-3, default 3): 3
Partition type or alias (type L to list all): 23

Changed type of partition 'Linux filesystem' to 'Linux root (x86-64)'

Print the changes. It should look something like this (the sizes will not be exactly the same):

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 87EA4497-2722-DF43-A954-368E46AE5C5F
 
Device       Start      End  Sectors  Size Type
/dev/sda1     2048   526335   524288    1G EFI System
/dev/sda2   526336  8914943  8388608    4G Linux swap
/dev/sda3  8914944 60549086 51634143 24.6G Linux root (x86-64)

When you are ready, write the changes, and you will be regreeted with the # .

Command (m for help): w

Once again, I recommend refering to the linked Gentoo Wiki page, if you want to well understand the partitioning process. If you followed this section, skip the Legacy BIOS section.

Legacy BIOS

Recall the name of the disk that you want to install to, and run:

fdisk <disk name>

Replace <disk name> with the actual name of the drive; eg. /dev/sda.

You should now be greeted with some information, and a prompt that looks like this: Command (m for help): .

Type p, and press Enter. This will print out the information about the disk that you are writing to:

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 21AAD8CF-DB67-0F43-9374-416C7A4E31EA
 
Device        Start      End  Sectors  Size Type
/dev/sda1      2048   526335   524288    1G EFI System
/dev/sda2    526336  2623487  2097152    1G Linux swap
/dev/sda3   2623488 19400703 16777216    8G Linux filesystem
/dev/sda4  19400704 60549086 41148383 19.6G Linux filesystem

Example outputs may be copied from the Gentoo wiki.

Run this periodically throughout the partitioning process, especially before writing changes.

If the MBR disklabel already exists (look at the Disklabel type: section of your last output), repeatedly run d to delete the existing partitions.

If it is not MBR, or does not yet exist, enter o to create the MBR (also known as DOS) disklabel. UEFI generally uses GPT.

Command (m for help): o
Created a new DOS disklabel with disk identifier 0xe04e67c4.
The device contains 'gpt' signature and it will be removed by a write command. See fdisk(8) man page and --wipe option for more details.

Create the boot partition. The partition should be small (200 MiB - 1 GiB MiB). I recommend 512 MiB, to be safe. Press n, Enter, Enter, Enter, +512M, Enter to create a new partition.

Next create a SWAP partition. I recommend making it 4 GiB. Here is a chart explaining the amount of SWAP that should be added based on the amount of RAM that the system has. If you don't know how much RAM the system has, just guess. If the system is slow, you should probably do 8 GiB of SWAP.

Press n, Enter, Enter, +4G:

Command (m for help): n
Partition type
   p   primary (1 primary, 0 extended, 3 free)
   e   extended (container for logical partitions)
Select (default p): p
Partition number (1-4, default 1): 1
First sector (2048-60549119, default 0): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (2048-60549119, default 60549119): +4G
 
Created a new partition 1 of type 'Linux' and of size 4 GiB.

And now make it a SWAP partition (t, 2, 82):

Command (m for help): t
Selected partition 1
Hex code (type L to list all codes): 82

<!--T:179-->
Changed type of partition 'Linux' to 'Linux swap / Solaris'.

Next, make a root partition. This will take up the rest of the disk.

Command (m for help): n
Partition type
   p   primary (1 primary, 0 extended, 3 free)
   e   extended (container for logical partitions)
Select (default p): p
Partition number (2-4, default 2): 2
First sector (8390656-60549086, default 8390656):
Last sector, +/-sectors or +/-size{K,M,G,T,P} (8390656-60549086, default 60549086):

Created a new partition 2 of type 'Linux' and of size 23.9 GiB.

Print the changes. It should look something like this (the sizes will not be exactly the same):

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: dos
Disk identifier: 0xe04e67c4
 
Device     Boot   Start      End  Sectors  Size Id Type
/dev/sda2          2048  8390654  8388606    4G 82 Linux
/dev/sda3       8390655 60549119 52158464 25.6G 83 Linux 

When you are ready, write the changes, and you will be regreeted with the # .

Command (m for help): w

Once again, I recommend refering to the linked Gentoo Wiki page, if you want to well understand the partitioning process. If you followed this section, skip the Legacy BIOS section.

Creating the filesystems

UEFI

The boot partition should be vfat, the swap partition should be swap, and the root partition should be a linux filesystem.

Set the filesystem to vfat on the boot partition.

mkfs.vfat <boot partition>

Replace <boot partition> with the name of the boot partition (ie. /dev/sda1).

Set the filesystem to xfs on the root partition.

mkfs.xfs <root partition>

Replace <root partition> with the name of the root partition (ie. /dev/sda3).

Now initialize the swap parititon.

mkswap <swap partition>

Replace <swap partition> with the name of the root partition (ie. /dev/sda2).

Legacy BIOS

Set the filesystem to xfs on the root partition.

mkfs.xfs <root partition>

Replace <root partition> with the name of the root partition (ie. /dev/sda2).

Now initialize the swap parititon.

mkswap <swap partition>

Replace <swap partition> with the name of the root partition (ie. /dev/sda1).

Setting the keybord layout

sed -i 's/us/dvorak/g' /etc/rc.conf

The keymaps are listed in /usr/share/kbd/keymaps. If you are using a different keymap, then replace dvorak with that keymap. The keymap will be changed back to Gradma's keymap later.

Mounting filesystems

Mount the filesystem.

mount <root partition> /mnt

Replace <root partition> with the root partition (ie. /dev/sda3).

If you are using UEFI, mount the boot partition.

mkdir -p /mnt/boot/efi/
mount <boot partiton> /mnt/boot/efi/

Replace <boot partition> with the boot partition (ie. /dev/sda1).

Now prepare for chroot.

mount -t proc none /mnt/proc
mount -t sysfs none /mnt/sys
mount --rbind /dev /mnt/dev
mount --rbind /run /mnt/run

Copy over network files.

cp /etc/resolv.conf /etc/hosts /mnt/

Now chroot.

chroot /mnt /bin/bash

GUI

Running the installer

Running the installer is simple.

void-installer

image of void-installer

Now select Keyboard.
image of "select Keyboard"

Now select the keyboard layout that you use (not the one that Grandma uses). There will be a lot of typing afterword. I will show you how to change the keyboard layout back afterword.
image of the layout you use

Now select Network.
image of "select Network"

Select your device, then enter the SSID, and passphrase if required.
image of your device

I would say "yes" to this.
image of DHCP

Now select Source.
image of "select Source"

Select either option. I'd pick Local if you couldn't get network working, or it is a slow connection.
image of selecting a source

Select Mirror.
image of "select Mirror"

Teir 1 mirrors are maintained by the Void Linux. Teir 2 mirrors are not managed by Void. Favor teir 1.
image of favoring tier 1

Select your region.
image of your region

Select the closest mirror. Favor tier 1. If Grandma lives near Chicago, then this would be a great mirror to use.
image of great mirror

Select Hostname.
image of "select Hostname"

Type in the name of Grandma's computer.
image of name of grandma's cumputer

Now select Locale.
image of "select Locale"

Select your locale.
image of your locale

Now select Timezone.
image of "select Timezone"

Select your country.
image of your country

Now select your timezone.
image of your country

Now select RootPassword.
image of "select Timezone"

Create a strong passphrase. Make sure that you write it down, put it in a password manager, or don't forget it. If you can't type this password, then you have to chroot into the system to fix it.
image of strong passphrase

Now enter the root password again.
image of root password again

Now select UserAccount.
image of "select UserAccount"

Type in the first name of Grandma in lowercase letters.
image of first-name

Next, type the first and last name of Grandma with capitol letters (where needed) and spaces.
image of display name

Enter the password that Grandma will be using to sign in. This should be short and easy to remember (like a 4-number PIN).
image of short password

Now enter the password again.
image of user password again

The default groups are good, for now.
image of groups

Now select BootLoader.
image of "select BootLoader"

You have two options. You can select the disk that you would like to install the operating system to if you want to install GRUB as the bootloader, or you can select none, and install a different bootloader. In this guide, I will give instructions on how to install a different bootloader. I recommend you choose to install a different bootloader. The guide covers how to install EFIstub for UEFI systems, and LILO on BIOS systems.
image of choosing a bootloader

It will ask you if you want to use a graphical terminal for the grub bootloader. This means it will display the void logo in the bootloader. It's a pretty nice feature. Disabling it might give you a slightly faster boot time. If you are not installing grub, then so "No."
image of graphical terminal

Now select Partition.
image of "select Partition"

Now select the disk that you want to partition. This is the disk that you are going to install to.
image of the disk to partition

Now select fdisk. This guide provides instructions on how to use fdisk. If you are familiar with partitioning, then you can use cfdisk.
image of the "select fdisk"

Partitioning the Disks

Here is additional information on partitioning: https://wiki.gentoo.org/wiki/Handbook:AMD64/Installation/Disks

From the rest of this section, follow the instructions for firmware type UEFI or Legacy BIOS.

UEFI

You should now be greeted with some information, and a prompt that looks like this: Command (m for help): .

Type p, and press Enter. This will print out the information about the disk that you are writing to:

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 21AAD8CF-DB67-0F43-9374-416C7A4E31EA

<!--T:194-->
Device        Start      End    Sectors  Size Type
/dev/sda1      2048   2099199   2097152     1G EFI System
/dev/sda2   2099200  10487807   8388608     4G Linux swap
/dev/sda3  10487808  60549119  50061311  23.9G Linux filesystem

Example outputs may be copied from the Gentoo wiki.

Run this periodically throughout the partitioning process, especially before writing changes.

If the GPT disklabel already exists (as seen in the example output of p), repeatedly run d to delete the existing partitions.

If the disklabel does not exist, run g to create the GPT disklabel. For Legacy BIOS you would create the MBR disklabel.

Created a new GPT disklabel (GUID: 87EA4497-2722-DF43-A954-368E46AE5C5F).

Create the ESP partition which stands for EFI System Partition. This is where the boot loader and other UEFI firmware is loaded during the bootstrapping process. The partition should be small (200 MiB - 1 GiB). I recommend 512 MiB, to be safe. Press n, Enter, Enter, Enter, +512M, Enter to create a new partition.

Command (m for help): n
Partition number (1-128, default 1): 1
First sector (2048-60549086, default 2048): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (2048-60549086, default 60549086): +512M
 
Created a new partition 1 of type 'Linux filesystem' and of size 512 MiB.

Now would be a good time to run p, and print the changes. Keep in mind that the disk wont be touched until the changes are writen.

I have done testing and you do not have to set the partition type. It is not the end of the world if you do.

Next, create a SWAP partition. I recommend making it 4 GiB. Here is a chart explaining the amount of SWAP that should be added based on the amount of RAM that the system has. If you don't know how much RAM the system has, just guess. If the system is slow, you should probably do 8 GiB of SWAP.

Command (m for help): n
Partition number (2-128, default 2): 
First sector (526336-60549086, default 526336): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (526336-60549086, default 60549086): +4G
 
Created a new partition 2 of type 'Linux filesystem' and of size 4 GiB.

Finally, make a root partition. This will take up the rest of the disk.

Command (m for help): n
Partition number (3-128, default 3): 3
First sector (10487808-60549086, default 10487808):
Last sector, +/-sectors or +/-size{K,M,G,T,P} (10487808-60549086, default 60549086):

Created a new partition 3 of type 'Linux filesystem' and of size 23.9 GiB.

Print the changes. It should look something like this (the sizes will not be exactly the same):

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 87EA4497-2722-DF43-A954-368E46AE5C5F
 
Device       Start      End  Sectors  Size Type
/dev/sda1     2048   526335   524288    1G Linux 
/dev/sda2   526336  8914943  8388608    4G Linux
/dev/sda3  8914944 60549086 51634143 24.6G Linux

When you are ready, write the changes.

Command (m for help): w

Once again, I recommend refering to the linked Gentoo Wiki page, if you want to well understand the partitioning process. If you followed this section, skip the Legacy BIOS section.

Legacy BIOS

You should now be greeted with some information, and a prompt that looks like this: Command (m for help): .

Type p, and press Enter. This will print out the information about the disk that you are writing to:

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: gpt
Disk identifier: 21AAD8CF-DB67-0F43-9374-416C7A4E31EA
 
Device        Start      End  Sectors  Size Type
/dev/sda1      2048   526335   524288    1G EFI System
/dev/sda2    526336  2623487  2097152    1G Linux 
/dev/sda3   2623488 19400703 16777216    8G Linux
/dev/sda4  19400704 60549086 41148383 19.6G Linux

Example outputs may be copied from the Gentoo wiki.

Run this periodically throughout the partitioning process, especially before writing changes.

If the MBR disklabel already exists (look at the Disklabel type: section of your last output), repeatedly run d to delete the existing partitions.

If it is not MBR, or does not yet exist, enter o to create the MBR (also known as DOS) disklabel. UEFI generally uses GPT.

Command (m for help): o
Created a new DOS disklabel with disk identifier 0xe04e67c4.
The device contains 'gpt' signature and it will be removed by a write command. See fdisk(8) man page and --wipe option for more details.

We do not need to create a boot partition on BIOS MBR.

First, create a SWAP partition. I recommend making it 4 GiB. Here is a chart explaining the amount of SWAP that should be added based on the amount of RAM that the system has. If you don't know how much RAM the system has, just guess. If the system is slow, you should probably do 8 GiB of SWAP.

Press n, Enter, Enter, +4G:

Command (m for help): n
Partition type
   p   primary (1 primary, 0 extended, 3 free)
   e   extended (container for logical partitions)
Select (default p): p
Partition number (1-4, default 1): 1
First sector (2048-60549119, default 0): 
Last sector, +/-sectors or +/-size{K,M,G,T,P} (2048-60549119, default 60549119): +4G
 
Created a new partition 1 of type 'Linux' and of size 4 GiB.

Next, make a root partition. This will take up the rest of the disk.

Command (m for help): n
Partition type
   p   primary (1 primary, 0 extended, 3 free)
   e   extended (container for logical partitions)
Select (default p): p
Partition number (2-4, default 2): 2
First sector (8390656-60549086, default 8390656):
Last sector, +/-sectors or +/-size{K,M,G,T,P} (8390656-60549086, default 60549086):

Created a new partition 2 of type 'Linux' and of size 23.9 GiB.

Print the changes. It should look something like this (the sizes will not be exactly the same):

Command (m for help): p
Disk /dev/sda: 28.89 GiB, 31001149440 bytes, 60549120 sectors
Disk model: DataTraveler 2.0
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: dos
Disk identifier: 0xe04e67c4
 
Device     Boot   Start      End  Sectors  Size Id Type
/dev/sda2          2048  8390654  8388606    4G 82 Linux
/dev/sda3       8390655 60549119 52158464 25.6G 83 Linux 

When you are ready, write the changes.

Command (m for help): w

Once again, I recommend refering to the linked Gentoo Wiki page, if you want to well understand the partitioning process. If you followed this section, skip the Legacy BIOS section.

Back to the GUI

Next step is to create the file systems.

Now select FileSystems.
image of "select FileSystems"

Now create the filesystems. Follow the directions dedicated to your firmware (UEFI/LegacyBIOS).

UEFI

For UEFI, the first partition, should be vfat, the second partition should be SWAP, and the third partition should be some sort of Linux file system.

Select the first partition.
image of the first partition

Select vfat.
image of vfat

Type /boot/efi as the mountpoint.
image of /boot/efi

Say "yes."
image of new filesystem

Now select the second partition.
image of the second partition

Now select swap.
image of swap

Now select the third partition.
image of the third partition

Now select any Linux filesystem. This could be Ext4, BTRFS, or XFS. It doesn't really matter which one you pick.
image of Linux filesystem

Type / as the mountpoint.
image of /

Legacy BIOS

Select the second partition.
image of second partition

Now select swap.
image of swap

Say "yes."
image of new filesystem

Now select the second partition.
image of the second partition

Now select any Linux filesystem. This could be Ext4, BTRFS, or XFS. It doesn't really matter which one you pick.
image of Linux filesystem

Type / as the mountpoint.
image of /

UEFI and BIOS

Select Install.
image of "select Install"

While the process is running check tty8 to see a verbose output (Ctrl + Alt + 8). To return to the GUI, press (Ctrl + Alt + 1) to go back to tty1.

Do not reboot, unless you chose the grub bootloader. If you chose the grub bootloader, reboot, and skip the next section.
image of reboot

Installing a Different Bootloader

If you are installing a different bootloader, say "no" to the reboot prompt.
image of don't reboot

Now select Exit.
image of Exit

Mount the filesystem.

mount <root partition> /mnt

Replace <root partition> with the root partition (ie. /dev/sda3).

If you are using UEFI, mount the boot partition.

mkdir -p /mnt/boot/efi/
mount <boot partiton> /mnt/boot/efi/

Replace <boot partition> with the boot partition (ie. /dev/sda1).

Now prepare for chroot.

mount -t proc none /mnt/proc
mount -t sysfs none /mnt/sys
mount --rbind /dev /mnt/dev
mount --rbind /run /mnt/run

Copy over network files.

cp /etc/resolv.conf /etc/hosts /mnt/

Now chroot.

chroot /mnt /bin/bash

Update the package manager.

xbps-install -u xbps

UEFI

Install a terminal text editor of choice

xbps-install -S vis

Replace vis with the terminal text of your choice.

Edit /etc/default/efiboomgr-kernel-hook

vis /etc/default/efiboomgr-kernel-hook

Replace vis with the text editor that was installed

DIFY_EFI_ENTRIES="1"
DISK="<disk name>"
PART="<boot partition number>"

Replace <disk name> with the name of the disk that the system was installed on (ie. /dev/sda). Replace <boot partition number> with the number of the boot partion (probably 1). Reconfigure the kernel.

xbps-reconfigure linux$(uname -r | awk -F. 'OFS="." {print $1,$2}')

Now reboot.

reboot

Legacy BIOS

Now install Git and LILO.

xbps-install -S git lilo

Enter the home directory of the regular user.

cd /home/<user>/

Replace <user> weth the name of the user.

Now create the .Git directory. This is where Git repos will be stored. Make sure you get the capitolization correct, or programs might mistake the home folder as a git repo.

mkdir .Git

Now enter that directory

cd .Git

Now clone the Git repo containing the configs that will be used throughout the guide.

git clone https://git.disroot.org/oink/Grandma.git

Copy the LILO config to /etc/

cp Grandma/Config/lilo/lilo.conf /etc/   

Install a terminal text editor of choice

xbps-install -S vis

List the contents of the /boot directory.

ls /boot

The file you are looking for should look something like vmlinuz-6.3.12_1. Remember that filename.

Now edit the lilo.conf

vis /etc/lilo.conf 

Change the the disk to the one that Void was installed on.

# Defines the boot device.  This is where Lilo installs its boot
# block.  It can be either a partition, or the raw device, in which
# case it installs in the MBR, and will overwrite the current MBR.
# With newer kernel you should use the ID of the boot device, which
# can be found here: /dev/disks/by-id/ata*.
boot = /dev/sda

Change the partition to the root partition.

# Defines the partition which is the root partition. This partition
# will be mounted at first from the kernel. With newer kernel you
# should use the UUID (UUID="...") of the root device, which can be
# found here: /dev/disks/by-uuid/*.
root = /dev/sda2

If you are testing in a VM, uncomment the last two lines of this snippet of the file.

# Defines non-standard parameters for the specified disk.
# Uncomment if using a virtual machine.
#disk = /dev/vda
#	max-partitions=7

Change the partition to the root partition. Change the image to the file that you found in the ls output (ie. /boot/vmlinuz-6.3.12_1).

# Void Linux
image = /boot/vmlinuz-6.3.12_1
        label = "Void Linux"
        root = /dev/sda2
        read-only
        append = "quiet"
Reconfigure the kernel.

Now enable LILO.

lilo

Setting Up a GUI

Logging in

Login as root with the root password.

Installing the Package Manager

To install the package manager, run:

xbps-install -S xbps

The -S flag updates the repositories.

Installing a Terminal Text Editor

Install a terminal text editor of choice

xbps-install -S vis

Configuring/Installing sudo/opendoas

sudo is the default tool that runs commands as other users. doas (opendoas) is another option, that I prefer because it is more minimal.

sudo

sudo is already installed.

Edit the sudoers file:

EDITOR=vis visudo 

Replace vis with your prefered text editor.

Locate the line that says

# %wheel ALL=(ALL:ALL) ALL

Remove the # from the beginning of the line.

After this snippet:

## Uncomment to allow members of group sudo to execute any command
# %sudo ALL=(ALL:ALL) ALL 

Add this snippet:

## Uncomment to allow user _greeter to execute poweroff and reboot commands without a password
_greeter ALL=NOPASSWD: /usr/bin/poweroff, /usr/bin/reboot

Now remove /etc/sudoers.d/wheel:

rm /etc/sudoers.d/wheel

doas

Installing a Window Manager

To install LabWC, run:

xbps-install -S dbus libudev pam_rundir seatd xorg-server-xwayland xorg-fonts labwc

Now edit /etc/pam.d/system-login:

vis /etc/pam.d/system-login

Add -session optional pam_rundir.so to the end of the file.

Enable the seatd service

ln -s /etc/sv/seatd /var/service/

Check that the service is running

sv status seatd

If it is not running, start it

sv start seatd

Enable the dbus service

ln -s /etc/sv/dbus /var/service/

Add the user to the _seatd group

usermod -aG _seatd <username>

Remember to replace <username> with the regular user's username.

Installing a Terminal

To install Foot, run:

xbps-install -S foot

Testing the GUI

Log out of root with Ctrl + d, and log back in with the username for the regular user.

To start LabWC, run:

labwc -s foot

Setting Up the Display Manager

Logout of the regular user, and log back in as root.

Install greetd and tuigreet:

xbps-install -S greetd tuigreet

Now enable the service

ln -s /etc/sv/greetd /var/service/

Configure greetd to use tuigreet, and start labwc

vis /etc/greetd/config.toml 

The login manager, and desktop will be started in tty7. to change tty(s), press Ctrl + Alt + n, where n is the number of the tty.

The login manager will start LabWC with dbus-run-session labwc.

If you mess it up that command, and the display manager cannot start a GUI, then remember the tty keybind to change to a tty CLI.

Here is what the file should look like after changing it:

[terminal]
# The VT to run the greeter on. Can be "next", "current", or a number
# designating the VT
vt = 7

# The default session, also known as the greeter.
[defaut_session]

# `agetty` is the bundled agetty/login-lookalike. You can replace `/bin/sh`
# with whatever you want such as `sway`.
command = "tuigreet --power-shutdown 'sudo poweroff' --power-reboot 'sudo reboot'"

# The user to run the command as. The privlages this user must have depends
# on the greeter. A graphical greeter may for example require the user to be
# in the `video` group.
user = "_greeter" 

The only line you should have had to change was this one:

command = "tuigreet --power-shutdown 'sudo shutdown now' --power-reboot 'sudo reboot'"

Ignore the lines starting with #. Those are comments.

Reboot the system to test it out.

reboot

Log in as your regular user at the prompt.

Setting Up the Filesystem

Right click on the screen and click Exit. Then press Ctrl + Alt + F1 to go to tty1.

Log in as your regular user at the prompt.

Install git.

sudo xbps-install git

Create directories.

mkdir -p .local/share/themes .config/labwc .Git/catppccin Desktop Backup Documents/PDF Documents/Emails Downloads Misc Music Pictures/Screenshots Videos/Movies 

Enter the .Git directory. Remain in this directory from now on.

cd .Git

Clone the repo with the configuration files used in this guide.

git clone https://git.disroot.org/oink/Grandma

Configuring LabWC

Copy the LabWC configuration files into the configuration directory.

cp Grandma/labwc/* ~/.config/labwc/

Now clone the Openbox themes Git repo.

git clone https://github.com/catppuccin/openbox catppuccin/openbox

Copy the themes to the themes directory:

cp -r catppuccin/openbox/Catppuccin-Macchiato/ ~/.local/share/themes/

Change the keyboard layout.

vis ~/.config/labwc/environment

Replace these line

# XKB_DEFAULT_LAYOUT=se

With this

XKB_DEFAULT_LAYOUT=<layout>
XKB_DEFAULT_VARIANT=<variant>

Replace <layout> with the keyboard layout (ie. us), and <variant>, with the variant (ie. dvorak).

Configuring Foot

Copy the config directory into ~/.config.

cp Grandma/Config/foot/ ~/.config/

Credit Catppuccin

Changing the Themes

Install the icon theme.

sudo xbps-install papirus-icon-theme

Copy the gtk-3.0 config directory into ~/.config.

cp Grandma/Config/gtk-3.0/ ~/.config/

ZSH

Install ZSH.

sudo xbps-install -S zsh

Create a directory for plugins.

mkdir -p ~/.config/zsh/Plugins

Install Starship

sudo xbps-install starship

Clone the Git repo containing the starship config.

git clone https://github.com/catppuccin/starship catppuccin/starship

Copy the starship config into ~/.config.

cp catppuccin/starship/starship.toml ~/.config

Now change to the Plugins directory.

cd ~/.config/zsh/Plugins

Clone the plugins.

git clone https://github.com/z-shell/F-Sy-H
git clone https://github.com/zsh-users/zsh-autosuggestions
git clone https://github.com/zsh-users/zsh-history-substring-search

Make ZSH the default shell

chsh -s /usr/bin/zsh

Audio

Install Pipewire.

sudo xbps-install -S pipewire
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