Since 2022 I am using the archinstall script
that comes with arch iso
After the install I use my ansible playbooks to setup the arch the way I like it
Linux that will run docker.
This is not a hand holding explaining guide how to install arch.
It's more of a checklist on what to do if you already done it
and know what you are doing.
/home/
└── bastard/
└── docker/
├── container-setup #1
├── container-setup #2
├── ...
sudo dd bs=4M if=archlinux-2020.05.01-x86_64.iso of=/dev/sdX status=progress oflag=direct
The above command will fuck your machine up if you dunno what you are doing.
This is BIOS/MBR setup as I am running on an old thinkpad with a busted screen,
plus I like the simplicity of it.
So if theres boot menu option choose non-uefi.
- create a single partition and mark it bootable
cfdisk -z /dev/sda
- build ext4 filesystem on it
mkfs.ext4 /dev/sda1
- mount the new partition
mount /dev/sda1 /mnt
- install the base system
pacstrap /mnt base linux linux-firmware base-devel grub micro
- generate fstab
genfstab -U /mnt > /mnt/etc/fstab
- chroot in to the new system
arch-chroot /mnt
- install grub
grub-install /dev/sda
grub-mkconfig -o /boot/grub/grub.cfg
- set password for root
passwd
- remove the bootable media and restart the machine
exit
reboot
-
login as
root
-
set hostname
echo docker-host > /etc/hostname
-
add new user and set their password
useradd -m -G wheel bastard
passwd bastard
-
edit sudoers to allow users of the group wheel to sudo
EDITOR=micro visudo
%wheel ALL=(ALL) ALL -
check the network interface name
ip link
-
setup networking using systemd-networkd and systemd-resolved
create20-wired.network
file either in static or dhcp configurationmicro /etc/systemd/network/20-wired.network
[Match] Name=enp0s25 [Network] Address=10.0.19.2/24 Gateway=10.0.19.1 #DNS=8.8.8.8
[Match] Name=enp0s25 [Network] DHCP=yes
for DNS resolution and hostname exposure using mDNS and LLMNR
systemd-resolved
will be used in stub mode
by replacing/etc/resolv.conf
with a link tostub-resolv.conf
ln -sf /run/systemd/resolve/stub-resolv.conf /etc/resolv.conf
enable the services
systemctl enable --now systemd-resolved
systemctl enable --now systemd-networkd
-
uncomment desired locales in locale.gen
micro /etc/locale.gen
-
generate new locales and set one system wide
locale-gen
localectl set-locale LANG=en_US.UTF-8
-
select timezone and set it permanent
tzselect
timedatectl set-timezone 'Europe/Bratislava'
-
set hardware clock and sync using ntp
hwclock --systohc --utc
timedatectl set-ntp true
-
setup a swap file
dd if=/dev/zero of=/swapfile bs=1M count=8192 status=progress
chmod 600 /swapfile
mkswap /swapfile
micro /etc/fstab
/swapfile none swap defaults 0 0 -
reboot
reboot
From now on its login as non-root user.
- install openssh package
sudo pacman -S openssh
- edit sshd_config
sudo micro /etc/ssh/sshd_config
PasswordAuthentication yes - enable sshd service
sudo systemctl enable --now sshd
- have
docker
anddocker-compose
packages installed
sudo pacman -S docker docker-compose
- enable docker service
sudo systemctl enable --now docker
- add non-root user to the docker group
sudo gpasswd -a bastard docker
I like Zim, it's the fastest zsh framework and set up nicely out of the box
- install zsh and curl packages
sudo pacman -S zsh git curl
- install zim
curl -fsSL https://raw.githubusercontent.com/zimfw/install/master/install.zsh | zsh
- change the default shell to zsh
chsh -s /bin/zsh
- I prefer steeef theme
echo 'zmodule steeef' >> ~/.zimrc && zimfw install
micro .zshrc
-
export EDITOR=micro
export VISUAL=micro
-
for ctrl+f prepending sudo
add_sudo (){ BUFFER="sudo $BUFFER" zle -w end-of-line } zle -N add_sudo bindkey "^f" add_sudo
Here. For zim it's "Without oh-my-zsh shell" section.
Using Yay.
- install git package
sudo pacman -S git
- install yay
git clone https://aur.archlinux.org/yay-bin.git
cd yay-bin && makepkg -si
cd .. && rm -rf yay-bin
ctop-bin
and inxi
are good AUR packages.
wiki - general general recommendations
wiki - improving performance
CPU microcode
sudo pacman -S intel-ucode
sudo grub-mkconfig -o /boot/grub/grub.cfg
Tools
sudo pacman -S fuse curl wget micro nnn bind-tools borg python-llfuse
Monitoring and testing
sudo pacman -S htop lm_sensors iotop nload powertop iproute2
-
install cron and enable the service
sudo pacman -S cronie
sudo systemctl enable --now cronie
-
if ssd, enable periodic trim
sudo pacman -S util-linux
sudo systemctl enable --now fstrim.timer
-
set noatime in fstab to prevent unnecessary tracking of read times
sudo micro /etc/fstab
UUID=cdd..addb / ext4 rw,noatime 0 1 -
enable use of all cpu cores for makepkg jobs and disable compression
sudo micro /etc/makepkg.conf
MAKEFLAGS="-j$(nproc)"
PKGEXT='.pkg.tar' -
clean up old packages weekly, keep last 3
sudo pacman -S pacman-contrib
sudo systemctl enable --now paccache.timer
-
use reflector to get the fastest mirrors based on country
-c <country code>
sudo pacman -S reflector
sudo reflector -c SK,CZ,UA -p http --score 20 --sort rate --save /etc/pacman.d/mirrorlist
automatic mirror update with reflector
/etc/xdg/reflector/reflector.conf
--save /etc/pacman.d/mirrorlist --protocol http --country SK,CZ,UA --score 20 --sort rate
enable it, it will run weekly
sudo systemctl enable --now reflector.timer
- enable colors in pacman.conf
sudo micro /etc/pacman.conf
Color
Lid closed should not make the machine go to sleep.
- Set lid handle switch to ignore in systemd logind.conf
sudo micro /etc/systemd/logind.conf
HandleLidSwitch=ignore
But this alone leaves the screen running nonstop.
Tried to find solution, and while sudo vbetool dpms off
works,
turning it back on does not sudo vbetool dpms on
and it timesout without
any message or error.
Might be specific for the hardware, currently its latitude E5570