# Installation This is a full Arch Linux installation guide, from live cd to a working OS. This installation includes steps for full disk encryption, and sets up the system with some basic tools and my zsh configuration. ## Partition, format and mount the disks This will depend on your setup, following are the commands I used for my specific setup as a reference, however you'll very like want a different disk structure, and you probably won't even have the drives in the same configuration as I do. Create partitions for the drives ```bash fdisk /dev/nvme0n1 # Create new GPT table and make 5 partitions # first for boot (1G), second for swap (16G), # third for root (256G), fifth for data (rest ~680G) ``` Format partitions that shouldn't be encrypted ```bash mkfs.fat -F 32 /dev/nvme0n1p1 fatlabel /dev/nvme0n1p1 EFI mkswap -L SWAP /dev/nvme0n1p2 ``` Format drives using LUKS for encryption and open them to mapper devices ```bash cryptsetup luksFormat --type luks2 --label LINUXROOT /dev/nvme0n1p3 cryptsetup luksFormat --type luks2 --label DATA /dev/nvme0n1p4 cryptsetup luksOpen /dev/disk/by-label/LINUXROOT cryptroot cryptsetup luksOpen /dev/disk/by-label/DATA cryptdata ``` Create BTRFS filesystem on the encrypted drives ```bash mkfs.btrfs -f -L CRYPTROOT /dev/mapper/cryptroot mkfs.btrfs -f -L DATA /dev/mapper/cryptdata ``` Mount the drives ```bash mount /dev/mapper/cryptroot /mnt mount /dev/disk/by-label/BOOT /mnt/efi --mkdir mkdir /mnt/efi/arch-1 mount --bind /mnt/efi/arch-1 /mnt/boot --mkdir mount /dev/mapper/cryptdata /mnt/mnt/data --mkdir swapon /dev/disk/by-label/SWAP ``` Create BTRFS subvolumes ```bash btrfs subvolume create /mnt/home btrfs subvolume create /mnt/var btrfs subvolume create /mnt/var/log btrfs subvolume create /mnt/var/cache btrfs subvolume create /mnt/var/tmp ``` ## Base installation ```bash reflector --save /etc/pacman.d/mirrorlist --latest 10 --protocol https --sort rate pacstrap -K /mnt base linux linux-firmware linux-headers amd-ucode # or intel-ucode genfstab -U /mnt >> /mnt/etc/fstab arch-chroot /mnt ``` Configure essentials ```bash pacman -S git btrfs-progs ln -sf /usr/share/zoneinfo/CET /etc/localtime hwclock --systohc sed -i 's/^#en_US.UTF-8/en_US.UTF-8/g' /etc/locale.gen echo "LANG=en_US.UTF-8" > /etc/locale.conf locale-gen echo "pc" > /etc/hostname passwd ``` ## Basic configuration Clone my dotfiles and run the install script ```bash git clone --recursive https://github.com/ItsDrike/dotfiles ~/dots cd ~/dots ./install_root.sh ``` Exit and reenter chroot, this time into zsh shell ```bash exit arch-chroot /mnt zsh ``` Create non-privileged user ```bash useradd itsdrike usermod -aG wheel itsdrike install -o itsdrike -g itsdrike -d /home/itsdrike passwd itsdrike chsh -s /usr/bin/zsh itsdrike su -l itsdrike # press q or esc in the default zsh options ``` Setup user account ```bash git clone --recursive https://github.com/dotfiles ~/dots cd ~/dots ./install_user.sh ``` Exit (logout) the user and relogin, this time into configured zsh shell ```bash exit su -l itsdrike ``` Install astronvim ```bash sudo pacman -S --needed luarocks rustup cargo cmake meson npm rustup default stable mkdir -p ~/.config/wakatime git clone https://github.com/AstroNvim/AstroNvim ~/.config/nvim git clone https://github.com/ItsDrike/AstroNvimUser ~/.config/nvim/lua/user ``` ## Auto-mounting encrypted partitions We've create a bunch of LUKS encrypted partitions to store our date into, however it would be very inconvenient to have to mount them ourselves on each boot. Instead, we'll probably want to set up a way to mount them automatically. ### Key files LUKS encryption has support for multiple keys to the same parition. We'll utilize this support and add 2nd key slot to all of the partitions that we wish to auto-mount. For this 2nd key slot, we will use a key file, as opposed to the regular user-entered text, so that we can store this key in the file system directly. We will later be using this stored key to auto-mount. The key file will contain random data that will be used as the key. Note that it is very important to have these key files themselves stored on an encrypted partition, in this case, we're storing them in /etc/secrets, and our root is encrypted. If you don't have encrypted root partition, it is unsafe to keep those files in there! Note that you don't actually need the key files, and if you wish, you can also be prompted to enter a password on each boot instead (for every partition). You should prefer this approach if your root partition isn't encrypted, although know that this can get pretty annoying with more than one encrypted device. If you wish to do this, you can skip this section. In this example, we'll be creating a different key for every encrypted partition, but you could also share the same key file for all of them if you wish. This is however more secure. ```bash mkdir -p /etc/secrets dd if=/dev/random bs=4096 count=1 of=/etc/secrets/keyFile-data.bin dd if=/dev/random bs=4096 count=1 of=/etc/secrets/keyFile-data2.bin dd if=/dev/random bs=4096 count=1 of=/etc/secrets/keyFile-backups.bin dd if=/dev/random bs=4096 count=1 of=/etc/secrets/keyFile-arch-hyprland.bin dd if=/dev/random bs=4096 count=1 of=/etc/secrets/keyFile-arch-kde.bin chmod -R 004 /etc/secrets chmod 007 /etc/secrets ``` The bs argument signifies a block size (in bits), so this will create 4096-bit keys. Now we can add these keys into our LUKS encrypted partitions: ```bash cryptsetup luksAddKey /dev/disk/by-label/DATA --new-keyfile /etc/secrets/keyFile-data.bin cryptsetup luksAddKey /dev/disk/by-label/DATA2 --new-keyfile /etc/secrets/keyFile-data2.bin cryptsetup luksAddKey /dev/disk/by-label/BACKUPS --new-keyfile /etc/secrets/keyFile-backups.bin cryptsetup luksAddKey /dev/disk/by-label/ARCH_ROOT1 --new-keyfile /etc/secrets/keyFile-arch-hyprland.bin cryptsetup luksAddKey /dev/disk/by-label/ARCH_ROOT2 --new-keyfile /etc/secrets/keyFile-arch-kde.bin ``` ### /etc/crypttab Now that we have the key files ready, we can utilize /etc/crypttab, which is a file that systemd reads during boot (similarly to /etc/fstab), and contains instructions for auto-mounting devices. This is the `/etc/crypttab` file that I use: ```txt # Configuration for encrypted block devices. # See crypttab(5) for details. # NOTE: Do not list your root (/) partition here, it must be set up # beforehand by the initramfs (/etc/mkinitcpio.conf). # cryptdata LABEL=DATA /etc/secrets/keyFile-data.bin discard cryptdata2 LABEL=DATA2 /etc/secrets/keyFile-data2.bin discard cryptbackups LABEL=BACKUPS /etc/secrets/keyFile-backups.bin discard cryptarch2 LABEL=ARCH_ROOT2 /etc/secrets/keyFile-arch-kde.bin discard ``` If you want to be prompted for the password during boot instead of it being read from a file, you can use `none` instead of the file path. The `discard` option is specified to enable TRIM on SSDs, which should improve their lifespan. It is not necessary if you're using an HDD. ### /etc/fstab While the crypttab file opens the encrypted block devices and creates the mapper interfaces for them, to mount those to a concrete directory, we still use /etc/fstab. Below is the /etc/fstab that I use on my system: ```txt # Static information about the filesystems. # See fstab(5) for details. # # region: LUKS encrypted devices (opened from /etc/crypttab, or mounted from initramfs) /dev/mapper/cryptroot / ext4 rw,relatime,nofail,discard 0 1 /dev/mapper/cryptdata /mnt/data ext4 rw,relatime,nofail,discard 0 2 /dev/mapper/cryptdata2 /mnt/data2 ext4 rw,relatime,nofail,discard 0 2 /dev/mapper/cryptarch2 /mnt/arch-kde ext4 rw,relatime,nofail,discard 0 2 # endregion # region: Physical devices LABEL=BOOT /efi vfat rw,relatime,fmask=0022,dmask=0022,codepage=437,iocharset=ascii,shortname=mixed,utf8,errors=remount-ro 0 2 LABEL=SWAP none swap defaults 0 0 # endregion # region: Bind mounts # Write kernel images to /efi/arch-hyprland, not directly to the efi system partition (esp), to avoid conflicts when dual booting /efi/arch-hyprland /boot none rw,bind 0 0 # Bind mounts for arch-kde /efi /mnt/arch-kde/efi none rw,bind 0 0 /efi/arch-kde /mnt/arch-kde/boot none rw,bind 0 0 /mnt/data /mnt/arch-kde/mnt/data none rw,bind 0 0 /mnt/data2 /mnt/arch-kde/mnt/data2 none rw,bind 0 0 /mnt/backups /mnt/arch-kde/mnt/backups none rw,bind 0 0 / /mnt/arch-kde/mnt/arch-hyprland none rw,bind 0 0 ``` ## Bootloader This guide uses systemd-boot (if you want to use GRUB, just follow the arch wiki). ### Ask for LUKS password from initramfs Ask for encryption password of the root partition in early userspace (only relevant if you're using LUKS encryption), you'll also need to set cryptdevice kernel parameter, specifying the device that should be unlocked here, and the device mapping name. (shown later) ```bash # Find the line with HOOKS=(...) # Add `keyboard keymap` after `autodetect` (if these hooks are already there, # just keep them, but make sure they're after `autodetect`). # Lastly add `encrypt` before `filesystems`. sudo nvim /etc/mkinitcpio.conf ``` This will configure `mkinitcpio` to build support for the keyboard input, and support for decrypting LUKS devices from within the initial ramdisk environment. If you wish, you can also follow the instructions below to auto-enable numlock: ```bash yay -S mkinitcpio-numlock # Go to HOOKS and add `numlock` after `keyboard` in: sudo nvim /etc/mkinitcpio.conf ``` Now regenerate the initial ramdisk environment image: ```bash sudo mkinitcpio -P ``` ### Configure systemd-boot Install systemd-boot to the EFI system partition (ESP) ```bash sudo bootctl --esp-path=/efi install ``` Add boot menu entries (Note that we're using LABEL= for cryptdevice, for which `udev` must be before the `encrypt` hook in mkinitcpio `HOOKS`. This should however be the case by default. If you wish, you can also use UUID= or just /dev/XYZ here) Create a new file - `/efi/loader/entries/arch-hyprland.conf`, with: ```bash title Arch Linux (Hyprland) sort-key 0 linux /arch-hyprland/vmlinuz-linux initrd /arch-hyprland/amd-ucode.img initrd /arch-hyprland/initramfs-linux.img options cryptdevice=LABEL=ARCH_ROOT1:cryptroot:allow-discards options root=/dev/mapper/cryptroot options rw loglevel=3 ``` And finally configure loader - `/efi/loader/loader.conf` (overwrite the contents): ```bash default arch-hyprland.conf timeout 4 console-mode auto editor yes auto-firmware yes beep no ``` ## Post-setup Enable Network Time Protocol (time synchronization) ```bash sudo timedatectl set-ntp true timedatectl status ``` Connect to a wifi network ```bash nmtui ``` ## Footnotes Note that this setup is based on my personal system, in which I dual boot multiple (2) arch instances, one running hyprland, the other running KDE (I mainly use the hyprland instance, the KDE one is purely there because it's X11 and supports my NVidia card, which Hyprland currenly doesn't). The config here only really mentions how to get the first (hyprland) installation ready, however if you wanted to set up both, it's essentially just doing the same thing again, with some minor changes like in the systemd-boot entry and some fstab/crypttab entries. I do plan on writing a continuation guide for how to set up the system for GUI (Hyprland) too eventually. Once it's done, I will mention it here.