This guide provides instructions for an Arch Linux installation featuring full-disk encryption via LVM on LUKS and an encrypted boot partition (GRUB) for UEFI systems.
Following the main installation are further instructions to harden against Evil Maid attacks via UEFI Secure Boot custom key enrollment and self-signed kernel and bootloader.
You will find most of this information pulled from the Arch Wiki and other resources linked thereof.
Note: The system was installed on an NVMe SSD, substitute /dev/nvme0nX
with /dev/sdX
or your device as needed.
Plug in your Ethernet and go, or for wireless consult the all-knowing Arch Wiki.
timedatectl set-ntp true
Number | Start (sector) | End (sector) | Size | Code | Name |
---|---|---|---|---|---|
1 | 2048 | 4095 | 1024.0 KiB | EF02 | BIOS boot partition |
2 | 4096 | 1130495 | 550.0 MiB | EF00 | EFI System |
3 | 1130496 | 976773134 | 465.2 GiB | 8309 | Linux LUKS |
gdisk /dev/nvme0n1
o
n
[Enter]
0
+1M
ef02
n
[Enter]
[Enter]
+550M
ef00
n
[Enter]
[Enter]
[Enter]
8309
w
Create the LUKS1 encrypted container on the Linux LUKS partition (GRUB does not support LUKS2 as of May 2019)
cryptsetup luksFormat --type luks1 --use-random -S 1 -s 512 -h sha512 -i 5000 /dev/nvme0n1p3
cryptsetup open /dev/nvme0n1p3 cryptlvm
pvcreate /dev/mapper/cryptlvm
vgcreate vg /dev/mapper/cryptlvm
lvcreate -L 8G vg -n swap
lvcreate -L 32G vg -n root
lvcreate -l 100%FREE vg -n home
The size of the swap and root partitions are a matter of personal preference.
mkfs.ext4 /dev/vg/root
mkfs.ext4 /dev/vg/home
mkswap /dev/vg/swap
mount /dev/vg/root /mnt
mkdir /mnt/home
mount /dev/vg/home /mnt/home
swapon /dev/vg/swap
mkfs.fat -F32 /dev/nvme0n1p2
mkdir /mnt/efi
mount /dev/nvme0n1p2 /mnt/efi
pacstrap /mnt base linux linux-firmware mkinitcpio lvm2 vi dhcpcd wpa_supplicant
genfstab -U /mnt >> /mnt/etc/fstab
/mnt/etc/fstab
# /dev/mapper/vg-root
UUID=xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx / ext4 rw,noatime 0 1
# /dev/mapper/vg-home
UUID=xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx / ext4 rw,noatime 0 1
Reduces writes to disk when reading from a file, but may cause issues with programs that rely on file access time
arch-chroot /mnt
lsblk
NAME | MAJ:MIN | RM | SIZE | RO | TYPE | MOUNTPOINT |
---|---|---|---|---|---|---|
nvme0n1 | 259:0 | 0 | 465.8G | 0 | disk | |
├─nvme0n1p1 | 259:4 | 0 | 1M | 0 | part | |
├─nvme0n1p2 | 259:5 | 0 | 550M | 0 | part | /efi |
├─nvme0n1p3 | 259:6 | 0 | 465.2G | 0 | part | |
..└─cryptlvm | 254:0 | 0 | 465.2G | 0 | crypt | |
....├─vg-swap | 254:1 | 0 | 8G | 0 | lvm | [SWAP] |
....├─vg-root | 254:2 | 0 | 32G | 0 | lvm | / |
....└─vg-home | 254:3 | 0 | 425.2G | 0 | lvm | /home |
Replace America/Los_Angeles
with your respective timezone found in /usr/share/zoneinfo
ln -sf /usr/share/zoneinfo/America/Los_Angeles /etc/localtime
Assumes hardware clock is set to UTC
hwclock --systohc
locale-gen
/etc/locale.conf
LANG=en_US.UTF-8
/etc/hostname
myhostname
This is a unique name for identifying your machine on a network.
/etc/hosts
127.0.0.1 localhost
::1 localhost
127.0.1.1 myhostname.localdomain myhostname
Note: ordering matters.
HOOKS=(base udev autodetect keyboard modconf block encrypt lvm2 filesystems fsck)
mkinitcpio -p linux
passwd
pacman -S grub
/etc/default/grub
GRUB_ENABLE_CRYPTODISK=y
blkid
/dev/nvme0n1p3: UUID="xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx" TYPE="crypto_LUKS" PARTLABEL="Linux LUKS" PARTUUID="xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx"
/etc/default/grub
GRUB_CMDLINE_LINUX="... cryptdevice=UUID=xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx:cryptlvm root=/dev/vg/root ..."
pacman -S efibootmgr
grub-install --target=x86_64-efi --efi-directory=/efi
pacman -S intel-ucode
Use intel-ucode for Intel CPUs and amd-ucode for AMD CPUs.
grub-mkconfig -o /boot/grub/grub.cfg
This is done to avoid having to enter the encryption passphrase twice (once for GRUB, once for initramfs.)
mkdir /root/secrets && chmod 700 /root/secrets
head -c 64 /dev/urandom > /root/secrets/crypto_keyfile.bin && chmod 600 /root/secrets/crypto_keyfile.bin
cryptsetup -v luksAddKey -i 1 /dev/nvme0n1p3 /root/secrets/crypto_keyfile.bin
/etc/mkinitcpio.conf
FILES=(/root/secrets/crypto_keyfile.bin)
mkinitcpio -p linux
/etc/default/grub
GRUB_CMDLINE_LINUX="... cryptkey=rootfs:/root/secrets/crypto_keyfile.bin"
grub-mkconfig -o /boot/grub/grub.cfg
chmod 700 /boot
The installation is now complete. Exit the chroot and reboot.
exit
reboot
Your system should now be fully installed, bootable, and fully encrypted.
If you embedded the keyfile in the initramfs image, it should only require your encryption passphrase once to unlock to the system.
For the standard Arch Linux post-installation steps, RTFM.
With an encrypted boot partition, nobody can see or modify your kernel image or initramfs, but you would be still vulnerable to Evil Maid attacks.
One possible solution is to use UEFI Secure Boot. Get rid of preloaded Secure Boot keys (you really don't want to trust Microsoft and OEM), enroll your own Secure Boot keys and sign the GRUB boot loader with your keys. Evil Maid would be unable to boot modified boot loader (not signed by your keys) and the attack is prevented.
The following steps should be performed as the root
user, with accompanying files stored in the /root
directory.
pacman -S efitools
uuidgen --random > GUID.txt
CN is a Common Name, which can be written as anything.
openssl req -newkey rsa:4096 -nodes -keyout PK.key -new -x509 -sha256 -days 3650 -subj "/CN=my Platform Key/" -out PK.crt
openssl x509 -outform DER -in PK.crt -out PK.cer
cert-to-efi-sig-list -g "$(< GUID.txt)" PK.crt PK.esl
sign-efi-sig-list -g "$(< GUID.txt)" -k PK.key -c PK.crt PK PK.esl PK.auth
sign-efi-sig-list -g "$(< GUID.txt)" -c PK.crt -k PK.key PK /dev/null rm_PK.auth
openssl req -newkey rsa:4096 -nodes -keyout KEK.key -new -x509 -sha256 -days 3650 -subj "/CN=my Key Exchange Key/" -out KEK.crt
openssl x509 -outform DER -in KEK.crt -out KEK.cer
cert-to-efi-sig-list -g "$(< GUID.txt)" KEK.crt KEK.esl
sign-efi-sig-list -g "$(< GUID.txt)" -k PK.key -c PK.crt KEK KEK.esl KEK.auth
openssl req -newkey rsa:4096 -nodes -keyout db.key -new -x509 -sha256 -days 3650 -subj "/CN=my Signature Database key/" -out db.crt
openssl x509 -outform DER -in db.crt -out db.cer
cert-to-efi-sig-list -g "$(< GUID.txt)" db.crt db.esl
sign-efi-sig-list -g "$(< GUID.txt)" -k KEK.key -c KEK.crt db db.esl db.auth
When Secure Boot is active (i.e. in "User Mode") you will only be able to launch signed binaries, so you need to sign your kernel and boot loader.
Install sbsigntools
pacman -S sbsigntools
sbsign --key db.key --cert db.crt --output /boot/vmlinuz-linux /boot/vmlinuz-linux
sbsign --key db.key --cert db.crt --output /efi/EFI/arch/grubx64.efi /efi/EFI/arch/grubx64.efi
It is necessary to sign GRUB with your UEFI Secure Boot keys every time the system is updated via pacman
. This can be accomplished with a pacman hook.
Create the hooks directory
mkdir -p /etc/pacman.d/hooks
Create hooks for both the linux
and grub
packages
/etc/pacman.d/hooks/99-secureboot-linux.hook
[Trigger]
Operation = Install
Operation = Upgrade
Type = Package
Target = linux
[Action]
Description = Signing Kernel for SecureBoot
When = PostTransaction
Exec = /usr/bin/find /boot/ -maxdepth 1 -name 'vmlinuz-*' -exec /usr/bin/sh -c 'if ! /usr/bin/sbverify --list {} 2>/dev/null | /usr/bin/grep -q "signature certificates"; then /usr/bin/sbsign --key /root/db.key --cert /root/db.crt --output {} {}; fi' \ ;
Depends = sbsigntools
Depends = findutils
Depends = grep
/etc/pacman.d/hooks/98-secureboot-grub.hook
[Trigger]
Operation = Install
Operation = Upgrade
Type = Package
Target = grub
[Action]
Description = Signing GRUB for SecureBoot
When = PostTransaction
Exec = /usr/bin/find /efi/ -name 'grubx64*' -exec /usr/bin/sh -c 'if ! /usr/bin/sbverify --list {} 2>/dev/null | /usr/bin/grep -q "signature certificates"; then /usr/bin/sbsign --key /root/db.key --cert /root/db.crt --output {} {}; fi' \ ;
Depends = sbsigntools
Depends = findutils
Depends = grep
cp /root/*.cer /root/*.esl /root/*.auth /efi/
systemctl reboot --firmware
Firmwares have various different interfaces, see Replacing Keys Using Your Firmware's Setup Utility if the following instructions are unclear or unsuccessful.
Find the Secure Boot options and set OS Type to Windows UEFI mode
(yes, even if we're not on Windows.) This may be necessary for Secure Boot to function.
Using Key Management, clear all preloaded Secure Boot keys (Microsoft and OEM).
By clearing all Secure Boot keys, you will enter into Setup Mode (so you can enroll your own Secure Boot keys).
The keys must be set in the following order:
db => KEK => PK
This is due to some systems exiting setup mode as soon as a PK
is entered.
Do not load the factory defaults, instead navigate the available filesystems in search of the files previously copied to the EFI System partition.
Choose any of the formats. The firmware should prompt you to enter the type (Note: type names may differ slightly.)
*.cer is a Public Key Certificate
*.esl is a UEFI Secure Variable
*.auth is an Authenticated Variable
Certain firmware (such as my own) require you use the *.auth files. Try various ones until they work.
You must also set your UEFI firmware supervisor (administrator) password in the Security settings, so nobody can simply boot into UEFI setup utility and turn off Secure Boot.
You should never use the same UEFI firmware supervisor password as your encryption password, because on some old laptops, the supervisor password could be recovered as plaintext from the EEPROM chip.
Once you've loaded all three keys and set your supervisor password, hit F10 to exit and save your changes.
If everything was done properly, your boot loader should appear on reboot.
od -An -t u1 /sys/firmware/efi/efivars/SecureBoot-XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX
The characters denoted by XXXX differ from machine to machine. To help with this, you can use tab completion or list the EFI variables.
If Secure Boot is enabled, this command returns 1 as the final integer in a list of five, for example:
6 0 0 0 1
If Secure Boot was enabled and your UEFI supervisor password set, you may now consider yourself protected against Evil Maid attacks.
Ah okay I was just fixing my problems since I couldn't unlock the GRUB and keep dropping into an emergency shell