Full disk encryption secure boot: Difference between revisions

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This guide is to explain, step-by-step, how to setup Alpine Linux with Full Disk Encryption using LUKS2, LVM (one Physical Volume Partition with three Logical Volume Partitions (/ /boot & swap) with hibernation on a NVMe drive, with UEFI & Secure Boot (and hopefully tpm as well : WIP). This guide has been written using Alpine Linux Std 3.16.1, please adapt some commands if needed.
This guide is to explain, step-by-step, how to setup Alpine Linux with Full Disk Encryption using LUKS2, LVM (one Physical Volume Partition with three Logical Volume Partitions (/ /boot & swap) with hibernation on a NVMe drive, with UEFI & Secure Boot. This guide has been written using Alpine Linux Std 3.16.1, please adapt some commands if needed.


The goal of this guide is to follow the KISS principle, but another file system can be used, multiple partitions for /home; /var/log etc.. can also be added, if the proposed configuration is not meeting your requirements.
The goal of this guide is to follow the KISS principle, but another file system can be used, multiple partitions for /home; /var/log etc.. can also be added, if the proposed configuration is not meeting your requirements.
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<pre># apk add zzz
<pre># apk add zzz
zzz- Z</pre>
zzz- Z</pre>
Done and congrats !

Revision as of 17:17, 30 November 2022

This material is work-in-progress ...

Do not follow instructions here until this notice is removed.
(Last edited by Blt on 30 Nov 2022.)

This guide is to explain, step-by-step, how to setup Alpine Linux with Full Disk Encryption using LUKS2, LVM (one Physical Volume Partition with three Logical Volume Partitions (/ /boot & swap) with hibernation on a NVMe drive, with UEFI & Secure Boot. This guide has been written using Alpine Linux Std 3.16.1, please adapt some commands if needed.

The goal of this guide is to follow the KISS principle, but another file system can be used, multiple partitions for /home; /var/log etc.. can also be added, if the proposed configuration is not meeting your requirements.

Installing packages

To facilitate the partitioning we will use gdisk :

# apk add lsblk gptfdisk

For encryption, we will use cryptsetup :

# apk add cryptsetup

For LVM:

# apk add lvm2

For using and managing UEFI, multiple packages are needed :

# apk add efibootmgr e2fsprogs grub grub-efi

To improve the entropy :

# apk add haveged
# rc-service haveged start

Preparing / overwriting the disk

This can take long, on my side for a 500GB nVME it tooks ~30 minutes.

# haveged -n 0 | dd of=/dev/nvme0n1

Partitioning the disk

Let's assume the disk is /dev/nvme0n1 and no partition is present, we will create two partitions :

  • one for UEFI
  • one for LVM
 # gdisk /dev/nvme0n1
GPT fdisk (gdisk) version 1.0.9.1

Partition table scan:
  MBR: not present
  BSD: not present
  APM: not present
  GPT: not present

Creating new GPT entries in memory.

Command (? for help): n
Partition number (1-128, default 1): 
First sector (34-1000215182, default = 2048) or {+-}size{KMGTP}: 
Last sector (2048-1000215182, default = 1000214527) or {+-}size{KMGTP}: 512M
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): ef00
Changed type of partition to 'EFI system partition'

Command (? for help): n
Partition number (2-128, default 2): 
First sector (34-1000215182, default = 1050624) or {+-}size{KMGTP}: 
Last sector (1050624-1000215182, default = 1000214527) or {+-}size{KMGTP}: 
Current type is 8300 (Linux filesystem)
Hex code or GUID (L to show codes, Enter = 8300): 8309
Changed type of partition to 'Linux LUKS'

Command (? for help): w

Final checks complete. About to write GPT data. THIS WILL OVERWRITE EXISTING
PARTITIONS!!

Do you want to proceed? (Y/N): Y
OK; writing new GUID partition table (GPT) to /dev/nvme0n1.
The operation has completed successfully.

Configuring LUKS

# cryptsetup -v -c aes-xts-plain64 -s 512 --hash sha512 --pbkdf pbkdf2 --iter-time 1000 --use-random luksFormat /dev/nvme0n1p2

WARNING!
========
This will overwrite data on /dev/nvme0n1p2 irrevocably.

Are you sure? (Type 'yes' in capital letters): YES
Enter passphrase for /dev/nvme0n1p2: 
Verify passphrase: 
Key slot 0 created.
Command successful.

# cryptsetup luksOpen /dev/nvme0n1p2 lvmcrypt

= LVM : Physical & Logical Volumes creation=
<pre># pvcreate /dev/mapper/lvmcrypt
  Physical volume "/dev/mapper/lvmcrypt" successfully created.
# vgcreate vg0 /dev/mapper/lvmcrypt
  Volume group "vg0" successfully created
# lvcreate -L 20G vg0 -n swap (I have a 16GB RAM laptop)
  Logical volume "swap" created.
# lvcreate -l 100%FREE vg0 -n root
  Logical volume "root" created.

To check the creation :

# lvscan
  ACTIVE            '/dev/vg0/swap' [20.00 GiB] inherit
  ACTIVE            '/dev/vg0/root' [455.92 GiB] inherit

Mounting points and File System

Create vfat file system for UEFI partition:

# mkfs.vfat /dev/nvme0n1p1

Create ext4 file system for / partition:

# mkfs.ext4 /dev/vg0/root

Activate SWAP:

# mkswap /dev/vg0/swap
# swapon /dev/vg0/swap

Mount / partition to /mnt :

# mount -t ext4 /dev/vg0/root /mnt

Create /boot/efi:

# mkdir /mnt/boot/efi -p

Mount UEFI partition to /mnt/boot/efi :

# mount -t vfat /dev/nvme0n1p1 /mnt/boot/efi

Check partition scheme:

# lsblk
nvme0n1        259:0    0 476.9G  0 disk  
├─nvme0n1p1    259:1    0   511M  0 part  /mnt/boot/efi
└─nvme0n1p2    259:2    0 476.4G  0 part  
  └─lvmcrypt   253:0    0 476.4G  0 crypt 
    ├─vg0-swap 253:1    0    20G  0 lvm   [SWAP]
    └─vg0-root 253:2    0 456.4G  0 lvm   /mnt

Installing Alpine

# setup-disk -m sys /mnt/

mkinitfs settings & modules

Edit the /mnt/etc/mkinitfs/mkinitfs.conf file and append the modules to the features parameters (keymap only needed if your keyboard is not QWERTY):

features="ata base ide scsi usb virtio ext4 lvm nvme keymap cryptsetup cryptkey resume"

Regenerate the initram:

# mkinitfs -c /mnt/etc/mkinitfs/mkinitfs.conf -b /mnt/ $(ls /mnt/lib/modules/)

Grub settings

Create a crypto_keyfile.bin to avoid typing the passphrase twice during the boot process (one for Grub partition, one for Alpine partition):

# touch /mnt/crypto_keyfile.bin
# chmod 600 /mnt/crypto_keyfile.bin
# dd if=/dev/random bs=512 count=4 | xxd -p -c999 | tr -d '\n' > /mnt/c
rypto_keyfile.bin
# cryptsetup luksAddKey /dev/nvme0n1p2 /mnt/crypto_keyfile.bin

Then, let's mount and chroot to our fresh installation:

# mount -t proc /proc /mnt/proc
# mount --rbind /dev /mnt/dev
# mount --make-rslave /mnt/dev
# mount --rbind /sys /mnt/sys
# chroot /mnt

Edit /etc/default/grub and add cryptkey after cryptdm=root parameter like this:

GRUB_TIMEOUT=2
GRUB_DISABLE_SUBMENU=y
GRUB_DISABLE_RECOVERY=true
GRUB_CMDLINE_LINUX_DEFAULT="modules=sd-mod,usb-storage,ext4,nvme cryptroot=UUID=XXXX cryptdm=lvmcrypt cryptkey quiet rootfstype=ext4"

Add a new GRUB_PRELOAD_MODULES line like this:

GRUB_PRELOAD_MODULES="luks cryptodisk part_gpt lvm ext4"

Finally, add the cryptodisk parameter :

GRUB_ENABLE_CRYPTODISK=y

Let's show the UUID of our partition scheme:

# lsblk -f

Create a /root/grub-pre.cfg and replace <XXXX-UUID_WITHOUT_HYPHENS> with your encrypted lvm partition UUID (here /dev/nvme0n1p2) without hyphens, replace <YYYY> with VG UUID from vgdisplay and replace <ZZZZ> with LV UUID from lvdisplay of your /dev/vg0/root

set crypto_uuid=<XXXX-UUID_WITHOUT_HYPHENS>
cryptomount -u $crypto_uuid
set root='lvmid/<YYYY>/<ZZZZ>'
set prefix=($root)/boot/grub
insmod normal
normal

Configuring Secure Boot

# apk add efi-mkkeys efibootmgr sbsigntool
# efi-mkkeys -s "Your Name" -o /etc/uefi-keys

Re-install Grub:

# mkdir /boot/efi/EFI/AlpineLinuxSecureBoot
grub-mkimage -p /boot/grub -O x86_64-efi -c /root/grub-pre.cfg -o /tmp/grubx64.efi luks2 part_gpt cryptodisk lvm ext2 gcry_rijndael pbkdf2 gcry_sha512
# install -v /tmp/grubx64.efi /boot/efi/EFI/AlpineLinuxSecureBoot/
# sed -i 's/SecureBoot/SecureB00t/' /boot/efi/EFI/AlpineLinuxSecureBoot/grubx64.efi
# cd /boot/efi/EFI/AlpineLinuxSecureBoot/
# sbsign --key /etc/uefi-keys/db.key --cert /etc/uefi-keys/db.crt --output grubx64.efi.signed grubx64.efi
# grub-mkconfig -o /boot/grub/grub.cfg
# efibootmgr --disk /dev/nvme0n1p1 --part 1 --create --label 'Alpine Linux Secure Boot Signed' --load /EFI/AlpineLinuxSecureBoot/grubx64.efi.signed --verbose

To check that your .efi is signed :

 # sbverify --cert /etc/uefi-keys/db.crt /boot/efi/EFI/AlpineLinuxSecureBoot/grubx64.efi.signed 
Signature verification OK
# sbverify --list /boot/efi/EFI/AlpineLinuxSecureBoot/grubx64.efi.signed
signature 1
image signature issuers:
 - /CN="Your Name" (db)
image signature certificates:
 - subject: /CN="Your Name" (db)
   issuer:  /CN="Your Name" (db)

Copy db.auth, KEK.auth and PK.auth files from /etc/uefi-keys to a FAT formatted file system.

Reboot & enter into your UEFI (Fx key depending of your laptop)

Import keys to UEFI

This is just an example from an XPS laptop, each UEFI is unique.

  1. Go to Boot Configuration > Secure Boot
  2. Change Enable Secure Boot to ON
  3. Change Secure Boot Mode to Deployed Mode
  4. Change Enable Custom Mode to ON
  5. Go to Custom Mode Key Management
    • Reset All Keys
    • Select Key Database select db > Replace from file > select your Flash Drive > select db.auth
    • Select Key Database select KEK > Replace from file > select your Flash Drive > select KEK.auth
    • Select Key Database select PK > Replace from file > select your Flash Drive > select PK.auth
  6. APPLY CHANGES > EXIT

Check Secure Boot State:

# apk add mokutil
# mokutil --sb-state
SecureBoot enabled

Congrats!

Hibernate on encrypted LVM swap partition

Find your vg0-swap UUID :

lsblk -f

Add resume parameter to your /etc/default/grub :

GRUB_CMDLINE_LINUX_DEFAULT=....resume=UUID=<UUID of your vg0-swap partition>

Add a line to your /etc/fstab :

/dev/vg0/swap   none            swap     sw    0 0

Enable swap service during boot :

rc-update add swap default

Install zzz and test it

# apk add zzz
zzz- Z

Done and congrats !