Posts Tagged ‘secureboot’

Ubuntu 20.04 and TPM2 encrypted system disk

Thursday, February 18th, 2021

Following the conversation around a past post about Ubuntu 18.04 and TPM2 encrypted system disk (can be found here), I have added a post about using a more modern Ubuntu (20.04) with TPM2. This post includes all the updates (many thanks to the commenter kelderek for setting up a very well working setup!) and has just been tested on a virtual Ubuntu with (virtual) TPM2 device. A note about how to get this setup – sometime in the future.

A very important note, before we begin – This is not enough! To fully prevent your data from being stolen by a bad person with a screwdriver, you will need to add some additional measures, like locking up your BIOS with a password (resetting the BIOS password resets TPM2 data, which is good) ; Signing and using your own embedded GRUB2 (which is not covered here, and maybe one day will be), with your own certificate ; Protect GRUB2 from booth changed using password ; Lock down boot devices in the BIOS (so the evil hacker cannot boot from a USB or CDROM without unlocking the BIOS first) ; Lock the hard drive (or SSD, or NVME) with a security to the BIOS (possible on some models of laptops and hard drives). All these steps are required to complete the security process in order to make the life of a cracker/hacker harder to the point of impossible, when attempting to obtain your data. Without them, the effort is great, but not impossible.
Also note that all the above described actions might lock you out of your own system in case of any hardware failure or forgotten password, so make sure you have a (secure!) backup of your data, or else…

Now – to the process. The idea is this: We add a new key to the cryptsetup – a long one, and this key is stored in TPM2. We add scripts which pull this key out of TPM2 store whenever the system boots. Thanks to some additional comments by Kelderek, we also add some failback, in case of an incorrect key, to allow up to recover and boot using manual key.

I will not wrap all my actions with ‘sudo’ command. All commands need to be called as root, so you can prefix this guide with ‘sudo -s’ or ‘sudo bash’ if you like. I can also assume you ‘cd’ to the root’s directory to protect the root.key file while it is still there. So – ‘sudo’ yourselves, and let’s begin.

Install required packages:

apt install tpm2-tools

Define TPM2 memory space to hold the key:

tpm2 nvdefine -s 64 0x1500016

# This command will define a 64 bit memory space in TPM2, at the above mentioned address

Create a random 64 bit key file:

cat /dev/urandom | tr -dc ‘a-zA-Z0-9’ | head -c 64 > root.key

Save the contents of the key file to TPM2:

tpm2_nvwrite -i root.key 0x1500016

Compare the contents of the TPM and the file, to verify that they are exactly the same:

echo root.key file contents: `cat root.key`
echo The value stored in TPM: `tpm2_nvread 0x1500016`

Identify the encrypted device, and add the key to the LUKS:

lsblk # Identify the owner of 'crypt'. We will assume it is /dev/sda3 in our example
cryptsetup luksAddKey /dev/sda3 root.key

Create a script to pull the key from TPM2:

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cat << EOF > /usr/local/sbin/tpm2-getkey
#!/bin/sh
if [ -f ".tpm2-getkey.tmp" ]; then
# tmp file exists, meaning we tried the TPM this boot, but it didn’t work for the drive and this must be the second
# or later pass for the drive. Either the TPM is failed/missing, or has the wrong key stored in it.
/lib/cryptsetup/askpass "Automatic disk unlock via TPM failed for $CRYPTTAB_SOURCE ($CRYPTTAB_NAME) Enter passphrase: "
exit
fi
# No tmp, so it is the first time trying the script. Create a tmp file and try the TPM
touch .tpm2-getkey.tmp
 
tpm2_nvread 0x1500016
EOF

This script will be embedded into the future initramfs (or initrd), and will pull the key from TPM2. Now, we need to set its permissions and ownerships:

chown root: /usr/local/sbin/tpm2-getkey
chmod 750 /usr/local/sbin/tpm2-getkey

Create a hook script to initramfs:

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cat << EOF > /etc/initramfs-tools/hooks/tpm2-decryptkey
#!/bin/sh
PREREQ=""
prereqs()
{
echo ""
}
case $1 in
prereqs)
prereqs
exit 0
;;
esac
. /usr/share/initramfs-tools/hook-functions
copy_exec `which tpm2_nvread`
copy_exec /usr/lib/x86_64-linux-gnu/libtss2-tcti-device.so.0.0.0
copy_exec /usr/lib/x86_64-linux-gnu/libtss2-tcti-device.so.0
copy_exec /lib/cryptsetup/askpass
exit 0
EOF

Set file permissions:

chown root: /etc/initramfs-tools/hooks/tpm2-decryptkey
chmod 755 /etc/initramfs-tools/hooks/tpm2-decryptkey

Edit crypttab:

The file /etc/crypttab needs to have an entry added at the end of the line containing the boot volume. For example (taken from the previous post’s comments):

sda3_crypt UUID=d4a5a9a4-a2da-4c2e-a24c-1c1f764a66d2 none luks,discard

should become:

sda3_crypt UUID=d4a5a9a4-a2da-4c2e-a24c-1c1f764a66d2 none luks,discard,keyscript=/usr/local/sbin/tpm2-getkey

First – backup your existing crypttab file:

cp /etc/crypttab /etc/crypttab.backup

If you have a single line in the file (only the boot volume is encrypted), you can use the following command:

sed -i 's%$%,keyscript=/usr/local/sbin/tpm2-getkey%' /etc/crypttab

Otherwise, you will have to append it manually.

Backup the original initrd and create a new one

cp /boot/initrd.img-uname -r /boot/initrd.img-uname -r.orig
mkinitramfs -o /boot/initrd.img-uname -r uname -r

Reboot.

If all works well – you can now delete the file root.key holding a clear text key. You will still have your original manually defined decryption key working, and the initrd will fail-over to handle manual askpass if the automatic TPM2 fails to work, so you should be rather safe there, as well as update-proof.

Notes:

  • The procedure might work on older Ubuntu systems, although it was not tested. A comment in the previous post suggested that the addition of the source
    deb http://cz.archive.ubuntu.com/ubuntu focal main universe
    to your Ubuntu 18.04, the same procedure should work. I did not test it yet.
  • The security of the system is not complete until you handle the other tasks mentioned at the beginning of the text.
  • This procedure does not cover TPM1.2 systems, and will not work without modification on them. I might document such process in the future.

Good luck, and post here if it works for you, or if you have any suggestions!

SecureBoot and VirtualBox kernel modules

Saturday, June 1st, 2019

Installing VirtualBox on Ubuntu 18 (same as for modern Fedora Core) with SecureBoot will result in the following error when running the command /sbin/vboxsetup

The error message would be something like this:

There were problems setting up VirtualBox. To re-start the set-up process, run
/sbin/vboxconfig
as root. If your system is using EFI Secure Boot you may need to sign the
kernel modules (vboxdrv, vboxnetflt, vboxnetadp, vboxpci) before you can load
them. Please see your Linux system’s documentation for more information.

This is because SecureBoot would not allow for non-signed kernel drivers, and VirtualBox creates its own drivers as part of its configuration.

I have found a great solution for this problem in the answers to this question here, which goes as follows:

Create a file (as root) called /usr/bin/ensure-vbox-signed with the following content:

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#!/bin/bash
 
MOKUTIL="/usr/bin/mokutil"
MODPROBE="/sbin/modprobe"
MODINFO="/sbin/modinfo"
SIG_DIR="/var/lib/shim-signed/mok"
PUB="${SIG_DIR}/MOK.der"
KEY="${SIG_DIR}/MOK.priv"
 
if ! "${MOKUTIL}" --sb-state | grep -qi '[[:space:]]enabled$' ; then
	echo "WARNING: Secure Boot is not enabled, signing is not necessary"
	exit 0
fi
 
# If secure boot is enabled, we try to find the signature keys
[ -f "${KEY}" ] || { echo "ERROR: Couldn't find the MOK private key at ${KEY}" ; exit 1 ; }
[ -f "${PUB}" ] || { echo "ERROR: Couldn't find the MOK public key at ${PUB}" ; exit 1 ; }
 
INFO="$("${MODINFO}" -n vboxdrv)"
if [ -z "${INFO}" ] ; then
	# If there's no such module, compile it
	/usr/lib/virtualbox/vboxdrv.sh setup
	INFO="$("${MODINFO}" -n vboxdrv)"
	if [ -z "${INFO}" ] ; then
		echo "ERROR: Module compilation failed (${MODPROBE} couldn't find it after vboxdrv.sh was called)"
		exit 1
	fi
fi
 
KVER="${1}"
[ -z "${KVER}" ] &amp;&amp; KVER="$(uname -r)"
 
KDIR="/usr/src/linux-headers-${KVER}"
DIR="$(dirname "${INFO}")"
 
for module in "${DIR}"/vbox*.ko ; do
	MOD="$(basename "${module}")"
	MOD="${MOD//.*/}"
 
	# Quick check - if the module loads, it needs no signing
	echo "Loading ${MOD}..."
	"${MODPROBE}" "${MOD}" &amp;&amp; continue
 
	# The module didn't load, and it must have been built (above), so it needs signing
	echo "Signing ${MOD}..."
	if ! "${KDIR}/scripts/sign-file" sha256 "${KEY}" "${PUB}" "${module}" ; then
		echo -e "\tFailed to sign ${module} with ${KEY} and ${PUB} (rc=${?}, kernel=${KVER})"
		exit 1
	fi
 
	echo "Reloading the signed ${MOD}..."
	if ! "${MODPROBE}" "${MOD}" ; then
		echo -e "\tSigned ${MOD}, but failed to load it from ${module}"
		exit 1
	fi
	echo "Loaded the signed ${MOD}!"
done
exit 0

Make sure this file is executable by root. Create a systemd service /etc/systemd/system/ensure-vboxdrv-signed.service with the following contents:

[Unit]
SourcePath=/usr/bin/ensure-vbox-signed
Description=Ensure the VirtualBox Linux kernel modules are signed
Before=vboxdrv.service
After=

[Service]
Type=oneshot
Restart=no
TimeoutSec=30
IgnoreSIGPIPE=no
KillMode=process
GuessMainPID=no
RemainAfterExit=yes
ExecStart=/usr/bin/ensure-vbox-signed

[Install]
WantedBy=multi-user.target
RequiredBy=vboxdrv.service

Run sudo systemctl reload-daemon, and then enable the service by running sudo systemctl start ensure-vboxdrv-signed.service

It should sign and enable your vbox drivers, and allow you to run your VirtualBox machines.