DM-verity: Difference between revisions

Revision as of 01:05, 10 December 2024

Why DM-Verity?

Possibly you want to continue the RoT (Root of Trust [1]) - from the hardware (Hardware TPM as Root of Trust, which ensures only the hardware with the correct secret cryptographic key in the TPM to decrypt the disk/file encryption) -> secure boot (Secure Boot to only run approved signed EFIStub/signed Bootloader) -> To NOW DM-Verity rootfs (which ensures your root-image/root-parition has not been tampered with) -> Mandatory Access Control (AppArmor or SELinux - SELinux is disabled on default linux-lts btw) -> Sandboxed/Virtual-Machined Applications.

What's the difference between me just setting the root partition as read-only (basically just an Immutable Root Partition) vs this?

DM-Verity COMPLETELY disallows modifying any files in the root-partition/root-image, or even disallow a part of a root-image/root-partition (the root-image/root-partition needs to be INTACT and match the signed cryptography verified by DM-Verity on a different partition), and with this consideration, you may use ERO-FS or SquashFS to generate Read-Only Root-Paritition Images. If you set your EXT4 file system to writable, and DM-Verity were to use it, it would be seen as "corrupted" and not boot anymore, because even just ONE tiny data change to the root image/partition would render it "corrupted". This is the same technology used in Android and Chrome OS Devices. Also related to use in A/B root, also used by Fedora.

Tip: To keep the security reasonable, you would ideally want to work on the whole RoT, if not then anybody else can attack the non-verifed boot process that ISN'T the root-partition/root-image that is enforced by DM-Verity.

This following guide will use dracut to make a signed secureboot-able EFIStub.
If you haven't, you may follow the Alpine Linux disk encryption setup with DM-Crypt LUKS and LVM [2]
When DM-Crypt LUKS and LVM is done, you may apply choose to decrypt the image with TPM when generating with Dracut Modules with add_dracutdrivers+=" ... tpm ... "
Apply AppArmor using Alpine Linux Apparmor Wiki (Docker does use AppArmor already, but you may apply apparmor profile on any application that should not have access to specific directories (Apparmor is a PATH based MAC)) [3]
Use GVisor [4] with Docker (Docker is NOT a sandbox [5]) for sandboxing on servers

What is ERO-FS?

[Google thought about implementing ERO-FS with DM-Verity] [6]. But even if Google didn't use it for some reason, ERO-FS is still an excellent and fast compressed read-only filesystem.

Here is an excerpt about mkfs.erofs on [Arch Linux Wiki] [7]:

mkfs.erofs(1) offers an attractive alternative to ext4 or squashfs on the root partition. EROFS, like squashfs, does not allow writes by design and has better performance in many cases than comparable filesystems on flash and solid-state media. It uses lz4 compression by default and was designed for Android phones by Huawei, which make extensive use of dm-verity.

Installing

Working with ERO-FS

Warning: This wiki will be using Alpine Linux Edge Version. (Alpine Linux Non-Edge Versions may not contain these packages in the following rest of the wiki page) (Use Alpine Linux Edge Testing Repository in /etc/apk/repositories as well)

First, some considerations, you may use a strictly READ-ONLY file system, such as SquashFS or ERO-FS, this wiki will be using ERO-FS (if you use a custom kernel, make sure it supports a file system such as ERO-FS, the default linux-lts does). [ERO-FS Github] [8] contains some information about how to compress and make your own read-only root image.

$ apk install dracut erofs-utils

$ mkdir image && cd image

$ wget https://dl-cdn.alpinelinux.org/alpine/v3.21/releases/x86_64/alpine-minirootfs-3.21.0-x86_64.tar.gz

$ tar -xvf alpine-minirootfs-3.21.0-x86_64.tar.gz && rm alpine-minirootfs-3.21.0-x86_64.tar.gz

Command below will generate an ERO-FS Image compressed with lz4 as ./erofs.img (erofs.img would be the root-partition file to use for dracut)

$ cd .. && mkfs.erofs -zlz4hc erofs.img ./image

Working with Dracut

If you want to use DM-Verity on Alpine Linux, you need to use Dracut [9] (Thus also generating a secure boot EFIStub with it as well). Reason is because dracut is one of the only initramfs generators to let you import your own modules and files into its initramfs.

Also remember, mount your $ROOT_PARTITION as read only (assuming you use EXT4, if using ERO-FS or SquashFS, ignore this), since any changes will cause DM-Verity to detect it as "corrupt"

Warning: The following guide was done with FULL disk encryption, so this might not work perfectly on Non encrypted disk setup, also done on UEFI using gummiboot (now called systemd-boot - yes, systemd-boot is a separate project from the systemd init system) EFIStub and generating a UKI (Unified Kernel Image)

Install basic stuff:

apk add dracut dracut-core cryptsetup gummiboot gummiboot-efistub

Create a new partition for your DM-Verity:

Replace /dev/sdX with your actual device name.

sudo fdisk /dev/sdX

Once in the fdisk interface:

Press n to create a new partition
Choose p for primary partition
Select the partition number (e.g., 4)
For the first sector, press Enter to use the default
For the last sector, calculate 10% of your root partition size and use +SIZE format. For example, if your root partition is 100GB, enter +10G
Press t to change the partition type
Enter the partition number you just created
Type 8e for Linux LVM type (closest to verity)
Press w to write changes and exit

Adding custom lines for full disk decryption

Edit "/usr/lib/dracut/modules.d/90crypt/cryptroot-ask.sh" and add these lines right BEFORE "exit 0" (add your $ROOT_PARTITION directory and $VERITY_PARTITION directory):

Contents of /usr/lib/dracut/modules.d/90crypt/cryptroot-ask.sh

...
### DM-Verity
mount /dev/mapper/$ROOT_PARTITION /var/tmp
cryptsetup open --key-file /var/tmp/$KEYFILE_DIR /dev/$VERITY_PARTITION $VERITY_DM_NAME
umount /var/tmp
veritysetup open /dev/$ROOT_PARTITION /dev/$VERITY_PARTITION $(cat /usr/lib/dracut/roothash.txt)
###
...

Generating an EFIStub with Dracut + DM-Verity

To setup DM-Verity (borrowed from Arch Linux Wiki):

veritysetup format /dev/$ROOT_PARTITION /dev/$VERITY_PARTITION

/etc/dracut.conf (put whatever your boot parameters are in "kernel_cmdline"):

Contents of /etc/dracut.conf

...
kernel_cmdline=""
add_dracutdrivers+=" busybox crypt crypt-gpg dm rootfs-block kernel-modules kernel-modules-extra "
/etc/dracut.conf.d/secureboot.conf

# Do the 3 lines below this if you have your own secureboot keys, or want to use secureboot:
uefi_secureboot_cert="/[secureboot-keys-directory]/db.crt"
uefi_secureboot_key="/[secureboot-keys-directory]/db.key"
/etc/dracut.conf.d/files.conf

install_items+=" /sbin/veritysetup " # This is what will import veritysetup binary file into dracut initramfs
...

Finally, generate UKI using dracut (replace 6.X.X-X-lts with your kernel $VERSION) (also replace /boot/efi/EFI/Linux/alpine-linux.efi with your mount efi partition):

export DRACUT_KMODDIR_OVERRIDE=1

dracut --include /usr/lib/dracut/roothash.txt /usr/lib/dracut/roothash.txt --host-only --kernel-image /boot/vmlinuz-lts --kmoddir /lib/modules/6.X.X-X-lts --kver 6.X.X-X-lts --uefi --uefi-stub /usr/lib/gummiboot/linuxx64.efi.stub --force --compress lz4 /boot/efi/EFI/Linux/alpine-linux.efi /boot/efi/EFI/Linux/alpine-linux.efi efibootmgr

efibootmgr --create --disk /dev/[efi_partition] --part 1 --label alpine-linux --loader EFI/Linux/alpine-linux.efi

Unfortunately, using the default Alpine Linux kernel (linux-lts) didn't work so download another distributions root system (like debians or devuan), and replace /lib/modules/6.X.X-X-lts, and /boot/vmlinuz-lts with anothers distributions kernel modules and kernel image (Or consider compiling your own linux-hardened kernel [10]).

Tip: If you want to test if DM-Verity fully works, change the $ROOT_PARTITION's files and it should say it is "corrupt", and not continue the boot process.

External Links

Gvisor

Use GVisor [4]

==== Gvisor Github stating docker is not a sandbox (Because docker uses native kernel compared to Gvisor using its own kernel reimplementation)

https://github.com/google/gvisor Docker is NOT a sandbox [5]

Android-13 Possibility of using ERO-FS:

https://pocketnow.com/erofs-android-13-explained/ [6]

DM-Verity (Arch Wiki):

https://wiki.archlinux.org/title/Dm-verity [7]

ERO-FS Github

https://github.com/erofs/erofs-utils [8]

Dracut (Arch Wiki):

https://wiki.archlinux.org/title/Dracut [9]

Linux-Hardened Kernel (AlpineWiki):

Hardened_linux [10]

My old post on how it worked (I didn't make a wiki page at the time for this don't sue me)

https://www.reddit.com/r/AlpineLinux/comments/15oibcc/comment/k1l7jv0/ [11]

@@ Line 9: / Line 9: @@
 * If you haven't, you may follow [https://wiki.alpinelinux.org/wiki/LVM_on_LUKS the Alpine Linux disk encryption setup] with DM-Crypt LUKS and LVM [2]
 * When DM-Crypt LUKS and LVM is done, you may apply choose to decrypt the image with TPM when generating with Dracut Modules with <code>add_dracutdrivers+{{=}}" ... tpm ... "</code>
-* Apply AppArmor using [https://wiki.alpinelinux.org/wiki/AppArmor Alpine Linux Apparmor Wiki] [3]
+* Apply AppArmor using [https://wiki.alpinelinux.org/wiki/AppArmor Alpine Linux Apparmor Wiki] (Docker does use AppArmor already, but you may apply apparmor profile on any application that should not have access to specific directories (Apparmor is a PATH based MAC)) [3]
 * Use [https://gvisor.dev/docs/user_guide/install/ GVisor] [4] with Docker ([https://github.com/google/gvisor Docker is NOT a sandbox] [5]) for sandboxing on servers}}