Encrypt Your Root Filesystem

When you can't depend on physical security to keep your files safe, it's time to take the extra step of encrypting the filesystem. Although this article covers converting a PowerPC-based system, the principles are applicable to other architectures too.


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Point Made!

Jakub Sadowski's picture

"This scenario may be a bit far-fetched, but it does illustrate a point."

Actually, the point it illustrated for me was that you have the right mindset and understanding to be writing such an article. Until I got to this point I was highly skeptical ;- )

Randomizing a disk: 'shred' from GNU Coreutils.

Charles Wilcox's picture

I would recommend using 'shred' from the GNU Coreutils package to create random noise on a disk. As an alternative, use the standalone package 'wipe'.

I've played with various ways of overwriting disks, including "dd if=/dev/urandom of=/dev/XXXX", "openssl -in /dev/zero -out /dev/XXXX", etc., and I discovered the tools designed for securely overwriting disks are much faster at it. The man pages describe their algorithms and link to papers on the methodologies. 'shred' is nice, since it's on nearly every Linux box by default.

For example, to overwrite SATA disk 0 partition 2:
shred -vn 1 /dev/sda2

Application to Intel PC architectures

Russ Turner's picture

I successfully extrapolated your instructions to an Intel architecture PC with only minor changes required.

**Preparing the USB Flash Disk

I prepared the USB Flash disk by formatting it as FAT16 and using syslinux (http://syslinux.zytor.com/) to install the bootstrap program. This works cleanly to boot most PC's built in recent years. It may be necessary to go into the BIOS and add USB to the list of boot options, depending on how your PC is setup.

**Modifying mkinitrd

I downloaded the latest source for mkinitrd (4.2.03) and applied the patch that you specified in your article. The patch had been updated since your article, so the flag -authtype=paranoid is no longer required: mkinitrd now automatically looks for /etc/crypttab to determine the authtype setting.

I had to edit a line in /sbin/mkinitrd to make it work. The original line that runs cryptsetup is as follows in mkinitrd (line 787 for 4.2.03):

echo "cryptsetup $cryptsetup_params -d /root-key create root /dev/root" >> $RCFILE

I had to change /dev/root to /dev/hdxx, consistent with the entry in /etc/crypttab:

echo "cryptsetup $cryptsetup_params -d /root-key create root /dev/hda6" >>$RCFILE

(In my case /dev/hda6 is the encrypted partition.)

This is pure hacking, I don't know why mkinitrd uses /dev/rootdev here.

**Verifying presence of aes module

Mkinitrd looks for aes.ko by scanning modules.dep. In the latest version of Fedora, FC3 with the 2.6.10-1.760_FC3 kernel, the aes module is actually aes-i586.ko, not aes.ko. Rather than modify mkinitrd to handle this difference I copied aes-i586.ko to aes.ko, in the same subdirectory, and then ran depmod to register the change in the modules.dep file:

# cd /lib/modules/2.6.10-1.760_FC3/kernel/arch/i386/crypto
# cp aes-i586.ko aes.ko
# depmod -a

**Running mkinitrd

Mkinitrd can now be run, as described in your article, to produce the initrd file. I will use initrd.gz as the file name in the rest of this desciption, although it can be named anything (initrd-.img is commonly used).

**Copy files to USB Flash key

I copied /boot/vmlinuz-2.6.10-1.760_FC3 (shortening the name to vmlinuz for convenience) and the new initrd file, initrd.gz, to the root of the USB Flash disk. Alternativley you can have mkinitrd write the new initrd.gz file directlly to the USB Flash disk, as done in the artilcle.

**Booting with syslinux

Rebooting the PC with the USB Flash key inserted displays some information and presents the syslinux prompt: boot: Enter the name of your kernel file and the keyword "initrd=" followed by the name of your initrd file:

boot: vmlinuz initrd=initrd.gz

Alternatively, the required boot directions can be put in the syslinux.cfg file and referenced with a label at the prompt.

How about encrypting just a file?

Anthony's picture

I only need to encrypt a few files, how can I do that?

Plan Text?

John T. Williams's picture

While I found the article interesting and informative, I did have one issue with this configuration: the key is kept in plan text on the USB device. Wouldn’t it be better to create a program that could reliable create a 256bit key from an 8 to16 byte pass phrase? In this way, even if someone borrowed your USB device they still wouldn’t be able to access the machine without the pass phrase.

I missed the article on encrypting the home directory, but from the references made to it in this article I think it suffers from the same issue. It doesn’t really protect against physical attack as the password is in plan text on an unencrypted partition on the same machine. As an attacker all I would have to do is plug your hard drive into my machine, mount the root directory, get the key, then mount the encrypted drive. If I was willing to steal your computer to get to your data, then this presents no barrier. On the other hand, if they key is generated via an md5 (or some other) hash, then I’m still stuck trying to brute force it.

I’ve often thought of modifying the kernel code for ext3 so that unless my kernel was used to access the partition, it would be so many meaningless bits.

- John T. Williams

Re: Plain Text

W. Michael Petullo's picture

I do assume that the USB drive is protected and not used for any other purpose than to unlock the root filesystem. You have to get a foothold as far as trust goes and if you read the article closely, I have choosen to trust the USB drive and the laptop's firmware.

The threats you introduce are addressed in the attack tree I present at the end of the article (steal computer and USB flash drive with key). My counter to this attack is to treat the disk as a key and protect it from theft.

Using a passphrase in addition to the physical USB key as you recommend would add an additional layer of protection. One could certainly do this if they determined that the threat warrants it.

Also, the encrypted home directory article does not instruct one to store password in plain text on an unencrypted partition. Pam_mount can read an encrypted key and decrypt it using one's system authentication token. This is the technique I recommended and it relies on a strong system authentication token.

Should have been Plain Text;

John T. Williams's picture

Should have been Plain Text; damn dyslexia!

is it possible to encrypt wit

lawman's picture

is it possible to encrypt with 1344 bit triple blowfish?