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(An overview of DM-Crypt, LUKS, and Encryption)
 
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'''DMCrypt''' and '''LUKS''' are Linux utilities used to encrypt storage space. These utilities can be applied to any type of device that is natively understood by your kernel.  Devices include anything in the /dev/ directory, however, a user can also create their own flat file and create a loopback device.  This works on ANY Linux distribution.
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'''DMCrypt''' and '''LUKS''' are Linux utilities used to encrypt storage space. These utilities can be applied to any type of device that is natively understood by a kernel.  Devices include anything in the /dev/ directory, however, a user can also create his own flat file and create a loopback device.  This works on any Linux distribution.
  
 
== Getting Started ==  
 
== Getting Started ==  
  
First things first, the first utility needed is '''cryptsetup'''. The appropriate package manager will aid with the '''cryptsetup''' installation.
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First, the first utility needed is '''cryptsetup''' which can be installed via a package manager.
 
+
      apt-get install cryptsetup
+
      emerge -q cryptsetup
+
      pacman -S cryptsetup
+
      yum install cryptsetup
+
      ...or whichever package manager applies to you
+
  
 
== Encryption Ciphers and Algorithms ==
 
== Encryption Ciphers and Algorithms ==
  
A list of the supported encryption ciphers and hashing algorithms for your specific kernel are located in /proc/crypto . To list, run the command:  
+
A list of the supported encryption ciphers and hashing algorithms is located in /proc/crypto . To list, run the command:  
 +
 
 +
    grep "name\|digest\|cipher" /proc/crypto
 +
 
 +
{{info|''Nearly every Linux distribution supports this, however, some LFS and other MINIX variants will not support crypto or crypttab in procfs.''}}
 +
 
 +
=== Hashing Algorithms ===
 +
 
 +
Digest algorithms are hashing algorithms. The whirlpool algorithm is preferred, however, sha, md5, sha512 (mac), and ripemd160/320 are viable options. Whirlpool is suggested due to the collision resistance, age, and resistance to cryptanalysis attacks. There are no known cryptanalysis attacks that are able to generate reliable collisions on the whirlpool 512 digest.
 +
 
 +
=== Ciphers ===
 +
 
 +
AES is almost always available. The blowfish is recommended, however AES, serpent, and twofish are viable options. If /proc/crypto does not produce a favorable list of hashing algorithms and ciphers, refer to the distribution's documentation on installing cryptographic kernel modules. A simple search for "<distro name> kernel crypto module installation" will produce a better selection of algorithms and ciphers. If the distriution is a source-based distribution, simply rebuilding and specifying the options inside of '''menuconfig''' will provide the desired results.
 +
 
 +
== Setting Up a Block Device ==
 +
 
 +
{{notice|A new partition or file is necessary to create a block device.}}
 +
 
 +
=== Creating a Partition ===
 +
 
 +
To create a partition, use a partition editor '''cfdisk''' and '''fdisk''' are two good options.
 +
 
 +
After the partitions are created, format and encrypt the partition with the command:
 +
 
 +
    cryptsetup luksFormat -c <cipher name> -h <digest name> /path/to/partition (/dev/sdx)
 +
 
 +
    Ex. To encrypt /dev/sdb2 with whirlpool and blowfish:
 +
    cryptsetup luksFormat -c blowfish -h whirlpool /dev/sdb2
 +
 
 +
Next, LUKS will prompt for a passphrase. Enter a password or, alternatively, provide a keyfile with --key-file. ''
 +
* When creating a keyfile, be sure that it meets the length criteria for the selected digest algorithm.''
  
    cat /proc/crypto | grep name\|digest\|cipher
+
After entering a password, skip to [[#LVM and the Device Mapper|the LVM and Device Mapper Section]].
  
''*Nearly every Linux distribution supports this, however, some LFS and other MINIX variants will not support crypto or crypttab in procfs.''
+
=== Creating a Flat File ===
  
 +
If no unpartitioned space is available or a new partition for encryption is undesired, a flat file can be created. First, create a blank file using '''touch''':
  
You can get a list of supported kernel encryption ciphers and hashing algorithms by using grep on /proc/crypto like so: grep "digest\|cipher\|name" /proc/crypto nearly every distribution supports this (some lfs and other MINIX variants will not support crypto or crypttab in procfs).
+
    touch /path/to/flatfile
 +
    Ex. touch ~/cryptoImg.img
  
This will tell you the names of each cipher/digest algorithm supported by your kernel. Digest algorithms are hashing algorithms. I personally prefer whirlpool, however: sha, md5, sha-512 (hmac) and ripemd160,320, are viable options. Whirlpool is picked due to collision resistance, combined with age and resistance to cryptanalysis attacks. There is no known cryptanalysis attack able to generate reliable collisions on the whirlpool 512 digest.
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Next, use either shred or dd to create the flat file in the appropriate size.
  
 +
    '''SHRED:'''
 +
    If you want a 10GB Partition:
 +
    shred -s 10G /path/to/flatfile
  
''2.0 - Available ciphers''
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    '''DD'''
 +
    dd if=/dev/urandom bs=1024 of=/path/to/flatfile count=`echo .|awk '{print (10*1024^2)}'`
  
 +
A flat file is now created and is overwritten with random data. Next, set it up as a loopback device. First, determine what loopback devices are already available:
  
Usually AES is always available, my personal preference is blowfish however, aes, serpent, blowfish and twofish are all viable options. If you do not have a decent listing in /proc/crypto, see your distribution's documentation on installing cryptographic kernel modules.
+
    '''AS ROOT'''
 +
    losetup -a
  
To get a better selection, you should be able to search for something along the lines of "[distro name] kernel crypto module installation". If you are using a source-based installation, you can simply rebuild and specify your desired options inside of menuconfig.
+
This will list all of the loopback devices. If there is nothing in the list, start with loop0:
  
 +
    losetup /path/to/flatfile /dev/loop0
 +
    ''Certain distributions may require:''
 +
    losetup /path/to/flatfile /dev/loop/
  
''3.0 - Setting up your block device''
+
{{info|''If an error about loop modules occurs, use modprobe to start the module or (for source-based distributions):
  
 +
    find /usr/src/linux -name \*loop\*.ko -exec insmod '{}' \;
 +
}}
 +
Once completed, refer to the LUKS commands and run:
  
So first thing is first, setting up your block device. You'll want to create a partition OR a flat file.
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    cryptsetup luksFormat -c <cipher name> -h <digest name> /dev/loop#
  
 +
{{notice|'' The luksFormat command was run on /dev/loop# and NOT /dev/sdx}}
  
''3.1 - PARTITION INSTRUCTIONS:''
+
== LVM and the Device Mapper ==
  
 +
=== Creating Encrypted LVM Partitions ===
  
create a partition using cfdisk or fdisk (whichever is easier for you), then run the following command :
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First, open up the encrypted device with:
cryptsetup luksFormat -c [ciphername] -h [digestname] /dev/[partition]
+
  
For example if I wanted to use whirlpool-blowfish on /dev/sdb2. I'd do:
+
    cryptsetup luksOpen /dev/sdx lvm
cryptsetup luksFormat -c blowfish -h whirlpool /dev/sdb2
+
  
It will then prompt you for your passphrase. Alternatively, you can provide a keyfile with --key-file. When creating a keyfile be sure that it meets the length criterium for your digest algorithm.
+
Then, create logical partitions:
  
 +
    lvm pvcreate /dev/mapper/lvm
 +
    lvm vgcreate <volume group name> /dev/mapper/lvm
  
''3.2 FLAT FILE INSTRUCTIONS:''
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    lvm lvcreate -L 20GB -n root <volume group name from above>
 +
    lvm lvcreate -L 4GB -n swap <volume group name from above>
 +
    lvm lvcreate -l 100%FREE -n home <volume group name from above>
  
 +
    ''*Obviously, the partition sizes can be altered''
  
If you'd like to create a flatfile because you do not have any unpartitioned space, first touch /path/to/flatfile. E.g. touch /mycryptimg.img. Then you'll want to use either shred or dd to create it for the appropriate size.
 
->USING SHRED :
 
Assuming you want a 10 gb partition, you can simply:
 
shred -s 10G /mycryptimg.img
 
->USING DD :
 
Assuming you want a 10 GB partition:
 
dd if=/dev/urandom bs=1024 of=/mycryptimg.img count=`echo .|awk '{print (10 * 1024^2)}'`
 
  
Now then, you've created your sized flat file. You need to set it up as a loopback device.
+
== Encrypting the Flat File ==
  
First, determine your available loopback devices, run (as root):
+
After running the luksOpen command to unlock the partition,
losetup -a
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This will tell you all the loopback devices on your system. If you do not see any, you can start at loop0:
+
losetup /mycryptimg.img /dev/loop0
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In some distros, you'll need to run instead:
+
losetup /mycryptimg.img /dev/loop/
+
  
If you get an error about loop module, modprobe it or:
+
    cryptsetup luksOpen -c blowfish -h whirlpool /dev/sdx /dev/mapper/cryptDir
find /usr/src/linux -name \*loop\*.ko -exec insmod '{}' \;
+
    *''The last parameter becomes the directory in /dev/mapper that you will need to format
Will also do the trick on source based distributions.
+
  
Once you've done this, proceed with your cryptsetup luksFormat command except you'll run it on /dev/loop# instead of /dev/[device node].
+
Finally, create a filesystem on the encrypted partition with mkfs. For example, (using reiserfs):
  
''4.0 - Obtaining LVM Support and Device Mapper Support''
+
    mkfs.reiserfs /dev/mapper/cryptDir
  
Now we've created a partition capable of handling our storage space. The next step is to obtain LVM support and Device Mapper Support. If you don't have these, running a quick search for your distro on enabling them will reveal all the answers.
+
Now, that the keyslot is unlocked and the filesystem created, create and mount the encrypted directory:
  
 +
    mkdir /home/<username>/encrypted
 +
    mount -o loop /dev/mapper/cryptDir /home/<username>/encrypted
  
''5.0 - Finishing up''
+
== Starting and Stopping the Service ==
  
 +
Now, anything that is put into the /home/<username>/encrypted directory is encrypted. To shut down the encryption service:
  
Once this is accomplished, using sdb2 as our example:
+
    umount /home/<username>/encrypted
cryptsetup luksOpen -c blowfish -h whirlpool /dev/sdb2 mycryptdir
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    cryptsetup luksClose /dev/mapper/cryptDir
It will prompt for the passphrase again. Successful entry of the passphrase will unlock the keyslot. Once this has been accomplished, you can go ahead and mkfs. I prefer reiserfs for performance and deletion sake. So in my case, I would run:
+
    *''If you created a loopback device:
mkfs.reiserfs /dev/mapper/mycryptdir
+
    losetup -d /dev/loop#
  
That last parameter on the cryptsetup luksOpen command becomes the directory in /dev/mapper you'll need to format. Additionally, crypt target support needs to be enabled in your LVM/Device Mapper support options in your kernel or the appropriate module needs to be loaded for your distro (search engines are helpful there).
+
Now, all of the data is secured in an encrypted partition. To re-open the partition:
  
Now that I've unlocked my keyslot and created my filesystem, I can go ahead and:
+
    cryptsetup luksOpen /dev/sdx /dev/mapper/cryptDir
mkdir /home/hatter/encrypted
+
    mount -o loop -t reiserfs /dev/mapper/cryptDir /home/<username>/encrypted
mount -o loop /dev/mapper/mycryptdir /home/hatter/encrypted  
+
  
Now anything in the /home/hatter/encrypted directory is encrypted. To shut your device down:
+
==External Links==
umount /home/hatter/encrypted
+
*[http://philosecurity.org/pubs/davidoff-clearmem-linux.pdf Plaintext Passwords in Linux memory]
cryptsetup luksClose /dev/mapper/mycryptdir
+
  
If you created a loopback device:
+
{{Administration}}
losetup -d /dev/loop#
+
{{Countermeasures}}
  
Now your data is perfectly secured in an encrypted partition and no one can read it. To re-open:
+
{{social}}
cryptsetup luksOpen /dev/sdb2 mycryptdir
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mount -o loop -t reiserfs /dev/mapper/mycryptdir /home/hatter/encrypted
+
+
Simply umount and cryptsetup luksClose when done.
+

Latest revision as of 12:27, 20 October 2012

DMCrypt and LUKS are Linux utilities used to encrypt storage space. These utilities can be applied to any type of device that is natively understood by a kernel. Devices include anything in the /dev/ directory, however, a user can also create his own flat file and create a loopback device. This works on any Linux distribution.

Getting Started

First, the first utility needed is cryptsetup which can be installed via a package manager.

Encryption Ciphers and Algorithms

A list of the supported encryption ciphers and hashing algorithms is located in /proc/crypto . To list, run the command:

    grep "name\|digest\|cipher" /proc/crypto
c3el4.png Nearly every Linux distribution supports this, however, some LFS and other MINIX variants will not support crypto or crypttab in procfs.

Hashing Algorithms

Digest algorithms are hashing algorithms. The whirlpool algorithm is preferred, however, sha, md5, sha512 (mac), and ripemd160/320 are viable options. Whirlpool is suggested due to the collision resistance, age, and resistance to cryptanalysis attacks. There are no known cryptanalysis attacks that are able to generate reliable collisions on the whirlpool 512 digest.

Ciphers

AES is almost always available. The blowfish is recommended, however AES, serpent, and twofish are viable options. If /proc/crypto does not produce a favorable list of hashing algorithms and ciphers, refer to the distribution's documentation on installing cryptographic kernel modules. A simple search for "<distro name> kernel crypto module installation" will produce a better selection of algorithms and ciphers. If the distriution is a source-based distribution, simply rebuilding and specifying the options inside of menuconfig will provide the desired results.

Setting Up a Block Device

Notice: A new partition or file is necessary to create a block device.

Creating a Partition

To create a partition, use a partition editor cfdisk and fdisk are two good options.

After the partitions are created, format and encrypt the partition with the command:

    cryptsetup luksFormat -c <cipher name> -h <digest name> /path/to/partition (/dev/sdx)
    Ex. To encrypt /dev/sdb2 with whirlpool and blowfish:
    cryptsetup luksFormat -c blowfish -h whirlpool /dev/sdb2

Next, LUKS will prompt for a passphrase. Enter a password or, alternatively, provide a keyfile with --key-file.

  • When creating a keyfile, be sure that it meets the length criteria for the selected digest algorithm.

After entering a password, skip to the LVM and Device Mapper Section.

Creating a Flat File

If no unpartitioned space is available or a new partition for encryption is undesired, a flat file can be created. First, create a blank file using touch:

    touch /path/to/flatfile
    Ex. touch ~/cryptoImg.img

Next, use either shred or dd to create the flat file in the appropriate size.

    SHRED:
    If you want a 10GB Partition:
    shred -s 10G /path/to/flatfile
    DD
    dd if=/dev/urandom bs=1024 of=/path/to/flatfile count=`echo .|awk '{print (10*1024^2)}'`

A flat file is now created and is overwritten with random data. Next, set it up as a loopback device. First, determine what loopback devices are already available:

    AS ROOT
    losetup -a

This will list all of the loopback devices. If there is nothing in the list, start with loop0:

    losetup /path/to/flatfile /dev/loop0
    Certain distributions may require:
    losetup /path/to/flatfile /dev/loop/
c3el4.png If an error about loop modules occurs, use modprobe to start the module or (for source-based distributions):
    find /usr/src/linux -name \*loop\*.ko -exec insmod '{}' \;

Once completed, refer to the LUKS commands and run:

    cryptsetup luksFormat -c <cipher name> -h <digest name> /dev/loop#
Notice: The luksFormat command was run on /dev/loop# and NOT /dev/sdx

LVM and the Device Mapper

Creating Encrypted LVM Partitions

First, open up the encrypted device with:

    cryptsetup luksOpen /dev/sdx lvm

Then, create logical partitions:

    lvm pvcreate /dev/mapper/lvm
    lvm vgcreate <volume group name> /dev/mapper/lvm
    lvm lvcreate -L 20GB -n root <volume group name from above>
    lvm lvcreate -L 4GB -n swap <volume group name from above>
    lvm lvcreate -l 100%FREE -n home <volume group name from above>
    *Obviously, the partition sizes can be altered


Encrypting the Flat File

After running the luksOpen command to unlock the partition,

    cryptsetup luksOpen -c blowfish -h whirlpool /dev/sdx /dev/mapper/cryptDir
    *The last parameter becomes the directory in /dev/mapper that you will need to format

Finally, create a filesystem on the encrypted partition with mkfs. For example, (using reiserfs):

    mkfs.reiserfs /dev/mapper/cryptDir

Now, that the keyslot is unlocked and the filesystem created, create and mount the encrypted directory:

    mkdir /home/<username>/encrypted
    mount -o loop /dev/mapper/cryptDir /home/<username>/encrypted

Starting and Stopping the Service

Now, anything that is put into the /home/<username>/encrypted directory is encrypted. To shut down the encryption service:

    umount /home/<username>/encrypted
    cryptsetup luksClose /dev/mapper/cryptDir
    *If you created a loopback device:
    losetup -d /dev/loop#

Now, all of the data is secured in an encrypted partition. To re-open the partition:

    cryptsetup luksOpen /dev/sdx /dev/mapper/cryptDir
    mount -o loop -t reiserfs /dev/mapper/cryptDir /home/<username>/encrypted

External Links

Dmcrypt is part of a series on administration.

<center>

Dmcrypt is part of a series on countermeasures.
<center>
</center>