- 1 Cleanup and Clarification
- 2 Suspend to disk instructions are insecure
- 3 Luks and suspend2
- 4 New cipher mode
- 5 Proposed update of the section 'Storing the key between MBR and 1st partition'
- 6 Backup of volume header
- 7 LVM2 and LUKS
- 8 Prepare hard drive
- 9 Decryption of root during boot with the assistance of UDEV when key is stored on USB drive between MBR and 1st Partition
- 10 Specifying skip and count in /etc/crypttab for /tmp
- 11 GRUB-Legacy/GRUB2 changes regarding the Kernel Line
Cleanup and Clarification
Hello. This wiki page while very exhaustive in content is tangenital with a fractured flow. It seems the prefered method for straight forward system encryption in single drive systems is to use a combination of Luks and LVM2 - this solution provides for an encrypted swap that does not have any issues with hibernation or suspend. I propose making this section the first part of the wiki page to follow the justification for using Luks with the rather large volume of detailed information to follow in other sections. If there are no objections I'll go ahead and structure this in the wiki page itself. Vinhsynd 9:55, 30 September 2010 (CDT)
Hey all, I was trying to encrypt my hd using this page as a reference, but it was a bit difficult to read. As such, I'm going to try to clean things up a bit. It would be nice if there were a clean set of instructions with tips along the way for specialized setups.
On a related note... would anyone mind if some of the posts on this page were erased? There are a number of posts from 2007, 2008... --Arcanazar 13:22, 21 August 2010 (EDT)
I'm considering to do some editing and rewriting of this page, mainly in part "4 The Steps". The content would mostly stay the same, safe for some changes introduced with the newer versions of arch, where less console switching and module loading is needed. On the same subject should we drop, or move to a subsection, the parts related to versions 0.72 of arch?
Does anyone have objections to my plans, or should I just go ahead and we can revert back if it doesn't fit?
WhiteMagic 12:56, 24 May 2007 (EDT)
- Clean up is really needed. Please someone with enough knowledge start the job. -- Fengchao (talk) 02:55, 8 June 2012 (UTC)
- Someone review the made changes to clean up. Suggested next bits to clean-up should include removing legacy Grub section after making sure the relevant kernel parameters are adequately covered in the Grub2 paras. --Indigo (talk) 13:14, 26 September 2012 (UTC)
Suspend to disk instructions are insecure
They cause the swap encryption key to be picked up by mkinitcpio and stored on the unencrypted /boot partition, thus rendering the encryption useless. Better still, the suspend image contains the keys for any other encrypted partitions that were currently open too...
Unless someone thinks otherwise, I'm going to remove the stuff about key files and replace it with a warning not to do that. I think the approach using a password should be secure, and it's somewhat workable (at least in my setup with uresume): we can place the 'openswap' and 'uresume' hooks before 'encrypt' and rely on the above-mentioned keys in the suspend image to magically have the root unlocked once the resume is complete. Downside is typing two passwords during a normal boot - it's a quick fix for the current instructions at any rate.
There are a few other options, but probably the tidiest strategy would be to put root and swap (and anything else) on an encrypted LVM PV, then the 'encrypt' hook can unlock everything in one go. I guess that makes a mess if the VG contain other PVs which need decrypting too, but that's probably not an issue at least for laptop users. I've not tried this though.
Of course, ideally there'd be support for multiple volumes (preferably with a single password prompt) in the 'encrypt' hook.
--Jmawebb 19:44, 27 February 2010 (EST)
- Is there a fix for this yet? Maybe the luksSuspend function? --Revelation60 21:21, 20 December 2010 (GMT+1)
Luks and suspend2
Would it be worth adding a section on opening encrypted drives from the kernel command line, or more specifically on combining luks and suspend2? As far as I can tell opening a swap partition from crypttab doesn't make it available in time to resume from, but adding the following to a lilo append option does:
I'm not sure if this is the correct/best way of doing this, though, and didn't see other documentation.
New cipher mode
Kernel 2.6.24 supports "aes-xts-plain" (instead of "cbc" or "lrw"). Waiting for kernel 2.6.24 to reach [core] (and new CD version), stay tuned :-) ekerazha 09:00, 6 February 2008 (EST)
- Sounds cool.
- If you can't wait you can get a livecd that has a 2.6.24 kernel (such as the daily builds of ubuntu http://cdimage.ubuntu.com/daily-live/current/). It worked for me. inthemedium 10:14, 6 February 2008 (EST)
- Question: xts-plain VS xts-benbi http://thread.gmane.org/gmane.linux.kernel.device-mapper.dm-crypt/2585 ekerazha 09:13, 13 April 2008 (EDT)
- -plain is the good one (specs: http://grouper.ieee.org/groups/1619/email/pdf00086.pdf ) ekerazha 13:00, 16 April 2008 (EDT)
- Note that after 26.09.2012 - revision 225227 the default luksFormat Section was changed back to cryptsetup's compiled in vanilla defaults. (aes-cbc-essiv / sha1) This has advantages in compatibility with older cryptsetup versions.
- Question: I think the
-yswitch is deprecated as it is the compiled-in default at least for cryptsetup >=1.5.
- Maybe I'll set up an external cryptsetup page (as a user page in the first run) tomorrow if I manage to find some drafts I've written once :) --Nonix (talk) 03:03, 27 September 2012 (UTC)
Proposed update of the section 'Storing the key between MBR and 1st partition'
I tried to setup automatic mount of my LUKS encrypted
Add the temporary keyfile we created before with cryptsetup:
cryptsetup luksAddKey /dev/hda3 secretkey
That should return you output like this:
Enter any LUKS passphrase: key slot 0 unlocked. Command successful.
Next you'll have to write the key directly between MBR and first partition.
WARNING: you should only follow this step if you know what you are doing - it can cause data loss and damage your partitions or MBR on the stick!
If you have a bootloader installed on your drive you have to adjust the values. E.g. GRUB needs the first 16 sectors, you would have to replace seek=4 with seek=16; otherwise you would overwrite parts of your GRUB installation. When in doubt, take a look at the first 64 sectors of your drive and decide on your own where to place your key.
dd if=/dev/usbstick of=64sectors bs=512 count=64 # gives you copy of your first 64 sectors hexcurse 64sectors # determine free space
Write your key to the disk:
dd if=secretkey of=/dev/usbstick bs=512 seek=4
If everything went fine you can now overwrite and delete your temporary secretkey:
shred --remove --zero secretkey
You should not simply use rm as the keyfile would only be unlinked from your filesystem and be left physically intact.
Now you have to add a kernel parameter in your
/boot/grub/menu.lst (GRUB), it should look something like this:
kernel /vmlinuz-linux root=/dev/hda3 ro vga=791 cryptkey=/dev/usbstick:2048:2048 cryptdevice=/dev/hda4:home
Format for the cryptkey option:
OFFSET and SIZE match in this example, but this is coincidence - they can differ (and often will). An other possible example could be (if you use skip=16 in the 'dd' command above to protect the bootloader)
kernel /vmlinuz-linux root=/dev/hda3 ro vga=791 cryptkey=/dev/usbstick:8192:2048 cryptdevice=/dev/hda4:home
Format for the cryptdevice option:
The encrypted block device BLOCKDEVICE will then be mapped to
Note: You will _not_ need to have
/etc/crypttab setup for this device then (but maybe you want to use it for other encrypted devices where you want to enter the passphrase manually or e.g. use a keyfile stored on this afterwards decrypted partition)! But don't forget to activate the encrypt hook in
/etc/mkinitcpio.conf (_before_ the filesystems hook)
That's all, reboot and have fun! And look if your partitions still work after that ;-).
Backup of volume header
I think that its important to backup headers of your volumes. This should be mentioned in the wiki imo.
LVM2 and LUKS
I'm quite sure this section is misleading. You have to setup up encryption before LVM2 partitions on the decrypted device.
And you have to add the "encrypt" hook before the "lvm2" hook, because you need to make the decrypted device available before LVM2 imports volume groupe and makes logical volumes available.
Yet this chapter tends to tell the other way round. Is my English so bad ?
I agree.. I find this entire wiki article unnecessarily complicated .. this link for an LVM on top of an encrypted partition is MUCH!!! easier to follow, and for a laptop would be better. Arch Linux: LVM on top of an encrypted partition
- This section is misleading. What the author meant was if you encrypt the contents of LVM partitions, THEN you have to move the lvm2 hook before the encrypt hook. I made a few small changes, so other newbies (like me) don't end up with an unbootable system.
-- I also agree that the section needs a further overhaul, assuming here everyone commenting means the "Encrypting and LVM Setup" (because "LVM2 and LUKS" is not in the TOC). Having encrypt over (i.e. before) LVM is def the typical and easiest setup (and this should be expanded on more clearly in the wiki like in the link above I agree). However, all methods have a usecase. It depends what the user wants to achieve. Time permitting, the differences should be worked out. --Indigo (talk) 19:53, 18 September 2012 (UTC)
Prepare hard drive
The actual text is:
Skip the Partitioning and Auto-Prepare business and go straight to "Set Filesystem Mountpoints". When asked for your
/ (root) partition, do NOT select
/dev/sda3 as you normally would. Select
/dev/mapper/root instead. Similarly, use
/dev/mapper/home instead of
/dev/sda4 as the partition to be mounted as
/home. The same is valid for a swap partition which is set up like the home partition. Make sure you mount
/dev/sda1 as the
/boot partition or else the installer will not properly set up the bootloader.
but the Arch Linux installer says:
When asked for
/ (root) partition: is it
/dev/mapper/lvm-root. I suppose it is the first one because the second one does not match.
Decryption of root during boot with the assistance of UDEV when key is stored on USB drive between MBR and 1st Partition
The instructions in the wiki were very helpful but a bit confusing/lacking when it comes to getting Decryption via USB keyfile stored between MBR and 1st Partition.
System_Encryption_with_LUKS#Storing_the_key_between_MBR_and_1st_partition makes references to
/dev/usbkey but the previous instructions aren't entirely clear on how to ensure your usb drive can always be found at this location.
When modifying your bootloader you will be unable to use /dev/disk/by-uuid because you are not referencing a filesystem. You wouldn't want to use /dev/sd[x] because this can and will change depending on what other drives and media you have connected during boot. The best bet is to create a udev rule that will exist in early userspace to alias your usb drive to an arbitrary name, in this case "usbkey". The rule must be added to the initial ramdisk so it can be read and processed to alias your drive at /dev/usbkey before root decryption is attempted via the key hidden on the drive.
System_Encryption_with_LUKS#Using_udev runs you through the initial steps you need to create a basic rule based on the USB drive's serial number. That is the very same rule I used. I named the rules file "62-usbkey.rules" and placed it in
/etc/mkinitcpio.conf, look for the "FILES" section and add the udev rule that you created above:
# FILES # This setting is similar to BINARIES above, however, files are added # as-is and are not parsed in any way. This is useful for config files. # Some users may wish to include modprobe.conf for custom module options # like so: # FILES="/etc/modprobe.d/modprobe.conf" FILES="/etc/udev/rules.d/62-usbkey.rules"
Run mkinitcpio ala Mkinitcpio#Image_creation_and_activation and rebuild your ramdisk with the new udev rule you've included. You can now continue to follow the instructions in System_Encryption_with_LUKS#Storing_the_key_between_MBR_and_1st_partition to modify your bootloader and substitute references to "usbkey" to whatever you named your drive alias above.
S0ma 13:48, 16 December 2011 (EST)
Specifying skip and count in /etc/crypttab for /tmp
In this wiki article, Dm-crypt_with_LUKS#.2Fetc.2Fcrypttab, you're advised to put the following in your /etc/crypttab
tmp /dev/lvm/tmp /dev/urandom -c aes-xts-plain -s 512
But doing that will not work. More specifically in /etc/rc.d/functions:do_unlock() in switch case /dev/*. After debugging with some `set -x`:es I found that if you specify the dd count and skip parameters in crypttab it will work i.e., e.g.,
tmp /dev/lvm/tmp /dev/urandom:0:2048 -c aes-xts-plain -s 512
- Please add Template:Accuracy if you're not sure of something and want some feedback. I'm sorry but I can't help you on this now :) -- Kynikos (talk) 09:19, 18 July 2012 (UTC)
- After the latest update with systemd-cryptsetup this syntax is deprecated. Probably the whole wiki article should be reviewed and use the "new" syntax.--Erikw (talk) 23:53, 3 August 2012 (UTC)
GRUB-Legacy/GRUB2 changes regarding the Kernel Line
Since GRUB-Legacy doesn't play that much of a role anymore it'd be advisable to exchange the explainations for adjusting the kernel line in the bootloader to the procedure used in GRUB2.
For example @ the last step of #With_suspend-to-disk_support