Diskless network boot NBD root
- 1 Boot from a NBD root device
- 2 Advantages over NFS
- 3 Server-Side Setup
- 4 Boot configuration
- 5 Configuring the NBD server
- 6 Using a swap partition
- 7 Known Problems
Boot from a NBD root device
This article will explain how to boot an ArchLinux Installation from a Network Block Device (NBD).
Much of the work to be done is based on the article Diskless network boot NFS root, so this will be referenced several times within the article.
Advantages over NFS
The main advantages are that NBD is faster and that you can boot from an encrypted or LVM-based NBD root device. One disadvantage is that you cannot update your kernel from within the running diskless client, although this may be worked around by mounting /boot via NFS.
Create the NBD File and Boot Directory
Create a directory that will hold the boot directory and the NBD file.
mkdir -p /nbd/boot/
Next, create the actual file that will be shared via NBD. Of course you can also use an actual block device (a hard drive) instead of creating a file on your filesystem. Just replace /nbd/root with the block device. In this example we are going to create a file with a size of 5GB.
dd if=/dev/zero of=/nbd/root bs=1M count=5000
Now you can create a filesystem on the file.
mkfs will show you warning about the fact that the file is no actual block device. You can ignore this and simply press y to continue.
Alternatively, if you want to create an encrypted NBD device:
cryptsetup luksFormat -s 256 /nbd/root cryptsetup luksOpen /nbd/root nbdcrypt mkfs.ext4 /dev/mapper/nbdcrypt
Install ArchLinux on the NBD filesystem
Mount the filesystem:
mount /nbd/root /mnt
Now follow the instructions here, but be aware of three things:
- make sure you use /mnt instead of /disklessroot
- you are going to have to install the mkinitcpio-nbd package from AUR before recreating the kernel image
- the editing of /mnt/etc/mkinitcpio.conf is different for NBD
Set the following hook list in /mnt/etc/mkinitcpio.conf:
HOOKS="base udev net nbd filesystems"
If you use an encrypted NBD device, use this:
HOOKS="base udev net nbd usbinput keymap encrypt filesystems"
Then continue with the instructions about recreating the kernel image in the NFS article.
After leaving the chroot, the kernel image will be in /mnt/boot/. We are going to need it in /nbd/boot:
cp /mnt/boot/vmlinuz26 /nbd/boot/ cp /mnt/boot/kernel26.img /nbd/boot/
Make sure you set NETWORK_PERSIST="yes" and your own settings in /mnt/etc/rc.conf. Also edit /mnt/etc/locale.gen and make sure your locales are enabled.
Follow the instructions here. Just make sure you use /nbd/boot/ instead of /disklessroot/boot/ for the TFTP-Root.
Copy the pxelinux.0 boot file from syslinux to /nbd/boot and create the pxelinux.cfg directory:
cp /usr/lib/syslinux/pxelinux.0 /nbd/boot/ mkdir /nbd/boot/pxelinux.cfg/
Now create and edit /nbd/boot/pxelinux.cfg/default, which contains the boot configuration for the client. Replace the value for nbd_server with the IP and Port your NBD server will be running on.
default linux label linux kernel vmlinuz26 append initrd=kernel26.img ip=::::::dhcp nbd_server=192.168.0.1:10809 root=/dev/nbd0
See here for details about the ip option.
If your NBD device is encrypted, use the following append line instead:
append initrd=kernel26.img ip=::::::dhcp nbd_server=192.168.0.1:10809 cryptdevice=/dev/nbd0:nbdcrypt root=/dev/mapper/nbdcrypt
Configuring the NBD server
Using a swap partition
Although this has not been tested yet, you should be able to do this by creating a LVM volume group on /dev/nbd0 that will contain the root and swap partition and adding lvm2 before the filesystems hook in /mnt/etc/mkinitcpio.conf.
Shutdown will hang at "Sending SIGTERM to processes". This probably happens because this also kills the nbd-client process and the connection to the root device is therefore lost. Unfortunately, there is currently no workaround for this.