Diskless netboot
Contents
Context and aim
Aim
We aim to use the same distribution everywhere. The client doesn't need any hard drive to run, they will retrieve the file system from the TFTP server and use a NFS share as hard drive. The system will only run in RAM disk.
So:
- All the clients will share the installation, configuration files and so on.
- Each client will run a dedicated instance of the operating system in his own RAM disk
- Logs will be centralized on the common NFS server - so we don't loose data on each reboot.
- The user will be able to choose the O.S to run on boot - thanks to a PXE menu
Requirements:
Optional:
Target folder tree (server side)
This is how we'll setup our files and folders:
# TFTP root
/tftpboot/
###############
# Network bootable image(s) using NFS technology
################
#### Boot file
/tftpboot/pxelinux.0 # Initial boot file - only use to load the PXE NetBoot manager
/tftpboot/{menu.c32 || vesamenu.c32} # PXE interactive menu managers (text or graphical)
/tftpboot/pxelinux.cfg/ # PXE configuration(s)
/tftpboot/pxelinux.cfg/default # default PXE configuration
#### Kernel file
/tftpboot/images/
# Debian 7.x [Wheezy]
/tftpboot/images/wheezy/
/tftpboot/images/wheezy/vmlinuz
/tftpboot/images/wheezy/initrd.img
# [X]Ubuntu 14.04 [Trusty]
/tftpboot/images/trusty/
/tftpboot/images/trusty/vmlinuz
/tftpboot/images/trusty/initrd.img
#### NFS
# This is where the runnable will be. Each image will be in a dedicated folder.
/nfs/
# Debian 7.x [Wheezy]
/nfs/wheezy/
# Ubuntu 14.04 [Trusty]
/nfs/trusty/
Installation
NFS support
apt-get install nfs-kernel-server nfs-common
Debootstrap (manage netboot image)
apt-get install debootstrap
Initramfs (to manage "virtual disks")
apt-get install initramfs-tools
Preparation
You have to create a dedicated folder on your server where you will host the distributions kernels + Boot settings.
mkdir -p /tftpboot/pxelinux.cfg
chmod -R 755 /tftpboot/pxelinux.cfg
mkdir -p /tftpboot/images
chmod -R 755 /tftpboot/images
The pxelinux.cfg/ folder is mandatory. Inside you can provide:
- configuration for a specific IP @ or hostname
- configuration for a group
- default configuration (required)
The first thing to do is to setup a booting kernel. To do so we'll use the "syslinux" files.
Root file: pxelinux.0
The pxelinux.0 is the root file. That's the file that allows the netboot.
This is the file that is serve by the TFTP server.
cp /usr/lib/syslinux/pxelinux.0 /tftpboot/
Now, we have to specify which kernel to use and which distributions are available for NetBoot.
Create the default configuration file:
vim /tftpboot/pxelinux.cfg/default
Put the following:
# Debian 7.x
LABEL wheezy
kernel images/wheezy/vmlinuz
initrd images/wheezy/initrd.img
# Ubuntu 14.04
LABEL trusty
kernel images/trusty/vmlinuz
initrd images/trusty/initrd.img
# Prompt user for selection
PROMPT 1
# No timeout
TIMEOUT 0
- Each LABEL is a specific configuration that will displayed on the NetBoot menu.
- PROMPT 0 = enable user prompt so you can choose the configuration
- TIMEOUT 0 = timeout (in seconds) before the default option is chosen. 0 == no timeout
Note that I used a reference to "trusty/", that's a folder I need to create later on.
Init Kernel files
Create directories
Create the target kernel folders. You should create 1 folder for each distribution you'd like to provide in NetBoot.
# Debian 7.x
mkdir -p /tftpboot/images/wheezy
# Ubuntu 14.04
mkdir -p /tftpboot/images/trusty
Prepare initramfs to boot over NFS
This step must to be run on the machine that has the kernel you are going to serve to your clients.
>>> In our case it has to be run on the TFTP server
Copy initramfs settings for PXE boot
cp -r /etc/initramfs-tools /etc/initramfs-pxe
Adjust PXE boot configuration
cd /etc/initramfs-pxe/
vim /etc/initramfs-pxe/initramfs.conf
Add / adjust the following options:
BOOT=nfs
MODULE=netboot
#
# KEYMAP: [ y | n ]
#
# Load a keymap during the initramfs stage.
# >> If you don't want an US keyboard put "y"
#
KEYMAP=y
Copy and prepare kernel
You have to copy your current kernel files to the boot folder:
# Debian 7.x
cp /boot/vmlinuz-`uname -r` /tftpboot/images/wheezy/vmlinuz
cp /boot/initrd.img-`uname -r` /tftpboot/images/wheezy/initrd.img
# Ubuntu 14.04
cp /boot/vmlinuz-`uname -r` /tftpboot/images/trusty/vmlinuz
cp /boot/initrd.img-`uname -r` /tftpboot/images/trusty/initrd.img
Enable NFS boot on target kernel:
mkinitramfs -d /etc/initramfs-pxe -o /tftpboot/images/trusty/initrd.img
Adjust rights:
chmod -R 755 /tftpboot/images/
Notes:
- Do NOT use some symlink for "vmlinuz" and "initrd.img" !! It won't work.
- If you don't want to use `uname -r` [current kernel version and architecture] then adjust the values to target kernel number + architecture
- You have to run mkinitramfs for each kernel you'll provide
- Don't forget to adjust the rights to 755 for every distribution
NFS server setup
Configuration
The NFS configuration is done in the /etc/exports file
vim /etc/exports
Add something like that:
/nfs 192.168.2.0/24(ro,no_root_squash,no_subtree_check,async,insecure)
Adjust "192.168.2.0/24" to your own network address
- rw : Allow clients to read as well as write access
- ro : Read only access
- insecure : Tells the NFS server to use unpriveledged ports (ports > 1024).
- no_subtree_check : If the entire volume (/users) is exported, disabling this check will speed up transfers.
- async : async will speed up transfers.
- no_root_squash: This phrase allows root to connect to the designated directory.
- NOTE -
- It's always a good idea to use Read-Only if you plan to share this disk. That will avoid user to mess with your image!
- There must not be any space between network IP and "("
Security
Like TFTP, this part is insecure !
You must restrict the access to your NFS server by a firewall script and filtering BEFORE reaching the LAN !
NFS is using dynamic ports numbers because it runs over rpcbind. Making NFS using specifics port is a pain in the ass !! :(
So, instead of that you should allow your LAN communication.
IPTABLES=`which iptables`
LAN_ADDRESS="192.168.2.0/24"
# Allow LAN communication
$IPTABLES -A INPUT -s $LAN_ADDRESS -d $LAN_ADDRESS -m state ! --state INVALID -j ACCEPT
$IPTABLES -A OUTPUT -s $LAN_ADDRESS -d $LAN_ADDRESS -m state ! --state INVALID -j ACCEPT
Management
service nfs-kernel-server {status|start|stop|restart}
Test the server
Install the NFS v4 client:
apt-get install nfs-common
To mount the default path:
mount -t nfs nfs-server:/ /mnt
You'll see: "/nfs"
It's better to do:
mount -t nfs nfs-server:/nfs /mnt
NFS client image
There are different way to setup a NFS client image.
The main ones are:
- Manually
- debootstrap
- copying the install from your server
- Manual install on a client, then, when the system is ready, copy everything to the NFS share
- Using script and software like "Puppet" or "Chef"
Setup client distribution
You have to create one target for each distribution you want to serve:
mkdir -p /nfs/trusty
mkdir -p /nfs/wheezy
- NOTES -
- The folder name should match your NetBoot settings. Folder name = a LABEL in the NetBoot config.
- The folder name should match a Linux (Debian like) distribution name
Configure client distribution
- Manual configuration: Diskless image configuration - manual setup
- Automatic [Puppet || Chef] configuration: Diskless image configuration - script setup
Kernel modules and source
If you're using a local kernel as the default NetBoot kernel, then you need to do copy the modules + kernel source to every distribution.
# Copy kernel modules
cp -r /lib/modules/`uname -r` /nfs/trusty/lib/modules
# Copy kernel sources
cp -r /usr/src/linux-headers-`uname -r` /nfs/trusty/usr/src
Note that you have to adjust the /nfs/XXX
Backup distribution
You can create an archive of your current distribution for later restore / re-use.
Compression
cd /nfs
tar cvpjf trusty.tar.bz2 ./trusty
Restoration
cd /nfs
tar -xvjf trusty.tar.bz2
You can create interactive NetBoot menus, see:
References
Ubuntu diskless how-to: https://help.ubuntu.com/community/DisklessUbuntuHowto
Mind reference: http://mindref.blogspot.se/2011/03/debian-diskless.html
Super video tutorials: