# PXE Client Setup Configuration¶

All PXE boot based deployment methods are controlled by configuration files located in /srv/tftpboot/KIWI on the PXE server. Such a configuration file can either be client-specific (config.MAC_ADDRESS, for example config.00.AB.F3.11.73.C8), or generic (config.default).

In an environment with heterogeneous clients, this allows to have a default configuration suitable for the majority of clients, to have configurations suitable for a group of clients (for example machines with similar or identical hardware), and individual configurations for selected machines.

The configuration file contains data about the image and about configuration, synchronization, and partition parameters. The configuration file has got the following general format:

IMAGE="device;name;version;srvip;bsize;compressed,...,"

DISK="device"
PART="size;id;Mount,...,size;id;Mount"
RAID="raid-level;device1;device2;..."

AOEROOT=ro-device[,rw-device]

UNIONFS_CONFIGURATION="rw-partition,compressed-partition,overlayfs"

CONF="src;dest;srvip;bsize;[hash],...,src;dest;srvip;bsize;[hash]"

KIWI_BOOT_TIMEOUT="seconds"
KIWI_KERNEL_OPTIONS="opt1 opt2 ..."

REBOOT_IMAGE=1


Note

Quoting the Values

The configuration file is sourced by Bash, so the same quoting rules as for Bash apply.

Not all configuration options needs to be specified. It depends on the setup of the client which configuration values are required. The following is a collection of client setup examples which covers all supported PXE client configurations.

## Setup Client with Remote Root¶

To serve the image from a remote location and redirect all write operations on a tmpfs, the following setup is required:

# When using AoE, see vblade toolchain for image export

AOEROOT=/dev/etherd/e0.1
UNIONFS_CONFIG=tmpfs,aoe,overlay

# When using NFS, see exports manual page for image export

NFSROOT="192.168.100.2;/srv/tftpboot/image/root"
UNIONFS_CONFIG=tmpfs,nfs,overlay

# When using NBD, see nbd-server manual page for image export

NBDROOT=192.168.100.2;root_export;/dev/nbd0
UNIONFS_CONFIG=tmpfs,nbd,overlay


The above setup shows the most common use case where the image built with KIWI is populated over the network using either AoE, NBD or NFS in combination with overlayfs which redirects all write operations to be local to the client. In any case a setup of either AoE, NBD or NFS on the image server is required beforehand.

## Setup Client with System on Local Disk¶

To deploy the image on a local disk the following setup is required:

Note

In the referenced suse-leap-42.3-JeOS XML description the pxe type must be changed as follows and the image needs to be rebuild:

<type image="pxe" filesystem="ext3" boot="netboot/suse-leap42.3"/>

IMAGE="/dev/sda2;LimeJeOS-Leap-42.3.x86_64;1.42.3;192.168.100.2;4096"
DISK="/dev/sda"
PART="5;S;X,X;L;/"


The setup above will create a partition table on sda with a 5MB swap partition (no mountpoint) and the rest of the disk will be a Linux(L) partition with / as mountpoint. The (X) in the PART setup specifies a place holder to indicate the default behaviour.

## Setup Client with System on Local MD RAID Disk¶

To deploy the image on a local disk with prior software RAID configuration, the following setup is required:

Note

In the referenced suse-leap-42.3-JeOS XML description the pxe type must be changed as follows and the image needs to be rebuild:

<type image="pxe" filesystem="ext3" boot="netboot/suse-leap42.3"/>

RAID='1;/dev/sda;/dev/sdb'
IMAGE="/dev/md1;LimeJeOS-Leap-42.3.x86_64;1.42.3;192.168.100.2;4096"
PART="5;S;x,x;L;/"


The first parameter of the RAID line is the RAID level. So far only raid1 (mirroring) is supported. The second and third parameter specifies the raid disk devices which make up the array. If a RAID line is present all partitions in PART will be created as RAID partitions. The first RAID is named md0, the second one md1 and so on. It is required to specify the correct RAID partition in the IMAGE line according to the PART setup. In this case md0 is reserved for the SWAP space and md1 is reserved for the system.

In order to load for example a custom /etc/hosts file on the client, the following setup is required:

CONF="hosts;/etc/hosts;192.168.1.2;4096;ffffffff"


On boot of the client KIWI’s boot code will fetch the hosts file from the root of the server (192.168.1.2) with 4k blocksize and deploy it as /etc/hosts on the client. The protocol is by default tftp but can be changed via the kiwiservertype kernel commandline option. For details, see Setup a Different Download Protocol and Server

## Setup Client to Force Reload Image¶

To force the reload of the system image even if the image on the disk is up-to-date, the following setup is required:

RELOAD_IMAGE=1


The option only applies to configurations with a DISK/PART setup

## Setup Client to Force Reload Configuration Files¶

To force the reload of all configuration files specified in CONF, the following setup is required:

RELOAD_CONFIG=1


By default only configuration files which has changed according to their md5sum value will be reloaded. With the above setup all files will be reloaded from the PXE server. The option only applies to configurations with a DISK/PART setup

## Setup Client for Reboot After Deployment¶

To reboot the system after the initial deployment process is done the following setup is required:

REBOOT_IMAGE=1


## Setup custom kernel boot options¶

To deactivate the kernel mode setting on local boot of the client the following setup is required:

KIWI_KERNEL_OPTIONS="nomodeset"


Note

This does not influence the kernel options passed to the client if it boots from the network. In order to setup those the PXE configuration on the PXE server needs to be changed

## Setup a Custom Boot Timeout¶

To setup a 10sec custom timeout for the local boot of the client the following setup is required.

KIWI_BOOT_TIMEOUT="10"


Note

This does not influence the boot timeout if the client boots off from the network.

By default all downloads controlled by the KIWI linuxrc code are performed by an atftp call using the TFTP protocol. With PXE the download protocol is fixed and thus you cannot change the way how the kernel and the boot image (initrd) is downloaded. As soon as Linux takes over, the download protocols http, https and ftp are supported too. KIWI uses the curl program to support the additional protocols.
kiwiserver=192.168.1.1 kiwiservertype=ftp

To set up this parameters edit the file /srv/tftpboot/pxelinux.cfg/default on your PXE boot server and change the append line accordingly.
Once configured all downloads except for kernel and initrd are now controlled by the given server and protocol. You need to make sure that this server provides the same directory and file structure as initially provided by the kiwi-pxeboot package