The Intel® Preboot eXecution Environment
(PXE) allows an operating system to boot over
the network. For example, a FreeBSD system can boot over the
network and operate without a local disk, using file systems
mounted from an NFS server.
PXE support is usually available in the
BIOS. To use PXE when the
machine starts, select the Boot from network
option in the BIOS setup or type a function
key during system initialization.
In order to provide the files needed for an operating system to boot over the network, a PXE setup also requires properly configured DHCP, TFTP, and NFS servers, where:
Initial parameters, such as an IP address, executable boot filename and location, server name, and root path are obtained from the DHCP server.
The operating system loader file is booted using TFTP.
The file systems are loaded using NFS.
When a computer PXE boots, it receives
information over DHCP about where to obtain
the initial boot loader file. After the host computer receives
this information, it downloads the boot loader via
TFTP and then executes the boot loader. In
FreeBSD, the boot loader file is
/boot/pxeboot. After
/boot/pxeboot executes, the FreeBSD kernel is
loaded and the rest of the FreeBSD bootup sequence proceeds, as
described in Chapter 12, The FreeBSD Booting Process.
This section describes how to configure these services on a FreeBSD system so that other systems can PXE boot into FreeBSD. Refer to diskless(8) for more information.
Caution:
As described, the system providing these services is insecure. It should live in a protected area of a network and be untrusted by other hosts.
The steps shown in this section configure the built-in
NFS and TFTP servers.
The next section demonstrates how to install and configure the
DHCP server. In this example, the
directory which will contain the files used by
PXE users is
/b/tftpboot/FreeBSD/install. It is
important that this directory exists and that the same
directory name is set in both
/etc/inetd.conf and
/usr/local/etc/dhcpd.conf.
Create the root directory which will contain a FreeBSD installation to be NFS mounted:
#export NFSROOTDIR=/b/tftpboot/FreeBSD/install#mkdir -p ${NFSROOTDIR}Enable the NFS server by adding this line to
/etc/rc.conf:nfs_server_enable="YES"
Export the diskless root directory via NFS by adding the following to
/etc/exports:/b -ro -alldirs -maproot=root
Start the NFS server:
#service nfsd startEnable inetd(8) by adding the following line to
/etc/rc.conf:inetd_enable="YES"
Uncomment the following line in
/etc/inetd.confby making sure it does not start with a#symbol:tftp dgram udp wait root /usr/libexec/tftpd tftpd -l -s /b/tftpboot
Note:
Some PXE versions require the TCP version of TFTP. In this case, uncomment the second
tftpline which containsstream tcp.Start inetd(8):
#service inetd startInstall the base system into
${NFSROOTDIR}, either by decompressing the official archives or by rebuilding the FreeBSD kernel and userland (refer to Section 23.5, “Updating FreeBSD from Source” for more detailed instructions, but do not forget to addDESTDIR=when running the${NFSROOTDIR}make installkernelandmake installworldcommands.Test that the TFTP server works and can download the boot loader which will be obtained via PXE:
#tftp localhosttftp>get FreeBSD/install/boot/pxebootReceived 264951 bytes in 0.1 secondsEdit
${NFSROOTDIR}/etc/fstaband create an entry to mount the root file system over NFS:# Device Mountpoint FSType Options Dump Pass
myhost.example.com:/b/tftpboot/FreeBSD/install / nfs ro 0 0Replace
myhost.example.comwith the hostname or IP address of the NFS server. In this example, the root file system is mounted read-only in order to prevent NFS clients from potentially deleting the contents of the root file system.Set the root password in the PXE environment for client machines which are PXE booting :
#chroot ${NFSROOTDIR}#passwdIf needed, enable ssh(1) root logins for client machines which are PXE booting by editing
${NFSROOTDIR}/etc/ssh/sshd_configand enablingPermitRootLogin. This option is documented in sshd_config(5).Perform any other needed customizations of the PXE environment in
${NFSROOTDIR}. These customizations could include things like installing packages or editing the password file with vipw(8).
When booting from an NFS root volume,
/etc/rc detects the
NFS boot and runs
/etc/rc.initdiskless. In this case,
/etc and /var need
to be memory backed file systems so that these directories are
writable but the NFS root directory is
read-only:
#chroot ${NFSROOTDIR}#mkdir -p conf/base#tar -c -v -f conf/base/etc.cpio.gz --format cpio --gzip etc#tar -c -v -f conf/base/var.cpio.gz --format cpio --gzip var
When the system boots, memory file systems for
/etc and /var will
be created and mounted and the contents of the
cpio.gz files will be copied into
them. By default, these file systems have a maximum capacity
of 5 megabytes. If your archives do not fit, which is
usually the case for /var when binary
packages have been installed, request a larger size by putting
the number of 512 byte sectors needed (e.g., 5 megabytes
is 10240 sectors) in
${NFSROOTDIR}/conf/base/etc/md_size and
${NFSROOTDIR}/conf/base/var/md_size
files for /etc and
/var file systems respectively.
The DHCP server does not need to be the same machine as the TFTP and NFS server, but it needs to be accessible in the network.
DHCP is not part of the FreeBSD base system but can be installed using the net/isc-dhcp43-server port or package.
Once installed, edit the configuration file,
/usr/local/etc/dhcpd.conf. Configure
the next-server,
filename, and
root-path settings as seen in this
example:
subnet 192.168.0.0 netmask 255.255.255.0 {
range 192.168.0.2 192.168.0.3 ;
option subnet-mask 255.255.255.0 ;
option routers 192.168.0.1 ;
option broadcast-address 192.168.0.255 ;
option domain-name-servers 192.168.35.35, 192.168.35.36 ;
option domain-name "example.com";
# IP address of TFTP server
next-server 192.168.0.1 ;
# path of boot loader obtained via tftp
filename "FreeBSD/install/boot/pxeboot" ;
# pxeboot boot loader will try to NFS mount this directory for root FS
option root-path "192.168.0.1:/b/tftpboot/FreeBSD/install/" ;
}The next-server directive is used to
specify the IP address of the
TFTP server.
The filename directive defines the path
to /boot/pxeboot. A relative filename is
used, meaning that /b/tftpboot is not
included in the path.
The root-path option defines the path
to the NFS root file system.
Once the edits are saved, enable DHCP
at boot time by adding the following line to
/etc/rc.conf:
dhcpd_enable="YES"
Then start the DHCP service:
#service isc-dhcpd start
Once all of the services are configured and started, PXE clients should be able to automatically load FreeBSD over the network. If a particular client is unable to connect, when that client machine boots up, enter the BIOS configuration menu and confirm that it is set to boot from the network.
This section describes some troubleshooting tips for isolating the source of the configuration problem should no clients be able to PXE boot.
Use the net/wireshark package or port to debug the network traffic involved during the PXE booting process, which is illustrated in the diagram below.
Figure 31.1. PXE Booting Process with NFS Root Mount
Client broadcasts a
DHCPDISCOVERmessage.
The DHCP server responds with the IP address,
next-server,filename, androot-pathvalues.
The client sends a TFTP request to
next-server, asking to retrievefilename.
The TFTP server responds and sends
filenameto client.
The client executes
filename, which is pxeboot(8), which then loads the kernel. When the kernel executes, the root file system specified byroot-pathis mounted over NFS.On the TFTP server, read
/var/log/xferlogto ensure thatpxebootis being retrieved from the correct location. To test this example configuration:#tftp 192.168.0.1tftp>get FreeBSD/install/boot/pxebootReceived 264951 bytes in 0.1 secondsThe
BUGSsections in tftpd(8) and tftp(1) document some limitations with TFTP.Make sure that the root file system can be mounted via NFS. To test this example configuration:
#mount -t nfs 192.168.0.1:/b/tftpboot/FreeBSD/install /mnt