DISKLESS(8)						    BSD System Manager's Manual 					       DISKLESS(8)

NAME

     diskless -- booting a system over the network

DESCRIPTION

     The ability to boot a machine over the network is useful for diskless or dataless machines, or as a temporary measure while repairing or re-
     installing file systems on a local disk.  This file provides a general description of the interactions between a client and its server when a
     client is booting over the network.

OPERATION

     When booting a system over the network, there are three phases of interaction between client and server:

     1.   The stage-1 bootstrap, typically PXE built into your Ethernet card, loads a second-stage boot program.

     2.   The second-stage boot program, typically pxeboot(8), loads modules and the kernel, and boots the kernel.

     3.   The kernel NFS mounts the root directory and continues from there.

     Each of these phases are described in further detail below.

     First, the stage-1 bootstrap loads the stage-2 boot program over the network.  The stage-1 bootstrap typically uses BOOTP or DHCP to obtain
     the filename to load, then uses TFTP to load the file.  This file is typically called pxeboot, and should be copied from /boot/pxeboot into
     the TFTP directory on the server, which is typically /tftpdir.

     The stage-2 boot program then loads additional modules and the kernel.  These files may not exist on the DHCP or BOOTP server.  You can use
     the next-server option available in DHCP configurations to specify the server holding the second stage boot files and kernel.  The stage-2
     program uses NFS or TFTP to obtain these files.  By default, NFS is used.	If you are using pxeboot(8), you can install a version that uses
     TFTP by setting LOADER_TFTP_SUPPORT=YES in your make.conf(5), then recompiling and reinstalling pxeboot(8) via the command listed below.  It
     is often necessary to use TFTP here so you can place a custom kernel in /tftpdir/.  If you use NFS and do not have a custom root file system
     for the diskless client, the stage-2 boot will load your server's kernel as the kernel for the diskless machine, which may not be what you
     want to have happen.

	   cd /usr/src/sys/boot/i386
	   make clean; make; make install
	   cp /boot/pxeboot /tftpdir/

     In phase 3, the kernel acquires IP networking configuration in one of two ways, and then proceeds to mount the root file system and start
     operation.  If the phase 2 loader supports passing network configuration to the kernel using the kernel environment, then the kernel will
     configure the network interface using that information.  Otherwise, it must use DHCP or BOOTP to acquire configuration information.  The boot
     scripts recognize a diskless startup and perform the actions found in /etc/rc.d/resolv, /etc/rc.d/tmp, /etc/rc.d/var, and
     /etc/rc.initdiskless.

CONFIGURATION

     In order to run a diskless client, you need the following:

     o	 An NFS server which exports a root and /usr partitions with appropriate permissions.  The diskless scripts work with read-only parti-
	 tions, as long as root is exported with -maproot=0 so that some system files can be accessed.	As an example, /etc/exports can contain
	 the following lines:

	       <ROOT> -ro -maproot=0 -alldirs <list of diskless clients>
	       /usr -ro -alldirs <list of diskless clients>

	 where <ROOT> is the mount point on the server of the root partition.  The script /usr/share/examples/diskless/clone_root can be used to
	 create a shared read-only root partition, but in many cases you may decide to export (again as read-only) the root directory used by the
	 server itself.

     o	 A BOOTP or DHCP server.  bootpd(8) can be enabled by uncommenting the ``bootps'' line in /etc/inetd.conf.  A sample /etc/bootptab can be
	 the following:

		.default:
		   hn:ht=1:vm=rfc1048:
		   :sm=255.255.255.0:
		   :sa=<SERVER>:
		   :gw=<GATEWAY>:
		   :rp="<SERVER>:<ROOT>":

	       <CLIENT>:ha=0123456789ab:tc=.default

	 where <SERVER>, <GATEWAY> and <ROOT> have the obvious meanings.

     o	 A properly initialized root partition.  The script /usr/share/examples/diskless/clone_root can help in creating it, using the server's
	 root partition as a reference.  If you are just starting out, you should simply use the server's own root directory, /, and not try to
	 clone it.

	 You often do not want to use the same rc.conf or rc.local files for the diskless boot as you do on the server.  The diskless boot scripts
	 provide a mechanism through which you can override various files in /etc (as well as other subdirectories of root).

	 One difference that you should pay particular attention to is the value of local_startup in /etc/defaults/rc.conf.  A typical value for a
	 diskless boot is mountcritremote, however your needs may be different.

	 The scripts provide four overriding directories situated in /conf/base, /conf/default, /conf/<broadcast-ip>, and /conf/<machine-ip>.  You
	 should always create /conf/base/etc, which will entirely replace the server's /etc on the diskless machine.  You can clone the server's
	 /etc here or you can create a special file which tells the diskless boot scripts to remount the server's /etc onto /conf/base/etc.  You
	 do this by creating the file /conf/base/etc/diskless_remount containing the mount point to use as a basis of the diskless machine's /etc.
	 For example, the file might contain:

	       10.0.0.1:/etc

	 Alternatively, if the server contains several independent roots, the file might contain:

	       10.0.0.1:/usr/diskless/4.7-RELEASE/etc

	 This would work, but if you copied /usr/diskless/4.7-RELEASE to /usr/diskless/4.8-RELEASE and upgraded the installation, you would need
	 to modify the diskless_remount files to reflect that move.  To avoid that, paths in diskless_remount files beginning with / have the
	 actual path of the client's root prepended to them so the file could instead contain:

	       /etc

	 The diskless scripts create memory file systems to hold the overridden directories.  Only a 2MB partition is created by default, which
	 may not be sufficient for your purposes.  To override this, you can create the file /conf/base/etc/md_size containing the size, in 512
	 byte sectors, of the memory disk to create for that directory.

	 You then typically provide file-by-file overrides in the /conf/default/etc directory.	At a minimum, you must provide overrides for
	 /etc/fstab, /etc/rc.conf, and /etc/rc.local via /conf/default/etc/fstab, /conf/default/etc/rc.conf, and /conf/default/etc/rc.local.

	 Overrides are hierarchical.  You can supply network-specific defaults in the /conf/<BROADCASTIP>/etc directory, where <BROADCASTIP> rep-
	 resents the broadcast IP address of the diskless system as given to it via BOOTP.  The diskless_remount and md_size features work in any
	 of these directories.	The configuration feature works on directories other then /etc, you simply create the directory you wish to
	 replace or override in /conf/{base,default,<broadcast>,<ip>}/* and work it in the same way that you work /etc.

	 Since you normally clone the server's /etc using the /conf/base/etc/diskless_remount, you might wish to remove unneeded files from the
	 memory file system.  For example, if the server has a firewall but you do not, you might wish to remove /etc/ipfw.conf.  You can do this
	 by creating a /conf/base/<DIRECTORY>.remove file.  For example, /conf/base/etc.remove, which contains a list of relative paths that the
	 boot scripts should remove from the memory file systems.

	 As a minimum, you normally need to have the following in /conf/default/etc/fstab

	       <SERVER>:<ROOT> /     nfs    ro 0 0
	       <SERVER>:/usr   /usr  nfs    ro 0 0

	 You also need to create a customized version of /conf/default/etc/rc.conf which should contain the startup options for the diskless
	 client, and /conf/default/etc/rc.local which could be empty but prevents the server's own /etc/rc.local from leaking onto the diskless
	 system.

	 In rc.conf, most likely you will not need to set hostname and ifconfig_* because these will be already set by the startup code.  Finally,
	 it might be convenient to use a case statement using `hostname` as the switch variable to do machine-specific configuration in case a
	 number of diskless clients share the same configuration files.

     o	 The kernel for the diskless clients, which will be loaded using NFS or TFTP, must include support for the NFS client:

	       options NFSCL
	       options NFS_ROOT

	 If you are using a boot mechanism that does not pass network configuration to the kernel using the kernel environment, you will also need
	 to include the following options:

	       options BOOTP
	       options BOOTP_NFSROOT
	       options BOOTP_COMPAT

	 Note: the PXE environment does not require these options.

	 The diskless booting environment relies on memory-backed file systems to support temporary local storage in the event that the root file
	 system is mounted read-only; as such, it is necessary to add the following to the device section of the kernel configuration:

	       device md

	 If you use the firewall, remember to default to ``open'', or your kernel will not be able to send/receive the BOOTP packets.

SECURITY ISSUES

     Be warned that using unencrypted NFS to mount root and user partitions may expose information such as encryption keys.

SEE ALSO

     ethers(5), exports(5), make.conf(5), bootpd(8), mountd(8), nfsd(8), pxeboot(8), reboot(8), tftpd(8)

     ports/net/etherboot

BUGS

     This manpage is probably incomplete.

     FreeBSD sometimes requires to write onto the root partition, so the startup scripts mount MFS file systems on some locations (e.g. /etc and
     /var), while trying to preserve the original content.  The process might not handle all cases.

BSD
								  August 7, 2011							       BSD