Difference between revisions of "Booting with an NFS Root Filesystem"
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It is possible to boot most EMAC OE systems using NFS (Network File System) as the root filesystem. This method can be especially useful during development where the root filesystem is changing frequently. This can save time as well as wear on the on-board flash device. This page describes the steps required to boot over NFS. | It is possible to boot most EMAC OE systems using NFS (Network File System) as the root filesystem. This method can be especially useful during development where the root filesystem is changing frequently. This can save time as well as wear on the on-board flash device. This page describes the steps required to boot over NFS. |
Revision as of 12:44, 3 January 2014
It is possible to boot most EMAC OE systems using NFS (Network File System) as the root filesystem. This method can be especially useful during development where the root filesystem is changing frequently. This can save time as well as wear on the on-board flash device. This page describes the steps required to boot over NFS.
Contents
Prerequisites
Some prerequisites must be met prior to being able to boot a root filesystem over NFS.
TFTP Server
A TFTP server is required to host the kernel image. For information on installing a TFTP server, see Installing TFTP server.
NFS Server
To boot an EMAC OE system over NFS, an NFS server must be available on the local network. This is often the same machine that is being used for software development. EMAC recommends using the nfs-kernel-server
package available on most desktop Linux distributions if setting up a new NFS server. Once the server has been installed, export a directory to use as the root filesystem. This is often done using the /etc/exports
file. This document assumes that the root filesystem for the board will be located at /srv/nfs/rootfs
on the NFS server.
For more information on setting up an NFS server, see Setting up an NFS File Server.
Root Filesystem
A complete root filesystem for the EMAC OE system to boot from must be stored on the NFS server. The NFS server must be configured to allow clients to access this filesystem. The root filesystem does not have to be the directory shared by the NFS filesystem; it can be in a subdirectory, which means many root filesystems can be shared by one NFS server.
Configuring the Client to Boot from NFS
The method used to configure a client to boot with an NFS mounted root filesystem depends on the type of bootloader the machine uses. Configuring U-Boot for booting over NFS is covered here.
Configuring U-Boot
A series of U-Boot commands are used to tell U-Boot to boot an NFS filesystem:
U-Boot> set autoload no U-Boot> dhcp DHCP client bound to address 10.0.0.100
set autoload no
- tell U-Boot not to try to load an image after an IP address is acquired from the DHCP server.dhcp
- tell U-Boot to use DHCP to acquire an IP address. In this example, the DHCP server assigned10.0.0.100
as the IP address for the machine.
U-Boot> set serverip 10.0.0.20
- set the IP address of the TFTP server to
10.0.0.20
. This is the server which hosts the Linux kernel which will be used by the machine.
U-Boot> setenv bootargs console=${console} root=/dev/nfs rootfstype=nfs ip=dhcp nfsroot=10.0.0.20:/srv/nfs/test_fileystem
This line sets up the environment needed to boot from the NFS server. These options will be passed to the Linux kernel when booting it.
console=${console}
- tells Linux to use the console setting from the U-Boot environment variable; this will usually be something along the lines ofconsole=ttyS0,115200n8
.root=/dev/nfs
- tells Linux to instantiate with the virtual device,/dev/nfs
, as the root filesystem.rootfstype=nfs
- tells Linux that the root filesystem is of the NFS variety.ip=dhcp
- tells Linux to acquire an IP address by requesting one from the DHCP server.nfsroot=10.0.0.20:/srv/nfs/test_filesystem
- tells Linux to look for an NFS server at10.0.0.20
and to mount the/srv/nfs/test_filesystem
directory as the root filesystem for the machine.
U-Boot> tftp ${loadaddr} uImage ... Loading: ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# #####################
tftp ${loadaddr} uImage
- tells U-Boot to load the kernel from the TFTP server, whose IP address was set earlier with theset serverip 10.0.0.20
command. The filename U-Boot requests from the TFTP server isuImage
, and it stores it in the memory location pointed to byloadaddr
. The text which follows displays U-Boot's progress in loading the kernel into RAM. When the U-Boot prompt returns, the environment is fully setup and ready to boot from an NFS root filesystem.
U-Boot> bootm
bootm
tells U-Boot to boot from RAM. This means it boots the kernel which was just loaded into RAM, passing the commandline arguments specified bybootargs
to the Linux kernel as it does so.
The machine should now boot, and show output on its console as it does so.
If it is desired to have the machine boot from NFS every time type in the command below before booting.
U-Boot> saveenv
Conclusion
Using NFS for the root filesystem allows boards to boot quickly into test versions of a filesystem, provides a tool for remotely backing up the filesystem installed on an embedded machine, can provide a central filesystem image for many boards which can allow updating one filesystem to update all boards which use it simultaneously, and more. Setting up a machine to boot to a root filesystem via NFS requires little work; most of the work is in setting up the server.