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initrd - boot loader initialized RAM disk
The /dev/initrd is a read-only block device assigned major number 1 and
minor number 250. Typically /dev/initrd is owned by root.disk with
mode 0400 (read access by root only). If the Linux system does not
have /dev/initrd already created, it can be created with the following
mknod -m 400 /dev/initrd b 1 250
chown root:disk /dev/initrd
Also, support for both "RAM disk" and "Initial RAM disk" (e.g.
CONFIG_BLK_DEV_RAM=y and CONFIG_BLK_DEV_INITRD=y) must be compiled
directly into the Linux kernel to use /dev/initrd. When using
/dev/initrd, the RAM disk driver cannot be loaded as a module.
The special file /dev/initrd is a read-only block device. This device
is a RAM disk that is initialized (e.g., loaded) by the boot loader
before the kernel is started. The kernel then can use /dev/initrd's
contents for a two-phase system boot-up.
In the first boot-up phase, the kernel starts up and mounts an initial
root file-system from the contents of /dev/initrd (e.g., RAM disk
initialized by the boot loader). In the second phase, additional
drivers or other modules are loaded from the initial root device's
contents. After loading the additional modules, a new root file system
(i.e., the normal root file system) is mounted from a different device.
When booting up with initrd, the system boots as follows:
1. The boot loader loads the kernel program and /dev/initrd's contents
2. On kernel startup, the kernel uncompresses and copies the contents
of the device /dev/initrd onto device /dev/ram0 and then frees the
memory used by /dev/initrd.
3. The kernel then read-write mounts the device /dev/ram0 as the
initial root file system.
4. If the indicated normal root file system is also the initial root
file-system (e.g. /dev/ram0) then the kernel skips to the last step
for the usual boot sequence.
5. If the executable file /linuxrc is present in the initial root file-
system, /linuxrc is executed with UID 0. (The file /linuxrc must
have executable permission. The file /linuxrc can be any valid
executable, including a shell script.)
6. If /linuxrc is not executed or when /linuxrc terminates, the normal
root file system is mounted. (If /linuxrc exits with any file-
systems mounted on the initial root file-system, then the behavior
of the kernel is UNSPECIFIED. See the NOTES section for the current
7. If the normal root file system has a directory /initrd, the device
/dev/ram0 is moved from / to /initrd. Otherwise if the directory
/initrd does not exist, the device /dev/ram0 is unmounted. (When
moved from / to /initrd, /dev/ram0 is not unmounted and therefore
processes can remain running from /dev/ram0. If directory /initrd
does not exist on the normal root file system and any processes
remain running from /dev/ram0 when /linuxrc exits, the behavior of
the kernel is UNSPECIFIED. See the NOTES section for the current
8. The usual boot sequence (e.g., invocation of /sbin/init) is
performed on the normal root file system.
The following boot loader options, when used with initrd, affect the
kernel's boot-up operation:
Specifies the file to load as the contents of /dev/initrd. For
LOADLIN this is a command-line option. For LILO you have to use
this command in the LILO configuration file /etc/lilo.config.
The filename specified with this option will typically be a
gzipped file-system image.
This boot option disables the two-phase boot-up operation. The
kernel performs the usual boot sequence as if /dev/initrd was
not initialized. With this option, any contents of /dev/initrd
loaded into memory by the boot loader contents are preserved.
This option permits the contents of /dev/initrd to be any data
and need not be limited to a file system image. However, device
/dev/initrd is read-only and can be read only one time after
Specifies the device to be used as the normal root file system.
For LOADLIN this is a command-line option. For LILO this is a
boot time option or can be used as an option line in the LILO
configuration file /etc/lilo.config. The device specified by
the this option must be a mountable device having a suitable
Changing the Normal Root File System
By default, the kernel's settings (e.g., set in the kernel file with
rdev(8) or compiled into the kernel file), or the boot loader option
setting is used for the normal root file systems. For an NFS-mounted
normal root file system, one has to use the nfs_root_name and
nfs_root_addrs boot options to give the NFS settings. For more
information on NFS-mounted root see the kernel documentation file
Documentation/filesystems/nfsroot.txt. For more information on setting
the root file system see also the LILO and LOADLIN documentation.
It is also possible for the /linuxrc executable to change the normal
root device. For /linuxrc to change the normal root device, /proc must
be mounted. After mounting /proc, /linuxrc changes the normal root
device by writing into the proc files /proc/sys/kernel/real-root-dev,
/proc/sys/kernel/nfs-root-name, and /proc/sys/kernel/nfs-root-addrs.
For a physical root device, the root device is changed by having
/linuxrc write the new root file system device number into
/proc/sys/kernel/real-root-dev. For an NFS root file system, the root
device is changed by having /linuxrc write the NFS setting into files
/proc/sys/kernel/nfs-root-name and /proc/sys/kernel/nfs-root-addrs and
then writing 0xff (e.g., the pseudo-NFS-device number) into file
/proc/sys/kernel/real-root-dev. For example, the following shell
command line would change the normal root device to /dev/hdb1:
echo 0x365 >/proc/sys/kernel/real-root-dev
For an NFS example, the following shell command lines would change the
normal root device to the NFS directory /var/nfsroot on a local
networked NFS server with IP number 126.96.36.199 for a system with IP
number 188.8.131.52 and named "idefix":
echo /var/nfsroot >/proc/sys/kernel/nfs-root-name
echo 184.108.40.206:220.127.116.11::255.255.255.0:idefix \
echo 255 >/proc/sys/kernel/real-root-dev
Note: The use of /proc/sys/kernel/real-root-dev to change the root file
system is obsolete. See the kernel source file
Documentation/initrd.txt as well as pivot_root(2) and pivot_root(8) for
information on the modern method of changing the root file system.
The main motivation for implementing initrd was to allow for modular
kernel configuration at system installation.
A possible system installation scenario is as follows:
1. The loader program boots from floppy or other media with a minimal
kernel (e.g., support for /dev/ram, /dev/initrd, and the ext2 file-
system) and loads /dev/initrd with a gzipped version of the initial
2. The executable /linuxrc determines what is needed to (1) mount the
normal root file-system (i.e., device type, device drivers, file
system) and (2) the distribution media (e.g., CD-ROM, network, tape,
...). This can be done by asking the user, by auto-probing, or by
using a hybrid approach.
3. The executable /linuxrc loads the necessary modules from the initial
4. The executable /linuxrc creates and populates the root file system.
(At this stage the normal root file system does not have to be a
completed system yet.)
5. The executable /linuxrc sets /proc/sys/kernel/real-root-dev, unmount
/proc, the normal root file system and any other file systems it has
mounted, and then terminates.
6. The kernel then mounts the normal root file system.
7. Now that the file system is accessible and intact, the boot loader
can be installed.
8. The boot loader is configured to load into /dev/initrd a file system
with the set of modules that was used to bring up the system.
(e.g., Device /dev/ram0 can be modified, then unmounted, and
finally, the image is written from /dev/ram0 to a file.)
9. The system is now bootable and additional installation tasks can be
The key role of /dev/initrd in the above is to reuse the configuration
data during normal system operation without requiring initial kernel
selection, a large generic kernel or, recompiling the kernel.
A second scenario is for installations where Linux runs on systems with
different hardware configurations in a single administrative network.
In such cases, it may be desirable to use only a small set of kernels
(ideally only one) and to keep the system-specific part of
configuration information as small as possible. In this case, create a
common file with all needed modules. Then, only the /linuxrc file or a
file executed by /linuxrc would be different.
A third scenario is more convenient recovery disks. Because
information like the location of the root file-system partition is not
needed at boot time, the system loaded from /dev/initrd can use a
dialog and/or auto-detection followed by a possible sanity check.
Last but not least, Linux distributions on CD-ROM may use initrd for
easy installation from the CD-ROM. The distribution can use LOADLIN to
directly load /dev/initrd from CD-ROM without the need of any floppies.
The distribution could also use a LILO boot floppy and then bootstrap a
bigger ram disk via /dev/initrd from the CD-ROM.
1. With the current kernel, any file systems that remain mounted when
/dev/ram0 is moved from / to /initrd continue to be accessible.
However, the /proc/mounts entries are not updated.
2. With the current kernel, if directory /initrd does not exist, then
/dev/ram0 will not be fully unmounted if /dev/ram0 is used by any
process or has any file-system mounted on it. If /dev/ram0 is not
fully unmounted, then /dev/ram0 will remain in memory.
3. Users of /dev/initrd should not depend on the behavior give in the
above notes. The behavior may change in future versions of the
chown(1), mknod(1), ram(4), freeramdisk(8), rdev(8)
The documentation file initrd.txt in the kernel source package, the
LILO documentation, the LOADLIN documentation, the SYSLINUX
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