.\" -*- nroff -*- .ds g \" empty .ds G \" empty .\" Like TP, but if specified indent is more than half .\" the current line-length - indent, use the default indent. .de Tp .ie \\n(.$=0:((0\\$1)*2u>(\\n(.lu-\\n(.iu)) .TP .el .TP "\\$1" .. .TH MKINITRD 8 "27 March 2010" "Slackware Version 13.1" .SH NAME mkinitrd \- create or rebuilt an initrd (initial ramdisk) using initramfs (simple cpio+gzip). .SH SYNOPSIS .B mkinitrd [ .B \-F ] [ .B \-c ] [ .B \-f filesystem ] [ .B \-h hibernate_partition ] [ .B \-k kernel_version ] [ .B \-m module1:module2:module3... ] [ .B \-o output_file ] [ .B \-r root_device ] [ .B \-s source_tree ] [ .B \-u ] [ .B \-w wait_time ] [ .B \-C device1:device2:device3... ] [ .B \-K luks_keyfile ] [ .B \-L ] [ .B \-R ] [ .B \-V ] .SH DESCRIPTION .B mkinitrd is used to build an initial ramdisk. An initial ramdisk is a very small set of files that are loaded into RAM and "mounted" (as initramfs doesn't actually use a filesystem) as the kernel boots (before the main root filesystem is mounted). The usual reason to use an initrd is because you need to load kernel modules before mounting the root partition. Usually these modules are required to support the filesystem used by the root partition (ext3, reiserfs, xfs), or perhaps the controller that the hard drive is attached to (SCSI, RAID, etc). Essentially, there are so many different options available in modern Linux kernels that it isn't practical to try to ship many different kernels to try to cover everyone's needs. It's a lot more flexible to ship a generic kernel and a set of kernel modules for it. .SH OPTIONS .TP .B \-F Use the contents of /etc/mkinitrd.conf as options to mkinitrd (optional). If this is used in conjunction with any other options passed on the command line, the command-line options will override the config file options. .br See mkinitrd.conf(5) for details. .TP .B \-c Clear the existing initrd tree (by default in /boot/initrd-tree/) first. If this is not done, running mkinitrd will add additional modules to the existing initrd. .TP .B \-f filesystem Specify the filesystem to use for the root partition. If this isn't given, mount will usually figure it out. This option must be used together with the \-r option in order to be beneficial. .TP .B \--help Display a help summary. .TP .B \-h hibernate_partition Specify the swap partition holding the hibernation image. .TP .B \-k kernel version Use kernel modules from the specified kernel version. mkinitrd will look for them in /lib/modules/(kernel version). .TP .B \-l keymap Load an alternative keyboard mapping. All supported keyboard mappings can be found in /usr/share/mkinitrd/keymaps.tar.gz Leave the '.bmap' out when you supply this parameter. E.g. '-l nl' will add support for dutch keyboard mapping to the initrd. .TP .B \-m module list This is a list of colon-delimited modules to build into the initrd. Any dependencies of requested modules will also be added to the initrd. Additional options may be added to use when loading the kernel modules (but in this case the entire list must be wrapped with double quotes). .TP .B \-o output image The file to write the initrd to. (default: /boot/initrd.gz) .TP .B \-r root partition Specify the device to be used as the root partition. If this isn't given, the kernel default will be used (which is usually fine). This option must be used together with the \-f option in order to be beneficial. .TP .B \-s source tree The directory to use as the source for the initrd. (default: /boot/initrd-tree/) .TP .B \-u Include udev in the initrd. .TP .B \-w The -w option specifies how long to wait in seconds before assuming that all the drives are spun up and ready to go. .TP .B \-C device list A colon (:) delimited list of luks encrypted block devices to be unlocked by the initrd using cryptsetup. All devices that must be unlocked in order to access the root filesystem must be specified. e.g. -C /dev/sda2:/dev/sda3 Each unlocked device will be assigned an automatically generated luks device name of the form luks where '' will be the basename of the encrypted device. e.g. /dev/mapper/lukssda2 As a convenience to users, where -r specifies one of the device names listed on the -C option it will be automatically adjusted to use the correct luks device name. i.e. "-C /dev/sda2 -r /dev/sda2" and "-C /dev/sda2 -r /dev/mapper/lukssda2" are equivalent. .br (Use with '-r' option). .TP .B \-K luks_keyfile When using cryptsetup to encrypt your partition, you can use a keyfile instead of a passphrase to unlock the LUKS volume. The LUKSKEY variable holds the filename of a keyfile, as well as the label (or uuid) of the partition this file is on. This way, you can unlock your computer automatically if you have a USB stick with your LUKS key inserted at boot. A passphrase will still be asked if the LUKS key can not be found. .br For example, if your USB thumb drive has a FAT partition with label "TRAVELSTICK" and the actual keyfile is called "/keys/alien.luks", then you need to set: -K LABEL=TRAVELSTICK:/keys/alien.luks .TP .B \-L This option adds LVM support to the initrd, if the tools are available on the system. .TP .B \-R This option adds RAID support to the initrd, if a static mdadm binary is available on the system. .TP .B \-V Display version information and exit. .SH EXAMPLES A simple example: Build an initrd for a reiserfs root partition: mkinitrd -c -m reiserfs Another example: Build an initrd image using Linux 2.6.33.1 kernel modules for a system with an ext3 root partition on /dev/sdb3: mkinitrd -c -k 2.6.33.1 -m ext3 -f ext3 -r /dev/sdb3 An example of a single encrypted partition setup: .br As a user convenience, the value for the "-r" option may also be specified as "/dev/sda2" in this example: mkinitrd -c -k 2.6.33.1 \\ -m ext4:ehci-hcd:uhci-hcd:usbhid \\ -f ext4 -r /dev/mapper/lukssda2 \\ -C /dev/sda2 \\ -l uk Finally, A more complex example: .br This one is for a LVM Volume Group (rootvg) comprising of two LVM Physical Volumes, each of which is on a LUKS encrypted partition that will need to be unlocked before the root filesystem (/dev/rootvg/lvroot) can be accessed. mkinitrd -c -k 2.6.29.6 \\ -m ext4:ehci-hcd:uhci-hcd:usbhid \\ -f ext4 -r /dev/rootvg/lvroot \\ -L -C /dev/sda2:/dev/sdb2 \\ -l uk If run without options, mkinitrd will rebuild an initrd image using the contents of the $SOURCE_TREE directory, or, if that directory does not exist it will be created and populated, and then mkinitrd will exit. These options are handy for building an initrd mostly by hand. After creating /boot/initrd-tree/, you can add modules and edit files by hand, and then rerun mkinitrd to create the initrd. Once the initrd is created, you'll need to tell your boot loader to load it. If you boot with LILO, you will need to add an initrd line to /etc/lilo.conf. Here's a section of lilo.conf that shows how to set this up: # Linux bootable partition config begins image = /boot/vmlinuz-generic-2.6.33.1 initrd = /boot/initrd.gz root = /dev/sda3 label = Linux26331 read-only # Linux bootable partition config ends Note that the line "root = /dev/sda3" is not needed if the root device has been configured in the initrd image. Once you've created the initrd and editing /etc/lilo.conf, you will need to run 'lilo' to write out the changed boot block. The next time you reboot the initrd should be loaded along with the kernel. Have fun! .SH SEE ALSO mkinitrd.conf (5) .SH AUTHOR Patrick J. Volkerding