Mkinitcpio: Difference between revisions
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| {{C|'''net'''}} || {{R|''not implemented''}} || Adds the necessary modules for a network device. You must have {{Pkg|mkinitcpio-nfs-utils}} installed to use this. || Provides handling for an NFS-based root file system. | | {{C|'''net'''}} || {{R|''not implemented''}} || Adds the necessary modules for a network device. You must have {{Pkg|mkinitcpio-nfs-utils}} installed to use this. || Provides handling for an NFS-based root file system. | ||
|- | |- | ||
| {{C|'''dmraid'''}} || {{C|''?''}} || Provides support for fakeRAID root devices. You must have {{Pkg|dmraid}} installed to use this. Note that it is preferred to use {{ic|mdadm}} with the '''mdadm_udev''' hook with fakeRAID if your controller supports it. || Locates and assembles fakeRAID block devices using {{ic|dmraid}}. | | {{C|[[#Using Raid|'''dmraid''']]}} || {{C|''?''}} || Provides support for fakeRAID root devices. You must have {{Pkg|dmraid}} installed to use this. Note that it is preferred to use {{ic|mdadm}} with the '''mdadm_udev''' hook with fakeRAID if your controller supports it. || Locates and assembles fakeRAID block devices using {{ic|dmraid}}. | ||
|- | |- | ||
| {{C|'''mdadm'''}} || {{Grey|--}} || Provides support for assembling RAID arrays from {{ic|/etc/mdadm.conf}}, or autodetection during boot. You must have {{Pkg|mdadm}} installed to use this. The '''mdadm_udev''' hook is preferred over this hook. || Locates and assembles software RAID block devices using {{ic|mdassemble}}. | | {{C|[[#Using Raid|'''mdadm''']]}} || {{Grey|--}} || Provides support for assembling RAID arrays from {{ic|/etc/mdadm.conf}}, or autodetection during boot. You must have {{Pkg|mdadm}} installed to use this. The '''mdadm_udev''' hook is preferred over this hook. || Locates and assembles software RAID block devices using {{ic|mdassemble}}. | ||
|- | |- | ||
|colspan="2" {{C|'''mdadm_udev'''}} || Provides support for assembling RAID arrays via udev. You must have {{Pkg|mdadm}} installed to use this. If you use this hook with a FakeRAID array, it is recommended to include {{ic|mdmon}} in the binaries section. || Locates and assembles software RAID block devices using {{ic|udev}} and {{ic|mdadm}} incremental assembly. This is the preferred method of mdadm assembly (rather than using the above ''mdadm'' hook). | |colspan="2" {{C|[[#Using Raid|'''mdadm_udev''']]}} || Provides support for assembling RAID arrays via udev. You must have {{Pkg|mdadm}} installed to use this. If you use this hook with a FakeRAID array, it is recommended to include {{ic|mdmon}} in the binaries section. || Locates and assembles software RAID block devices using {{ic|udev}} and {{ic|mdadm}} incremental assembly. This is the preferred method of mdadm assembly (rather than using the above ''mdadm'' hook). | ||
|- | |- | ||
|colspan="2" {{C|'''keyboard'''}} || Adds the necessary modules for keyboard devices. Use this if you have an USB or serial keyboard and need it in early userspace (either for entering encryption passphrases or for use in an interactive shell). As a side effect, modules for some non-keyboard input devices might be added too, but this should not be relied on. Supersedes old ''usbinput'' hook. | |colspan="2" {{C|'''keyboard'''}} || Adds the necessary modules for keyboard devices. Use this if you have an USB or serial keyboard and need it in early userspace (either for entering encryption passphrases or for use in an interactive shell). As a side effect, modules for some non-keyboard input devices might be added too, but this should not be relied on. Supersedes old ''usbinput'' hook. | ||
Revision as of 00:06, 10 January 2019
mkinitcpio is a Bash script used to create an initial ramdisk environment. From the mkinitcpio(8) man page:
- The initial ramdisk is in essence a very small environment (early userspace) which loads various kernel modules and sets up necessary things before handing over control to
init. This makes it possible to have, for example, encrypted root file systems and root file systems on a software RAID array. mkinitcpio allows for easy extension with custom hooks, has autodetection at runtime, and many other features.
Traditionally, the kernel was responsible for all hardware detection and initialization tasks early in the boot process before mounting the root file system and passing control to init. However, as technology advances, these tasks have become increasingly complex.
Nowadays, the root file system may be on a wide range of hardware, from SCSI to SATA to USB drives, controlled by a variety of drive controllers from different manufacturers. Additionally, the root file system may be encrypted or compressed; within a software RAID array or a logical volume group. The simple way to handle that complexity is to pass management into userspace: an initial ramdisk. See also: /dev/brain0 » Blog Archive » Early Userspace in Arch Linux.
mkinitcpio has been developed by the Arch Linux developers and from community contributions. See the public Git repository.
Installation
Install the mkinitcpio package, which is a dependency of the linux package, so most users will already have it installed.
Advanced users may wish to install the latest development version of mkinitcpio from Git with the mkinitcpio-gitAUR package.
Image creation and activation
By default, the mkinitcpio script generates two images after kernel installation or upgrades: a default image, and a fallback image that skips the autodetect hook thus including a full range of mostly-unneeded modules. This is accomplished via the PRESETS directive of the .preset files which most kernel packages install in /etc/mkinitcpio.d/ (e.g. /etc/mkinitcpio.d/linux.preset for linux contain PRESETS=('default' 'fallback')). A preset is a predefined definition of how to create an initramfs image instead of specifying the configuration file and output file every time. The -p/--preset switch specifies a preset to utilize. For example, mkinitcpio -p linux selects the preset provided by the linux package.
An additional configuration file is located at /etc/mkinitcpio.conf and is used to specify options global to all presets. The -P/--allpresets switch specifies that all presets should be utilized when regenerating the initramfs after a mkinitcpio.conf change.
Users may create any number of initramfs images with a variety of different configurations. The desired image must be specified in the respective boot loader configuration file.
Generate customized manual initcpio
Users can generate an image using an alternative configuration file. For example, the following will generate an initramfs image according to the directions in /etc/mkinitcpio-custom.conf and save it at /boot/linux-custom.img.
# mkinitcpio -c /etc/mkinitcpio-custom.conf -g /boot/linux-custom.img
If generating an image for a kernel other than the one currently running, add the kernel version to the command line. You can see available kernel versions in /usr/lib/modules/.
# mkinitcpio -g /boot/linux-custom2.img -k 3.3.0-ARCH
Configuration
The primary configuration file for mkinitcpio is /etc/mkinitcpio.conf. Additionally, preset definitions are provided by kernel packages in the /etc/mkinitcpio.d directory (e.g. /etc/mkinitcpio.d/linux.preset).
- Users with multiple hardware disk controllers that use the same node names but different kernel modules (e.g. two SCSI/SATA or two IDE controllers) should use persistent block device naming to ensure that the right devices are mounted. Otherwise, the root device location may change between boots, resulting in kernel panics.
- PS/2 keyboard users: In order to get keyboard input during early init, if you do not have it already, add the keyboard hook to the
HOOKS. On some motherboards (mostly ancient ones, but also a few new ones), the i8042 controller cannot be automatically detected. It is rare, but some people will surely be without keyboard. You can detect this situation in advance. If you have a PS/2 port and geti8042: PNP: No PS/2 controller found. Probing ports directlymessage, add atkbd to theMODULES.
Users can modify six variables within the configuration file:
MODULES- Kernel modules to be loaded before any boot hooks are run.
BINARIES- Additional binaries to be included in the initramfs image.
FILES- Additional files to be included in the initramfs image.
HOOKS- Hooks are scripts that execute in the initial ramdisk.
COMPRESSION- Used to compress the initramfs image.
COMPRESSION_OPTIONS- Extra arguments to pass to the
COMPRESSIONprogram. Usage of this setting is strongly discouraged. mkinitcpio will handle special requirements for compressors (e.g. passing--check=crc32to xz), and misusage can easily lead to an unbootable system.
MODULES
The MODULES array is used to specify modules to load before anything else is done.
Modules suffixed with a ? will not throw errors if they are not found. This might be useful for custom kernels that compile in modules which are listed explicitly in a hook or configuration file.
- If using reiser4, it must be added to the modules list.
- If you will be needing any file system during the boot process that is not live when you run mkinitcpio — for example, if your LUKS encryption key file is on an ext2 file system but no ext2 file systems are mounted when you run mkinitcpio — that file system module must also be added to the MODULES list. See Dm-crypt/System configuration#cryptkey for more details.
BINARIES and FILES
These options allow users to add files to the image. Both BINARIES and FILES are added before hooks are run, and may be used to override files used or provided by a hook. BINARIES are auto-located within a standard PATH and are dependency-parsed, meaning any required libraries will also be added. FILES are added as-is. For example:
FILES=(/etc/modprobe.d/modprobe.conf)
BINARIES=(kexec)
Note that for both BINARIES and FILES, multiple entries can be added delimited with spaces.
HOOKS
The HOOKS array is the most important setting in the file. Hooks are small scripts which describe what will be added to the image. For some hooks, they will also contain a runtime component which provides additional behavior, such as starting a daemon, or assembling a stacked block device. Hooks are referred to by their name, and executed in the order they exist in the HOOKS array of the configuration file.
The default HOOKS setting should be sufficient for most simple, single disk setups. For root devices which are stacked or multi-block devices such as LVM, mdadm, or dm-crypt, see the respective wiki pages for further necessary configuration.
Build hooks
Build hooks are found in /usr/lib/initcpio/install/, custom build hooks can be placed in /etc/initcpio/install/. These files are sourced by the bash shell during runtime of mkinitcpio and should contain two functions: build and help. The build function describes the modules, files, and binaries which will be added to the image. An API, documented by mkinitcpio(8), serves to facilitate the addition of these items. The help function outputs a description of what the hook accomplishes.
For a list of all available hooks:
$ mkinitcpio -L
Use mkinitcpio's -H/--hookhelp option to output help for a specific hook, for example:
$ mkinitcpio -H udev
Runtime hooks
Runtime hooks are found in /usr/lib/initcpio/hooks/, custom runtime hooks can be placed in /etc/initcpio/hooks/. For any runtime hook, there should always be a build hook of the same name, which calls add_runscript to add the runtime hook to the image. These files are sourced by the busybox ash shell during early userspace. With the exception of cleanup hooks, they will always be run in the order listed in the HOOKS setting. Runtime hooks may contain several functions:
run_earlyhook: Functions of this name will be run once the API file systems have been mounted and the kernel command line has been parsed. This is generally where additional daemons, such as udev, which are needed for the early boot process are started from.
run_hook: Functions of this name are run shortly after the early hooks. This is the most common hook point, and operations such as assembly of stacked block devices should take place here.
run_latehook: Functions of this name are run after the root device has been mounted. This should be used, sparingly, for further setup of the root device, or for mounting other file systems, such as /usr.
run_cleanuphook: Functions of this name are run as late as possible, and in the reverse order of how they are listed in the HOOKS setting in the config file. These hooks should be used for any last minute cleanup, such as shutting down any daemons started by an early hook.
Common hooks
A table of common hooks and how they affect image creation and runtime follows. Note that this table is not complete, as packages can provide custom hooks.
| busybox init | systemd init | Build hook | Runtime hook (busybox init only) |
|---|---|---|---|
| base | Sets up all initial directories and installs base utilities and libraries. Always keep this hook as the first hook unless you know what you are doing, as it provides critical busybox init when not using systemd hook.
Provides a busybox recovery shell when using systemd hook. |
– | |
| udev | systemd | Adds udevd, udevadm, and a small subset of udev rules to your image. | Starts the udev daemon and processes uevents from the kernel; creating device nodes. As it simplifies the boot process by not requiring the user to explicitly specify necessary modules, using it is recommended. |
| usr | Adds support for /usr on a separate partition. |
Mounts the /usr partition after the real root has been mounted.
| |
| resume | – | Tries to resume from the "suspend to disk" state. See Hibernation for further configuration. | |
| btrfs | -- | Sets the required modules to enable Btrfs for using multiple devices with Btrfs. You need to have btrfs-progs installed to use this. This hook is not required for using Btrfs on a single device. | Runs btrfs device scan to assemble a multi-device Btrfs root file system when udev hook or systemd hook is not present. The btrfs-progs package is required for this hook.
|
| autodetect | Shrinks your initramfs to a smaller size by creating a whitelist of modules from a scan of sysfs. Be sure to verify included modules are correct and none are missing. This hook must be run before other subsystem hooks in order to take advantage of auto-detection. Any hooks placed before 'autodetect' will be installed in full. | – | |
| modconf | Includes modprobe configuration files from /etc/modprobe.d/ and /usr/lib/modprobe.d/. |
– | |
| block | Adds all block device modules, formerly separately provided by the fw, mmc, pata, sata, scsi, usb, and virtio hooks. | – | |
| net | not implemented | Adds the necessary modules for a network device. You must have mkinitcpio-nfs-utils installed to use this. | Provides handling for an NFS-based root file system. |
| dmraid | ? | Provides support for fakeRAID root devices. You must have dmraid installed to use this. Note that it is preferred to use mdadm with the mdadm_udev hook with fakeRAID if your controller supports it. |
Locates and assembles fakeRAID block devices using dmraid.
|
| mdadm | -- | Provides support for assembling RAID arrays from /etc/mdadm.conf, or autodetection during boot. You must have mdadm installed to use this. The mdadm_udev hook is preferred over this hook. |
Locates and assembles software RAID block devices using mdassemble.
|
| mdadm_udev | Provides support for assembling RAID arrays via udev. You must have mdadm installed to use this. If you use this hook with a FakeRAID array, it is recommended to include mdmon in the binaries section. |
Locates and assembles software RAID block devices using udev and mdadm incremental assembly. This is the preferred method of mdadm assembly (rather than using the above mdadm hook).
| |
| keyboard | Adds the necessary modules for keyboard devices. Use this if you have an USB or serial keyboard and need it in early userspace (either for entering encryption passphrases or for use in an interactive shell). As a side effect, modules for some non-keyboard input devices might be added too, but this should not be relied on. Supersedes old usbinput hook.
Tip: For systems that are booted with different hardware configurations (e.g. laptops with external keyboard vs. internal keyboard or headless systems), it is helpful to place this hook before autodetect in order to always include all keyboard drivers. Otherwise the external keyboard only works in early userspace if it was connected when creating the image.
|
– | |
| keymap | sd-vconsole | Adds the specified keymap(s) from /etc/vconsole.conf to the initramfs. If you use system encryption, especially full-disk encryption, make sure you add it before the encrypt hook. |
Loads the specified keymap(s) from /etc/vconsole.conf during early userspace.
|
| consolefont | Adds the specified console font from /etc/vconsole.conf to the initramfs. |
Loads the specified console font from /etc/vconsole.conf during early userspace.
| |
| encrypt | sd-encrypt | Adds the dm_crypt kernel module and the cryptsetup tool to the image. You must have cryptsetup installed to use this. |
Detects and unlocks an encrypted root partition. See #Runtime customization for further configuration.
For sd-encrypt see dm-crypt/System configuration#Using sd-encrypt hook. |
| lvm2 | sd-lvm2 | Adds the device mapper kernel module and the lvm tool to the image. You must have lvm2 installed to use this. |
Enables all LVM2 volume groups. This is necessary if you have your root file system on LVM. |
| fsck | Adds the fsck binary and file system-specific helpers. If added after the autodetect hook, only the helper specific to your root file system will be added. Usage of this hook is strongly recommended, and it is required with a separate /usr partition. |
Runs fsck against your root device (and /usr if separate) prior to mounting. The use of this hook requires the rw parameter to be set on the kernel commandline (discussion).
| |
| filesystems | This includes necessary file system modules into your image. This hook is required unless you specify your file system modules in MODULES. | – | |
COMPRESSION
The kernel supports several formats for compression of the initramfs—gzip, bzip2, lzma, xz (also known as lzma2), lzo, and lz4. For most use cases, gzip, lzop, and lz4 provide the best balance of compressed image size and decompression speed. The provided mkinitcpio.conf has the various COMPRESSION options commented out. Uncomment one to choose which compression format you desire.
Specifying no COMPRESSION will result in a gzip-compressed initramfs file. To create an uncompressed image, specify COMPRESSION=cat in the config or use -z cat on the command line.
Make sure you have the correct file compression utility installed for the method you wish to use.
COMPRESSION_OPTIONS
These are additional flags passed to the program specified by COMPRESSION, such as:
COMPRESSION_OPTIONS=(-9)
Runtime customization
Runtime configuration options can be passed to init and certain hooks via the kernel command line. Kernel command-line parameters are often supplied by the bootloader. The options discussed below can be appended to the kernel command line to alter default behavior. See Kernel parameters and Arch boot process for more information.
init from base hook
root- This is the most important parameter specified on the kernel command line, as it determines what device will be mounted as your proper root device. mkinitcpio is flexible enough to allow a wide variety of formats, for example:
root=/dev/sda1 # /dev node root=LABEL=CorsairF80 # label root=UUID=ea1c4959-406c-45d0-a144-912f4e86b207 # UUID root=PARTUUID=14420948-2cea-4de7-b042-40f67c618660 # GPT partition UUID
init in the initramfs environment. See /usr/lib/initcpio/init for details. They will not work when systemd hook is being used since the init from base hook is replaced.break- If
breakorbreak=premountis specified,initpauses the boot process (after loading hooks, but before mounting the root file system) and launches an interactive shell which can be used for troubleshooting purposes. This shell can be launched after the root has been mounted by specifyingbreak=postmount. Normal boot continues after exiting from the shell.
disablehooks- Disable hooks at runtime by adding
disablehooks=hook1[,hook2,...]. For example:disablehooks=resume
earlymodules- Alter the order in which modules are loaded by specifying modules to load early via
earlymodules=mod1[,mod2,...]. (This may be used, for example, to ensure the correct ordering of multiple network interfaces.)
See Boot debugging and mkinitcpio(8) for other parameters.
Using RAID
First, add the mdadm_udev or mdadm hook to the HOOKS array and any required RAID modules (e.g. raid456, ext4) to the MODULES array in /etc/mkinitcpio.conf.
Using the mdadm hook, you no longer need to configure your RAID array in the kernel parameters. The mdadm hook will either use your /etc/mdadm.conf file or automatically detect the array(s) during the init phase of boot.
Assembly via udev is also possible using the mdadm_udev hook. Upstream prefers this method of assembly. /etc/mdadm.conf will still be read for purposes of naming the assembled devices if it exists.
Using net
Required Packages
net requires the mkinitcpio-nfs-utils package.
Kernel Parameters
Comprehensive and up-to-date information can be found in the official kernel documentation.
ip=
This parameter tells the kernel how to configure IP addresses of devices and also how to set up the IP routing table. It can take up to nine arguments separated by colons: ip=<client-ip>:<server-ip>:<gw-ip>:<netmask>:<hostname>:<device>:<autoconf>:<dns0-ip>:<dns1-ip>.
If this parameter is missing from the kernel command line, all fields are assumed to be empty, and the defaults mentioned in the kernel documentation apply. In general this means that the kernel tries to configure everything using autoconfiguration.
The <autoconf> parameter can appear alone as the value to the 'ip' parameter (without all the ':' characters before). If the value is ip=off or ip=none, no autoconfiguration will take place, otherwise autoconfiguration will take place. The most common way to use this is ip=dhcp.
For parameters explanation, see the kernel doc.
Examples:
ip=127.0.0.1:::::lo:none --> Enable the loopback interface. ip=192.168.1.1:::::eth2:none --> Enable static eth2 interface. ip=:::::eth0:dhcp --> Enable dhcp protocol for eth0 configuration.
eth0) for the <device> parameter, the persistent names (e.g. enp2s0) will not work. See Network configuration#Network interfaces for details.BOOTIF=
If you have multiple network cards, this parameter can include the MAC address of the interface you are booting from. This is often useful as interface numbering may change, or in conjunction with pxelinux IPAPPEND 2 or IPAPPEND 3 option. If not given, eth0 will be used.
Example:
BOOTIF=01-A1-B2-C3-D4-E5-F6 # Note the prepended "01-" and capital letters.
nfsroot=
If the nfsroot parameter is NOT given on the command line, the default /tftpboot/%s will be used.
nfsroot=[<server-ip>:]<root-dir>[,<nfs-options>]
Run mkinitcpio -H net for parameter explanation.
Using LVM
If your root device is on LVM, see LVM#Configure mkinitcpio.
Using encrypted root
If using an encrypted root see Dm-crypt/System configuration#mkinitcpio for detailed information on which hooks to include.
/usr as a separate partition
If you keep /usr as a separate partition, you must adhere to the following requirements:
- Add the
fsckhook, mark/usrwith apassnoof0in/etc/fstab. While recommended for everyone, it is mandatory if you want your/usrpartition to be fsck'ed at boot-up. Without this hook,/usrwill never be fsck'd. - If not using the systemd hook, add the
usrhook. This will mount the/usrpartition after root is mounted.
Troubleshooting
Extracting the image
If you are curious about what is inside the initrd image, you can extract it and poke at the files inside of it.
The initrd image is an SVR4 CPIO archive, generated via the find and bsdcpio commands, optionally compressed with a compression scheme understood by the kernel. For more information on the compression schemes, see #COMPRESSION.
mkinitcpio includes a utility called lsinitcpio which will list and/or extract the contents of initramfs images.
You can list the files in the image with:
$ lsinitcpio /boot/initramfs-linux.img
And to extract them all in the current directory:
$ lsinitcpio -x /boot/initramfs-linux.img
You can also get a more human-friendly listing of the important parts in the image:
$ lsinitcpio -a /boot/initramfs-linux.img
Recompressing a modified extracted image
After extracting an image as explained above, after modifying it, you can find the command necessary to recompress it. Edit /usr/bin/mkinitcpio and change the line as shown below (line 531 in mkinitcpio v20-1.)
#MKINITCPIO_PROCESS_PRESET=1 "$0" "${preset_cmd[@]}"
MKINITCPIO_PROCESS_PRESET=1 /usr/bin/bash -x "$0" "${preset_cmd[@]}"
Then running mkinitcpio with its usual options (typically mkinitcpio -p linux), toward the last 20 lines or so you will see something like:
+ find -mindepth 1 -printf '%P\0' + LANG=C + bsdcpio -0 -o -H newc --quiet + gzip
Which corresponds to the command you need to run, which may be:
# find -mindepth 1 -printf '%P\0' | LANG=C bsdcpio -0 -o -H newc --quiet | gzip > /boot/initramfs-linux.img
/boot/initramfs-linux.img before you overwrite it, so you can easily undo your changes. Be prepared for making a mistake that prevents your system from booting. If this happens, you will need to boot through the fallback, or a boot CD, to restore your original, run mkinitcpio to overwrite your changes, or fix them yourself and recompress the image."/dev must be mounted" when it already is
The test used by mkinitcpio to determine if /dev is mounted is to see if /dev/fd/ is there. If everything else looks fine, it can be "created" manually by:
# ln -s /proc/self/fd /dev/
(Obviously, /proc must be mounted as well. mkinitcpio requires that anyway, and that is the next thing it will check.)
Possibly missing firmware for module XXXX
When initramfs are being rebuild after a kernel update, you might get these or similar warnings:
==> WARNING: Possibly missing firmware for module: aic94xx ==> WARNING: Possibly missing firmware for module: wd719x
These appear to any Arch Linux users, especially those who have not installed these firmware modules. If you do not use hardware which uses these firmwares you can safely ignore this message.
Standard rescue procedures
With an improper initial ram-disk a system often is unbootable. So follow a system rescue procedure like below:
Boot succeeds on one machine and fails on another
mkinitcpio's autodetect hook filters unneeded kernel modules in the primary initramfs scanning /sys and the modules loaded at the time it is run. If you transfer your /boot directory to another machine and the boot sequence fails during early userspace, it may be because the new hardware is not detected due to missing kernel modules. Note that USB 2.0 and 3.0 need different kernel modules.
To fix, first try choosing the fallback image from your bootloader, as it is not filtered by autodetect. Once booted, run mkinitcpio on the new machine to rebuild the primary image with the correct modules. If the fallback image fails, try booting into an Arch Linux live CD/USB, chroot into the installation, and run mkinitcpio on the new machine. As a last resort, try manually adding modules to the initramfs.