Setting up disks manually: Difference between revisions

From Alpine Linux
(added reference to filesystem page for formatting)
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System Disk Mode is the traditional hard-disk install. If this mode is selected, the <code>[[Alpine_setup_scripts#setup-alpine|setup-alpine]]</code> script deletes the existing partitions and creates three partitions on the selected storage device, {{Path|/boot}}, {{Path|swap}} and {{Path|/}} (the filesystem root). This mode may, for example, be used for generic [[:Category:Desktop|desktop]] and development machines.
System Disk Mode is the traditional hard-disk install. If this mode is selected, the <code>[[Alpine_setup_scripts#setup-alpine|setup-alpine]]</code> script deletes the existing partitions and creates three partitions on the selected storage device, {{Path|/boot}}, {{Path|swap}} and {{Path|/}} (the filesystem root). This mode may, for example, be used for generic [[:Category:Desktop|desktop]] and development machines.


Refer [[#Custom partitioning of the harddisk]], if you do not want to use entire disk for Alpine Linux.
The menu choices that are provided by <code>setup-alpine</code> might not cover all needs. , however, it's possible to .
The menu choices that are provided by <code>setup-alpine</code> might not cover all needs, however, it's possible to:


* Call [[Alpine_setup_scripts#setup-disk|setup-disk]] directly, instead of through <code>setup-alpine</code>, and pass some specific partitioning parameters to it.
* Call [[Alpine_setup_scripts#setup-disk|setup-disk]] directly, instead of through <code>setup-alpine</code>, and pass some specific partitioning parameters to it.
* Set up the partitions and filesystems manually (to the desired details) and [[Alpine_setup_scripts#Partitioning|tell setup-disk]] to install to the prepared target mountpoint.
* [[#Manual_partitioning|Manually partition]] the disk and use [[#System_disk_mode_Installation|System Disk Mode Installation]] to install Alpine Linux.


(Beta reference: [https://docs.alpinelinux.org/user-handbook/0.1a/Installing/manual.html#_finalizing docs.alpinelinux.org] )
(Beta reference: [https://docs.alpinelinux.org/user-handbook/0.1a/Installing/manual.html#_finalizing docs.alpinelinux.org] )
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more than 2 disks, then use raid level 5 instead of raid level 1. Refer [[#RAID|RAID]] for more options.
more than 2 disks, then use raid level 5 instead of raid level 1. Refer [[#RAID|RAID]] for more options.


<code>setup-disk</code> will by default set up a root partition, a separate /boot partition and a swap partition on the given DISKDEV. This is the layout used in [[Installation#System_Disk_mode_Install]] by <code>setup-alpine</code> script.  
<code>setup-disk</code> will by default set up a root partition, a separate /boot partition and a swap partition on the given DISKDEV. The <code>setup-alpine</code> script based [[Installation#System_Disk_mode_Install|installation]] uses this default layout.  


If MOUNTPOINT is specified, then <code>setup-disk</code> will do a traditional disk install with MOUNTPOINT as root.  If you want a different layout or a different filesystem or you want to install OS in an existing partition, you must manually create the partitions, filesystems and mount them on {{Path|/mnt}} (or any other mount point):
If MOUNTPOINT is specified, then <code>setup-disk</code> will do a traditional disk install with MOUNTPOINT as root.   
 
If you want a different layout or a different filesystem or you want to install OS in an existing partition, follow the below steps. You can also manually [[#Creating_partitions|create partitions]]  [[#Formatting_partitions|format]] them and mount them on {{Path|/mnt}} (or any other mount point) as follows:


{{Cmd|# mount /dev/sdXY /mnt}}
{{Cmd|# mount /dev/sdXY /mnt}}


If you're using EFI, make sure you create a mount point <code>/mnt/boot/efi</code> and
If you're using EFI, make sure you create a mount point <code>/mnt/boot/efi</code>


{{Cmd|# mkdir -p /mnt/boot/efi}}
{{Cmd|# mkdir -p /mnt/boot/efi}}
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See also [https://github.com/itoffshore/alpine-linux-scripts setup-partitions]
See also [https://github.com/itoffshore/alpine-linux-scripts setup-partitions]


==== Dual-booting ====
See [[Installing Alpine on HDD dualbooting|Install to HDD with dual-boot]]


==== Other needs ====
* [[Installing Alpine Linux in a chroot]]
* [[Replacing non-Alpine Linux with Alpine remotely]]


==== Disk layouts ====
==== Disk layouts ====
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=== Partitioning tools ===
=== Partitioning tools ===
The installation image enviroment may have only the very basic busybox built-in <code>fdisk</code> command available. However, alpine allows you to install more complete partitioning tool packages like <code>sfdisk</code> (scriptable fdisk), <code>gptfdisk</code>, <code>parted</code> (CLI), <code>cfdisk</code> (text menus), or even <code>gparted</code> (after [[Installation#Post-Installation|setting up a graphical environment]]).


The following steps installs <code>cfdisk</code>, looks for existing partitions, and runs cfdisk against <code>/dev/sdX</code>:
The installation image enviroment may have only the very basic busybox built-in <code>fdisk</code> command available. Busybox `fdisk` is rather limited for edit operations.  Instead, alpine allows you to install more complete partitioning tool packages like <code>sfdisk</code> (scriptable fdisk), <code>gptfdisk</code>, <code>parted</code> (CLI), <code>cfdisk</code> (text menus), or even <code>gparted</code> (after [[Installation#Post-Installation|setting up a graphical environment]]).
{{cmd|# apk add cfdisk e2fsprogs}}
These tools can be installed even during [[Installation]] immediately after setting up [[Installation#Base_configuration|base configuration]].
{{cmd|# blkid}}
 
<code>cfdisk</code> will be used in all examples here as it is based on text menu without any dependencies:
 
The following step installs <code>cfdisk</code>:  
{{cmd|# apk add cfdisk }}
 
=== Creating partitions ===
Before using <code>cfdisk</code>, the disk name must be identified by using the <code>blkid</code>
{{cmd|# blkid}}
<pre>
<pre>
/dev/sdX1: LABEL="some" UUID="..." TYPE="vfat"
/dev/sdX1: LABEL="some" UUID="..." TYPE="vfat"
/dev/sdX2: LABEL="other" UUID="..." TYPE="ext4"
/dev/sdX2: LABEL="other" UUID="..." TYPE="ext4"
</pre>
</pre>
When <code>cfdisk</code> is run as follows, it looks for existing partitions on the disk {{Path|/dev/sdX}} :
{{cmd|# cfdisk /dev/sdX}}
{{cmd|# cfdisk /dev/sdX}}


=== Resizing an existing partitions ===
<code>cfdisk</code> and <code>resize2fs</code> can be used to resize existing partitions on a disk.  This can be done while booted.
[[File:Cfdisk screenshot alpine 2024-03-04 143916.png|thumb|cfdisk screenshot ]]
To resize disk, launch the <code>cfdisk</code>:
{{cmd|# cfdisk {{path|/dev/sda}}}}
# Select the target partition, here as per image {{path|/dev/sda3}}
# Select ''Resize'' from the bottom menu.
# Enter the new ''Size'' at the prompt.
# Select ''Write'', then ''Quit''
If a filesystem is resized with -f (online mode), then the system must be rebooted immediately after the change is made.
{{cmd|# resize2fs -f {{path|/dev/sda3}}
&num; reboot}}


=== Formatting partitions ===
Refer [[Filesystems]] page to install the necessary [[Filesystems#Filesystem_Tools|filesystem tools]] and to [[Filesystems#Formatting_Partitions|format paritions]].
<!--
<!--
  Create partition with with type "Linux" (83).
  Create partition with with type "Linux" (83).
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Executing {{ic|export BOOT_SIZE{{=}}512}} before running {{ic|setup-disk}} will result in a 512MB boot partition.
Executing {{ic|export BOOT_SIZE{{=}}512}} before running {{ic|setup-disk}} will result in a 512MB boot partition.


== Expanding an existing disk ==
Unlike gnu `fdisk`, busybox `fdisk` is rather limited in edit operations.  Instead, use `cfdisk` and `resize2fs` to resize the disk.  This can be done while booted.
Install tools:
[[File:Cfdisk screenshot alpine 2024-03-04 143916.png|thumb|cfdisk screenshot ]]
{{cmd|# apk add {{pkg|cfdisk|arch=}} {{pkg|e2fsprogs-extra|arch=}}}}
resize disk
{{cmd|# cfdisk {{path|/dev/sda}}}}


# Select the target partition, often {{path|/dev/sda3}}
# Select ''Resize'' from the bottom menu
# Select ''Write'', then ''Quit''


resize filesystem with -f (online mode), then reboot
== see also ==
{{cmd|# resize2fs -f {{path|/dev/sda3}}
* [[Installing Alpine on HDD dualbooting|Install to HDD with dual-boot]]
&num; reboot}}
* [[Installing Alpine Linux in a chroot|Installing Alpine Linux in a chroot]]
* [[Replacing non-Alpine Linux with Alpine remotely]]


[[Category:Installation]]
[[Category:Installation]]
[[Category:Storage]]
[[Category:Storage]]

Revision as of 15:53, 12 September 2024

Alpine Linux modes

Alpine Linux can be installed and run in following three modes.

Diskless Mode

In Diskless mode the entire operating system with all applications are first loaded into RAM and then only run from there. This is the method already used to boot the .iso installation images, however setup-alpine can also configure the installed system to continue to boot like this if "disk=none" is specified. The mode is extremely fast and can save on unnecessary disk spin-ups, power, and wear. It is similar to what other linux distributions may call a "frugal" install or boot into with a "toram" option.

Custom configurations and package installations may optionally still be preserved or "persist" across reboots by using the Alpine local backup tool lbu. It enables committing and reverting system states by using .apkovl files that are saved to writable storage and loaded when booting. If additional or updated packages have been added to the system, these may also be made available for automatic (re)installation during the boot phase without any (re)downloading, by enabling a local package cache on the writable storage.

[FIXME-1: Storing local configs and the package cache on internal disks still require some manual steps to have the partition listed, i.e. making a /etc/fstab entry, mountpoint, and mount, *before* running setup-alpine. The linked workaround also still requires to commit these configurations to disk manually before rebooting.]

If a writable partition is available, setup-alpine can be told to store the configs and the package cache on that writable partition. (Later, another directory on that same partition or another available partition may also be mounted as /home, or for example, for selected important applications to keep their run-time and user data on it.)

The boot device of the newly configured local "diskless" system may remain the initial (and possibly read-only) installation media. But it is also possible to copy the boot system to a partition (e.g. /dev/sdXY) with setup-bootable.

Data Disk Mode

In Data Disk mode also the operating system runs from system RAM, thus it enjoys the same accelerated operation speed as "diskless" mode. However, swap storage and the entire /var directory tree get mounted from a persistent storage device (two newly created partitions). The directory /var holds e.g. all log files, mailspools, databases, etc., as well as lbu backup commits and the package cache. This mode is useful for having RAM accelerated servers with variable amounts of user-data that exceed the available RAM size. It enables the entire current system state (not just the boot state) to survive a system crash in accordance with the particular filesystem guarantees.

[FIXME-2]: Setup-alpine will create the data partition and mount it as /var, but setup-alpine's "data" disk mode can not yet configure lbu config storage settings automatically. The current workaround, is to select "none" at the 'where to store configs' prompt (as the new data partition is not listed anyway) and configure lbu manually after setup-alpine exits, and before rebooting:

  1. Identify the created data partition, e.g. /dev/sdXY, and its filesystemtype, e.g. using lsblk
  2. Manually edit the lbu backups location in /etc/lbu/lbu.conf and configure LBU_MEDIA=sdXY (according to the previous findings).
  3. Save the configuration on that partition for the next boot with lbu commit.
  4. If (a new) partition fails to get mounted, execute: mkdir /media/sdXY ; echo "/dev/sdXY /media/sdXY fstype noauto,rw 0 0" >> /etc/fstab, and try lbu commit again.

In data disk mode, the boot device may also remain the initial (and possibly read-only) installation media, or be copied to a partition (e.g. /dev/sdXY) with setup-bootable.

System Disk Mode

System Disk Mode is the traditional hard-disk install. If this mode is selected, the setup-alpine script deletes the existing partitions and creates three partitions on the selected storage device, /boot, swap and / (the filesystem root). This mode may, for example, be used for generic desktop and development machines.

The menu choices that are provided by setup-alpine might not cover all needs. , however, it's possible to .

(Beta reference: docs.alpinelinux.org )

Using setup-disk features

This material is work-in-progress ...

Some information on this page may be incomplete or outdate.
(Last edited by Prabuanand on 12 Sep 2024.)

Diskless Mode Installation

This requires some manual steps, as long as the setup-scripts auto-detect usable partitions only on removable devices (not internal harddisks). They do not support creating new, writable partitions to be used by Alpine.

How to prepare writable storage space is explained in the section manual partitioning, below.

The following creates an ext4 partition with disabled journaling, to reduce write operations and allow the disk to spin down after the .apkovl and the packages have been read from the partition during the boot.

# mkfs.ext4 -O ^has_journal /dev/sdXY   # the "-O ^has_journal" DISABLES journaling ("^" means "not")
Note: IMPORTANT! There may be additional steps necessary to make proper use of the partition, see

Saving and loading ISO image customizations.

Note: mkfs.ext4 creates ext4 fs with 64bit feature enabled by default, but extlinux may not be able to boot with that, see Issue #14895. You may need to add "-O ^has_journal,^64bit" to mkfs.ext4 to circumvent this.

Data Disk Mode Installation

System disk mode Installation

setup-disk is used to Install alpine on harddisk by the setup-alpine script.

setup-disk /dev/sdX

If DISKDEV i.e device name like /dev/sdX or /dev/nvme0n1 is specified, then setup-disk will use the specified disk(s) to Install alpine without asking. If multiple disks are specified then set them up in a RAID array. If there are more than 2 disks, then use raid level 5 instead of raid level 1. Refer RAID for more options.

setup-disk will by default set up a root partition, a separate /boot partition and a swap partition on the given DISKDEV. The setup-alpine script based installation uses this default layout.

If MOUNTPOINT is specified, then setup-disk will do a traditional disk install with MOUNTPOINT as root.

If you want a different layout or a different filesystem or you want to install OS in an existing partition, follow the below steps. You can also manually create partitions format them and mount them on /mnt (or any other mount point) as follows:

# mount /dev/sdXY /mnt

If you're using EFI, make sure you create a mount point /mnt/boot/efi.

# mkdir -p /mnt/boot/efi

Find the correct partition name for esp partition and mount it on the above mount point :

# mount /dev/esp /mnt/boot/efi

Then install Alpine Linux using the following command:

# setup-disk -m sys /mnt

setup-disk will install a Alpine Linux system on the mounted root, detect your file system layout and generate an fstab and also install a suitable boot loader.

See also setup-partitions


Disk layouts

It is possible to have one or more of RAID, encrypted, and/or Logical Volume on your / (root) volume. However, the Alpine init script only knows how to handle them when they're layered in that order, and your initram and extlinux.conf files in the /boot partition are configured properly.

Your /boot directory cannot reside on an encrypted or LVM volume, at least not with Alpine's default bootloader (extlinux). (Grub2 can deal with /boot being on an LVM volume.) The usual practice is to create a small partition for /boot, then devote the rest of your disk to a separate partition on which you layer one or more of RAID, encryption, and/or Logical Volumes.

Sometimes /boot is also set up as a mirrored (RAID1) volume. However, this is just for post-init access. That way, when you write a new kernel or bootloader config file to /boot, it gets written to multiple physical partitions. During the pre-init, bootloader phase, only one of those partitions will be read from.

A typical setup might look like this:

One-disk system
---------------
  +------------------------------------------------+
  |  small partition (32--100M), holding           |
  |  only /boot, filesystem needn't be journaled   |
  +------------------------------------------------+
  |  rest of disk in second partition              |
  |  +------------------------------------------+  |
  |  | cryptsetup volume                        |  |
  |  |  +-------------------------------------+ |  |
  |  |  |  LVM PV, containing single VG,      | |  |
  |  |  |  containing multiple LVs, holding   | |  |
  |  |  |  /, /home, swap, etc                | |  |
  |  |  +-------------------------------------+ |  |
  |  +------------------------------------------+  |
  +------------------------------------------------+


Two-disk system
---------------
  +------------------------------------------------+  +------------------------------------------------+
  |  small partition (32--100M), holding           |  |  small partition (32--100M), holding           | These 2 partitions might
  |  only /boot, filesystem needn't be journaled   |  |  only /boot, filesystem needn't be journaled   | form a mirrored (RAID1)
  +------------------------------------------------+  +------------------------------------------------+ volume
  |  rest of disk in second partition              |  |  rest of disk in second partition              |
  | T================================================================================================T | These 2 partitions form
  | T +--------------------------------------------------------------------------------------------+ T | a second mirrored
  | T | cryptsetup volume                                                                          | T | (RAID1) volume
  | T |  +---------------------------------------------------------------------------------------+ | T |
  | T |  | LVM PV, containing single VG,                                                         | | T |
  | T |  | containing multiple LVs, holding                                                      | | T |
  | T |  | /, /home, swap, etc                                                                   | | T |
  | T |  +---------------------------------------------------------------------------------------+ | T |
  | T +--------------------------------------------------------------------------------------------+ T |
  | T================================================================================================T |
  |                                                |  |                                                |
  +------------------------------------------------+  +------------------------------------------------+

In a three-disk system, the /boot would still be RAID1, but the larger partition might, in that case, be RAID5.

RAID

setup-disk will automatically build a RAID array if you supply the -r switch, or if you specify more than one device.

If you want to build your RAID array manually, see Setting up a software RAID array. Then you can add additional layers of encryption and/or Logical Volumes, or just assemble the RAID array, and supply the /dev/mdi device directly to setup-disk. When you're finished, be sure to disassemble the RAID array before rebooting.

If setup-disk sees that you're using RAID, either because you gave it the -r switch, or multiple devices, or a /dev/mdi device, then it will set up your initramfs and extlinux.conf file properly. However, in other cases, such as when you're also using encryption, or you invoke setup-disk with a mounted directory argument, these might not be properly set up for RAID. In that case, you may need to manually edit/rebuild them. The following assumes that $MNT holds the root directory you're installing into:

echo "/sbin/mdadm" > $MNT/etc/mkinitfs/files.d/raid echo "/etc/mdadm.conf" >> $MNT/etc/mkinitfs/files.d/raid # edit $MNT/etc/mkinitfs/mkinitfs.conf to make sure features="..." # includes raid (this field is space-separated and quoted) mkinitfs -c $MNT/etc/mkinitfs/mkinitfs.conf -b $MNT # edit $MNT/etc/update-extlinux.conf to make sure modules=... contains # raid1 or raid456 (whichever your / is on; this field is comma-separated) # also check the root= setting extlinux --raid --install $MNT/boot --update

Todo: Does adding the --update option to extlinux ... suffice to make /boot/extlinux.conf be regenerated? Or do we need to manually tweak that file, or run update-extlinux, as well?


You might also need to manually tweak $MNT/etc/fstab. And you might need to copy /usr/share/syslinux/mbr.bin to your disk's MBR.

Encryption

See Setting up encrypted volumes with LUKS. You can add an additional Logical Volume layer, or just unlock the volume you've created (using cryptsetup luksOpen ...), and supply the /dev/mapper/something device directly to setup-disk. When you're finished, be sure to relock the volume (using cryptsetup luksClose ...) before rebooting.

If you install your / (root) on an encrypted volume, you'll need to manually edit/rebuild your initram and your extlinux.conf file. The following assumes that $MNT holds the root directory you're installing into, that you've created the cryptvolume on the device /dev/md2, and that you want to unlock the encrypted volume into a virtual volume named "crypt":

# edit $MNT/etc/mkinitfs/mkinitfs.conf to make sure features="..." # includes cryptsetup (this field is space-separated and quoted) mkinitfs -c $MNT/etc/mkinitfs/mkinitfs.conf -b $MNT # edit $MNT/etc/update-extlinux.conf to make sure default_kernel_opts="..." # contains cryptroot=/dev/md1 and cryptdm=crypt (this field is also space-separated and quoted) # also check the root= setting extlinux --install $MNT/boot --update

Todo: Does adding the --update option to extlinux ... suffice to make /boot/extlinux.conf be regenerated? Or do we need to manually tweak that file, or run update-extlinux, as well?


You might also need to manually tweak $MNT/etc/fstab.

LVM

setup-disk will automatically build and use volumes in a LVM group if you supply the -L switch.

If you instead want to build your LVM system manually, see Setting up Logical Volumes with LVM. Then vgchange -ay, format and mount your volumes, and supply the root mountpoint to setup-disk. When you're finished, be sure to

umount ... vgchange -an

before rebooting.


If setup-disk sees that you're using LVM, perhaps because you gave it the -L switch, then it will set up your initram and extlinux.conf file properly. However, in other cases, these might not be properly set up. In that case, you may need to manually edit/rebuild them. The following assumes that $MNT holds the root directory you're installing into:

# edit $MNT/etc/mkinitfs/mkinitfs.conf to make sure features="..." # includes lvm (this field is space-separated and quoted) mkinitfs -c $MNT/etc/mkinitfs/mkinitfs.conf -b $MNT # edit $MNT/etc/update-extlinux.conf to make sure root= is set correctly extlinux --install $MNT/boot --update

Todo: Does adding the --update option to extlinux ... suffice to make /boot/extlinux.conf be regenerated? Or do we need to manually tweak that file, or run update-extlinux, as well?


You might also need to manually tweak $MNT/etc/fstab.

Manual partitioning

Partitioning tools

The installation image enviroment may have only the very basic busybox built-in fdisk command available. Busybox `fdisk` is rather limited for edit operations. Instead, alpine allows you to install more complete partitioning tool packages like sfdisk (scriptable fdisk), gptfdisk, parted (CLI), cfdisk (text menus), or even gparted (after setting up a graphical environment). These tools can be installed even during Installation immediately after setting up base configuration.

cfdisk will be used in all examples here as it is based on text menu without any dependencies:

The following step installs cfdisk:

# apk add cfdisk

Creating partitions

Before using cfdisk, the disk name must be identified by using the blkid

# blkid

/dev/sdX1: LABEL="some" UUID="..." TYPE="vfat"
/dev/sdX2: LABEL="other" UUID="..." TYPE="ext4"

When cfdisk is run as follows, it looks for existing partitions on the disk /dev/sdX :

# cfdisk /dev/sdX

Resizing an existing partitions

cfdisk and resize2fs can be used to resize existing partitions on a disk. This can be done while booted.

cfdisk screenshot

To resize disk, launch the cfdisk:

# cfdisk /dev/sda

  1. Select the target partition, here as per image /dev/sda3
  2. Select Resize from the bottom menu.
  3. Enter the new Size at the prompt.
  4. Select Write, then Quit

If a filesystem is resized with -f (online mode), then the system must be rebooted immediately after the change is made.

# resize2fs -f /dev/sda3 # reboot

Formatting partitions

Refer Filesystems page to install the necessary filesystem tools and to format paritions.


Setting up swap

  1. create a partition with the type set to "linux swap" (82) (If you're going to use a logical volume for swap, skip this step and lvcreate that instead.)
  2. mkswap /dev/sda2
  3. echo -e "/dev/sda2 none swap sw 0 0" >> /mnt/etc/fstab
  4. swapon /dev/sda2 (or rc-service swap start)

free -m

will show how much swap space is available (in MB).

If you prefer maximum speed, you don't need configure any raid devices for swap. Just add 2 swap partitions on different disks and linux will stripe them automatically. The downside is that the moment one disk fails, the system will go down. For better reliability, put swap on RAID1.

Todo: Instructions for cryptswap?


Custom boot partition size

The default boot partition size is under 40MB. This can cause errors if package updates require additional space on /boot. Executing export BOOT_SIZE=512 before running setup-disk will result in a 512MB boot partition.


see also