Building an arch linux system

Kernel/Arch Build System

See Kernels for the main article.

The Arch Build System can be used to build a custom kernel based on the official linux package. This compilation method can automate the entire process, and is based on a very well tested package. You can edit the PKGBUILD to use a custom kernel configuration or add additional patches.

Contents

Getting the ingredients

Since you will be using makepkg, follow the best practices outlined there first. For example, you cannot run makepkg as root/sudo. Therefore, create a build directory in your user home first.

Install the asp package and the base-devel package group.

You need a clean kernel to start your customization from. Retrieve PKGBUILD source using Git and few other files into your build directory by running:

At this point, the directory tree looks like (there may be a few other files):

Then, get any other file you need (e.g. custom configuration files, patches, etc.) from the respective sources.

Modifying the PKGBUILD

Edit PKGBUILD and look for the pkgbase parameter. Change this to your custom package name, e.g.:

Avoid creating the doc

A large portion of the lengthy compiling effort is devoted to creating the documentation. As of June 16. 2021, the following patch to PKGBUILD avoids its creation:

This patch deletes line #63, and changes line #194. You might have to edit the PKGBUILD file manually if it does not apply cleanly.

Changing prepare()

In prepare() function, you can apply needed kernel patches or change kernel build configuration.

If you need to change a few config options you can edit config file in the source.

Or you can use a GUI tool to tweak the options. Comment make olddefconfig in the prepare() function of the PKGBUILD, and add your favorite tool:

Generate new checksums

#Changing prepare() suggests a possible modification to $_srcname/.config . Since this path is not where downloading the package files ended, its checksum was not checked by makepkg (which actually checked $_srcname/../../config ).

If you replaced the downloaded config with another config file before running makepkg, install the pacman-contrib package and generate new checksums by running:

Compiling

You can now proceed to compile your kernel by the usual command makepkg .

If you have chosen an interactive program for configuring the kernel parameters (like menuconfig), you need to be there during the compilation.

The -s parameter will download any additional dependencies used by recent kernels such as xml and docs.

Installing

The compile step will leave two packages in the

/build/linux folder, one for the kernel and one for the kernel headers. They might have names like:

Best practice is to install both packages together as they might be both needed (e.g. DKMS):

(substitute the actual names of the files you have in the folder)

Boot loader

If you have modified pkgbase in order to have your new kernel installed alongside the default kernel you will need to update your bootloader configuration file and add new entries (‘default’ and ‘fallback’) for your custom kernel and the associated initramfs images.

Updating

Assuming one has an arch kernel source that they want to update, one method to do that is with https://github.com/archlinux/linux. In what follows, the top kernel source directory is assumed at

In general, arch sets an arch kernel source with two local git repositories. The one at archlinux-linux/ is a local bare git repository pointing to https://github.com/archlinux/linux.git . The other one is at src/archlinux-linux/ , pulling from the bare repository. Possible local patches, and building, are expected at src/archlinux-linux/ .

For this example, the HEAD of the locally installed bare git repository source at archlinux-linux/ was initially pointing to

which is somewhere between v5.2.5-arch1 and v5.2.6-arch1.

One can see it fetched v5.2.7-arch1, which was the newest archlinux tag, because it prints what new tags were obtained. If no new tags were obtained then there is no newer archlinux source available.

Now the source can be updated where the actual build will take place.

You can verify you are on track with something like

This shows few specific archlinux patches between Arch Linux kernel v5.2.7-arch1 and Linux 5.2.7 .

The up to date PKGBUILD, as well archlinux kernel configuration file, can be pulled in by the asp command:

Now you should merge files located in

/build/linux/ . Merging can also done manually, or with specific utilities. Review #Changing prepare(), and run manually most, if not all, the shell commands of PKGBUILD::prepare().

At this point, makepkg —verifysource should succeed. While #Compiling, make sure to also add —noextract option to the makepkg command, since it should be able to build the packages as if the source was extracted by makepkg —nobuild . And you are back to #Installing.

Cleanup

One will probably want to remove

/build/linux/linux/ after merging. In addition,

/build/linux/src/archlinux will accumulate branches in the form of 5.2.7-arch1 if more recent updates are done in this fashion. These can be deleted with

Источник

Installation guide

This document is a guide for installing Arch Linux using the live system booted from an installation medium made from an official installation image. The installation medium provides accessibility features which are described on the page Install Arch Linux with accessibility options. For alternative means of installation, see Category:Installation process.

Before installing, it would be advised to view the FAQ. For conventions used in this document, see Help:Reading. In particular, code examples may contain placeholders (formatted in italics ) that must be replaced manually.

For more detailed instructions, see the respective ArchWiki articles or the various programs’ man pages, both linked from this guide. For interactive help, the IRC channel and the forums are also available.

Arch Linux should run on any x86_64-compatible machine with a minimum of 512 MiB RAM, though more memory is needed to boot the live system for installation.[1] A basic installation should take less than 2 GiB of disk space. As the installation process needs to retrieve packages from a remote repository, this guide assumes a working internet connection is available.

Contents

Pre-installation

Acquire an installation image

Visit the Download page and, depending on how you want to boot, acquire the ISO file or a netboot image, and the respective GnuPG signature.

Verify signature

It is recommended to verify the image signature before use, especially when downloading from an HTTP mirror, where downloads are generally prone to be intercepted to serve malicious images.

On a system with GnuPG installed, do this by downloading the PGP signature (under Checksums in the Download page) to the ISO directory, and verifying it with:

Alternatively, from an existing Arch Linux installation run:

Prepare an installation medium

The installation image can be supplied to the target machine via a USB flash drive, an optical disc or a network with PXE: follow the appropriate article to prepare yourself an installation medium from the chosen image.

Boot the live environment

1. Point the current boot device to the one which has the Arch Linux installation medium. Typically it is achieved by pressing a key during the POST phase, as indicated on the splash screen. Refer to your motherboard’s manual for details.
2. When the installation medium’s boot loader menu appears, select Arch Linux install medium and press Enter to enter the installation environment.

To switch to a different console—for example, to view this guide with Lynx alongside the installation—use the Alt+arrow shortcut. To edit configuration files, mcedit(1) , nano and vim are available. See packages.x86_64 for a list of the packages included in the installation medium.

Set the console keyboard layout

The default console keymap is US. Available layouts can be listed with:

To modify the layout, append a corresponding file name to loadkeys(1) , omitting path and file extension. For example, to set a German keyboard layout:

Console fonts are located in /usr/share/kbd/consolefonts/ and can likewise be set with setfont(8) .

Verify the boot mode

To verify the boot mode, list the efivars directory:

If the command shows the directory without error, then the system is booted in UEFI mode. If the directory does not exist, the system may be booted in BIOS (or CSM) mode. If the system did not boot in the mode you desired, refer to your motherboard’s manual.

Connect to the internet

To set up a network connection in the live environment, go through the following steps:

• Ensure your network interface is listed and enabled, for example with ip-link(8) :
• For wireless and WWAN, make sure the card is not blocked with rfkill.
• Connect to the network:
  • Ethernet—plug in the cable.
  • Wi-Fi—authenticate to the wireless network using iwctl.
  • Mobile broadband modem—connect to the mobile network with the mmcli utility.
• Configure your network connection:
  • DHCP: dynamic IP address and DNS server assignment (provided by systemd-networkd and systemd-resolved) should work out of the box for Ethernet, WLAN and WWAN network interfaces.
  • Static IP address: follow Network configuration#Static IP address.
• The connection may be verified with ping:

Update the system clock

Use timedatectl(1) to ensure the system clock is accurate:

To check the service status, use timedatectl status .

Partition the disks

When recognized by the live system, disks are assigned to a block device such as /dev/sda , /dev/nvme0n1 or /dev/mmcblk0 . To identify these devices, use lsblk or fdisk.

Results ending in rom , loop or airoot may be ignored.

The following partitions are required for a chosen device:

If you want to create any stacked block devices for LVM, system encryption or RAID, do it now.

Use fdisk or parted to modify partition tables. For example:

Example layouts

BIOS with MBR

Mount point	Partition	Partition type	Suggested size
[SWAP]	/dev/swap_partition	Linux swap	More than 512 MiB
/mnt	/dev/root_partition	Linux	Remainder of the device

UEFI with GPT

Mount point	Partition	Partition type	Suggested size
/mnt/boot or /mnt/efi 1	/dev/efi_system_partition	EFI system partition	At least 260 MiB
[SWAP]	/dev/swap_partition	Linux swap	More than 512 MiB
/mnt	/dev/root_partition	Linux x86-64 root (/)	Remainder of the device

1. /mnt/efi should only be considered if the used boot loader is capable of loading the kernel and initramfs images from the root volume. See the warning in Arch boot process#Boot loader.

Format the partitions

Once the partitions have been created, each newly created partition must be formatted with an appropriate file system. For example, to create an Ext4 file system on /dev/root_partition , run:

If you created a partition for swap, initialize it with mkswap(8) :

Mount the file systems

Mount the root volume to /mnt . For example, if the root volume is /dev/root_partition :

Create any remaining mount points (such as /mnt/efi ) using mkdir(1) and mount their corresponding volumes.

If you created a swap volume, enable it with swapon(8) :

genfstab(8) will later detect mounted file systems and swap space.

Installation

Select the mirrors

Packages to be installed must be downloaded from mirror servers, which are defined in /etc/pacman.d/mirrorlist . On the live system, after connecting to the internet, reflector updates the mirror list by choosing 20 most recently synchronized HTTPS mirrors and sorting them by download rate.[2]

The higher a mirror is placed in the list, the more priority it is given when downloading a package. You may want to inspect the file to see if it is satisfactory. If it is not, edit the file accordingly, and move the geographically closest mirrors to the top of the list, although other criteria should be taken into account.

This file will later be copied to the new system by pacstrap, so it is worth getting right.

Install essential packages

Use the pacstrap(8) script to install the base package, Linux kernel and firmware for common hardware:

The base package does not include all tools from the live installation, so installing other packages may be necessary for a fully functional base system. In particular, consider installing:

• userspace utilities for the management of file systems that will be used on the system,
• utilities for accessing RAID or LVM partitions,
• specific firmware for other devices not included in linux-firmware (e.g. sof-firmware for sound cards),
• software necessary for networking,
• a text editor,
• packages for accessing documentation in man and info pages: man-db , man-pages and texinfo .

To install other packages or package groups, append the names to the pacstrap command above (space separated) or use pacman while chrooted into the new system. For comparison, packages available in the live system can be found in packages.x86_64.

Configure the system

Fstab

Generate an fstab file (use -U or -L to define by UUID or labels, respectively):

Check the resulting /mnt/etc/fstab file, and edit it in case of errors.

Chroot

Change root into the new system:

Time zone

Run hwclock(8) to generate /etc/adjtime :

This command assumes the hardware clock is set to UTC. See System time#Time standard for details.

Localization

Edit /etc/locale.gen and uncomment en_US.UTF-8 UTF-8 and other needed locales. Generate the locales by running:

Network configuration

Add matching entries to hosts(5) :

If the system has a permanent IP address or a fully qualified domain name, see the example in Network configuration#Local hostname resolution.

Complete the network configuration for the newly installed environment, that may include installing suitable network management software.

Initramfs

Creating a new initramfs is usually not required, because mkinitcpio was run on installation of the kernel package with pacstrap.

For LVM, system encryption or RAID, modify mkinitcpio.conf(5) and recreate the initramfs image:

Root password

Boot loader

Choose and install a Linux-capable boot loader. If you have an Intel or AMD CPU, enable microcode updates in addition.

Reboot

Exit the chroot environment by typing exit or pressing Ctrl+d .

Optionally manually unmount all the partitions with umount -R /mnt : this allows noticing any «busy» partitions, and finding the cause with fuser(1) .

Finally, restart the machine by typing reboot : any partitions still mounted will be automatically unmounted by systemd. Remember to remove the installation medium and then login into the new system with the root account.

Post-installation

See General recommendations for system management directions and post-installation tutorials (like creating unprivileged user accounts, setting up a graphical user interface, sound or a touchpad).

For a list of applications that may be of interest, see List of applications.

Источник