https://wiki.archlinux.org/api.php?action=feedcontributions&user=Benhamill&feedformat=atomArchWiki - User contributions [en]2024-03-29T00:04:05ZUser contributionsMediaWiki 1.41.0https://wiki.archlinux.org/index.php?title=Beginners%27_guide&diff=269879Beginners' guide2013-08-04T20:17:35Z<p>Benhamill: /* Partition scheme */ Typos.</p>
<hr />
<div><noinclude><br />
[[Category:Getting and installing Arch]]<br />
[[Category:About Arch]]<br />
[[ar:Beginners' Guide/Installation]]<br />
[[da:Beginners' Guide/Installation]]<br />
[[es:Beginners' Guide/Installation]]<br />
[[hr:Beginners' Guide/Installation]]<br />
[[hu:Beginners' Guide/Installation]]<br />
[[it:Beginners' Guide/Installation]]<br />
[[ja:Beginners' Guide/Installation]]<br />
[[ko:Beginners' Guide/Installation]]<br />
[[nl:Beginners' Guide/Installatie]]<br />
[[pl:Beginners' Guide/Installation]]<br />
[[pt:Beginners' Guide/Installation]]<br />
[[ro:Ghidul începătorilor/Instalare]]<br />
[[ru:Beginners' Guide/Installation]]<br />
[[sr:Beginners' Guide/Installation]]<br />
[[zh-CN:Beginners' Guide/Installation]]<br />
[[zh-TW:Beginners' Guide/Installation]]<br />
{{Tip|This is part of a multi-page article for The Beginners' Guide. '''[[Beginners' Guide|Click here]]''' if you would rather read the guide in its entirety.}}<br />
</noinclude><br />
== Installation ==<br />
<br />
You are now presented with a shell prompt, automatically logged in as root.<br />
<br />
=== Change the language ===<br />
<br />
{{Tip|These are optional for the majority of users. Useful only if you plan on writing in your own language in any of the configuration files, if you use diacritical marks in the Wi-Fi password, or if you would like to receive system messages (e.g. possible errors) in your own language.}}<br />
<br />
By default, the keyboard layout is set to {{ic|us}}. If you have a non-[[Wikipedia:File:KB United States-NoAltGr.svg|US]] keyboard layout, run:<br />
<br />
# loadkeys ''layout''<br />
<br />
...where ''layout'' can be {{ic|fr}}, {{ic|uk}}, {{ic|dvorak}}, {{ic|be-latin1}}, etc. See [[KEYMAP#Keyboard layouts|here]] for a comprehensive list.<br />
<br />
The font should also be changed, because most languages use more glyphs than the 26 letter [[Wikipedia:English alphabet|English alphabet]]. Otherwise some foreign characters may show up as white squares or as other symbols. Note that the name is case-sensitive, so please type it ''exactly'' as you see it:<br />
<br />
# setfont Lat2-Terminus16<br />
<br />
By default, the language is set to English (US). If you would like to change the language for the install process ''(German, in this example)'', remove the {{ic|#}} in front of the [http://www.greendesktiny.com/support/knowledgebase_detail.php?ref=EUH-483 locale] you want from {{ic|/etc/locale.gen}}, along with English (US). Please choose the {{ic|UTF-8}} entry.<br />
<br />
Use {{ic|Ctrl+X}} to exit, and when prompted to save changes, press {{ic|Y}} and {{ic|Enter}} to use the same filename.<br />
<br />
{{hc|# nano /etc/locale.gen|<br />
en_US.UTF-8 UTF-8<br />
de_DE.UTF-8 UTF-8}}<br />
<br />
# locale-gen<br />
# export LANG=de_DE.UTF-8<br />
<br />
Remember, {{ic|LAlt+LShift}} activates and deactivates the keymap.<br />
<br />
=== Establish an internet connection ===<br />
<br />
{{Warning|As of v197, udev no longer assigns network interface names according to the wlanX and ethX naming scheme. If you are coming from a different distribution or are reinstalling Arch and not aware of the new interface naming style, please do not assume that your wireless interface is named wlan0, or that your wired interface is named eth0. You can use the command {{ic|ip link}} to discover the names of your interfaces.}}<br />
<br />
The {{ic|dhcpcd}} network daemon starts automatically during boot and it will attempt to start a wired connection. Try to ping a server to see if a connection was established. For example, Google's webservers:<br />
<br />
{{hc|# ping -c 3 www.google.com|2=<br />
PING www.l.google.com (74.125.132.105) 56(84) bytes of data.<br />
64 bytes from wb-in-f105.1e100.net (74.125.132.105): icmp_req=1 ttl=50 time=17.0 ms<br />
64 bytes from wb-in-f105.1e100.net (74.125.132.105): icmp_req=2 ttl=50 time=18.2 ms<br />
64 bytes from wb-in-f105.1e100.net (74.125.132.105): icmp_req=3 ttl=50 time=16.6 ms<br />
<br />
--- www.l.google.com ping statistics ---<br />
3 packets transmitted, 3 received, 0% packet loss, time 2003ms<br />
rtt min/avg/max/mdev = 16.660/17.320/18.254/0.678 ms}}<br />
<br />
If you get a {{ic|ping: unknown host}} error, first check if there is an issue with your cable or wireless signal strength. If not, you will need to set up the network manually, as explained below. Once a connection is established move on to [[#Prepare the storage drive|Prepare the storage drive]].<br />
<br />
==== Wired ====<br />
<br />
Follow this procedure if you need to set up a wired connection via a static IP address.<br />
<br />
First, disable the dhcpcd service which was started automatically at boot:<br />
<br />
# systemctl stop dhcpcd.service<br />
<br />
Identify the name of your Ethernet interface.<br />
<br />
{{hc|# ip link|<br />
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN mode DEFAULT<br />
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00<br />
2: enp2s0f0: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT qlen 1000<br />
link/ether 00:11:25:31:69:20 brd ff:ff:ff:ff:ff:ff<br />
3: wlp3s0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP mode DORMANT qlen 1000<br />
link/ether 01:02:03:04:05:06 brd ff:ff:ff:ff:ff:ff}}<br />
<br />
In this example, the Ethernet interface is {{ic|enp2s0f0}}. If you are unsure, your Ethernet interface is likely to start with the letter "e", and unlikely to be "lo" or start with the letter "w". You can also use {{ic|iwconfig}} and see which interfaces are not wireless:<br />
<br />
{{hc|# iwconfig|2=<br />
enp2s0f0 no wireless extensions.<br />
wlp3s0 IEEE 802.11bgn ESSID:"NETGEAR97"<br />
Mode:Managed Frequency:2.427 GHz Access Point: 2C:B0:5D:9C:72:BF<br />
Bit Rate=65 Mb/s Tx-Power=16 dBm<br />
Retry long limit:7 RTS thr:off Fragment thr:off<br />
Power Management:on<br />
Link Quality=61/70 Signal level=-49 dBm<br />
Rx invalid nwid:0 Rx invalid crypt:0 Rx invalid frag:0<br />
Tx excessive retries:0 Invalid misc:430 Missed beacon:0<br />
lo no wireless extensions.}}<br />
<br />
In this example, neither {{ic|enp2s0f0}} nor the loopback device have wireless extensions, meaning {{ic|enp2s0f0}} is our Ethernet interface.<br />
<br />
You also need to know these settings:<br />
<br />
* Static IP address.<br />
* Subnet mask.<br />
* Gateway's IP address.<br />
* Name servers' (DNS) IP addresses.<br />
* Domain name (unless you are on a local LAN, in which case you can make it up).<br />
<br />
Activate the connected Ethernet interface (e.g. {{ic|enp2s0f0}}):<br />
<br />
# ip link set enp2s0f0 up<br />
<br />
Add the address:<br />
<br />
# ip addr add ''ip_address''/''subnetmask'' dev ''interface_name''<br />
<br />
For example:<br />
<br />
# ip addr add 192.168.1.2/24 dev enp2s0f0<br />
<br />
For more options, run {{ic|man ip}}.<br />
<br />
Add your gateway like this, substituting your own gateway's IP address:<br />
<br />
# ip route add default via ''ip_address''<br />
<br />
For example:<br />
<br />
# ip route add default via 192.168.1.1<br />
<br />
Edit {{ic|resolv.conf}}, substituting your name servers' IP addresses and your local domain name:<br />
<br />
{{hc|# nano /etc/resolv.conf|<br />
nameserver 61.23.173.5<br />
nameserver 61.95.849.8<br />
search example.com}}<br />
<br />
{{Note|Currently, you may include a maximum of three {{ic|nameserver}} lines. In order to overcome this limitation, you can use a locally caching nameserver like [[Dnsmasq]]. }}<br />
<br />
You should now have a working network connection. If you do not, check the detailed [[Network Configuration]] page.<br />
<br />
==== Wireless ====<br />
<br />
Follow this procedure if you need wireless connectivity (Wi-Fi) during the installation process.<br />
<br />
First, identify the name of your wireless interface.<br />
<br />
{{hc|# iw dev|2=<br />
phy#0<br />
Interface wlp3s0<br />
ifindex 3<br />
wdev 0x1<br />
addr 00:21:6a:5e:52:bc<br />
type managed<br />
}}<br />
<br />
In this example, {{ic|wlp3s0}} is the available wireless interface. If you are unsure, your wireless interface is likely to start with the letter "w", and unlikely to be "lo" or start with the letter "e". <br />
<br />
{{Note|If you do not see output similar to this, then your wireless driver has not been loaded. If this is the case, you must load the driver yourself. Please see [[Wireless Setup]] for more detailed information.}}<br />
<br />
Bring the interface up with:<br />
<br />
# ip link set wlp3s0 up<br />
<br />
A small percentage of wireless chipsets also require firmware, in addition to a corresponding driver. If you get output like {{ic|SIOCSIFFLAGS: No such file or directory}}, this means you will need to manually load the firmware. If unsure, invoke {{ic|dmesg}} to query the kernel log for a firmware request from the wireless chipset. For example, if you have an Intel chipset which requires and has requested firmware from the kernel at boot:<br />
<br />
{{hc|# dmesg <nowiki>|</nowiki> grep firmware|<br />
firmware: requesting iwlwifi-5000-1.ucode}}<br />
<br />
If there is no output, it may be concluded that the system's wireless chipset does not require firmware.<br />
<br />
{{Warning|Wireless chipset firmware packages (for cards which require them) are pre-installed under {{ic|/usr/lib/firmware}} in the live environment (on CD/USB stick) '''but must be explicitly installed to your actual system to provide wireless functionality after you reboot into it!''' Package installation is covered later in this guide. Ensure installation of both your wireless module and firmware before rebooting! See [[Wireless Setup]] if you are unsure about the requirement of corresponding firmware installation for your particular chipset.}}<br />
<br />
Next, use {{Pkg|netctl}}'s {{ic|wifi-menu}} to connect to a network:<br />
<br />
# wifi-menu wlp3s0<br />
<br />
You should now have a working network connection. If you do not, check the detailed [[Wireless Setup]] page.<br />
<br />
Alternatively, use {{ic|iw dev wlp3s0 scan <nowiki>|</nowiki> grep SSID}} to scan for available networks, then connect to a network with:<br />
<br />
# wpa_supplicant -B -i wlp3s0 -c <(wpa_passphrase "''ssid''" "''psk''")<br />
<br />
You need to replace ''ssid'' with the name of your network (e.g. "Linksys etc...") and ''psk'' with your wireless password, '''leaving the quotes around the network name and password.'''<br />
<br />
Finally, you have to give your interface an IP address. This can be set manually or using the dhcp:<br />
<br />
# dhcpcd wlp3s0<br />
<br />
If that does not work, issue the following commands:<br />
<br />
# echo 'ctrl_interface=DIR=/run/wpa_supplicant' > /etc/wpa_supplicant.conf<br />
# wpa_passphrase <ssid> <passphrase> >> /etc/wpa_supplicant.conf<br />
# ip link set <interface> up # May not be needed as dhcpcd should bring it up but may be needed for wpa_supplicant.<br />
# wpa_supplicant -B -D nl80211 -c /foobar.conf -i <interface name><br />
# dhcpcd -A <interface name><br />
<br />
==== Analog modem, ISDN or PPPoE DSL ====<br />
<br />
For xDSL, dial-up and ISDN connections, see [[Direct Modem Connection]].<br />
<br />
==== Behind a proxy server ====<br />
<br />
If you are behind a proxy server, you will need to export the {{ic|http_proxy}} and {{ic|ftp_proxy}} environment variables. See [[Proxy settings]] for more information.<br />
<br />
=== Prepare the storage drive ===<br />
<br />
{{Warning|Partitioning can destroy data. You are '''strongly''' cautioned and advised to backup any critical data before proceeding.}}<br />
<br />
==== Choose a partition table type ====<br />
<br />
You have to choose between [[GUID Partition Table]] (GPT) and [[Master Boot Record]] (MBR). GPT is more modern and recommended for new installations.<br />
<br />
* If you want to setup a system which dual boots with windows, then you have to pay special attention to this choice. See [[Partitioning#Choosing_between_GPT_and_MBR]] for the gory details.<br />
* It is recommended to always use GPT for UEFI boot, as some UEFI firmwares do not allow UEFI-MBR boot.<br />
* Some BIOS systems may have issues with GPT. See http://mjg59.dreamwidth.org/8035.html and http://rodsbooks.com/gdisk/bios.html for more info and possible workarounds.<br />
<br />
{{Note|If you are installing to a USB flash key, see [[Installing Arch Linux on a USB key]].}}<br />
<br />
==== Partitioning tool ====<br />
<br />
Absolute beginners are encouraged to use a graphical partitioning tool. [http://gparted.sourceforge.net/download.php GParted] is a good example, and is [http://gparted.sourceforge.net/livecd.php provided as a "live" CD]. It is also included on live CDs of most Linux distributions such as [[Wikipedia:Ubuntu (operating system)|Ubuntu]] and [[Wikipedia:Linux Mint|Linux Mint]]. A drive should first be [[partitioning|partitioned]] and the partitions should be formatted with a [[File Systems|file system]] before rebooting.<br />
<br />
{{Tip|When using Gparted, selecting the option to create a new partition table gives an "msdos" partition table by default. If you are intending to follow the advice to create a GPT partition table then you need to choose "Advanced" and then select "gpt" from the drop-down menu.}}<br />
<br />
While gparted may be easier to use, if you just want to create a few partitions on a new disk you can get the job done quickly by just using one of the [[Partitioning#Partitioning_tools|fdisk variants]] which are included on the install medium. There are short usage instructions for both [[Partitioning#Gdisk_usage_summary|gdisk]] and [[Partitioning#Fdisk_usage_summary|fdisk]].<br />
<br />
==== Partition scheme ====<br />
<br />
You can decide into how many partitions the disk should be split, and for which directory each partition should be used in the system. The mapping from partitions to directories (frequently called 'mount points') is the [[Partitioning#Partition_scheme|Partition scheme]]. The simplest, and not a bad choice, is to make just one huge {{ic|/}} partition. Another popular choice is to have a {{ic|/}} and a {{ic|/home}} partition.<br />
<br />
{{Box BLUE|Additional required partitions:|<br />
* If you have a [[UEFI]] motherboard, you will need to create an extra [[Unified Extensible Firmware Interface#EFI System Partition|UEFI System Partition]]. It will need to be at least 512 MiB.<br />
* If you have a BIOS motherboard (or plan on booting in BIOS compatibility mode) and you want to setup GRUB on a GPT-partitioned drive, you will need to create an extra [[GRUB#GUID Partition Table (GPT) specific instructions|BIOS Boot Partition]] of size 1007 KiB and {{ic|EF02}} type code. Syslinux does not need one.<br />
}}<br />
<br />
See [[Swap]] for details if you wish to set up a swap partition or swap file. A swap file is easier to resize than a partition and can be created at any point after installation, but cannot be used with a Btrfs filesystem.<br />
<br />
==== Considerations for dualbooting with windows ====<br />
<br />
If you have an existing OS installation, please keep in mind that if you were to just write a completely new partition table to disk then all the data which was previously on disk would be lost. <br />
<br />
The recommended way to setup a linux/windows dual booting system is to first install windows, only using part of the disk for its partitions. When you have finished the windows setup, boot into the linux install environment where you can create additional partitions for linux while leaving the existing windows partitions untouched.<br />
<br />
Some newer computers come pre-installed with Windows 8 which will be using Secure Boot. Arch Linux currently does not support Secure Boot, but some Windows 8 installations have been seen not to boot if Secure Boot is turned off in the BIOS. In some cases it is necessary to turn off both Secure Boot as well as Fastboot in the BIOS options in order to allow Windows 8 to boot without Secure Boot. However there are potential security risks in turning off Secure Boot for booting up Windows 8. Therefore, it may be a better option to keep the Windows 8 install intact and have an independent hard drive for the Linux install - which can then be partitioned from scratch using a GPT partition table. Once that is done, creating several ext4/FAT32/swap partitions on the second drive may be a better way forward if the computer has two drives available. This is often not easy or possible on a small laptop. Currently, Secure Boot is still not in a fully stable state for reliable operation, even for Linux distributions that support it.<br />
<br />
If you have already created your partitions, proceed to [[#Create_filesystems|Create filesystems]].<br />
<br />
Otherwise, see the following example.<br />
<br />
==== Example ====<br />
<br />
The Arch Linux install media includes the following partitioning tools: {{ic|fdisk}}, {{ic|gdisk}}, {{ic|cfdisk}}, {{ic|cgdisk}}, {{ic|parted}}.<br />
<br />
{{Tip|Use the {{ic|lsblk}} command to list the hard disks attached to your system, along with the sizes of their existing partitions. This will help you to be confident you are partitioning the right disk.}}<br />
<br />
<br />
The example system will contain a 15 GB root partition, and a [[Partitioning#/home|home]] partition for the remaining space. Choose either [[MBR]] or [[GPT]]. Do not choose both!<br />
<br />
It should be emphasized that partitioning is a personal choice and that this example is only for illustrative purposes. See [[Partitioning]].<br />
<br />
===== Using cgdisk to create GPT partitions =====<br />
<br />
# cgdisk&nbsp;/dev/sda<br />
<br />
;Root:<br />
* Choose ''New'' (or press {{ic|N}}) – {{ic|Enter}} for the first sector (2048) – type in {{ic|15G}} – {{ic|Enter}} for the default hex code (8300) – {{ic|Enter}} for a blank partition name.<br />
<br />
;Home:<br />
* Press the down arrow a couple of times to move to the larger free space area.<br />
* Choose ''New'' (or press {{ic|N}}) – {{ic|Enter}} for the first sector – {{ic|Enter}} to use the rest of the drive (or you could type in the desired size; for example {{ic|30G}}) – {{ic|Enter}} for the default hex code (8300) – {{ic|Enter}} for a blank partition name.<br />
<br />
Here is what it should look like:<br />
<br />
Part. # Size Partition Type Partition Name<br />
----------------------------------------------------------------<br />
1007.0 KiB free space<br />
1 15.0 GiB Linux filesystem<br />
2 123.45 GiB Linux filesystem<br />
<br />
Double check and make sure that you are happy with the partition sizes as well as the partition table layout before continuing.<br />
<br />
If you would like to start over, you can simply select ''Quit'' (or press {{ic|Q}}) to exit without saving changes and then restart ''cgdisk''.<br />
<br />
If you are satisfied, choose ''Write'' (or press {{ic|Shift+W}}) to finalize and to write the partition table to the drive. Type {{ic|yes}} and choose ''Quit'' (or press {{ic|Q}}) to exit without making any more changes.<br />
<br />
===== Using fdisk to create MBR partitions =====<br />
{{Note|There is also ''cfdisk'', which is similar in UI to ''cgdisk'', but it currently does not automatically align the first partition properly. That is why the classic ''fdisk'' tool is used here.}}<br />
<br />
Launch ''fdisk'' with:<br />
<br />
# fdisk /dev/sda<br />
<br />
Create the first partition:<br />
<br />
# {{ic|Command (m for help):}} type {{ic|n}} and press {{ic|Enter}}<br />
# Partition type: {{ic|Select (default p):}} press {{ic|Enter}}<br />
# {{ic|Partition number (1-4, default 1):}} press {{ic|Enter}}<br />
# {{ic|First sector (2048-209715199, default 2048):}} press {{ic|Enter}}<br />
# {{ic|Last sector, +sectors or +size{K,M,G} (2048-209715199....., default 209715199):}} type {{ic|+15G}} and press {{ic|Enter}}<br />
<br />
Then create a second partition:<br />
<br />
# {{ic|Command (m for help):}} type {{ic|n}} and press {{ic|Enter}}<br />
# Partition type: {{ic|Select (default p):}} press {{ic|Enter}}<br />
# {{ic|Partition number (1-4, default 2):}} press {{ic|Enter}}<br />
# {{ic|First sector (31459328-209715199, default 31459328):}} press {{ic|Enter}}<br />
# {{ic|Last sector, +sectors or +size{K,M,G} (31459328-209715199....., default 209715199):}} press {{ic|Enter}}<br />
<br />
Now preview the new partition table:<br />
<br />
* {{ic|Command (m for help):}} type {{ic|p}} and press {{ic|Enter}}<br />
<br />
{{bc|<br />
Disk /dev/sda: 107.4 GB, 107374182400 bytes, 209715200 sectors<br />
Units &#61; sectors of 1 * 512 &#61; 512 bytes<br />
Sector size (logical/physical): 512 bytes / 512 bytes<br />
I/O size (minimum/optimal): 512 bytes / 512 bytes<br />
Disk identifier: 0x5698d902<br />
<br />
Device Boot Start End Blocks Id System<br />
/dev/sda1 2048 31459327 15728640 83 Linux<br />
/dev/sda2 31459328 209715199 89127936 83 Linux<br />
}}<br />
<br />
Then write the changes to disk:<br />
<br />
* {{ic|Command (m for help):}} type {{ic|w}} and press {{ic|Enter}}<br />
<br />
If everything went well fdisk will now quit with the following message:<br />
{{bc|<br />
The partition table has been altered!<br />
<br />
Calling ioctl() to re-read partition table.<br />
Syncing disks. <br />
}}<br />
<br />
In case this doesn't work because ''fdisk'' encountered an error, you can use the {{ic|q}} command to exit.<br />
<br />
==== Create filesystems ====<br />
<br />
Simply partitioning is not enough; the partitions also need a [[File Systems|filesystem]]. To format the partitions with an ext4 filesystem:<br />
<br />
{{Warning|Double check and triple check that it is actually {{ic|/dev/sda1}} and {{ic|/dev/sda2}} that you want to format. You can use {{ic|lsblk}} to help with this.}}<br />
<br />
# mkfs.ext4 /dev/sda1<br />
# mkfs.ext4 /dev/sda2<br />
<br />
If you have made a partition dedicated to swap (code 82), do not forget to format and activate it with:<br />
<br />
# mkswap /dev/sda''X''<br />
# swapon /dev/sda''X''<br />
<br />
For UEFI, you should format the ESP partition (usually sda1) with:<br />
# mkfs.vfat -F32 /dev/sda1<br />
<br />
=== Mount the partitions ===<br />
<br />
Each partition is identified with a number suffix. For example, {{ic|sda1}} specifies the first partition of the first drive, while {{ic|sda}} designates the entire drive.<br />
<br />
To display the current partition layout:<br />
<br />
# lsblk /dev/sda<br />
<br />
{{Note|Do not mount more than one partition to the same directory. And pay attention, because the mounting order is important.}}<br />
<br />
First, mount the root partition on {{ic|/mnt}}. Following the example above (yours may be different), it would be:<br />
<br />
# mount /dev/sda1 /mnt<br />
<br />
Then mount the home partition and any other separate partition ({{ic|/boot}}, {{ic|/var}}, etc), if you have any:<br />
<br />
# mkdir /mnt/home<br />
# mount /dev/sda2 /mnt/home<br />
<br />
In case you have a UEFI motherboard, mount the UEFI partition:<br />
<br />
# mkdir -p /mnt/boot<br />
# mount /dev/sda''X'' /mnt/boot<br />
<br />
=== Select a mirror ===<br />
<br />
Before installing, you may want to edit the {{ic|mirrorlist}} file and place your preferred mirror first. A copy of this file will be installed on your new system by {{ic|pacstrap}} as well, so it is worth getting it right.<br />
<br />
{{hc|# nano /etc/pacman.d/mirrorlist|<br />
##<br />
## Arch Linux repository mirrorlist<br />
## Sorted by mirror score from mirror status page<br />
## Generated on 2012-MM-DD<br />
##<br />
<br />
<nowiki>Server = http://mirror.example.xyz/archlinux/$repo/os/$arch</nowiki><br />
...}}<br />
<br />
* {{ic|Alt+6}} to copy a {{ic|Server}} line.<br />
* {{ic|PageUp}} key to scroll up.<br />
* {{ic|Ctrl+U}} to paste it at the top of the list.<br />
* {{ic|Ctrl+X}} to exit, and when prompted to save changes, press {{ic|Y}} and {{ic|Enter}} to use the same filename.<br />
<br />
If you want, you can make it the ''only'' mirror available by getting rid of everything else (using {{ic|Ctrl+K}}), but it is usually a good idea to have a few more, in case the first one goes offline.<br />
<br />
{{Tip|<br />
* Use the [https://www.archlinux.org/mirrorlist/ Mirrorlist Generator] to get an updated list for your country. HTTP mirrors are faster than FTP, because of something called [[Wikipedia:Keepalive|keepalive]]. With FTP, pacman has to send out a signal each time it downloads a package, resulting in a brief pause. For other ways to generate a mirror list, see [[Mirrors#Sorting mirrors|Sorting mirrors]] and [[Reflector]].<br />
* [https://archlinux.org/mirrors/status/ Arch Linux MirrorStatus] reports various aspects about the mirrors such as network problems with mirrors, data collection problems, the last time mirrors have been synced, etc.}}<br />
<br />
{{Note|<br />
* Whenever in the future you change your list of mirrors, always remember to force pacman to refresh all package lists with {{ic|pacman -Syy}}. This is considered to be good practice and will avoid possible headaches. See [[Mirrors]] for more information.<br />
* If you are using an older installation medium, your mirrorlist might be outdated, which might lead to problems when updating Arch Linux (see {{Bug|22510}}). Therefore it is advised to obtain the latest mirror information as described above.<br />
* Some issues have been reported in the [https://bbs.archlinux.org/ Arch Linux forums] regarding network problems that prevent pacman from updating/synchronizing repositories (see [https://bbs.archlinux.org/viewtopic.php?id&#61;68944] and [https://bbs.archlinux.org/viewtopic.php?id&#61;65728]). When installing Arch Linux natively, these issues have been resolved by replacing the default pacman file downloader with an alternative (see [[Improve Pacman Performance]] for more details). When installing Arch Linux as a guest OS in [[VirtualBox]], this issue has also been addressed by using "Host interface" instead of "NAT" in the machine properties.}}<br />
<br />
=== Install the base system ===<br />
<br />
The base system is installed using the [https://github.com/falconindy/arch-install-scripts/blob/master/pacstrap.in pacstrap] script.<br />
<br />
The {{ic|-i}} switch can be omitted if you wish to install every package from the ''base'' group without prompting.<br />
<br />
# pacstrap -i /mnt base<br />
<br />
{{Note|<br />
* If pacman fails to verify your packages, check the system time with {{ic|cal}}. If the system date is invalid (e.g. it shows the year 2010), signing keys will be considered expired (or invalid), signature checks on packages will fail and installation will be interrupted. Make sure to correct the system time, either by doing so manually or with the {{Pkg|ntp}} client, and retry running the pacstrap command. Refer to [[Time]] page for more information on correcting system time.<br />
* If pacman complains that {{ic|error: failed to commit transaction (invalid or corrupted package)}}, run the following command:<br />
# pacman-key --init && pacman-key --populate archlinux<br />
}}<br />
<br />
This will give you a basic Arch system. Other packages can be installed later using [[pacman]].<br />
<br />
=== Generate an fstab ===<br />
<br />
Generate an [[fstab]] file with the following command. UUIDs will be used because they have certain advantages (see [[fstab#Identifying filesystems]]). If you would prefer to use labels instead, replace the {{ic|-U}} option with {{ic|-L}}.<br />
<br />
# genfstab -U -p /mnt >> /mnt/etc/fstab<br />
# nano /mnt/etc/fstab<br />
<br />
{{Warning|The fstab file should always be checked after generating it. If you encounter errors running genfstab or later in the install process, do '''not''' run genfstab again; just edit the fstab file.}}<br />
<br />
A few considerations:<br />
<br />
* The last field determines the order in which partitions are checked at start up: use {{ic|1}} for the (non-{{ic|btrfs}}) root partition, which should be checked first; {{ic|2}} for all other partitions you want checked at start up; and {{ic|0}} means 'do not check' (see [[fstab#Field definitions]]).<br />
* All [[btrfs]] partitions should have {{ic|0}} for this field. Normally, you will also want your ''swap'' partition to have {{ic|0}}.<br />
<br />
=== Chroot and configure the base system ===<br />
<br />
Next, we [[chroot]] into our newly installed system:<br />
<br />
# arch-chroot /mnt<br />
<br />
{{Note|Use {{ic|arch-chroot /mnt /bin/bash}} to chroot into a bash shell.}}<br />
At this stage of the installation, you will configure the primary configuration files of your Arch Linux base system. These can either be created if they do not exist, or edited if you wish to change the defaults.<br />
<br />
Closely following and understanding these steps is of key importance to ensure a properly configured system.<br />
<br />
==== Locale ====<br />
<br />
Locales are used by '''glibc''' and other locale-aware programs or libraries for rendering text, correctly displaying regional monetary values, time and date formats, alphabetic idiosyncrasies, and other locale-specific standards.<br />
<br />
There are two files that need editing: {{ic|locale.gen}} and {{ic|locale.conf}}.<br />
<br />
* The {{ic|locale.gen}} file is empty by default (everything is commented out) and you need to remove the {{ic|#}} in front of the line(s) you want. You may uncomment more lines than just English (US), as long as you choose their {{ic|UTF-8}} encoding:<br />
<br />
{{hc|# nano /etc/locale.gen|<br />
en_US.UTF-8 UTF-8<br />
de_DE.UTF-8 UTF-8}}<br />
<br />
# locale-gen<br />
<br />
This will run on every '''glibc''' upgrade, generating all the locales specified in {{ic|/etc/locale.gen}}.<br />
<br />
* The {{ic|locale.conf}} file does not exist by default. Setting only {{ic|LANG}} should be enough. It will act as the default value for all other variables.<br />
<br />
# echo LANG=en_US.UTF-8 > /etc/locale.conf<br />
# export LANG=en_US.UTF-8<br />
<br />
{{Note|If you set some other language than English (US) at the beginning of the install, the above commands would be something like:<br />
# echo LANG<nowiki>=</nowiki>de_DE.UTF-8 > /etc/locale.conf<br />
# export LANG<nowiki>=</nowiki>de_DE.UTF-8<br />
}}<br />
<br />
To use other locales for other {{ic|LC_*}} variables, run {{ic|locale}} to see the available options and add them to {{ic|locale.conf}}. It is not recommended to set the {{ic|LC_ALL}} variable. An advanced example can be found [[Locale#Setting_system-wide_locale|here]].<br />
<br />
==== Console font and keymap ====<br />
<br />
If you set a keymap at [[#Change_the_language|the beginning]] of the install process, load it now, as well, because the environment has changed. For example:<br />
<br />
# loadkeys ''de-latin1''<br />
# setfont Lat2-Terminus16<br />
<br />
To make them available after reboot, edit {{ic|vconsole.conf}}:<br />
<br />
{{hc|# nano /etc/vconsole.conf|2=<br />
KEYMAP=de-latin1<br />
FONT=Lat2-Terminus16<br />
}}<br />
<br />
* {{ic|KEYMAP}} – Please note that this setting is only valid for your TTYs, not any graphical window managers or Xorg.<br />
<br />
* {{ic|FONT}} – Available alternate console fonts reside in {{ic|/usr/share/kbd/consolefonts/}}. The default (blank) is safe, but some foreign characters may show up as white squares or as other symbols. It is recommended that you change it to {{ic|Lat2-Terminus16}}, because according to {{ic|/usr/share/kbd/consolefonts/README.Lat2-Terminus16}}, it claims to support "about 110 language sets".<br />
<br />
* Possible option {{ic|FONT_MAP}} – Defines the console map to load at boot. Read {{ic|man setfont}}. Removing it or leaving it blank is safe.<br />
<br />
See [[Fonts#Console_fonts|Console fonts]] and {{ic|man vconsole.conf}} for more information.<br />
<br />
==== Time zone ====<br />
<br />
Available time zones and subzones can be found in the {{ic|/usr/share/zoneinfo/<Zone>/<SubZone>}} directories.<br />
<br />
To view the available <Zone>, check the directory {{ic|/usr/share/zoneinfo/}}:<br />
<br />
# ls /usr/share/zoneinfo/<br />
<br />
Similarly, you can check the contents of directories belonging to a <SubZone>:<br />
<br />
# ls /usr/share/zoneinfo/Europe<br />
<br />
Create a symbolic link {{ic|/etc/localtime}} to your zone file {{ic|/usr/share/zoneinfo/<Zone>/<SubZone>}} using this command:<br />
<br />
# ln -s /usr/share/zoneinfo/<Zone>/<SubZone> /etc/localtime<br />
<br />
'''Example:'''<br />
<br />
# ln -s /usr/share/zoneinfo/Europe/Minsk /etc/localtime<br />
<br />
==== Hardware clock ====<br />
<br />
Set the hardware clock mode uniformly between your operating systems. Otherwise, they may overwrite the hardware clock and cause time shifts.<br />
<br />
You can generate {{ic|/etc/adjtime}} automatically by using one of the following commands:<br />
<br />
* '''UTC''' (recommended)<br />
<br />
: {{Note|Using [[Wikipedia:Coordinated Universal Time|UTC]] for the hardware clock does not mean that software will display time in UTC.}}<br />
<br />
: {{bc|# hwclock --systohc --utc}}<br />
<br />
To synchronize your "UTC" time over the internet, see [[Network Time Protocol daemon|NTPd]].<br />
<br />
* '''localtime''' (discouraged; used by default in Windows)<br />
<br />
: {{Warning|Using ''localtime'' may lead to several known and unfixable bugs. However, there are no plans to drop support for ''localtime''.}}<br />
<br />
: {{bc|# hwclock --systohc --localtime}}<br />
<br />
If you have (or planning on having) a dual boot setup with Windows:<br />
<br />
* Recommended: Set both Arch Linux and Windows to use UTC. A quick [[Time#UTC in Windows|registry fix]] is needed. Also, be sure to prevent Windows from synchronizing the time on-line, because the hardware clock will default back to ''localtime''.<br />
<br />
* Not recommended: Set Arch Linux to ''localtime'' and disable any time-related services, like [[Network Time Protocol daemon|NTPd]] . This will let Windows take care of hardware clock corrections and you will need to remember to boot into Windows at least two times a year (in Spring and Autumn) when [[Wikipedia:Daylight saving time|DST]] kicks in. So please do not ask on the forums why the clock is one hour behind or ahead if you usually go for days or weeks without booting into Windows.<br />
<br />
==== Kernel modules ====<br />
<br />
{{Tip|This is just an example, you do not need to set it. All needed modules are automatically loaded by udev, so you will rarely need to add something here. Only add modules that you know are missing.}}<br />
<br />
For kernel modules to load during boot, place a {{ic|*.conf}} file in {{ic|/etc/modules-load.d/}}, with a name based on the program that uses them.<br />
<br />
{{hc|# nano /etc/modules-load.d/virtio-net.conf|<br />
# Load 'virtio-net.ko' at boot.<br />
<br />
virtio-net}}<br />
<br />
If there are more modules to load per {{ic|*.conf}}, the module names can be separated by newlines. A good example are the [[VirtualBox#Arch Linux guests|VirtualBox Guest Additions]].<br />
<br />
Empty lines and lines starting with {{ic|#}} or {{ic|;}} are ignored.<br />
<br />
==== Hostname ====<br />
<br />
Set the [[Wikipedia:hostname|hostname]] to your liking (e.g. ''arch''):<br />
<br />
# hostnamectl set-hostname ''hostname''<br />
<br />
{{Note|There is no need to edit {{ic|/etc/hosts}}.}}<br />
<br />
=== Configure the network ===<br />
<br />
You need to configure the network again, but this time for your newly installed environment. The procedure and prerequisites are very similar to the one described [[#Establish an internet connection|above]], except we are going to make it persistent and automatically run at boot.<br />
<br />
{{Note|<br />
* For more in-depth information on network configration, visit [[Network Configuration]] and [[Wireless Setup]].<br />
* If you would like to use the old interface naming scheme (ie. eth* and wlan*) you can accomplish this by creating an empty file at {{ic|/etc/udev/rules.d/80-net-name-slot.rules}} which will mask the file of the same name located under {{ic|/usr/lib/udev/rules.d}} (alternatively, instead of an empty file, using a symlink to {{ic|/dev/null}} is also an acceptable masking method).<br />
}}<br />
<br />
==== Wired ====<br />
<br />
===== Dynamic IP =====<br />
<br />
; Using dhcpcd<br />
<br />
If you only use a single fixed wired network connection, you do not need a network management service and can simply enable the {{ic|dhcpcd}} service:<br />
<br />
# systemctl enable dhcpcd.service<br />
<br />
: {{Note|If it doesn't work, use: {{ic|# systemctl enable dhcpcd@''interface_name''.service}} }}<br />
<br />
; Using netctl<br />
<br />
Copy a sample profile from {{ic|/etc/netctl/examples}} to {{ic|/etc/netctl}}:<br />
<br />
# cd /etc/netctl<br />
# cp examples/ethernet-dhcp my-network<br />
<br />
Edit the profile as needed (modify {{ic|Interface}}):<br />
<br />
# nano my-network<br />
<br />
Enable the {{ic|my-network}} profile:<br />
<br />
# netctl enable my-network<br />
<br />
; Using netctl-ifplugd<br />
<br />
Alternatively, you can use {{ic|netctl-ifplugd}}, which gracefully handles dynamic connections to new networks:<br />
<br />
Install {{Pkg|ifplugd}}, which is required for {{ic|netctl-ifplugd}}:<br />
<br />
# pacman -S ifplugd<br />
<br />
Then enable for interface that you want:<br />
<br />
# systemctl enable netctl-ifplugd@<interface>.service<br />
<br />
{{Tip|[[Netctl]] also provides {{ic|netctl-auto}}, which can be used to handle wired profiles in conjunction with {{ic|netctl-ifplugd}}.}}<br />
<br />
===== Static IP =====<br />
<br />
; Using netctl<br />
<br />
Copy a sample profile from {{ic|/etc/netctl/examples}} to {{ic|/etc/netctl}}:<br />
<br />
# cd /etc/netctl<br />
# cp examples/ethernet-static my-network<br />
<br />
Edit the profile as needed (modify {{ic|Interface}}, {{ic|Address}}, {{ic|Gateway}} and {{ic|DNS}}):<br />
<br />
# nano my-network<br />
<br />
* Notice the {{ic|/24}} in {{ic|Address}} which is the [[wikipedia:Classless Inter-Domain Routing#CIDR notation|CIDR notation]] of a {{ic|255.255.255.0}} netmask<br />
<br />
Enable above created profile to start it at every boot:<br />
<br />
# netctl enable my-network<br />
<br />
==== Wireless ====<br />
<br />
{{Note|If your wireless adapter requires a firmware (as described in the above [[#Wireless|Establish an internet connection]] section and also [[Wireless Setup#Device driver|here]]), install the package containing your firmware. Most of the time, the {{Pkg|linux-firmware}} package will contain the needed firmware. Though for some devices, the required firmware might be in its own package. For example:<br />
{{bc|# pacman -S zd1211-firmware}}<br />
See [[Wireless Setup#Installing driver/firmware]] for more info.}}<br />
<br />
Install {{Pkg|iw}} and {{Pkg|wpa_supplicant}} which you will need to connect to a network:<br />
<br />
# pacman -S iw wpa_supplicant<br />
<br />
===== Adding wireless networks =====<br />
<br />
; Using wifi-menu<br />
<br />
Install {{Pkg|dialog}}, which is required for {{ic|wifi-menu}}:<br />
<br />
# pacman -S dialog<br />
<br />
After finishing the rest of this installation and rebooting, you can connect to the network with {{ic|wifi-menu ''interface_name''}} (where {{ic|''interface_name''}} is the interface of your wireless chipset).<br />
<br />
# wifi-menu ''interface_name''<br />
<br />
{{Warning|This must be done *after* your reboot when you are no longer chrooted. The process spawned by this command will conflict with the one you have running outside of the chroot. Alternatively, you could just configure a network profile manually using the following templates so that you do not have to worry about using {{ic|wifi-menu}} at all.}}<br />
<br />
; Using manual netctl profiles<br />
<br />
Copy a network profile from {{ic|/etc/netctl/examples}} to {{ic|/etc/netctl}}:<br />
<br />
# cd /etc/netctl<br />
# cp examples/wireless-wpa my-network<br />
<br />
Edit the profile as needed (modify {{ic|Interface}}, {{ic|ESSID}} and {{ic|Key}}):<br />
<br />
# nano my-network<br />
<br />
Enable above created profile to start it at every boot:<br />
<br />
# netctl enable my-network<br />
<br />
===== Connect automatically to known networks =====<br />
<br />
Install {{Pkg|wpa_actiond}}, which is required for {{ic|netctl-auto}}:<br />
<br />
# pacman -S wpa_actiond<br />
<br />
Enable the {{ic|netctl-auto}} service, which will connect to known networks and gracefully handle roaming and disconnects:<br />
<br />
# systemctl enable netctl-auto@''interface_name''.service<br />
<br />
{{Tip|[[Netctl]] also provides {{ic|netctl-ifplugd}}, which can be used to handle wired profiles in conjunction with {{ic|netctl-auto}}.}}<br />
<br />
==== Analog modem, ISDN or PPPoE DSL ====<br />
<br />
For xDSL, dial-up and ISDN connections, see [[Direct Modem Connection]].<br />
<br />
=== Create an initial ramdisk environment ===<br />
<br />
{{Tip|Most users can skip this step and use the defaults provided in {{ic|mkinitcpio.conf}}. The initramfs image (from the {{ic|/boot}} folder) has already been generated based on this file when the {{Pkg|linux}} package (the Linux kernel) was installed earlier with {{ic|pacstrap}}.}}<br />
<br />
Here you need to set the right [[Mkinitcpio#HOOKS|hooks]] if the root is on a USB drive, if you use RAID, LVM, or if {{ic|/usr}} is on a separate partition.<br />
<br />
Edit {{ic|/etc/mkinitcpio.conf}} as needed and re-generate the initramfs image with:<br />
<br />
# mkinitcpio -p linux<br />
<br />
{{Note|Arch VPS installations on QEMU (e.g. when using {{ic|virt-manager}}) may need {{ic|virtio}} modules in {{ic|mkinitcpio.conf}} to be able to boot.<br />
<br />
{{hc|# nano /etc/mkinitcpio.conf|2=<br />
MODULES="virtio virtio_blk virtio_pci virtio_net"<br />
}}<br />
}}<br />
<br />
=== Set the root password ===<br />
<br />
Set the root password with:<br />
<br />
# passwd<br />
<br />
=== Install and configure a bootloader ===<br />
<br />
==== For BIOS motherboards ====<br />
<br />
For BIOS systems, two bootloaders are available: Syslinux and GRUB. Choose the bootloader as per your convenience.<br />
<br />
* Syslinux is (currently) limited to loading only files from the partition where it was installed. Its configuration file is considered to be easier to understand. An example configuration can be found [https://bbs.archlinux.org/viewtopic.php?pid=1109328#p1109328 here].<br />
<br />
* GRUB is more feature-rich and supports more complex scenarios. Its configuration file(s) is more similar to a scripting language, which may be difficult for beginners to manually write. It is recommended that they automatically generate one.<br />
<br />
===== Syslinux =====<br />
<br />
{{Note|If you opted for a GUID partition table (GPT) for your hard drive earlier, you need to install the {{Pkg|gptfdisk}} package now for this next step to work, assuming you have not installed it already.}}<br />
<br />
Install the {{Pkg|syslinux}} package and then use the {{ic|syslinux-install_update}} script to automatically ''install'' the bootloader ({{ic|-i}}), mark the partition ''active'' by setting the boot flag ({{ic|-a}}), and install the ''MBR'' boot code ({{ic|-m}}):<br />
<br />
# pacman -S syslinux<br />
# syslinux-install_update -i -a -m<br />
<br />
Configure {{ic|syslinux.cfg}} to point to the right root partition. This step is vital. If it points to the wrong partition, Arch Linux will not boot. Change {{ic|/dev/sda3}} to reflect your root partition ''(if you partitioned your drive as in [[#Prepare the storage drive|the example]], your root partition is sda1)''. Do the same for the fallback entry.<br />
<br />
{{hc|# nano /boot/syslinux/syslinux.cfg|2=<br />
...<br />
LABEL arch<br />
...<br />
APPEND root=/dev/sda3 rw<br />
...}}<br />
<br />
For more information on configuring and using Syslinux, see [[Syslinux]].<br />
<br />
===== GRUB =====<br />
<br />
Install the {{Pkg|grub}} package and then run {{ic|grub-install}} to install the bootloader:<br />
<br />
{{Note|<br />
* Change {{ic|/dev/sda}} to reflect the drive you installed Arch on. Do not append a partition number (do not use {{ic|sda''X''}}).<br />
* For GPT-partitioned drives on BIOS motherboards, you also need a "BIOS Boot Partition". See [[GRUB#GUID Partition Table (GPT) specific instructions|GPT-specific instructions]] and [[GRUB#Install_to_GPT_BIOS_boot_partition|Install to GPT BIOS boot partition]] in the GRUB page.<br />
}}<br />
<br />
# pacman -S grub<br />
# grub-install --recheck /dev/sda<br />
<br />
{{Note| If it is an installation on virtualbox as guest, while running grub-install command as in above, you might get an error like "/usr/sbin/grub-bios-setup: warning: this GPT partition label contains no BIOS Boot Partition; embedding won't be possible". Executing {{ic|parted -s /dev/sda set 1 bios_grub on}} and then retrying ''grub-install'' should solve the problem.}}<br />
<br />
While using a manually created {{ic|grub.cfg}} is absolutely fine, it is recommended that beginners automatically generate one:<br />
<br />
{{Tip|To automatically search for other operating systems on your computer, install {{Pkg|os-prober}} ({{ic|pacman -S os-prober}}) before running the next command.}}<br />
<br />
# grub-mkconfig -o /boot/grub/grub.cfg<br />
<br />
For more information on configuring and using GRUB, see [[GRUB]].<br />
<br />
==== For UEFI motherboards ====<br />
<br />
For UEFI systems, several options are available. A complete list of options is available at [[UEFI Bootloaders]]. You may find that some options work while others do not. Otherwise, choose one as per your convenience. Here, we give two of the possibilities as examples:<br />
* Boot the Linux kernel directly using [[UEFI Bootloaders#Linux Kernel EFISTUB|EFISTUB]].<br />
* [[gummiboot]] is a simple boot manager, useful if you are dual booting. [[UEFI Bootloaders#Using rEFInd|rEFInd]] is another alternative.<br />
* GRUB is a more complete bootloader, usefull if you run into problems with the other two options.<br />
<br />
{{Note|For UEFI boot, the drive needs to be GPT-partitioned and an [[Unified Extensible Firmware Interface#EFI System Partition|UEFI System Partition]] (512 MiB or larger, type {{ic|EF00}}, formatted with FAT32) must be present. For the following examples, this partition must be mounted on {{ic|/boot}}. If you have followed this guide from the beginning, you have already done all of these.}}<br />
<br />
{{Note|<!--This troubleshooting note should be transferred to [[UEFI Bootloaders]]-->If you run into problems, such as not being able to boot after the bootloader has been installed without any visible error. In this case, you will instead have to enter the UEFI shell and manually add an entry to the UEFI boot menu with the {{ic|bcfg}} command, as described [[Unified Extensible Firmware Interface#bcfg|here]].<br />
* On some ASUS motherboards, there is an EFI bug that always reports {{ic|MaxVariableSize&#61;0}}. Combined with a recent kernel that enforces checks on this value, this prevents {{ic|efibootmgr}} from setting new EFI variables. These motherboards do not support the UEFI Shell v2, so you cannot use the {{ic|bcfg}} method either. To work around this, add {{ic|efi_no_storage_paranoia}} to the kernel command line. You can do this by pressing "e" at the bootloader menu.<br />
* On some UEFI motherboards like the Intel Z77 boards, adding entries with efibootmgr or bcfg from efi shell will not work because they don't show up on the boot menu list after being added to NVRAM.<br />
<br />
:To solve this you have to trick the UEFI firmware that Windows boot manager is present on the ESP partition.<br />
<br />
:Copy the bootx64.efi file from USB drive as bootmgfw.efi efi file to your ESP partition by booting into EFI shell and typing:<br />
<br />
FS1:<br />
cd EFI<br />
mkdir Microsoft<br />
cd Microsoft<br />
mkdir Boot<br />
cp FS0:\EFI\BOOT\bootx64.efi FS1:\EFI\Microsoft\Boot\bootmgfw.efi<br />
<br />
:After reboot, any entries added to NVRAM should show up in the boot menu.<br />
}}<br />
<br />
===== EFISTUB =====<br />
<br />
Install the {{Pkg|efibootmgr}} package and then add an Arch Linux boot entry, replacing {{ic|/dev/sdaX}} with your root partition, usually {{ic|/dev/sda2}}:<br />
<br />
# pacman -S efibootmgr<br />
# efibootmgr -c -L "Arch Linux" -l /vmlinuz-linux -u "root='''/dev/sdaX''' rw initrd=/initramfs-linux.img"<br />
<br />
===== Gummiboot =====<br />
<br />
Install the {{Pkg|gummiboot}} package and then run {{ic|gummiboot install}} to install the boot manager:<br />
<br />
# pacman -S gummiboot<br />
# gummiboot install<br />
<br />
{{Warning|1=<br />
You will probably see an error during gummiboot install, when it fails to add itself to NVRAM because of a [https://bugs.archlinux.org/task/34292 bug]. If you get this error message, manually use efibootmgr to add gummiboot to NVRAM:<br />
{{bc|# efibootmgr -c -L "Gummiboot" -l /EFI/gummiboot/gummibootx64.efi}}<br />
}}<br />
<br />
You will need to manually create a configuration file to add an entry for Arch Linux to the gummiboot manager. Create {{ic|/boot/loader/entries/arch.conf}} and add the following contents, replacing {{ic|/dev/sdaX}} with your root partition, usually {{ic|/dev/sda2}}:<br />
<br />
{{hc|# nano /boot/loader/entries/arch.conf|2=<br />
title Arch Linux<br />
linux /vmlinuz-linux<br />
initrd /initramfs-linux.img<br />
options root='''/dev/sdaX''' rw<br />
}}<br />
<br />
For more information on configuring and using gummiboot, see [[gummiboot]].<br />
<br />
===== GRUB =====<br />
<br />
Install the {{Pkg|grub}} and {{Pkg|efibootmgr}} packages and then run {{ic|grub-install}} to install the bootloader:<br />
<br />
# pacman -S grub efibootmgr<br />
# grub-install --efi-directory=/boot --bootloader-id=arch_grub --recheck<br />
<br />
Next, while using a manually created {{ic|grub.cfg}} is absolutely fine, it is recommended that beginners automatically generate one:<br />
<br />
{{Tip|To automatically search for other operating systems on your computer, install {{Pkg|os-prober}} ({{ic|pacman -S os-prober}}) before running the next command.}}<br />
<br />
# grub-mkconfig -o /boot/grub/grub.cfg<br />
<br />
For more information on configuring and using GRUB, see [[GRUB]].<br />
<br />
=== Unmount the partitions and reboot ===<br />
<br />
Exit from the chroot environment:<br />
<br />
# exit<br />
<br />
Since the partitions are mounted under {{ic|/mnt}}, we use the following command to unmount them:<br />
<br />
# umount /mnt/{boot,home,}<br />
<br />
Reboot the computer:<br />
<br />
# reboot<br />
<br />
{{Tip|Be sure to remove the installation media, otherwise you will boot back into it.}}<br />
<noinclude>{{Beginners' Guide navigation}}</noinclude></div>Benhamillhttps://wiki.archlinux.org/index.php?title=Beginners%27_guide&diff=269878Beginners' guide2013-08-04T20:16:45Z<p>Benhamill: Added the lower size limit for EIF boot partition higher up, so that it's more obvious at the time when you're doing the partitioning.</p>
<hr />
<div><noinclude><br />
[[Category:Getting and installing Arch]]<br />
[[Category:About Arch]]<br />
[[ar:Beginners' Guide/Installation]]<br />
[[da:Beginners' Guide/Installation]]<br />
[[es:Beginners' Guide/Installation]]<br />
[[hr:Beginners' Guide/Installation]]<br />
[[hu:Beginners' Guide/Installation]]<br />
[[it:Beginners' Guide/Installation]]<br />
[[ja:Beginners' Guide/Installation]]<br />
[[ko:Beginners' Guide/Installation]]<br />
[[nl:Beginners' Guide/Installatie]]<br />
[[pl:Beginners' Guide/Installation]]<br />
[[pt:Beginners' Guide/Installation]]<br />
[[ro:Ghidul începătorilor/Instalare]]<br />
[[ru:Beginners' Guide/Installation]]<br />
[[sr:Beginners' Guide/Installation]]<br />
[[zh-CN:Beginners' Guide/Installation]]<br />
[[zh-TW:Beginners' Guide/Installation]]<br />
{{Tip|This is part of a multi-page article for The Beginners' Guide. '''[[Beginners' Guide|Click here]]''' if you would rather read the guide in its entirety.}}<br />
</noinclude><br />
== Installation ==<br />
<br />
You are now presented with a shell prompt, automatically logged in as root.<br />
<br />
=== Change the language ===<br />
<br />
{{Tip|These are optional for the majority of users. Useful only if you plan on writing in your own language in any of the configuration files, if you use diacritical marks in the Wi-Fi password, or if you would like to receive system messages (e.g. possible errors) in your own language.}}<br />
<br />
By default, the keyboard layout is set to {{ic|us}}. If you have a non-[[Wikipedia:File:KB United States-NoAltGr.svg|US]] keyboard layout, run:<br />
<br />
# loadkeys ''layout''<br />
<br />
...where ''layout'' can be {{ic|fr}}, {{ic|uk}}, {{ic|dvorak}}, {{ic|be-latin1}}, etc. See [[KEYMAP#Keyboard layouts|here]] for a comprehensive list.<br />
<br />
The font should also be changed, because most languages use more glyphs than the 26 letter [[Wikipedia:English alphabet|English alphabet]]. Otherwise some foreign characters may show up as white squares or as other symbols. Note that the name is case-sensitive, so please type it ''exactly'' as you see it:<br />
<br />
# setfont Lat2-Terminus16<br />
<br />
By default, the language is set to English (US). If you would like to change the language for the install process ''(German, in this example)'', remove the {{ic|#}} in front of the [http://www.greendesktiny.com/support/knowledgebase_detail.php?ref=EUH-483 locale] you want from {{ic|/etc/locale.gen}}, along with English (US). Please choose the {{ic|UTF-8}} entry.<br />
<br />
Use {{ic|Ctrl+X}} to exit, and when prompted to save changes, press {{ic|Y}} and {{ic|Enter}} to use the same filename.<br />
<br />
{{hc|# nano /etc/locale.gen|<br />
en_US.UTF-8 UTF-8<br />
de_DE.UTF-8 UTF-8}}<br />
<br />
# locale-gen<br />
# export LANG=de_DE.UTF-8<br />
<br />
Remember, {{ic|LAlt+LShift}} activates and deactivates the keymap.<br />
<br />
=== Establish an internet connection ===<br />
<br />
{{Warning|As of v197, udev no longer assigns network interface names according to the wlanX and ethX naming scheme. If you are coming from a different distribution or are reinstalling Arch and not aware of the new interface naming style, please do not assume that your wireless interface is named wlan0, or that your wired interface is named eth0. You can use the command {{ic|ip link}} to discover the names of your interfaces.}}<br />
<br />
The {{ic|dhcpcd}} network daemon starts automatically during boot and it will attempt to start a wired connection. Try to ping a server to see if a connection was established. For example, Google's webservers:<br />
<br />
{{hc|# ping -c 3 www.google.com|2=<br />
PING www.l.google.com (74.125.132.105) 56(84) bytes of data.<br />
64 bytes from wb-in-f105.1e100.net (74.125.132.105): icmp_req=1 ttl=50 time=17.0 ms<br />
64 bytes from wb-in-f105.1e100.net (74.125.132.105): icmp_req=2 ttl=50 time=18.2 ms<br />
64 bytes from wb-in-f105.1e100.net (74.125.132.105): icmp_req=3 ttl=50 time=16.6 ms<br />
<br />
--- www.l.google.com ping statistics ---<br />
3 packets transmitted, 3 received, 0% packet loss, time 2003ms<br />
rtt min/avg/max/mdev = 16.660/17.320/18.254/0.678 ms}}<br />
<br />
If you get a {{ic|ping: unknown host}} error, first check if there is an issue with your cable or wireless signal strength. If not, you will need to set up the network manually, as explained below. Once a connection is established move on to [[#Prepare the storage drive|Prepare the storage drive]].<br />
<br />
==== Wired ====<br />
<br />
Follow this procedure if you need to set up a wired connection via a static IP address.<br />
<br />
First, disable the dhcpcd service which was started automatically at boot:<br />
<br />
# systemctl stop dhcpcd.service<br />
<br />
Identify the name of your Ethernet interface.<br />
<br />
{{hc|# ip link|<br />
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN mode DEFAULT<br />
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00<br />
2: enp2s0f0: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT qlen 1000<br />
link/ether 00:11:25:31:69:20 brd ff:ff:ff:ff:ff:ff<br />
3: wlp3s0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP mode DORMANT qlen 1000<br />
link/ether 01:02:03:04:05:06 brd ff:ff:ff:ff:ff:ff}}<br />
<br />
In this example, the Ethernet interface is {{ic|enp2s0f0}}. If you are unsure, your Ethernet interface is likely to start with the letter "e", and unlikely to be "lo" or start with the letter "w". You can also use {{ic|iwconfig}} and see which interfaces are not wireless:<br />
<br />
{{hc|# iwconfig|2=<br />
enp2s0f0 no wireless extensions.<br />
wlp3s0 IEEE 802.11bgn ESSID:"NETGEAR97"<br />
Mode:Managed Frequency:2.427 GHz Access Point: 2C:B0:5D:9C:72:BF<br />
Bit Rate=65 Mb/s Tx-Power=16 dBm<br />
Retry long limit:7 RTS thr:off Fragment thr:off<br />
Power Management:on<br />
Link Quality=61/70 Signal level=-49 dBm<br />
Rx invalid nwid:0 Rx invalid crypt:0 Rx invalid frag:0<br />
Tx excessive retries:0 Invalid misc:430 Missed beacon:0<br />
lo no wireless extensions.}}<br />
<br />
In this example, neither {{ic|enp2s0f0}} nor the loopback device have wireless extensions, meaning {{ic|enp2s0f0}} is our Ethernet interface.<br />
<br />
You also need to know these settings:<br />
<br />
* Static IP address.<br />
* Subnet mask.<br />
* Gateway's IP address.<br />
* Name servers' (DNS) IP addresses.<br />
* Domain name (unless you are on a local LAN, in which case you can make it up).<br />
<br />
Activate the connected Ethernet interface (e.g. {{ic|enp2s0f0}}):<br />
<br />
# ip link set enp2s0f0 up<br />
<br />
Add the address:<br />
<br />
# ip addr add ''ip_address''/''subnetmask'' dev ''interface_name''<br />
<br />
For example:<br />
<br />
# ip addr add 192.168.1.2/24 dev enp2s0f0<br />
<br />
For more options, run {{ic|man ip}}.<br />
<br />
Add your gateway like this, substituting your own gateway's IP address:<br />
<br />
# ip route add default via ''ip_address''<br />
<br />
For example:<br />
<br />
# ip route add default via 192.168.1.1<br />
<br />
Edit {{ic|resolv.conf}}, substituting your name servers' IP addresses and your local domain name:<br />
<br />
{{hc|# nano /etc/resolv.conf|<br />
nameserver 61.23.173.5<br />
nameserver 61.95.849.8<br />
search example.com}}<br />
<br />
{{Note|Currently, you may include a maximum of three {{ic|nameserver}} lines. In order to overcome this limitation, you can use a locally caching nameserver like [[Dnsmasq]]. }}<br />
<br />
You should now have a working network connection. If you do not, check the detailed [[Network Configuration]] page.<br />
<br />
==== Wireless ====<br />
<br />
Follow this procedure if you need wireless connectivity (Wi-Fi) during the installation process.<br />
<br />
First, identify the name of your wireless interface.<br />
<br />
{{hc|# iw dev|2=<br />
phy#0<br />
Interface wlp3s0<br />
ifindex 3<br />
wdev 0x1<br />
addr 00:21:6a:5e:52:bc<br />
type managed<br />
}}<br />
<br />
In this example, {{ic|wlp3s0}} is the available wireless interface. If you are unsure, your wireless interface is likely to start with the letter "w", and unlikely to be "lo" or start with the letter "e". <br />
<br />
{{Note|If you do not see output similar to this, then your wireless driver has not been loaded. If this is the case, you must load the driver yourself. Please see [[Wireless Setup]] for more detailed information.}}<br />
<br />
Bring the interface up with:<br />
<br />
# ip link set wlp3s0 up<br />
<br />
A small percentage of wireless chipsets also require firmware, in addition to a corresponding driver. If you get output like {{ic|SIOCSIFFLAGS: No such file or directory}}, this means you will need to manually load the firmware. If unsure, invoke {{ic|dmesg}} to query the kernel log for a firmware request from the wireless chipset. For example, if you have an Intel chipset which requires and has requested firmware from the kernel at boot:<br />
<br />
{{hc|# dmesg <nowiki>|</nowiki> grep firmware|<br />
firmware: requesting iwlwifi-5000-1.ucode}}<br />
<br />
If there is no output, it may be concluded that the system's wireless chipset does not require firmware.<br />
<br />
{{Warning|Wireless chipset firmware packages (for cards which require them) are pre-installed under {{ic|/usr/lib/firmware}} in the live environment (on CD/USB stick) '''but must be explicitly installed to your actual system to provide wireless functionality after you reboot into it!''' Package installation is covered later in this guide. Ensure installation of both your wireless module and firmware before rebooting! See [[Wireless Setup]] if you are unsure about the requirement of corresponding firmware installation for your particular chipset.}}<br />
<br />
Next, use {{Pkg|netctl}}'s {{ic|wifi-menu}} to connect to a network:<br />
<br />
# wifi-menu wlp3s0<br />
<br />
You should now have a working network connection. If you do not, check the detailed [[Wireless Setup]] page.<br />
<br />
Alternatively, use {{ic|iw dev wlp3s0 scan <nowiki>|</nowiki> grep SSID}} to scan for available networks, then connect to a network with:<br />
<br />
# wpa_supplicant -B -i wlp3s0 -c <(wpa_passphrase "''ssid''" "''psk''")<br />
<br />
You need to replace ''ssid'' with the name of your network (e.g. "Linksys etc...") and ''psk'' with your wireless password, '''leaving the quotes around the network name and password.'''<br />
<br />
Finally, you have to give your interface an IP address. This can be set manually or using the dhcp:<br />
<br />
# dhcpcd wlp3s0<br />
<br />
If that does not work, issue the following commands:<br />
<br />
# echo 'ctrl_interface=DIR=/run/wpa_supplicant' > /etc/wpa_supplicant.conf<br />
# wpa_passphrase <ssid> <passphrase> >> /etc/wpa_supplicant.conf<br />
# ip link set <interface> up # May not be needed as dhcpcd should bring it up but may be needed for wpa_supplicant.<br />
# wpa_supplicant -B -D nl80211 -c /foobar.conf -i <interface name><br />
# dhcpcd -A <interface name><br />
<br />
==== Analog modem, ISDN or PPPoE DSL ====<br />
<br />
For xDSL, dial-up and ISDN connections, see [[Direct Modem Connection]].<br />
<br />
==== Behind a proxy server ====<br />
<br />
If you are behind a proxy server, you will need to export the {{ic|http_proxy}} and {{ic|ftp_proxy}} environment variables. See [[Proxy settings]] for more information.<br />
<br />
=== Prepare the storage drive ===<br />
<br />
{{Warning|Partitioning can destroy data. You are '''strongly''' cautioned and advised to backup any critical data before proceeding.}}<br />
<br />
==== Choose a partition table type ====<br />
<br />
You have to choose between [[GUID Partition Table]] (GPT) and [[Master Boot Record]] (MBR). GPT is more modern and recommended for new installations.<br />
<br />
* If you want to setup a system which dual boots with windows, then you have to pay special attention to this choice. See [[Partitioning#Choosing_between_GPT_and_MBR]] for the gory details.<br />
* It is recommended to always use GPT for UEFI boot, as some UEFI firmwares do not allow UEFI-MBR boot.<br />
* Some BIOS systems may have issues with GPT. See http://mjg59.dreamwidth.org/8035.html and http://rodsbooks.com/gdisk/bios.html for more info and possible workarounds.<br />
<br />
{{Note|If you are installing to a USB flash key, see [[Installing Arch Linux on a USB key]].}}<br />
<br />
==== Partitioning tool ====<br />
<br />
Absolute beginners are encouraged to use a graphical partitioning tool. [http://gparted.sourceforge.net/download.php GParted] is a good example, and is [http://gparted.sourceforge.net/livecd.php provided as a "live" CD]. It is also included on live CDs of most Linux distributions such as [[Wikipedia:Ubuntu (operating system)|Ubuntu]] and [[Wikipedia:Linux Mint|Linux Mint]]. A drive should first be [[partitioning|partitioned]] and the partitions should be formatted with a [[File Systems|file system]] before rebooting.<br />
<br />
{{Tip|When using Gparted, selecting the option to create a new partition table gives an "msdos" partition table by default. If you are intending to follow the advice to create a GPT partition table then you need to choose "Advanced" and then select "gpt" from the drop-down menu.}}<br />
<br />
While gparted may be easier to use, if you just want to create a few partitions on a new disk you can get the job done quickly by just using one of the [[Partitioning#Partitioning_tools|fdisk variants]] which are included on the install medium. There are short usage instructions for both [[Partitioning#Gdisk_usage_summary|gdisk]] and [[Partitioning#Fdisk_usage_summary|fdisk]].<br />
<br />
==== Partition scheme ====<br />
<br />
You can decide into how many partitions the disk should be split, and for which directory each partition should be used in the system. The mapping from partitions to directories (frequently called 'mount points') is the [[Partitioning#Partition_scheme|Partition scheme]]. The simplest, and not a bad choice, is to make just one huge {{ic|/}} partition. Another popular choice is to have a {{ic|/}} and a {{ic|/home}} partition.<br />
<br />
{{Box BLUE|Additional required partitions:|<br />
* If you have a [[UEFI]] motherboard, you will need to create an extra [[Unified Extensible Firmware Interface#EFI System Partition|UEFI System Partition]] it will need to be at least 512 MiB.<br />
* If you have a BIOS motherboard (or plan on booting in BIOS compatibility mode) and you want to setup GRUB on a GPT-partitioned drive, you will need to create an extra [[GRUB#GUID Partition Table (GPT) specific instructions|BIOS Boot Partition]] of size 1007 KiB and {{ic|EF02}} type code. Syslinux does not need one.<br />
}}<br />
<br />
See [[Swap]] for details if you wish to set up a swap partition or swap file. A swap file is easier to resize than a partition and can be created at any point after installation, but cannot be used with a Btrfs filesystem.<br />
<br />
==== Considerations for dualbooting with windows ====<br />
<br />
If you have an existing OS installation, please keep in mind that if you were to just write a completely new partition table to disk then all the data which was previously on disk would be lost. <br />
<br />
The recommended way to setup a linux/windows dual booting system is to first install windows, only using part of the disk for its partitions. When you have finished the windows setup, boot into the linux install environment where you can create additional partitions for linux while leaving the existing windows partitions untouched.<br />
<br />
Some newer computers come pre-installed with Windows 8 which will be using Secure Boot. Arch Linux currently does not support Secure Boot, but some Windows 8 installations have been seen not to boot if Secure Boot is turned off in the BIOS. In some cases it is necessary to turn off both Secure Boot as well as Fastboot in the BIOS options in order to allow Windows 8 to boot without Secure Boot. However there are potential security risks in turning off Secure Boot for booting up Windows 8. Therefore, it may be a better option to keep the Windows 8 install intact and have an independent hard drive for the Linux install - which can then be partitioned from scratch using a GPT partition table. Once that is done, creating several ext4/FAT32/swap partitions on the second drive may be a better way forward if the computer has two drives available. This is often not easy or possible on a small laptop. Currently, Secure Boot is still not in a fully stable state for reliable operation, even for Linux distributions that support it.<br />
<br />
If you have already created your partitions, proceed to [[#Create_filesystems|Create filesystems]].<br />
<br />
Otherwise, see the following example.<br />
<br />
==== Example ====<br />
<br />
The Arch Linux install media includes the following partitioning tools: {{ic|fdisk}}, {{ic|gdisk}}, {{ic|cfdisk}}, {{ic|cgdisk}}, {{ic|parted}}.<br />
<br />
{{Tip|Use the {{ic|lsblk}} command to list the hard disks attached to your system, along with the sizes of their existing partitions. This will help you to be confident you are partitioning the right disk.}}<br />
<br />
<br />
The example system will contain a 15 GB root partition, and a [[Partitioning#/home|home]] partition for the remaining space. Choose either [[MBR]] or [[GPT]]. Do not choose both!<br />
<br />
It should be emphasized that partitioning is a personal choice and that this example is only for illustrative purposes. See [[Partitioning]].<br />
<br />
===== Using cgdisk to create GPT partitions =====<br />
<br />
# cgdisk&nbsp;/dev/sda<br />
<br />
;Root:<br />
* Choose ''New'' (or press {{ic|N}}) – {{ic|Enter}} for the first sector (2048) – type in {{ic|15G}} – {{ic|Enter}} for the default hex code (8300) – {{ic|Enter}} for a blank partition name.<br />
<br />
;Home:<br />
* Press the down arrow a couple of times to move to the larger free space area.<br />
* Choose ''New'' (or press {{ic|N}}) – {{ic|Enter}} for the first sector – {{ic|Enter}} to use the rest of the drive (or you could type in the desired size; for example {{ic|30G}}) – {{ic|Enter}} for the default hex code (8300) – {{ic|Enter}} for a blank partition name.<br />
<br />
Here is what it should look like:<br />
<br />
Part. # Size Partition Type Partition Name<br />
----------------------------------------------------------------<br />
1007.0 KiB free space<br />
1 15.0 GiB Linux filesystem<br />
2 123.45 GiB Linux filesystem<br />
<br />
Double check and make sure that you are happy with the partition sizes as well as the partition table layout before continuing.<br />
<br />
If you would like to start over, you can simply select ''Quit'' (or press {{ic|Q}}) to exit without saving changes and then restart ''cgdisk''.<br />
<br />
If you are satisfied, choose ''Write'' (or press {{ic|Shift+W}}) to finalize and to write the partition table to the drive. Type {{ic|yes}} and choose ''Quit'' (or press {{ic|Q}}) to exit without making any more changes.<br />
<br />
===== Using fdisk to create MBR partitions =====<br />
{{Note|There is also ''cfdisk'', which is similar in UI to ''cgdisk'', but it currently does not automatically align the first partition properly. That is why the classic ''fdisk'' tool is used here.}}<br />
<br />
Launch ''fdisk'' with:<br />
<br />
# fdisk /dev/sda<br />
<br />
Create the first partition:<br />
<br />
# {{ic|Command (m for help):}} type {{ic|n}} and press {{ic|Enter}}<br />
# Partition type: {{ic|Select (default p):}} press {{ic|Enter}}<br />
# {{ic|Partition number (1-4, default 1):}} press {{ic|Enter}}<br />
# {{ic|First sector (2048-209715199, default 2048):}} press {{ic|Enter}}<br />
# {{ic|Last sector, +sectors or +size{K,M,G} (2048-209715199....., default 209715199):}} type {{ic|+15G}} and press {{ic|Enter}}<br />
<br />
Then create a second partition:<br />
<br />
# {{ic|Command (m for help):}} type {{ic|n}} and press {{ic|Enter}}<br />
# Partition type: {{ic|Select (default p):}} press {{ic|Enter}}<br />
# {{ic|Partition number (1-4, default 2):}} press {{ic|Enter}}<br />
# {{ic|First sector (31459328-209715199, default 31459328):}} press {{ic|Enter}}<br />
# {{ic|Last sector, +sectors or +size{K,M,G} (31459328-209715199....., default 209715199):}} press {{ic|Enter}}<br />
<br />
Now preview the new partition table:<br />
<br />
* {{ic|Command (m for help):}} type {{ic|p}} and press {{ic|Enter}}<br />
<br />
{{bc|<br />
Disk /dev/sda: 107.4 GB, 107374182400 bytes, 209715200 sectors<br />
Units &#61; sectors of 1 * 512 &#61; 512 bytes<br />
Sector size (logical/physical): 512 bytes / 512 bytes<br />
I/O size (minimum/optimal): 512 bytes / 512 bytes<br />
Disk identifier: 0x5698d902<br />
<br />
Device Boot Start End Blocks Id System<br />
/dev/sda1 2048 31459327 15728640 83 Linux<br />
/dev/sda2 31459328 209715199 89127936 83 Linux<br />
}}<br />
<br />
Then write the changes to disk:<br />
<br />
* {{ic|Command (m for help):}} type {{ic|w}} and press {{ic|Enter}}<br />
<br />
If everything went well fdisk will now quit with the following message:<br />
{{bc|<br />
The partition table has been altered!<br />
<br />
Calling ioctl() to re-read partition table.<br />
Syncing disks. <br />
}}<br />
<br />
In case this doesn't work because ''fdisk'' encountered an error, you can use the {{ic|q}} command to exit.<br />
<br />
==== Create filesystems ====<br />
<br />
Simply partitioning is not enough; the partitions also need a [[File Systems|filesystem]]. To format the partitions with an ext4 filesystem:<br />
<br />
{{Warning|Double check and triple check that it is actually {{ic|/dev/sda1}} and {{ic|/dev/sda2}} that you want to format. You can use {{ic|lsblk}} to help with this.}}<br />
<br />
# mkfs.ext4 /dev/sda1<br />
# mkfs.ext4 /dev/sda2<br />
<br />
If you have made a partition dedicated to swap (code 82), do not forget to format and activate it with:<br />
<br />
# mkswap /dev/sda''X''<br />
# swapon /dev/sda''X''<br />
<br />
For UEFI, you should format the ESP partition (usually sda1) with:<br />
# mkfs.vfat -F32 /dev/sda1<br />
<br />
=== Mount the partitions ===<br />
<br />
Each partition is identified with a number suffix. For example, {{ic|sda1}} specifies the first partition of the first drive, while {{ic|sda}} designates the entire drive.<br />
<br />
To display the current partition layout:<br />
<br />
# lsblk /dev/sda<br />
<br />
{{Note|Do not mount more than one partition to the same directory. And pay attention, because the mounting order is important.}}<br />
<br />
First, mount the root partition on {{ic|/mnt}}. Following the example above (yours may be different), it would be:<br />
<br />
# mount /dev/sda1 /mnt<br />
<br />
Then mount the home partition and any other separate partition ({{ic|/boot}}, {{ic|/var}}, etc), if you have any:<br />
<br />
# mkdir /mnt/home<br />
# mount /dev/sda2 /mnt/home<br />
<br />
In case you have a UEFI motherboard, mount the UEFI partition:<br />
<br />
# mkdir -p /mnt/boot<br />
# mount /dev/sda''X'' /mnt/boot<br />
<br />
=== Select a mirror ===<br />
<br />
Before installing, you may want to edit the {{ic|mirrorlist}} file and place your preferred mirror first. A copy of this file will be installed on your new system by {{ic|pacstrap}} as well, so it is worth getting it right.<br />
<br />
{{hc|# nano /etc/pacman.d/mirrorlist|<br />
##<br />
## Arch Linux repository mirrorlist<br />
## Sorted by mirror score from mirror status page<br />
## Generated on 2012-MM-DD<br />
##<br />
<br />
<nowiki>Server = http://mirror.example.xyz/archlinux/$repo/os/$arch</nowiki><br />
...}}<br />
<br />
* {{ic|Alt+6}} to copy a {{ic|Server}} line.<br />
* {{ic|PageUp}} key to scroll up.<br />
* {{ic|Ctrl+U}} to paste it at the top of the list.<br />
* {{ic|Ctrl+X}} to exit, and when prompted to save changes, press {{ic|Y}} and {{ic|Enter}} to use the same filename.<br />
<br />
If you want, you can make it the ''only'' mirror available by getting rid of everything else (using {{ic|Ctrl+K}}), but it is usually a good idea to have a few more, in case the first one goes offline.<br />
<br />
{{Tip|<br />
* Use the [https://www.archlinux.org/mirrorlist/ Mirrorlist Generator] to get an updated list for your country. HTTP mirrors are faster than FTP, because of something called [[Wikipedia:Keepalive|keepalive]]. With FTP, pacman has to send out a signal each time it downloads a package, resulting in a brief pause. For other ways to generate a mirror list, see [[Mirrors#Sorting mirrors|Sorting mirrors]] and [[Reflector]].<br />
* [https://archlinux.org/mirrors/status/ Arch Linux MirrorStatus] reports various aspects about the mirrors such as network problems with mirrors, data collection problems, the last time mirrors have been synced, etc.}}<br />
<br />
{{Note|<br />
* Whenever in the future you change your list of mirrors, always remember to force pacman to refresh all package lists with {{ic|pacman -Syy}}. This is considered to be good practice and will avoid possible headaches. See [[Mirrors]] for more information.<br />
* If you are using an older installation medium, your mirrorlist might be outdated, which might lead to problems when updating Arch Linux (see {{Bug|22510}}). Therefore it is advised to obtain the latest mirror information as described above.<br />
* Some issues have been reported in the [https://bbs.archlinux.org/ Arch Linux forums] regarding network problems that prevent pacman from updating/synchronizing repositories (see [https://bbs.archlinux.org/viewtopic.php?id&#61;68944] and [https://bbs.archlinux.org/viewtopic.php?id&#61;65728]). When installing Arch Linux natively, these issues have been resolved by replacing the default pacman file downloader with an alternative (see [[Improve Pacman Performance]] for more details). When installing Arch Linux as a guest OS in [[VirtualBox]], this issue has also been addressed by using "Host interface" instead of "NAT" in the machine properties.}}<br />
<br />
=== Install the base system ===<br />
<br />
The base system is installed using the [https://github.com/falconindy/arch-install-scripts/blob/master/pacstrap.in pacstrap] script.<br />
<br />
The {{ic|-i}} switch can be omitted if you wish to install every package from the ''base'' group without prompting.<br />
<br />
# pacstrap -i /mnt base<br />
<br />
{{Note|<br />
* If pacman fails to verify your packages, check the system time with {{ic|cal}}. If the system date is invalid (e.g. it shows the year 2010), signing keys will be considered expired (or invalid), signature checks on packages will fail and installation will be interrupted. Make sure to correct the system time, either by doing so manually or with the {{Pkg|ntp}} client, and retry running the pacstrap command. Refer to [[Time]] page for more information on correcting system time.<br />
* If pacman complains that {{ic|error: failed to commit transaction (invalid or corrupted package)}}, run the following command:<br />
# pacman-key --init && pacman-key --populate archlinux<br />
}}<br />
<br />
This will give you a basic Arch system. Other packages can be installed later using [[pacman]].<br />
<br />
=== Generate an fstab ===<br />
<br />
Generate an [[fstab]] file with the following command. UUIDs will be used because they have certain advantages (see [[fstab#Identifying filesystems]]). If you would prefer to use labels instead, replace the {{ic|-U}} option with {{ic|-L}}.<br />
<br />
# genfstab -U -p /mnt >> /mnt/etc/fstab<br />
# nano /mnt/etc/fstab<br />
<br />
{{Warning|The fstab file should always be checked after generating it. If you encounter errors running genfstab or later in the install process, do '''not''' run genfstab again; just edit the fstab file.}}<br />
<br />
A few considerations:<br />
<br />
* The last field determines the order in which partitions are checked at start up: use {{ic|1}} for the (non-{{ic|btrfs}}) root partition, which should be checked first; {{ic|2}} for all other partitions you want checked at start up; and {{ic|0}} means 'do not check' (see [[fstab#Field definitions]]).<br />
* All [[btrfs]] partitions should have {{ic|0}} for this field. Normally, you will also want your ''swap'' partition to have {{ic|0}}.<br />
<br />
=== Chroot and configure the base system ===<br />
<br />
Next, we [[chroot]] into our newly installed system:<br />
<br />
# arch-chroot /mnt<br />
<br />
{{Note|Use {{ic|arch-chroot /mnt /bin/bash}} to chroot into a bash shell.}}<br />
At this stage of the installation, you will configure the primary configuration files of your Arch Linux base system. These can either be created if they do not exist, or edited if you wish to change the defaults.<br />
<br />
Closely following and understanding these steps is of key importance to ensure a properly configured system.<br />
<br />
==== Locale ====<br />
<br />
Locales are used by '''glibc''' and other locale-aware programs or libraries for rendering text, correctly displaying regional monetary values, time and date formats, alphabetic idiosyncrasies, and other locale-specific standards.<br />
<br />
There are two files that need editing: {{ic|locale.gen}} and {{ic|locale.conf}}.<br />
<br />
* The {{ic|locale.gen}} file is empty by default (everything is commented out) and you need to remove the {{ic|#}} in front of the line(s) you want. You may uncomment more lines than just English (US), as long as you choose their {{ic|UTF-8}} encoding:<br />
<br />
{{hc|# nano /etc/locale.gen|<br />
en_US.UTF-8 UTF-8<br />
de_DE.UTF-8 UTF-8}}<br />
<br />
# locale-gen<br />
<br />
This will run on every '''glibc''' upgrade, generating all the locales specified in {{ic|/etc/locale.gen}}.<br />
<br />
* The {{ic|locale.conf}} file does not exist by default. Setting only {{ic|LANG}} should be enough. It will act as the default value for all other variables.<br />
<br />
# echo LANG=en_US.UTF-8 > /etc/locale.conf<br />
# export LANG=en_US.UTF-8<br />
<br />
{{Note|If you set some other language than English (US) at the beginning of the install, the above commands would be something like:<br />
# echo LANG<nowiki>=</nowiki>de_DE.UTF-8 > /etc/locale.conf<br />
# export LANG<nowiki>=</nowiki>de_DE.UTF-8<br />
}}<br />
<br />
To use other locales for other {{ic|LC_*}} variables, run {{ic|locale}} to see the available options and add them to {{ic|locale.conf}}. It is not recommended to set the {{ic|LC_ALL}} variable. An advanced example can be found [[Locale#Setting_system-wide_locale|here]].<br />
<br />
==== Console font and keymap ====<br />
<br />
If you set a keymap at [[#Change_the_language|the beginning]] of the install process, load it now, as well, because the environment has changed. For example:<br />
<br />
# loadkeys ''de-latin1''<br />
# setfont Lat2-Terminus16<br />
<br />
To make them available after reboot, edit {{ic|vconsole.conf}}:<br />
<br />
{{hc|# nano /etc/vconsole.conf|2=<br />
KEYMAP=de-latin1<br />
FONT=Lat2-Terminus16<br />
}}<br />
<br />
* {{ic|KEYMAP}} – Please note that this setting is only valid for your TTYs, not any graphical window managers or Xorg.<br />
<br />
* {{ic|FONT}} – Available alternate console fonts reside in {{ic|/usr/share/kbd/consolefonts/}}. The default (blank) is safe, but some foreign characters may show up as white squares or as other symbols. It is recommended that you change it to {{ic|Lat2-Terminus16}}, because according to {{ic|/usr/share/kbd/consolefonts/README.Lat2-Terminus16}}, it claims to support "about 110 language sets".<br />
<br />
* Possible option {{ic|FONT_MAP}} – Defines the console map to load at boot. Read {{ic|man setfont}}. Removing it or leaving it blank is safe.<br />
<br />
See [[Fonts#Console_fonts|Console fonts]] and {{ic|man vconsole.conf}} for more information.<br />
<br />
==== Time zone ====<br />
<br />
Available time zones and subzones can be found in the {{ic|/usr/share/zoneinfo/<Zone>/<SubZone>}} directories.<br />
<br />
To view the available <Zone>, check the directory {{ic|/usr/share/zoneinfo/}}:<br />
<br />
# ls /usr/share/zoneinfo/<br />
<br />
Similarly, you can check the contents of directories belonging to a <SubZone>:<br />
<br />
# ls /usr/share/zoneinfo/Europe<br />
<br />
Create a symbolic link {{ic|/etc/localtime}} to your zone file {{ic|/usr/share/zoneinfo/<Zone>/<SubZone>}} using this command:<br />
<br />
# ln -s /usr/share/zoneinfo/<Zone>/<SubZone> /etc/localtime<br />
<br />
'''Example:'''<br />
<br />
# ln -s /usr/share/zoneinfo/Europe/Minsk /etc/localtime<br />
<br />
==== Hardware clock ====<br />
<br />
Set the hardware clock mode uniformly between your operating systems. Otherwise, they may overwrite the hardware clock and cause time shifts.<br />
<br />
You can generate {{ic|/etc/adjtime}} automatically by using one of the following commands:<br />
<br />
* '''UTC''' (recommended)<br />
<br />
: {{Note|Using [[Wikipedia:Coordinated Universal Time|UTC]] for the hardware clock does not mean that software will display time in UTC.}}<br />
<br />
: {{bc|# hwclock --systohc --utc}}<br />
<br />
To synchronize your "UTC" time over the internet, see [[Network Time Protocol daemon|NTPd]].<br />
<br />
* '''localtime''' (discouraged; used by default in Windows)<br />
<br />
: {{Warning|Using ''localtime'' may lead to several known and unfixable bugs. However, there are no plans to drop support for ''localtime''.}}<br />
<br />
: {{bc|# hwclock --systohc --localtime}}<br />
<br />
If you have (or planning on having) a dual boot setup with Windows:<br />
<br />
* Recommended: Set both Arch Linux and Windows to use UTC. A quick [[Time#UTC in Windows|registry fix]] is needed. Also, be sure to prevent Windows from synchronizing the time on-line, because the hardware clock will default back to ''localtime''.<br />
<br />
* Not recommended: Set Arch Linux to ''localtime'' and disable any time-related services, like [[Network Time Protocol daemon|NTPd]] . This will let Windows take care of hardware clock corrections and you will need to remember to boot into Windows at least two times a year (in Spring and Autumn) when [[Wikipedia:Daylight saving time|DST]] kicks in. So please do not ask on the forums why the clock is one hour behind or ahead if you usually go for days or weeks without booting into Windows.<br />
<br />
==== Kernel modules ====<br />
<br />
{{Tip|This is just an example, you do not need to set it. All needed modules are automatically loaded by udev, so you will rarely need to add something here. Only add modules that you know are missing.}}<br />
<br />
For kernel modules to load during boot, place a {{ic|*.conf}} file in {{ic|/etc/modules-load.d/}}, with a name based on the program that uses them.<br />
<br />
{{hc|# nano /etc/modules-load.d/virtio-net.conf|<br />
# Load 'virtio-net.ko' at boot.<br />
<br />
virtio-net}}<br />
<br />
If there are more modules to load per {{ic|*.conf}}, the module names can be separated by newlines. A good example are the [[VirtualBox#Arch Linux guests|VirtualBox Guest Additions]].<br />
<br />
Empty lines and lines starting with {{ic|#}} or {{ic|;}} are ignored.<br />
<br />
==== Hostname ====<br />
<br />
Set the [[Wikipedia:hostname|hostname]] to your liking (e.g. ''arch''):<br />
<br />
# hostnamectl set-hostname ''hostname''<br />
<br />
{{Note|There is no need to edit {{ic|/etc/hosts}}.}}<br />
<br />
=== Configure the network ===<br />
<br />
You need to configure the network again, but this time for your newly installed environment. The procedure and prerequisites are very similar to the one described [[#Establish an internet connection|above]], except we are going to make it persistent and automatically run at boot.<br />
<br />
{{Note|<br />
* For more in-depth information on network configration, visit [[Network Configuration]] and [[Wireless Setup]].<br />
* If you would like to use the old interface naming scheme (ie. eth* and wlan*) you can accomplish this by creating an empty file at {{ic|/etc/udev/rules.d/80-net-name-slot.rules}} which will mask the file of the same name located under {{ic|/usr/lib/udev/rules.d}} (alternatively, instead of an empty file, using a symlink to {{ic|/dev/null}} is also an acceptable masking method).<br />
}}<br />
<br />
==== Wired ====<br />
<br />
===== Dynamic IP =====<br />
<br />
; Using dhcpcd<br />
<br />
If you only use a single fixed wired network connection, you do not need a network management service and can simply enable the {{ic|dhcpcd}} service:<br />
<br />
# systemctl enable dhcpcd.service<br />
<br />
: {{Note|If it doesn't work, use: {{ic|# systemctl enable dhcpcd@''interface_name''.service}} }}<br />
<br />
; Using netctl<br />
<br />
Copy a sample profile from {{ic|/etc/netctl/examples}} to {{ic|/etc/netctl}}:<br />
<br />
# cd /etc/netctl<br />
# cp examples/ethernet-dhcp my-network<br />
<br />
Edit the profile as needed (modify {{ic|Interface}}):<br />
<br />
# nano my-network<br />
<br />
Enable the {{ic|my-network}} profile:<br />
<br />
# netctl enable my-network<br />
<br />
; Using netctl-ifplugd<br />
<br />
Alternatively, you can use {{ic|netctl-ifplugd}}, which gracefully handles dynamic connections to new networks:<br />
<br />
Install {{Pkg|ifplugd}}, which is required for {{ic|netctl-ifplugd}}:<br />
<br />
# pacman -S ifplugd<br />
<br />
Then enable for interface that you want:<br />
<br />
# systemctl enable netctl-ifplugd@<interface>.service<br />
<br />
{{Tip|[[Netctl]] also provides {{ic|netctl-auto}}, which can be used to handle wired profiles in conjunction with {{ic|netctl-ifplugd}}.}}<br />
<br />
===== Static IP =====<br />
<br />
; Using netctl<br />
<br />
Copy a sample profile from {{ic|/etc/netctl/examples}} to {{ic|/etc/netctl}}:<br />
<br />
# cd /etc/netctl<br />
# cp examples/ethernet-static my-network<br />
<br />
Edit the profile as needed (modify {{ic|Interface}}, {{ic|Address}}, {{ic|Gateway}} and {{ic|DNS}}):<br />
<br />
# nano my-network<br />
<br />
* Notice the {{ic|/24}} in {{ic|Address}} which is the [[wikipedia:Classless Inter-Domain Routing#CIDR notation|CIDR notation]] of a {{ic|255.255.255.0}} netmask<br />
<br />
Enable above created profile to start it at every boot:<br />
<br />
# netctl enable my-network<br />
<br />
==== Wireless ====<br />
<br />
{{Note|If your wireless adapter requires a firmware (as described in the above [[#Wireless|Establish an internet connection]] section and also [[Wireless Setup#Device driver|here]]), install the package containing your firmware. Most of the time, the {{Pkg|linux-firmware}} package will contain the needed firmware. Though for some devices, the required firmware might be in its own package. For example:<br />
{{bc|# pacman -S zd1211-firmware}}<br />
See [[Wireless Setup#Installing driver/firmware]] for more info.}}<br />
<br />
Install {{Pkg|iw}} and {{Pkg|wpa_supplicant}} which you will need to connect to a network:<br />
<br />
# pacman -S iw wpa_supplicant<br />
<br />
===== Adding wireless networks =====<br />
<br />
; Using wifi-menu<br />
<br />
Install {{Pkg|dialog}}, which is required for {{ic|wifi-menu}}:<br />
<br />
# pacman -S dialog<br />
<br />
After finishing the rest of this installation and rebooting, you can connect to the network with {{ic|wifi-menu ''interface_name''}} (where {{ic|''interface_name''}} is the interface of your wireless chipset).<br />
<br />
# wifi-menu ''interface_name''<br />
<br />
{{Warning|This must be done *after* your reboot when you are no longer chrooted. The process spawned by this command will conflict with the one you have running outside of the chroot. Alternatively, you could just configure a network profile manually using the following templates so that you do not have to worry about using {{ic|wifi-menu}} at all.}}<br />
<br />
; Using manual netctl profiles<br />
<br />
Copy a network profile from {{ic|/etc/netctl/examples}} to {{ic|/etc/netctl}}:<br />
<br />
# cd /etc/netctl<br />
# cp examples/wireless-wpa my-network<br />
<br />
Edit the profile as needed (modify {{ic|Interface}}, {{ic|ESSID}} and {{ic|Key}}):<br />
<br />
# nano my-network<br />
<br />
Enable above created profile to start it at every boot:<br />
<br />
# netctl enable my-network<br />
<br />
===== Connect automatically to known networks =====<br />
<br />
Install {{Pkg|wpa_actiond}}, which is required for {{ic|netctl-auto}}:<br />
<br />
# pacman -S wpa_actiond<br />
<br />
Enable the {{ic|netctl-auto}} service, which will connect to known networks and gracefully handle roaming and disconnects:<br />
<br />
# systemctl enable netctl-auto@''interface_name''.service<br />
<br />
{{Tip|[[Netctl]] also provides {{ic|netctl-ifplugd}}, which can be used to handle wired profiles in conjunction with {{ic|netctl-auto}}.}}<br />
<br />
==== Analog modem, ISDN or PPPoE DSL ====<br />
<br />
For xDSL, dial-up and ISDN connections, see [[Direct Modem Connection]].<br />
<br />
=== Create an initial ramdisk environment ===<br />
<br />
{{Tip|Most users can skip this step and use the defaults provided in {{ic|mkinitcpio.conf}}. The initramfs image (from the {{ic|/boot}} folder) has already been generated based on this file when the {{Pkg|linux}} package (the Linux kernel) was installed earlier with {{ic|pacstrap}}.}}<br />
<br />
Here you need to set the right [[Mkinitcpio#HOOKS|hooks]] if the root is on a USB drive, if you use RAID, LVM, or if {{ic|/usr}} is on a separate partition.<br />
<br />
Edit {{ic|/etc/mkinitcpio.conf}} as needed and re-generate the initramfs image with:<br />
<br />
# mkinitcpio -p linux<br />
<br />
{{Note|Arch VPS installations on QEMU (e.g. when using {{ic|virt-manager}}) may need {{ic|virtio}} modules in {{ic|mkinitcpio.conf}} to be able to boot.<br />
<br />
{{hc|# nano /etc/mkinitcpio.conf|2=<br />
MODULES="virtio virtio_blk virtio_pci virtio_net"<br />
}}<br />
}}<br />
<br />
=== Set the root password ===<br />
<br />
Set the root password with:<br />
<br />
# passwd<br />
<br />
=== Install and configure a bootloader ===<br />
<br />
==== For BIOS motherboards ====<br />
<br />
For BIOS systems, two bootloaders are available: Syslinux and GRUB. Choose the bootloader as per your convenience.<br />
<br />
* Syslinux is (currently) limited to loading only files from the partition where it was installed. Its configuration file is considered to be easier to understand. An example configuration can be found [https://bbs.archlinux.org/viewtopic.php?pid=1109328#p1109328 here].<br />
<br />
* GRUB is more feature-rich and supports more complex scenarios. Its configuration file(s) is more similar to a scripting language, which may be difficult for beginners to manually write. It is recommended that they automatically generate one.<br />
<br />
===== Syslinux =====<br />
<br />
{{Note|If you opted for a GUID partition table (GPT) for your hard drive earlier, you need to install the {{Pkg|gptfdisk}} package now for this next step to work, assuming you have not installed it already.}}<br />
<br />
Install the {{Pkg|syslinux}} package and then use the {{ic|syslinux-install_update}} script to automatically ''install'' the bootloader ({{ic|-i}}), mark the partition ''active'' by setting the boot flag ({{ic|-a}}), and install the ''MBR'' boot code ({{ic|-m}}):<br />
<br />
# pacman -S syslinux<br />
# syslinux-install_update -i -a -m<br />
<br />
Configure {{ic|syslinux.cfg}} to point to the right root partition. This step is vital. If it points to the wrong partition, Arch Linux will not boot. Change {{ic|/dev/sda3}} to reflect your root partition ''(if you partitioned your drive as in [[#Prepare the storage drive|the example]], your root partition is sda1)''. Do the same for the fallback entry.<br />
<br />
{{hc|# nano /boot/syslinux/syslinux.cfg|2=<br />
...<br />
LABEL arch<br />
...<br />
APPEND root=/dev/sda3 rw<br />
...}}<br />
<br />
For more information on configuring and using Syslinux, see [[Syslinux]].<br />
<br />
===== GRUB =====<br />
<br />
Install the {{Pkg|grub}} package and then run {{ic|grub-install}} to install the bootloader:<br />
<br />
{{Note|<br />
* Change {{ic|/dev/sda}} to reflect the drive you installed Arch on. Do not append a partition number (do not use {{ic|sda''X''}}).<br />
* For GPT-partitioned drives on BIOS motherboards, you also need a "BIOS Boot Partition". See [[GRUB#GUID Partition Table (GPT) specific instructions|GPT-specific instructions]] and [[GRUB#Install_to_GPT_BIOS_boot_partition|Install to GPT BIOS boot partition]] in the GRUB page.<br />
}}<br />
<br />
# pacman -S grub<br />
# grub-install --recheck /dev/sda<br />
<br />
{{Note| If it is an installation on virtualbox as guest, while running grub-install command as in above, you might get an error like "/usr/sbin/grub-bios-setup: warning: this GPT partition label contains no BIOS Boot Partition; embedding won't be possible". Executing {{ic|parted -s /dev/sda set 1 bios_grub on}} and then retrying ''grub-install'' should solve the problem.}}<br />
<br />
While using a manually created {{ic|grub.cfg}} is absolutely fine, it is recommended that beginners automatically generate one:<br />
<br />
{{Tip|To automatically search for other operating systems on your computer, install {{Pkg|os-prober}} ({{ic|pacman -S os-prober}}) before running the next command.}}<br />
<br />
# grub-mkconfig -o /boot/grub/grub.cfg<br />
<br />
For more information on configuring and using GRUB, see [[GRUB]].<br />
<br />
==== For UEFI motherboards ====<br />
<br />
For UEFI systems, several options are available. A complete list of options is available at [[UEFI Bootloaders]]. You may find that some options work while others do not. Otherwise, choose one as per your convenience. Here, we give two of the possibilities as examples:<br />
* Boot the Linux kernel directly using [[UEFI Bootloaders#Linux Kernel EFISTUB|EFISTUB]].<br />
* [[gummiboot]] is a simple boot manager, useful if you are dual booting. [[UEFI Bootloaders#Using rEFInd|rEFInd]] is another alternative.<br />
* GRUB is a more complete bootloader, usefull if you run into problems with the other two options.<br />
<br />
{{Note|For UEFI boot, the drive needs to be GPT-partitioned and an [[Unified Extensible Firmware Interface#EFI System Partition|UEFI System Partition]] (512 MiB or larger, type {{ic|EF00}}, formatted with FAT32) must be present. For the following examples, this partition must be mounted on {{ic|/boot}}. If you have followed this guide from the beginning, you have already done all of these.}}<br />
<br />
{{Note|<!--This troubleshooting note should be transferred to [[UEFI Bootloaders]]-->If you run into problems, such as not being able to boot after the bootloader has been installed without any visible error. In this case, you will instead have to enter the UEFI shell and manually add an entry to the UEFI boot menu with the {{ic|bcfg}} command, as described [[Unified Extensible Firmware Interface#bcfg|here]].<br />
* On some ASUS motherboards, there is an EFI bug that always reports {{ic|MaxVariableSize&#61;0}}. Combined with a recent kernel that enforces checks on this value, this prevents {{ic|efibootmgr}} from setting new EFI variables. These motherboards do not support the UEFI Shell v2, so you cannot use the {{ic|bcfg}} method either. To work around this, add {{ic|efi_no_storage_paranoia}} to the kernel command line. You can do this by pressing "e" at the bootloader menu.<br />
* On some UEFI motherboards like the Intel Z77 boards, adding entries with efibootmgr or bcfg from efi shell will not work because they don't show up on the boot menu list after being added to NVRAM.<br />
<br />
:To solve this you have to trick the UEFI firmware that Windows boot manager is present on the ESP partition.<br />
<br />
:Copy the bootx64.efi file from USB drive as bootmgfw.efi efi file to your ESP partition by booting into EFI shell and typing:<br />
<br />
FS1:<br />
cd EFI<br />
mkdir Microsoft<br />
cd Microsoft<br />
mkdir Boot<br />
cp FS0:\EFI\BOOT\bootx64.efi FS1:\EFI\Microsoft\Boot\bootmgfw.efi<br />
<br />
:After reboot, any entries added to NVRAM should show up in the boot menu.<br />
}}<br />
<br />
===== EFISTUB =====<br />
<br />
Install the {{Pkg|efibootmgr}} package and then add an Arch Linux boot entry, replacing {{ic|/dev/sdaX}} with your root partition, usually {{ic|/dev/sda2}}:<br />
<br />
# pacman -S efibootmgr<br />
# efibootmgr -c -L "Arch Linux" -l /vmlinuz-linux -u "root='''/dev/sdaX''' rw initrd=/initramfs-linux.img"<br />
<br />
===== Gummiboot =====<br />
<br />
Install the {{Pkg|gummiboot}} package and then run {{ic|gummiboot install}} to install the boot manager:<br />
<br />
# pacman -S gummiboot<br />
# gummiboot install<br />
<br />
{{Warning|1=<br />
You will probably see an error during gummiboot install, when it fails to add itself to NVRAM because of a [https://bugs.archlinux.org/task/34292 bug]. If you get this error message, manually use efibootmgr to add gummiboot to NVRAM:<br />
{{bc|# efibootmgr -c -L "Gummiboot" -l /EFI/gummiboot/gummibootx64.efi}}<br />
}}<br />
<br />
You will need to manually create a configuration file to add an entry for Arch Linux to the gummiboot manager. Create {{ic|/boot/loader/entries/arch.conf}} and add the following contents, replacing {{ic|/dev/sdaX}} with your root partition, usually {{ic|/dev/sda2}}:<br />
<br />
{{hc|# nano /boot/loader/entries/arch.conf|2=<br />
title Arch Linux<br />
linux /vmlinuz-linux<br />
initrd /initramfs-linux.img<br />
options root='''/dev/sdaX''' rw<br />
}}<br />
<br />
For more information on configuring and using gummiboot, see [[gummiboot]].<br />
<br />
===== GRUB =====<br />
<br />
Install the {{Pkg|grub}} and {{Pkg|efibootmgr}} packages and then run {{ic|grub-install}} to install the bootloader:<br />
<br />
# pacman -S grub efibootmgr<br />
# grub-install --efi-directory=/boot --bootloader-id=arch_grub --recheck<br />
<br />
Next, while using a manually created {{ic|grub.cfg}} is absolutely fine, it is recommended that beginners automatically generate one:<br />
<br />
{{Tip|To automatically search for other operating systems on your computer, install {{Pkg|os-prober}} ({{ic|pacman -S os-prober}}) before running the next command.}}<br />
<br />
# grub-mkconfig -o /boot/grub/grub.cfg<br />
<br />
For more information on configuring and using GRUB, see [[GRUB]].<br />
<br />
=== Unmount the partitions and reboot ===<br />
<br />
Exit from the chroot environment:<br />
<br />
# exit<br />
<br />
Since the partitions are mounted under {{ic|/mnt}}, we use the following command to unmount them:<br />
<br />
# umount /mnt/{boot,home,}<br />
<br />
Reboot the computer:<br />
<br />
# reboot<br />
<br />
{{Tip|Be sure to remove the installation media, otherwise you will boot back into it.}}<br />
<noinclude>{{Beginners' Guide navigation}}</noinclude></div>Benhamillhttps://wiki.archlinux.org/index.php?title=Awesome_(window_manager)&diff=136594Awesome (window manager)2011-04-10T06:40:22Z<p>Benhamill: Fix Naughty link.</p>
<hr />
<div>[[Category:Dynamic WMs (English)]]<br />
[[Category:HOWTOs (English)]]<br />
{{i18n|Awesome3}}<br />
<br />
From the awesome website:<br />
<br />
"''[http://awesome.naquadah.org/ awesome] is a highly configurable, next generation framework window manager for X. It is very fast, extensible and licensed under the GNU GPLv2 license.''<br />
<br />
''It is primarly targeted at power users, developers and any people dealing with every day computing tasks and who want to have fine-grained control on its graphical environment.''"<br />
<br />
==Installation==<br />
<br />
[http://aur.archlinux.org/packages.php?ID=41362 awesome] is available in the [[AUR]], due to its dependency on the unsupported cairo-xcb package. If you want unstable pre-release versions, you can install the [http://aur.archlinux.org/packages.php?ID=13916 awesome-git] package instead.<br />
<br />
==Getting Started==<br />
<br />
===Using awesome===<br />
To run awesome without a login manager, simply add '''<tt>exec awesome</tt>''' to the startup script of your choice (e.g. ~/.xinitrc.)<br />
<br />
If you have problems with some devices (like mounting usbkeys, reading dvds) be sure to read documentation about [[HAL]] and policykit. When you don't use a login manager, nothing is automated. In some cases, using '''<tt>exec ck-launch-session awesome</tt>''' can solve your problems.<br />
<br />
To start awesome from a login manager, see [[Display Manager|this article]]. <br />
<br />
'''[[SLIM]]''' is a popular lightweight login manager and comes highly recommended. You should do like this:<br />
<br />
1) Edit /etc/slim.conf for start awesome session, add awesome to sessions line. <br>For example: <br />
sessions awesome,wmii,xmonad<br />
2) Edit ~/.xinitrc file <br />
DEFAULT_SESSION=awesome<br />
case $1 in<br />
awesome) exec awesome ;;<br />
wmii) exec wmii ;;<br />
xmonad) exec xmonad ;;<br />
*) exec $DEFAULT_SESSION ;;<br />
esac<br />
However, you can also start awesome as preferred user without any login manager and even without logging in, after editing ~/.xinitrc and /etc/inittab properly. Refer to the article [[Start X at boot]].<br />
<br />
==Configuration==<br />
Awesome includes some good default settings right out of the box, but sooner or later you'll want to change something. The lua based configuration file is at <tt>~/.config/awesome/rc.lua</tt>.<br />
<br />
===Creating the configuration file===<br />
First, run the following to create the directory needed in the next step:<br />
$ mkdir -p ~/.config/awesome/<br />
<br />
Whenever compiled, awesome will attempt to use whatever custom settings are contained in ~/.config/awesome/rc.lua. This file is not created by default, so we must copy the template file first:<br />
$ cp /etc/xdg/awesome/rc.lua ~/.config/awesome/<br />
<br />
The syntax of the configuration often changes when awesome updates. So, remember to repeate the command above when you get something strange with awesome, or you'd like to modify the configuration.<br />
<br />
For more information about configuring awesome, check out the [http://awesome.naquadah.org/wiki/Awesome_3_configuration configuration page at awesome wiki]<br />
<br />
===More configuration resources===<br />
{{Note|The syntax of awesome configuration changes regularly, so you will likely have to modify any file you download.}}<br />
<br />
Some good examples of rc.lua would be as follows:<br />
<br />
* http://git.sysphere.org/awesome-configs/tree/ - Awesome 3.4 configurations from Adrian C. (anrxc)<br />
* http://pastebin.com/f6e4b064e - Darthlukan's awesome 3.4 configuration. <br />
* http://www.calmar.ws/dotfiles/dotfiledir/dot_awesomerc.lua<br />
* http://github.com/wolgri/wolgri.config/tree/master/.config/awesome/rc.lua<br />
* http://oxmoz.no-ip.org/awesome/rc.lua<br />
* http://www.ugolnik.info/downloads/awesome/rc.lua (screen) - Awesome 3 with small titlebar and statusbar.<br />
* http://github.com/bash/dotfiles/blob/master/.config/awesome/rc.lua<br />
* http://github.com/nblock/config/blob/master/.config/awesome/rc.lua<br />
* User Configuration Files http://awesome.naquadah.org/wiki/User_Configuration_Files<br />
<br />
===Debug rc.lua using Xephyr===<br />
<br />
This is my prefered way to debug rc.lua, without breaking my current desktop. I first copy my rc.lua into a new file, rc.lua.new, and modify it as needed. Then, I run new instance of awesome in Xephyr (allows you to run X nested in another X's client window, supplying rc.lua.new as a config file like this:<br />
<br />
$ Xephyr -ac -br -noreset -screen 1152x720 :1 &<br />
$ DISPLAY=:1.0 awesome -c ~/.config/awesome/rc.lua.new<br />
<br />
Big advantage of this approach is that if I break rc.lua.new, I don't break my current awesome desktop (and possibly crash all my X apps, lose all unsaved things and so on...). Once I'm happy with my new settings, I move rc.lua.new to rc.lua and restart awesome. And I can be sure it will work and restarting with new config won't mess up things.<br />
<br />
==Themes==<br />
<br />
Beautiful is a lua library that allows you to theme awesome using an external file, it becomes very easy to dynamically change your whole awesome colours and wallpaper without changing your rc.lua. <br />
<br />
The default theme is at /usr/share/awesome/themes/default. Copy it to ~/.config/awesome/themes/default and change theme_path in rc.lua. <br />
<br />
More details [http://awesome.naquadah.org/wiki/Beautiful here]<br />
<br />
A few sample [http://awesome.naquadah.org/wiki/Beautiful_themes themes]<br />
<br />
===Setting up your wallpaper===<br />
<br />
Beautiful can handle your wallpaper, thus you don't need to set it up in your .xinitrc or .xsession files. This allows you to have a specific wallpaper for each theme. If you take a look at the default theme file you'll see a wallpaper_cmd key, the given command is executed when beautiful.init("path_to_theme_file") is run. You can put here you own command or remove/comment the key if you don't want Beautiful to interfere with your wallpaper business.<br />
<br />
For instance, if you use awsetbg to set your wallpaper, you can write:<br />
<br />
wallpaper_cmd = { "awsetbg -f .config/awesome/themes/awesome-wallpaper.png" }<br />
<br />
{{Note|For awsetbg to work you need to have a program that can manage desktop backgrounds installed. For example '''[[Feh]]'''.}}<br />
<br />
====Random Background Image====<br />
To rotate the wallpapers randomly, just comment the wallpaper_cmd line above, and add a script into your .xinitrc with the codes below:<br />
<pre><br />
while true;<br />
do<br />
awsetbg -r <path/to/the/directory/of/your/wallpapers><br />
sleep 15m<br />
done &<br />
</pre><br />
<br />
==Tips & Tricks==<br />
Feel free to add any tips or tricks that you would like to pass on to other awesome users.<br />
<br />
===Expose effect like compiz===<br />
<br />
Revelation brings up a view of all your open clients; left-clicking a client pops to the first tag that client is visible on and raises/focuses the client. In addition, the Enter key pops to the currently focused client, and Escape aborts. <br />
<br />
http://awesome.naquadah.org/wiki/Revelation<br />
<br />
===Hide / show wibox in awesome 3===<br />
<br />
To map Modkey-b to hide/show default statusbar on active screen (as default in awesome 2.3), add to your ''clientkeys'' in rc.lua:<br />
<br />
awful.key({ modkey }, "b", function ()<br />
mywibox[mouse.screen].visible = not mywibox[mouse.screen].visible<br />
end),<br />
<br />
===Enable printscreens===<br />
<br />
To enable printscreens in awesome through the PrtScr button you need to have a screen capturing program.<br />
Scrot is a easy to use utility for this purpose and is available in Arch repositories.<br />
<br />
Just type:<br />
# pacman -S scrot<br />
<br />
and install optional dependencies if you feel that you need them.<br />
<br />
Next of we need to get the key name for PrtScr, most often this is named "Print" but one can never be too sure.<br />
<br />
Start up:<br />
# xev<br />
<br />
And press the PrtScr button, the output should be something like:<br />
KeyPress event ....<br />
root 0x25c, subw 0x0, ...<br />
state 0x0, keycode 107 (keysym 0xff61, '''Print'''), same_screen YES,<br />
....<br />
<br />
In my case as you see, the keyname is Print.<br />
<br />
Now to the configuration of awesome!<br />
<br />
Somewhere in your globalkeys array (doesn't matter where) type:<br />
<br />
Lua code:<br />
<br />
awful.key({ }, "Print", function () awful.util.spawn("scrot -e 'mv $f ~/screenshots/ 2>/dev/null'") end),<br />
<br />
A good place to put this is bellow the keyhook for spawning a terminal.<br />
To find this line search for: awful.util.spawn(terminal) in your favourite text editor.<br />
<br />
Also, this function saves screenshots inside ~/screenshots/, edit this to fit your needs.<br />
<br />
===Dynamic tagging===<br />
<br />
[http://awesome.naquadah.org/wiki/Eminent Eminent] is a small lua library that monkey-patches awful to provide you with effortless and quick wmii-style dynamic tagging. Unlike shifty, eminent does not aim to provide a comprehensive tagging system, but tries to make dynamic tagging as simple as possible. In fact, besides importing the eminent library, you do not have to change your rc.lua at all, eminent does all the work for you.<br />
<br />
[http://awesome.naquadah.org/wiki/Shifty Shifty] is an Awesome 3 extension that implements dynamic tagging. It also implements fine client matching configuration allowing YOU to be the master of YOUR desktop only by setting two simple config variables and some keybindings!<br />
<br />
===Space Invaders===<br />
[http://awesome.naquadah.org/wiki/Space_Invaders Space Invaders] is a demo to show the possibilities of the Awesome Lua API.<br />
<br />
Please note that it is no longer included in the Awesome package since the 3.4-rc1 release.<br />
<br />
===Naughty for popup notification===<br />
See [https://awesome.naquadah.org/wiki/Naughty the awesome wiki page on naughty].<br />
<br />
===Popup Menus===<br />
There's a simple menu by default in awesome3, and customed menus seem very easy now. However, if you're using 2.x awesome, have a look at ''[http://awesome.naquadah.org/wiki/Awful.menu awful.menu]''.<br />
<br />
An example for awesome3:<br />
<pre><br />
myawesomemenu = {<br />
{ "lock", "xscreensaver-command -activate" },<br />
{ "manual", terminal .. " -e man awesome" },<br />
{ "edit config", editor_cmd .. " " .. awful.util.getdir("config") .. "/rc.lua" },<br />
{ "restart", awesome.restart },<br />
{ "quit", awesome.quit }<br />
}<br />
<br />
mycommons = {<br />
{ "pidgin", "pidgin" },<br />
{ "OpenOffice", "soffice-dev" },<br />
{ "Graphic", "gimp" }<br />
}<br />
<br />
mymainmenu = awful.menu.new({ items = { <br />
{ "terminal", terminal },<br />
{ "icecat", "icecat" },<br />
{ "Editor", "gvim" },<br />
{ "File Manager", "pcmanfm" },<br />
{ "VirtualBox", "VirtualBox" },<br />
{ "Common App", mycommons, beautiful.awesome_icon },<br />
{ "awesome", myawesomemenu, beautiful.awesome_icon }<br />
}<br />
})<br />
</pre><br />
<br />
===More Widgets in awesome===<br />
''Widgets in awesome are objects that you can add to any widget-box (statusbars and titlebars), they can provide various information about your system, and are useful for having access to this information, right from your window manager. Widgets are simple to use and offer a great deal of flexibility.'' -- Source [http://awesome.naquadah.org/wiki/Widgets_in_awesome Awesome Wiki: Widgets].<br />
<br />
There's a widely used widget library called '''Wicked''' (compatible with awesome versions '''prior to 3.4'''), that provides more widgets, like MPD widget, CPU usage, memory usage, etc. For more details see the [http://awesome.naquadah.org/wiki/Wicked Wicked page].<br />
<br />
As a replacement for Wicked in awesome v3.4 check '''[http://awesome.naquadah.org/wiki/Vicious Vicious]''', '''[http://awesome.naquadah.org/wiki/Obvious Obvious]''' and '''[http://awesome.naquadah.org/wiki/Bashets Bashets]'''. If you pick vicious, you should also take a good look at [http://git.sysphere.org/vicious/tree/README vicious documentation].<br />
<br />
===Transparency===<br />
Awesome has support for true transparency through xcompmgr. Note that you'll probably want the git version of xcompmgr, which is [http://aur.archlinux.org/packages.php?ID=16554 available in AUR]. <br />
<br />
Add this to your ~/.xinitrc:<br />
xcompmgr &<br />
See ''man xcompmgr'' or [[xcompmgr]] for more options.<br />
<br />
In awesome 3.4, window transparency can be set dynamically using signals. For example, your rc.lua could contain the following:<br />
<br />
client.add_signal("focus", function(c)<br />
c.border_color = beautiful.border_focus<br />
c.opacity = 1<br />
end)<br />
client.add_signal("unfocus", function(c)<br />
c.border_color = beautiful.border_normal<br />
c.opacity = 0.7<br />
end)<br />
'''If you got error messages about add_signal, using connect_signal insteaded.''' <br />
<br />
Note that if you are using conky, you must set it to create its own window instead of using the desktop. To do so, edit ~/.conkyrc to contain:<br />
<br />
own_window yes<br />
own_window_transparent yes<br />
own_window_type desktop<br />
<br />
Otherwise strange behavior may be observed, such as all windows becoming fully transparent. Note also that since conky will be creating a transparent window on your desktop, any actions defined in awesome's rc.lua for the desktop will not work where conky is.<br />
<br />
As of Awesome 3.1, there is built-in pseudo-transparency for wiboxes. To enable it, append 2 hexadecimal digits to the colors in your theme file (~/.config/awesome/themes/default, which is usually a copy of /usr/share/awesome/themes/default), like shown here:<br />
<br />
bg_normal = #000000AA<br />
<br />
where "AA" is the transparency value.<br />
<br />
==== ImageMagick ====<br />
You may have problems if you set your wallpaper with imagemagick's ''display'' command, it doesn't work well with xcompmgr. Please note that awsetbg may be using ''display'' if it doesn't have any other options. Installing habak, feh, hsetroot or whatever should fix the problem (''grep -A 1 wpsetters /usr/bin/awsetbg'' to see your options).<br />
<br />
===Autorun programs===<br />
''See also [https://awesome.naquadah.org/wiki/Autostart the Autostart page on the Awesome wiki].''<br />
<br />
awesome doesn't run programs set to autostart by the Freedesktop specification like GNOME or KDE. However, awesome does provide a few functions for starting programs (in addition to the Lua standard library function {{Codeline|os.execute}}). To run the same programs on startup as GNOME or KDE, you can install [http://aur.archlinux.org/packages.php?ID=41099 dex] from the [[AUR]] and then run that in your rc.lua:<br />
<br />
os.execute"dex -a"<br />
<br />
If you just want to set up a list of apps for awesome to launch at startup, you can create a table of all the commands you want to spawn and loop through it:<br />
<br />
do<br />
local cmds = <br />
{ <br />
"swiftfox",<br />
"mutt",<br />
"consonance",<br />
"linux-fetion",<br />
"weechat-curses",<br />
--and so on...<br />
}<br />
<br />
for _,i in pairs(cmds) do<br />
awful.util.spawn(i)<br />
end<br />
end<br />
<br />
(You could also run calls to {{codeline|os.execute}} with commands ending in '{{codeline|&}}', but it's probably a better idea to stick to the proper spawn function.)<br />
<br />
To run a program only if it is not currently running, you can spawn it with a shell command that runs the program only if {{Codeline|pgrep}} doesn't find a running process with the same name:<br />
function run_once(prg)<br />
awful.util.spawn_with_shell("pgrep -u $USER -x " .. prg .. " || (" .. prg .. ")")<br />
end<br />
<br />
So, for example, to run {{Codeline|parcellite}} only if there is not a {{Codeline|parcellite}} process already running:<br />
<br />
run_once("parcellite")<br />
<br />
===Passing content to widgets with awesome-client===<br />
<br />
You can easily send text to an awesome widget. Just create a new widget:<br />
<pre><br />
mywidget = widget({ type = "textbox", name = "mywidget" })<br />
mywidget.text = "initial text"<br />
</pre><br />
To update the text from an external source, use awesome-client:<br />
<pre> <br />
echo -e 'mywidget.text = "new text"' | awesome-client<br />
</pre><br />
Don't forget to add the widget to your wibox.<br />
<br />
===Using some eyecandy panels with awesome===<br />
<br />
If you like awesome lightweightness and functionality, but don't like it hacker stile look, you can transform it into eyecandy by using alternative panel. Just install xfce4-panel by:<br />
<pre><br />
sudo pacman -S xfce4-panel<br />
</pre><br />
Then add it to autorun section of your rc.lua (howto is written above). Supposing that configuration of panel won't be difficult for awesome user. You can also comment section, which create wiboxes for each screen (starting from "mywibox[s] = awful.wibox({ position = "top", screen = s })" ) but it isn't necessary. Any way don't forget to check your rc.lua by typing <br />
<pre><br />
awesome -k rc.lua<br />
</pre><br />
Also you should change your "modkey+R" keybinding, in order to start some other application launcher instead of built in awesome. Xfrun4, bashrun, etc. Check the Application launchers section of [[Openbox_Themes_and_Apps#Application_launchers|Openbox]] article for examples. Don't forget to add<br />
<pre><br />
properties = { floating = true } },<br />
{ rule = { instance = "$yourapplicationlauncher" },<br />
</pre><br />
to your rc.lua.<br />
It should work with other panels, but I didn't tested them. Also feel free to add other parts of DE to your awesome.<br />
<br />
===Fix Java (GUI appears gray only)===<br />
Guide taken from [https://bbs.archlinux.org/viewtopic.php?pid=450870].<br />
#Install {{Package Official|wmname}} from community<br />
#Run the following command or add it to your {{Filename|.xinitrc}}: {{Cli|wmname LG3D}}<br />
<br />
==Troubleshooting==<br />
<br />
===Mod4 key===<br />
<br />
The Mod4 is by default the '''Win key'''. If it's not mapped by default, for some reason, you can check the keycode of your Mod4 key with<br />
<br />
$ xev<br />
<br />
It should be 115 for the left one. Then add this to your ~/.xinitrc<br />
<br />
xmodmap -e "keycode 115 = Super_L" -e "add mod4 = Super_L"<br />
exec awesome<br />
<br />
The problem in this case is that some xorg installations recognize keycode 115, but incorrectly as the 'Select' key. The above command explictly remaps keycode 115 to the correct 'Super_L' key.<br />
<br />
====Mod4 key vs. IBM ThinkPad users====<br />
<br />
IBM ThinkPads do not come equipped with a Window key (although Lenovo have changed this tradition on their ThinkPads). As of writing, the Alt key is not used in command combinations by the default rc.lua (refer to the Awesome wiki for a table of commands), which allows it be used as a replacement for the Super/Mod4/Win key. To do this, edit your rc.lua and replace:<br />
<br />
modkey = "Mod4"<br />
<br />
by:<br />
<br />
modkey = "Mod1"<br />
<br />
Note: Awesome does a have a few commands that make use of Mod4 plus a single letter. Changing Mod4 to Mod1/Alt could cause overlaps for some key combinations. The small amount of instances where this happens can be changed in the rc.lua file.<br />
<br />
If you don't like to change the awesome standards, you might like to remap a key. For instance the caps lock key is rather useless (for me) adding the following contents to ~/.Xmodmap <br />
<br />
clear lock <br />
add mod4 = Caps_Lock<br />
<br />
and [[Extra Keyboard Keys in Xorg#Step 2: Testing|(re)load]] the file.<br />
This will change the caps lock key into the mod4 key and works nicely with the standard awesome settings. In addition, if needed, it provides the mod4 key to other X-programs as well.<br />
<br />
Not confirmed, but if recent updates of xorg related packages break mentioned remapping the second line can be replaced by (tested on a DasKeyboard with no left Super key):<br />
<br />
keysym Caps_Lock = Super_L Caps_Lock<br />
<br />
===Brasero===<br />
If Brasero doesn't detect your blank disks when started in Awesome, but works just fine when started in Gnome, try using<br />
$ dbus-launch brasero<br />
<br />
==External Links==<br />
* http://awesome.naquadah.org/wiki/FAQ - FAQ<br />
* http://www.lua.org/pil/ - Programming in Lua (first edition)<br />
* http://awesome.naquadah.org/ - The official awesome website<br />
* http://awesome.naquadah.org/wiki/Main_Page - the awesome wiki<br />
* http://www.penguinsightings.org/desktop/awesome/ - A review<br />
* http://compsoc.tardis.ed.ac.uk/wiki/AwesomeWM_guide - Awesome guide</div>Benhamill