The average user may be frightened at the thought of having to type in commands. Why wouldn't he be able to point and click his way through the freedom provided by Gentoo (and Linux in general)? Well, *big smile*, of course you are able to do this. :-) Linux offers a wide variety of flashy user interfaces and environments which you can install on top of your existing installation.

This is one of the biggest surprises new users come across: a graphical user interface is nothing more than an application which runs on your system. It is not part of the Linux kernel or any other internals of the system. It is a powerful tool that fully enables the graphical abilities of your workstation.

As standards are important, a standard for drawing and moving windows on a screen, interacting with the user through mouse, keyboard and other basic, yet important aspects has been created and named the X Window System, commonly abbreviated as X11 or just X. It is used on Unix, Linux and Unix-like operating systems throughout the world.

The application that provides Linux users with the ability to run graphical user interfaces and that uses the X11 standard is Xorg-X11, a fork of the XFree86 project. XFree86 has decided to use a license that might not be compatible with the GPL license; the use of Xorg is therefore recommended. The official Portage tree does not provide an XFree86 package anymore.

The X.org project created and maintains a freely redistributable, open-source implementation of the X11 system. It is an open source X11-based desktop infrastructure.

Xorg provides an interface between your hardware and the graphical software you want to run. Besides that, Xorg is also fully network-aware, meaning you are able to run an application on one system while viewing it on a different one.

By default, Xorg uses evdev, a generic input driver. You'll need to activate support for evdev by making a change to your kernel configuration. (Read the Kernel Configuration Guide if you don't know how to setup your kernel.)

Device Drivers --->
  Input device support --->
  <*>  Event interface

Before you install Xorg, you have to configure two important variables in the /etc/make.conf file.

The first variable is VIDEO_CARDS. This is used to set the video drivers that you intend to use and is usually based on the kind and brand of card you have. The most common settings are nvidia for Nvidia cards or fglrx for ATI Radeon cards. Those are the proprietary drivers from Nvidia and ATI respectively. If you would like to use the open source nVidia driver, use nv rather than nvidia in the variable, but bear in mind that using this driver means no 3D acceleration at all. The free radeon and radeonhd drivers are available for ATI cards, and are more or less the equal of the proprietary fglrx driver. The intel driver may be used for desktops or laptops with common Intel integrated graphics chipsets. VIDEO_CARDS may contain more than one driver, in this case list of them should be separated with spaces.

The second variable is INPUT_DEVICES and is used to determine which drivers are to be built for input devices. In most cases setting it to evdev should work just fine. If you use alternative input devices, such as a Synaptics touchpad for a laptop, be sure to add it to INPUT_DEVICES.

Now you should decide which drivers you will use and add necessary settings to the /etc/make.conf file:

(For mouse, keyboard, and Synaptics touchpad support)
INPUT_DEVICES="evdev synaptics"
(For Nvidia cards)
VIDEO_CARDS="nvidia"
(OR, for ATI Radeon cards)
VIDEO_CARDS="radeon"

If the suggested settings don't work for you, you should run emerge -pv xorg-server, check all the options available and choose those which apply to your system. This example is for a system with a keyboard, mouse, Synaptics touchpad, and a Radeon video card.

# emerge -pv xorg-server

These are the packages that would be merged, in order:

Calculating dependencies... done!
[ebuild   R   ] x11-base/xorg-server-1.6.3.901-r2  USE="hal nptl xorg -debug
-dmx -ipv6 -kdrive -minimal -sdl -tslib" 0 kB
[ebuild   R   ]  x11-base/xorg-drivers-1.6  INPUT_DEVICES="evdev synaptics
-acecad -aiptek -citron -elographics -fpit -hyperpen -joystick -keyboard -mouse
-mutouch -penmount -tslib -virtualbox -vmmouse -void -wacom"
VIDEO_CARDS="radeon -apm -ark -ast -chips -cirrus -dummy -epson -fbdev -fglrx
(-geode) -glint -i128 (-i740) (-impact) (-imstt) -intel -mach64 -mga -neomagic
(-newport) -nv -nvidia -r128 -radeonhd -rendition -s3 -s3virge -savage
-siliconmotion -sis -sisusb (-sunbw2) (-suncg14) (-suncg3) (-suncg6) (-sunffb)
(-sunleo) (-suntcx) -tdfx -tga -trident -tseng -v4l (-vermilion) -vesa -via
-virtualbox -vmware (-voodoo) (-xgi)" 0 kB

After setting all the necessary variables you can install the Xorg package.

# emerge xorg-server

When the installation is finished, you will need to re-initialise some environment variables before you continue. Just run env-update followed by source /etc/profile and you're all set.

# env-update
# source /etc/profile

With the arrival of X server 1.5, there usually isn't much need to manually configure Xorg. It's designed so that things should "just work" out of the box.

The configuration file of Xorg is called xorg.conf and it resides in /etc/X11. Xorg provides an example configuration as /etc/X11/xorg.conf.example which you can use to create your own configuration. It is heavily commented, but if you are in need of more documentation regarding the syntax, don't hesitate to read the man page:

# man 5 xorg.conf

Happy reading for those of you willing to. We surely don't so we'll continue with checking out how we can create the file automatically.

Xorg itself is able to guess most parameters for you. In most cases, you will only have to change some lines to get the resolution you want up and running. If you are interested in more in-depth tweaking, be sure to check the resources at the end of this chapter. But first, let us generate a (hopefully working) Xorg configuration file.

# Xorg -configure

Be sure to read the last lines printed on your screen when Xorg has finished probing your hardware. If it tells you it failed at some point, you're forced to manually write an xorg.conf file. Assuming that it didn't fail, it will have told you that it has written /root/xorg.conf.new ready for you to test. So let's test. :)

# X -config /root/xorg.conf.new

If all goes well, you should see a simple black and white pattern. Verify if your mouse works correctly and if the resolution is good. If you received errors about "/dev/mouse", try changing your mouse device to /dev/input/mice in the "InputDevice" section of xorg.conf. You might not be able to deduce the exact resolution, but you should be able to see if it's too low. You can exit any time by pressing Ctrl-Alt-Backspace.

Let us copy over the xorg.conf.new to /etc/X11/xorg.conf now, so we won't have to continuously run X -config -- typing just startx is easier. :)

# cp /root/xorg.conf.new /etc/X11/xorg.conf

Now try startx to start up your X server. startx is a script that executes an X session, that is, it starts the X servers and some graphical applications on top of it. It decides which applications to run using the following logic:

• If a file named .xinitrc exists in the home directory, it will execute the commands listed there.
• Otherwise, it will read the value of the XSESSION variable and will execute one of the sessions available in /etc/X11/Sessions/ accordingly. You can set the value of XSESSION in /etc/env.d/90xsession to make it a default for all the users on the system. For example, as root, run echo XSESSION="Xfce4" > /etc/env.d/90xsession. This will create the 90xsession file and set the default X session to Xfce4.
• If all of the above fail, it will fall back to a simple window manager, usually twm.

# startx

If you see an ugly, loathsome, repulsive, deformed window manager, that's twm. To finish the twm session, type in exit or Ctrl-D in the upcoming xterms. You can also kill the X session using the Ctrl-Alt-Backspace combination. This will however make X exit disgracefully -- something that you might not always want. It doesn't hurt though. :)

If you feel that the screen resolution is wrong, you will need to check two sections in your configuration. First of all, you have the Screen section which lists the resolutions, if any that your X server will run at. By default, this section might not list any resolutions at all. If this is the case, Xorg will estimate the resolutions based on the information in the second section, Monitor.

What happens is that Xorg checks the settings of HorizSync and VertRefresh in the Monitor section to compute valid resolutions. For now, leave these settings as-is. Only when the changes to the Screen section (which we will describe in a minute) don't work, then you will need to look up the specs for your monitor and fill in the correct values.

Now let us change the resolutions. In the next example from /etc/X11/xorg.conf we add the Modes lines and the DefaultDepth so that our X server starts with 24 bits at 1024x768 by default. Don't mind the given strings -- they are examples and will most likely differ from the settings on your system.

Section "Screen"
  Identifier  "Default Screen"
  Device    "S3 Inc. ProSavage KN133 [Twister K]"
  Monitor   "Generic Monitor"
  DefaultDepth  24
  # Skipping some text to improve readability
  SubSection "Display"
    Depth   24
    Modes   "1024x768"
  EndSubSection
EndSection

Run X (startx) to discover it uses the resolution you want. :)

To setup X to use an international keyboard, search for the InputDevice section that configures the keyboard and add the XkbLayout option to point to the keyboard layout you want. As an example, we show you how to apply for the Belgian layout. Just substitute the country-keycode with yours:

Section "InputDevice"
  Identifier  "Generic Keyboard"
  Driver    "keyboard"
  Option    "CoreKeyboard"
  Option    "XkbRules"  "xorg"
  Option    "XkbModel"  "pc105"
  Option    "XkbLayout" "be"
EndSection

If your mouse isn't working, you will first need to find out if it is detected by the kernel at all. Mice are (device-wise) seen as /dev/input/mouse0 (or /dev/input/mice if you want to use several mice). In some cases /dev/psaux is used. In either case you can check if the devices do represent your mouse by checking the output of those files when you move your mouse. You will usually see some junk on your screen. To end the session press Ctrl-C.

# cat /dev/input/mouse0
(Don't forget to press Ctrl-C to end this)

If your mouse isn't detected, verify if all the necessary modules are loaded.

If your mouse is detected, fill in the device in the appropriate InputDevice section. In the next example you'll see we also set two other options: Protocol (which lists the mouse protocol to be used -- most users will use PS/2 or IMPS/2) and ZAxisMapping (which allows for the mousewheel (if applicable) to be used).

Section "InputDevice"
  Identifier  "TouchPad Mouse"
  Driver    "mouse"
  Option    "CorePointer"
  Option    "Device"    "/dev/input/mouse0"
  Option    "Protocol"    "IMPS/2"
  Option    "ZAxisMapping"    "4 5"
EndSection

Run startx and be happy about the result. :) Congratulations, you now (hopefully) have a working Xorg on your system. The next step is to remove this ugly lightweight window manager and use a high-feature one (or even a desktop environment) such as KDE or GNOME, but that's not part of this guide. :)

First of all, man xorg.conf provides a quick yet complete reference about the syntax used by the configuration file. Be sure to have it open on a terminal near you when you edit your configuration file!

Also, be sure to look at /etc/X11/xorg.conf.example; you may wish to copy this and use it as a foundation for writing your own xorg.conf.

You may find the X.org FAQ provided on their website, in addition to their other documentation.

There are also many online resources on editing xorg.conf. We only list few of them here, be sure to Google for more. :) As xorg.conf and XF86Config (the configuration file for the XFree86 project) use the same syntax for most configuration options and more information about XF86Config is available, we'll list those resources as well.

• The XFree Local Multi-User HOWTO
• An Introduction to XFree 4.x by Chris Houser

More information about installing and configuring various graphical desktop environments and applications can be found in the Gentoo Desktop Documentation Resources section of our documentation.

If you're upgrading to xorg-server-1.5 from an earlier version, then be sure to read the migration guide.