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C.3.3. The xorg.conf File
In previous releases of the X Window System,
/etc/X11/xorg.conf
file was used to store initial setup for X. When a change occurred with the monitor, video card or other device managed by the X server, the file needed to be edited manually. In Red Hat Enterprise Linux, there is rarely a need to manually create and edit the /etc/X11/xorg.conf
file. Nevertheless, it is still useful to understand various sections and optional parameters available, especially when troubleshooting or setting up unusual hardware configuration.
In the following, some important sections are described in the order in which they appear in a typical
/etc/X11/xorg.conf
file. More detailed information about the X server configuration file can be found in the xorg.conf(5)
man page. This section is mostly intended for advanced users as most configuration options described below are not needed in typical configuration scenarios.
C.3.3.1. The InputClass
section
InputClass
is a new type of configuration section that does not apply to a single device but rather to a class of devices, including hot-plugged devices. An InputClass
section's scope is limited by the matches specified; in order to apply to an input device, all matches must apply to the device as seen in the example below:
Section "InputClass" Identifier "touchpad catchall" MatchIsTouchpad "on" Driver "synaptics" EndSection
If this snippet is present in an
xorg.conf
file or an xorg.conf.d
directory, any touchpad present in the system is assigned the synaptics
driver.
Note
Note that due to alphanumeric sorting of configuration files in the
xorg.conf.d
directory, the Driver
setting in the example above overwrites previously set driver options. The more generic the class, the earlier it should be listed.
The match options specify which devices a section may apply to. To match a device, all match options must correspond. The following options are commonly used in the
InputClass
section:
MatchIsPointer
,MatchIsKeyboard
,MatchIsTouchpad
,MatchIsTouchscreen
,MatchIsJoystick
— Boolean options to specify a type of a device.MatchProduct "product_name"
— this option matches if the product_name substring occurs in the product name of the device.MatchVendor "vendor_name"
— this option matches if the vendor_name substring occurs in the vendor name of the device.MatchDevicePath "/path/to/device"
— this option matches any device if its device path corresponds to the patterns given in the "/path/to/device" template, for example/dev/input/event*
. See thefnmatch(3)
man page for further details.MatchTag "tag_pattern"
— this option matches if at least one tag assigned by the HAL configuration back end matches the tag_pattern pattern.
A configuration file may have multiple
InputClass
sections. These sections are optional and are used to configure a class of input devices as they are automatically added. An input device can match more than one InputClass
section. When arranging these sections, it is recommended to put generic matches above specific ones because each input class can override settings from a previous one if an overlap occurs.
C.3.3.2. The InputDevice
section
Each
InputDevice
section configures one input device for the X server. Previously, systems typically had at least one InputDevice
section for the keyboard, and most mouse settings were automatically detected.
With Red Hat Enterprise Linux 6, no
InputDevice
configuration is needed for most setups, and the xorg-x11-drv-* input driver packages provide the automatic configuration through HAL. The default driver for both keyboards and mice is evdev
.
The following example shows a typical
InputDevice
section for a keyboard:
Section "InputDevice" Identifier "Keyboard0" Driver "kbd" Option "XkbModel" "pc105" Option "XkbLayout" "us" EndSection
The following entries are commonly used in the
InputDevice
section:
Identifier
— Specifies a unique name for thisInputDevice
section. This is a required entry.Driver
— Specifies the name of the device driver X must load for the device. If theAutoAddDevices
option is enabled (which is the default setting), any input device section withDriver "mouse"
orDriver "kbd"
will be ignored. This is necessary due to conflicts between the legacy mouse and keyboard drivers and the newevdev
generic driver. Instead, the server will use the information from the back end for any input devices. Any custom input device configuration in thexorg.conf
should be moved to the back end. In most cases, the back end will be HAL and the configuration location will be the/etc/X11/xorg.conf.d
directory.Option
— Specifies necessary options pertaining to the device.A mouse may also be specified to override any auto-detected values for the device. The following options are typically included when adding a mouse in thexorg.conf
file:Protocol
— Specifies the protocol used by the mouse, such asIMPS/2
.Device
— Specifies the location of the physical device.Emulate3Buttons
— Specifies whether to allow a two-button mouse to act like a three-button mouse when both mouse buttons are pressed simultaneously.
Consult thexorg.conf(5)
man page for a complete list of valid options for this section.
C.3.3.3. The ServerFlags
section
The optional
ServerFlags
section contains miscellaneous global X server settings. Any settings in this section may be overridden by options placed in the ServerLayout
section (see Section C.3.3.4, “The ServerLayout
Section” for details).
Each entry within the
ServerFlags
section occupies a single line and begins with the term Option
followed by an option enclosed in double quotation marks ("
).
The following is a sample
ServerFlags
section:
Section "ServerFlags" Option "DontZap" "true" EndSection
The following lists some of the most useful options:
"DontZap" "boolean"
— When the value of <boolean> is set totrue
, this setting prevents the use of the Ctrl+Alt+Backspace key combination to immediately terminate the X server.Note
Even if this option is enabled, the key combination still must be configured in the X Keyboard Extension (XKB) map before it can be used. One way how to add the key combination to the map is to run the following command:setxkbmap -option "terminate:ctrl_alt_bksp"
"DontZoom" "boolean"
— When the value of <boolean> is set totrue
, this setting prevents cycling through configured video resolutions using the Ctrl+Alt+Keypad-Plus and Ctrl+Alt+Keypad-Minus key combinations."AutoAddDevices" "boolean"
— When the value of <boolean> is set tofalse
, the server will not hot plug input devices and instead rely solely on devices configured in thexorg.conf
file. See Section C.3.3.2, “TheInputDevice
section” for more information concerning input devices. This option is enabled by default and HAL (hardware abstraction layer) is used as a back end for device discovery.
C.3.3.4. The ServerLayout
Section
The
ServerLayout
section binds together the input and output devices controlled by the X server. At a minimum, this section must specify one input device and one output device. By default, a monitor (output device) and a keyboard (input device) are specified.
The following example shows a typical
ServerLayout
section:
Section "ServerLayout" Identifier "Default Layout" Screen 0 "Screen0" 0 0 InputDevice "Mouse0" "CorePointer" InputDevice "Keyboard0" "CoreKeyboard" EndSection
The following entries are commonly used in the
ServerLayout
section:
Identifier
— Specifies a unique name for thisServerLayout
section.Screen
— Specifies the name of aScreen
section to be used with the X server. More than oneScreen
option may be present.The following is an example of a typicalScreen
entry:Screen 0 "Screen0" 0 0
The first number in this exampleScreen
entry (0
) indicates that the first monitor connector, or head on the video card, uses the configuration specified in theScreen
section with the identifier"Screen0"
.An example of aScreen
section with the identifier"Screen0"
can be found in Section C.3.3.8, “TheScreen
section”.If the video card has more than one head, anotherScreen
entry with a different number and a differentScreen
section identifier is necessary.The numbers to the right of"Screen0"
give the absolute X and Y coordinates for the upper left corner of the screen (0 0
by default).InputDevice
— Specifies the name of anInputDevice
section to be used with the X server.It is advisable that there be at least twoInputDevice
entries: one for the default mouse and one for the default keyboard. The optionsCorePointer
andCoreKeyboard
indicate that these are the primary mouse and keyboard. If theAutoAddDevices
option is enabled, this entry needs not to be specified in theServerLayout
section. If theAutoAddDevices
option is disabled, both mouse and keyboard are auto-detected with the default values.Option "option-name"
— An optional entry which specifies extra parameters for the section. Any options listed here override those listed in theServerFlags
section.Replace <option-name> with a valid option listed for this section in thexorg.conf(5)
man page.
It is possible to put more than one
ServerLayout
section in the /etc/X11/xorg.conf
file. By default, the server only reads the first one it encounters, however. If there is an alternative ServerLayout
section, it can be specified as a command-line argument when starting an X session; as in the Xorg -layout <layoutname>
command.
C.3.3.5. The Files
section
The
Files
section sets paths for services vital to the X server, such as the font path. This is an optional section, as these paths are normally detected automatically. This section can be used to override automatically detected values.
The following example shows a typical
Files
section:
Section "Files" RgbPath "/usr/share/X11/rgb.txt" FontPath "unix/:7100" EndSection
The following entries are commonly used in the
Files
section:
ModulePath
— An optional parameter which specifies alternate directories which store X server modules.
C.3.3.6. The Monitor
section
Each
Monitor
section configures one type of monitor used by the system. This is an optional entry as most monitors are now detected automatically.
This example shows a typical
Monitor
section for a monitor:
Section "Monitor" Identifier "Monitor0" VendorName "Monitor Vendor" ModelName "DDC Probed Monitor - ViewSonic G773-2" DisplaySize 320 240 HorizSync 30.0 - 70.0 VertRefresh 50.0 - 180.0 EndSection
The following entries are commonly used in the
Monitor
section:
Identifier
— Specifies a unique name for thisMonitor
section. This is a required entry.VendorName
— An optional parameter which specifies the vendor of the monitor.ModelName
— An optional parameter which specifies the monitor's model name.DisplaySize
— An optional parameter which specifies, in millimeters, the physical size of the monitor's picture area.HorizSync
— Specifies the range of horizontal sync frequencies compatible with the monitor, in kHz. These values help the X server determine the validity of built-in or specifiedModeline
entries for the monitor.VertRefresh
— Specifies the range of vertical refresh frequencies supported by the monitor, in kHz. These values help the X server determine the validity of built-in or specifiedModeline
entries for the monitor.Modeline
— An optional parameter which specifies additional video modes for the monitor at particular resolutions, with certain horizontal sync and vertical refresh resolutions. See thexorg.conf(5)
man page for a more detailed explanation ofModeline
entries.Option "option-name"
— An optional entry which specifies extra parameters for the section. Replace <option-name> with a valid option listed for this section in thexorg.conf(5)
man page.
C.3.3.7. The Device
section
Each
Device
section configures one video card on the system. While one Device
section is the minimum, additional instances may occur for each video card installed on the machine.
The following example shows a typical
Device
section for a video card:
Section "Device" Identifier "Videocard0" Driver "mga" VendorName "Videocard vendor" BoardName "Matrox Millennium G200" VideoRam 8192 Option "dpms" EndSection
The following entries are commonly used in the
Device
section:
Identifier
— Specifies a unique name for thisDevice
section. This is a required entry.Driver
— Specifies which driver the X server must load to utilize the video card. A list of drivers can be found in/usr/share/hwdata/videodrivers
, which is installed with the hwdata package.VendorName
— An optional parameter which specifies the vendor of the video card.BoardName
— An optional parameter which specifies the name of the video card.VideoRam
— An optional parameter which specifies the amount of RAM available on the video card, in kilobytes. This setting is only necessary for video cards the X server cannot probe to detect the amount of video RAM.BusID
— An entry which specifies the bus location of the video card. On systems with only one video card aBusID
entry is optional and may not even be present in the default/etc/X11/xorg.conf
file. On systems with more than one video card, however, aBusID
entry is required.Screen
— An optional entry which specifies which monitor connector or head on the video card theDevice
section configures. This option is only useful for video cards with multiple heads.If multiple monitors are connected to different heads on the same video card, separateDevice
sections must exist and each of these sections must have a differentScreen
value.Values for theScreen
entry must be an integer. The first head on the video card has a value of0
. The value for each additional head increments this value by one.Option "option-name"
— An optional entry which specifies extra parameters for the section. Replace <option-name> with a valid option listed for this section in thexorg.conf(5)
man page.One of the more common options is"dpms"
(for Display Power Management Signaling, a VESA standard), which activates the Energy Star energy compliance setting for the monitor.
C.3.3.8. The Screen
section
Each
Screen
section binds one video card (or video card head) to one monitor by referencing the Device
section and the Monitor
section for each. While one Screen
section is the minimum, additional instances may occur for each video card and monitor combination present on the machine.
The following example shows a typical
Screen
section:
Section "Screen" Identifier "Screen0" Device "Videocard0" Monitor "Monitor0" DefaultDepth 16 SubSection "Display" Depth 24 Modes "1280x1024" "1280x960" "1152x864" "1024x768" "800x600" "640x480" EndSubSection SubSection "Display" Depth 16 Modes "1152x864" "1024x768" "800x600" "640x480" EndSubSection EndSection
The following entries are commonly used in the
Screen
section:
Identifier
— Specifies a unique name for thisScreen
section. This is a required entry.Device
— Specifies the unique name of aDevice
section. This is a required entry.Monitor
— Specifies the unique name of aMonitor
section. This is only required if a specificMonitor
section is defined in thexorg.conf
file. Normally, monitors are detected automatically.DefaultDepth
— Specifies the default color depth in bits. In the previous example,16
(which provides thousands of colors) is the default. Only oneDefaultDepth
entry is permitted, although this can be overridden with the Xorg command-line option-depth <n>
, where<n>
is any additional depth specified.SubSection "Display"
— Specifies the screen modes available at a particular color depth. TheScreen
section can have multipleDisplay
subsections, which are entirely optional since screen modes are detected automatically.This subsection is normally used to override auto-detected modes.Option "option-name"
— An optional entry which specifies extra parameters for the section. Replace <option-name> with a valid option listed for this section in thexorg.conf(5)
man page.
C.3.3.9. The DRI
section
The optional
DRI
section specifies parameters for the Direct Rendering Infrastructure (DRI). DRI is an interface which allows 3D software applications to take advantage of 3D hardware acceleration capabilities built into most modern video hardware. In addition, DRI can improve 2D performance via hardware acceleration, if supported by the video card driver.
This section is rarely used, as the DRI Group and Mode are automatically initialized to default values. If a different Group or Mode is needed, then adding this section to the
xorg.conf
file will override the default values.
The following example shows a typical
DRI
section:
Section "DRI" Group 0 Mode 0666 EndSection
Since different video cards use DRI in different ways, do not add to this section without first referring to http://dri.freedesktop.org/wiki/.