fbconf_xorg(1M) System Administration Commands fbconf_xorg(1M)NAMEfbconf_xorg - configure frame buffer devices for Xorg
SYNOPSIS
/usr/lib/fbconfig/fbconf_xorg [-dev device-file]
[-file machine | system | config-path]
[-res video-mode [nocheck | noconfirm]]
[device-specific-options]
[-defaults] [-prconf] [-predid [raw] [parsed]] [-propt]
/usr/lib/fbconfig/fbconf_xorg [-dev device-file] [-prconf] [-propt]
/usr/lib/fbconfig/fbconf_xorg [-dev device-file] [-help] [-res ?]
For kfb devices:
/usr/lib/fbconfig/fbconf_xorg [-dev device-file]
[-file machine | system | config-path]
[-res video-mode [nocheck | noconfirm]]
[-deflinear true | false] [-defoverlay true | false]
[-deftransparent true | false]
[-doublehigh enable | disable]
[-g gamma-correction-value]
[-multisample available | disable | forceon]
[-offset x-val y-val] [-samples 1 | 2 | 4 | 8 | 16 ]
[-slave disable | multiview] [-stereo true | false]
[-defaults] [-prconf] [-predid [raw] [parsed]] [-propt]
DESCRIPTION
The fbconf_xorg utility configures Frame Buffer devices and some of the
X11 window system defaults for Xorg by updating the xorg.conf configu‐
ration file.
The first fbconf_xorg command form shown in the SYNOPSIS section stores
the specified option values in the xorg.conf configuration file. These
settings are used to initialize the frame buffer device the next time
the window system is run on that device. The persistence of these set‐
tings across window system sessions and system reboots is determined by
the xorg.conf file.
The second and third command forms display information, and do not
alter the xorg.conf file. The presence of the -help and/or -res ?
options will cause any other option (not shown in the third form) to be
ignored.
You can configure only one frame buffer device at a time. To configure
multiple devices, invoke the fbconf_xorg utility separately for each
device.
Only frame buffer device options can be specified with fbconf_xorg. Use
the normal window system options to specify default depth (see svc‐
cfg(1M)), default visual class, and so forth. Specify these as device
modifiers on the command line. See Xserver(1), part of the OpenWindows,
not the SunOS, man page collection.
You can specify which xorg.conf file to open. By default, fbconf_xorg
opens the machine-specific file, /etc/X11/xorg.conf. Use the -file
option to specify an alternate file. For example, the system-global
file, /usr/X11/xorg.conf, can be opened instead.
These standard xorg.conf files can be written only by the superuser or
someone with the Primary Administrator role. Consequently, the
fbconf_xorg program is run with setuid root permission.
OPTIONS
The following options are supported for all frame buffer devices:
-defaults
Sets configuration options for the specified device to their
default values. This does not affect the -res video mode setting.
See the device-specific portions of the DEFAULTS section below.
-dev device-file
Specifies the frame buffer device by either its full pathname or
simple filename (for example, /dev/fbs/kfb0 or kfb0). Pathnames of
installed devices can be displayed using the -list option to fbcon‐
fig(1M). If the -dev option is omitted, the default device,
/dev/fb, is used.
-file machine | system | config-path
Specifies which xorg.conf file to open. If machine is specified,
the machine-specific /etc/X11/xorg.conf file is opened. If system
is specified, the global /usr/X11/xorg.conf file is opened. The
absolute pathname of a configuration file can be used instead. If
the specified file does not exist and is to be updated, it will be
created. The file system that will contain the xorg.conf file must
be writeable by someone with superuser-like privileges. This option
has no effect unless other options are specified. The default is
machine.
-help
Display the fbconf_xorg command line options that are supported in
conjunction with the frame buffer device, along with a brief expla‐
nation of each option. The frame buffer device can be specified
using the -dev option.
-prconf
Display the current configuration for the frame buffer device and
attached display device(s). The frame buffer device can be speci‐
fied using the -dev option.
The -prconf output might resemble:
Monitor/Resolution Information:
Monitor manufacturer: SUN
Product Code: 4
Serial Number: 12212555
Manufacture date: 2000, week 9
EDID Version: 1.1
Monitor dimensions: 36x29 cm
Default Gamma: 2.62
Monitor preferred resolution: SUNW_STD_1280x1024x60
Monitor supported resolutions from EDID: SUNW_STD_1280x1024x60,
SUNW_STD_1280x1024x76, 1152x900x66, VESA_STD_1280x1024x75,
VESA_STD_1280x1024x60, SUNW_STD_1152x900x66,
VESA_STD_720x400x70, VESA_STD_640x480x60,
VESA_STD_640x480x67, VESA_STD_640x480x72,
VESA_STD_640x480x75, VESA_STD_800x600x56,
VESA_STD_800x600x60, VESA_STD_800x600x72,
VESA_STD_800x600x75, VESA_STD_832x624x75,
VESA_STD_1024x768x60, VESA_STD_1024x768x70, 1024x768x75
Current resolution setting: FALLBACK_1152x900x66
Framelock Configuration:
Slave Mode: Disabled
-predid [raw] [parsed]
Display the E-EDID (Enhanced Extended Display Identification Data)
information obtained from the display device(s), which must be
online, connected to the frame buffer. The frame buffer device can
be specified using the -dev option. The output will be raw hexadec‐
imal and/or human-readable (parsed) text. The default is parsed.
The -predid raw output might resemble:
--- EDID Data for /dev/fbs/kfb0 ---
Block 0: EDID Base Block
0x00: 00 FF FF FF FF FF FF 00 04 43 06 F2 01 00 00 00
0x10: 01 11 01 04 0F 2B 20 78 2B 9C 68 A0 57 4A 9B 26
0x20: 12 48 4C FF FF 80 A9 59 A9 4F A9 4A A9 45 81 99
0x30: 81 80 61 59 45 59 48 3F 40 30 62 B0 32 40 40 C0
0x40: 13 00 AB 40 11 00 00 1E 00 00 00 FD 00 32 5A 1E
0x50: 6E 17 04 11 00 C8 90 00 50 3C 00 00 00 F7 00 0A
0x60: F7 0F 03 87 C0 00 00 00 00 00 00 00 00 00 00 FC
0x70: 00 41 42 43 20 4C 43 44 32 31 0A 20 20 20 00 0B
-propt
Display all option settings for the frame buffer device, either as
they currently are or as they will be represented in the xorg.conf
configuration file when fbconf_xorg completes. The device can be
specified using the -dev option, and the file using the -file
option.
The -propt output might resemble:
--- Graphics Configuration for /dev/fbs/kfb0 ---
xorg.conf: machine -- /etc/X11/xorg.conf
Screen section: "kfb0"
Device section: "kfb0"
Monitor section: "kfb0"
Video Mode: SUNW_STD_1280x1024x76
StereoEnable: False
Multisample Information:
Multisample Mode: Disable
Samples Per Pixel: 4
Screen Information:
DoubleWide: Disabled
DoubleHigh: Disabled
Offset/Overlap: [0, 0]
Visual Information:
Default Visual: Non-Linear Normal Visual
Gamma Correction Value: Using gamma value 2.22
-res ?
Display a list of video modes that can be used with the -res video-
mode option.
The ? argument may need to be escaped or placed in quotes (\?, "?",
or '?'), to protect it from misinterpretation by the shell.
The -res ? output might resemble:
Video modes accepted by the -res option:
AUTO [1][2]
NONE [1][2]
SUNW_STD_1920x1200x75
SUNW_STD_1920x1200x70
SUNW_DIG_1920x1200x60
SUNW_STD_1920x1080x72
SUNW_DIG_1920x1080x60
...
...
VESA_STD_640x480x75 [1]
VESA_STD_640x480x72 [1]
VESA_STD_640x480x60 [1]
[1] Resolution is supported by monitor
[2] Preferred resolution for monitor
Abbreviations such as "1280x1024x75" might also be used.
-res video-mode [nocheck | noconfirm]
Set the video mode for the display device that is connected to the
frame buffer device.
A list of video modes can be displayed using the -res ? option.
The basic format of a video-mode is widthxheightxrate, where:
o width is the screen width in pixels.
o height is the screen height in pixels.
o rate is the vertical frequency of the screen refresh.
A video-mode argument may have an @ (at sign) instead of x preced‐
ing the refresh rate. For instance, 1280x1024x76 and 1280x1024@76
are equivalent.
A video-mode name may carry additional information, as with
SUNW_STD_1280x1024x76.
The -res argument, auto, represents the video mode that is cur‐
rently programmed into the device. The argument, none, is a synonym
for auto.
Note that some video modes might be inappropriate for certain frame
buffer devices and/or display devices.
The -res option accepts suboption keywords following the video-mode
specification.
nocheck
The nocheck suboption causes the video-mode argument to be
accepted, regardless of whether it is supported by the cur‐
rently attached monitor, whether it is known within the current
configuration, and so forth. Note that using an unchecked,
inappropriate video mode can leave the system without usable
video output. This suboption is useful if a different monitor
is to be connected to the frame buffer device. This suboption
also implies noconfirm.
noconfirm
If the video-mode argument is unable to be validated, the
default action is to display a warning message and ask the user
whether to continue. The noconfirm suboption suppresses this
confirmation request. This suboption is useful when fbconf_xorg
is being run from a shell script.
The following device-specific options are supported for certain frame
buffer devices. Unless specified otherwise, these options do not take
effect until the user logs out and back in.
-deflinear true | false
This option selects the default X visual. Two types of visuals are
supported, linear and nonlinear. Linear visuals are gamma cor‐
rected. Nonlinear visuals are not.
If the value of this option is true, the default visual is set to
default depth 24 and the default class is TrueColor with gamma cor‐
rection enabled. If false, a nonlinear visual that satisfies the
other default visual selection options, such as the default depth
and default class, is chosen as the default visual.
The -deflinear, -defoverlay, and -deftransparent options each
select the default X visual. Only one of these may be enabled at a
time. Enabling one causes the others to be disabled.
-defoverlay true | false
This option selects the default X visual. The kfb device provides
an 8-bit PseudoColor visual whose pixels are disjoint from the rest
of the visuals. This is called the overlay visual. Windows created
in this visual will not damage windows created in other visuals.
The converse, however, is not true: Windows created in other visu‐
als will damage overlay windows.
If the value of this option is true, the overlay visual is the
default visual. The default depth is 8-bit and the default class is
PseudoColor. If false, the non-overlay visual that satisfies the
other default visual selection options, such as the default depth
and the default class, is chosen as the default visual.
The -deflinear, -defoverlay, and -deftransparent options each
select the default X visual. Only one of these may be enabled at a
time. Enabling one causes the others to be disabled.
-deftransparent true | false
This option selects the default X visual. The kfb device provides
an 8-bit PseudoColor visual whose pixels are disjoint from the rest
of the visuals. This is called the overlay visual. Windows created
in this visual will not damage windows created in other visuals.
If the value of this option is true, the overlay visual used as the
default is a transparent overlay visual. A visual with transparency
supports a colormap with 255 colors and one transparent pixel. The
default depth is 8-bit and the default class is PseudoColor. If
false, the nonoverlay visual that satisfies the other default vis‐
ual selection options, such as the default depth and the default
class, is chosen as the default visual.
The -deflinear, -defoverlay, and -deftransparent options each
select the default X visual. Only one of these may be enabled at a
time. Enabling one causes the others to be disabled.
-doublehigh enable | disable
Configures the two outputs of the frame buffer device into one ver‐
tical virtual display. The default is disable. The -doublewide and
-doublehigh options are mutually exclusive. Enabling one causes the
other to be disabled.
-doublewide enable | disable
Configures the two outputs of the frame buffer device into one hor‐
izontal virtual display. The default is disable. The -doublewide
and -doublehigh options are mutually exclusive. Enabling one causes
the other to be disabled.
-g gamma-correction-value
Sets the gamma correction value. All linear visuals provide gamma
correction. The gamma correction value should be in the range, 0.1
to 10.0. The default is 2.22. This option can be used while the
window system is running. Changing the gamma correction value
affects all of the windows displayed by linear visuals.
-gfile gamma-correction-file
Loads the gamma correction table from the file specified by gamma-
correction-file. This text file specifies the gamma correction val‐
ues for the R, G, and B channels. Three consecutive values form an
RGB triplet. For a kfb device, there must be exactly 256 RGB
triplets. A value may be represented in hexadecimal, decimal, or
octal format (for example, 0x3FF, 1023, or 01777, respectively).
Values are separated by one or more whitespace or new line charac‐
ters. Comments begin with a hash sign character (#) and end at the
end of the line.
You can load the gamma correction table with this option while the
window system is running. The new gamma correction affects all the
windows being displayed using the linear visuals. When gamma cor‐
rection is done using a user-specified table, the gamma correction
value (-g) is undefined. By default, the window system assumes a
gamma correction value of 2.22 and loads the gamma table it creates
corresponding to this value.
The following is an example of a gamma-correction-file file:
# Gamma Correction Table
0x00 0x00 0x00
0x01 0x01 0x01
0x02 0x02 0x02
... ... ...
... ... ...
0xFF 0xFF 0xFF
-multisample available | disable | forceon
If set to disable, no multisample is possible. If set to available,
multisample is possible but is selected on a per-window basis using
a library interface. If set to forceon, all Sun OpenGL windows are
rendered using multisampling. To query the number of samples used,
specify the -propt option or run the xglinfo utility. The xglinfo
utility can return the number of multisamples if -multisample is
set to available. The default is disable. xglinfo is described in
the xglinfo(1) man page, in the Sun OpenGL man page collection.
-offset x-val y-val
Adjusts the position of the specified stream by the value speci‐
fied. This option is only implemented in -doublewide and -double‐
high modes. For -doublewide, use the x-val to position the right‐
most stream. Negative is left (overlaps with the left stream). For
-doublehigh, use the y-val to position the bottom stream. Negative
is up (overlaps with top stream). The default is [0,0].
-samples 1 | 2 | 4 | 8 | 16
Requests the number of samples to compute per display pixel. The
requested number of samples per pixel is used if -multisample is
not disabled and resources exist for the request. To query the num‐
ber of samples used, specify the -propt option or run the xglinfo
utility. The xglinfo utility can return the number of multisamples
after you specify the option -multisample available. The default is
4.
-slave disable | multiview
If you set the multiview argument for the -slave option, the device
synchronizes video with a master through the multiview genlock rib‐
bon cable. The system should be powered off whenever connecting or
disconnecting this cable. Both devices should be running the same
resolution and the option should be issued when the window system
is running. The default is disable.
DEFAULTS
Certain options have implied default arguments. The default argument is
used when the option is not present on the fbconf_xorg command line.
For instance, a default argument for -dev is /dev/fb.
Options that set configuration state do not have implied defaults. The
-res option is one example. If a configuration option is omitted from
the fbconf_xorg command line, the corresponding xorg.conf configuration
setting will remain unchanged. The exception is that if configuration
options are mutually exclusive, setting one will automatically unset
each of the others. An example is -deflinear, -defoverlay, and -def‐
transparent.
If a configuration setting is not present in the configura tion file
when the window system is run, a default value will be used. For
instance, the default state associated with -res is auto. A setting
might not be present in the file, or the file itself might not exist,
until fbconf_xorg has been invoked with the corresponding command line
option.
The -defaults option sets the default values for most configuration
settings.
Options and their defaults are shown below.
Device-independent defaults:
Option Default Argument
-dev /dev/fb
-file machine
Option Default State
-res auto
kfb-specific defaults:
Option Default State or -defaults Value
-deflinear false
-defoverlay false
-deftransparent false
-doublehigh disable
-doublewide disable
-g 2.22
-multisample disable
-offset 0 0
-samples 4
-slave disable
-stereo false
EXAMPLES
Example 1 Switching the Resolution of the Monitor Type
The following example sets the video mode for the monitor on the
/dev/fbs/kfb0 device to 1280 x 1024 at 76 Hz:
example% fbconf_xorg-dev kfb0 -res 1280x1024x76
EXIT STATUS
The following exit values are returned:
0
Execution completed successfully.
1
Invalid command line usage.
2
An error occurred.
FILES
/dev/fb
Symbolic link to the default frame buffer device.
/dev/fbs/kfbn
Device special file for a kfb frame buffer
/usr/lib/fbconfig/SunModes_xorg.conf
Video mode definitions included in new configuration files.
ATTRIBUTES
See attributes(5) for descriptions of the following attributes:
┌─────────────────────────────┬──────────────────────────────────────┐
│ ATTRIBUTE TYPE │ ATTRIBUTE VALUE │
├─────────────────────────────┼──────────────────────────────────────┤
│Availability │system/graphics/fbconfig/fbconfig-kfb │
├─────────────────────────────┼──────────────────────────────────────┤
│Interface Stability │Uncommitted │
└─────────────────────────────┴──────────────────────────────────────┘
SEE ALSOfbconfig(1M), svccfg(1M), attributes(5), kfb(7D), fbio(7I)
See the Xorg(1) and Xserver(1) man pages in the X Server man page col‐
lection and the xglinfo(1) man page in the Sun OpenGL man page collec‐
tion.
SunOS 5.11 26 Jan 2009 fbconf_xorg(1M)