Version 11 (Release 6.1)
Xsco(X1M)
Xsco --
X Window System server
Synopsis
Xsco or X [: displaynumber]
[-ac]
[-a number] [-audit audit_level]
[+-]accessx [ timeout [ timeout_mask [ feedback [ options_mask] ] ] ]
[-ar1]
[-ar2]
[-noloadxkb]
[-xkbcomp]
[-xkbdb]
[-xkbdir]
[-xkbmap]
[-auth authorization_file]
[bc] [-bs] [-cc class]
[-co database_name]
[-config]
[-crt device]
[-dvendor.model.class.mode]
[-deferglyphs [none | all | 16]]
[-fc cursor_font] [-fn font]
[-fp font_path] [-help] [-I]
[-kb | +kb]
[-logo] [-nice n]
[-noexit]
[-nologo] [-norunsw]
[-pn] [-p minutes] [-ppp]
[r | -r] [-reset]
[-s minutes]
[-save seconds]
[-static] [-stdvga] [-su]
[-t number]
[-to seconds] -tst
[v] [-v]
[-wm] [ttyname]
Description
Xsco is an X Window System server.
It is frequently a link or a copy of the appropriate server binary
for driving the most frequently used server on a given machine.
Options
All of the X servers accept the following command line options:
:displaynumber-
sets the display number of the server. For example, Xsco :1
allows clients with
DISPLAY=servername:1
to establish connections.
The default displaynumber is 0.
-ac-
disables host-based access control mechanisms. It enables access by any host,
and permits any host to modify the access control list.
Use -ac with extreme caution.
This option exists primarily for running test suites remotely.
-a number-
specifies the pointer acceleration. number is the ratio
of how much movement is reported to how much
the user actually moves the pointer.
Pointer acceleration can also be set with
xset(X1M).
+|-accessx-
enable/disable accessx key sequences
-ar1-
set XKB autorepeat delay
-ar2-
set XKB autorepeat interval
-auditaudit_level-
sets the audit trail level. The default level is 1,
meaning only connection rejections are reported. Level 2 also
reports all successful connections and disconnections. Level 0 turns
off the audit trail. All audit lines are sent to standard error.
-auth authorization_file-
specifies a file that contains a collection of authorization records used
to authenticate access. See the
Xsecurity(X1M)
manual page for more information.
bc-
disables certain kinds of error checking, for bug compatibility with
previous releases (for example, to work around bugs in R2 and R3 xterms
and toolkits). This option does not use dash (-).
-bs-
disables backing store on all screens.
-cc class-
specifies the default visual class. The following are legal values for
class:
0-
StaticGray
1-
GrayScale
2-
StaticColor
3-
PseudoColor
4-
TrueColor
5-
DirectColor
Not all graphics adapters support all six visual classes.
-co filename-
sets the name of the RGB color database.
filename is the name of the color database, and may include
a path. filename must not include the .dir
and .pag extensions of the database files.
-config-
reads server options from file
-crt device-
specifies the console multiscreen on which the server
is displayed. device must be a complete device name,
such as /dev/vt03.
-d vendor.model.class.mode-
specifies the graphics adapter and video mode (resolution).
The file /usr/lib/grafinfo/grafdev contains
the system-wide default string that is used on
each tty when the -d option is not specified.
Some examples of setting the display type or
resolution with the -d option are:
Xsco -d ibm.vga.vga.640x480-16
Xsco -d paradise.vga1024.svga.640x480-256
Xsco -d sigma.legend.vga.800x600-16
Xsco -d trident.tvga.svga.1024x768-16
Xsco -d trident.tvga.svga.1024x768-256
-deferglyphs-
defers the loading of ``glyphs'' (graphic symbols). The
default is not to defer (none), but you can defer all
glyphs or defer only 16-bit glyphs.
-fc cursor_font-
sets the default cursor font. The default cursor font is
/usr/lib/X11/fonts/misc/cursor. Use this option only if you
have a special purpose cursor font.
-fn font-
sets the default text font. The default is fixed. Fonts are
found in /usr/lib/X11/fonts. Most, however, are special
purpose fonts. To display them, use the xfd client.
-fp font_path-
sets the font search path. By default, the server searches the font
directories
/usr/lib/X11/fonts/misc/,
/usr/lib/X11/fonts/Speedo/,
/usr/lib/X11/fonts/Type1/,
/usr/lib/X11/fonts/75dpi/, and
/usr/lib/X11/fonts/100dpi/.
Use this option only if the
fonts database was installed in a different directory. Note that the
font path can also be set with the xset command.
-help-
prints options and exits.
-I-
causes all remaining command line arguments to be ignored.
Use this option for troubleshooting.
-kb-
disables the X Keyboard Extension.
+kb-
enables the X Keyboard Extension; it is disabled by default.
-logo-
turns on the display in the screen-saver.
This prints the X logo on your screen if you do not use your screen
for 10 minutes. Note that you must also use the v option
to see the X logo. To specify how long the server must be idle before
it activates the screen saver, use the -save option.
-nice n-
alters the priority of the server process by adding n
to the value of the current nice. The n
value is from 0 to 39. By default, the server process is assigned
the value of 0. Lower values correspond to higher scheduling priority.
-noexit-
disables the <Ctrl><Alt><Bksp> exit hotkey sequence
-noloadxkb-
don't load XKB keymap description
-nologo-
turns off the X logo screen saver. You can also specify this option
as nologo (without the dash character).
The -v option overrides this option.
-norunsw-
stops X server from running while screen switched.
-pn-
permits the X server to continue running when it fails to establish all
of its well-known sockets, but does establish at least one.
-p minutes-
specifies how often (in minutes) to change the screen saver pattern.
The option works in conjunction with the -logo option.
-ppp-
specifies point-perfect pixelization. This causes diagonal
``zero'' width lines to be drawn the same way as the MIT
Sample X Server. It is a work around for problems with some
X clients that incorrectly assume that ``zero'' width lines
are drawn identically on all hardware. This option only
affects video cards using the i128, p9000, and p9100 chipsets.
r-
turns on auto-repeat.
-r-
turns off auto-repeat. By default, auto-repeat is on.
-reset-
attempts to reset the display to text mode. This option should
be used when the display graphics adapter is stuck in an
unusable state.
-s minutes-
activates the screen-saver after minutes of non-use.
This option reduces wear on the screen. If you use this option with
the -logo option, the X logo moves around the screen according to how
you set the -p option. If minutes is set to ``0'', the
screen-saver is not activated.
-save seconds-
activates the screen-saver after seconds of non-use.
This option reduces wear on the screen. If you use this option with
the -logo option, the X logo moves around the screen according to how
you set the -p option. If seconds is set to ``0'', the
screen-saver is not activated. Note that this option overrides -s.
-static-
defaults to a static color visual class.
This option overrides the -cc option.
-stdvga-
runs the server in the standard VGA graphics mode;
640x480 with 16 colors
-su-
disables save under support on all screens.
-t number-
sets the pointer acceleration threshold in pixels (that is, after how many
pixels pointer acceleration should take effect). Pointer acceleration
threshold can also be changed with xset or scomouse.
-terminate-
terminates the server at server reset.
-to seconds-
sets the default connection timeout (the time allowed for the client to
complete the connection) in seconds.
-tst-
disables test extensions XTestExtension1, XTEST and DEC-XTRAP.
v-
specifies screen-saver without video blanking. Instead, the root window
pattern and X logo cover the screen. The pattern shifts periodically as
specified with the -p option.
-v-
specifies video blanking for screen-saver. The default is on. This
option blanks out the user's screen after 10 minutes of non-use.
This option overrides the -logo and -nologo options.
To specify how long the server must be idle before it activates video
blanking, use the -s option.
-wm-
forces the default backing-store of all windows to be WhenMapped;
a work-around for getting backing-store to apply to all windows.
-xkbcomp-
default keymap compiler
-xkbdb-
file that contains default XKB keymaps
-xkbdir-
base directory for XKB layout files
-xkbmap-
XKB keyboard description to load on startup
You can also have the X server connect to
scologin using XDMCP.
The following options control the behavior of
XDMCP.
-broadcast-
enables XDMCP and broadcasts
BroadcastQuery packets to the network.
The first responding display manager will be chosen for the session.
-class display_class-
sets the value of the additional XDMCP display
qualifier, which is used in resource lookup for
display-specific options. By default, the value
is "MIT-Unspecified" (not a very useful value).
-cookie xdm-auth-bits-
sets the value of a private key
shared between the server and the manager, which is used when
testing XDM-AUTHENTICATION-1.
-displayID display-id-
allows the display
manager to identify each display so that it can locate the shared key.
-indirect host_name-
enables XDMCP and sends IndirectQuery
packets to the specified host.
-once-
exits the server after the first session is over.
Normally, the server keeps starting sessions, one after the other.
-port port_num-
specifies an alternate port number for XDMCP packets.
It must be specified before any -query, -broadcast or
-indirect options.
-query host-name-
enables XDMCP
and sends Query packets to the specified host.
Many servers also have device-specific command line options. See the
manual pages for the individual servers for more details.
Usage
Starting the server
The server is usually started from the SCO OpenServer
display manager program scologin.
This utility is run from the system startup files and takes care of keeping
the server running, prompting for usernames and passwords, and starting up
the user sessions. It is easily configured for sites that want to provide
consistent interfaces for novice users (loading convenient sets of
resources, starting up a window manager, clock, and
a terminal emulator window).
Network connections
The X server supports connections made using the following reliable
byte-streams:
TCP/IP-
The server listens on port 6000+n,
where n is the display number.
streampipe-
the X client uses /dev/XnR as
the streampipe, where n is the display number.
The server listens on /dev/XnS.
pseudotty-
The server uses /dev/X/server.n,
where n is the display number.
Colors
You can display from 2 (monochrome) to
16 million colors simultaneously on the screen, depending
on the capabilities of the graphics adapter that you have installed
on your system and the
entries that you select when you use the
Video Configuration Manager.
The RGB database files, rgb.dir
and rgb.pag, are compiled using the
rgb utility from the file rgb.txt.
Each line of the rgb.txt
file consists of three color values and a color name. The color
values are decimal numbers from 0 to 255 for the red, green, and blue
components of the color. A typical line looks like this:
35 35 142 Navy Blue
This entry defines Navy Blue as consisting of 35/255ths of the maximum
possible intensity of red, 35/255ths of the maximum possible intensity of
green, and 142/255ths of the maximum possible intensity of blue. The
server is case-insensitive when searching for color names, so
``navy blue'' or ``Navy BLUE'' finds the entry above, for example.
The server is sensitive to spaces in color names, so
it does not equate ``Navy BLUE'' and ``NavyBLUE.''
Remember that the precision of different adapters varies. The exact
same color values may not produce the exact same shade of that color on
different monitors.
Security
The X server implements a simplistic authorization protocol,
MIT-MAGIC-COOKIE-1, which uses data private to authorized
clients and the server. This is a rather trivial scheme;
if the client passes authorization data that are the same as
the server has, it is allowed access. This scheme
is worse than the host-based access control mechanisms in environments with
unsecure networks, as it allows any host to connect, given that it has
discovered the private key. But in many environments, this level of
security is better than the host-based scheme, as it allows access control
per-user instead of per-host.
The authorization data is passed to the server in a private file named with
the -auth option. Each time the server is about to
accept the first connection after a reset (or when the server is starting),
it reads this file. If this file contains any authorization records, the
local host is not automatically allowed access to the server, and only
clients that send one of the authorization records contained in the file in
the connection setup information will be allowed access. See the
xauth(X1M)
manual page for a description of the binary format of this file.
The X server also uses a host-based access control list for deciding
whether or not to accept connections from clients on a particular machine.
If no other authorization mechanism is being used,
this list initially consists of the host on which the server is running, as
well as any machines listed in the file
/etc/Xn.hosts, where
n is the display number of the server. Each line of the file should
contain an Internet hostname (for example, expo.lcs.mit.edu)
There should be no leading or trailing spaces on any lines. For example:
joesworkstation
corporate.company.com
Users can add or remove hosts from this list and enable or disable access
control using the xhost command from the same machine as the server.
The X protocol intrinsically neither has any notion of window operation
permissions nor places any restrictions
on what a client can do; if a program can
connect to a display, it has full run of the screen. Sites that have better
authentication and authorization systems (such as Kerberos) might wish to make
use of the hooks in the libraries and the server to provide additional
security models.
Signals
The X server attaches special meaning to the following signals:
SIGHUP-
causes the server to close all existing connections, free all
resources, and restore all defaults. It is sent by the display manager
whenever the main user's main application
(usually a xterm or window
manager) exits to force the server to clean up and prepare for the next
user.
SIGTERM-
causes the server to exit cleanly.
SIGUSR1-
checks to see if the server has inherited SIGUSR1 as
SIG_IGN instead of the usual SIG_DFL when the
server starts. In this case,
the server sends a SIGUSR1 to its parent process after it has
set up the various connection schemes.
Fonts
Fonts are usually stored as individual files in directories. The X server
can obtain fonts from directories and/or from font servers.
The list of directories and font servers
the X server uses when trying to open a font is controlled
by the font path. Although most sites will choose to have
the X server start up with the appropriate font path
(using the -fp option mentioned
above), it can be overridden using the xset program.
The default font path for the X server contains five directories:
/usr/lib/X11/fonts/misc-
contains many miscellaneous bitmap fonts that are useful on all
systems. It contains a family of fixed-width fonts,
a family of fixed-width fonts from Dale Schumacher,
several Kana fonts from Sony Corporation®,
two JIS Kanji fonts,
two Hangul fonts from Daewoo Electronics,
two Hebrew fonts from Joseph Friedman,
the standard cursor font, two cursor fonts from
Digital Equipment Corporation®, and cursor and glyph fonts
from Sun Microsystems, Inc®.
It also has various font name aliases for the fonts, including
fixed and variable.
/usr/lib/X11/fonts/Speedo-
contains outline fonts for the Bitstream® Speedo rasterizer.
A single font face, in normal, bold, italic, and bold italic, is provided,
contributed by Bitstream, Inc.
/usr/lib/X11/fonts/75dpi-
contains bitmap fonts contributed by Adobe Systems, Inc.®,
Digital Equipment Corporation, Bitstream, Inc.,
Bigelow and Holmes, and Sun Microsystems, Inc.
for 75 dots per inch displays. An integrated selection of sizes, styles,
and weights are provided for each family.
/usr/lib/X11/fonts/100dpi-
contains 100 dots per inch versions of some of the fonts in the
75dpi directory.
/usr/lib/X11/fonts/Type1-
contains IBM®-Adobe scaled fonts.
Font databases are created by running the mkfontdir
program in the directory containing the compiled versions of
the fonts (the .pcf files).
Whenever fonts are added to a directory, mkfontdir should be rerun
so that the server can find the new fonts.
NOTE:
If mkfontdir is not
run, the server will not be able to find any fonts in the directory.
Files
/etc/X.hosts-
/usr/lib/X11/fonts/misc,-
/usr/lib/X11/fonts/75dpi,-
/usr/lib/X11/fonts/100dpi-
/usr/lib/X11/fonts/Speedo-
/usr/lib/X11/rgb.dir-
/usr/lib/X11/rgb.txt-
/usr/lib/X11/rgb.pag-
/usr/adm/X*msgs-
Diagnostics
Errors are logged
in the file /usr/adm/Xmsgs.
Warnings
The option syntax is inconsistent with itself and
xset(X1M).
The acceleration option should take a numerator and a denominator like the
protocol.
If X
dies before its clients, new clients will not be able to connect until all
existing connections have their TCP TIME_WAIT timers expire.
The color database contains only 761 colors
References
bdftopcf(X1M),
xfs(X1M),
mkfontdir(X1M),
X(X1M),
xauth(X1M),
xhost(X1M),
xinit(X1M),
xset(X1M),
xsetroot(X1),
xterm(X1)
X Window System Protocol
© 2004 The SCO Group, Inc. All rights reserved.
UnixWare 7 Release 7.1.4 - 25 April 2004