osf1 man page for xdm

xdm(1X) 																   xdm(1X)

NAME
       xdm - X Display Manager with support for XDMCP, host chooser

SYNOPSIS
       xdm [-config configuration_file] [-nodaemon] [-debug debug_level] [-error error_log_file] [-resources resource_file] [-server server_entry]
       [-session session_program]

OPTIONS
       All of these options, except -config itself, specify values that can also be specified in the configuration file as resources.	Names  the
       configuration  file, which specifies resources to control the behavior of xdm.  <XRoot>/lib/X11/xdm/xdm-config is the default. See the sec-
       tion CONFIGURATION FILE.  Specifies "false" as the value for the DisplayManager.daemonMode resource.  This  suppresses  the  normal  daemon
       behavior,  which  is  for xdm to close all file descriptors, disassociate itself from the controlling terminal, and put itself in the back-
       ground when it first starts up.	Specifies the numeric value for the DisplayManager.debugLevel resource.  A non-zero value  causes  xdm	to
       print  lots  of	debugging  statements  to  the	terminal; it also disables the DisplayManager.daemonMode resource, forcing xdm to run syn-
       chronously.  To interpret these debugging messages, a copy of the source code for xdm is almost a necessity.  No attempt has been  made	to
       rationalize  or	standardize  the output.  Specifies the value for the DisplayManager.errorLogFile resource. This file contains errors from
       xdm as well as anything written to stderr by the various scripts and programs run during the progress of the session.  Specifies the  value
       for  the  DisplayManager*resources resource. This file is loaded using xrdb to specify configuration parameters for the authentication wid-
       get.  Specifies the value for the DisplayManager.servers resource. See the section SERVER SPECIFICATION for a description of this resource.
       Specifies  the  value for the DisplayManager.requestPort resource. This sets the port-number which xdm will monitor for XDMCP requests.	As
       XDMCP uses the registered well-known UDP port 177, this resource should not be changed except for debugging.  Specifies the value  for  the
       DisplayManager*session  resource.   This  indicates  the  program  to run as the session after the user has logged in.  Allows an arbitrary
       resource to be specified, as in most X Toolkit applications.

DESCRIPTION
       The xdm program manages a collection of X displays, which may be on the local host or remote servers.  The design of xdm was guided by  the
       needs  of X terminals as well as the X Consortium standard XDMCP, the X Display Manager Control Protocol.  xdm provides services similar to
       those provided by init, getty and login on character terminals: prompting for login name and password, authenticating the user, and running
       a "session."

       A  "session"  is defined by the lifetime of a particular process; in the traditional character-based terminal world, it is the user's login
       shell. In the xdm context, it is an arbitrary session manager.  This is because in a windowing environment, a user's  login  shell  process
       does  not  necessarily have any terminal-like interface with which to connect.  When a real session manager is not available, a window man-
       ager or terminal emulator is typically used as the "session manager," meaning that termination of this process terminates the  user's  ses-
       sion.

       When the session is terminated, xdm resets the X server and (optionally) restarts the whole process.

       When xdm receives an Indirect query via XDMCP, it can run a chooser process to perform an XDMCP BroadcastQuery (or an XDMCP Query to speci-
       fied hosts) on behalf of the display and offer a menu of possible hosts that offer XDMCP display management. This feature is useful with  X
       terminals that do not offer a host menu themselves.

       Because	xdm  provides  the first interface that users will see, it is designed to be simple to use and easy to customize to the needs of a
       particular site.  xdm has many options, most of which have reasonable defaults.	Browse through the  various  sections  of  this  reference
       page,  picking and choosing the things you want to change. Pay particular attention to the Session Program section, which will describe how
       to set up the style of session desired.

       In handling a user's login to the X display, xdm records the login in the /var/adm/utmp file, the same way that a normal, non-X login does.
       This allows the finger and who commands to show the user logged in to the X display.

TYPICAL USAGE
       Actually, xdm is designed to operate in such a wide variety of environments that typical is probably a misnomer.

       First,  the xdm configuration file should be set up. Make a directory (usually /usr/var/X11/xdmr or /usr/lib/X11/xdm) to contain all of the
       relevant files.	Here is a reasonable configuration file, which could be named xdm-config:

       DisplayManager.errorLogFile:    /usr/var/X11/xdm/xdm-errors  DisplayManager.pidFile:	     /usr/var/X11/xdm/xdm-pid  DisplayManager.key-
       File:		 /usr/var/X11/xdm/xdm-keys     DisplayManager.servers:		   /usr/var/X11/xdm/Xservers	DisplayManager.accessFile:
       /usr/var/X11/xdm/Xaccess DisplayManager.greeterLib:	/usr/shlib/X11/libXdmDecGreet.so DisplayManager._0.authorize:	 true  DisplayMan-
       ager._0.authName: 
		 XDM-AUTHORIZATION-1   MIT-MAGIC-COOKIE-1   DisplayManager._0.setup:	     /usr/var/X11/xdm/Xsetup_0	DisplayManager._0.startup:
       /usr/var/X11/xdm/GiveConsole DisplayManager._0.reset:	    /usr/var/X11/xdm/TakeConsole DisplayManager.local_0.authorize:  true  Display-
       Manager.local_0.authName: 
		 XDM-AUTHORIZATION-1  MIT-MAGIC-COOKIE-1 DisplayManager.local_0.setup:	 /usr/var/X11/xdm/Xsetup_0 DisplayManager.local_0.startup:
       /usr/var/X11/xdm/GiveConsole	    DisplayManager.local_0.reset:	    /usr/var/X11/xdm/TakeConsole	 DisplayManager*resources:
       /usr/var/X11/xdm/Xresources  DisplayManager*session:	     /usr/var/X11/xdm/Xsession	DisplayManager*authComplain:	 false DisplayMan-
       ager*chooser:	     /usr/bin/X11/chooser DisplayManager*keymaps:	  /usr/var/X11/xdm/Xkeymaps !DisplayManager*language:	    C

       Note that this file mainly contains references to other files.  Note also that some of the resources are specified with "*" separating  the
       components.   These  resources can be made unique for each different display, by replacing the "*" with the display-name, but normally this
       is not very useful.  See the RESOURCES section for a complete discussion.

       The first file, /usr/var/X11/xdm/Xservers, contains the list of displays to manage that are not using XDMCP. Most  workstations	have  only
       one display, numbered 0, so the file will look something like this:

	     :0 Local local /usr/bin/X11/X :0

       This will keep /usr/bin/X11/X running on this display and manage a continuous cycle of sessions.

       The file /usr/var/X11/xdm/xdm-errors will contain error messages from xdm and anything output to stderr by Xsetup_0, GiveConsole, Xsession,
       or TakeConsole. When you have trouble getting xdm working, check this file to see if xdm has any clues to the trouble.

       GiveConsole assigns ownership of the console to the user.  Here is an example GiveConsole file:

	     #!/bin/sh
	     # Assign ownership of the console to the invoking user.
	     #
	     # By convention, both xconsole and xterm -C check that the
	     # console is owned by the invoking user and is readable before
	     # attaching the console output.  This way, a random user can
	     # invoke xterm -C without causing serious problems.
	     #
	     # However, don't give up ownership of the console if the
	     # alternate console is in use, that is, if the graphics
	     # display device is not the console.
	     #
	     case `/usr/sbin/sizer -wc` in
	     1)
	       ;;
	     *)
	       chown $USER /dev/console
	       ;;
	     esac

       TakeConsole assigns ownership back to root.  Here is an example TakeConsole file:

	     #!/bin/sh
	     # Reassign ownership of the console to root -- this
	     # should disallow assignment of console output to any
	     # random users's xterm
	     #
	     chmod 622 /dev/console
	     chown root /dev/console

       The next configuration entry, /usr/lib/X11/xdm/Xresources, is loaded onto the display as a resource database using xrdb. Since the  authen-
       tication widget reads this database before starting up, it usually contains parameters for that widget.

       The  most  interesting  script is Xsession.  It establishes the default login session for all users of the workstation.	Here is an example
       Xsession file:

       #!/bin/sh

       if [ -d $HOME -a -w $HOME ] then
	     exec > $HOME/.xsession-errors 2>&1 else
	     echo "Xsession: $HOME directory not writable by $USER" 
		     > /dev/console
	     exec dxterm -geometry 80x40+0+0
	     # exec xterm -geometry 80x24+0+0 fi

       case $# in 1)
	     case $1 in
	     failsafe)
		     exec dxterm -geometry 80x40+0+0
		     # exec xterm -geometry 80x24+0+0
		     ;;
	     esac esac

       startup=$HOME/.xsession resources=$HOME/.Xresources

       if [ -f $startup ]; then
	     if [ -x $startup ]
	     then
		     exec $startup
	     else
		     exec /bin/sh $startup
	     fi else
	     if [ -f $resources ]; then
		     xrdb -load -retain $resources
	     fi
	     #
	     # Motif/DECWindows Version
	     #
	     #dxsession

	     #
	     # MIT/Athena Version
	     #
	     # For a MIT/Athena version,
	     # uncomment the following lines and comment the Motif
	     # lines above

	     xconsole -geometry 480x130-0-0 -daemon -notify -verbose 
		   -fn fixed -exitOnFail
	     twm &
	     exec xterm -geometry 80x24+10+10 -ls fi

       The preceding version of the Xsession script recognizes the special "failsafe" mode, specified in the translations in the  Xresources  file
       above,  to provide an escape from the ordinary session. Failsafe mode enables you to start a dxterm even when your Xsession or $HOME/.xses-
       sion script is faulty. To enter failsafe mode, enter your username and password at the login prompt and then press either the F1 key or the
       F2 key, instead of pressing the carriage return key.  This sequence initiates a dxterm session, enabling you to edit the faulty Xsession or
       $HOME/.xsession file. Also, if you do not have a login directory or if your login directory is not writable (as in  the	case  of  a  login
       directory that belongs to someone else), failsafe mode is invoked and brings up a dxterm session to allow you to make adjustments.

       The  file  /usr/var/X11/xdm/Xkeymaps  defines  the  keymaps that are loaded into the Xserver for the various languages and keyboards. These
       keymaps are loaded by the Xsetup_0 script using the xmodmap command. The table in the following file defines the correspondence between the
       value of the console's language variable, the keyboard types, and the default keymaps loaded into the Xserver:

       #  #  This  file  defines the language-keymap mapping # # #   The first line contains the name of the #	 link to be created to the default
       keymap.	# /usr/var/X11/xdm/keymap_default # #	This is the directory where the keymap files are to be found.  # /usr/lib/X11/keymaps/ # #
       The  following  lines must contain: #			      <number> <language> <keymap-filename> # # The <number> field is a 2-byte hex
       value where the first byte # represents the keyboard type and the second byte is the value of the # console's language variable.  The  val-
       ues for the keyboard types are: #       LK401   0 #	 PCXAL	 1 #	   LK201   2 #	     LK421   3 #       LK443/4 4 #	 LK411	 5
       # # Don't put any 8-bit characters in the language names or the # isspace() function used in parsing this may think they're spaces #  caus-
       ing the lines to be parsed incorrectly.	# # If the <keymap-filename> field is blank, this has the special # meaning that no keymap_default
       link will be created, nor will any # existing keymap_default be modified.  # # The keymap specified for the "fallback" lines  is  used  for
       any  # language value missing from the table for the corresponding # keyboard type.  # 000     fallback		     us_lk401aa.keymap 030
       Dansk		      danish_lk401ad_tw.keymap	032	 Deutsch		 austrian_german_lk401ag.keymap  034	  Deutsch(Schweiz)
       swiss_german_lk401al_tw.keymap  036	English(American)	us_lk401aa.keymap  038	    English(British/Irish)   uk_lk401aa.keymap 03a
       Espanol		      spanish_lk401as_tw.keymap 03c	Francais	       belgian_french_lk401ap_tw.keymap 03e	Francais(Canadien)
       canadian_french_lk401ac_tw.keymap  040	   Francais(SuisseRomande)    swiss_french_lk401ak_tw.keymap  042     Italiano		     ital-
       ian_lk401ai_tw.keymap 044     Nederlands 	    dutch_us_lk401ah.keymap 046     Norsk		   norwegian_lk401an_tw.keymap 048
       Portugues		 portuguese_lk401av.keymap    04a	 Suomi			   finnish_lk401af_tw.keymap	04c	   Svenska
       swedish_lk401am_tw.keymap 04e	 Vlaams 		flemish_lk401ab_tw.keymap

       100     fallback 	      us_pcxalka.keymap 130	Dansk		       danish_pcxalkd.keymap 132      Deutsch		      aus-
       trian_german_pcxalkg.keymap
	       .
	       .
	       .  14c	  Svenska		 swedish_pcxalma.keymap 14e	Vlaams		       belgian_pcxalkb.keymap

       200	  fallback		   us_lk201re.keymap   230	 Dansk			  danish_lk201ld_tw.keymap   *	 232	   Deutsch
       austrian_german_lk201lg_tw.keymap *
	       .
	       .
	       .  24c	  Svenska		 swedish_lk201lm_tw.keymap * 24e     Vlaams		    flemish_lk201lb_tw.keymap

       300	fallback		us_lk421aa.keymap  336	     English(American)	      us_lk421aa.keymap   338	    English(British/Irish)
       uk_lk421aa.keymap

       400	fallback		us_lk443aa.keymap 430	  Dansk 		 danish_lk444kd.keymap 432     Deutsch		      aus-
       trian_german_lk444kg.keymap
	       .
	       .
	       .  44c	  Svenska		 swedish_lk444ma.keymap
	       .
	       .
	       .   500	    fallback		    us_lk411aa.keymap  530	Dansk			 danish_lk411ad.keymap	 532	   Deutsch
       austrian_german_lk411ag.keymap
	       .
	       .
	       .  54c	  Svenska		 swedish_lk411am.keymap 54e	Vlaams		       belgian_lk411ab.keymap

RESOURCES
       At  many  stages  the  actions of xdm can be controlled through the use of its configuration file, which is in the X resource format.  Some
       resources modify the behavior of xdm on all displays, while others modify its behavior on a single display.  Where actions relate to a spe-
       cific display, the display name is inserted into the resource name between "DisplayManager" and the final resource name segment.

       For local displays, the resource name and class are as read from the Xservers file.

       For  remote  displays,  the resource name is what the network address of the display resolves to.  See the removeDomain resource.  The name
       must match exactly; xdm is not aware of all the network aliases that might reach a given display.  If the name resolve fails,  the  address
       is used.  The resource class is as sent by the display in the XDMCP Manage request.

       Because	the resource manager uses colons to separate the name of the resource from its value and dots to separate resource name parts, xdm
       substitutes underscores for both dots and colons when generating the resource name. For example, DisplayManager.expo_x_org_0.startup is the
       name  of the resource which defines the startup shell file for the "expo.x.org:0" display.  This resource either specifies a file name full
       of server entries, one per line (if the value starts with a slash), or a single server entry. See the section SERVER SPECIFICATION for  the
       details.   This	resource indicates the UDP port number which xdm uses to listen for incoming XDMCP requests.  Unless you need to debug the
       system, leave this with its default value of 177.  Error output is normally directed at the system  console.   To  redirect  it,  set  this
       resource  to  a	file  name.  A method to send these messages to syslog should be developed for systems which support it; however, the wide
       variety of interfaces precludes any system-independent implementation.  This file also contains	any  output  directed  to  stderr  by  the
       Xsetup,	GiveConsole, Xsession and TakeConsole files, so it will contain descriptions of problems in those scripts as well.  If the integer
       value of this resource is greater than zero, reams of debugging information will be printed.  It also disables daemon mode, which would re-
       direct  the  information  into  the  bit-bucket,  and  allows non-root users to run xdm, which would normally not be useful.  Normally, xdm
       attempts to make itself into a daemon process unassociated with any terminal. This is  accomplished  by	forking  and  leaving  the  parent
       process	to  exit, then closing file descriptors and releasing the controlling terminal.  In some environments this is not desired (in par-
       ticular, when debugging).  Setting this resource to "false" will disable this feature.  The filename specified will be created  to  contain
       an  ASCII representation of the process-id of the main xdm process.  xdm also uses file locking on this file to attempt to eliminate multi-
       ple daemons running on the same machine, which would cause quite a bit of havoc.  This is the resource which controls whether xdm uses file
       locking	to  keep  multiple  display managers from running amok. On System V, this uses the lockf library call, while on BSD it uses flock.
       This names a directory in which xdm stores authorization files while initializing the session.  The default value  is  <XRoot>/lib/X11/xdm.
       This  boolean  controls whether xdm rescans the configuration, servers, access control and authentication keys files after a session termi-
       nates and the files have changed.  By default it is "true."  You can force xdm to reread these files  by  sending  a  SIGHUP  to  the  main
       process.   When	computing  the display name for XDMCP clients, the name resolver will typically create a fully qualified host name for the
       terminal.  As this is sometimes confusing, xdm will remove the domain name portion of the host name if it is the same as the domain name of
       the local host when this variable is set.  By default the value is "true."  XDM-AUTHENTICATION-1 style XDMCP authentication requires that a
       private key be shared between xdm and the terminal.  This resource specifies the file containing those values.  Each entry in the file con-
       sists of a display name and the shared key.  To prevent unauthorized XDMCP service and to allow forwarding of XDMCP IndirectQuery requests,
       this file contains a database of hostnames which are either allowed direct access to this machine, or have a list of hosts to which queries
       should  be forwarded to.  The format of this file is described in the section XDMCP ACCESS CONTROL.  A list of additional environment vari-
       ables, separated by white space, to pass on to the Xsetup_0, GiveConsole, Xsession, and TakeConsole programs.  This resource is the name of
       the  loadable greeter library.  The greeter is the component that displays the login box, collects the username and password from the user,
       and authenticates the user.  The default value for this resource is /usr/shlib/X11/libXdmDecGreet.so which is the  Motif  login	interface.
       The /usr/shlib/X11/libXdmGreet.so library contains the Athena-style login interface.  A file to checksum to generate the seed of authoriza-
       tion keys.  This should be a file that changes frequently. The default is /dev/mem.  Number of seconds to wait for display to respond after
       user  has  selected a host from the chooser.  If the display sends an XDMCP IndirectQuery within this time, the request is forwarded to the
       chosen host.  Otherwise, it is assumed to be from a new session and the chooser is offered again. Default is 15.  This  resource  specifies
       the  name  of the file to be loaded by xrdb as the resource database onto the root window of screen 0 of the display. The Xsetup_0 program,
       the Login widget, and chooser will use the resources set in this file. This resource data base is loaded  just  before  the  authentication
       procedure  is  started,	so  it can control the appearance of the login window.	See the section AUTHENTICATION WIDGET, which describes the
       various resources that are appropriate to place in this file. There is no default value for  this  resource,  but  <XRoot>/lib/X11/xdm/Xre-
       sources	is the conventional name.  Specifies the program run to offer a host menu for Indirect queries redirected to the special host name
       CHOOSER.  <XRoot>/lib/X11/xdm/chooser is the default. See the sections XDMCP ACCESS CONTROL and CHOOSER.  This resource specifies the  pro-
       gram  used  to load the resources.  By default, xdm uses <XRoot>/bin/xrdb.  This specifies a program which is run (as root) before offering
       the Login window.  This may be used to change the appearance of the screen around the Login window or to put up other windows.	For  exam-
       ple,  you  may  want to run xconsole here. By default, no program is run.  The conventional name for a file used here is Xsetup_0.  See the
       section SETUP PROGRAM.  This resource specifies a program which is run (as root) after the authentication process succeeds.  By default, no
       program	is run.  The conventional name for a file used here is GiveConsole.  See the section STARTUP PROGRAM.  This resource specifies the
       session to be executed (not running as root). By default, <XRoot>/bin/xterm is run.  The conventional name is  Xsession.  See  the  section
       BSESSION  PROGRAM.   This specifies a program which is run (as root) after the session terminates. Again, by default no program is run. The
       conventional name is TakeConsole. See the section RESET PROGRAM.  These numeric resources control the behavior of xdm  when  attempting	to
       open  intransigent  servers.   The  openDelay  resource is the length of the pause (in seconds) between successive attempts. The openRepeat
       resource is the number of attempts to make. The openTimeout resource is the amount of time to wait while actually attempting the open (that
       is,  the  maximum time spent in the connect(2) system call).  The startAttempts resource is the number of times this entire process is done
       before giving up on the server.	After openRepeat attempts have been made, or if openTimeout seconds elapse in any particular attempt,  xdm
       terminates  and restarts the server, attempting to connect again.  This process is repeated startAttempts times, at which point the display
       is declared dead and disabled.  Although this behavior may seem arbitrary, it has been empirically developed and works quite well  on  most
       systems.   The  default values are 5 for openDelay, 5 for openRepeat, 30 for VopenTimeout and 4 for startAttempts.  To discover when remote
       displays disappear, xdm occasionally pings them, using an X connection and XSync calls.	 pingInterval  specifies  the  time  (in  minutes)
       between	each  ping  attempt,  pingTimeout  specifies  the  maximum  amount of time (in minutes) to wait for the terminal to respond to the
       request.  If the terminal does not respond, the session is declared dead and terminated.  By default, both are set to 5	minutes.   If  you
       frequently  use	X  terminals  which can become isolated from the managing host, you may wish to increase this value.  The only drawback is
       that sessions will continue to exist after the terminal has been accidentally disabled.	xdm will not ping  local  displays.   Although	it
       would  seem harmless, it is unpleasant when the workstation session is terminated as a result of the server hanging for NFS service and not
       responding to the ping.	This boolean resource specifies whether the X server should be terminated when a session  terminates  (instead	of
       resetting  it).	 This  option  can be used when the server tends to grow without bound over time, in order to limit the amount of time the
       server is run.  The default value is "false."  xdm sets the PATH environment variable for the session to this value.  It should be a  colon
       separated  list of directories; see sh(1) for a full description. ":/bin:/usr/bin:/usr/X11R6/bin:/usr/ucb" is a common setting. The default
       value can be specified at build time in the X system configuration file with DefaultUserPath.  xdm sets the PATH environment  variable  for
       the  startup  and reset scripts to the value of this resource.  The default for this resource is specified at build time by the DefaultSys-
       temPath entry in the system configuration file; "/etc:/bin:/usr/bin:/usr/X11R6/bin:/usr/ucb" is a common choice. Note the  absence  of  "."
       from  this entry.  This is a good practice to follow for root; it avoids many common Trojan Horse system penetration schemes.  xdm sets the
       SHELL environment variable for the startup and reset scripts to the value of this resource.  It is /bin/sh by default.  If the default ses-
       sion  fails  to execute, xdm will fall back to this program.  This program is executed with no arguments, but executes using the same envi-
       ronment variables as the session would have had (see the section SESSION PROGRAM). By default, <XRoot>/bin/xterm is used.  To improve secu-
       rity,  xdm  grabs the server and keyboard while reading the login name and password. The grabServer resource specifies if the server should
       be held for the duration of the name/password reading.  When "false," the server is ungrabbed after the keyboard grab  succeeds,  otherwise
       the  server  is grabbed until just before the session begins.  The default is "false."  The grabTimeout resource specifies the maximum time
       xdm will wait for the grab to succeed.  The grab may fail if some other client has the server grabbed, or possibly if the network latencies
       are  very  high.   This	resource  has a default value of 3 seconds. You should be cautious when raising it, as a user can be confused by a
       look-alike window on the display.  If the grab fails, xdm kills and restarts the server (if  possible)  and  the  session.   The  authorize
       resource is a boolean resource which controls whether xdm generates and uses authorization for the local server connections.  If authoriza-
       tion is used, authName is a list of authorization mechanisms to use, separated by white space. XDMCP connections dynamically specify  which
       authorization  mechanisms  are  supported,  so  authName is ignored in this case. By default, authorize is "true."  authName is "MIT-MAGIC-
       COOKIE-1," or, if XDM-AUTHORIZATION-1 is available, "XDM-AUTHORIZATION-1 MIT-MAGIC-COOKIE-1."  This file is used to communicate the  autho-
       rization  data  from  xdm  to  the server, using the -auth server command line option. It should be kept in a directory which is not world-
       writable as it could easily be removed, disabling the authorization mechanism in the server. If this resource is not specified, unique file
       names  are  generated  and written into the directory specified by the DisplayManager.authDir resource.	Not used.  This resource specifies
       the number of the signal xdm sends to reset the server. See the section CONTROLLING THE SERVER. The default is 1 (SIGHUP).   This  resource
       specifies number of the signal xdm sends to terminate the server. See the section CONTROLLING THE SERVER. The default is 15 (SIGTERM).  The
       original implementation of authorization in the sample server reread the authorization file at server reset time, instead of when  checking
       the initial connection.	Because xdm generates the authorization information just before connecting to the display, an old server would not
       get up-to-date authorization information. This resource causes xdm to send SIGHUP to the server after setting up the file, causing an addi-
       tional server reset to occur, during which time the new authorization information will be read. The default is "false," which will work for
       all MIT servers.  When xdm is unable to write to the usual user authorization file ($HOME/.Xauthority), it creates a unique  file  name	in
       this  directory	and  points  the environment variable XAUTHORITY at the created file.  It uses /tmp by default.  This resource defines the
       default keymap that the local Xserver uses and maps the value of the console's language variable to a keymap name.  This  resource  applies
       only  to  local displays.  This resource defines the value of the LANG environment variable. If this resource is defined, the LANG variable
       will be set for the xdm process controlling the display as well as for the user's X session.

CONFIGURATION FILE
       First, the xdm configuration file should be set up.  Make a directory (usually <XRoot>/lib/X11/xdm, where <XRoot> refers to the root of the
       X11 install tree) to contain all of the relevant files.	In the examples that follow, we use /usr/X11R6 as the value of <XRoot>.

       Here is a reasonable configuration file, which could be named xdm-config:

	       DisplayManager.errorLogFile:   /usr/lib/X11/xdm/xdm-errors
	       DisplayManager.pidFile:	      /usr/lib/X11/xdm/xdm-pid
	       DisplayManager.keyFile:	      /usr/lib/X11/xdm/xdm-keys
	       DisplayManager.servers:	      /usr/lib/X11/xdm/Xservers
	       DisplayManager.accessFile:     /usr/lib/X11/xdm/Xaccess
	       DisplayManager._0.authorize:   true
	       DisplayManager._0.setup:       /usr/lib/X11/xdm/Xsetup_0
	       DisplayManager._0.startup:     /usr/lib/X11/xdm/GiveConsole
	       DisplayManager._0.reset:       /usr/lib/X11/xdm/TakeConsole
	       DisplayManager*resources:      /usr/lib/X11/xdm/Xresources
	       DisplayManager*session:	      /usr/lib/X11/xdm/Xsession
	       DisplayManager*authComplain:   false

       Note  that this file mostly contains references to other files.	Note also that some of the resources are specified with "*" separating the
       components.  These resources can be made unique for each different display, by replacing the "*" with the display-name, but  normally  this
       is not very useful.  See the RESOURCES section for a complete discussion.

XDMCP ACCESS CONTROL
       The  database file specified by the DisplayManager.accessFile provides information that xdm uses to control access from displays requesting
       XDMCP service.  This file contains three types of entries:  entries which control the response to Direct  and  Broadcast  queries,  entries
       which control the response to Indirect queries, and macro definitions.

       The  format  of	the Direct entries is simple, either a host name or a pattern, which is distinguished from a host name by the inclusion of
       one or more meta characters (`*' matches any sequence of 0 or more characters, and `?' matches any single  character)  which  are  compared
       against	the  host  name  of the display device. If the entry is a host name, all comparisons are done using network addresses, so any name
       which converts to the correct network address may be used. For patterns, only canonical host names are used in the  comparison,	so  ensure
       that  you  do  not  attempt  to match aliases. Preceding either a host name or a pattern with a `!' character causes hosts which match that
       entry to be excluded.

       An Indirect entry also contains a host name or pattern, but follows it with a list of host names or macros to which indirect queries should
       be sent.

       A  macro  definition contains a macro name and a list of host names and other macros that the macro expands to.	To distinguish macros from
       hostnames, macro names start with a `%' character.  Macros can be nested.

       Indirect entries can also specify to have xdm run chooser to offer a menu of hosts to connect to.  See the section CHOOSER.

       When xdm checks the access for a particular display host, each entry is scanned in  turn  and  the  first  matching  entry  determines  the
       response. Direct and Broadcast entries are ignored when scanning for an Indirect entry and vice-versa.

       Blank  lines are ignored, `#' is treated as a comment delimiter causing the rest of that line to be ignored, and `
ewline' causes the new-
       line to be ignored, allowing indirect host lists to span multiple lines.

       Here is an example Xaccess file:

       # # Xaccess - XDMCP access control file #

       # # Direct/Broadcast query entries #

       !xtra.lcs.mit.edu   #  disallow	direct/broadcast  service  for	xtra  bambi.ogi.edu  #	allow  access	from   this   particular   display
       *.lcs.mit.edu  # allow access from any display in LCS

       # # Indirect query entries #

       %HOSTS	 expo.lcs.mit.edu xenon.lcs.mit.edu 	   excess.lcs.mit.edu kanga.lcs.mit.edu

       extract.lcs.mit.edu xenon.lcs.mit.edu   #force	extract   to   contact	 xenon	 !xtra.lcs.mit.edu   dummy     #disallow  indirect  access
       *.lcs.mit.edu  %HOSTS	#all others get to choose

CHOOSER
       For X terminals that do not offer a host menu for use with Broadcast or Indirect queries, the chooser program can do this for them. In  the
       Xaccess	file,  specify "CHOOSER" as the first entry in the Indirect host list.	Chooser will send a Query request to each of the remaining
       host names in the list and offer a menu of all the hosts that respond.

       The list may consist of the word "BROADCAST," in which case chooser will send a Broadcast instead, again offering a menu of all hosts  that
       respond.  Note that on some operating systems, UDP packets cannot be broadcast, so this feature will not work.

       Example Xaccess file using chooser:

       extract.lcs.mit.edu CHOOSER %HOSTS #offer a menu of these hosts xtra.lcs.mit.edu    CHOOSER BROADCAST   #offer a menu of all hosts

       The program to use for chooser is specified by the DisplayManager.DISPLAY.chooser resource.  For more flexibility at this step, the chooser
       could be a shell script.  Chooser is the session manager here; it is run instead of a child xdm to manage the display.

       Resources for this program can be put into the file named by DisplayManager.DISPLAY.resources.

       When the user selects a host, chooser prints the host chosen, which is read by the parent xdm, and exits.  xdm closes its connection to the
       X  server, and the server resets and sends another Indirect XDMCP request.  xdm remembers the user's choice (for DisplayManager.choiceTime-
       out seconds) and forwards the request to the chosen host, which starts a session on that display.

SERVER SPECIFICATION
       The resource DisplayManager.servers gives a server specification or, if the values starts with a slash (/), the name of a  file	containing
       server specifications, one per line.

       Each  specification  indicates a display which should constantly be managed and which is not using XDMCP. This method is used typically for
       local servers only.  If the resource or the file named by the resource is empty, xdm will offer XDMCP service only.

       Each specification consists of at least three parts:  a display name, a display class, a display type, and (for local  servers)	a  command
       line to start the server.  A typical entry for local display number 0 would be:

	 :0 local /usr/bin/X11/X

       The display types are:

       local	      local display: xdm must run the server foreign	    remote display: xdm opens an X connection to a running server

       The display name must be something that can be passed in the -display option to an X program.  This string is used to generate the display-
       specific resource names, so be careful to match the names (for example, use  ":0 Sun-CG3 local /usr/X11R6/bin/X :0" instead of "localhost:0
       Sun-CG3	local  /usr/X11R6/bin/X  :0"  if your other resources are specified as "DisplayManager._0.session").  The display class portion is
       also used in the display-specific resources, as the class of the resource.  This feature is useful if you have a large collection of  simi-
       lar  displays  (such  as  a  corral  of	X terminals) and would like to set resources for groups of them.  When using XDMCP, the display is
       required to specify the display class.  The manual for your particular X terminal should document the display class string for your device.
       If  it does not, you can run xdm in debug mode and look at the resource strings that it generates for that device.  One of these strings is
       the class string.

       To use the Shared Memory Transport as the default transport for communication between the X server and local  clients,  specify	the  local
       display as local:0, in which case the entry in the Xservers file might read as follows:

       local:0 local /usr/bin/X11/X

       When  xdm  starts a session, it sets up authorization data for the server.  For local servers, xdm passes "-auth filename'' on the server's
       command line to point it at its authorization data. For XDMCP servers, xdm passes the authorization data to the server via the Accept XDMCP
       request.

ATHENA-STYLE AUTHENTICATION WIDGET
       This  login  widget  is	used  when  the  greeter  library,  /usr/lib/X11/xdm/libXdmGreet.so,  is specified as the value of the DisplayMan-
       ager.greeterLib resource.

       Note that you cannot use the Athena-style greeter if you have enabled enhanced security on your system.	The Athena-style greeter does  not
       use the necessary security mechanisms.  See secsetup(8).

       The  authentication  widget  reads  a  name/password  pair  from  the keyboard.	Nearly every imaginable parameter can be controlled with a
       resource. Resources for this widget should be put into the file named by DisplayManager.DISPLAY.resources.  All	of  these  resources  have
       reasonable  default values, so it is not necessary to specify any of them.  The geometry of the Login widget is normally computed automati-
       cally.  If you wish to position it elsewhere, specify each of these resources.  The color used to display the typed-in user name.  The font
       used  to display the typed-in user name.  A string that identifies this window.	The default is "X Window System".  When X authorization is
       requested in the configuration file for this display and none is in use, this greeting replaces the  standard  greeting.   The  default	is
       "This  is  an  unsecure session".  The font used to display the greeting.  The color used to display the greeting.  The string displayed to
       prompt for a user name.	The xrdb utility strips trailing white space from resource values.  To add spaces at the end of the prompt to make
       it  more  readable,  add  spaces  escaped with backslashes. The default is "Login:  ".  The string displayed to prompt for a password.  The
       default is "Password:  ".  The font used to display both prompts.  The color used to display both prompts.  A  message  that  is  displayed
       when the authentication fails.  The default is "Login incorrect".  The font used to display the failure message.  The color used to display
       the failure message.  The number of seconds that the failure message is displayed.  The default is 30.  This resource specifies the  trans-
       lations	used for the login widget. Refer to the X Toolkit documentation for a complete discussion of translations. The default translation
       table is:

		      Ctrl<Key>H:    delete-previous-character() 

		      Ctrl<Key>D:    delete-character() 

		      Ctrl<Key>B:    move-backward-character() 

		      Ctrl<Key>F:    move-forward-character() 

		      Ctrl<Key>A:    move-to-begining() 

		      Ctrl<Key>E:    move-to-end() 

		      Ctrl<Key>K:    erase-to-end-of-line() 

		      Ctrl<Key>U:    erase-line() 

		      Ctrl<Key>X:    erase-line() 

		      Ctrl<Key>C:    restart-session() 

		      Ctrl<Key>:   abort-session() 

		      <Key>BackSpace:delete-previous-character() 

		      <Key>Delete:   delete-previous-character() 

		      <Key>Return:   finish-field() 

		      <Key>:	     insert-char() 

       The actions which are supported by the widget are: Erases the character before the cursor.  Erases the character after the  cursor.   Moves
       the  cursor  backward.  Moves the cursor forward.  (Apologies about the spelling error.)  Moves the cursor to the beginning of the editable
       text.  Moves the cursor to the end of the editable text.  Erases all text after the cursor.  Erases the entire text.  If the cursor  is	in
       the  name  field,  proceeds  to the password field.  If the cursor is in the password field, checks the current name/password pair.  If the
       name/password pair is valid, xdm starts the session. Otherwise, the failure message is displayed and the user is  prompted  again.   Termi-
       nates and restarts the server.  Terminates the server, disabling it.  This is a rash action and is not accessible in the default configura-
       tion.   It can be used to stop xdm when you are shutting the system down or using xdmshell.  Resets the X server and starts a new  session.
       This  action can be used when the resources have been changed and you want to test them or when the screen has been overwritten with system
       messages.  Inserts the character typed.	Specifies a single word argument that is passed to the session at startup.  See the sections  SES-
       SION  PROGRAM  and  TYPICAL USAGE.  Disables access control in the server.  This action can be used when the file cannot be created by xdm.
       Use this action with caution; you should probably disconnect the machine from the network before using this action.

MOTIF AUTHENTICATION WIDGET
       This login widget is used when the greeter library, /usr/lib/X11/xdm/libXdmDecGreet.so, is  specified  as  the  value  of  the  DisplayMan-
       ager.greeterLib resource.

       The  authentication  widget  reads a name/password pair from the keyboard.  Many parameters can be controlled with resources. Resources for
       this widget should be put into the file named by DisplayManager.DISPLAY.resources. All these resources have reasonable default  values,	so
       it  is not necessary to specify any of them.  The coordinates in pixels of the upper left corner of the logo displayed on the login screen.
       A value of -1 for LogoX or LogoY causes an appropriate default to be calculated.  The foreground color of the logo displayed across the top
       of  the login screen.  The default color is rgb:8182/0604/2c28.	The logo background color.  The default is White.  The foreground color of
       the logo on monochrome systems.	The default is Black.  The logo background color on monochrome systems.  The default is White.	If set	to
       True,  the  root window will be painted the specified solid color and, when the login widget is destroyed, the root window will be restored
       to its default pattern.	The default value is True.  The root window color in the login screen.	The default value  is  rgb:3030/5050/6060.
       The  name of the file containing a bitmap in X bitmap format that is displayed in place of the default logo.  The name of the file contain-
       ing the shape mask bitmap to use when displaying the logo.  The color of the text displayed in a message box on a failed login.	The greet-
       ing  text  displayed  as  a  title  in  the login box.  The default value is "Tru64 UNIX on CLIENTHOST".  'CLIENTHOST' is a macro that xrdb
       replaces with the name of the xdm host.	The greeting text displayed as a secondary (smaller) title in the login box.  The default value is
       "formerly DEC OSF/1".  'DEC' must be escaped or else the xrdb cpp will treat it as a macro.  The color of the greeting text in the login
       box.  The default is Black.  The color of the text of the prompt strings in the login box.   The  default  is  Black.   The  color  of  the
       response text in the login box.	The default is Black.  The font used to display the greeting text in the login box.  The default is '*-new
       century schoolbook-bold-i-normal-*-240-*'.  The font used to display the strings in the login box.  The default is '*-new  century  school-
       book-medium-r-normal-*-180-*'.	The  font  used  to display the response text in the login box.  The default is '*-new century schoolbook-
       medium-r-normal-*-180-*'.

SETUP PROGRAM
       The program named in the DisplayManager.DISPLAY.setup resource is run after the server is reset, but before the Login  window  is  offered.
       The  file  is  typically  a  shell script. It is run as root, so you should be careful about security. This is the place to change the root
       background or bring up other windows that should appear on the screen along with the Login widget.

       In addition to any specified by DisplayManager.exportList, the following environment variables are  passed:  Sets  the  associated  display
       name.   Sets  the  value  of  DisplayManager.DISPLAY.systemPath.   Sets	the value of DisplayManager.DISPLAY.systemShell.  May be set to an
       authority file.

       Note that since xdm grabs the keyboard, any other windows will not be able to receive keyboard input.  However, they will be able to inter-
       act  with the mouse, so check for potential security holes here.  If DisplayManager.DISPLAY.grabServer is set, Xsetup_0 will not be able to
       connect to the display at all. Resources for this program can be put into the file named by DisplayManager.DISPLAY.resources.

RESOURCES FILE
       The Xresources file is loaded onto the display as a resource database using xrdb. As the authentication widget reads this  database  before
       starting up, it usually contains parameters for that widget:

       xlogin*login.translations: #override Ctrl<Key>R: abort-display()
 <Key>F1: set-session-argument(failsafe) finish-field()
 <Key>Return:
       set-session-argument() finish-field() xlogin*borderWidth: 3 xlogin*greeting: CLIENTHOST	#ifdef	COLOR  xlogin*greetColor:  CadetBlue  xlo-
       gin*failColor: red #endif

       Please note the translations entry; it specifies a few new translations for the widget which allow users to escape from the default session
       (and avoid troubles that may occur in it).  Note that if #override is not specified, the default translations are removed and  replaced	by
       the  new  value,  not  a  very  useful  result  as some of the default translations are quite useful (such as "<Key>: insert-char ()" which
       responds to normal typing).

       This file may also contain resources for the setup program and chooser.

STARTUP PROGRAM
       The program specified by the DisplayManager.DISPLAY.startup resource is typically shell script. It is run as root and needs to  be  careful
       about  security.   This	is  the place to put commands that add entries to /etc/utmp (the sessreg program may be useful here), mount users'
       home directories from file servers, display the message of the day, or abort the session if logins are not allowed.

       In addition to any specified by DisplayManager.exportList, the following environment variables are  passed:  Sets  the  associated  display
       name.  Sets the initial working directory of the user.  Sets The user name.  Sets the value of DisplayManager.DISPLAY.systemPath.  Sets the
       value of DisplayManager.DISPLAY.systemShell.  May be set to an authority file.

       No arguments are passed to the script.  xdm waits until this script exits before starting the user session.  If	the  exit  value  of  this
       script is non-zero, xdm discontinues the session and starts another authentication cycle.

       The  sample  Xstartup  file shown here prevents login while the file /etc/nologin exists. Thus this is not a complete example, but simply a
       demonstration of the available functionality.

       Here is a sample Xstartup script:

	    #!/bin/sh	   #	  # Xstartup	  #	 # This program is run as root after the user is verified      #      if [ -f /etc/nologin
       ];  then 	   xmessage-file  /etc/nologin		  exit	1	fi	 sessreg-a-l  $DISPLAY-x /usr/X11R6/lib/xdm/Xservers $USER
	    /usr/X11R6/lib/xdm/GiveConsole	exit 0

SESSION PROGRAM
       The Xsession program (specified by the DisplayManager.DISPLAY.session resource) is the command that is run as the user's session. It is run
       with the permissions of the authorized user.

       In  addition  to  any  specified  by DisplayManager.exportList, the following environment variables are passed: Sets the associated display
       name.  Sets the initial working directory of the user.  Sets the user name.  PATH sets the value of DisplayManager.DISPLAY.userPath.   Sets
       the user's default shell (from getpwnam).  XAUTHORITY may be set to a non-standard authority file. KRB5CCNAME may be set to a Kerberos cre-
       dentials cache file.

       At most installations, Xsession should look in $HOME for a file which contains commands that each user would like  to  use  as  a  session.
       Xsession should also implement a system default session if no user-specified session exists. See the section Typical Usage.

       An  argument  may  be  passed  to this program from the authentication widget using the `set-session-argument' action.  This can be used to
       select different styles of session.  One good use of this feature is to allow the user to escape from the ordinary session when	it  fails.
       This  allows  users to repair their own if it fails, without requiring administrative intervention. The example following demonstrates this
       feature.

       This example recognizes the special "failsafe" mode, specified in the translations in the Xresources file, to provide an  escape  from  the
       ordinary session.  It also requires that the file be executable so we do not have to guess what shell it wants to use.

	    #!/bin/sh	   #	  # Xsession	  #	 # This is the program that is run as the client      # for the display manager.

	    case  $#  in       1)	     case  $1  in	     failsafe)		       exec  xterm  -geometry  80x24-0-0		;;
		 esac	   esac

	    startup=$HOME/.xsession	 resources=$HOME/.Xresources

	    if [ -f "$startup" ]; then		 exec "$startup"      else	     if  [  -f	"$resources"  ];  then		       xrdb  -load
       "$resources"	      fi	   twm &	   xman -geometry +10-10 &	     exec xterm -geometry 80x24+10+10 -ls      fi

       The user's file might look something like this example.	Do not forget that the file must have execute permission.

	    #!	/bin/csh       #  no  -f  in  the  previous  line  so .cshrc gets run to set $PATH	twm &	   xrdb -merge "$HOME/.Xresources"
	    emacs -geometry +0+50 &	 xbiff -geometry -430+5 &      xterm -geometry -0+50 -ls

RESET PROGRAM
       Symmetrical with the startup program, the program specified by the DisplayManager.DISPLAY.startup resource is run after	the  user  session
       has  terminated.  Run as root, it should contain commands that undo the effects of commands in Xstartup, removing entries from /etc/utmp or
       unmounting directories from file servers.  The environment variables that were passed to the startup program are also passed to the program
       specified by the DisplayManager.DISPLAY.startup resource.

       A sample Xreset script:

	    #!/bin/sh	    #	    #  Xreset	    #	   # This program is run as root after the session ends      #	    sessreg-d-l $DISPLAY-x
       /usr/X11R6/lib/xdm/Xservers $USER      /usr/X11R6/lib/xdm/TakeConsole	  exit 0

CONTROLLING THE SERVER
       xdm controls local servers using POSIX signals.	SIGHUP is expected to reset the server, closing  all  client  connections  and	performing
       other  cleanup  duties.	 SIGTERM is expected to terminate the server.  If these signals do not perform the expected actions, the resources
       DisplayManager.DISPLAY.resetSignal and DisplayManager.DISPLAY.termSignal can specify alternate signals.

       To control remote terminals not using XDMCP, xdm searches the window hierarchy on the display and uses the protocol request  KillClient	in
       an  attempt to clean up the terminal for the next session.  This may not actually kill all of the clients, as only those which have created
       windows will be noticed.  XDMCP provides a more sure mechanism; when xdm closes its initial connection, the session is over and the  termi-
       nal is required to close all other connections.

CONTROLLING XDM
       xdm  responds to two signals: SIGHUP and SIGTERM.  When sent a SIGHUP, xdm rereads the configuration file, the access control file, and the
       servers file.  For the servers file, it notices if entries have been added or removed.  If a new entry has been added, xdm starts a session
       on  the	associated display.  Entries which have been removed are disabled immediately, meaning that any session in progress will be termi-
       nated without notice and no new session will be started.

       When sent a SIGTERM, xdm terminates all sessions in progress and exits.	This can be used when shutting down the system.

       xdm attempts to mark its various sub-processes for ps(1) by editing the command line argument list in place.  Because xdm  cannot  allocate
       additional  space for this task, it is useful to start xdm with a reasonably long command line (using the full path name should be enough).
       Each process which is servicing a display is marked -display.

OTHER POSSIBILITIES
       You can use xdm to run a single session at a time, using the 4.3 init options or other suitable daemon by specifying the server on the com-
       mand line: xdm -server ":0 SUN-3/60CG4 local /usr/X11R6/bin/X :0"

       Suppose	you  might  have a file server and a collection of X terminals.  The configuration for this is identical to the preceding example,
       except the Xservers file would be as follows:

       extol:0 VISUAL-19 foreign exalt:0 NCD-19 foreign explode:0 NCR-TOWERVIEW3000 foreign

       This directs xdm to manage sessions on all three of these terminals.  See the section CONTROLLING XDM for a description of using signals to
       enable and disable these terminals in a manner similar to init(8).

LIMITATIONS
       The xdm program does not coexist well with other window systems.

FILES
       Default	configuration  file Default access file, listing authorized displays Default server file, listing non-XDMCP servers to manage User
       authorization file where xdm stores keys for clients to read Default chooser Motif loadable greeter Athena-style loadable  greeter  Default
       resource  database loader Default server Default session program and failsafe client Default location for authorization files Kerberos cre-
       dentials cache

									  Note

       <XRoot> refers to the root of the X11 install tree.

SEE ALSO
       X(1X), xauth(1X), XSecurity(1X), Xdec(1X), X Display Manager Control Protocol

AUTHOR
       Keith Packard, MIT X Consortium

																	   xdm(1X)