The X Window System (commonly X11) is the most widely available windowing system capable of running on UNIX® or UNIX like systems, including FreeBSD. The X.Org Foundation administers the X protocol standards, with the current reference implementation, version 11 release 7.5.2, so you will often see references shortened to X11.
Many implementations are available for different architectures and operating systems. An implementation of the server-side code is properly known as an X server.
To install Xorg do one of the following:
Use the x11/xorg meta-port, which builds and installs every Xorg component.
Use x11/xorg-minimal, which builds and installs only the necessary Xorg components.
Install Xorg from FreeBSD packages:
# pkg_add -r xorg
or on systems using pkg:
# pkg install xorg
After the installation of Xorg, follow the instructions from the X11 Configuration section of the FreeBSD Handbook.
10.3. I tried to run X, but I get a “No devices detected.” error when I type startx. What do I do now?
Your system is probably running at a raised securelevel. It is not possible to start X at a raised securelevel because X requires write access to io(4). For more information, see at the init(8) manual page.
There are two solutions to the problem: Set your securelevel back down to zero (usually in /etc/rc.conf), or run xdm(1) (or an alternative display manager) at boot time (before the securelevel is raised).
See Q: 10.10. for more information about running xdm(1) at boot time.
If you are using syscons(4) (the default console driver), you can configure FreeBSD to support a mouse pointer on each virtual screen. To avoid conflicting with X, syscons(4) supports a virtual device called /dev/sysmouse. All mouse events received from the real mouse device are written to the sysmouse(4) device via moused(8). To use your mouse on one or more virtual consoles, and use X, see Q: 4.4.1. and set up moused(8).
Then edit /etc/X11/xorg.conf and make sure you have the following lines:
Section "InputDevice" Option "Protocol" "SysMouse" Option "Device" "/dev/sysmouse" .....
Starting with Xorg version 7.4, the InputDevice sections in xorg.conf are ignored in favor of autodetected devices. To restore the old behavior, add the following line to the ServerLayout or ServerFlags section:
Option "AutoAddDevices" "false"
Some people prefer to use /dev/mouse under X. To make this work, /dev/mouse should be linked to /dev/sysmouse (see sysmouse(4)) by adding the following line to /etc/devfs.conf (see devfs.conf(5)):
link sysmouse mouse
This link can be created by restarting devfs(5) with the following command (as root):
# service devfs restart
Yes.
You need to tell X that you have a 5 button mouse. To do this, simply add the lines Buttons 5 and ZAxisMapping 4 5 to the “InputDevice” section of /etc/X11/xorg.conf. For example, you might have the following “InputDevice” section in /etc/X11/xorg.conf.
Yes, you will have to configure a few things to make it work.
If you plan to use the Xorg synaptics driver you must remove moused_enable from rc.conf. Xorg can not use the synaptics mouse if the moused already sits on /dev/psm0.
To enable synaptics in the psm(4) driver you need to add the following into /boot/loader.conf:
hw.psm.synaptics_support="1"
You also need the following into xorg.conf:
Section "InputDevice" Identifier "Touchpad0" Driver "synaptics" Option "Protocol" "psm" Option "Device" "/dev/psm0" EndSection
And be sure to add the following into the “ServerLayout” section:
InputDevice "Touchpad0" "SendCoreEvents"
For security reasons, the default setting is to not allow a machine to remotely open a window.
To enable this feature, simply start X with the
optional -listen_tcp
argument:
% startx -listen_tcp
Virtual consoles, put simply, enable you to have several simultaneous sessions on the same machine without doing anything complicated like setting up a network or running X.
When the system starts, it will display a login prompt on the monitor after displaying all the boot messages. You can then type in your login name and password and start working (or playing!) on the first virtual console.
At some point, you will probably wish to start another session, perhaps to look at documentation for a program you are running or to read your mail while waiting for an FTP transfer to finish. Just do Alt+F2 (hold down Alt and press F2), and you will find a login prompt waiting for you on the second “virtual console”! When you want to go back to the original session, do Alt+F1.
The default FreeBSD installation has eight virtual consoles enabled. Alt+F1, Alt+F2, Alt+F3, and so on will switch between these virtual consoles.
To enable more of them, edit /etc/ttys (see ttys(5)) and add entries for ttyv8 to ttyvc after the comment on “Virtual terminals”:
# Edit the existing entry for ttyv8 in /etc/ttys and change # "off" to "on". ttyv8 "/usr/libexec/getty Pc" cons25 on secure ttyv9 "/usr/libexec/getty Pc" cons25 on secure ttyva "/usr/libexec/getty Pc" cons25 on secure ttyvb "/usr/libexec/getty Pc" cons25 on secure
Use as many or as few as you want. The more virtual terminals you have, the more resources that are used; this can be important if you have 8 MB RAM or less. You may also want to change the secure to insecure.
Important: If you want to run an X server you must leave at least one virtual terminal unused (or turned off) for it to use. That is to say that if you want to have a login prompt pop up for all twelve of your Alt-function keys, you are out of luck — you can only do this for eleven of them if you also want to run an X server on the same machine.
The easiest way to disable a console is by turning it off. For example, if you had the full 12 terminal allocation mentioned above and you wanted to run X, you would change settings for virtual terminal 12 from:
ttyvb "/usr/libexec/getty Pc" cons25 on secure
to:
ttyvb "/usr/libexec/getty Pc" cons25 off secure
If your keyboard has only ten function keys, you would end up with:
ttyv9 "/usr/libexec/getty Pc" cons25 off secure ttyva "/usr/libexec/getty Pc" cons25 off secure ttyvb "/usr/libexec/getty Pc" cons25 off secure
(You could also just delete these lines.)
Next, the easiest (and cleanest) way to activate the virtual consoles is to reboot. However, if you really do not want to reboot, you can just shut down the X Window system and execute (as root):
# kill -HUP 1
It is imperative that you completely shut down X Window if it is running, before running this command. If you do not, your system will probably appear to hang or lock up after executing kill.
Use Ctrl+Alt+Fn to switch back to a virtual console. Ctrl+Alt+F1 would return you to the first virtual console.
Once you are back to a text console, you can then use Alt+Fn as normal to move between them.
To return to the X session, you must switch to the virtual console running X. If you invoked X from the command line, (e.g., using startx) then the X session will attach to the next unused virtual console, not the text console from which it was invoked. If you have eight active virtual terminals then X will be running on the ninth, and you would use Alt+F9 to return.
There are two schools of thought on how to start xdm(1). One school starts xdm from /etc/ttys (see ttys(5)) using the supplied example, while the other simply runs xdm from rc.local (see rc(8)) or from an X script in /usr/local/etc/rc.d. Both are equally valid, and one may work in situations where the other does not. In both cases the result is the same: X will pop up a graphical login prompt.
The ttys(5) method has the advantage of documenting which vty X will start on and passing the responsibility of restarting the X server on logout to init(8). The rc(8) method makes it easy to kill xdm if there is a problem starting the X server.
If loaded from rc(8), xdm should be started without any arguments (i.e., as a daemon). xdm must start after getty(8) runs, or else getty and xdm will conflict, locking out the console. The best way around this is to have the script sleep 10 seconds or so then launch xdm.
If you are to start xdm from /etc/ttys, there still is a chance of conflict between xdm and getty(8). One way to avoid this is to add the vt number in /usr/local/lib/X11/xdm/Xservers
:0 local /usr/local/bin/X vt4
The above example will direct the X server to run in /dev/ttyv3. Note the number is offset by one. The X server counts the vty from one, whereas the FreeBSD kernel numbers the vty from zero.
If you start X with startx, the permissions on /dev/console will not get changed, resulting in things like xterm -C and xconsole not working.
This is because of the way console permissions are set by default. On a multi-user system, one does not necessarily want just any user to be able to write on the system console. For users who are logging directly onto a machine with a VTY, the fbtab(5) file exists to solve such problems.
In a nutshell, make sure an uncommented line of the form is in /etc/fbtab (see fbtab(5)):
/dev/ttyv0 0600 /dev/console
It will ensure that whomever logs in on /dev/ttyv0 will own the console.
Your mouse and the mouse driver may have somewhat become out of synchronization.
In rare cases the driver may erroneously report synchronization problem and you may see the kernel message:
psmintr: out of sync (xxxx != yyyy)
and notice that your mouse does not work properly.
If this happens, disable the synchronization check code by setting the driver
flags for the PS/2 mouse driver to 0x100. Enter
UserConfig by giving the
-c
option at the boot prompt:
boot: -c
Then, in the UserConfig command line, type:
UserConfig> flags psm0 0x100 UserConfig> quit
Run the command xmodmap -e "pointer = 3 2 1" from .xinitrc or .xsession.
The detailed answer for this question can be found in the Boot Time Splash Screens section of the FreeBSD Handbook.
Yes. All you need to do is use xmodmap(1) to define what function you wish them to perform.
Assuming all “Windows” keyboards are standard then the keycodes for these three keys are the following:
115 — Windows key, between the left-hand Ctrl and Alt keys
116 — Windows key, to the right of AltGr
117 — Menu, to the left of the right-hand Ctrl
To have the left Windows key print a comma, try this.
# xmodmap -e "keycode 115 = comma"
To have the Windows key-mappings enabled automatically every time you start X either put the xmodmap commands in ~/.xinitrc or, preferably, create a ~/.xmodmaprc and include the xmodmap options, one per line, then add the following line to ~/.xinitrc:
xmodmap $HOME/.xmodmaprc
For example, you could map the 3 keys to be F13, F14, and F15, respectively. This would make it easy to map them to useful functions within applications or your window manager, as demonstrated further down.
To do this put the following in ~/.xmodmaprc.
keycode 115 = F13 keycode 116 = F14 keycode 117 = F15
If you use the x11-wm/fvwm2 port, for example, you could map the keys so that F13 iconifies (or de-iconifies) the window the cursor is in, F14 brings the window the cursor is in to the front or, if it is already at the front, pushes it to the back, and F15 pops up the main Workplace (application) menu even if the cursor is not on the desktop, which is useful if you do not have any part of the desktop visible (and the logo on the key matches its functionality).
The following entries in ~/.fvwmrc implement the aforementioned setup:
Key F13 FTIWS A Iconify Key F14 FTIWS A RaiseLower Key F15 A A Menu Workplace Nop
The availability of 3D acceleration depends on the version of Xorg that you are using and the type of video chip you have. If you have an nVidia chip, you can use the binary drivers provided for FreeBSD by installing one of the following ports:
The latest versions of nVidia cards are supported by the x11/nvidia-driver port.
nVidia cards like the GeForce2 MX/3/4 series are supported by the 96XX series of drivers, available in the x11/nvidia-driver-96xx port.
Even older cards, like GeForce and RIVA TNT are supported by the 71XX series of drivers, available in the x11/nvidia-driver-71xx port.
nVidia provides detailed information on which card is supported by which driver on their web site: http://www.nvidia.com/object/IO_32667.html.
For Matrox G200/G400, check the x11-servers/mga_hal port.
For ATI Rage 128 and Radeon see ati(4), r128(4) and radeon(4).