Thanks,
Rick Niles.
-----------
The Multi-Head Mini-HOWTO
Rick Niles, Frederick.A.Niles@gsfc.nasa.gov
v0.02, April 17, 1999
This document attempts to answer basic questions on how to connect
your Linux box to multiple monitors.
______________________________________________________________________
Table of Contents
1. Introduction
1.1 New Versions of this Document
1.2 Feedback
1.3 Contributors
1.4 Standard Disclaimer
1.5 Copyright Information
2. What hardware is supported?
2.1 Commercial support
3. Getting all the stuff.
4. Getting Started
4.1 Move a console over...
4.2 Use "fbset" to adjust the setting on this second monitor
4.3 Set up X for Frame Buffer support.
4.4 Try starting the X server on the second monitor.
5. Summary
6. Other Notes and Problems
7. Related documents
Appendix A. Octave cvtmode.m script
Appendix B. Borne Shell script "cvtfile"
______________________________________________________________________
1. Introduction
The main goal of this document is to get you started with running a
dual head configuration of Linux. While this process is pretty
straight forward there are numerous things that one can do wrong
along the way.
The example I concentrate on is getting an X-server running on a
second monitor. I find this nice as you can usually find old large
19" to 21" fixed frequency monitors around that people are giving
away because they can't use them. This way you can boot off a small
multisync and then use X on a nice big monitor.
Please understand dual head support is currently developing so this
information changes rapidly. Anything in this document could be out
of date or just plain incorrect by the time you are reading this.
1.1 New Versions of this Document
New versions of this document will be periodically posted to
comp.os.linux.answers. They will also be added to the various
anonymous FTP sites who archive such information. In addition, you
should generally be able to find this document on the Linux
Documentation Project page via:
http://metalab.unc.edu/pub/Linux/docs/LDP/
1.2. Feedback
Feedback is most certainly welcome for this document. Without your
submissions and input, this document wouldn't exist. So, please post
your additions, comments and criticisms to:
Frederick.A.Niles@gsfc.nasa.gov.
1.3. Contributors
The following people have contributed to this mini-HOWTO.
* Petr Vandrovec <vandrove@vc.cvut.cz>
1.4. Standard Disclaimer
No liability for the contents of this document can be accepted. Use
the concepts, examples and other content at your own risk. As this
is a new edition of this document, there may be errors and
inaccuracies that could be damaging to your system. Proceed with
caution, and although this is highly unlikely, I don't take any
responsibility for that.
1.5. Copyright Information
This document is copyrighted (c)1999 Frederick Niles and distributed
under the following terms:
* Linux HOWTO documents may be reproduced and distributed in whole or
in part, in any medium physical or electronic, as long as this
copyright notice is retained on all copies. Commercial
redistribution is allowed and encouraged; however, the author would
like to be notified of any such distributions.
* All translations, derivative works, or aggregate works
incorporating any Linux HOWTO documents must be covered under this
copyright notice. That is, you may not produce a derivative work
from a HOWTO and impose additional restrictions on its
distribution. Exceptions to these rules may be granted under
certain conditions; please contact the Linux HOWTO coordinator at
the address given below.
* If you have questions, please contact, the Linux HOWTO coordinator,
at
linux-howto@sunsite.unc.edu
______________________________________________________________________
2. What hardware is supported?
Most video cards assume they will be the only one in the system and are
permanently set with the addressing of the primary display adapter. There
are a few exceptions.
* Matrox cards: This includes Matrox Millennium, Matrox Millennium II,
Matrox Mystique, Matrox Mystique 220, Matrox Productiva G100, Matrox
Mystique G200, Matrox Millennium G200 and Matrox Marvel G200
video cards
* MDA: This includes monochrome Hercules graphics adapter among others.
This for text only second head support.
2.1 Commercial support
This mini-HOWTO in primarily concerned with free software. However,
there are commercial X servers with multi-head support. These
include Metro Link's (www.metrolink.com) Metro-X and Xi Graphics'
(www.xig.com) Accelerated-X.
______________________________________________________________________
3. Getting all the stuff.
You'll need the following patches and programs:
* "fbset" program
try: http://www.cs.kuleuven.ac.be/~geert/bin/
* "fbaddon" Matrox dual head patches for Linux kernel
try: ftp://platan.vc.cvut.cz/pub/linux/matrox-latest/
* "con2fb" program
try: ftp://platan.vc.cvut.cz/pub/linux/matrox-latest/
* The X11 frame buffer server XF86_FBDev. This is a standard
part of XFree86 3.3.1.
______________________________________________________________________
4. Getting Started
The first thing you'll need to do is to patch a copy of the Linux
source with the "fbaddon" patch. Then you need to configure the
kernel and turn on frame buffer support. If you have Matrox cards
turn on Matrox unified accelerated driver support as well as the
particular type of card you have. Don't turn on VESA frame buffer
support. It can cause a conflict. Do turn on multi-head support
(obviously). Build the kernel and reboot.
Now you need to install the "fbset" program and carefully read all
the documentation on how to adjust the settings. Using a
"/etc/fb.modes" file is highly recommended once you've decided on
your settings. The fbset program includes a Perl script to convert
your XF86Config file to fb.modes settings. I've included my
octave/Borne shell script to convert your XF86Config file in
Appendix A & B.
You need to get comfortable with using the frame buffer device on
one monitor, understanding any issues that can arise from your set
up that have nothing to do with multi-head support. This can save
a lot of head scratching later.
I'm going to concentrate my explanation on getting X running on the
second monitor as doing most other configurations will just be a
obvious subset of the procedure.
4.1 Move a console over...
Compile the "con2fb" program. If you run it without any arguments
you'll get the following usage message:
"usage: con2fb fbdev console".
Thus, an example command would be "con2fb /dev/fb1 /dev/tty6" to
move virtual console number six over to the second monitor. Use
Ctrl-Alt-F6 to move over to that console and see that it does indeed
show up on the second monitor.
4.2 Use "fbset" to adjust the setting on this second monitor
Only set the "fbset" settings on the monitor you run the "fbset"
command on. Therefore, you must be careful to use the "-fb" flag on
the second monitor. In particular, if you do nothing else you'll
probably want to at least set the virtual vertical resolution to
your actually vertical resolution.
e.g. "fbset -fb /dev/fb1 -vyres 600"
This will seriously slow down text mode, but X will be obnoxious
without it.
4.3 Set up X for Frame Buffer support.
The framebuffer.txt file explains this better than I can, but here's
the two important points.
Make sure you set the link for "X" to point to "XF86_FBDev".
Next you need to add a monitor section to your XF86Config file
for the frame buffer device. Here's an example:
# The Frame Buffer server
Section "Screen"
Driver "fbdev"
Device "Millennium"
Monitor "NEC MultiSync 5FGp"
Subsection "Display"
Depth 8
Modes "default"
ViewPort 0 0
EndSubsection
Subsection "Display"
Depth 16
Modes "default"
ViewPort 0 0
EndSubsection
Subsection "Display"
Depth 24
Modes "default"
ViewPort 0 0
EndSubsection
Subsection "Display"
Depth 32
Modes "default"
ViewPort 0 0
EndSubsection
EndSection
Use the "default" modes as I don't think any other one will work with
the Matrox frame buffer.
4.4 Try starting the X server on the second monitor.
Set the variable FRAMEBUFFER to the second frame buffer.
"export FRAMEBUFFER=/dev/fb1"
or
"setenv FRAMEBUFFER /dev/fb1"
You need to start the X server so that it both matches the selected
color depth and it appears on the same monitor you start the X server
from.
e.g. "startx -- -bpp 16 vt06"
This example will start the X server on virtual console six with 16
bit color.
______________________________________________________________________
5. Summary
The steps involved in getting an X server running on a second monitor
can be summarized as follows:
* Get the kernel patch, fbset, and con2fb.
* Patch the kernel, configure, rebuild, and reboot.
* Add XF86_FBDev section to XF86Config file and set X link.
Then each time you reboot:
* Move a console over. e.g. "con2fb /dev/fb1 /dev/tty6"
* Adjust the settings e.g. "fbset -fb /dev/fb1 1280x1024"
* Set the FRAMEBUFFER. e.g. "export FRAMEBUFFER=/dev/fb1"
* Start the X server. e.g. "startx -- -bpp 16 vt06"
You can automate this each time you reboot via a shell alias. It
must be an alias and not a shell script since it needs to detect the
current console number. This is my C-shell alias to start up X on
a second fixed frequency monitor:
alias startxfb = "
setenv FRAMEBUFFER /dev/fb\!*; # Set the env var to the cmd arg.
con2fb $FRAMEBUFFER /dev/$tty; # Move the fb to the current tty.
fbset -fb $FRAMEBUFFER 1280x1024@62; # Favorite from /etc/fb.modes
startx -- -bpp 16 vt0`echo $tty | cut -dy f 2`' # X on this tty.
"
In my .cshrc file these are all on the same line together without
the comments, but it's easier to read here with line breaks and
comments inserted. I just give the number of the frame buffer as an
argument and it starts right up.
I'm not sure how to do this same alias in bash. I don't know how to
determine the current tty or get the arguments to an alias in
bash. If someone lets me know I'll insert it here.
______________________________________________________________________
6. Other Notes and Problems
* Both "fbset" and "startx" MUST be run from the same frame buffer
as the one being affected. This places serious limits on how much
of these commands can be automated via scripts.
* XFree86 4.0 will have multi-head support, but 3.3.1 does not. Since
you can only have one X server running on one machine at a time, only
one monitor can be in X at a time.
* The monitor that's not selected doesn't always preseve it's state
when not active. (But it usually does.)
* Linus Torvalds doesn't agree with the current multi-head console
support changes so it may never be in the mainstream kernel tree.
(This was heard third hand and may be wildly untrue.)
* If you "break the rules" and start the X server (run "startx")
from a different monitor, the machine can eventually crash badly
with the keyboard and mouse input all mixed together.
* The documentation framebuffer.txt in the kernel source explains
that you can use the Modeline settings in your XF86Config file
directly when running X. Using the Matrox frame buffer seems to
force the X server to drop all of those. So you can only have the
one ("default") setting at at time (the same one you had in text
mode).
* The XF86_FBDev is unaccelerated. However, there are patches for
accelerated Matrox support at
http://www.in-berlin.de/User/kraxel/xfree86/
______________________________________________________________________
7. Related documents
* The Frame Buffer HOWTO
* All the documents in the frame buffer section of the Linux kernel
source: linux/Documentation/fb/ In particular: framebuffer.txt and
matroxfb.txt
* The man pages included with "fbset".
* The XFree86 release notes on the XF86_FBDev X server
______________________________________________________________________
Appendix A. Octave cvtmode.m script
(note the bpp setting)
#!/usr/bin/octave -q
bpp = 16;
DCF = sscanf(argv(1,:), "%f");
HR = sscanf(argv(2,:), "%f");
SH1 = sscanf(argv(3,:), "%f");
SH2 = sscanf(argv(4,:), "%f");
HFL = sscanf(argv(5,:), "%f");
VR = sscanf(argv(6,:), "%f");
SV1 = sscanf(argv(7,:), "%f");
SV2 = sscanf(argv(8,:), "%f");
VFL = sscanf(argv(9,:), "%f");
pixclock = 1000000 / DCF;
left_margin = HFL - SH2;
right_margin = SH1 - HR;
hsync_len = SH2 - SH1;
# 3) vertical timings:
upper_margin = VFL - SV2;
lower_margin = SV1 - VR;
vsync_len = SV2 - SV1;
RR = DCF / (HFL * VFL) *1e6;
HSF = DCF / HFL * 1e3;
printf("mode \"%dx%d\"\n",HR,VR);
printf(" # D: %3.2f MHz, H: %3.2f kHz, V: %2.2f Hz\n", DCF, HSF, RR);
printf(" geometry %d %d %d %d %d\n", HR, VR, HR, VR, bpp);
printf(" timings %d %d %d %d %d %d %d\n", ...
pixclock, left_margin, right_margin, ...
upper_margin, lower_margin, ...
hsync_len, vsync_len);
printf("endmode\n");
______________________________________________________________________
Appendix B. Borne Shell script "cvtfile"
(This calls the octave script "cvtmode")
#!/bin/sh
# Shell script to convert XF86Config file to fb.modes file.
# Uses octave script cvtmode.m
if [ -z $1 ]; then
FILE=/etc/X11/XF86Config
else
FILE=$1
fi
i=1
LEN=`grep Modeline $FILE | wc -l`
while expr $i \< $LEN > /dev/null ;
do
CURLINE=`grep Modeline $FILE | cut -d'"' -f 3-20 | head -$i | tail -1 `
./cvtmode.m $CURLINE
echo " "
i=`expr $i + 1`
done
______________________________________________________________________
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