Note: Do everything that follows logged on as root.
There are three distinct stages that need not be followed in the order listed here (please feel free to use your imagination). Said stages are;
get and install X4.x
get and compile kernel 2.2.18 or 2.4.x (including mknod agpgart stuff)
nimbly tweak XF86Config
The first stage is of course listed only as a guide for those who have perhaps tried getting XFree86 3.3.6 working with the i810 and failed, or perhaps those who have not even heard that X4.x supports the i810 and have been struggling vainly with their XF86Config file. I suppose the majority of people who find these instructions useful will have already loaded X4.x. You lot can skip this bit. Anyway, if you do need to know, X4.x can be got from; ftp://ftp.xfree86.org/pub/XFree86/4.0/binaries
But before you rush ahead and download away you must first be sure which version of X4.x suits your system. So download Xinstall.sh on its own and run (from within the folder containing Xinstall.sh):
sh Xinstall.sh -check
The results will direct you to the correct folder within the above mentioned URL from where the appropriate files for your system can be downloaded.
For a basic installation and to save time downloading one needs only the following absolute necessities, without exception (the others are optional and when included in the install process, I feel, increase the chances of things going wrong for the unwary and inexperienced):
extract[.exe] | Xdoc.tgz | Xvar.tgz |
Xbin.tgz | Xfenc.tgz | Xxserv.tgz |
Xlib.tgz | Xfnts.tgz | Xmod.tgz |
Xman.tgz | Xetc.tgz |
Now knowing which set of files are suited to your system you can go ahead and download whichever suits. Then install with the following command (from within the folder containing freshly downloaded files):
sh Xinstall.sh
If you have been good everything will proceed smoothly. You will be asked some questions which the README file can explain/answer better than I. If something doesn't work as expected I refer you to the far more detailed, aforementioned README file, which you should definitely peruse. As a newbie I always read the readme files before downloading, installing, compiling and even getting up from my seat to go to the toilette. You can never be too sure.
That is the end of this stage.
You can get either kernel from ftp://ftp.kernel.com. Of course, read everything called README while you are at it. (In the README literature that comes with the 2.4.x kernel, there is an important note about where to unpack the source. Make sure you read it.) Put the kernel source file in /usr/src/kernels, and then run the following compile sequence, which I learned from a linuxnewbie article (to which you should refer if my directions are not clear enough for you, however it is specific to 2.2.x kernels). It can be found at the following address; http://www.linuxnewbie.org/nfh/intel/compiling/kernel_update.html. Of course, the location of the still-packed kernel is not really relevant, it only matters that it is unpacked to an acceptable location. OK, now for the commands:
tar -xzvf /usr/src/kernels/linux-2.4.x.tar.gz
or if you downloaded the better compressed bz2 version
bzcat /usr/src/kernels/linux-2.4.x.tar.bz2 | tar xv
and watch the screen spew out pages of information about what's happening. When it is finished it will have created a new linux folder.
OK, so, change to the new directory:
cd linux
and begin the compile process proper...
make config
Or preferably
make menuconfig
There's also make xconfig, but you haven't got X running, or you wouldn't be reading this. So that won't work. And I'm embarrassed to mention it in such an imperfect fashion but there is also something like make oldconfig but I can't find any reference to it in my books. In any case I am not addressing it here, though I am sure the procedure for it is very similar to that which follows for make menuconfig, should you be awkward and want to use it.
Now, I have gone through three text based kernel compiles (make config) and know how long winded they are. I reommend make menuconfig instead, which requires only that ncurses be loaded (you don't need X) and you will be taken through the pretty face of kernel recompilation. I loaded ncurses during a custom install of Red Hat 6.1, but I forget exactly at which stage that option is available. Otherwise ncurses is, I'm sure, on your distro's CD in rpm format, so if issuing make menuconfig just produces errors, install ncurses and try again.
The most relevant stages of the make process for solving our particular problem are:
to select EXPERIMENTAL early on (by hitting return while the very first option is highlighted and then selecting the only suboption which is consequently revealed),
towards the bottom of the base options, to enter "Character Devices" and select (not as "M" but as "*") "/dev/agpgart (AGP) support" (only available if the above instruction has been followed), and
select the appropriate sub-option of "/dev/agpgart (AGP) support" (again not as a module "M" but as a static part of the kernel "*"), namely the "I810/I810 dc100I810e support" part.
Note: The above explanation assumes you have run make menuconfig and so a little thinkology will be required to map it to a situation where make has been issued instead. But only a little.
(It has been pointed out to me that loading these features as modules would be more logical, since they are not required until startx is run. I have not tried the 'loadable module way' yet and will ammend this section of the HOWTO after I have tested it. I recommend the static mode here because I ran this procedure on a test version of the 2.4.x kernel and it was suggested to me that loading statically was a safer and stabler way to go. Now that 2.4.x is officially out there, perhaps modules will be more sensible. I'll let you know how it goes. (Thanks to Heron Ordonez for this.))
When all is over and you feel calm enough, do this;
make dep |
make clean (not violently necessary but does no harm) |
make bzImage (takes a while, this bit) |
make modules |
make modules_install |
Now have a look at the /boot directory. You will probably see that System.map is a symbolic link to System.map-[your_kernel_version] and vmlinuz is a symbolic link to vmlinuz-[your_kernel_version]. This arrangement is true for many distros, but not all. I think some store vmlinuz in /, while System.map resides in /boot. Whatever the case is, use your brain and apply these instructions accordingly. So, basically you need to remove the symbolic links like so:
rm System.map |
rm vmlinuz |
Then new symbolic links need to be created to the about-to-be-copied-over-while-simultaneously-being-renamed, recently created files. It goes like this (assuming you have an i386 computer):
cp /usr/src/kernels/linux/arch/i386/boot/bzImage /boot/vmlinuz-2.4.x |
ln -s /boot/vmlinuz-2.4.x /boot/vmlinuz |
cp /usr/src/kernels/linux/System.map /boot/System.map-2.4.x |
ln -s /boot/System.map-2.4.x /boot/System.map |
Tip: You don't need to use absolute pathnames if you are in /boot. But if you are the excessively cautious type and do use absolute pathnames, you just have longer names for your symbolic files. In fact the whole symbolic link thing here is only necessary if you want to play it that way. Essentially, minimalistically, you can have one kernel called vmlinuz and name all the others by their version number (or just trash them!), and swap all the names around when you want to boot another kernel. Or give each kernel a unique name, and have one entry per kernel in /etc/lilo.conf. It's up to you.
Now you need to edit /etc/lilo.conf. This is achieved thusly:
image=/boot/vmlinuz |
label=[what-ever-you-want-that-is-relevant-easy-to-type-and-remember] |
read-only |
root=/dev/hda[n] |
After editing lilo.conf you must do this:
/sbin/lilo
so that the crisp, shiny, new linux kernel be made known to lilo, otherwise (I have experienced this) the new kernel will not be available for booting. Which would be silly. So after all this take a deep breath and reboot, select your new kernel and with fingers crossed, watch. It should work. If it does, go and celebrate a little. But don't let it get to your head because you have yet to mknod the agpgart module, a simple yet essential procedure done thusly:
cd /dev |
mknod agpgart c 10 175 |
which basically creates the very essential character device (X won't run without it) driver which acts kinda like a 'go-between' for the i810 chipset and the X server. (Thanks to Heron Ordonez for saving me some embarrassment here.) Pretty scientic stuff. Sorry about that.
That was the end of this stage.
I've done a lot of this and it get's mighty tedious when it fails 23 times in a row I CAN TELL YOU, so pay attention and read very closely the man page (run man XF86Config at the command prompt). First of all I recommend running the in-no-way-user-friendly xf86config (observe case!) to genertate a base XF86Config file as the other tools seem to produce XF86Config files which are in my experience incompatible with X4.x. When you run through the questions xf86config asks and you reach the card section, there will be nothing for you to choose, so choose that very nothing. You'll be entering the right stuff later, after the base file has been created. Then, after answering all the questions as well as you can, save the file as /etc/X11/XF86Config.
So, finally, the all important addition is:
Section "Device" |
Identifier "i810" |
Driver "i810" |
VideoRam "4096" |
and it should be inserted in the Graphics Device Section. There should in any case be an existing "Device" section which you could edit if you prefer. From thereon you should, having defined the i810 for X, enter "i810" wherever you see a "Device" field. I am including a couple of sections from my XF86Config file as an example, and hopefully to make a little clearer what I mean:
Section "Device" |
Identifier "i810" |
Driver "i810" |
VideoRam "4096" |
Section "Screen" |
Identifier "Screen 1" |
Device "i810" |
Monitor "Highscreen 17inch" |
DefaultColorDepth 24 |
SubSection "Display" |
Depth 8 |
Modes "1024x768" |
EndSubSection |
SubSection "Display" |
Depth 15 |
Modes "1024x768" |
EndSubSection |
SubSection "Display" |
Depth 16 |
Modes "1024x768" |
EndSubSection |
SubSection "Display" |
Depth 24 |
Modes "1024x768" |
EndSubSection |
SubSection "Display" |
Depth 32 |
Modes "1024x768" |
EndSubSection |
EndSection |
Warning |
As you can see I have only given X the option of "1024x768", and have a default colour depth of 24 bits, because I like it that way, and the i810 can easily cope with that resolution and depth on my 17" monitor. How that would work on a 21" I do not know. Experimentation will teach you. |
I am going to be boring and say it again, but a more complete understanding than I can give here of the mysteries of the XF86Config file can be achieved by closely reading the man page (see above). This is really important if you want to have a chance of solving any problems that are bound to come up now and again, that have not been covered here.
That should do it. Now save XF86Config and run:
startx
It should work. It did for me. You will be happy. If not contact me at <[email protected]> and I will endeavour to help you.
Note: This is a kind of a p.s. to this section but may be helpful. I had a wee problem when going through the XF86Config part of this HOWTO during a test run. It stemmed from having read but not fully understood some blurb about the i810 and X4.x not working at all resolutions with a buffer extension (or something like that). Anyway, I made no notes about this and cannot therefore remember exactly what I read. Because I remember this vaguely I can only say the following with certainty; you need the following stanza at the beginning of your XF86Config file:
# This loads the DBE extension module Load "dbe" # Double buffer extension # This loads the miscellaneous extensions module, and disables # initialisation of the XFree86-DGA extension within that module. SubSection "extmod" Option "omit xfree86-dga" # don't initialise the DGA extension EndSubSection So if X reports errors about a "shape extender" or "shape extension", you may well find that your XF86Config file is missing the above listed stanza.