This section describes framebuffer options on Atari m68k platforms.
Colours 320x200 320x480 640x200 640x400 640x480 896x608 1280x960 --------+--------------------------------------------------------- 1 bit | sthigh vga2 falh2 tthigh 2 bits | stmid vga4 4 bits | stlow ttmid/vga16 falh16 8 bits | ttlow vga256
ttlow, ttmid and tthigh are only used by the TT, whilst
vga4, vga15, vga256, falh3 and falh16 are only used by the Falcon.
When used with the kernel option
video=xxx, and no suboption is
given, the kernel will probe for the modes in the following order until
it finds a mode that is possible with the given hardware:
You may specify the particular mode you wish to use, if you don't wish to
auto-probe for the modes you desire. For example,
you a 4 bit 640x480 display.
There are a number of suboptions available with the
inverse- inverts the display so that the background/foreground colours are reversed. Normally the background is black, but with this suboption, it gets sets to white.
font- sets the font to use in text modes. Currently you can only select
PEARL8x8. The default is to use the
VGA8x8only if the vertical size of the display is less than 400 pixels, otherwise it defaults to
internal- a very interesting option. See the next section for information.
external- as above.
monitorcap- describes the capabilities for multisyncs. DON'T use with a fixed sync monitor!
This option specifies the capabilities of some extended internal video
hardware, i.e OverScan modes.
(yres) gives the
extended dimensions of the screen.
If your OverScan mode needs a black border, you'll need to write the last
three arguments of the
(xres_max) is the
maximum line length that the hardware allows,
(yres_max) is the
maximum number of lines, and
(offset) is the offset of the visible
part of the screen memory to its physical start, in bytes.
Often extended internal video hardware has to be activated, for this you
will need the
"switches=*" options. [Note: Author would like extra
information on this, please. The m68k documentation in the kernel isn't
clear enough on this point, and he doesn't have an Atari! Examples would
be helpful too]
This is quite complicated, so this document will attempt to explain as clearly as possible, but the Author would appreciate if someone would give this a look over and see that he hasn't fscked something up! :o)
This suboption specifies that you have an external video hardware (most likely a graphic board), and how to use it with Linux. The kernel is basically limited to what it knows of the internal video hardware, so you have to supply the parameters it needs in order to be able to use external video hardware. There are two limitations; you must switch to that mode before booting, and once booted, you can't change modes.
The first three parameters are obvious; gives the dimensions of the screen as pixel height, width and depth. The depth supplied should be the number of colours is 2^n that of the number of planes required. For example, if you desire to use a 256 colour display, then you need to give 8 as the depth. This depends on the external graphic hardware, though so you will be limited by what the hardware can do.
Following from this, you also need to tell the kernel how the video memory
is organised - supply a letter as the
n- use normal planes, i.e one whole plane after another
i- use interleaved planes, i.e. 16 bits of the first plane, then the 16 bits of the next plane and so on. Only built-in Atari video modes uses this - and there are no graphic card that supports this mode.
p- use packed pixels, i.e consecutive bits stands for all planes for a pixel. This is the most common mode for 256 colour displays on graphic cards.
t- use true colour, i.e this is actually packed pixels, but does not require a colour lookup table like what other packed pixel modes uses. These modes are normally 24 bit displays - gives you 16.8 million colours.
However, for monochrome modes, the
(org) parameter has a
n- use normal colours, i.e 0=white, 1=black
i- use inverted colours, i.e. 0=black, 1=white
The next important item about the video hardware is the base address of
the video memory. That is given by the
(scrmem) parameter as a
hexadecimal number with an
0x prefix. You will need to find this out
from the documentation that comes with your external video hardware.
The next paramter
(scrlen) tells the kernel about the size of the
video memory. If it's missing, this is calculated from the
(depth) parameters. It's not useful to write a value
here these days anyway. To leave this empty, give two consecutive
semicolons if you need to give the
(vgabase) parameter, otherwise,
just leave it.
(vgabase) parameter is optional. If it isn't given, the kernel
can't read/write any colour registers of the video hardware, and thus you
have to set up the appropriate colours before you boot Linux. But if your
card is VGA compatible, you can give it the address where it can locate
the VGA register set so it can change the colour lookup tables. This
information can be found in your external video hardware documentation. To
make this clear,
(vgabase) is the base address, i.e a 4k
aligned address. For reading/writing the colour registers, the kernel uses
the address range between
(vgabase) + 0x3c7 and
0x3c9. This parameter is given in hexadecimal and must have a
prefix, just like
(colw) is only meaningful, if the
(vgabase) parameter is
specified. It tells the kernel how wide each of the colour register is,
i.e the number of bits per single colour (red/green/blue). Default is
usually 6 bits, but it is also common to specify 8 bits.
(coltype) is used with the
(vgabase) parameter, it tells the
kernel about the colour register model of your graphic board. Currently
the types supported are
vga is the default.
(xres_virtual) is only required for the ProMST/ET4000 cards where the
physical linelength differs from the visible length. With ProMST, you need
to supply 2048, whilst for ET4000, it depends on the initialisation of the