Video Mode Selection Support 2.13¶
Copyright: | © 1995–1999 Martin Mares, <mj@ucw.cz> |
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Intro¶
This small document describes the “Video Mode Selection” feature which allows the use of various special video modes supported by the video BIOS. Due to usage of the BIOS, the selection is limited to boot time (before the kernel decompression starts) and works only on 80X86 machines that are booted through BIOS firmware (as opposed to through UEFI, kexec, etc.).
Note
Short intro for the impatient: Just use vga=ask for the first time,
enter scan
on the video mode prompt, pick the mode you want to use,
remember its mode ID (the four-digit hexadecimal number) and then
set the vga parameter to this number (converted to decimal first).
The video mode to be used is selected by a kernel parameter which can be specified in the kernel Makefile (the SVGA_MODE=… line) or by the “vga=…” option of LILO (or some other boot loader you use) or by the “xrandr” utility (present in standard Linux utility packages). You can use the following values of this parameter:
NORMAL_VGA - Standard 80x25 mode available on all display adapters.
EXTENDED_VGA - Standard 8-pixel font mode: 80x43 on EGA, 80x50 on VGA.
ASK_VGA - Display a video mode menu upon startup (see below).
0..35 - Menu item number (when you have used the menu to view the list of
modes available on your adapter, you can specify the menu item you want
to use). 0..9 correspond to "0".."9", 10..35 to "a".."z". Warning: the
mode list displayed may vary as the kernel version changes, because the
modes are listed in a "first detected -- first displayed" manner. It's
better to use absolute mode numbers instead.
0x.... - Hexadecimal video mode ID (also displayed on the menu, see below
for exact meaning of the ID). Warning: LILO doesn't support
hexadecimal numbers -- you have to convert it to decimal manually.
Mode IDs¶
Because of the complexity of all the video stuff, the video mode IDs used here are also a bit complex. A video mode ID is a 16-bit number usually expressed in a hexadecimal notation (starting with “0x”). You can set a mode by entering its mode directly if you know it even if it isn’t shown on the menu.
The ID numbers can be divided to those regions:
0x0000 to 0x00ff - menu item references. 0x0000 is the first item. Don't use
outside the menu as this can change from boot to boot (especially if you
have used the ``scan`` feature).
0x0100 to 0x017f - standard BIOS modes. The ID is a BIOS video mode number
(as presented to INT 10, function 00) increased by 0x0100.
0x0200 to 0x08ff - VESA BIOS modes. The ID is a VESA mode ID increased by
0x0100. All VESA modes should be autodetected and shown on the menu.
0x0900 to 0x09ff - Video7 special modes. Set by calling INT 0x10, AX=0x6f05.
(Usually 940=80x43, 941=132x25, 942=132x44, 943=80x60, 944=100x60,
945=132x28 for the standard Video7 BIOS)
0x0f00 to 0x0fff - special modes (they are set by various tricks -- usually
by modifying one of the standard modes). Currently available:
0x0f00 standard 80x25, don't reset mode if already set (=FFFF)
0x0f01 standard with 8-point font: 80x43 on EGA, 80x50 on VGA
0x0f02 VGA 80x43 (VGA switched to 350 scanlines with a 8-point font)
0x0f03 VGA 80x28 (standard VGA scans, but 14-point font)
0x0f04 leave current video mode
0x0f05 VGA 80x30 (480 scans, 16-point font)
0x0f06 VGA 80x34 (480 scans, 14-point font)
0x0f07 VGA 80x60 (480 scans, 8-point font)
0x0f08 Graphics hack (see the VIDEO_GFX_HACK paragraph below)
0x1000 to 0x7fff - modes specified by resolution. The code has a "0xRRCC"
form where RR is a number of rows and CC is a number of columns.
E.g., 0x1950 corresponds to a 80x25 mode, 0x2b84 to 132x43 etc.
This is the only fully portable way to refer to a non-standard mode,
but it relies on the mode being found and displayed on the menu
(remember that mode scanning is not done automatically).
0xff00 to 0xffff - aliases for backward compatibility:
0xffff equivalent to 0x0f00 (standard 80x25)
0xfffe equivalent to 0x0f01 (EGA 80x43 or VGA 80x50)
If you add 0x8000 to the mode ID, the program will try to recalculate vertical display timing according to mode parameters, which can be used to eliminate some annoying bugs of certain VGA BIOSes (usually those used for cards with S3 chipsets and old Cirrus Logic BIOSes) – mainly extra lines at the end of the display.
Options¶
Build options for arch/x86/boot/* are selected by the kernel kconfig utility and the kernel .config file.
VIDEO_GFX_HACK - includes special hack for setting of graphics modes to be used later by special drivers. Allows to set _any_ BIOS mode including graphic ones and forcing specific text screen resolution instead of peeking it from BIOS variables. Don’t use unless you think you know what you’re doing. To activate this setup, use mode number 0x0f08 (see the Mode IDs section above).
Still doesn’t work?¶
When the mode detection doesn’t work (e.g., the mode list is incorrect or the machine hangs instead of displaying the menu), try to switch off some of the configuration options listed under “Options”. If it fails, you can still use your kernel with the video mode set directly via the kernel parameter.
In either case, please send me a bug report containing what _exactly_ happens and how do the configuration switches affect the behaviour of the bug.
If you start Linux from M$-DOS, you might also use some DOS tools for video mode setting. In this case, you must specify the 0x0f04 mode (“leave current settings”) to Linux, because if you don’t and you use any non-standard mode, Linux will switch to 80x25 automatically.
If you set some extended mode and there’s one or more extra lines on the bottom of the display containing already scrolled-out text, your VGA BIOS contains the most common video BIOS bug called “incorrect vertical display end setting”. Adding 0x8000 to the mode ID might fix the problem. Unfortunately, this must be done manually – no autodetection mechanisms are available.
History¶
1.0 (??-Nov-95) | First version supporting all adapters supported by the old setup.S + Cirrus Logic 54XX. Present in some 1.3.4? kernels and then removed due to instability on some machines. |
2.0 (28-Jan-96) | Rewritten from scratch. Cirrus Logic 64XX support added, almost everything is configurable, the VESA support should be much more stable, explicit mode numbering allowed, “scan” implemented etc. |
2.1 (30-Jan-96) | VESA modes moved to 0x200-0x3ff. Mode selection by resolution supported. Few bugs fixed. VESA modes are listed prior to modes supplied by SVGA autodetection as they are more reliable. CLGD autodetect works better. Doesn’t depend on 80x25 being active when started. Scanning fixed. 80x43 (any VGA) added. Code cleaned up. |
2.2 (01-Feb-96) | EGA 80x43 fixed. VESA extended to 0x200-0x4ff (non-standard 02XX VESA modes work now). Display end bug workaround supported. Special modes renumbered to allow adding of the “recalculate” flag, 0xffff and 0xfffe became aliases instead of real IDs. Screen contents retained during mode changes. |
2.3 (15-Mar-96) | Changed to work with 1.3.74 kernel. |
2.4 (18-Mar-96) | Added patches by Hans Lermen fixing a memory overwrite problem with some boot loaders. Memory management rewritten to reflect these changes. Unfortunately, screen contents retaining works only with some loaders now. Added a Tseng 132x60 mode. |
2.5 (19-Mar-96) | Fixed a VESA mode scanning bug introduced in 2.4. |
2.6 (25-Mar-96) | Some VESA BIOS errors not reported – it fixes error reports on several cards with broken VESA code (e.g., ATI VGA). |
2.7 (09-Apr-96) |
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2.8 (14-Apr-96) |
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2.9 (12-May-96) |
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2.10(11-Nov-96) |
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2.11(03-May-97) |
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2.12(25-May-98) | Added support for VESA frame buffer graphics. |
2.13(14-May-99) | Minor documentation fixes. |